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1 2 3 4 | Users Manual | May 16 2019 / December 03 2019 | ||||||
1 2 3 4 | Internal Photos | May 16 2019 / December 03 2019 | ||||||
1 2 3 4 | External Photos | May 16 2019 / December 03 2019 | ||||||
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Label info | ID Label/Location Info | 34.87 KiB | / June 06 2019 | |||
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Label location | ID Label/Location Info | 120.28 KiB | / June 06 2019 | |||
1 2 3 4 | Block diagram | Block Diagram | May 16 2019 | confidential | ||||
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Calibration 1 | Test Report | 4.33 MiB | / June 06 2019 | |||
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Calibration 2 | Test Report | 4.88 MiB | / June 06 2019 | |||
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Calibration 3 | Test Report | 5.47 MiB | / June 06 2019 | |||
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Confidential request letter | Cover Letter(s) | 132.09 KiB | / June 06 2019 | |||
1 2 3 4 | OpDes EIRP simulation | Operational Description | May 16 2019 | confidential | ||||
1 2 3 4 | Operational description | Operational Description | May 16 2019 | confidential | ||||
1 2 3 4 | RF Exposure Info | May 24 2019 / June 06 2019 | ||||||
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PD Simulation part 1 rev1 | RF Exposure Info | 3.84 MiB | June 06 2019 | |||
1 2 3 4 | RF Exposure Info | May 24 2019 / June 06 2019 | ||||||
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PD Simulation part 2 rev1 | RF Exposure Info | 3.93 MiB | June 06 2019 | |||
1 2 3 4 | RF Exposure Info | May 24 2019 / June 06 2019 | ||||||
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PD Simulation part 3 rev1 | RF Exposure Info | 3.92 MiB | June 06 2019 | |||
1 2 3 4 | RF Exposure Info | May 24 2019 / June 06 2019 | ||||||
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PD Simulation part 4 rev1 | RF Exposure Info | 3.75 MiB | June 06 2019 | |||
1 2 3 4 | RF Exposure Info | May 24 2019 / June 06 2019 | ||||||
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PD Simulation part 5 rev1 | RF Exposure Info | 3.78 MiB | June 06 2019 | |||
1 2 3 4 | RF Exposure Info | May 24 2019 / June 06 2019 | ||||||
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PD Simulation part 6 rev1 | RF Exposure Info | 4.18 MiB | June 06 2019 | |||
1 2 3 4 | RF Exposure Info | May 24 2019 / June 06 2019 | ||||||
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PD Simulation part 7 rev1 | RF Exposure Info | 3.67 MiB | June 06 2019 | |||
1 2 3 4 | RF Exposure Info | May 16 2019 / June 06 2019 | ||||||
1 2 3 4 | RF Exposure Info | May 16 2019 / June 06 2019 | ||||||
1 2 3 4 | RF Exposure Info | May 16 2019 / June 06 2019 | ||||||
1 2 3 4 | RF Exposure Info | May 16 2019 / June 06 2019 | ||||||
1 2 3 4 | RF Exposure Info | May 16 2019 / June 06 2019 | ||||||
1 2 3 4 | RF Exposure Info | May 16 2019 / June 06 2019 | ||||||
1 2 3 4 | RF Exposure Info | May 16 2019 / June 06 2019 | ||||||
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PD test report 1 | RF Exposure Info | 5.02 MiB | / June 06 2019 | |||
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PD test report 2 | RF Exposure Info | 1.13 MiB | / June 06 2019 | |||
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PD test report summary | RF Exposure Info | 353.13 KiB | / June 06 2019 | |||
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Power of Attorney Letter | Cover Letter(s) | 153.01 KiB | / June 06 2019 | |||
1 2 3 4 | Test Report | May 16 2019 / June 06 2019 | ||||||
1 2 3 4 | Test Report | May 24 2019 / June 06 2019 | ||||||
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Part 30 part 1 rev1 | Test Report | 4.41 MiB | / June 06 2019 | |||
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Part 30 part 2 | Test Report | 5.02 MiB | / June 06 2019 | |||
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Part 30 part 3 | Test Report | 4.82 MiB | / June 06 2019 | |||
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Part 30 part 4 | Test Report | 4.03 MiB | / June 06 2019 | |||
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Part 30 part 5 | Test Report | 3.84 MiB | / June 06 2019 | |||
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Part 30 part 6 | Test Report | 3.59 MiB | / June 06 2019 | |||
1 2 3 4 | Parts list | Parts List/Tune Up Info | May 16 2019 | confidential | ||||
1 2 3 4 | Qualcomm Uncertainty Analysis | Operational Description | June 06 2019 | confidential | ||||
1 2 3 4 | Test Setup Photos | May 16 2019 / December 03 2019 | ||||||
1 2 3 4 | Schematics | Schematics | May 16 2019 | confidential | ||||
1 2 3 4 | Tune up procedure | Parts List/Tune Up Info | May 16 2019 | confidential | ||||
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Channel declaration | Cover Letter(s) | 10.58 KiB | / June 06 2019 | |||
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DTS rpeort | Test Report | 1.75 MiB | / June 06 2019 | |||
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Declaration of referencing test data | Cover Letter(s) | 87.46 KiB | / June 06 2019 | |||
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SAR part 1 | RF Exposure Info | 4.65 MiB | / June 06 2019 | |||
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SAR part 2 | RF Exposure Info | 4.84 MiB | / June 06 2019 | |||
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SAR part 3 | RF Exposure Info | 3.03 MiB | / June 06 2019 | |||
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SAR part 4 | RF Exposure Info | 3.78 MiB | / June 06 2019 | |||
1 2 3 4 | Test Setup Photos | May 16 2019 / December 03 2019 | ||||||
1 2 3 4 | Test Setup Photos | May 16 2019 / December 03 2019 | ||||||
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Part 22 report | Test Report | 1.87 MiB | / June 06 2019 | |||
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Part 24 report | Test Report | 2.29 MiB | / June 06 2019 | |||
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Part 27 report | Test Report | 5.47 MiB | / June 06 2019 | |||
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Part 90 report | Test Report | 1.72 MiB | / June 06 2019 | |||
1 2 3 4 | Test Setup Photos | May 16 2019 / December 03 2019 | ||||||
1 2 3 4 | Test Setup Photos | May 16 2019 / December 03 2019 | ||||||
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NII report | Test Report | 1.78 MiB | / June 06 2019 | |||
1 2 3 4 | Test Setup Photos | May 16 2019 / December 03 2019 | ||||||
1 2 3 4 | SW security description | Operational Description | May 16 2019 | confidential |
1 2 3 4 | Label info | ID Label/Location Info | 34.87 KiB | / June 06 2019 |
NETGEAR Model MRE0OO HININEIMNANI fe 00 au Ny 525400002000
- agp Mag otra 8 MAC: aca7eaneDTAG Admin Logi atadin WEI Network Name: ATT-WIF20:
WEF! Password: X0000KX. FCC ID: PY3t8100441
1 2 3 4 | Calibration 1 | Test Report | 4.33 MiB | / June 06 2019 |
Appendix - Calibration Certificate for Test Equipment For Above 40GHz:
Description & Manufacturer Model No. 01 Spectrum Analyzer 02 Spectrum Analyzer Agilent Keysight 03 Horn Antenna (33~55GHz) 04 Horn Antenna (50~75GHz) OML OML OML OML OML OML OML 05 Horn Antenna (75~110GHz) 06 Harmonic Mixer (110~170GHz) 07 Horn Antenna(110~170GHz) 08 Harmonic Mixer (140~220GHz) 09 Horn Antenna (140~220GHz) 10 Diplexer EMCI 11 WR15CH Conical Horn 12 WR10CH Conical Horn Keysight Keysight 13 Millimeter-Wave Signal Generator Frequency Extension Module
(50~75 GHz) Keysight 14 Millimeter-Wave Signal Generator Frequency Extension Module
(75~110 GHz) Keysight 15 Millimeter-Wave Signal Generator Frequency Extension Module
(90~140 GHz) VDI 16 Millimeter-Wave Signal Generator Frequency Extension Module
(140~220 GHz) VDI 17 PSG analog signal generator Keysight 18 Millimeter-Wave Signal Spectrum Analyzer Extension Modules (90~140 GHz) 19 Millimeter-Wave Signal Spectrum Analyzer Extension Modules (140~220 GHz) 20 Power meter 21 Waveguide Power Sensor 22 Waveguide Power Sensor Keysight Keysight Keysight E4446A N9041B M22RH Serial No. Cal. Due MY48250253 Aug. 01, 2018 Jul. 31, 2019 Cal. Date US56480107 Aug. 14, 2017 Aug. 13, 2019 110215-1 Oct. 17, 2017 Oct. 16, 2019 M15HWD 110215-1 Oct. 17, 2017 Oct. 16, 2019 M10RH M06RH 110215-1 Oct. 17, 2017 Oct. 16, 2019 110215-1 Oct. 17, 2017 Oct. 16, 2019 M06HWD 110215-1 Oct. 17, 2017 Oct. 16, 2019 M05HWD 110215-1 Oct. 17, 2017 Oct. 16, 2019 M05RH DPL26 110215-1 Oct. 17, 2017 Oct. 16, 2019 DPL26_01 Oct. 17, 2017 Oct. 16, 2019 WR15CH WR15CH-01 Oct. 17, 2017 Oct. 16, 2019 WR10CH WR10CH-01 Oct. 17, 2017 Oct. 16, 2019 E8257DV15 US54250106 Oct. 17, 2017 Oct. 16, 2019 E8257DV10 US53250009 Oct. 17, 2017 Oct. 16, 2019 VDIWR8.0SGX PSGX002 C.O.C. C.O.C. VDIWR5.1SGX PSGX 007 C.O.C. C.O.C. E8257D MY53401987 Jun. 26, 2018 Jun. 25, 2019 VDIWR8.0SAX PXAX002 C.O.C. C.O.C. VDIWR5.1SAX PXAX 007 C.O.C. C.O.C. E4417A V8486A MY55276004 Oct. 17, 2017 Oct. 16, 2019 MY55170003 Oct. 17, 2017 Oct. 16, 2019 W8486A MY55230006 Oct. 17, 2017 Oct. 16, 2019 Keysight Technologies 1400 Fountaingrove Parkway Santa Rosa, California 95403-1738 USA 5962-0476 Certificate No: 988804-1620896-1 Certificate of Calibration Manufacturer: Keysight Technologies Model No: N9041B Options Installed With Specifications: 5CX EA3 EP0 EXM H1G LFE LNP MPB NF2 NUL P50 PFR Date of Calibration: 14-AUG-2017 Temperature: (23 5) C Procedure: EPSG1030476 ThiscertifiesthattheequipmenthasbeencalibratedusingapplicableKeysightTechnologiesproceduresincompliancewith aqualitymanagementsystemregisteredtoISO9001:2015. Description: Spectrum Analyzer Serial No: US56480107 Humidity: (1 to 70)% RH As Received: Factory tested. No incoming data available. As Shipped Conditions: At the completion of the calibration, measured values were IN SPECIFICATION at the points tested. Remarks or special requirements:
Notes:
1) This calibration report shall not be reproduced, except in full. Traceability Information: Measurements are traceable to the International System of Units (SI) via national metrology institutes (www.keysight.com/find/NMI) that are signatories to the CIPM Mutual Recognition Arrangement. Print Date: 18-AUG-2017 certformrev i KeysightTechnologies DD MM YY BY Cal 14 08 17 Due SC Stephanie Cornell Operations Manager Page 1 of 3 Keysight Technologies 1400 Fountaingrove Parkway Santa Rosa, California 95403-1738 USA 5962-0476 Certificate No: 988804-1620896-1 Certificate of Calibration Calibration Equipment Used Date Used: Date equipment used in this calibration Model Number Model Description Trace Number Date Used Cal Due Date Power Meter Power Meter Power Sensor Power Sensor 50 MHz / 0 dBm Power Reference RF Signal Generator Power Sensor RF Signal Generator 50 MHz / -30 dBm Power Reference Power Sensor 50 MHz / -25 dBm Power Reference RF Signal Generator 50 MHz / -25 dBm Power Reference Universal Counter 50 MHz / 0 dBm Power Reference RF Signal Generator E-Series Power Sensor E-Series Power Sensor EPM Series Power Meter 50 MHz / -25 dBm Power Reference RF Signal Generator Multimeter 50 MHz / -25 dBm Power Reference Function Generator Frequency Counter EPM Series Power Meter 50 MHz / 0 dBm Power Reference PNA-X Network Analyzer With Custom Solutions 2.4mm Electronic Calibration Kit 10 MHz to 67 GHz Thermocouple Power Sensors Programmable Step Attenuator Programmable Step Attenuator Multimeter Power Meter 50 MHz / -25 dBm Power Reference Power Meter Signal Generator Power Sensor Power Sensor Signal Generator Frequency Counter RF Signal Generator 50 MHz / -25 dBm Power Reference Power Sensor Power Sensor 50 MHz to 50 GHz Thermocouple Power Sensors 53981 20351 23534 25321 83799 889322 84380 595364 85517 21934 21856 969023 84544 24515 958564 984558 446186 446192 401670 21432 805712 810262 83869 21475 20053 984226 424325 965679 977167 969433 681416 681415 440958 20209 84447 53994 23357 14239 12674 20081 421431 959219 21860 20455 20489 974789 EPM-442A E4419A 8481D 8485A 5065-4616 E8257D 8485A E8257D 5065-4618 8481D 5065-4617 E8257D 5065-4617 53131A 5065-4616 E8257D E4413A E4413A E4419B 5065-4617 E8257D 3458A 5065-4617 33120A 53132A N1914A 5065-4616 N5245AS N4693A N8488A 8496G 8494G 34401A EPM-442A 5065-4617 EPM-442A E4433B 8481D 8482A 8648D 53132A E8257D 5065-4617 8485A 8485A N8487A certformrev i 13-AUG-2017 13-AUG-2017 13-AUG-2017 13-AUG-2017 13-AUG-2017 13-AUG-2017 13-AUG-2017 13-AUG-2017 13-AUG-2017 13-AUG-2017 13-AUG-2017 14-AUG-2017 14-AUG-2017 14-AUG-2017 13-AUG-2017 13-AUG-2017 13-AUG-2017 13-AUG-2017 13-AUG-2017 13-AUG-2017 14-AUG-2017 14-AUG-2017 14-AUG-2017 14-AUG-2017 14-AUG-2017 03-AUG-2017 03-AUG-2017 03-AUG-2017 31-MAY-2018 31-OCT-2017 10-MAR-2018 24-JAN-2019 03-FEB-2018 10-MAR-2019 23-JAN-2018 25-AUG-2018 02-FEB-2018 09-MAY-2018 17-JUL-2018 30-APR-2018 31-JAN-2018 31-MAY-2018 12-JAN-2018 09-NOV-2018 23-MAR-2018 06-OCT-2017 30-APR-2019 11-MAY-2018 18-FEB-2018 31-DEC-2017 01-FEB-2018 30-JUN-2018 31-JUL-2018 09-MAR-2018 28-FEB-2018 31-MAR-2018 03-AUG-2017 03-AUG-2017 14-MAR-2018 19-MAR-2018 23-MAR-2018 23-MAR-2018 30-SEP-2017 31-DEC-2018 22-MAR-2018 31-MAR-2019 31-MAR-2019 14-APR-2018 25-JUL-2018 08-AUG-2018 28-FEB-2018 31-MAY-2019 11-MAY-2018 17-MAR-2019 13-FEB-2019 04-DEC-2017 13-AUG-2017 13-AUG-2017 13-AUG-2017 13-AUG-2017 13-AUG-2017 13-AUG-2017 13-AUG-2017 13-AUG-2017 13-AUG-2017 13-AUG-2017 11-AUG-2017 11-AUG-2017 11-AUG-2017 13-AUG-2017 13-AUG-2017 13-AUG-2017 Page 2 of 3 Keysight Technologies 1400 Fountaingrove Parkway Santa Rosa, California 95403-1738 USA 5962-0476 Certificate No: 988804-1620896-1 Certificate of Calibration Calibration Equipment Used Date Used: Date equipment used in this calibration Model Number Model Description Trace Number Date Used Cal Due Date N8487A E8257D EPM-442A E4419B E8257D 5065-4616 E4417A N4693A N5245AS 5065-4616 N8488A E8257D 5065-4617 8487A 5065-4616 E4419B E8267D 8487A E8257D 5065-4616 E4413A ECP-E26A E4419B 5065-4620 E4437B 8485A 8485A E4437B 5065-4616 EPM-442A 8485A E4419B 5065-4616 50 MHz to 50 GHz Thermocouple Power Sensors RF Signal Generator Power Meter EPM Series Power Meter RF Signal Generator 50 MHz / 0 dBm Power Reference Peak Power Meter 2.4mm Electronic Calibration Kit PNA-X Network Analyzer With Custom Solutions 50 MHz / 0 dBm Power Reference 10 MHz to 67 GHz Thermocouple Power Sensors RF Signal Generator 50 MHz / -25 dBm Power Reference Power Sensor 50 MHz / 0 dBm Power Reference EPM Series Power Meter RF Signal Generator Power Sensor RF Signal Generator 50 MHz / 0 dBm Power Reference E-Series Power Sensor Sensor, CW Power EPM Series Power Meter 50 MHz / -25 dBm Power Reference Signal Generator Power Sensor Power Sensor Signal Generator 50 MHz / 0 dBm Power Reference Power Meter Power Sensor EPM Series Power Meter 50 MHz / 0 dBm Power Reference 975275 972887 259648 411670 970283 87022 972406 965682 980925 421626 975721 977931 85922 21769 84832 417535 429323 85181 878612 83932 446183 960966 260036 84454 388745 14432 21458 23055 84619 20824 84377 21962 419807 13-AUG-2017 11-FEB-2019 13-AUG-2017 13-AUG-2017 13-AUG-2017 13-AUG-2017 13-AUG-2017 13-AUG-2017 13-AUG-2017 13-AUG-2017 31-DEC-2018 31-JUL-2018 31-AUG-2018 31-MAY-2019 10-MAY-2018 14-NOV-2017 21-APR-2018 28-FEB-2018 13-AUG-2017 13-AUG-2017 15-JUN-2018 07-JUL-2018 14-AUG-2017 14-AUG-2017 14-AUG-2017 14-AUG-2017 14-AUG-2017 14-AUG-2017 14-AUG-2017 13-AUG-2017 13-AUG-2017 13-AUG-2017 13-AUG-2017 13-AUG-2017 13-AUG-2017 13-AUG-2017 13-AUG-2017 13-AUG-2017 13-AUG-2017 13-AUG-2017 13-AUG-2017 13-AUG-2017 13-AUG-2017 13-AUG-2017 21-JAN-2018 07-OCT-2017 11-OCT-2017 23-MAR-2018 31-AUG-2018 31-AUG-2018 04-OCT-2017 31-DEC-2017 10-MAY-2018 23-JUN-2018 23-MAR-2018 30-APR-2019 17-MAY-2018 31-MAR-2018 10-JAN-2019 22-MAY-2019 06-SEP-2018 09-MAY-2018 31-MAY-2019 01-JUN-2018 31-JUL-2018 09-MAY-2018 certformrev i Page 3 of 3
1 2 3 4 | Confidential request letter | Cover Letter(s) | 132.09 KiB | / June 06 2019 |
Netgear Incorporated 350 East Plumeria Drive San Jose California 95134 United States Federal Communications Commission 7435 Oakland Mills Road - Gate A Columbia, Maryland 21046 Date: May 6, 2019 Schematic Diagram Block Diagram Parts List Tune-up Procedure Operational Description Software Operational Description Subject: Request for Confidentiality FCC ID: PY319100441 To Whom It May Concern, Pursuant to the provisions of Sections 0.457 and 0.459 of Commissions rules (47CFR0.457, 0.459), we are requesting the Commission to withhold the following attachments as confidential document from public disclosure indefinitely. Above mentioned document contains detailed system and equipment description are considered as proprietary information in operation of the equipment. The public disclosure of above documents might be harmful to our company and would give competitor an unfair advantage in the market. In additional to above mentioned documents, pursuant to Public Notice DA 04-1705 of the Commission s policy, in order to comply with the marketing regulations in 47 CFR 2.803 and the importation rules in 47 CFR 2.1204, while ensuring that business sensitive information remains confidential until the actual marketing of newly authorized devices. We are requesting the commission to grant short-term confidentiality request on the following attachments until 180 days after the Grant Date of Equipment Authorizations. It is our understanding that all measurement test reports, FCC ID label format and correspondent during certification review process cannot be granted as confidential documents and those information will be available for public review once the grant of equipment authorization is issued. Best Regards, David Kay / Director, Regulatory Compliance Netgear Incorporated External Photos Internal Photos Test Setup Photos Users Manual Tel: 4088903160 Fax: 4089078097 E-mail: david.kay@netgear.com
1 2 3 4 | PD Simulation part 1 rev1 | RF Exposure Info | 3.84 MiB | June 06 2019 |
Netgear 5G MHS Travel Router ID:
PY319100441) RF Exposure Compliance Test Report Part 0: SAR and Power Density Characterization
(PD Simulation & Comparison with Measurement)
(FCC Rev. C June 5, 2019 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Revision history Revision history Revision A B C Date May 2019 May 2019 June 2019 Description Initial release Minor update to Table 3.1 Minor update to Section 3.5 Rev. C MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 2 Contents 1 Introduction ........................................................................................................................... 5 2 SAR Characterization ........................................................................................................... 6 2.1 Worst-case SAR determination .................................................................................................................. 6 2.2 SAR design target ...................................................................................................................................... 7 2.3 SAR Char of Netgear 5G MHS Travel Router (FCC ID: PY319100441) .................................................... 7 3 Power Density Characterization ........................................................................................... 9 3.1 Exposure scenarios in PD evaluation ........................................................................................................ 9 3.2 PD characterization overview .................................................................................................................. 10 3.3 Codebook for Netgear 5G MHS Travel Router (FCC ID: PY319100441) ................................................ 12 3.4 PD Simulation and Comparison with Measurement ................................................................................. 15 3.4.1 Simulation Model .................................................................................................................... 15 3.4.2 Simulation Setup .................................................................................................................... 17 3.4.3 Modeling validation with PD measurements ........................................................................... 19 3.4.4 Simulation of PD with validated model.................................................................................... 31 3.5 PD_design_target .................................................................................................................................... 32 3.6 Worst-case housing influence determination ........................................................................................... 32 3.7 PD Char of Netgear 5G MHS Travel Router (FCC ID: PY319100441) .................................................... 33 3.7.1 Scaling factor for single beams ............................................................................................... 33 3.7.2 Scaling factor for beam pairs .................................................................................................. 33 3.7.3 Input power limit ..................................................................................................................... 34 A Worst Phase Derivation for Beam Pair ..............................................................................40 B Scaling Factor & Simulated 4cm2 avg. PD .........................................................................41 C Simulated PD Distribution Plots .........................................................................................61 Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 3 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Contents Figures Figure 2-1: Netgear 5G MHS Travel Router (FCC ID: PY319100441) Antenna Block Diagram .................................... 6 Figure 3-1: Netgear 5G MHS Travel Router (FCC ID: PY319100441) with three QTM052 mmW antenna modules.9 Figure 3-2: EUT surface definition: S1=front, S2=back, S3=right, S4=left, S5=top, S6=bottom ................................... 10 Figure 3-3 High level flow chart for power density characterization ............................................................................. 11 Figure 3-4: Netgear 5G travel router simulation model ................................................................................................ 16 Figure 3-5 Simplified simulation model: a) Module 0, (b) Module 1, (c) Module 2 ....................................................... 17 Figure 3-6 Simulation mesh setup ................................................................................................................................ 18 Figure 3-7 Radiation boundary setup: (a) Module 0, (b) Module 1, (c) Module 2 ......................................................... 18 Figure 3-8: Antenna port excitations in ANSYS EM Suite 2019R2............................................................................... 19 Figure C-1: EUT surface definition..61 Figure C-2: Phasor 0 views for S1 (Front), S2 (Back) & S3 Right).......62 Figure C-3: Phasor 1 views for S1 (Front), S2 (Back) & S5 (Bottom)...63 Figure C-4: Phasor 2 views for S1 (Front), S2 (Back) & S6 (Top) ....64 Tables Table 2-1: Worst-case reported SAR (extracted from Bureau Veritas Report No. SA181015C09: FCC SAR Test Report) ........................................................................................................................................................................... 7 Table 2-2: SAR Char of Netgear 5G MHS Travel Router (FCC ID: PY319100441) ....................................................... 8 Table 3-1: Codebook of Netgear 5G MHS Travel Router (FCC ID: PY319100441) ..................................................... 12 Table 3-2: Beams and surfaces selection for PD correlation ....................................................................................... 20 Table 3-3 Measured and simulated PD distributions for selected beams in n260 band .............................................. 22 Table 3-4 Measured and simulated 4cm2 averaged PD for selected beams with 6 dBm input power ......................... 31 Table 3-5: PD evaluation plane .................................................................................................................................... 32 Table 3-6: input.power.limit calculation ........................................................................................................................ 35 Table 3-7: PD Char of Netgear 5G MHS Travel Router (FCC ID: PY319100441) ....................................................... 36 Table B-1: Scaling Factors ........................................................................................................................................... 41 Table B-2: Simulated 4cm2 Avg. PD in W/m2 on surfaces S1, S2, S3, S5 & S6 ........................................................... 46 Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 4 1 Introduction The equipment under test (EUT) is Netgear 5G MHS Travel Router (FCC ID: PY319100441). It contains the Qualcomm SDM8150 modem supporting 4G WWAN technologies and SDX50 modem supporting mmW 5G NR bands. Both modems are enabled with Qualcomm Smart Transmit feature to control and manage transmitting power in real time and to ensure at all times the time-averaged RF exposure is compliant to the FCC requirement. For WWAN technology, this EUT supports LTE radio and 5G mmW NR. In Part 0 report, the EUT SAR and power density (PD) are characterized for WWAN radios (4G and 5G mmW NR) to determine the power limit that corresponds to the exposure design target after accounting for all device design related uncertainties, i.e., SAR_design_target (< FCC SAR limit) for sub-6 radio and PD_design_target (< FCC PD limit) for mmW radio. The SAR characterization and PD characterization are denoted as SAR Char and PD Char in this report. SAR Char and PD Char will be used as input for Qualcomm Smart Transmit to operate. Both SAR Char and PD Char will be loaded and stored in the EUT via the Embedded File System (EFS), and cannot be accessed by end users. The EUT supports WLAN radio as well but WLAN modem is not enabled with time-averaging algorithm. Refer to Part 1 report for WLAN SAR test report and for simultaneous transmission analysis. Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 5 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report SAR Characterization 2 SAR Characterization SAR Char is generated to cover all LTE bands and exposure scenarios that EUT supports. 2.1 Worst-case SAR determination This EUT is a travel router. The body exposure condition is tested according to the hotspot SAR procedures specified in KDB 941225 D06. A test separation distance of 10 mm is used between the SAM flat phantom and all surfaces with a transmitting antenna within 25 mm from that surface. See Bureau Veritas Report No. SA181015C09: FCC SAR Test Report for details. The worst-case SAR for each band is determined by taking the maximum SAR value among all applicable surfaces tested. Fig.3-1 shows LTE antennas 2 and 3 as part of the SAR measurement. Figure 2-1: Netgear 5G MHS Travel Router (FCC ID: PY319100441) Antenna Block Diagram Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 6 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report SAR Characterization 2.2 SAR design target The total device design related uncertainties of Netgear 5G MHS Travel Router (FCC ID:
PY319100441) is 1dB (k=2), which includes TxAGC and device to device variation. To account for the total uncertainty, SAR_design_target needs to be:
__ < _ 10 10 For FCC SAR requirement of 1.6 W/kg for 1gSAR, the SAR_design_target for Netgear 5G MHS Travel Router (FCC ID: PY319100441) is determined as __ = 1.20 / 1 2.3 SAR Char of Netgear 5G MHS Travel Router (FCC ID:
PY319100441) Referring to Bureau Veritas Report No. SA181015C09: FCC SAR Test Report, the worst-case reported SAR for each LTE band supported is summarized in Table 2-1:
Table 2-1: Worst-case reported SAR (extracted from Bureau Veritas Report No. SA181015C09: FCC SAR Test Report) Band LTE 2 LTE 5 LTE 12 LTE 14 LTE 30 LTE 4/66 Max tune up power Pmax Reported SAR 1g
(dBm)
(W/kg) 24 24 24 24 23.5 24 1.16 0.56 0.59 0.79 1.09 1 With 1.2 W/kg of SAR_design_target, the SAR Char for this EUT is determined and listed in Table 2-2. Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 7 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report SAR Characterization Table 2-2: SAR Char of Netgear 5G MHS Travel Router (FCC ID: PY319100441) Regulatory requirement Reserve_power_margin DSI Tech/Band, Antenna LTE 2 LTE 5 LTE 12 LTE 14 LTE 30 LTE 4/66 FCC 3dB 15 Plimit (dBm) 24.1 27.3 27.1 25.8 23.9 24.8 Comparing maximum tune-up power, Pmax in Table 2-1 to Plimit in Table 2-2 it can be seen that Plimit
> Pmax for all the LTE bands. Therefore, for this EUT, Smart Transmit shall monitor Tx transmission but will not perform power enforcement when only LTE radio is active. Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 8 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization 3 Power Density Characterization Netgear 5G MHS Travel Router (FCC ID: PY319100441) 5G mmW NR contains three Qualcomm QTM052 mmW antenna modules, denoted as QTM 0, 1 & 2 which are installed at three different locations as shown in Fig.3-1. These are referred to as Module or Phasor interchangeably throughout this report. Total 189 beams or antenna array configurations are supported. In this chapter, a hybrid approach using electromagnetic (EM) simulation in combination with measurement is taken to efficiently and conservatively characterize power density profile for Netgear 5G MHS Travel Router (FCC ID: PY319100441). Figure 3-1: Netgear 5G MHS Travel Router (FCC ID: PY319100441) with three QTM052 mmW antenna modules 3.1 Exposure scenarios in PD evaluation In general, for a device operating at frequencies > 6 GHz, the PD is required to be assessed for all antenna configurations (beams) from all mmW antenna modules that are installed inside the device. Furthermore, this PD evaluation should be performed at low, mid, and high channels for each supported mmW band. For this EUT, the 4cm2 spatially-averaged PD is evaluated along the surfaces (S1, S2, S3, S4, S5, S6 as shown in Fig.3-2) of the EUT, and the worst-case PD is determined by taking the maximum PD among all PDs at the evaluated surfaces for each beam/band. Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 9 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Figure 3-2: EUT surface definition: S1=front, S2=back, S3=right, S4=left, S5=bottom, S6=top 3.2 PD characterization overview Parameters used in PD characterization:
The EUT supports total 189 beams in n260 band, where 126 beams are single beams (SISO) and 63 are beam pairs (MIMO) where two single beams are excited at the same time. PD_design_target: The design target for PD compliance as defined in the 80-W5567-3 Rev. A: Compliance Summary Report. It should be less than FCC PD limit to account for all device design related uncertainties. input.power.limit: For a PD characterized wireless device, the input power level at antenna port(s) for each beam corresponding to PD_design_target. PD Char: the table that contains input.power.limit fed to antenna port(s) for all supported beams. Figure 3-3 in the next page outlines the PD Char process. Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 10 S1S2S3S4S5S6 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization 6dBm 6dBm Figure 3-3 High level flow chart for power density characterization Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 11 PD_design_targetSpecify a power density design target, which should be less than power density regulatory limit to account for the total device design uncertaintiesUncertainty Budget Calculate the total device design uncertainty to include worst case RF tune-up accuracy and device-to-device variationPD Char Generation Use validated simulation approach to determine input power limit for all the beams after accounting for the worst-case housing influenceSimulation modeling and validation Correlate the simulated PD distributions with measured PD distribution for the selected beams to validate simulation modelWorst-case housing material Influence Quantification Determine min = min{simulated PD@8dBm measured PD@8dBm}to quantify the worst-case housing influence Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization 3.3 Codebook for Netgear 5G MHS Travel Router (FCC ID:
PY319100441) In general, all the beams that the device supports are specified in the pre-defined codebook. The codebook contains a codeword for each beam in a defined set of beam pairs, which is a list of magnitude and phase weights applied to each active antenna element groups feeds to cause the desired beam to be formed. The codebook is device design specific and generated after evaluating radiation coverage from this specific device. Table 3-1 shows all the beams and their relevant information in the codebook of Netgear 5G MHS Travel Router (FCC ID: PY319100441). There are three QTM mmW modules with module ID =
0, 1 and 2, respectively, as shown in Fig.3-1 & 3-2. The PD evaluation needs to be performed for all the beams listed in Table 3-1. Table 3-1: Codebook of Netgear 5G MHS Travel Router (FCC ID: PY319100441)
(The single beams selected for modeling validation are highlighted in yellow) Beam_ID Module_ID Ant_Type No_active_elements Paired_With 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 1 1 0 0 2 2 1 1 1 1 1 1 0 0 0 0 0 0 2 2 2 2 2 2 1 1 1 DIPOLE PATCH DIPOLE PATCH PATCH DIPOLE DIPOLE DIPOLE DIPOLE PATCH PATCH PATCH DIPOLE DIPOLE DIPOLE PATCH PATCH PATCH PATCH PATCH PATCH DIPOLE DIPOLE DIPOLE DIPOLE DIPOLE PATCH 1 1 1 1 1 1 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 128 129 130 131 132 133 135 134 136 138 137 139 140 142 141 143 144 145 146 147 148 149 150 151 152 153 155 Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 12 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Beam_ID Module_ID Ant_Type No_active_elements Paired_With 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 128 129 130 131 132 133 1 0 0 0 0 2 2 2 2 1 1 1 1 1 0 0 0 0 0 2 2 2 2 2 1 1 1 1 0 0 0 0 2 2 2 2 1 1 0 0 2 2 PATCH DIPOLE DIPOLE PATCH PATCH PATCH PATCH DIPOLE DIPOLE PATCH PATCH PATCH PATCH PATCH PATCH PATCH PATCH PATCH PATCH PATCH PATCH PATCH PATCH PATCH PATCH PATCH PATCH PATCH PATCH PATCH PATCH PATCH PATCH PATCH PATCH PATCH DIPOLE PATCH DIPOLE PATCH PATCH DIPOLE 2 2 2 2 2 2 2 2 2 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 1 1 1 1 1 1 154 156 157 158 159 161 160 162 163 167 166 165 164 168 172 170 169 173 171 178 176 175 174 177 181 180 182 179 183 185 186 184 189 190 187 188 0 1 2 3 4 5 Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 13 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Beam_ID Module_ID Ant_Type No_active_elements Paired_With 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 160 161 162 163 164 165 166 167 168 169 170 171 172 173 174 175 1 1 1 1 1 1 0 0 0 0 0 0 2 2 2 2 2 2 1 1 1 1 0 0 0 0 2 2 2 2 1 1 1 1 1 0 0 0 0 0 2 2 DIPOLE DIPOLE DIPOLE PATCH PATCH PATCH DIPOLE DIPOLE DIPOLE PATCH PATCH PATCH PATCH PATCH PATCH DIPOLE DIPOLE DIPOLE DIPOLE DIPOLE PATCH PATCH DIPOLE DIPOLE PATCH PATCH PATCH PATCH DIPOLE DIPOLE PATCH PATCH PATCH PATCH PATCH PATCH PATCH PATCH PATCH PATCH PATCH PATCH 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 4 4 4 4 4 4 4 4 4 4 4 4 7 6 8 10 9 11 12 14 13 15 16 17 18 19 20 21 22 23 24 25 27 26 28 29 30 31 33 32 34 35 39 38 37 36 40 43 42 45 41 44 49 48 Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 14 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Beam_ID Module_ID Ant_Type No_active_elements Paired_With 176 177 178 179 180 181 182 183 184 185 186 187 188 189 190 2 2 2 1 1 1 1 0 0 0 0 2 2 2 2 PATCH PATCH PATCH PATCH PATCH PATCH PATCH PATCH PATCH PATCH PATCH PATCH PATCH PATCH PATCH 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 47 50 46 54 52 51 53 55 58 56 57 61 62 59 60 3.4 PD Simulation and Comparison with Measurement 3.4.1 Simulation Model The EUT has three QTM052-8L mmW modules highlighted in (Fig.3-4), which contains both dipole and patch antenna arrays. The QTM052_8L is designed by Qualcomm, who have provided the encrypted simulation model of this module for EM simulation. The entire Netgear MHS is first modeled along with housing, mmW modules, all LTE antennas, PCB, shields, LCD, flex cables, and battery etc. as shown below. Mod 2 Mod 1 Mod 0 Figure 3-4: Netgear 5G travel router simulation model Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 15 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization To be practical, as shown in Fig.3-5, the EM simulation is conducted for Module 0, 1 and 2 separately with truncated sections of the device and the relevant PD evaluation planes S1, S2, S3, S5 & S6 at d=10mm where the PD is dominant. More details on surface selection are in Sec. 3.4.4.
(a)
(b)
(c) Figure 3-5: Simplified simulation model: (a) Module 0, (b) Module 1, (c) Module 2 Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 16 Truncated VolumeS3S1S2Truncated VolumeS1S5S2Truncated VolumeS2S6S1 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization These device level simulation models for PD assessment are constructed according to best engineering practices. However, to characterize the mm-wave PD behavior accurately all the important details within at least two wavelengths around each QTM module should be considered and the whole device need not be simulated which can be computationally very memory intensive. 3.4.2 Simulation Setup FEM simulations were performed to assess the power density of the EUT with QTM052-8L modules using ANSYS Electromagnetics Suite 2019.R2. The auto initial mesh defined lambda refinement (i.e., ANSYS refines the initial mesh based on the material-dependent wavelength) and 30% maximum refinement per pass are selected as adaptive options in the simulation setup. The system (ANSYS Electromagnetics suite 2019R2) computes the error, and the iterative process
(solve > error analysis > adaptive refinement) repeats until the convergence criteria is met with maximum magnitude of delta S less than 2% which is defined by the user. As long as convergence is reached, the converged results are accurate. Fig.3-6 shows the adaptive mesh setup over a cross section. Figure 3-6 Simulation mesh setup For radiation boundary, the 2nd order absorbing boundary condition (ABC) is used for all simulations in this report. This radiation boundary simulates an electrically open surface that allows waves to radiate infinitely far into space. The system absorbs the wave via the 2nd order radiation boundary condition, essentially ballooning the boundary infinitely far away from the structure and into space. The radiation boundaries may also be placed relatively close to a structure and can be of arbitrary shape. Per ANSYS recommendations for their simulation tool, the radiation boundary plane must be located at least a quarter wavelength from strongly radiating structure, or at least a tenth of a wavelength from a weakly radiating structure. In this report, about two wavelengths spacing
(15mm) from the truncated EUT in all directions are applied to ensure convergence (see Fig.3-7). This is enough to capture the PD hotspots at d=10mm which fall well within the simulation domain and have been verified later in Table 3-3. Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 17 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization
(a)
(b)
(c) Figure 3-7 Radiation boundary for: (a) Module 0, (b) Module 1, (c) Module 2 Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 18 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Each antenna module 0, 1 & 2 are identical and has 16 ports. Out of these, 8 ports are for 1x4 patch array antennas and 8 ports are for 1x4 dipole array antennas respectively. Out of 8 ports of the patch array, 4 are for vertical polarization feeding and 4 are for horizontal polarization feeding. Whereas, for the dipole, each element in the 1x4 array has 2 differentially fed ports. With the encrypted QTM simulation model, the magnitude and phase information can be loaded for each port by using Edit Sources in ANSYS Electromagnetics suite 2019R2. Fig.3-8 shows the antenna port excitations. Figure 3-8 Antenna port excitations in ANSYS EM Suite 2019R2 After simulating the electric and magnetic (E & H) fields for a single beam formed by an array, the Poynting vector is calculated based on peak (i.e. non-RMS) field values in a grid with 0.95 mm step size, on the appropriate evaluation planes defined in Table 3-2. The Poynting vector at each spatial point is readily available in ANSYS Electromagnetics Suite 2019.R2 through the Field Calculator navigation option. The magnitude of the real part of the Poynting vector (all X, Y, Z components) at each spatial point i.e. the point power density is exported to do the averaging. The spatially averaged power density at each point on a given surface is then calculated by taking the average of the point power density over a 4 square cm area. Thus, the total power density (all X, Y, Z components) through any given surface is used to calculate the averaged power density
=
1 2
|( )|
. dS The PD calculation from the simulated E & H fields for a dual or beam pair is given in Appendix A. 3.4.3 Modeling validation with PD measurements To validate modeling and simulation the process below is followed:
1. Select at-least one beam (i.e., antenna array configuration) per antenna type (dipole and/or patch) and per antenna module. This EUT contains three QTM052-8L mmW antenna modules (Mod 0, Mod 1 and Mod 2). Each module has both dipole and patch antenna arrays. Therefore, the beam selection criteria for each mmW antenna are:
a) three beams (one dipole beam and two patch beams) from Module 0 b) three beams (one dipole beam and two patch beams) from Module 1 three beams (one dipole beam and two patch beams) from Module 2 c) Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 19 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Note: Since the relative phase between two single beams in a beam pair is uncontrolled and could vary from run to run, for the validation purpose, the selection is limited to the single beam antenna array configuration. Additionally, single beam containing a higher number of active antenna elements is selected. For example, a single beam with four active patches should be selected over beam with a single active patch antenna beam. The single beams for modeling validation are already highlighted in yellow in Table 3-1. 2. For a given input power, perform both PD simulation and PD measurement to obtain the simulated PD distributions and measured PD distributions on the surface in front of the antenna array as well as the surfaces that are adjacent to the antenna array as they could potentially have strong radiating energy when considering the orientation of antenna array and type of antenna array (i.e., patch array or dipole array). 3. Validate modeling and simulation by correlating the simulated PD distribution and measured PD distribution for all antenna array configurations selected in Step 1 and for all surfaces selected in Step 2. The modeling validation is performed through correlating the simulated point PD distribution to measured point PD distribution. The difference in 4cm2-avg PD is not used for the purpose of validity of the modeling because the housing material property (for non-metal material) used in the simulation is an approximation (note that accurate material properties are not available at mmW frequencies). This discrepancy in PD magnitude will be used to determine the worst-case housing influence
(due to non-metal material property uncertainty) later in Section 3.6. The worst-case housing influence will be accounted for in PD Char generation for conservative RF exposure assessment, see Section 3.7 for details. Based on the selection criteria described in Step 1 and Step 2, the beams and surfaces selected for modeling validation of the EUT are listed in Table 3-2. Table 3-2: Beams and surfaces selection for PD correlation Band mmW Antenna Beam ID Surface (see Fig.3-3) 0 1 2 n260 56 185 13 37 180 24 48 175 22 S1,S2,S3 S1,S2,S3 S1,S2,S3 S1,S2,S5 S1,S2,S5 S1,S2,S5 S1,S2,S6 S1,S2,S6 S1,S2,S6 Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 20 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization With an input power of 6 dBm for n260 band, PD measurement and PD simulation are conducted for all beams and surfaces listed in Table 3-2:
PD distribution Table 3-3 shows the measured and simulated point PD distributions for all selected beams and surfaces for n260 band. The View column depicts the orientation of the device and the antenna module location is outlined in red. As can be seen, the simulated PD distributions in the truncated domains correlate well with the measured PD distributions for all selected beams on all identified surfaces of the EUT. This confirms that the modeling is a good representation of the actual mmW QTM modules installed in the EUT. The location of the peak PD hotspots on various planes in Bureau Veritas Report No. SP181015C09B: Power Density Measurement Report also match well with simulation. Therefore, the simulation model to be used for performing mmW NR RF exposure assessment is valid for this EUT. 4cm2-averaged PD value Table 3-4 lists the measured 4cm2-averaged PD and simulated 4cm2-averaged PD for all selected beams and surfaces for n260 band. Refer to Bureau Veritas Report No. SP181015C09B: Power Density Measurement Report for measurement details. The discrepancy between simulated and measured PD value will be used to determine worst-
case housing influence for conservative assessment (see Section 3.6). Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 21 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Table 3-3 Measured and simulated PD distributions for selected beams in n260 band Beam ID Surface View Measured PD Simulated PD n260 S1 56 S2 S3 Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 22 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Beam ID Surface S1 185 S2 S3 Rev. A n260 View Measured PD Simulated PD MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 23 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Beam ID Surface S1 13 S2 S3 Rev. A n260 View Measured PD Simulated PD MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 24 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Beam ID Surface View n260 Measured PD Simulated PD S1 37 S2 S5 Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 25 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization n260 Beam ID Surface View Measured PD Simulated PD S1 180 S2 S5 Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 26 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization n260 Beam ID Surface View Measured PD Simulated PD S1 24 S2 S5 Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 27 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization n260 Beam ID Surface View Measured PD Simulated PD S1 48 S2 S6 Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 28 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization n260 Beam ID Surface View Measured PD Simulated PD S1 175 S2 S6 Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 29 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization n260 Beam ID Surface View Measured PD Simulated PD S1 22 S2 S6 Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 30 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Table 3-4 Measured and simulated 4cm2 averaged PD for selected beams with 6 dBm input power Band Beam ID Surface n260 56 185 13 37 180 24 48 175 22 S1 S2 S3 S1 S2 S3 S1 S2 S3 S1 S2 S5 S1 S2 S5 S1 S2 S5 S1 S2 S6 S1 S2 S6 S1 S2 S6 4cm2 avg. PD (W/m2) Sim 2.03 1.25 10.38 2.69 3.16 11.16 10.32 1.34 9.05 1.88 1.14 15.24 1.68 2.25 17.15 7.12 0.53 8.32 1.71 0.84 8.36 2.95 2.85 10.77 8.05 0.41 6.9 Meas. 0.95 0.826 4.84 1.2 1.4 7.64 5.97 0.581 5.33 1.1 0.699 4.09 1.25 1.08 8.07 5.67 0.489 4.66 1.35 0.429 5.02 1.22 1.1 7.42 5.25 0.304 4.95 Delta = Sim. - Meas. (dB) 3.30 1.80 3.31 3.51 3.54 1.65 2.38 3.63 2.30 2.33 2.12 5.71 1.28 3.19 3.27 0.99 0.35 2.52 1.03 2.92 2.22 3.83 4.13 1.62 1.86 1.30 1.44 3.4.4 Simulation of PD with validated model The model is validated in Section 3.4.3 and the PD exposure of EUT can be reliably assessed using the validated simulation approach. In general, all six surfaces of wireless device as shown in Fig. 3-2 should be assessed for RF exposure from mmW radio, and the worst-case PD should be determined by PDworst-case = max{PDs1, PDs2, PDs3, PDs4, PDs5, PDs6} (1) where PDs1, PDs2, PDs3, PDs4, PDs5, PDs6 are the highest 4cm2-averaged PD on surface S1, S2, S3, S4, S5 and S6 of the device. respectively. Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 31 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization However, depending on the location of the mmW module and the antenna array orientation relative to the surface of the device, one or more surface(s) can be excluded for PD calculation as the PD value(s) on the excluded surface(s) will be undoubtedly lower when comparing to other surfaces, thus, the exclusion will have no impact for the worst-case PD determined using Equation 1. For this EUT, based on the location of Mod 0, Mod 1 and Mod 2 shown in Figure 3-1, and type of antenna array (containing in each mmW Ant), the surface planes identified for PD evaluation to determine the worst-case PD are selected and listed in Table 3-5. Table 3-5: PD evaluation plane FRONT BACK RIGHT LEFT BOTTOM TOP MOD 0 MOD 1 MOD 2 S1 yes yes yes S2 yes yes yes S3 S4 S5 yes no no no no no no yes no S6 no no yes The EM simulation is performed to characterize PD at low, mid, and high channels for each supported band. The simulation setup (mesh, convergence criteria and radiation boundary settings) as described in Section 3.4.2, ensures the accurate and reliable result for PD simulation on the planes identified. Both point PD and 4cm2-averaged PD distributions on all the surfaces relevant for each module are plotted for all 189 beams (single & pair) and provided in Appendix C to show that that all PD hotspots at d=10mm are captured in this analysis. 3.5 PD_design_target The 2.8 dB of total uncertainty (k=2) provided by Qualcomm (please refer to document 80-W5669-
4: 5G MHS Travel Router (FCC ID: PY319100441) SDX50/QTM052 Uncertainty Budget for details) includes TxAGC (RF calibration) and IC/element level part to part variation. To account for the total design related uncertainty, PD_design_target need to be:
__ < _ 10 10 For FCC 4cm2-averaged PD requirement of 10 W/m2, the PD_design_target for Netgear 5G MHS Travel Router (FCC ID: PY319100441) is determined as
= 5.2/m2 3.6 Worst-case housing influence determination For non-metal material, the material property cannot be accurately characterized at mmW frequencies to date. The estimated material property for the device housing used in the simulation model could influence the accuracy in simulation for PD amplitude quantification. Since the housing influence on PD could vary from surface to surface where the EM field propagates through, Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 32 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization the most underestimated surface is used to quantify the worst-case housing influence for conservative assessment. For this EUT, when comparing a simulated 4cm2-averaged PD and measured 4 cm2-averaged PD in Table 3-4, the worst error introduced when using the estimated material property in the simulation is 1.65dB for Mod 0, 0.35dB for Mod 1 & 1.03dB for Mod 2. This worst-case housing influence, denoted as = Sim. PD Meas. PD , represents the worst case where RF exposure is underestimated the most in simulation for each module when using the estimated material property for glass/plastics of the housing in the vicinity of the relevant module. For conservative assessment, is used as the worst-case factor and applied to all the beams of a given QTM module to determine input power limits in PD char for compliance (see Section 3.7.3 for details). 3.7 PD Char of Netgear 5G MHS Travel Router (FCC ID:
PY319100441) This section describes the PD Char generation that complies with the PD_design_target determined in Section 3.5 and is compliant to the regulatory power density limit. 3.7.1 Scaling factor for single beams To determine the input power limit at each antenna port, perform simulation at low, mid and high channel for each mmW band supported, with a given input power per active port (i.e., 6 dBm):
1. Obtain PDsurface value (the worst PD among all identified surfaces of the EUT) at all three channels for all single beams specified in the codebook of Table 3-1. 2. Derive a scaling factor at low, mid and high channel, ()____, by using:
, (2)
()____ =
.() 3. Determine the worst-case scaling factor, (), among low, mid and high channels:
() = {(), (), ()}, (3) and apply this scaling factor to the input power at each antenna port. 3.7.2 Scaling factor for beam pairs The relative phase between beam pair is not controlled in QTM052 design and could vary from run to run. Therefore, for beam pair, based on the simulation results, the worst-case scaling factor needs to be determined mathematically to ensure the compliance. For a beam pair, extract the E-fields and H-fields from the corresponding single beams at low, mid and high channel for each supported band and for all identified surfaces of the EUT. For a given beam pair containing beam_a and beam_b, and for a given channel, let relative phase between beam_a and beam_b = , the total PD of the beam pair can be expressed as
() =
1 2
{()}2 + {()}2 + {()}2 Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 33 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization
=
1 2
{( +
) ( +
)
} (4) where, PDx(), PDy() and PDz() are the three components of the (); and are the extracted E-fields and H-fields of beam_a, while and are the extracted E-fields and H-
fields of beam_b. Sweep with a 5 step from 0 to 360 to determine the worst-case which results in the highest () among all identified surfaces for this beam pair at this channel. For details on worst case () derivation, see Appendix A. Follow the above procedure to determine for all three channels, and obtain the scaling factor given by the below equation for low, mid and high channels:
()____ =
(())
, (5) The varies with channel and beam pair, the lowest scaling factor among all three channels, (), is determined for the beam pair i:
() = {(), (), ()}, (6) All the scaling factors for single and pair beams are given in Table B-1 in Appendix B. Also, the simulated 4cm2 averaged PD values on all relevant surfaces for these beams are grouped per module and shown in Table B-2 in Appendix B for low, mid & high channels. 3.7.3 Input power limit The PD Char specifies the limit of input power at any given antenna port that corresponds to PD_design_target for all the beams. Ideally, if there is no uncertainty associated with hardware design, the input power limit, denoted as . (), for beam i can be obtained after accounting for the housing influence
() determined in Section 3.6, given by:
. () = 6 + 10 log(()) + , (7) where 6 is the input power used in simulation; () is the scaling factor obtained from Eq. (3) or Eq. (6) for beam i; is the worst-case housing influence factor (determined in Sec.3.6) for beam i for a module. If simulation overestimates the housing influence, then = (simulated PD measured PD) is negative, which means that the measured PD would be higher than the simulated PD. The input power to antenna elements determined via simulation must be decreased for compliance. Similarly, if simulation underestimates the loss, then is positive (measured PD would be lower than the simulated value). Input power to antenna elements determined via simulation can be increased and still be PD compliant. In reality, the hardware design has uncertainty which must be properly considered. In Section 3.6, the TxAGC uncertainty is embedded in the process of determination. Since TxAGC uncertainty is already accounted for in PD_design_target (see Section 3.5), it needs to be removed to avoid double counting this uncertainty. Thus, Equation 7 is modified to:
If -TxAGC uncertainty < min < TxAGC uncertainty, Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 34 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization
. () = 6 + 10 log(()) , (8) else if min < -TxAGC uncertainty,
. () = 6 + 10 log(()) + ( + TxAGC uncertainty),
(9) else if min > TxAGC uncertainty,
. () = 6 + 10 log(()) + ( TxAGC uncertainty),
(10) Following above logic, the input.power.limit for this EUT can be calculated using Equations (8),
(9) and (10), i.e., Table 3-6: input.power.limit calculation Band Module
(dB) Input.power.limit (dBm) =
Notes 0 1 2 1.65 0.35 1.03 6 + 10 log(()) Using Eg. 8 6 + 10 log(()) Using Eg. 8 6 + 10 log(()) Using Eg. 8 n260 Thus, the EUT PD Char for n260 is shown in Table 3-7. Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 35 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Table 3-7: PD Char of Netgear 5G MHS Travel Router (FCC ID: PY319100441) Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 36 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 37 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 38 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 39 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization A Worst Phase Derivation for Beam Pair For beam pairs, beam ID M+1 ~ N since the relative phase between two beams is unknown finding the worst-case PD by sweeping the relative phase for all possible angles is required for conservative assessment. Assuming E-field and H-field of beam_a are {Ex_a, Ey_a, Ez_a} and {Hx_a, Hy_a, Hz_a}, respectively;
E-field and H-field of beam_b are {Ex_b, Ey_b, Ez_b} and {Hx_b, Hy_b, Hz_b}, respectively; and the relative phase is , for beam pair consisting of beam_a and beam_b, the combined E and H,
{Ex_pair_i, Ey_pair_i, Ez_pair_i} and {Hx_pair_i, Hy_pair_i, Hz_pair_i}, can be expressed as:
()__ = _ + _
()__ = _ + _
()__ = _ + _
()__ = _ + _
()__ = _ + _
()__ = _ + _ The combined PD can then be calculated:
()_ = ()__ ()_
()__ ()__
()__ = ()__ ()__
()__ ()__
()__ = ()__ ()__
()__ ()__
() =
1 2
{()}__ 2
+ {()}__ 2
+ {()}__ 2 Sweep from 0 degree to 360 degree to find the highest PD (out of low, mid and high channel) and its corresponding , , for all the beam pairs specified in the codebook_sim. The worst-case scaling factor s(i) for beam pair will be determined with (). Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 40 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization B Scaling Factor & Simulated 4cm2 avg. PD Table B-1 lists scaling factor S for all the beams that Netgear 5G MHS Travel Router (FCC ID:
PY319100441) supports. NOTE: S = min {S_low, S_mid, S_high}, where S_low, S_mid, S_high are the scaling factors for low, mid, and high channels, respectively. Table B-1 Scaling factors Pair with Beam_ID Beam_ID S_low S_mid S_high S 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 1.894511 1.822598 1.870311 1.822598 1.640721 1.592728 1.750037 1.592728 1.416639 1.453013 1.644395 1.416639 3.284968 2.112418 2.873009 2.112418 3.773369 3.215794 3.315777 3.215794 1.595568 1.804067 1.656144 1.595568 0.684817 0.661019 0.63568 0.63568 0.599691 0.645578 0.62495 0.599691 1.105143 1.128124 1.139341 1.105143 1.090862 1.054742 1.13494 1.054742 0.733241 0.731239 0.79809 0.731239 1.178298 1.131803 1.211332 1.131803 0.608741 0.610208 0.624972 0.608741 0.486896 0.504006 0.530008 0.486896 0.855451 0.670308 0.871337 0.670308 1.910737 1.195424 1.450173 1.195424 1.345133 1.139161 1.181868 1.139161 1.338542 1.320958 1.293994 1.293994 1.727509 1.539791 1.5208 1.312162 1.22253 1.247408 1.22253 2.041065 1.711556 1.619155 1.619155 0.695343 0.780394 0.803968 0.695343 0.528916 0.646113 0.597523 0.528916 0.926562 0.961994 0.948539 0.926562 0.619362 0.624976 0.590332 0.590332 0.742608 0.842642 0.894332 0.742608 0.724201 0.721871 0.792185 0.721871 1.017894 0.997561 1.035393 0.997561 1.5208 Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 41 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Pair with Beam_ID Beam_ID S_low S_mid S_high S 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 128 129 130 131 132 133 134 0.513541 0.535109 0.54184 0.513541 0.649214 0.658204 0.631442 0.631442 1.313951 1.210868 1.219612 1.210868 1.423092 1.439539 1.372798 1.372798 1.436167 1.259252 1.263988 1.259252 1.900019 1.627902 1.504911 1.504911 0.565339 0.723613 0.697906 0.565339 0.579956 0.643589 0.640741 0.579956 0.584955 0.600534 0.620657 0.584955 0.354264 0.341298 0.388711 0.341298 0.383325 0.408141 0.461649 0.383325 0.593539 0.578638 0.580396 0.578638 0.596107 0.610785 0.627395 0.596107 0.838097 0.643953 0.612279 0.612279 0.63563 0.704208 0.63563 0.701807 0.74478 0.651115 0.72452 0.651115 0.690524 0.658476 0.683403 0.658476 0.697708 0.666254 0.69467 0.666254 0.779261 0.680202 0.633961 0.633961 0.764693 0.732956 0.787336 0.732956 0.683049 0.622314 0.660005 0.622314 0.67727 0.647238 0.647238 0.790778 0.810589 0.673462 0.63097 0.63097 0.379276 0.415529 0.48494 0.379276 0.34885 0.336652 0.374514 0.336652 0.523863 0.553797 0.570808 0.523863 0.628293 0.643811 0.634486 0.628293 0.697371 0.656638 0.62419 0.62419 0.626346 0.500845 0.577488 0.500845 0.812305 0.683114 0.664384 0.664384 0.71279 0.664953 0.803622 0.678045 0.642406 0.642406 0.651925 0.538844 0.591278 0.538844 0.797373 0.760124 0.726704 0.726704 0.774026 0.683861 0.62859 0.62859 2.736861 2.885068 2.686437 2.686437 1.698598 1.679451 1.80546 1.679451 2.14656 1.738178 1.99222 1.738178 3.321934 2.718757 2.708398 2.708398 2.693717 2.323272 2.379033 2.323272 2.504248 3.007206 2.759503 2.504248 1.078409 1.150513 1.150531 1.078409 0.664953 0.7237 Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 42 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Pair with Beam_ID Beam_ID S_low S_mid S_high S 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 160 161 162 163 164 165 166 167 168 169 170 171 172 173 174 175 176 1.6851 1.6851 0.925483 0.986478 0.964464 0.925483 1.406462 1.505572 1.534919 1.406462 0.796274 0.756789 0.815663 0.756789 0.595703 0.584718 0.651333 0.584718 0.731611 0.719708 0.759701 0.719708 0.752696 0.711269 0.788606 0.711269 0.805389 0.712952 0.742361 0.712952 0.904909 0.861593 0.903159 0.861593 1.369405 1.097171 1.124166 1.097171 1.027141 0.867594 0.86136 0.86136 1.774461 1.38366 1.373313 1.373313 1.593481 1.301362 1.241975 1.241975 1.102548 0.960958 0.964743 0.960958 2.137858 1.781586 1.12478 1.054696 1.017078 1.017078 0.713139 0.91566 0.930404 0.713139 1.329955 1.358205 1.177966 1.177966 0.938074 1.000947 0.980882 0.938074 1.137856 1.211995 1.224145 1.137856 0.615413 0.592076 0.637769 0.592076 0.61829 0.706628 0.61829 0.619228 0.744198 0.65508 0.712302 0.65508 0.834715 0.791704 0.828539 0.791704 0.932786 0.94264 0.932786 1.07525 1.148981 0.927391 0.91279 0.91279 1.117215 0.955622 0.922318 0.922318 1.399716 1.191156 1.151944 1.151944 0.713781 0.925625 0.931156 0.713781 1.034308 1.118235 0.984997 0.984997 0.344439 0.375107 0.418985 0.344439 0.335132 0.316563 0.337223 0.316563 0.317205 0.299355 0.332572 0.299355 0.317764 0.322742 0.378984 0.317764 0.403991 0.411129 0.459096 0.403991 0.645968 0.526714 0.543528 0.526714 0.549226 0.502862 0.520034 0.502862 0.528303 0.443366 0.430134 0.430134 0.619584 0.552198 0.579553 0.552198 0.912221 0.689063 0.655669 0.655669 0.751321 0.658908 0.646215 0.646215 0.55754 0.482617 0.49397 0.482617 0.597444 0.540843 0.565067 0.540843 Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 43 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Pair with Beam_ID Beam_ID 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 177 178 179 180 181 182 183 184 185 186 187 188 189 190 128 129 130 131 132 133 135 134 136 138 137 139 140 142 141 143 144 145 147 146 148 150 149 151 152 153 155 154 S S_mid S_high S_low 0.97726 0.787972 0.738794 0.738794 0.853945 0.738508 0.678026 0.678026 0.319817 0.336917 0.39955 0.319817 0.326983 0.303276 0.324768 0.303276 0.543028 0.525813 0.56675 0.525813 0.336318 0.347211 0.410254 0.336318 0.579488 0.513302 0.544739 0.513302 0.539948 0.464425 0.461595 0.461595 0.535608 0.465942 0.466089 0.465942 0.813175 0.649954 0.621378 0.621378 0.600862 0.542526 0.568188 0.542526 0.562037 0.483509 0.498099 0.483509 0.737877 0.636755 0.638236 0.636755 1.001351 0.818816 0.735922 0.735922 1.061897 1.077693 0.996782 0.996782 0.819201 0.759725 0.768151 0.759725 0.74267 0.766321 0.844714 0.74267 1.924897 1.385748 1.641728 1.385748 1.544315 1.251483 1.246497 1.246497 0.988332 1.025884 1.021737 0.988332 0.427034 0.418302 0.412982 0.412982 0.370262 0.405042 0.418009 0.370262 0.533758 0.543469 0.552473 0.533758 0.379705 0.364514 0.388854 0.364514 0.381159 0.366963 0.402973 0.366963 0.406305 0.366657 0.37208 0.366657 0.28961 0.333407 0.333569 0.28961 0.291596 0.295248 0.331541 0.291596 0.424538 0.373457 0.397186 0.373457 0.803031 0.587515 0.656154 0.587515 0.694852 0.582275 0.555633 0.555633 0.746312 0.673522 0.650357 0.650357 0.701557 0.582352 0.541592 0.541592 0.682273 0.538449 0.511741 0.511741 1.000122 0.824577 0.771682 0.771682 0.430501 0.549761 0.523354 0.430501 0.310799 0.376263 0.351998 0.310799 0.442292 0.452219 0.407742 0.407742 0.372889 0.375158 0.373894 0.372889 0.417586 0.463967 0.506573 0.417586 0.364605 0.345681 0.365077 0.345681 0.427457 0.413698 0.436421 0.413698 Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 44 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Pair with Beam_ID Beam_ID S_low S_mid S_high S 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 156 157 158 159 161 160 162 163 167 166 165 164 168 172 170 169 173 171 177 178 174 175 176 181 180 182 179 183 185 186 184 189 190 187 188 0.309144 0.284184 0.305682 0.284184 0.302086 0.322519 0.302188 0.302086 0.601094 0.508459 0.507402 0.507402 0.665457 0.573081 0.540297 0.540297 0.767953 0.652117 0.621821 0.621821 0.714186 0.556051 0.509159 0.509159 0.356714 0.458394 0.43598 0.356714 0.335348 0.369316 0.362838 0.335348 0.190159 0.184591 0.196147 0.184591 0.163447 0.149945 0.160977 0.149945 0.174494 0.174278 0.180887 0.174278 0.19708 0.189618 0.195239 0.189618 0.197488 0.188665 0.191769 0.188665 0.346214 0.287287 0.293307 0.287287 0.283963 0.238822 0.240415 0.238822 0.397858 0.319529 0.330884 0.319529 0.407037 0.366403 0.356944 0.356944 0.304139 0.269339 0.25176 0.25176 0.368636 0.29528 0.260291 0.260291 0.506689 0.435307 0.414733 0.414733 0.34483 0.285102 0.276596 0.276596 0.384013 0.334186 0.313734 0.313734 0.342058 0.290502 0.286138 0.286138 0.217884 0.211937 0.225071 0.211937 0.165717 0.155863 0.171489 0.155863 0.252395 0.252933 0.27613 0.252395 0.218895 0.200994 0.215761 0.200994 0.301734 0.282927 0.237751 0.230645 0.230645 0.364146 0.309033 0.284474 0.284474 0.299661 0.263422 0.264554 0.263422 0.345152 0.284653 0.264939 0.264939 0.43787 0.34135 0.322064 0.287719 0.290641 0.287719 0.39583 0.334807 0.306045 0.306045 0.342634 0.34135 0.253272 0.2522 0.2522 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 45 Rev. A Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Table B-2 lists the simulated averaged 4cm2 PD with 6dBm input power for all the beams that Netgear 5G MHS Travel Router (FCC ID: PY319100441) supports. Table B-2 Simulated 4cm2 Avg PD in W/m2 on surfaces S1, S2, S3, S5 & S6 Pair with Beam_ID Beam_ID S1 S2 S3 MODULE 0 (Low Freq.) 2 3.602215 0.537756 3.67066 3 0.484719 0.318074 1.582968 12 8.542226 0.756238 8.519487 13 10.67991 1.014123 10.1226 14 5.684658 1.349715 6.078666 15 1.017216 0.945898 2.721463 16 0.86432 0.699388 3.865789 17 0.727164 0.75306 3.884823 28 10.12578 0.913887 9.572961 29 7.940401 1.524276 8.009688 30 0.691376 0.496709 3.957529 0.75925 0.920888 3.654016 31 41 3.08983 3.039235 6.204536 2.01274 1.342689 7.409443 42 43 2.659985 1.510962 6.98193 44 2.173091 2.150327 7.530512 45 1.914757 1.786554 7.45297 2.55171 7.456574 55 2.595488 56 1.359136 0.81151 8.302122 57 3.334964 3.147311 6.401538 2.06405 1.632656 7.295273 58 130 2.422481 0.300104 2.113221 131 0.347497 0.511425 1.565353 140 6.908502 0.645825 5.421148 141 6.456504 5.3526 142 5.746433 0.647403 3.901728 143 0.883349 1.731444 3.797271 144 1.120999 1.582426 5.062596 145 0.752917 1.410944 2.930468 156 6.987384 0.569528 5.625222 157 6.229671 0.587581 4.374719 158 1.119103 1.665023 4.836086 159 0.815317 1.457423 4.52575 169 1.714565 3.8288 8.049935 170 2.300839 2.956485 9.467864 0.57672 Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 46 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Pair with Beam_ID Beam_ID S1 S2 S3 2 3 12 13 14 15 16 17 28 29 30 31 41 42 43 44 45 55 56 57 58 2.61537 171 2.321955 9.84284 172 1.515781 2.674513 8.392728 173 1.521688 2.783393 5.700374 183 1.802587 3.38212 8.973446 184 2.070247 2.741937 9.630551 185 2.383022 2.416916 9.708592 186 1.155117 2.962416 6.394691 130 7.001763 0.929734 6.755671 131 0.981587 0.976698 2.701444 140 17.95521 2.022793 15.25222 17.8329 2.067996 15.95672 142 2.2417 11.74253 141 12.24861 143 2.215722 3.47807 6.475463 144 2.379112 2.41101 7.483613 145 1.636515 1.862504 6.967598 156 16.82067 1.731671 15.3203 157 17.21365 2.888656 15.55644 158 2.171741 2.677114 8.650892 159 1.689191 2.24315 7.814176 172 4.908215 5.070437 15.01963 6.2708 18.31226 170 5.552261 169 3.958649 5.63515 13.06998 173 4.796994 6.152931 12.77526 171 4.557439 5.635989 17.09747 8.47135 17.23374 183 4.751991 185 3.929939 3.5113 18.37928 186 5.968455 7.585958 14.27998 184 5.393021 6.612602 17.35296 MODULE 1 (Low Freq.) S1 S2 S5 0.28953 2.744771 0 2.740463 1 0.40547 0.242999 3.169339 6 7.593273 0.463329 7.441487 7 8.671126 0.734676 7.888146 8 4.705275 0.919983 4.037455 9 0.628377 0.436272 4.766873 10 0.930203 0.730958 7.091804 11 0.636951 0.464939 4.413146 24 8.39574 0.472903 8.078951 25 7.002351 1.037803 5.546838 26 0.908737 0.590009 7.180323 27 0.749488 0.669139 5.108585 Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 47 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Pair with Beam_ID Beam_ID S1 S2 S5 0 1 6 7 8 9 10 11 24 25 26 27 0.96735 36 1.864092 1.465257 8.889574 37 1.845004 1.154719 14.67833 38 1.929428 1.162533 13.5655 39 2.067107 1.821751 8.761008 40 1.891178 1.426145 8.72326 51 1.783814 1.480327 13.71034 52 1.922695 1.097735 14.90613 53 1.54047 1.682072 9.926253 54 1.978197 1.585056 8.276394 128 1.899987 0.120375 1.728668 129 0.285128 0.280321 3.061348 134 4.821919 0.2862 4.285447 5.61869 0.185717 5.048256 135 136 2.56828 3.69722 0.490182 137 0.682543 0.891879 6.530412 138 1.26533 8.729185 139 0.830541 0.894033 7.107601 152 5.543274 0.186328 4.975556 153 4.57 0.491593 3.569094 154 0.895211 1.185293 8.449608 155 0.993234 1.254626 8.397558 164 2.190735 2.024553 15.09701 165 1.654265 2.265049 15.51628 166 16.3932 167 2.255758 2.64675 16.36432 168 2.353399 1.902182 12.87159 179 2.177775 2.327889 16.25929 180 1.575628 2.209968 15.90296 181 1.265032 1.660682 9.575939 182 2.37966 2.466825 15.46157 128 4.896898 0.546753 4.60423 129 0.63625 6.347646 12.177 0.821621 11.40864 135 134 14.0441 1.542131 13.03637 136 9.742245 1.730382 8.179139 138 1.873656 2.162283 13.69485 137 1.833947 2.121254 13.6426 139 1.676447 1.81748 12.79826 152 13.94516 0.857004 13.28263 153 12.45254 1.67892 9.991438 155 2.187869 2.081551 14.26201 154 1.54845 1.837624 12.16495 1.79696 2.458663 0.96342 Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 48 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Pair with Beam_ID Beam_ID S1 S2 S5 36 37 38 39 40 51 52 53 54 167 5.516602 5.654124 27.34551 166 3.958474 4.305869 31.81465 165 4.809401 4.331541 29.80048 164 6.341236 5.940871 26.38524 168 6.961962 5.063899 26.33068 181 4.127363 4.572214 23.86587 180 4.195087 3.771785 31.37888 182 3.579135 3.593441 20.6026 179 4.474097 4.315427 23.75566 MODULE 2 (Low Freq.) S1 S2 S6 4 0.244733 0.153466 1.378079 5 3.259027 0.23767 2.417212 18 0.743716 0.433507 3.010115 19 0.784801 0.476894 3.962926 20 0.814355 0.522208 2.54769 21 7.478325 0.480744 5.977223 22 9.831438 0.450348 7.80372 23 5.612143 0.809003 4.237217 32 0.723626 0.498793 3.620749 33 0.717273 0.515176 2.736815 34 9.198026 0.410622 6.718163 35 8.966204 0.81752 7.236444 46 2.080159 1.476408 6.672985 1.51801 0.921865 6.800116 47 48 1.6342 0.721105 7.612919 49 2.050215 1.502165 6.575799 50 1.702312 1.104535 6.415089 59 1.802011 1.256477 6.470707 60 1.53609 0.726264 7.976377 61 1.594459 1.467568 6.521415 62 1.5608 6.718118 132 0.376715 0.413105 1.930418 133 2.076472 0.12174 1.285062 146 0.684165 0.978667 3.263295 147 1.00592 1.350173 4.716348 148 0.452935 0.723952 2.432341 149 5.112684 0.486092 3.811004 150 7.291708 0.198182 4.279756 151 3.909908 0.380392 2.587221 0.9975 1.278568 4.654431 160 161 0.794493 1.027763 3.71504 2.0688 Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 49 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Pair with Beam_ID Beam_ID S1 S2 S6 4 5 18 19 20 21 22 23 32 33 34 35 46 47 48 49 50 59 60 61 62 1.3258 1.977439 162 7.285144 0.263783 4.624944 163 5.027518 0.245425 3.171239 174 1.548359 2.351571 6.921141 175 2.121449 2.33611 9.326688 176 1.827201 2.675465 8.703751 177 5.321 178 1.100511 2.16791 6.089383 187 1.880776 2.450413 8.654233 188 1.981032 2.523834 9.252067 189 1.532756 2.461015 7.047243 190 0.767546 1.823105 5.192984 132 0.835404 0.739522 3.367188 133 5.261389 0.440494 3.770221 147 1.628231 2.378175 7.412086 1.93126 2.364865 146 7.62158 148 1.39331 1.467854 5.199366 150 12.07896 0.698066 8.079758 149 16.73106 0.938381 12.1495 151 11.75694 1.35907 8.550974 161 1.650259 1.981749 6.771248 1.34508 1.862619 7.281015 160 162 14.5775 0.916765 10.19967 163 15.50626 1.368646 11.64834 177 5.138647 5.108941 14.10607 10.2627 178 2.40559 2.498234 174 3.690835 3.550811 15.0799 175 3.250643 2.696145 13.54119 176 3.596543 5.985835 15.2021 189 4.190914 5.984985 15.06582 190 2.649614 3.041129 11.87568 4.56149 5.670926 16.14586 187 188 2.95923 3.728218 13.13695 MODULE 0 (Mid Freq.) S1 S2 S3 2 3.222844 0.531592 3.57877 3 0.599093 0.405577 2.461634 12 8.144011 1.149935 8.521683 13 10.31734 1.34304 9.048869 14 6.332947 1.120421 7.757633 15 1.519959 1.275584 4.349921 16 1.375067 0.761516 4.564764 17 1.386768 0.9568 3.936536 Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 50 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Pair with Beam_ID Beam_ID S1 S2 S3 2 3 12 13 14 15 16 17 1.47279 28 9.717642 1.16936 8.691084 29 7.900286 1.339439 7.429511 30 0.828554 0.619491 4.294441 31 1.713291 1.140625 3.612268 41 3.440978 2.541323 8.075128 42 1.51677 1.196616 8.180862 43 3.355016 2.345233 7.9863 44 2.141405 3.630924 7.897026 45 1.553529 1.705282 7.804827 55 2.532918 3.571202 7.919127 56 2.034493 1.250013 10.38246 57 3.143881 3.050128 7.612202 58 1.453057 1.267788 7.820099 130 2.991639 0.370666 2.499208 131 0.531848 0.514976 1.912639 140 7.310881 0.740589 5.175854 141 7.293616 0.613424 6.172123 6.03533 0.667851 5.393116 142 143 1.017177 4.73946 144 1.186315 1.886818 5.993586 145 0.980819 1.902643 3.75815 156 7.937962 0.719904 6.229094 157 6.56811 0.585712 5.733557 158 1.265891 1.701583 5.574697 159 1.124922 1.768266 5.607128 169 1.601177 3.310017 9.872531 170 2.753162 3.642605 10.34082 171 2.695381 3.19298 11.72847 172 2.706164 3.074419 9.416907 173 2.086453 3.384642 7.546484 183 2.111384 3.511284 10.13048 184 2.801433 3.441982 11.19664 185 3.1611 11.16019 186 2.596663 3.431475 8.000562 130 6.785668 0.905584 5.900709 131 1.262879 0.961282 3.752485 140 15.59653 2.278414 13.84808 17.6123 2.068907 14.69773 142 141 13.92396 2.15559 12.20804 143 2.486196 3.228193 8.850838 8.93049 144 2.462805 3.145442 145 2.368298 2.633685 7.72061 2.69348 Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 51 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization S2 S1 S3 Pair with Beam_ID Beam_ID 18.298 2.193249 14.31888 156 157 16.12307 2.31633 13.67015 158 2.247494 2.582821 10.22699 159 2.903353 2.772327 9.073769 172 6.349435 6.109826 18.10037 170 6.82849 21.77358 169 5.144175 6.269091 16.27397 173 4.077924 7.241687 14.19203 171 5.116314 6.618606 19.30649 183 5.603386 8.765403 20.61852 185 5.711423 4.883204 21.87165 186 6.173934 7.676675 16.8267 184 5.199584 7.544655 19.74015 28 29 30 31 41 42 43 44 45 55 56 57 58 4.97392 MODULE 1 (Mid Freq.) S1 S2 S5 0 2.561592 0.277067 2.85307 1 0.408808 0.255672 3.264838 6 6.910895 0.640574 7.866647 7 7.366366 0.664954 8.054797 8 4.555262 0.610061 4.609423 9 0.650306 0.475142 4.930116 10 0.947132 0.671102 7.111218 11 4.59444 0.72219 0.536713 24 7.12127 0.527988 8.320326 25 6.171064 0.724798 5.861457 26 0.8846 0.553598 7.203505 27 1.006909 0.784859 5.212716 36 1.875017 1.756291 8.658957 37 1.884553 1.137141 15.23595 38 1.778657 0.946908 12.74071 39 2.375863 1.784637 8.986617 40 1.93418 1.674127 8.513628 51 1.607009 1.100843 12.51416 52 1.957747 0.979813 15.44621 53 2.05288 1.396762 9.389729 54 2.137992 1.811626 8.076907 128 1.640987 0.13706 1.802384 129 0.338443 0.307289 3.096249 134 4.157561 0.365933 4.519723 135 4.726966 0.247634 5.271277 136 3.453836 0.389751 3.050326 137 0.912856 0.845446 6.871135 Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 52 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Pair with Beam_ID Beam_ID S1 S2 S5 0 1 6 7 8 9 10 11 24 25 26 27 36 37 38 39 40 51 52 53 54 138 1.151612 1.293042 8.893171 7.22515 139 0.918869 0.875996 152 4.632773 0.248857 5.19508 153 4.290447 0.426352 3.933512 154 1.02079 1.181368 8.782655 155 1.215826 1.214566 8.410293 164 2.570876 1.664034 13.86271 165 1.941996 2.383319 16.42641 166 2.040838 2.392796 17.37071 167 2.681313 2.365281 16.11196 168 2.449087 1.456714 12.64811 179 2.912567 1.928762 15.43407 180 1.67962 2.248862 17.14608 181 1.616775 1.668945 9.889456 182 2.729206 1.941384 14.97649 128 4.576295 0.581708 4.825121 129 1.162235 0.687416 6.844586 135 10.40716 1.084459 12.43121 134 12.09106 1.599742 12.83817 136 9.345324 1.442696 9.568157 1.98323 2.150952 14.26559 138 137 2.28514 1.933392 14.17035 139 1.646587 1.921111 14.18219 152 12.09664 1.121464 13.86083 153 11.20769 1.176699 10.60629 155 2.346548 1.993939 15.04279 154 2.17733 1.821388 12.56955 167 5.999828 4.993546 28.1704 166 4.256088 3.985204 34.67938 165 5.010231 4.692483 29.83734 164 7.601187 5.367757 27.4235 168 7.158485 4.886005 27.56204 181 4.258029 3.740218 24.53563 180 4.661304 3.942414 33.36272 182 4.83548 3.526936 20.55881 179 6.186903 4.101437 25.87136 MODULE 2 (Mid Freq.) S1 S2 S6 4 0.279891 0.194668 1.617019 5 2.882376 0.234948 2.284666 18 0.985202 0.531227 3.377082 19 0.879005 0.641863 4.253474 Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 53 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Pair with Beam_ID Beam_ID S1 S2 S6 4 5 18 19 20 0.923614 0.714316 3.038172 21 6.663297 0.416415 5.993066 22 8.048127 0.405221 6.898925 23 5.405437 0.632036 4.704482 32 1.0344 0.530542 4.129435 33 0.842407 0.564134 3.194295 34 7.186163 0.423553 6.06618 35 8.079696 0.665151 6.676906 46 2.547021 1.690844 7.644783 47 1.265315 1.024831 7.094555 48 1.711103 0.841706 8.35591 49 2.36741 1.666237 7.677884 50 2.118547 1.568956 7.721298 59 2.230839 1.700283 7.669102 60 1.720346 0.92491 9.650289 61 1.454601 1.237677 6.840991 62 2.493077 1.880084 7.603882 132 0.488116 0.471716 2.238223 133 1.72918 0.103186 1.175231 146 0.751291 1.123739 3.995814 147 1.555151 1.364315 5.411268 148 0.584011 0.870813 2.918747 149 4.623128 0.47576 3.530507 150 5.678964 0.162628 3.834572 151 3.828582 0.332796 2.776787 160 1.275348 1.410426 5.441483 161 0.886954 1.417101 4.365507 162 5.617825 0.229485 4.125283 163 4.650187 0.206726 3.150051 174 1.889646 2.234966 7.891846 175 10.7746 176 2.374496 2.821513 9.614624 177 1.759035 2.487847 6.599221 178 1.703714 2.39352 7.041227 187 2.43919 2.628103 9.584793 188 2.798832 2.789846 10.75472 189 1.688509 2.636123 8.166409 1.94158 6.350633 190 132 0.926172 0.896716 4.15507 133 5.068797 0.412712 3.745564 147 2.777968 2.393773 8.929311 146 2.336262 3.122013 9.657362 2.94675 2.848424 1.26065 Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 54 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Pair with Beam_ID Beam_ID S1 S2 S6 20 21 22 23 32 33 34 35 46 47 48 49 50 59 60 61 62 148 1.720751 2.055972 6.306266 150 9.458662 0.801734 7.54301 149 13.82013 0.997486 10.58849 151 11.49886 1.065249 9.445334 161 2.106278 2.213171 7.974034 160 1.723679 2.020287 9.35166 162 11.34396 1.046947 9.053314 163 14.08009 1.104839 10.91068 177 7.096555 6.933862 17.61042 178 2.532415 3.298163 11.94558 174 4.688827 4.059192 18.23909 175 4.112032 3.677007 15.56018 176 5.070241 6.589921 17.90006 189 5.833946 6.756124 18.26786 190 3.363562 3.813595 15.17657 187 5.086918 6.061079 18.07317 188 4.314964 4.49715 15.53133 MODULE 0 (High Freq.) S1 S2 S3 9.81118 0.714869 2 3.162258 0.296422 3.027352 3 0.225431 0.208435 1.809949 12 8.320372 0.829247 7.545071 13 8.6042 14 5.967841 0.597677 5.779316 15 1.059033 0.515051 3.585779 16 1.223125 0.835502 4.399813 17 0.887253 0.791029 4.018567 28 9.596928 0.745363 8.365466 29 8.235114 0.693436 7.334581 30 0.591854 0.582088 4.263651 31 1.036737 0.956256 3.787883 41 2.671357 1.781114 8.492854 42 0.983809 1.213629 7.384187 43 0.995787 1.135372 7.177163 44 2.042825 2.260262 7.608977 45 1.297895 1.553337 7.485566 55 2.065466 2.040254 8.330792 56 2.009037 0.817181 9.004517 57 2.07527 7.826802 58 1.063293 1.150083 7.185294 130 2.610153 2.1063 131 0.487629 0.447117 1.919954 2.21923 0.19096 Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 55 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Pair with Beam_ID Beam_ID S1 S2 S3 2 3 12 13 14 15 16 17 28 29 30 31 41 42 43 44 45 55 56 57 58 2.00224 2.729026 140 6.593911 0.470527 5.385972 141 7.004679 0.466544 5.288941 142 5.757569 0.308215 4.591544 143 0.908144 1.406757 4.625651 144 1.11611 1.249636 6.036965 145 0.645294 1.268864 3.786465 156 7.300279 0.487478 5.807813 157 6.276104 0.306232 4.811396 158 1.193461 1.000227 5.516424 159 0.858707 1.50057 5.696818 169 2.199047 2.562611 9.567116 170 2.013683 2.788956 9.99935 171 2.732494 2.841207 12.08924 172 2.032174 2.846554 8.972432 173 1.797303 2.701982 7.930825 183 1.938671 2.565621 9.54586 184 2.452841 2.829283 11.2653 185 2.524299 2.928057 11.15666 186 8.3685 130 6.155926 0.520548 5.847416 131 0.790608 0.736557 3.167394 140 15.58898 1.729741 14.18119 142 15.68434 1.249518 13.14902 1.0816 10.39847 141 143 2.219765 2.306027 7.92497 144 1.743499 1.86732 9.358693 145 1.561021 2.720217 7.995608 156 17.01115 1.341336 13.89175 157 17.20784 1.267112 14.57136 158 2.198336 2.125252 10.24829 159 1.50245 2.176205 9.624336 172 5.061907 5.823042 17.72887 170 3.95116 6.041679 21.62923 169 2.965546 4.103935 15.71548 173 14.5681 171 4.827195 6.36547 20.65456 183 6.557474 6.944013 20.53128 185 5.093039 4.479933 22.54546 186 6.880832 8.047499 18.27932 184 4.799285 6.961211 19.65572 5.33283 7.077836 13.0921 Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 56 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Pair with Beam_ID Beam_ID S1 S2 S5 MODULE 1 (High Freq.) 0 2.162941 0.260071 2.780286 1 0.447133 0.22189 2.971365 6 6.148381 0.941624 8.180222 7 6.266262 0.597682 8.320671 8 4.338602 0.68085 4.564041 9 0.663729 0.522046 4.581741 10 1.087745 0.623256 6.515556 11 0.678792 0.58864 4.292795 24 6.065461 0.586386 8.808606 25 5.689595 0.522696 5.814396 26 0.858439 0.466066 6.564121 27 1.081823 0.822735 5.022249 36 1.671324 1.568318 8.378219 37 1.809465 0.735694 13.37753 38 1.506684 1.021411 11.26398 39 2.325195 1.545632 8.959404 40 1.722789 1.457293 8.288234 51 1.380478 0.726367 10.72298 52 1.914176 0.897547 13.88468 53 2.066684 1.305171 9.109886 54 1.927484 1.52549 8.195609 128 1.407942 0.183691 1.935649 129 0.307167 0.293283 2.880153 134 3.879261 0.376967 4.519654 135 3.908579 0.369557 5.391597 136 3.3878 0.285148 3.367352 137 0.772447 0.834244 6.375185 138 1.112498 1.057605 7.983626 139 0.754764 0.787214 6.844799 152 3.875486 0.375456 5.301351 153 3.947971 0.327788 4.247863 154 0.843265 1.048616 8.153428 155 1.172476 0.946985 7.358889 164 1.631499 1.536615 12.41094 165 2.100403 2.110878 15.42005 166 2.062203 2.121304 15.63572 167 2.251972 1.505683 13.72089 168 1.702923 1.437782 11.3266 179 2.167926 1.543085 13.01463 180 1.77175 2.146603 16.01145 181 1.683528 1.271769 9.175124 Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 57 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Pair with Beam_ID 0 1 6 7 8 9 10 11 24 25 26 27 36 37 38 39 40 51 52 53 54 S5 S2 S1 Beam_ID 182 1.9921 1.362909 12.67507 128 4.011142 0.623571 5.216787 129 1.096094 0.702356 6.769501 135 9.086285 1.597881 12.59136 134 9.779266 1.532619 12.43991 136 9.412228 1.36734 9.384222 138 2.053473 1.724095 13.37264 137 2.192464 1.923292 12.90408 139 1.611084 1.836838 13.97548 152 10.00701 1.387603 13.90769 153 10.10668 1.007161 10.26506 1.6318 14.24358 155 2.192577 154 2.119953 1.579757 11.9151 167 5.463475 3.479456 26.51072 166 4.552715 3.048797 32.30283 165 4.469948 4.483839 28.7472 164 5.64933 5.035491 26.63403 168 5.466151 4.593258 27.11598 181 4.480101 23.1038 180 4.613425 4.132023 30.32269 182 4.016181 3.125349 18.83173 179 4.548972 3.666925 24.10076 2.51162 MODULE 2 (High Freq) S1 S2 S6 4 0.254456 0.189871 1.56826 5 3.139823 0.230782 2.125857 18 1.091872 0.562649 3.419252 19 0.822385 0.806205 4.168645 20 1.038865 0.763257 3.211551 21 6.467919 0.488623 5.267406 22 8.702588 0.398637 6.787061 23 5.482118 0.494138 4.340599 32 1.146989 0.573301 4.113963 33 0.939382 0.541855 3.455353 34 7.450862 0.516473 6.183754 35 8.115603 0.550357 6.347632 46 2.603587 1.671715 8.202395 47 1.155895 1.045324 6.604552 48 1.825927 0.91731 7.878725 49 2.473693 1.612368 8.034143 50 2.220166 1.659711 8.241281 59 2.268075 1.796267 8.094566 Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 58 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Pair with Beam_ID Beam_ID S1 S2 S6 4 5 18 19 20 21 22 23 32 33 34 35 46 47 48 49 50 59 0.79431 1.175607 60 2.231095 0.90858 8.794505 61 1.458737 1.146216 7.155594 62 2.50104 1.884061 8.272485 132 0.574959 0.52041 2.185762 133 1.884397 0.138852 1.263706 146 4.18688 147 1.606851 1.221641 5.390034 148 0.752806 0.987673 3.08587 149 4.930329 0.374706 3.517025 150 5.588971 0.292346 3.848569 151 4.414387 0.223957 2.74116 160 1.315298 1.348906 5.637966 161 0.987017 1.553076 4.514109 162 5.584458 0.29474 4.085863 163 5.279205 0.217053 3.269838 174 2.113397 2.0743 8.046862 175 3.046384 2.974814 10.52695 2.71367 9.202447 176 2.468564 177 2.191505 2.03887 7.038499 178 2.153026 2.164725 7.669323 187 2.449114 2.606497 9.151895 188 3.197355 2.978299 10.43969 189 1.924916 2.477803 8.147462 190 1.721259 2.002552 7.065969 132 1.077023 1.075979 4.171691 133 5.089373 0.430628 3.822418 147 3.337615 2.094367 9.601327 146 2.386063 3.580548 10.1614 148 2.239277 2.427613 6.738529 150 9.935917 0.966852 7.162574 149 14.77281 0.870652 10.58726 151 12.75316 0.876339 9.183321 161 2.256744 2.382978 8.362539 160 1.915862 2.262208 10.21292 162 11.92716 1.127469 9.309505 163 14.33146 0.917767 10.92709 177 8.319878 6.379804 19.97764 178 3.405702 3.356553 12.53819 174 5.658437 4.332919 18.79997 175 4.684131 4.137537 16.57456 176 6.626856 6.486769 18.17305 189 7.028011 6.164646 19.62715 Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 59 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Pair with Beam_ID 60 61 62 S1 S2 Beam_ID 190 187 5.508792 6.298144 188 4.56431 4.271222 15.23365 17.8915 5.30665 4.671001 16.99096 S6 Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 60 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization C Simulated PD Distribution Plots The PD distributions for all 189 beams on all the three surfaces are provided in this Appendix:
For Module 0, PD is displayed on S1(front), S2 (back) & S3 (right) For Module 1, PD is displayed on S1(front), S2 (back) and S5 (bottom) For Module 2, PD is displayed on S1(front), S2 (back) and S6 (top) As shown in Fig.C-1, the PD simulations in this Appendix for the front side (S1) & back side (S2) should be both viewed from the front of the device and looking through the device (i.e., along negative z direction). The PD distributions for the right (S3) side should be viewed from the right side of the device and looking through the device (i.e., along positive x direction). The PD distributions for the bottom (S5) side should be viewed from the bottom side of the device and looking through the device (i.e., along negative y direction). Similarly, the PD distributions for the top (S6) side should be viewed from the top side of the device and looking through the device (i.e., along positive y direction). The views with device outlines (white) are shown in more detail in Fig. C-2, Fig C-3 & C-4 for different antenna modules or phasors. Figure C-1: EUT surface definition All PD distribution plots (Pages 65-631) are normalized to their own maximum value and plotted for only mid channel as the PD distribution for low, mid and high channels are similar. The plots are arranged as:
Mod 0 (Phasor 0): Point & 4cm2 Avg. PD (Single Beam) Point & 4cm2 Avg. PD (Dual Beam) Mod 1 (Phasor 1): Point & 4cm2 Avg. PD (Single Beam) Point & 4cm2 Avg. PD (Dual Beam) Mod 2 (Phasor 2): Point & 4cm2Avg. PD (Single Beam) Point & 4cm2 Avg. PD (Dual Beam) Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 61 S1S2S3S4S5S6 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization S1 S2 S3 Figure C-2: Phasor 0 views for S1 (Front), S2 (Back) & S3 (Right) Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 62 Mod 0Mod 0Mod 0 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization S1 S2 S5 Figure C-3: Phasor 1 views for S1 (Front), S2 (Back) & S5 (Bottom) Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 63 Mod 1Mod 1Mod 1 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization S1 S2 S6 Figure C-4: Phasor 1 views for S1 (Front), S2 (Back) & S6 (Top) Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 64 Mod 2Mod 2Mod 2 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Plots of Point PD & Avg. PD for all Beams Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 65 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 66 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 67 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 68 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 69 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 70 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 71 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 72 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 73 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 74 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 75 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 76 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 77 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 78 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 79 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 80 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 81 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 82 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 83 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 84 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 85 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 86 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 87 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 88 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 89 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 90 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 91 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 92 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 93 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 94 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 95 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 96 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 97 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 98 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 99 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 100
1 2 3 4 | PD Simulation part 2 rev1 | RF Exposure Info | 3.93 MiB | June 06 2019 |
Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 101 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 102 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 103 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 104 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 105 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 106 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 107 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 108 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 109 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 110 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 111 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 112 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 113 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 114 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 115 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 116 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 117 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 118 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 119 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 120 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 121 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 122 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 123 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 124 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 125 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 126 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 127 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 128 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 129 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 130 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 131 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 132 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 133 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 134 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 135 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 136 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 137 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 138 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 139 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 140 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 141 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 142 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 143 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 144 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 145 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 146 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 147 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 148 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 149 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 150 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 151 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 152 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 153 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 154 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 155 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 156 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 157 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 158 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 159 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 160 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 161 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 162 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 163 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 164 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 165 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 166 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 167 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 168 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 169 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 170 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 171 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 172 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 173 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 174 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 175 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 176 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 177 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 178 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 179 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 180 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 181 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 182 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 183 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 184 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 185 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 186 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 187 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 188 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 189 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 190 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION
1 2 3 4 | PD Simulation part 3 rev1 | RF Exposure Info | 3.92 MiB | June 06 2019 |
Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 191 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 192 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 193 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 194 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 195 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 196 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 197 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 198 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 199 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 200 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 201 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 202 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 203 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 204 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 205 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 206 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 207 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 208 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 209 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 210 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 211 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 212 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 213 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 214 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 215 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 216 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 217 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 218 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 219 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 220 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 221 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 222 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 223 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 224 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 225 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 226 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 227 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 228 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 229 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 230 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 231 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 232 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 233 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 234 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 235 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 236 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 237 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 238 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 239 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 240 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 241 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 242 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 243 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 244 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 245 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 246 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 247 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 248 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 249 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 250 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 251 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 252 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 253 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 254 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 255 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 256 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 257 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 258 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 259 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 260 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 261 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 262 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 263 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 264 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 265 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 266 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 267 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 268 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 269 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 270 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 271 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 272 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 273 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 274 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 275 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 276 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 277 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 278 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 279 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 280 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION
1 2 3 4 | PD Simulation part 4 rev1 | RF Exposure Info | 3.75 MiB | June 06 2019 |
Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 281 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 282 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 283 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 284 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 285 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 286 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 287 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 288 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 289 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 290 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 291 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 292 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 293 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 294 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 295 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 296 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 297 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 298 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 299 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 300 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 301 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 302 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 303 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 304 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 305 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 306 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 307 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 308 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 309 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 310 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 311 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 312 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 313 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 314 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 315 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 316 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 317 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 318 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 319 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 320 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 321 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 322 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 323 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 324 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 325 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 326 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 327 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 328 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 329 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 330 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 331 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 332 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 333 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 334 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 335 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 336 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 337 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 338 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 339 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 340 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 341 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 342 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 343 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 344 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 345 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 346 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 347 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 348 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 349 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 350 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 351 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 352 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 353 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 354 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 355 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 356 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 357 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 358 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 359 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 360 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 361 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 362 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 363 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 364 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 365 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 366 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 367 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 368 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 369 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 370 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION
1 2 3 4 | PD Simulation part 5 rev1 | RF Exposure Info | 3.78 MiB | June 06 2019 |
Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 371 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 372 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 373 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 374 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 375 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 376 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 377 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 378 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 379 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 380 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 381 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 382 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 383 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 384 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 385 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 386 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 387 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 388 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 389 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 390 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 391 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 392 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 393 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 394 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 395 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 396 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 397 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 398 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 399 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 400 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 401 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 402 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 403 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 404 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 405 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 406 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 407 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 408 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 409 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 410 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 411 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 412 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 413 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 414 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 415 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 416 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 417 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 418 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 419 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 420 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 421 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 422 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 423 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 424 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 425 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 426 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 427 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 428 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 429 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 430 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 431 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 432 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 433 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 434 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 435 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 436 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 437 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 438 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 439 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 440 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 441 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 442 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 443 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 444 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 445 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 446 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 447 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 448 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 449 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 450 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 451 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 452 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 453 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 454 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 455 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 456 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 457 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 458 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 459 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 460 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION
1 2 3 4 | PD Simulation part 6 rev1 | RF Exposure Info | 4.18 MiB | June 06 2019 |
Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 461 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 462 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 463 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 464 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 465 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 466 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 467 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 468 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 469 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 470 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 471 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 472 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 473 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 474 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 475 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 476 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 477 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 478 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 479 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 480 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 481 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 482 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 483 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 484 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 485 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 486 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 487 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 488 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 489 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 490 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 491 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 492 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 493 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 494 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 495 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 496 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 497 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 498 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 499 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 500 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 501 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 502 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 503 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 504 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 505 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 506 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 507 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 508 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 509 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 510 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 511 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 512 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 513 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 514 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 515 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 516 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 517 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 518 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 519 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 520 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 521 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 522 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 523 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 524 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 525 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 526 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 527 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 528 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 529 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 530 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 531 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 532 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 533 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 534 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 535 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 536 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 537 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 538 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 539 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 540 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 541 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 542 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 543 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 544 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 545 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 546 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 547 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 548 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 549 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 550 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION
1 2 3 4 | PD Simulation part 7 rev1 | RF Exposure Info | 3.67 MiB | June 06 2019 |
Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 551 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 552 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 553 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 554 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 555 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 556 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 557 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 558 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 559 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 560 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 561 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 562 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 563 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 564 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 565 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 566 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 567 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 568 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 569 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 570 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 571 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 572 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 573 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 574 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 575 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 576 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 577 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 578 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 579 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 580 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 581 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 582 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 583 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 584 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 585 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 586 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 587 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 588 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 589 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 590 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 591 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 592 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 593 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 594 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 595 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 596 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 597 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 598 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 599 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 600 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 601 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 602 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 603 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. A 604 MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Power Density Characterization Rev. 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1 2 3 4 | PD test report 1 | RF Exposure Info | 5.02 MiB | / June 06 2019 |
Qualcomm Technologies, Inc. Netgear 5G MHS Travel Router (FCC ID:
PY319100441) RF Exposure Compliance Test Report
(Part 1: Test Under Static Transmission Scenario) 80-W5669-1 Rev. B May 14, 2019 All Qualcomm products mentioned herein are products of Qualcomm Technologies, Inc. and/or its subsidiaries. Qualcomm is a trademark of Qualcomm Incorporated, registered in the United States and other countries. Other product and brand names may be trademarks or registered trademarks of their respective owners. This technical data may be subject to U.S. and international export, re-export, or transfer (export) laws. Diversion contrary to U.S. and international law is strictly prohibited. Qualcomm Technologies, Inc. 5775 Morehouse Drive San Diego, CA 92121 U.S.A. 2019 Qualcomm Technologies, Inc. and/or its subsidiaries. All rights reserved. Revision history Revision Date Description A B May 08, 2019 Initial release May 14, 2019 Correction in SAR tables 80-W5669-1 Rev. B MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 2 Contents 1 Introduction ........................................................................................................................... 5 2 Measurement Setup and General Information .................................................................... 6 2.1 Test environment ....................................................................................................................................... 6 2.2 Power density measurement system ......................................................................................................... 6 2.2.1 Power density probe ................................................................................................................. 6 2.2.2 Power density measurement system verification ...................................................................... 7 3 Test Condition, Configuration, and Assessment ................................................................ 9 3.1 Qualcomm Smart Transmit parameters ..................................................................................................... 9 3.1.1 Qualcomm Smart Transmit parameters for the 4G modem ...................................................... 9 3.1.2 Qualcomm Smart Transmit parameters for the 5G modem .................................................... 10 3.2 Device Test Configuration for SAR Measurements ................................................................................. 14 3.3 Device test configuration for PD measurements ...................................................................................... 14 4 Summary of Results ............................................................................................................16 4.1 SAR Measurement and Conducted Power Results at Plimit ...................................................................... 16 4.2 PD Measurement results at input.power.limit ........................................................................................... 17 4.3 Simultaneous Transmission Analysis....................................................................................................... 19 4.3.1 Analysis .................................................................................................................................. 19 4.3.2 Simultaneous Transmission Compliance demonstration for 4G WWAN +
WLAN ................................................................................................................................ 21 4.3.3 Simultaneous Transmission Compliance demonstration for 5G mmW NR WWAN + WLAN ................................................................................................................ 21 5 Conclusions .........................................................................................................................23 A DASY mmW Probe and Verification Source Certificates ..................................................23 Figures Figure 2-1 4cm2PD for source validation on 4/22/2019 .................................................................................................. 8 Figure 3-1: EUT surface definition ................................................................................................................................ 15 Figure 4-1 Band 260, beam ID 6, pointPD and 4cm2PD, Front .................................................................................... 18 Tables Table 2-1 System validation results ............................................................................................................................... 7 Table 3-1 Smart Transmit EFS entries for sub-6 WWAN bands .................................................................................... 9 Table 3-2 Smart Transmit EFS entries for mmW WWAN bands .................................................................................. 10 80-W5669-1 Rev. B MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 3 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report (Part 1: Test Under Static Transmission Scenario) Contents Table 3-3 PD verification test cases ............................................................................................................................. 15 Table 4-1: Comparison of Plimit and Pmax ...................................................................................................................... 16 Table 4-2: Worst-case reported SAR (extracted from Bureau Veritas Report No. SA181015C09: FCC SAR Test Report) ......................................................................................................................................................................... 16 Table 4-3 PD Measurement results .............................................................................................................................. 17 Table 4-4 Worst-case time-averaged RF exposure for WWAN .................................................................................... 19 Table 4-5 Simultaneous transmission analysis scenarios for 5G mmW NR WWAN + WLAN...................................... 22 Table 4-6 TER for WLAN + 5G mmW NR n260 ........................................................................................................... 22 Table 5-1 Reported RF exposure level ........................................................................................................................ 23 80-W5669-1 Rev. B MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 4 1 Introduction The equipment under test (EUT) is Netgear 5G MHS Travel Router (FCC ID: PY319100441), it contains the Qualcomm SM8150 modem supporting 2G/3G/4G technologies and SDX50 modem supporting mmW 5G NR bands. Both of these WWAN modems are enabled in Qualcomm Smart Transmit feature with algorithms to control and manage transmitting power in real time and to ensure at all times the time-averaged RF exposure from WWAN is in compliance with FCC requirements. In addition to these WWAN modems, the EUT contains a different modem to support WLAN, and time-averaging is not applied in WLAN modem. The purpose of this Part 1 report is to demonstrate that this EUT complies with FCC RF exposure limits at maximum time-averaged transmit power limits for WWAN technologies, and at maximum transmit power limits for WLAN technologies. SAR and power density (PD) compliance for all WWAN radios (4G + 5G mmW NR) is assessed based on maximum time-averaged transmit power (static transmission condition). Relevant FCC KDBs and exclusion criteria are applied on a time-average power basis for WWAN technologies. The maximum time-averaged transmit power limits for supported WWAN technologies, bands, and antennas in this report are derived in Part 0 report. The validation of the Qualcomm Smart Transmit time-averaging algorithm and compliance under the Tx varying transmission scenario for WWAN technologies are reported in Part 2 report. SAR compliance for WLAN radios is assessed based on maximum transmit power as per relevant FCC KDBs. Demonstrate compliance in simultaneous transmission scenarios involving both WWAN and WLAN transmissions, where WWAN exposure is assessed based on time-averaged transmit power limits, and WLAN exposure is assessed based on maximum transmit power limits. By following the above steps, this report demonstrates that this EUT complies with FCC RF exposure limits for FCC equipment authorization of Netgear 5G MHS Travel Router (FCC ID:
PY319100441). The Plimit and input.power.limit used in this report are determined and listed in Part 0 report. Refer to Compliance Summary report for product description and terminology used in this report. 80-W5669-1 Rev. B MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 5 2 Measurement Setup and General Information The SAR measurement was conducted at Bureau Veritas Consumer Products Services (H.K.) Ltd., Taoyuan Branch Lin Kou Laboratories. See Bureau Veritas Report No. SA181015C09:
FCC SAR Test Report for details. This section provides the details of the test setup used for PD measurement. 2.1 Test environment Test location Qualcomm Incorporated, Inc. 5775 Morehouse Dr., San Diego, CA 92121 Ambient temperature Tissue simulating liquid 2220C 2220C Humidity range 30% ~ 49%
2.2 Power density measurement system The power density measurement system is constructed based on the DASY6 platform by SPEAG. The DASY6 with EUmmWv2 and 5G software module can measure the electromagnetic exposure (electromagnetic and power density) up to 110GHz as close as 2mm from any transmitter. 2.2.1 Power density probe The novel EUmmWV2 probe is used in the power density measurement. It is designed for precise near-field measurements in the mm-wave range by Schmid & Partner Engineering AG of Zurich, Switzerland. The specifications are:
Frequency range: 0.75 ~ 110 GHz Dynamic range: <50 3000 V/m (up to 10000 V/m with additional PRE-10 voltage divider) Linearity: < 0.2 dB Supports sensor model calibration (SMC) ISO17025 accredited calibration 80-W5669-1 Rev. B MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 6 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report (Part 1: Test Under Static Transmission Scenario) Measurement Setup and General Information 2.2.2 Power density measurement system verification The power density system verification is performed using the SPEAG verification device. It consists of a ka-band horn antenna with a corresponding gun oscillator packaged within a cube-
shaped housing. The specification of the verification device is Calibrated frequency: 30 GHz at 10 mm from the case surface Frequency accuracy: 100 MHz E-field polarization: linear Harmonics: -20 dBc (typ) Total radiated power: 14 dBm (typ) Power stability: 0.05 dB Power consumption: 5 W (max) Size: 100 100 100 mm Weight: 1 kg Table 2-1 shows the verification test results. The measured power density (PD) value is within 0.4dB of target level. Note that the uncertainty of 5G verification source is 1.4dB (k=2). Table 2-1 System validation results Validation kit S/N Frequency
(GHz) 14dBm 14dBm Target PD Meas. PD Deviation (dB) Date
(W/m2)
(W/m2) Ka-band source Ka-band source Ka-band source Ka-band source Ka-band source Ka-band source Ka-band source 1012 30 47.9 (4cm2) 51.8(4cm2) 0.34dB (4cm2) 4/22/2019 1012 30 47.9 (4cm2) 49.9 (4cm2) 0.18dB (4cm2) 4/23/2019 1012 30 47.9 (4cm2) 50.2 (4cm2) 0.20dB (4cm2) 4/24/2019 1012 30 47.9 (4cm2) 50.2 (4cm2) 0.20dB (4cm2) 4/25/2019 1012 30 47.9 (4cm2) 50.0 (4cm2) 0.19dB (4cm2) 4/262019 1012 30 47.9 (4cm2) 50.2 (4cm2) 0.20dB (4cm2) 4/29/2019 1012 30 47.9 (4cm2) 51.0 (4cm2) 0.27dB (4cm2) 4/30/2019 80-W5669-1 Rev. B MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 7 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report (Part 1: Test Under Static Transmission Scenario) Measurement Setup and General Information Figure 2-1 4cm2PD for source validation on 4/22/2019 80-W5669-1 Rev. B MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 8 3 Test Condition, Configuration, and Assessment 3.1 Qualcomm Smart Transmit parameters The input parameters described in Section 2.3 of the Compliance Summary report are required for functionality of Qualcomm Smart Transmit algorithm. These parameters are entered through the embedded file System (EFS) and cannot be accessed by the end-user. Part 0 report documents determination of Plimit for sub-6 WWAN bands, and input.power.limit for 5G mmW NR bands using the below design targets and device related uncertainty.:
SAR_design_target of 1.2W/kg 1gSAR and sub-6 WWAN device design related uncertainty of 1.0dB. PD_design_target of 5.2W/m2 4cm2PD and mmW device design related uncertainty of 2.8dB. 3.1.1 Qualcomm Smart Transmit parameters for the 4G modem For this EUT, the following input parameters determined in Section 2.3 of Part 0 report are populated via the EFS entry. Table 3-1 Smart Transmit EFS entries for sub-6 WWAN bands 80-W5669-1 Rev. B MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 9 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report (Part 1: Test Under Static Transmission Scenario) Test Condition, Configuration, and Assessment 3.1.2 Qualcomm Smart Transmit parameters for the 5G modem The input.power.limit parameter for 5G mmW NR radio determined in Section 3.7.3 of Part 0 report are populated via EFS entry into the EUT. Table 3-2 Smart Transmit EFS entries for mmW WWAN bands 80-W5669-1 Rev. B MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 10 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report (Part 1: Test Under Static Transmission Scenario) Test Condition, Configuration, and Assessment 80-W5669-1 Rev. B MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 11 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report (Part 1: Test Under Static Transmission Scenario) Test Condition, Configuration, and Assessment 80-W5669-1 Rev. B MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 12 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report (Part 1: Test Under Static Transmission Scenario) Test Condition, Configuration, and Assessment 80-W5669-1 Rev. B MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 13 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report (Part 1: Test Under Static Transmission Scenario) Test Condition, Configuration, and Assessment 3.2 Device Test Configuration for SAR Measurements In summary, SAR is evaluated on this EUT in below test configurations and test condition:
Test configurations: Hotspot SAR exposure (1gSAR) from all device surfaces/edges (front, back, left, right, top, bottom) having a transmitting antenna located 25mm from that device surface/edge when in direct contact with flat section of SAM phantom. Hotspot SAR is evaluated at 10mm separation distance for all selected device surfaces as per FCC KDB publication 648474 D04. Test condition: The SAR measurements on all supported sub-6 WWAN technologies and bands are conducted with the EUT transmitting at maximum time-average transmit power
(Plimit) or maximum RF tune-up power (Pmax) if Pmax Plimit. See Bureau Veritas Report No. SA181015C09: FCC SAR Test Report for details 3.3 Device test configuration for PD measurements As can be seen in Section 3 of Part 0 report, the PD exposure for this EUT has been assessed against 5.2 W/m2 of PD_design_target using validated simulation approach for the worst cases of all the beams. To further confirm the compliance, a subset of beams and test cases is selected for PD verification in Section 4.2. The below beam selection criteria for the PD verification test is followed:
Select one single beam (antenna array config) per antenna type (dipole or patch) and per mmW antenna module The single beam containing highest number of active antenna ports. For example, the single beam with 4 active patch ports should be selected over the beam with a single active patch port 80-W5669-1 Rev. B MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 14 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report (Part 1: Test Under Static Transmission Scenario) Test Condition, Configuration, and Assessment Select one beam pair (if applicable) per antenna type (dipole or patch) and per mmW antenna module The beam pair containing the highest number of active antenna ports. Additionally, since the worst-case surface dictates the compliance, the PD measurement is made on the worst channel and worst surface determined through the validated simulation approach, see Appendix B of Part 0 report. Based on the aforementioned criteria and the EUT codebook in Section 3.3 of Part 0 report, below Table 3-3 lists the selected beams and test cases for PD verification measurement. The definition of the EUT surface is illustrated in Figure xxx. Table 3-3 PD verification test cases Figure 3-1: EUT surface definition 80-W5669-1 Rev. B MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 15 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report (Part 1: Test Under Static Transmission Scenario) Summary of Results 4 Summary of Results 4.1 SAR Measurement and Conducted Power Results at Plimit The transmit power limit Plimit that corresponds to the SAR_design_target of 1.2W/kg (for 1gSAR) for all technologies and bands were determined through Part 0 report and are listed in EFS entries in Table 3-1. Based on Bureau Veritas Report No. SA181015C09: FCC SAR Test Report, for this EUT, the Pmax (maximum RF tune-up power) for all the LTE bands is less than the corresponding Plimit as summarized and shown in Table 4-1 below. Table 4-1: Comparison of Plimit and Pmax Therefore, for this EUT, SAR and conducted power measurements at Plimit will be the same as those performed at Pmax. Thus, SAR measured at Pmax reported in Bureau Veritas Report No. SA181015C09: FCC SAR Test Report can be leveraged in this section to avoid re-testing. The worst-case reported SAR values from Bureau Veritas Report No. SA181015C09: FCC SAR Test Report for LTE and WLAN are:
Table 4-2: Worst-case reported SAR (extracted from Bureau Veritas Report No. SA181015C09: FCC SAR Test Report) 80-W5669-1 Rev. B MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 16 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report (Part 1: Test Under Static Transmission Scenario) Summary of Results Note that WLAN SAR for each of the bands in the above table lists the worst-case SAR out of both WLAN antennas and WLAN MIMO. 4.2 PD Measurement results at input.power.limit Table 3-3 lists the beams selected for PD verification test for this EUT and Table 4-3 lists the corresponding PD measurement results at 10mm spacing. Qualcomm Smart Transmit algorithm operates based on time-averaged transmit power reported on a per symbol basis, which is independent of modulation, channel and bandwidth (RBs). Therefore, PD measurements in Table 4-3 were conducted with the EUT in FTM mode, with CW modulation and in worst-case channel determined through simulations (See Appendix B of Part 0 report), with EUT transmitting at input.power.limit (listed in Table 3-2) corresponding to the tested beams. All 4cm2PD values for the selected beams are listed in Table 4-3. In addition to these selected beams, 4cm2PD for few more beams (highlighted in Table 4-3) that were used in Part 2 report were also measured. Beam 171 was used during maximum power test in Part 2 report. Beams 158 and 131 were used during beam switch test in Part 2 report. Table 4-3 PD Measurement results The PD distribution plots for both point PD and 4cm2 avg PD for the highest PD configuration in Table 4-3 is given below. 80-W5669-1 Rev. B MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 17 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report (Part 1: Test Under Static Transmission Scenario) Summary of Results Figure 4-1 Band 260, beam ID 6, pointPD and 4cm2PD, Front 80-W5669-1 Rev. B MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 18 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report (Part 1: Test Under Static Transmission Scenario) Summary of Results 4.3 Simultaneous Transmission Analysis The EUT supports simultaneous transmission of multiple radios. RF exposure compliance in simultaneous transmission scenarios is evaluated in this section. It must be noted here that Qualcomm Smart Transmit time-averaging algorithm was applied to only WWAN (4G/5G mmW NR) on this device, where the time-averaged power level is controlled so that RF exposure is SAR_design_target (corresponding to Plimit) for 4G WWAN and PD_design_target (corresponding to input.power.limit) for 5G mmW NR. Since there is total design-related uncertainty arising from TxAGC and device-to-device variation, the worst-
case RF exposure should be determined by accounting for this uncertainty in the corresponding design target, thus, with 1dB of device uncertantiy for sub-6 WWAN and 2.8dB of device uncertainty for 5G mmW NR. Therefore, the worst-case RF exposure for this EUT is:
Table 4-4 Worst-case time-averaged RF exposure for WWAN 4G Maximum time-averaged power level Maximum time-averaged exposure SAR_design_target
=1.2W/kg (1gSAR) Plimit WWAN 5G mmW NR input.power.limit PD_design_target = 5.2 W/m2 Design-related uncertainty Worst-case time-averaged RF exposure 1.0 dB reported SAR
=1.16W/kg
(1gSAR) 2.8 dB reported PD* =
=75% PD_design_target+2.8dB
= 7.43W/m2 Highest SAR value obtained from Bureau Veritas Report No. SA181015C09: FCC SAR Test Report. For this EUT, (Plimit+1.0dB uncertainty) Pmax (maximum RF tune-up output power). Therefore, time-averaged SAR exposure from Smart Transmit enabled EUT (at Plimit) cannot exceed reported SAR corresponding to Pmax listed in Table 4-2.
* Smart Transmit allows only 75% of maximum PD exposure for this EUT utilizing EFS entries listed in Table 3-1. See Section 4.3.1 for details. WLAN does not employ time-averaging in this device, reported 1gSAR at the maximum RF tune-up output power is listed in Table 4-2. 4.3.1 Analysis RF exposure compliance with WWAN+WLAN simultaneous transmission scenarios is demonstrated for various radio configurations using below equation:
Total norm. RF exposure = norm. RF exposure from Smart Transmit enabled WWAN
(norm. SAR from 4G + norm. PD from 5G mmW NR) + norm. SAR from WLAN 1.0 normalized limit
(1) Smart Transmit algorithm in WWAN adds directly the time-averaged RF exposure from 4G and time-averaged RF exposure from 5G mmW NR, i.e., norm. RF exposure from Smart Transmit enabled WWAN: (normalized SAR exposure from 4G) +
(normalized PD exposure from 5G mmW NR) 1.0 normalized limit
(2) 80-W5669-1 Rev. B MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 19 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report (Part 1: Test Under Static Transmission Scenario) Summary of Results In other words, Smart Transmit algorithm controls the total RF exposure from both 4G radio and 5G mmW NR to not exceed FCC limit. Smart transmit algorithm assumes hotspots are collocated
(i.e., ignoring spatial distribution of hotspots) and directly adds normalized RF exposures from 4G and from 5G mmW NR, i.e., If A = max normalized time-averaged SAR exposure from 4G, B = max normalized time-averaged PD exposure from 5G mmW NR, then, equation (2) can be re-written as below because Smart Transmit assumes 4G hotspots are collocated with 5G mmW NR hotspot:
Smart Transmit enabled WWAN: x(t) * A + (1-x(t)) * B 1.0 normalized limit
(3) Here, x(t)*A represents percentage of normalized time-averaged RF exposure from 4G, and x(t) ranges between [0,1]; (1-x(t))*B is remaining percentage of RF exposure contribution from 5G mmW NR. Smart Transmit controls x in real time such that the sum of these exposures never exceeds 1.0 normalized limit. Note that mathematically,
() + (1 ()) (, ) 1.0 , for x(t) [0,1] (4) Therefore, if below equations (5a) and (5b) are proven,
+ . 1.0 .
(5a), and
+ . 1.0 .
(5b), Then, based on equation (4), below condition is also proved:
[() + (1 ()) ] + . 1.0 .
(5c), which is same as equation (1), to demonstrate compliance for simultaneous transmission. Additionally, it should be noted that in the absence of 5G mmW NR, Smart Transmit limits the maximum RF exposure contributed from 4G to 100% normalized exposure (i.e., x=1.0 in equation 3), while with 5G mmW NR active, Smart Transmit limits the maximum RF exposure contributed from 5G mmW NR to 75% normalized exposure to guarantee at least 25% margin allocated to 4G LTE anchor to maintain the link (i.e., x=0.25 in equation 3). Therefore, Smart Transmit enabled WWAN: A=max (normalized SAR exposure from 4G) 1.0 normalized limit
(6a) Smart Transmit enabled WWAN: B=max (normalized PD exposure from 5G mmW NR) 0.75 normalized limit
(6b) Thus, for compliance demonstration given by equation (1), below equation (7) obtained by combining equations (5a & 5b) and (6a & 6b), should be proven to guarantee simultaneous transmission compliance:
80-W5669-1 Rev. B MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 20 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report (Part 1: Test Under Static Transmission Scenario) Summary of Results Total normalized RF exposure = norm. SAR from 4G WWAN + norm. SAR from WLAN <
1.0 normalized FCC limit
(7a) Total normalized RF exposure = 0.75*norm. PD from 5G mmW NR WWAN + norm. SAR from WLAN < 1.0 normalized FCC limit
(7b) The compliance for simultaneous transmission scenarios of WWAN (4G/5G mmW NR) radio enabled with Smart Transmit and WLAN without Smart Transmit is re-evaluated for all transmission scenarios supported by this EUT. As described in equation (7), simultaneous transmission analysis for WWAN + WLAN is performed in two parts:
1. 4G WWAN + WLAN (i.e., Eq. (7a) with compliance demonstration in Section 4.3.2) 2. 5G mmW NR WWAN + WLAN (i.e., Eq. (7b) with compliance demonstration in Section 4.3.3) By combining above a. and b., the FCC requirement expressed in Eq. (1), re-written below, is met Total norm. RF exposure = norm. RF exposure from Smart Transmit enabled WWAN
(norm. SAR from 4G + norm. PD from 5G mmW NR) + norm. SAR from WLAN 1.0 normalized limit
(1) 4.3.2 Simultaneous Transmission Compliance demonstration for 4G WWAN + WLAN For this EUT in all the supported 4G WWAN technologies, bands, antennas and DSIs, Plimit is Pmax (maximum RF tune-up power). Therefore, simultaneous transmission analysis for 4G WWAN + WLAN is performed at Pmax, which is shown in Section 4.7.4 of Bureau Veritas Report No. SA181015C09: FCC SAR Test Report. 4.3.3 Simultaneous Transmission Compliance demonstration for 5G mmW NR WWAN + WLAN Simultaneous transmission analysis is performed in this section using worst-case PD values listed in Table 4-3 for compliance demonstration of 5G mmW NR WWAN + WLAN, along with all worst-case reported SAR values for WLAN listed in Table 4-2 extracted from Bureau Veritas Report No. SA181015C09: FCC SAR Test Report. Simultaneous transmission analysis on all 5G mmW NR WWAN + WLAN scenarios are listed below:
80-W5669-1 Rev. B MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 21 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report (Part 1: Test Under Static Transmission Scenario) Summary of Results Table 4-5 Simultaneous transmission analysis scenarios for 5G mmW NR WWAN +
WLAN 1 2 2.4GHz WLAN* + 5G mmW NR 5GHz WLAN* + 5G mmW NR
*For each of the WLAN bands, worst-case SAR out of both WLAN antennas and WLAN MIMO scenarios is used during simultaneous transmission analysis. Additionally, note that WLAN 2.4GHz and WLAN 5GHz cannot transmit simultaneously. The total exposure ratio (TER) is calculated using the equation below, followed by the calculated TER for this EUT:
=
=1 SAR SAR,
+
=1 S, S,
< 1 Table 4-6 TER for WLAN + 5G mmW NR n260 80-W5669-1 Rev. B MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 22 5 Conclusions Table 5-1 shows the worst-case 1gSAR at Plimit and worst-case 4cm2-avg PD at input.power.limit. Table 5-1 Reported RF exposure level Highest 1g SAR at Plimit (W/kg) Highest 4cm2-avg PD at input.power.limit (W/m2) Highest 1g SAR (W/kg) for simultaneous Tx (4G WWAN + WLAN) Highest Total Exposure Ratio for simultaneous Tx
(LTE+5G mmW NR + WLAN) Reported RF Exposure Level Notes 1.16 7.43 1.28 Bureau Veritas Report No. SA181015C09 Section 4.3 Bureau Veritas Report No. SA181015C09 0.82 Section 4.3 Qualcomm Smart Transmit feature employed in Netgear 5G MHS Travel Router (FCC ID:
PY319100441) meets the SAR_design_target and PD_design_target (within the design uncertainties) when operating in the static transmission condition at Plimit and input.power.limit, respectively, and is compliant with the FCC RF exposure limits. A DASY mmW Probe and Verification Source Certificates 80-W5669-1 Rev. B MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 23
1 2 3 4 | PD test report 2 | RF Exposure Info | 1.13 MiB | / June 06 2019 |
Qualcomm Technologies, Inc. Netgear 5G MHS Travel Router (FCC ID:
PY319100441) RF Exposure Compliance Test Report
(Part 2: Test Under Dynamic Transmission Scenario) 80-W5669-2 Rev. B May 14, 2019 All Qualcomm products mentioned herein are products of Qualcomm Technologies, Inc. and/or its subsidiaries. Qualcomm is a trademark of Qualcomm Incorporated, registered in the United States and other countries. Other product and brand names may be trademarks or registered trademarks of their respective owners. This technical data may be subject to U.S. and international export, re-export, or transfer (export) laws. Diversion contrary to U.S. and international law is strictly prohibited. Qualcomm Technologies, Inc. 5775 Morehouse Drive San Diego, CA 92121 U.S.A. 2019 Qualcomm Technologies, Inc. and/or its subsidiaries. All rights reserved. Revision history Revision Date Description A B May 07, 2019 Initial release May 14, 2019 Correction in SAR tables 80-W5669-2 Rev. B MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 2 Contents 1 Introduction .............................................................................................................................. 5 2 Tx Varying Transmission Test Cases and Test Proposal .................................................... 6 3 PD Time Averaging Validation Test Procedures ................................................................... 9 3.1 Test sequence for validation in mmW NR transmission ............................................................................. 9 3.2 Test configuration selection criteria for validating smart transmit algorithm ............................................... 9 3.2.1 Test configuration selection for time-varying Tx power transmission ........................................ 9 3.2.2 Test configuration selection for change in antenna configuration (beam) ................................. 9 3.2.3 Test configuration selection for SAR vs. PD exposure switch during transmission ........................................................................................................................ 9 3.3 Test procedures for radiated power measurements................................................................................. 10 3.3.1 Time-varying Tx power scenario ............................................................................................. 10 3.3.2 Switch in SAR vs. PD exposure during transmission .............................................................. 11 3.3.3 Change in antenna configuration (beam)................................................................................ 13 3.4 Test procedure for PD measurements ..................................................................................................... 15 4 Test Configurations ............................................................................................................... 17 4.1 LTE + mmW NR transmission .................................................................................................................. 17 5 Radiated Power Test Results for mmW Smart Transmit Algorithm Validation ................ 18 5.1 WWAN (sub-6) transmission .................................................................................................................... 18 5.2 Measurement Setup ................................................................................................................................. 18 5.3 Radiated power test results ..................................................................................................................... 20 5.3.1 Maximum transmit power test results for n260 ....................................................................... 20 5.3.2 Switch in SAR vs. PD exposure test results for n260 ............................................................. 22 5.3.3 Change in Beam test results for n260 .................................................................................... 23 6 PD Test Results for mmW Smart Transmit Algorithm Validation...................................... 25 6.1 Measurement setup ................................................................................................................................. 25 6.2 PD measurement results for maximum power transmission scenario...................................................... 27 6.2.1 PD test results for n260 .......................................................................................................... 27 7 Conclusions ........................................................................................................................... 29 A Appendix A: PD Measurement System Validation ............................................................. 30 A.1 Test environment ..................................................................................................................................... 30 A.2 Power density measurement system ....................................................................................................... 30 A.2.1 Power density probe .............................................................................................................. 31 A.2.2 Power density measurement system verification ................................................................... 31 B Test Procedure for Time-Averaged PD Measurement Using cDASY6 ............................. 33 80-W5669-2 Rev. B MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 3 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report (Part 2: Test Under Dynamic Transmission Scenario) Figures Contents Figure 3-1: Running time averaging illustration ............................................................................................................ 11 Figure 5-1 Radiated power measurement setup ......................................................................................................... 19 Figure 6-1 Worst-surface of EUT positioned for the mmW beam being tested ............................................................ 26 Figure 6-2 PD measurement setup .............................................................................................................................. 26 Tables Table 4-1 Selections for LTE + mmW NR validation measurements .......................................................................... 17 Table 4-2: Test configuration for LTE + mmW NR validation ....................................................................................... 17 Table 5-1: Worst-case 1gSAR, 4cm2 avg. PD and EIRP measured at input.power.limit of the selected configurations
..................................................................................................................................................................................... 20 80-W5669-2 Rev. B MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 4 1 Introduction The equipment under test (EUT) is Netgear 5G MHS Travel Router (FCC ID: PY319100441), it contains the Qualcomm SM8150 modem supporting 2G/3G/4G technologies and SDX50 modem supporting mmW 5G NR bands. Both of these modems are enabled with Qualcomm Smart Transmit feature to control and manage transmitting power in real time and to ensure at all times the time-averaged RF exposure is in compliance with the FCC requirement. This purpose of the Part 2 report is to demonstrate the EUT complies with FCC RF exposure requirement under Tx varying transmission scenarios, thereby validity of Qualcomm Smart Transmit feature for FCC equipment authorization of Netgear 5G MHS Travel Router (FCC ID:
PY319100441). The Plimit and input.power.limit used in this Part 2 report is determined and listed in Part 0 report. Refer to Compliance summary report for EUT description and terminology used in this report. 80-W5669-2 Rev. B MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 5 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report (Part 2: Test Under Dynamic Transmission Scenario) Tx Varying Transmission Test Cases and Test Proposal 2 Tx Varying Transmission Test Cases and Test Proposal In general, to validate power enforcement by Smart Transmit and demonstrate the compliance in Tx varying transmission conditions, the following test cases are proposed and agreed by FCC:
1. During a time-varying Tx power transmission: To prove that the Smart Transmit algorithm accounts for Tx power variations in time accurately. 2. During a call disconnect and reestablish scenario in 2G/3G/4G technology: To prove that the Smart Transmit algorithm accounts for history of past Tx power transmissions accurately. 3. During technology/band handover within 2G/3G/4G technology: To prove that the Smart Transmit algorithm functions correctly during transitions in technology/band. 4. During antenna (or beam) switch: To prove that the Smart Transmit algorithm functions correctly during transitions in antenna (such as AsDiv scenario) or beams (different antenna array configurations). 5. SAR vs. PD exposure switching during sub-6+mmW transmission: To prove that the Smart Transmit algorithm functions correctly and ensures total RF exposure compliance during transitions in SAR only exposure, SAR+PD exposure, and PD only exposure scenarios. As shown in Table 4-1 of Section 4.1 Part 1 report, since maximum time-averaged power level Plimit Pmax (maximum RF tune-up output power) for all sub-6 radios supported for this EUT, the power limiting will not be enforced from Smart Transmit when only sub-6 radio is active. Hence, the validation for sub-6 radio is not required for this EUT when only sub-6 radio is active. The test case 1, 4 and 5 are performed in this Part 2 report for 5G mmW NR band 260 with LTE B2 as anchor. For a SAR-and PD-characterized wireless device, RF exposure is proportional to the Tx power. Thus, algorithm validation in Part 2 can be effectively performed through conducted (for f <
6GHz) and radiated (for f 6GHz) power measurement. Therefore, the validation is done in power measurement setup for test cases 1, 4 and 5. To add confidence in the algorithm validation, the time-averaged SAR and PD measurements are also performed, but they are only performed for test case 1 to avoid the complexity in SAR/PD measurement. The strategy for testing in Tx varying transmission condition is outlined as follows:
Demonstrate the total RF exposure averaged over FCC defined time windows does not exceed FCCs SAR and PD limits, through time-averaged power measurements Measure conducted Tx power (for f < 6GHz) versus time, and radiated Tx power (EIRP for f > 6GHz) versus time. Convert it into RF exposure and divide by respective FCC limits to get normalized exposure versus time. Perform running time-averaging over FCC defined time windows. 80-W5669-2 Rev. B MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 6 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report (Part 2: Test Under Dynamic Transmission Scenario) Tx Varying Transmission Test Cases and Test Proposal Demonstrate that the total normalized time-averaged RF exposure is less than 1 for all transmission scenarios (i.e., test case 1, 4, and 5) at all times. Mathematical expression:
For LTE+mmW transmission:
1__10() =
__() ___ 1__10_ (1a) 42() =
__() ___.. 42_. (1b) 1 1__10() 1 42() 42
+
1 (1c) where, __(), ___, and 1__10_ correspond to the measured instantaneous conducted Tx power, measured conducted Tx power at Plimit, and measured 1gSAR or 10gSAR values at Plimit. Similarly, __(), ___. , and 42_. correspond to the measured instantaneous radiated Tx power, radiated Tx power at input.power.limit (i.e., radiated power limit), and 4cm2PD value at input.power.limit. Both Plimit and input.power.limit are the parameters pre-defined in Part 0 report and entered through EFS. TSAR is the time window for sub-6 radio defined by FCC; TPD is the time window for mmW radio defined by FCC. NOTE: If Plimit Pmax, 1gSAR or 10gSAR measured at Plimit shall be replaced with 1gSAR or 10gSAR measured at Pmax. Demonstrate the total RF exposure averaged over FCC defined time windows does not exceed FCCs SAR and PD limits, through time-averaged PD measurements. Note as mentioned earlier, this measurement is performed for test case 1 only. For LTE + mmW transmission, measure instantaneous E-field versus time for mmW radio and instantaneous conducted power versus time for LTE radio. Convert it into RF exposure and divide by respective FCC limits to get normalized exposure versus time. Perform time averaging over FCC defined time windows. Demonstrate that the total normalized time-averaged RF exposure is less than 1 for test case 1 at all times. Mathematical expression:
For LTE+mmW transmission:
1__10() =
__() ___ 1__10_ (2a) 42() =
[()]2
[_..]2 42_. (2b) 80-W5669-2 Rev. B MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 7 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report (Part 2: Test Under Dynamic Transmission Scenario) 1 1__10()
+
1 42 Tx Varying Transmission Test Cases and Test Proposal 42() 1 (2c) where, __(), ___, and 1__10_ correspond to the measured instantaneous conducted Tx power, measured conducted Tx power at Plimit, and measured 1gSAR or 10gSAR values at Plimit. Similarly, (), _. , and 42_. correspond to the measured instantaneous E-field, E-
field measured at input.power.limit, and 4cm2PD value measured at input.power.limit. NOTE: If Plimit Pmax, 1gSAR or 10gSAR measured at Plimit shall be replaced with 1gSAR or 10gSAR measured at Pmax. NOTE: cDASY6 system measures relative E-field, and provides ratio of
[()]2
[_..]2 versus time. See Appendix B for time-averaged PD measurement details. 80-W5669-2 Rev. B MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 8 3 PD Time Averaging Validation Test Procedures This section provides the test plan and test procedures for validating Qualcomm Smart Transmit algorithm for mmW transmission. For this EUT, millimeter wave (mmW) transmission is only in non-standalone mode, i.e., it requires a sub-6 LTE link as anchor. 3.1 Test sequence for validation in mmW NR transmission In 5G mmW NR transmission, the test sequence for validation is with the callbox requesting EUT to transmit in 5G mmW NR at maximum power all the time. 3.2 Test configuration selection criteria for validating smart transmit algorithm 3.2.1 Test configuration selection for time-varying Tx power transmission The Smart Transmit time averaging algorithm operation is independent of bands, modes, channels, and antenna configurations (beams) for a given technology. Hence, validation of Smart Transmit in any one band/mode/channel/beam per technology is sufficient. 3.2.2 Test configuration selection for change in antenna configuration
(beam) The Smart Transmit time averaging algorithm operation is independent of bands, modes, channels, and antenna configurations (beams) for a given technology. Hence, validation of Smart Transmit with beam switch between any two beams is sufficient. 3.2.3 Test configuration selection for SAR vs. PD exposure switch during transmission The Smart Transmit time averaging algorithm operation is independent of the nature of exposure
(SAR vs. PD) and ensures total time-averaged RF exposure compliance. Hence, validation of Smart Transmit in any one band/mode/channel/beam for mmW + sub-6 (LTE) transmission is sufficient, where the exposure varies among SAR dominant scenario, SAR+PD scenario, and PD dominant scenario. 80-W5669-2 Rev. B MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 9 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report (Part 2: Test Under Dynamic Transmission Scenario) PD Time Averaging Validation Test Procedures 3.3 Test procedures for radiated power measurements The test procedures for performing conducted power measurement (for f < 6GHz) and radiated power measurement (for f > 6GHz) for LTE + mmW transmission to validate Smart Transmit time averaging algorithm in the various transmission scenarios are described in this section. 3.3.1 Time-varying Tx power scenario The purpose of the test is to demonstrate the effectiveness of power limiting enforcement and that the time-averaged transmit power when converted into RF exposure values does not exceed the FCC limit at all times (see Eq. (1a), (1b) & (1c) in Section 2). Test procedure:
1. Measure conducted Tx power corresponding to Plimit for LTE in selected band, and measure radiated Tx power corresponding to input.power.limit in desired mmW band/channel/beam. Test condition to measure conducted Plimit and radiated input.power.limit is:
2. Measure radiated power corresponding to mmW input.power.limit by setting up the EUT to transmit in desired band/channel/beam at input.power.limit in Factory Test Mode (FTM). This test is performed in a calibrated anechoic chamber. Rotate the EUT to obtain maximum radiated Tx power, keep the EUT in this position and do not disturb the position of the EUT inside the anechoic chamber for the rest of this test. 3. Reset EUT to place in online mode and establish radio link in LTE, measure conducted Tx power corresponding to LTE Plimit with Smart Transmit enabled and Reserve_power_margin set to 0 dB, callbox set to request maximum power. 4. Set Reserve_power_margin to actual value (i.e., intended value) and reset power on EUT to enable Smart Transmit. With EUT setup for a mmW NR call in the desired/selected LTE band and mmW NR band/beam, perform the following steps:
a. Establish LTE (sub-6) and mmW NR connection. As soon as the mmW connection is established, immediately request all-down bits on LTE link. With callbox requesting EUT to transmit at maximum mmW power to test predominantly PD exposure scenario
(as SAR exposure is less when LTE transmits at low power). b. After 120s, request LTE to go all-up bits for at least 100s. SAR exposure is dominant. There are two scenarios:
i ii If Plimit < Pmax, then the RF exposure margin (to mmW NR) gradually run out of (due to high SAR exposure), the 5G NR mmW transmission power should be gradually reduced accordingly and eventually seized when LTE goes to Preserve level. If Plimit Pmax, then the 5G NR mmW transmission averaged power should gradually reduce but the mmW NR connection can sustain all the time (assuming TxAGC uncertainty = 0dB). c. Record the conducted Tx power of LTE and radiated Tx power of mmW NR for the full duration of this test of ~ 300s or longer. 5. Once the measurement is done, extract instantaneous Tx power versus time for both LTE and mmW links. Convert the conducted Tx power for LTE into 1gSAR value using Eq. (1a) and Plimit measured in Step 1.b, and then divide by FCC limit of 1.6 W/kg for 1gSAR to obtain instantaneous normalized 1gSAR versus time. Perform 100s running average to determine normalized 100s-averaged 1gSAR versus time as illustrated in Figure 5-1. 80-W5669-2 Rev. B MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 10 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report (Part 2: Test Under Dynamic Transmission Scenario) PD Time Averaging Validation Test Procedures NOTE: In Eq.(1a), instantaneous Tx power is converted into instantaneous 1gSAR value by applying the worst-case 1gSAR value at Plimit for the corresponding technology/band/antenna/DSI reported in Part 1 report. Figure 3-1: Running time averaging illustration 6. Similarly, convert the radiated Tx power for mmW NR into 4cm2PD value using Eq. (1b) and the radiated Tx power limit (i.e., radiated Tx power measured at input.power.limit) measured in Step 1.a, then divide by FCC 4cm2PD limit of 10W/m2 to obtain instantaneous normalized 4cm2PD versus time. Perform 4s running average to determine normalized 4s-averaged 4cm2PD versus time. NOTE: In Eq.(1b), instantaneous radiated Tx power is converted into instantaneous 4cm2PD by applying the corresponding worst-case 4cm2PD value measured at input.power.limit for the selected band/beam in Part 1 report. 7. Make one plot containing: (a) instantaneous conducted Tx power for LTE versus time, (b) computed 100s-averaged conducted Tx power for LTE versus time, (c) instantaneous radiated Tx power for mmW versus time, as measured in Step 2, (d) computed 4s-averaged radiated Tx power for mmW versus time, and (e) time-averaged conducted and radiated power limits for LTE and mmW radio, respectively. 8. Make another plot containing: (a) computed normalized 100s-averaged 1gSAR versus time determined in Step 3, (b) computed normalized 4s-averaged 4cm2PD versus time determined in Step 4, and (c) corresponding total normalized time-averaged RF exposure (sum of steps
(6.a) and (6.b)) versus time. The validation criteria is, at all times, the total normalized time-averaged RF exposure versus time determined in Step 6.c shall not exceed the normalized limit of 1.0 of FCC requirement (i.e., Eq. (1c)). 3.3.2 Switch in SAR vs. PD exposure during transmission This test is to demonstrate that Smart Transmit algorithm is independent of the nature of exposure
(SAR vs. PD), accurately accounts for switching in exposures among SAR only, SAR+PD, and PD only scenarios, and ensures total time-averaged RF exposure compliance. Test procedure:
1. Measure conducted Tx power corresponding to Plimit for LTE in selected band/channel/DSI, and measure radiated Tx power corresponding to input.power.limit in desired mmW 80-W5669-2 Rev. B MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 11 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report (Part 2: Test Under Dynamic Transmission Scenario) PD Time Averaging Validation Test Procedures band/channel/beam. Test condition to measure conducted Plimit and radiated input.power.limit is:
2. Measure radiated power corresponding to mmW input.power.limit by setting up the EUT to transmit in desired band/channel/beam at input.power.limit in FTM. This test is performed in a calibrated anechoic chamber. Rotate the EUT to obtain maximum radiated Tx power, keep the EUT in this position and do not disturb the position of the EUT inside the anechoic chamber for the rest of this test. 3. Reset EUT to place in online mode and establish radio link in LTE, measure conducted Tx power corresponding to LTE Plimit with Smart Transmit enabled and Reserve_power_margin set to 0 dB, callbox set to request maximum power. 4. Set Reserve_power_margin to actual value (intended value) and reset power in EUT, With EUT setup for LTE (sub-6) + mmW NR call, perform the following steps:
5. Establish LTE (sub-6) and mmW NR connection with callbox. 6. As soon as the mmW connection is established, immediately request all-down bits on LTE link. Continue LTE (all-down bits) + mmW transmission for more than 100s duration to test predominantly PD exposure scenario (as SAR exposure is negligible from all-down bits in LTE). 7. After 120s, request LTE to go all-up bits, mmW transmission should gradually run out of RF exposure margin if Plimit < Pmax and seize mmW transmission (SAR only scenario); or mmW transmission should gradually reduce in Tx power if Plimit > Pmax and will sustain the connection, in this case there will be no SAR exposure only scenario when the EUT is in EN-
DC mode. 8. After 75s, request LTE to go all-down bits, mmW transmission should start getting RF exposure margin and gradually transmit at high averaged power again. 9. Record the conducted Tx power of LTE and radiated Tx power of mmW for the entire duration of this test of ~300s or longer. 10. Once the measurement is done, extract instantaneous Tx power versus time for both LTE and mmW links. Convert the conducted Tx power for LTE into 1gSAR value using Eq. (1a) and Plimit measured in Step 1.b, and then divide by FCC limit of 1.6 W/kg for 1gSAR to obtain instantaneous normalized 1gSAR versus time. Perform 100s running average to determine normalized 100s-averaged 1gSAR versus time. NOTE: In Eq.(1a), instantaneous Tx power is converted into instantaneous 1gSAR value by applying the corresponding worst-case 1gSAR value measured at Plimit for the technology/band/antenna/DSI reported in Part 1 report. 11. Similarly, convert the radiated Tx power for mmW NR into 4cm2PD value using Eq. (1b) and the radiated Tx power limit (i.e., radiated Tx power measured at input.power.limit) measured in Step 1.a, then divide this by FCC 4cm2PD limit of 10W/m2 to obtain instantaneous normalized 4cm2PD versus time. Perform 4s running average to determine normalized 4s-
averaged 4cm2PD versus time. NOTE: In Eq.(2b), instantaneous radiated Tx power is converted into instantaneous 4cm2PD by applying the corresponding worst-case 4cm2PD value measured at input.power.limit for the selected band/beam in Part 1 report. 80-W5669-2 Rev. B MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 12 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report (Part 2: Test Under Dynamic Transmission Scenario) PD Time Averaging Validation Test Procedures 12. Make one plot containing: (a) instantaneous conducted Tx power for LTE versus time, (b) computed 100s-averaged conducted Tx power for LTE versus time, (c) instantaneous radiated Tx power for mmW versus time, as measured in Step 2, (d) computed 4s-averaged radiated Tx power for mmW versus time, and (e) time-averaged conducted and radiated power limits for LTE and mmW radio, respectively. 13. Make another plot containing: (a) computed normalized 100s-averaged 1gSAR versus time determined in Step 3, (b) computed normalized 4s-averaged 4cm2PD versus time determined in Step 4, and (c) corresponding total normalized time-averaged RF exposure (sum of steps
(6.a) and (6.b)) versus time. The validation criteria is, at all times, the total normalized time-averaged RF exposure versus time determined in Step 6.c shall not exceed the normalized limit of 1.0 of FCC requirement (i.e., Eq. (1c)). 3.3.3 Change in antenna configuration (beam) This test is to demonstrate the correct power control by Smart Transmit during changes in antenna configuration (beam). Since the input.power.limit varies with beam, the Eq. (1a), (1b) and (1c) in Section 2 are written as below for transmission scenario having change in beam, 1__10() =
__() ___ 1__10_ (3a) 421() =
___1() ___.._1 42_. _1
(3b) 422() =
___2() ___.._2 42_. _2
(3c) 1 1__10() 1
[
1
+
42PD1()
+ 42PD2() 1 42
]
1 (3d) where, radiated_Tx_power_1(t), radiated_Tx_power_input.power.limit_1, and 4cm2PD_input.power.limit_1 correspond to the instantaneous radiated Tx power, radiated Tx power measured at input.power.limit, and 4cm2PD measured at input.power.limit of beam 1;
radiated_Tx_power_2(t), radiated_Tx_power_input.power.limit_2, and 4cm2PD_input.power.limit_2 correspond to the instantaneous radiated Tx power, radiated Tx power measured at input.power.limit, and 4cm2PD measured at input.power.limit of beam 2. NOTE: If Plimit Pmax, 1gSAR measured at Plimit shall be replaced with 1gSAR measured at Pmax. Test procedure:
1. Measure conducted Tx power corresponding to Plimit for LTE in selected band/channel/DSI, and measure radiated Tx power corresponding to input.power.limit in desired mmW 80-W5669-2 Rev. B MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 13 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report (Part 2: Test Under Dynamic Transmission Scenario) PD Time Averaging Validation Test Procedures band/channel/beam. Test condition to measure conducted Plimit and radiated input.power.limit is:
2. Measure radiated power corresponding to mmW input.power.limit by setting up the EUT to transmit in desired band/channel for beam 1 at input.power.limit in FTM. Do not disturb the position of the EUT inside the anechoic chamber for the rest of this test. Repeat this Step 1.a for beam 2. 3. Reset EUT to place in online mode and establish radio link in LTE, measure conducted Tx power corresponding to LTE Plimit with Smart Transmit enabled and Reserve_power_margin set to 0 dB, callbox set to request maximum power. 4. Set Reserve_power_margin to actual value (intended value) and reset power in EUT, With EUT setup for LTE (sub-6) + mmW connection, perform the following steps:
5. Establish LTE (sub-6) and mmW NR connection in beam1. As soon as the mmW connection is established, immediately request all-down bits on LTE link with the callbox requesting EUT to transmit at maximum mmW power. 6. After beam 1 transmits for at least 20s, request the EUT to change from beam 1 to beam 2, and continue transmitting with beam 2 for at least 20s. 7. Record the conducted Tx power of LTE and radiated Tx power of mmW for the entire duration of this test. 8. Once the measurement is done, extract instantaneous Tx power versus time for both LTE and mmW links. Convert the conducted Tx power for LTE into 1gSAR value using the similar approach described in Step 3 of Section 3.3.2. Perform 100s running average to determine normalized 100s-averaged 1gSAR versus time. 9. Similarly, convert the radiated Tx power for mmW NR into 4cm2PD value using Eq. (3b),
(3c) and the radiated Tx power limits (i.e., radiated Tx power measured at input.power.limit) measured in Step 1.a for beam 1 and beam 2, respectively, and then divide the resulted PD values by FCC 4cm2PD limit of 10W/m2 to obtain instantaneous normalized 4cm2PD versus time for beam 1 and beam 2. Perform 4s running average to determine normalized 4s-
averaged 4cm2PD versus time. NOTE: In Eq.(3b) and (3c), instantaneous radiated Tx power of beam 1 and beam 2 is converted into instantaneous 4cm2PD by applying the corresponding worst-case 4cm2PD value measured at the input.power.limit of beam 1 and beam 2 in Part 1 report. 10. Since the measured radiated powers for beam1 and beam2 in Step 1.a were performed at an arbitrary rotation of EUT in anechoic chamber, repeat Step 1.a of this procedure by rotating the EUT to determine maximum radiated power at input.power.limit in FTM mode for both beams separately. Re-scale the instantaneous radiated power recorded in Step 2.c by the delta of radiated power measured in Step 5 and radiated power obtained in Step 1.a. 11. Make one plot containing: (a) instantaneous conducted Tx power for LTE versus time as measured in Step 2, (b) instantaneous radiated Tx power for mmW versus time as obtained in Step 5, (c) computed 4s-averaged radiated Tx power for mmW (using 6.b) versus time and
(d) time-averaged radiated Tx power limits for beam 1 and beam 2. 12. Make another plot containing: (a) computed normalized 100s-averaged 1gSAR versus time determined in Step 3, (b) computed normalized 4s-averaged 4cm2PD versus time determined in Step 4, and (c) corresponding total normalized time-averaged RF exposure (sum of steps
(6.a) and (6.b)) versus time. 80-W5669-2 Rev. B MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 14 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report (Part 2: Test Under Dynamic Transmission Scenario) PD Time Averaging Validation Test Procedures The validation criteria is, at all times, the total normalized time-averaged RF exposure versus time determined in Step 6.c shall not exceed the normalized limit of 1.0 of FCC requirement (i.e.,
(3d)). 3.4 Test procedure for PD measurements The following steps are used to perform the validation through PD measurement for test case 1 described in Section 2:
1. Place the EUT on the DASY platform to perform PD measurement in the worst-case position/surface for the selected mmW band/beam/DSI. In PD measurement, the callbox is set to request maximum mmW Tx power from EUT all the time. Hence, path loss calibration between callbox antenna and EUT is not needed in this test. 2. Time averaging algorithm validation:
a. Measure conducted Tx power corresponding to Plimit for LTE in selected band/channel/DSI, and measure point E-field corresponding to input.power.limit in desired mmW band/channel/beam. Test condition to measure conducted Plimit and PD
(i.e., E-field) at input.power.limit is:
3. Measure conducted Tx power corresponding to LTE Plimit with Smart Transmit enabled and Reserve_power_margin set to 0 dB, callbox set to request maximum power. 4. Measure point E-field at peak location of fast area scan corresponding to input.power.limit by setting up the EUT to transmit in desired mmW band/channel/beam at input.power.limit in FTM Mode. Do not disturb the position of EUT and mmW DASY probe. a. Set Reserve_power_margin to actual value (i.e., intended value) and reset power on EUT, place EUT in online mode. With EUT setup for LTE (sub-6) + mmW call, as soon as the mmW connection is established, request all-down bits on LTE link. Continue LTE (all-
down bits) + mmW transmission for more than 100s duration to test predominantly PD exposure scenario. After 120s, request LTE to go all-up bits, mmW transmission should gradually reduce. Record the conducted Tx power of LTE and point relative E-field (i.e., ratio of
[_..]2) of mmW at peak location identified in Step 2.a.ii for
[()]2 the entire duration of this test of ~300s. b. Once the measurement is done, extract instantaneous Tx power versus time for LTE and
[()]2
[_..]2 versus time from DASY system for mmW. Convert the conducted Tx power for LTE into 1gSAR value using Eq. (2a) and Plimit measured in Step 2.a.i, and then divide this by FCC limit of 1.6 W/kg for 1gSAR to obtain instantaneous normalized 1gSAR versus time. Perform 100s running average to determine normalized 100s-averaged 1gSAR versus time. NOTE: In Eq.(2a), instantaneous Tx power is converted into instantaneous 1gSAR value by applying the worst-case 1gSAR value measured at Plimit for the corresponding technology/band reported in Part 1 report. c. Similarly, convert the
[_..]2 for mmW into 4cm2PD value using Eq.
[()]2
(2b) and radiated power limit measured in Step 2.a.ii, and then divide this by FCC 80-W5669-2 Rev. B MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 15 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report (Part 2: Test Under Dynamic Transmission Scenario) PD Time Averaging Validation Test Procedures 4cm2PD limit of 10W/m2 to obtain instantaneous normalized 4cm2PD versus time. Perform 4s running average to determine normalized 4s-averaged 4cm2PD versus time. NOTE: In Eq.(2b), the instantaneous relative E-field (i.e., ratio of
[_..]2) is converted into instantaneous 4cm2PD by applying the corresponding worst-case 4cm2PD value measured at the input.power.limit of beam 1 and beam 2 in Part 1 report.
[()]2 d. Make one plot containing: (i) computed normalized 100s-averaged 1gSAR versus time obtained in Step 2.c, (ii) computed normalized 4s-averaged 4cm2PD versus time determined in Step 2.d, and (iii) corresponding total normalized time-averaged RF exposure (sum of steps (2.e.i) and (2.e.ii)) versus time. The validation criteria is, at all times, the total normalized time-averaged RF exposure versus time determined in Step 2.e.iii shall not exceed the normalized limit of 1.0 of FCC requirement (i.e., Eq. (2c)). 80-W5669-2 Rev. B MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 16 4 Test Configurations 4.1 LTE + mmW NR transmission Based on the selection criteria described in Section 3.2, the selections for LTE and mmW NR validation test are listed in Table 4-1. The radio configurations used in this test is listed in Table 4-2. Table 4-1 Selections for LTE + mmW NR validation measurements Transmission Scenario Test Technology and Band mmW Beam Time-varying Tx power test Cond. & Rad. Power meas. PD meas. LTE Band 2 and n260 Beam ID 171 Switch in SAR vs. PD Beam switch test Cond. & Rad. Power meas. LTE Band 2 and n260 Beam ID 171 Cond. & Rad. Power meas. LTE Band 2 and n260 Beam ID 158 to Beam ID 131 Table 4-2: Test configuration for LTE + mmW NR validation Tech LTE mmW NR Band B2 n260 DSI Channel RB/offset Freq (MHz) 15 18900 1880 50 Mode QPSK UL Duty Cycle 100%
--
2254147 28 38499 CP-OFDM, BPSK 75.6%
80-W5669-2 Rev. B MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 17 5 Radiated Power Test Results for mmW Smart Transmit Algorithm Validation 5.1 WWAN (sub-6) transmission As discussed in Section 2, since maximum time-averaged power level Plimit Pmax (maximum RF tune-up output power) for all supported 4G WWAN technologies/bands/DSI for this EUT, there is no power limiting required if only 4G radio is active. Hence, the Tx varying transmission scenario tests listed in Section 2 are performed for EN-DC, i.e., mmW NR + LTE radio, only in this Part 2 report for Netgear 5G MHS Travel Router (FCC ID: PY319100441). 5.2 Measurement Setup The Keysight Technologies E7515B UXM callbox is used in this test. The test setup is shown in Figure 5-1a and the schematic of the setup is shown in Figure 5-1b. The UXM callbox has two RF radio heads to up/down convert IF to mmW frequencies, which in turn are connected to two horn antennas for V- and H-polarizations for downlink communication. In the uplink, a directional coupler is used in the path of one of the horn antennas to measure and record radiated power using a Rohde & Schwarz NR50S power sensor and NRP2 power meter. Note that since the measurements performed in this validation are all relative, measurement of EUTs radiated power in one polarization is sufficient. The EUT is placed inside an anechoic chamber with V-
and H-pol horn antennas to establish the radio link as shown in Figure 5-1. The callboxs LTE port is directly connected to the EUTs RF port via a directional coupler to measure the EUTs conducted Tx power using a Rohde & Schwarz NR8S power sensor and NRP2 power meter. Additionally, EUT is connected to the PC via USB connection for sending beam switch command. Care is taken to route the USB cable and RF cable (for LTE connection) away from the EUTs mmW antenna modules. Setup in Figure 5-1 is used for the test scenario 1, 4 and 5 described in Section 2. The test procedures described in Section 3 are followed. The path losses from the EUT to the power meters are calibrated and used as offset in the power meter. 80-W5669-2 Rev. B MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 18 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report (Part 2: Test Under Dynamic Transmission Scenario) Radiated Power Test Results for mmW Smart Transmit Algorithm Validation
(a)
(b) Figure 5-1 Radiated power measurement setup Both the callbox and power meters are connected to the PC using USB cables. Test scripts are custom made for automation of establishing LTE + mmW call, conducted Tx power recording for LTE and radiated Tx power recording for mmW. These tests are manually stopped after desired 80-W5669-2 Rev. B MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 19 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report (Part 2: Test Under Dynamic Transmission Scenario) Radiated Power Test Results for mmW Smart Transmit Algorithm Validation time duration. Immediately after the mmW link is established, test script is programmed to set LTE Tx power to all-down bits on the callbox and programmed to set toggle between all-up and all-down bits depending on the transmission scenario being evaluated. Similarly, test script is also programmed to send beam switch command manually to the EUT via USB connection. For all the tests, the callbox is set to request maximum Tx power in mmW NR radio from EUT all the time. 5.3 Radiated power test results To demonstrate the compliance, the conducted Tx power of LTE B2 is converted to worst-case exposure 1gSAR by applying the worst-case 1gSAR value of 0.9 W/kg @ 23.5dBm for LTE B2 as reported in Table 4-2 of Part 1 report. Similarly, following Step 4 in Section 3.3.1, radiated Tx power of mmW n260 for the beams tested is converted by applying the corresponding worst-case 4cm2PD values as reported in Table 4-3 of Part 1 report. Both worst-case 1gSAR and 4cm2PD values used in this section are listed in Table 5-1. Table 5-1: Worst-case 1gSAR, 4cm2 avg. PD and EIRP measured at input.power.limit of the selected configurations 5.3.1 Maximum transmit power test results for n260 This test was measured with LTE B2 (DSI = 15) and mmW Band n260 Beam ID 171, by following the detailed test procedure described in Section 3.3.1. Instantaneous and 100s-averaged conducted LTE Tx power versus time, instantaneous and 4s-
averaged radiated mmW Tx power versus time, time-averaged conducted LTE Tx power limit and time-averaged radiated mmW Tx power limit:
80-W5669-2 Rev. B MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 20 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report (Part 2: Test Under Dynamic Transmission Scenario) Radiated Power Test Results for mmW Smart Transmit Algorithm Validation Above instantaneous conducted Tx power for LTE B2 is converted into instantaneous 1gSAR using Equation (1a) ), which is divided by FCC 1gSAR limit of 1.6 W/kg to obtain normalized SAR exposure versus time. Similarly, instantaneous radiated Tx power for 5G mmW NR is converted into instantaneous 4cm2PD using Equation (1b), which is divided by FCC 4cm2PD limit of 10 W/m2 to obtain normalized PD exposure versus time. Time-averaged normalized exposures versus time are obtained using Equation (1c). Below plot shows (a) normalized time-
averaged 1gSAR versus time, (b) normalized time-averaged 4cm2-avg.PD versus time, (c) sum of normalized time-averaged 1gSAR and normalized time-averaged 4cm2-avg.PD. FCC requirement for total RF exposure (normalized) Max total normalized time-averaged RF exposure (green curve) Validated 1.0 0.775 80-W5669-2 Rev. B MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 21 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report (Part 2: Test Under Dynamic Transmission Scenario) Radiated Power Test Results for mmW Smart Transmit Algorithm Validation Plot notes: 5G mmW NR call was established at ~30s time mark and LTE was placed in all-down bits immediately after 5G mmW NR call was established. Between 30s~150s, mmW exposure is the dominant contributor. Here, Smart Transmit algorithm allocates a maximum of 75% for mmW (i.e., at least 25% is allocated to 4G LTE anchor to maintain the link) based on the 3dB of the reserve settings in Table 3-1 of Part 1 report. From Table 5-1, this corresponds to a normalized 4cm2PD exposure value for Beam ID 171 of (75% * 2.69 W/m2)/(10 W/m2) = 20%
2.8dB device related uncertainty (see orange curve between 30s~150s). At 150s time mark, LTE is set to all-up bits, taking away margin from mmW exposure gradually. Towards the end of test, LTE is the dominant contributor towards RF exposure, i.e., corresponding normalized 1gSAR exposure value of (100% * 1.16 W/kg)/(1.6 W/kg) = 72.5% 1dB design related uncertainty (see black curves approaching this level towards end of the test). As can be seen, the power limiting enforcement is effective and the total normalized time-
averaged RF exposure does not exceed 1.0. Therefore, Qualcomm Smart Transmit time averaging algorithm is validated 5.3.2 Switch in SAR vs. PD exposure test results for n260 This test was measured with LTE Band 2 (DSI = 15) and mmW Band n260 Beam ID 171, by following the detailed test procedure is described in Section 3.3.2. Instantaneous and 100s-averaged conducted LTE Tx power versus time, instantaneous and 4s-
averaged radiated mmW Tx power versus time, time-averaged conducted LTE Tx power limit and time-averaged radiated mmW Tx power limit:
From the above plot, it can be seen that between 110s ~ 230s, it is predominantly instantaneous PD exposure, between 230s ~ 310s, it is instantaneous SAR+PD exposure, and above 310s, it is predominantly instantaneous PD exposure. Normalized time-averaged exposures for LTE (1gSAR) and mmW (4cm2PD), as well as total normalized time-averaged exposure versus time:
80-W5669-2 Rev. B MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 22 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report (Part 2: Test Under Dynamic Transmission Scenario) Radiated Power Test Results for mmW Smart Transmit Algorithm Validation FCC requirement for total RF exposure (normalized) Max total normalized time-averaged RF exposure (green curve) Validated 1.0 0.614 Plot notes: 5G mmW NR call was established at ~110s time mark and LTE was placed in all-
down bits immediately after 5G mmW NR call was established. Between 110s~230s, mmW exposure is the dominant contributor. Here, Smart Transmit algorithm allocates a maximum of 75% for mmW (i.e., at least 25% is allocated to 4G LTE anchor to maintain the link) based on 3dB of the reserve settings in Table 3-1 of Part 1 report. From Table 5-1, this corresponds to a normalized 4cm2PD exposure value for Beam ID 171 of (75% * 2.69 W/m2)/(10 W/m2) = 20%
2.8dB device related uncertainty (see orange curve between 110s~230s). At 230s time mark, LTE is set to all-up bits, taking away margin from mmW exposure gradually (orange curve for mmW exposure goes down while black curve for LTE exposure goes up). At 310s time mark, LTE is set to all-down bits, which results in mmW getting back RF margin slowly as seen by gradual increase in mmW exposure (orange curve for mmW exposure goes up while black curve for LTE exposure goes down). The calculated maximum RF exposure from LTE corresponds to normalized 1gSAR exposure value of (100% * 1.16 W/kg)/(1.6 W/kg) = 72.5% 1dB design related uncertainty (note that this level will be achieved by green and black curves if LTE remains in all-up bits for longer time duration which was already demonstrated in maximum transmit power test in Section 5.3.2). Total normalized time-averaged exposure (green curve) for this test should be within the calculated range between 20% 2.8dB device related uncertainty (only PD exposure) and 72.5% 1dB design related uncertainty (only SAR exposure). As can be seen, the power limiting enforcement is effective during transmission when SAR and PD exposures are switched, and the total normalized time-averaged RF exposure does not exceed 1.0. Therefore, Qualcomm Smart Transmit time averaging algorithm is validated. 5.3.3 Change in Beam test results for n260 This test was measured with LTE Band 2 (DSI = 15) and mmW Band n260, with beam switch from Beam ID 158 to Beam ID 131, by following the test procedure is described in Section 3.3.3. 80-W5669-2 Rev. B MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 23 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report (Part 2: Test Under Dynamic Transmission Scenario) Radiated Power Test Results for mmW Smart Transmit Algorithm Validation Instantaneous conducted LTE Tx power versus time, instantaneous and 4s-averaged radiated mmW Tx power versus time, time-averaged conducted LTE Tx power limit and time-averaged radiated mmW Tx power limit:
Normalized time-averaged exposures for LTE (1gSAR) and mmW (4cm2PD), as well as total normalized time-averaged exposure versus time:
FCC requirement for total RF exposure (normalized) Max total normalized time-averaged RF exposure (green curve) 1.0 0.119 Validated Plot notes: 5G mmW NR call was established at ~15s time mark and LTE was placed in all-down bits immediately after 5G mmW NR call was established. For the rest of this test, mmW exposure is the dominant contributor as LTE is left in all-down bits. Here, Smart Transmit algorithm allocates a maximum of 75% for mmW (i.e., at least 25% is allocated to 4G LTE anchor to maintain the link) based on 3dB of the reserve settings in Table 3-1 of Part 1 report. From Table 80-W5669-2 Rev. B MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 24 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report (Part 2: Test Under Dynamic Transmission Scenario) PD Test Results for mmW Smart Transmit Algorithm Validation 5-1, exposure between 15s ~110s corresponds to a normalized 4cm2PD exposure value for Beam ID 158 of (75% * 2.11 W/m2)/(10 W/m2) = 15.8% 2.8dB device related uncertainty between 15s~110s). At 110s~120s time mark (shown in black dotted ellipse), beam is switched to Beam ID 131 resulting in a normalized 4cm2PD exposure value of (75% * 1.12 W/m2)/(10 W/m2) =
8.4% 2.8dB device related uncertainty. Additionally, during the switch, the ratio between the averaged radiated powers of the two beams (yellow curve) should correspond to the ratio of EIRPs measured at each corresponding input.power.limit (within 2.8dB device uncertainty) for these beams listed in Table 5-1. As can be seen, the power limiting enforcement is effective during beam switches and the total normalized time-averaged RF exposure does not exceed 1.0. Therefore, Qualcomm Smart Transmit time averaging algorithm is validated 6 PD Test Results for mmW Smart Transmit Algorithm Validation 6.1 Measurement setup The measurement setup is similar to normal PD measurements, the EUT is positioned on DASY platform, and is connected with the callbox (conducted for LTE and wirelessly for mmW). Keysight UXM callbox is set to request maximum mmW Tx power from EUT all the time. Hence, path loss calibration between callbox antenna and EUT is not needed in this test. The callboxs LTE port is directly connected to the EUTs RF port via a directional coupler to measure the EUTs conducted Tx power using a Rohde & Schwarz NR8S power sensor and NRP2 power meter. Additionally, EUT is connected to the PC via USB connection for toggling between FTM and online mode with Smart Transmit enabled following the test procedures described Section 3.4. Worst-surface of EUT (for the mmW beam being tested) is positioned facing up for PD measurement with DASY mmW probe as shown in Figure 6-1. Figure 6-2 shows the schematic of this measurement setup. 80-W5669-2 Rev. B MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 25 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report (Part 2: Test Under Dynamic Transmission Scenario) PD Test Results for mmW Smart Transmit Algorithm Validation Figure 6-1 Worst-surface of EUT positioned for the mmW beam being tested Figure 6-2 PD measurement setup Both the callbox and power meters are connected to the PC using USB cables. Test scripts are custom made for automation of establishing LTE + mmW call, conducted Tx power recording for LTE. These tests are manually stopped after desired time duration. Once the mmW link is established, LTE Tx power is programmed to toggle between all-up and all-down bits on the callbox. For all the tests, the callbox is set to request maximum Tx power in mmW NR radio from EUT all the time. Therefore, the calibration for the pathloss between the EUT and the horn antenna connected to the remote radio head of the callbox is not required. Power meter readings are periodically recorded every 10ms on NR8S power sensor for LTE conduced power. Time-averaged E-field measurements are performed using EUmmWV2 mmW 80-W5669-2 Rev. B MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 26 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report (Part 2: Test Under Dynamic Transmission Scenario) PD Test Results for mmW Smart Transmit Algorithm Validation probe at peak location of fast area scan. The distance between EUmmWV2 mmW probe tip to EUT surface is ~0.5 mm, and the distance between EUmmWV2 mmW probe sensor to probe tip is 1.5 mm. Appendix B furthermore detailed the steps for performing time-averaged E-field measurements using cDASY6 measurement system used for this validation. cDASY6 records relative point E-field values at mmW frequencies periodically every 0.1s seconds. 6.2 PD measurement results for maximum power transmission scenario The configuration of LTE Band 2 (DSI =15) and mmW n260 Beam ID 171 was measured by following the detailed test procedure is described in Section 5.4. Similar to the maximum transmit power test described in Section 5.3.1., by applying LTE 1gSAR of 1.16 W/kg at 24.0dBm, 4cm2PD at input.power.limit of 2.69 W/m2, the measured conducted
[_..]2 of mmW is converted into 1gSAR(t) and Tx power of LTE and ratio of 4cm2PD(t) value, respectively, using Eq. (2a) and (2b), rewritten below:
[()]2 1__10() =
__() ___ 1__10_ (2a) 42() =
[()]2
[_..]2 42_. (2b) 1 1__10() 1 42() 42
+
1 (2c) Where, __(), ___, and 1_ correspond to the measured instantaneous conducted Tx power, measured conducted Tx power at Plimit, and measured 1gSAR values at Plimit. Similarly, (), _. , and 42@. correspond to the measured instantaneous E-field, E-field at input.power.limit, and 4cm2PD value at input.power.limit. NOTE: If Plimit Pmax, 1gSAR or 10gSAR measured at Plimit shall be replaced with 1gSAR or 10gSAR measured at Pmax. NOTE: cDASY6 system measures relative E-field, and provides ratio of time. See Appendix A for measurement details.
[()]2
[_..]2 versus 6.2.1 PD test results for n260 Step 2.e plot (in Section 5.4) for normalized time-averaged exposures for LTE and mmW n260 beam 23:
80-W5669-2 Rev. B MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 27 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report (Part 2: Test Under Dynamic Transmission Scenario) PD Test Results for mmW Smart Transmit Algorithm Validation FCC limit for total RF exposure Max total normalized time-averaged RF exposure (green curve) Validated 1.0 0.787 Plot notes: LTE was placed in all-down bits immediately after 5G mmW NR call was established. Between 10s~130s, mmW exposure is the dominant contributor. Here, Smart Transmit algorithm allocates a maximum of 75% for mmW (i.e., at least 25% is allocated to 4G LTE anchor to maintain the link) based on the reserve settings in Table 3-1 of Part 1 report. From Table 5-1, this corresponds to a normalized 4cm2PD exposure value for Beam ID 171 of (75% * 2.69 W/m2)/(10 W/m2) = 20% 2.8dB device related uncertainty (see orange curve between 10s~130s). Around 130s time mark, LTE is set to all-up bits, taking away margin from mmW exposure gradually. Towards the end of the test, LTE is the dominant contributor towards RF exposure, i.e., corresponding normalized 1gSAR exposure value of (100% * 1.16 W/kg)/(1.6 W/kg) = 72.5%
1dB design related uncertainty (see black curves approaching this level towards end of the test). As can be seen, the power limiting enforcement is effective and the total normalized time-
averaged RF exposure does not exceed 1.0. Therefore, Qualcomm Smart Transmit time averaging algorithm is validated 80-W5669-2 Rev. B MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 28 7 Conclusions Qualcomm Smart Transmit feature for managing time-averaging of RF exposure, employed in Netgear 5G MHS Travel Router (FCC ID: PY319100441) has been validated through the conducted/radiated power measurement (as demonstrated in Section 5), as well as PD measurement (as demonstrated in Section 6). As demonstrated in this report, the power limiting enforcement is effective and the total normalized time-averaged RF exposure does not exceed 1.0 for all the transmission scenarios described in Section 2. In conclusion, all transmission scenarios that EUT supports comply with FCC time-averaged RF exposure requirement. 80-W5669-2 Rev. B MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 29 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report (Part 2: Test Under Dynamic Transmission Scenario) Conclusions A Appendix A: PD Measurement System Validation A.1 Test environment Test location Ambient temperature Tissue simulating liquid Humidity range Qualcomm Incorporated, Inc. 5775 Morehouse Dr., San Diego, CA 92121 2220C 2220C 30% ~ 49%
A.2 Power density measurement system Table A-1 provides the list of calibrated equipment. Table A-1 List of calibrated equipment Equipment Manufacturer and Type Serial number Last Calibrated Next Calibration Rohde & Schwarz NR8S Power Sensor Rohde & Schwarz NR50S Power Sensor Keysight UXM 5G Wireless Test Platform Keysight Input E7770A Keysight mmWave transceiver M1740A Keysight mmWave transceiver M1740A 105485 101086 1/17/2019 1/17/2020 2/18/2019 2/18/2021 MY57510551 2/2/2018 GB57330038 US58230232 11/16/2018 12/11/2018 N/A N/A N/A US58230215 12/14/2018 N/A Appendix D lists the calibration certificates for the measurement equipment used in this report. The PD measurement system is operated within a shielded screen room manufactured by Lindgren RF Enclosures to provide isolation from external EM fields. The phantom bench is placed on two ferrite panels measuring 2 ft2 each to minimize reflected energy that would otherwise re-enter the phantom and combine constructively or destructively with the desired results The power density measurement system is constructed based on the DASY6 platform by SPEAG
(see Figure A-1). The DASY6 with EUmmWv2 and 5G software module can measure the electromagnetic exposure (electromagnetic and power density) up to 110GHz as close as 2mm from any transmitter. 80-W5669-2 Rev. B MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 30 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report (Part 2: Test Under Dynamic Transmission Scenario) Conclusions Figure A-1 Power density measurement system A.2.1 Power density probe The novel EUmmWV2 probe is used in the power density measurement. It is designed for precise near-field measurements in the mm-wave range by Schmid & Partner Engineering AG of Zurich, Switzerland. The specifications are:
Frequency range: 0.75 ~ 110 GHz Dynamic range: <50 3000 V/m (up to 10000 V/m with additional PRE-10 voltage divider) Linearity: < 0.2 dB Supports sensor model calibration (SMC) ISO17025 accredited calibration A.2.2 Power density measurement system verification The power density system verification is performed using the SPEAG verification device. It consists of a ka-band horn antenna with a corresponding gun oscillator packaged with a cube-
shaped housing (see Figure A-2). 80-W5669-2 Rev. B MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 31 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report (Part 2: Test Under Dynamic Transmission Scenario) Conclusions Figure A-2 Ka-band verification device The specification of the verification device is Calibrated frequency: 30 GHz at 10 mm from the case surface Frequency accuracy: 100 MHz E-field polarization: linear Harmonics: -20 dBc (typ) Total radiated power: 14 dBm (typ) Power stability: 0.05 dB Power consumption: 5 W (max) Size: 100 100 100 mm Weight: 1 kg Table A-2 shows the verification test results. The measured power density (PD) value is within 0.4dB of target level. Note that the uncertainty of 5G verification source is 1.4dB (k=2). Table A-2 System validation results Validation kit S/N Frequency
(GHz) 14dBm Target PD
(W/m2) 14W Meas. PD (W/m2) Deviation (dB) Date 1012 30 47.9 (4cm2) 51.8(4cm2) 0.34dB (4cm2) 4/22/2019 Ka-band source 80-W5669-2 Rev. B MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 32 B Test Procedure for Time-Averaged PD Measurement Using cDASY6 Test procedures for time-averaged PD algorithm measurement with cDASY6 system:
1. Setup the EUT to transmit in the desired band, channel and beam configuration at input.power.limit. 2. In cDASY6, enable checkbox for time-averaged measurement option after Fast Area Scan in Measurement Setup settings (see screen capture below), and set the duration of the scan to 300s. Fast area scan quickly scans the area to identify the hotspot location with highest E-
field along the polarization of the sensor inside the mmW probe. 3. For tests where the callbox requesting EUT to transmit at maximum power at all times, mmW path loss between EUT and the callbox need not be calibrated. 4. Setup EUT to transmit at input.power.limit via Factory Test Mode (FTM) and perform the fast area scan with time-average scan enabled. After the fast area scan, cDASY6 will pause for time-average measurement at the peak location of fast area scan. 5. To measure time-average PD for maximum power test sequences: place EUT in online mode without disturbing the wireless device position relative to the mmW probe. Start the cDASY6 80-W5669-2 Rev. B MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 33 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report (Part 2: Test Under Dynamic Transmission Scenario) Test Procedure for Time-Averaged PD Measurement Using cDASY6 time-averaged measurement with EUT in mmW call and the callbox requesting maximum power in mmW link at all times. After this step, user should click no on the prompt for an additional cDASY time-averaged measurements. 6. Extract recorded data in dB scale (i.e., point E-field data versus time normalized to the E-
field at peak location from fast area scan in Step 4) from time-averaged measurement as shown below by first viewing the data in field viewer, and then right-click on the plot to export data in csv format. 7. Exported data is in dB scale, rel_dB(t), indicates the PD value versus time is relative to the 4cm2.PD measured at input.power.limit in Table 7-1, as given by below equation, i.e., 42() = 10[_()/10] 42_ 8. The above equation is represented as equation (2b) in this report re-written below:
42() =
[()]2
[_..]2 42_. (2b) where,
[()]2
[..]
2 is a ratio between E-field for time-varying mmW Tx power and E-field measured at input.power.limit, which is also represented by 10[_()/10]. 80-W5669-2 Rev. B MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 34
1 2 3 4 | PD test report summary | RF Exposure Info | 353.13 KiB | / June 06 2019 |
Qualcomm Technologies, Inc. Netgear 5G MHS Travel Router (FCC ID:
PY319100441) RF Exposure Compliance Test Report Compliance summary 80-W5669-3 Rev. B May 14, 2019 All Qualcomm products mentioned herein are products of Qualcomm Technologies, Inc. and/or its subsidiaries. Qualcomm is a trademark of Qualcomm Incorporated, registered in the United States and other countries. Other product and brand names may be trademarks or registered trademarks of their respective owners. This technical data may be subject to U.S. and international export, re-export, or transfer (export) laws. Diversion contrary to U.S. and international law is strictly prohibited. Qualcomm Technologies, Inc. 5775 Morehouse Drive San Diego, CA 92121 U.S.A. 2019 Qualcomm Technologies, Inc. and/or its subsidiaries. All rights reserved. Revision history Revision Date Description A B May 06, 2019 Initial release May 14, 2019 Correction in SAR tables 80-W5669-3 Rev. B MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 2 Contents 1 Strategy for Compliance Demonstration ............................................................................. 4 2 Overview of Qualcomm Smart Transmit ............................................................................. 5 2.1 Algorithm description ................................................................................................................................. 5 2.2 Basic concept of the algorithm ................................................................................................................... 6 2.3 Configurable parameters ........................................................................................................................... 7 3 Description of Equipment Under Test ................................................................................. 8 4 Compliance Summary .......................................................................................................... 9 Figures Figure 2-1 Transmit at high power when needed and permitted .................................................................................... 6 Figure 2-2 Transmit with reserve power to support continuous transmission at a minimum power level (Preserve) ......... 7 Tables Table 4-1: Reported RF exposure level ......................................................................................................................... 9 80-W5669-3 Rev. B MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 3 1 Strategy for Compliance Demonstration The FCC RF exposure limits, i.e., SAR limit and Power Density (PD) limit, are defined based on time-averaged RF exposure. Therefore, to demonstrate the compliance, the maximum time-
averaged exposure needs to be below the corresponding limits. The equipment under test (EUT) is Netgear 5G MHS Travel Router (FCC ID: PY319100441), it contains:
1. Qualcomm SM8150 modem supporting 2G/3G/4G WWAN technologies 2. Qualcomm SDX50 modem supporting 5G mmW NR 39GHz band. 3. WLAN Both of Qualcomm SM8150 and SDX50 modems are enabled with Qualcomm Smart Transmit feature. This feature performs time averaging algorithm in real time to control and manage transmitting power and ensure the time-averaged RF exposure is in compliance with FCC requirements all the time. The Section 2 provides the overview of Qualcomm Smart Transmit. The WLAN is not enabled with Smart Transmit. Demonstrating compliance of Netgear 5G MHS Travel Router (FCC ID: PY319100441) with Qualcomm Smart Transmit feature is completed in three parts:
0. RF Exposure Compliance Test Report Part 0: SAR Characterization and PD Characterization The SAR and PD Characterization determines the input power limit after accounting for device design related uncertainties, which corresponds to FCC SAR or PD limit, per each radio configuration and RF exposure usage scenario. The determined input power limits will be loaded and stored in a wireless device via the Embedded File System (EFS), and then used as inputs for Smart Transmit to operate. For Netgear 5G MHS Travel Router (FCC ID: PY319100441), SAR characterization is based on SAR measurement and PD characterization is based on simulation in combination with measurement as validation. The input power limit, denoted as Plimit for sub-6 radio, input.power.limit for mmW NR, represents the maximum time-averaged power level for the corresponding radio/antenna configuration. The SAR and PD characterization of Netgear 5G MHS Travel Router (FCC ID:
PY319100441) is reported in the Part 0 report 1. RF Exposure Compliance Test Report Part 1: Test in Static Transmission Scenario The purpose of Part 1 test is to demonstrate that the EUT meets FCC SAR and PD limits when transmitting in static transmission scenario at maximum allowable time-averaged power levels (i.e., Plimit for sub-6 radio, and input.power.limit for mmW NR), or maximum RF tune-up power levels if they are lower than maximum allowable time-averaged power levels. The compliance under static transmission condition is demonstrated via this Part 1 report, which includes Bureau Veritas Report No. SA181015C09: FCC SAR Test Report. 80-W5669-3 Rev. B MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 4 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Compliance summary Qualcomm Smart Transmit Overview of The RF exposure assessment for simultaneous transmission scenarios the EUT supports is also conducted in Part 1 report. 2. RF Exposure Compliance Test Report Part 2: Test in Dynamic Transmission Scenario The purpose of this Part 2 report is to demonstrate the EUT complies with FCC RF exposure requirement under Tx varying transmission scenarios, thereby validity of Qualcomm Smart Transmit feature for FCC equipment authorization of Netgear 5G MHS Travel Router (FCC ID: PY319100441). 2 Overview of Qualcomm Smart Transmit 2.1 Algorithm description The FCC RF exposure limit is defined based on time-averaged RF exposure. When running in a wireless device, Qualcomm Smart Transmit algorithm enables more elegant power control mechanisms for RF exposure management. It ensures at all times the wireless device is in compliance with the FCC limit of RF exposure time-averaged over a defined time window, denoted as TSAR and TPD for specific absorption rate (SAR for transmit frequency < 6 GHz) and power density (PD for transmit frequency > 6 GHz) time windows, respectively. The Smart Transmit algorithm not only ensures the wireless device complies with RF exposure requirement, but also improves the user experience and network performance. For a given wireless device, RF exposure is proportional to the transmitting power. Once the SAR and PD of the wireless device is characterized at a transmit power level, RF exposure at a different power level for the characterized configurations can be scaled by the change in the corresponding power level. Therefore, for a characterized device, RF exposure compliance can be achieved through transmit power control and management. The Smart Transmit algorithm embedded in Qualcomm Modems reliably controls the transmit power of the wireless device in real time to maintain the time-averaged transmit power, in turn, time-averaged RF exposure, below the predefined time-averaged power limit for each characterized technology and band. This predefined time-averaged power limit is denoted as Plimit corresponding to SAR_design_target (< FCC SAR limit, SARlimit, for frequency < 6 GHz) and input.power.limit corresponding PD_design_target (<FCC PD limit, PDlimit, for frequency > 6 GHz) in this RF exposure report package. This predefined time-averaged power limit is derived and determined in Part 0 report. The wireless device continuously transmitting at Plimit level or input.power.limit level complies with the FCC RF exposure requirement. In a simultaneous transmission scenario, the algorithm manages all active transmitters and make sure the total exposure ratio from each transmitter does not exceed 1. 80-W5669-3 Rev. B MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 5 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Compliance summary Qualcomm Smart Transmit Overview of 2.2 Basic concept of the algorithm The Smart Transmit algorithm controls and manages the instantaneous transmit power (Tx) to maintain the time-averaged Tx power (in turn, time-averaged RF exposure) in compliance with FCC limits. If time-averaged transmit power approaches the Plimit, then the modem needs to limit instantaneous transmit power to ensure the time-averaged transmit power does not exceed the Plimit or input.power.limit in any TSAR and TPD time windows (i.e., the time-averaged RF exposure complies with the FCC RF exposure limit in any TSAR or TPD time window). The wireless device can instantaneously transmit at high transmit powers and exceed the Plimit or input.power.limit level for a short duration before limiting the power to maintain the time-
averaged transmit power under Plimit or input.power.limit. If the wireless device transmits at high power for a long time, then the radio link needs to be dropped to be compliant with time-averaged Tx power requirement (see Figure 2-1). To avoid dropping the radio link, Smart Transmit algorithm starts the power limiting enforcement earlier in time to back off the Tx power to a reserve level (denoted as Preserve), so the wireless device can maintain the radio link at a minimum reserve power level for as long as needed, and at the same time ensure the time-averaged Tx power over any defined time window is less than Plimit at all times (see Figure 2-2). At all times, Smart Transmit meets the below equation:
. =
1
. () where, . is the transmit power averaged between t-TSAR and t time period;
TSAR is the time window defined by FCC for time-averaging RF exposure; inst. Tx power (t) is the instantaneous transmit power at t time instant; is the predefined time-averaged power limit. Figure 2-1 Transmit at high power when needed and permitted 80-W5669-3 Rev. B MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 6 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Compliance summary Qualcomm Smart Transmit Overview of Figure 2-2 Transmit with reserve power to support continuous transmission at a minimum power level (Preserve) In the case of simultaneous transmission, Smart Transmit manages all active transmitters and make sure the total exposure ratio is less than 1, i.e., 1
() 1 42() 1
+
2.3 Configurable parameters The following input parameters are required for functionality of Qualcomm Smart Transmit algorithm. These parameters cannot be accessed by the end user, because at the factory they are entered through the embedded file system (EFS) entries by the OEM Regulatory body The regulatory body entry should be filled out with either 0 or 1 to correspond to the FCC or ICNIRP requirement, so that Smart Transmit algorithm can select the appropriate averaging time windows. For FCC, Smart Transmit uses 100 seconds averaging window for transmit frequencies f<3GHz, 60 seconds for 3GHz < f < 6GHz, and 4 seconds for 24GHz < f
< 42GHz. Tx_power_at_SAR_design_target (Plimit in dBm) for Tx transmitting frequency < 6GHz The maximum time-averaged transmit power, in dBm, at which this radio configuration (i.e., band and technology) reaches the SAR_design_target. This SAR_design_target is pre-
determined for the specific device and it shall be less than regulatory SAR limit after accounting for all design related tolerances. The time-averaged SAR is assessed against this SAR_design_target in real time to determine the compliance. The Plimit could vary with technology, band and DSI (device state index), therefore it has the unique value for each technology, band and DSI. Reserve_power_margin (dB) The margin, in dB, below the Plimit to reserve for future transmission with a minimum transmit power (Preserve):
Preserve (dBm) = Plimit (dBm) Reserve_power_margin (dB) When the Reserve_power_margin is set to zero dB, Smart Transmit effectively limits the upper bound of wireless device transmit power to Plimit, in other words, the wireless device transmits continuously at Plimit, and in this case, Smart Transmit dynamic control feature is not utilized. input.power.limit (dBm) for Tx transmitting frequency 6GHz The maximum time-averaged power at the input of antenna element port, in dBm, at which each antenna configuration (i.e., each beam) meets the PD_design_target that is less than the regulatory power density limit after accounting for all design related tolerances. 80-W5669-3 Rev. B MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 7 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Compliance summary Description of Equipment Under Test 3 Description of Equipment Under Test For description of the EUT, refer to Section 2 of Bureau Veritas Report No. SA181015C09: FCC SAR Test Report, and copied below:
80-W5669-3 Rev. B MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 8 Netgear 5G MHS Travel Router (FCC ID: PY319100441) RF Exposure Compliance Test Report Compliance summary Summary Compliance 4 Compliance Summary In summary, all transmission scenarios that EUT supports comply with FCC time-averaged RF exposure requirement after accounting for total device related uncertainty, as shown in Table 4-1. Table 4-1: Reported RF exposure level Reported RF Exposure Level Notes Highest 1g SAR at Plimit (W/kg) 1.16 Highest 4cm2-avg PD at input.power.limit (W/m2) 7.43 Highest 1g SAR for simultaneous Tx (4G WWAN
+ WLAN) 1.28 Highest Total Exposure Ratio for simultaneous Tx
(LTE+5G mmW NR + WLAN) 0.82 Bureau Veritas Report No. SA181015C09: FCC SAR Test Report Qualcomm Document No. 80-
W5669-1 Rev.A: Netgear 5G MHS Travel Router (FCC ID:
PY319100441) RF Exposure Compliance Test Report Part 1: Test Under Static Transmission Scenario Bureau Veritas Report No. SA181015C09: FCC SAR Test Report Qualcomm Document No. 80-
W5669-1 Rev.A: Netgear 5G MHS Travel Router (FCC ID:
PY319100441) FCC Power Density Compliance Test Report, Part 1: Test Under Static Transmission Scenario 80-W5669-3 Rev. B MAY CONTAIN U.S. AND INTERNATIONAL EXPORT CONTROLLED INFORMATION 9
1 2 3 4 | Power of Attorney Letter | Cover Letter(s) | 153.01 KiB | / June 06 2019 |
Tel: 408-526-1188 Fax: 408-526-1088 Email: TCB@siemic.com 775 Montague Expressway Milpitas, CA 95035 Project and Product Certification Representative Authorization Letter Reason for Amendment (current / obsolete) Initial Release (obsolete) Revised wording (obsolete) Updated company template (obsolete) Updated letter information (obsolete) Added FCC ID field (current) Revision History From 1.0 1.0 2.0 3.0 4.0 To 1.0 2.0 3.0 4.0 5.0 Approved Date Nov-14-2006 Sept25-2007 Jan-31-2012 May-23-2014 Sept 16 2014 SCS-F18: Project and Product Certification Representative Authorization Letter Page 1 of 3 Rev 5.0 Netgear Incorporated 350 East Plumeria Drive San Jose California 95134 United States 2018/10/28 To: SIEMIC, INC. 775 Montague Expressway, Milpitas, CA 95035 USA Dear Sir/Madam, Re: Product Certification Representative Authorization Letter We, Netgear Incorporated hereby authorize SIEMIC, Inc. to act as a Certification Body for certifying for the following project(s):
5G MHS Travel Router, MR5000 FCC ID: PY319100441 Sincerely, ______________________ David Kay / Director, Regulatory Compliance Netgear Incorporated Tel: 4088903160 Fax: 4089078097 E-mail: david.kay@netgear.com SCS-F18: Project and Product Certification Representative Authorization Letter Page 2 of 3 Rev 5.0 Netgear Incorporated 350 East Plumeria Drive San Jose California 95134 United States 2018/10/28 To: SIEMIC, Inc. 775 Montague Expressway, Milpitas, CA 95035 USA Dear Sir/Madam, Re: Project and Product Certification Representative Authorization Letter We, Netgear Incorporated hereby authorize SIEMIC, Inc. to act as Certification Body for certifying for the following project(s):
5G MHS Travel Router, MR5000 FCC ID: PY319100441 We affirm that between SIEMIC, Inc. and Netgear Incorporated, any difference in understanding, including test plan, measurement methods, applicable standards and relevant procedures and processes have been resolved prior to commencement of testing activities. Sincerely, ______________________ David Kay / Director, Regulatory Compliance Netgear Incorporated Tel: 4088903160 Fax: 4089078097 E-mail: david.kay@netgear.com SCS-F18: Project and Product Certification Representative Authorization Letter Page 3 of 3 Rev 5.0
1 2 3 4 | Part 30 part 1 rev1 | Test Report | 4.41 MiB | / June 06 2019 |
FCC Test Report (Part 30) Report No.: RF190321C20 FCC ID: PY319100441 Test Model: MR5000 Received Date: Apr. 22, 2019 Test Date: Apr. 22 to May 15, 2019 Issued Date: May 15, 2019 Applicant: NETGEAR INC. Address: 350 East Plumeria Drive, San Jose, CA 95134, USA Issued By: Bureau Veritas Consumer Products Services (H.K.) Ltd., Taoyuan Branch Lab Address: No. 47-2, 14th Ling, Chia Pau Vil., Lin Kou Dist., New Taipei City, Taiwan
(R.O.C.) Test Location: No. 19, Hwa Ya 2nd Rd., Wen Hwa Vil., Kwei Shan Dist., Taoyuan City FCC Registration /
Designation Number:
33383, TAIWAN (R.O.C.) 788550 / TW0003 This report is for your exclusive use. Any copying or replication of this report to or for any other person or entity, or use of our name or trademark, is permitted only with our prior written permission. This report sets forth our findings solely with respect to the test samples identified herein. The results set forth in this report are not indicative or representative of the quality or characteristics of the lot from which a test sample was taken or any similar or identical product specifically and expressly noted. Our report includes all of the tests requested by you and the results thereof based upon the information that you provided to us. You have 60 days from date of issuance of this report to notify us of any material error or omission caused by our negligence, provided, however, that such notice shall be in writing and shall specifically address the issue you wish to raise. A failure to raise such issue within the prescribed time shall constitute your unqualified acceptance of the completeness of this report, the tests conducted and the correctness of the report contents. Unless specific mention, the uncertainty of measurement has been explicitly taken into account to declare the compliance or non-compliance to the specification. The report must not be used by the client to claim product certification, approval, or endorsement by TAF or any government agencies. Report No.: RF190321C20 Page No. 1 / 170 Report Format Version: 6.1.1 Table of Contents 4 3 Release Control Record .................................................................................................................................. 4 1 Certificate of Conformity ...................................................................................................................... 5 Summary of Test Results ..................................................................................................................... 6 2 2.1 Measurement Uncertainty ................................................................................................................... 6 2.2 Modification Record ............................................................................................................................ 6 General Information .............................................................................................................................. 7 3.1 General Description of EUT ................................................................................................................ 7 3.2 Description of Test Modes ................................................................................................................. 10 3.2.1 Test Mode Applicability and Tested Channel Detail ............................................................................ 11 3.3 Duty Cycle of Test Signal .................................................................................................................. 14 3.4 Description of Support Units ............................................................................................................. 15 3.4.1 Configuration of System under Test .................................................................................................. 15 3.5 General Description of Applied Standards ........................................................................................ 16 Test Types and Results ...................................................................................................................... 17 4.1 Modulation characteristics ................................................................................................................. 17 4.1.1 Limits of Modulation characteristics .................................................................................................. 17 4.1.2 Results ............................................................................................................................................... 17 4.2 Equivalent Isotropic Radiated Power (EIRP) Measurement ............................................................. 18 4.2.1 Limits of EIRP Measurement ............................................................................................................. 18 4.2.2 Test Setup .......................................................................................................................................... 18 4.2.3 Test Instruments ................................................................................................................................ 19 4.2.4 Test Procedures ................................................................................................................................. 21 4.2.5 Test Settings ...................................................................................................................................... 21 4.2.6 Deviation from Test Standard ............................................................................................................ 22 4.2.7 EUT Operating Conditions ................................................................................................................. 22 4.2.8 Test Results ....................................................................................................................................... 22 4.3 Emission Bandwidth Measurement ................................................................................................... 49 4.3.1 Limit of Emission Bandwidth Measurement ...................................................................................... 49 4.3.2 Test Setup .......................................................................................................................................... 49 4.3.3 Test Instruments ................................................................................................................................ 49 4.3.4 Test Procedure .................................................................................................................................. 49 4.3.5 Deviation from Test Standard ............................................................................................................ 49 4.3.6 EUT Operating Conditions ................................................................................................................. 49 4.3.7 Test Result ......................................................................................................................................... 50 4.4 Out-of-Band Spurious Emission Measurement ................................................................................. 56 4.4.1 Limits of Out-of-Band Spurious Emission Measurement .................................................................. 56 4.4.2 Test Instruments ................................................................................................................................ 56 4.4.3 Test Procedures ................................................................................................................................. 56 4.4.4 Deviation from Test Standard ............................................................................................................ 56 4.4.5 Test Set Up ........................................................................................................................................ 57 4.4.6 EUT Operating Conditions ................................................................................................................. 58 4.4.7 Test Results ....................................................................................................................................... 59 4.5 Out-of-Band Emission at the Band Edge Measurement ................................................................. 161 4.5.1 Limits of Out-of Band Emission at the Band Edge Measurement ................................................... 161 4.5.2 Test Instruments .............................................................................................................................. 161 4.5.3 Test Procedures ............................................................................................................................... 161 4.5.4 Deviation from Test Standard .......................................................................................................... 161 4.5.5 Test Set Up ...................................................................................................................................... 162 4.5.6 EUT Operating Conditions ............................................................................................................... 162 4.5.7 Test Results ..................................................................................................................................... 163 4.6 Frequency Stability Measurement .................................................................................................. 167 4.6.1 Limits of Frequency Stability Measurement .................................................................................... 167 4.6.2 Test Procedure ................................................................................................................................ 167 Report No.: RF190321C20 Page No. 2 / 170 Report Format Version: 6.1.1 4.6.3 Test Setup ........................................................................................................................................ 167 4.6.4 Test Results ..................................................................................................................................... 168 Pictures of Test Arrangements ........................................................................................................ 169 5 Appendix Information of the Testing Laboratories ............................................................................... 170 Report No.: RF190321C20 Page No. 3 / 170 Report Format Version: 6.1.1 Release Control Record Issue No. RF190321C20 Description Original release. Date Issued May 15, 2019 Report No.: RF190321C20 Page No. 4 / 170 Report Format Version: 6.1.1 1 Certificate of Conformity Product: 5G MHS Travel Router Brand: Netgear Test Model: MR5000 Sample Status: ENGINEERING SAMPLE Applicant: NETGEAR INC. Test Date: Apr. 22 to May 15, 2019 Standards: 47 CFR FCC Part 30 KDB 842590 D01 Upper Microwave Flexible Use Service v01 The above equipment has been tested by Bureau Veritas Consumer Products Services (H.K.) Ltd., Taoyuan Branch, and found compliance with the requirement of the above standards. The test record, data evaluation & Equipment Under Test (EUT) configurations represented herein are true and accurate accounts of the measurements of the samples EMC characteristics under the conditions specified in this report. Prepared by :
:
Approved by Joanna Wang / Supervisor
, Date:
May 15, 2019
, Date:
Dylan Chiou / Senior Project Engineer May 15, 2019 Report No.: RF190321C20 Page No. 5 / 170 Report Format Version: 6.1.1 2 Summary of Test Results 47 CFR FCC Part 30 FCC Clause 2.1047 2.1049 30.202 2.1051 30.203 2.1053 30.203 2.1055 Test Item Test Result Test Condition Remarks Modulation characteristics Emission Bandwidth EIRP Out-of-Band Spurious Emission Out-of-Band Emission at the Band Edge Frequency Stability Pass Pass Pass Pass Pass Pass
-
Radiated Meet the requirement Meet the requirement of limit. Meet the requirement of limit. Meet the requirement of limit. Minimum passing margin is
-7.11dB at 45.451 GHz. Meet the requirement of limit. Meet the requirement of limit. Note:
Determining compliance based on the results of the compliance measurement, not taking into account measurement instrumentation uncertainty. 2.1 Measurement Uncertainty Where relevant, the following measurement uncertainty levels have been estimated for tests performed on the EUT as specified in CISPR 16-4-2:
Measurement Radiated emissions Frequency 30MHz ~ 200MHz 200MHz ~ 1000MHz 1GHz ~ 18GHz 18GHz ~ 40GHz Uncertainty 3.63 dB 3.64 dB 2.29 dB 2.29 dB 2.2 Modification Record There were no modifications required for compliance. Report No.: RF190321C20 Page No. 6 / 170 Report Format Version: 6.1.1 3 General Information 3.1 General Description of EUT Product Brand Test Model Status of EUT Power Supply Rating Modulation Type Operating Frequency Supported Channel Bandwidth Supported Carrier Component Max. E.I.R.P. Power (RMS) Antenna Type Antenna Connector Accessory Device Data Cable Supplied Antenna Information Report No.: RF190321C20 5G MHS Travel Router Netgear MR5000 ENGINEERING SAMPLE 5Vdc from power adapter or 5Vdc from USB interface or 3.85V dc from battery QPSK, 16QAM, 64QAM 37.649 ~ 39.950 GHz 100MHz 1CC 22.21dBm Refer to Note NA Adapter x1 , Battery x1 USB cable x 1 (Shielded, 0.95m) There are three QTMs 5G array antenna modules, and each 5G array antenna module consists of two sub-arrays. 1. One 1x4 Dipole Antenna Sub-Array Single-polarized dipole antennas, Omni-directional individually but directional when all 4 active depending on phase. 2. One 1x4 Patch Antenna Sub-Array Cross-polarized patch antennas, patch antenna +/- 45 degrees vertical or horizontal at full gain (falls off 90 degrees). The dipole sub-array and patch sub-array cannot transmit simultaneously, only 1 sub-array active at one time. These three 5G arrays antenna modules do not operate simultaneously of each other. The purpose of the three spatially separated 5G arrays is for spatial diversity. As for beam-steering/beam-forming mechanism, the products beam formation selects between dipole or patch array, the wide beam-width on the best array, sweeps begin to improve link, and beam-width then reduces on best beam location. Each antenna module contains 4 dual-polarized patch antennas in a linear array. Dipole and patch arrays will never work at the same time. Only one array at a time. The 4 antennas of each array can work together. The behavior of the antennas are controlled by the Qualcomm software, particularly the codebook. The software can turn on one, or two, or all four antennas at a time to create different antenna gain patterns (akabeams). The worst case is of course all 4 antennas are turned on at the same time. Page No. 7 / 170 Report Format Version: 6.1.1 The maximum beam gain in V occurs when all 4 vertically polarized patch feeds are turned on together, with amplitude/phase weights for each patch determined by the Qualcomm code via the codebook. Similarly, the maximum beam gain in H occurs when all 4 horizontally polarized patch feeds are turned on together, via the codebook weights. Both H and V feeds on all 4 patches in the array can be excited simultaneously, in order to achieve MIMO operation (e.g., one data stream each on H beam and on V beam). Report No.: RF190321C20 Page No. 8 / 170 Report Format Version: 6.1.1 Note:
1. Simultaneously transmission condition. Condition 1 WLAN 2.4GHz 1Tx Technology WLAN 5GHz 1Tx WWAN or 5G NR Note: The emission of the simultaneous operation has been evaluated and no non-compliance was found. 2. The EUT contains three radio modules for millimeter wave. Millimeter wave radio module Radio Module Module 1 (Bottom Side) Module 2 (Right Side) Module 3 (Top Side) 3. The worst beam ID:
Single Beam 180 175 185 Beam ID 52 166 37 48 56 Status Active Active Active MIMO Beam 37 + 166 52 + 180 The worst beams are defined from the EIRP simulation report. These modes were investigated and the worst case scenario was identified. The worst case data were presented in test report. 4. The EUT must be supplied with a power adapter or battery as following table:
Items Adapter Battery 5. The above EUT information is declared by manufacturer and for more detailed features description, P/N No. 332-11106-01 Input: 100-240V~50/60Hz 0.5A Output: 5V / 2.0A or 9V /1.8A 308-10084-01 3.85V dc 5040mAh Brand NETGEAR NETGEAR W-10a Model No. AD2122F20 Spec. please refer to the manufacturer's specifications or user's manual. 6. <Antenna Location>
Report No.: RF190321C20 Page No. 9 / 170 Report Format Version: 6.1.1 3.2 Description of Test Modes Channel Bandwidth (MHz) 100 Channel 2239991 2260003 2278331 Beam ID Single Beam:
37,48,52,56,166,175,180,185, Mimo Beam:
52+180,37+166 Report No.: RF190321C20 Page No. 10 / 170 Report Format Version: 6.1.1 3.2.1 Test Mode Applicability and Tested Channel Detail EUT CONFIGURE MODE
-
APPLICABLE TO MC EB EIRP RE1G RE<1G OOB FS
-
DESCRIPTION Where NOTE: -means no effect. MC: Modulation characteristics EIRP: Effective Isotropically Radiated Power RE<1G: Radiated Emission below 1GHz FS: Frequency Stability Modulation characteristics Measurement EB: Emission Bandwidth RE1G: Radiated Emission above 1GHz OOB: Out-of-Band Emission at the Band Edge This item includes all test value of each mode, but only includes spectrum plot of worst value of each mode. Pre-Scan has been conducted to determine the worst-case mode from all possible combinations between available modulations, data rates and antenna ports (if EUT with antenna diversity architecture). Following channel(s) was (were) selected for the final test as listed below. TESTED CHANNEL M MODULATION QPSK / 16QAM / 64QAM MODE Full RB Radiated Emission Test (Above 1GHz):
Pre-Scan has been conducted to determine the worst-case mode from all possible combinations between available modulations, data rates and antenna ports (if EUT with antenna diversity architecture). Following channel(s) was (were) selected for the final test as listed below. TESTED CHANNEL L, M, H MODULATION QPSK MODE 1RB / 65RB offset Radiated Emission Test (Below 1GHz):
Pre-Scan has been conducted to determine the worst-case mode from all possible combinations between available modulations, data rates and antenna ports (if EUT with antenna diversity architecture). Following channel(s) was (were) selected for the final test as listed below. TESTED CHANNEL L, M, H MODULATION QPSK MODE 1RB / 65RB offset Report No.: RF190321C20 Page No. 11 / 170 Report Format Version: 6.1.1 Out-of-Band Emission at the Band Edge:
Pre-Scan has been conducted to determine the worst-case mode from all possible combinations between available modulations, data rates and antenna ports (if EUT with antenna diversity architecture). Following channel(s) was (were) selected for the final test as listed below. TESTED CHANNEL MODULATION L H QPSK QPSK MODE 1RB / 0RB offset Full RB 1RB / 65RB offset Full RB EIRP Power Measurement:
This item includes all test value of each mode, but only includes spectrum plot of worst value of each mode. Pre-Scan has been conducted to determine the worst-case mode from all possible combinations between available modulations, data rates and antenna ports (if EUT with antenna diversity architecture). Following channel(s) was (were) selected for the final test as listed below. TESTED CHANNEL MODULATION L, M, H QPSK / 16QAM / 64QAM MODE 1RB / 0RB offset 1RB / 32RB offset 1RB / 65RB offset Full RB Frequency Stability Measurement:
This item includes all test value of each mode, but only includes spectrum plot of worst value of each mode. Pre-Scan has been conducted to determine the worst-case mode from all possible combinations between available modulations, data rates and antenna ports (if EUT with antenna diversity architecture). Following channel(s) was (were) selected for the final test as listed below. TESTED CHANNEL M MODULATION QPSK MODE
-
Emission Bandwidth Measurement:
This item includes all test value of each mode, but only includes spectrum plot of worst value of each mode. Pre-Scan has been conducted to determine the worst-case mode from all possible combinations between available modulations, data rates and antenna ports (if EUT with antenna diversity architecture). Following channel(s) was (were) selected for the final test as listed below. TESTED CHANNEL MODULATION L, M, H QPSK / 16QAM / 64QAM MODE 1RB / 65RB offset Full RB Report No.: RF190321C20 Page No. 12 / 170 Report Format Version: 6.1.1 Test Condition:
APPLICABLE TO ENVIRONMENTAL CONDITIONS MC EIRP FS EB RE1G RE<1G OOB 25deg. C, 65%RH 25deg. C, 65%RH 25deg. C, 65%RH 25deg. C, 65%RH 24deg. C, 68%RH 24deg. C, 68%RH 26deg. C, 69%RH INPUT POWER 120Vac, 60Hz 120Vac, 60Hz 120Vac, 60Hz 120Vac, 60Hz 120Vac, 60Hz 120Vac, 60Hz 120Vac, 60Hz TESTED BY Leo Tsai Leo Tsai Leo Tsai Leo Tsai Leo Tsai Leo Tsai Leo Tsai Report No.: RF190321C20 Page No. 13 / 170 Report Format Version: 6.1.1 3.3 Duty Cycle of Test Signal Duty cycle of test signal is 100 %. QPSK 16QAM 64QAM Report No.: RF190321C20 Page No. 14 / 170 Report Format Version: 6.1.1 3.4 Description of Support Units The EUT has been tested as an independent unit together with other necessary accessories or support units. The following support units or accessories were used to form a representative test configuration during the tests. ID A. ID Product SIM Card Brand R&S Model No. CMW-Z05 Descriptions Qty. Length (m) 1 1. USB type C Cable 1 Note: The core(s) is(are) originally attached to the cable(s). 3.4.1 Configuration of System under Test Serial No. NA Shielding
(Yes/No) Yes FCC ID NA Remarks Provided by Lab Cores (Qty.) Remarks 0 Supplied by client
(A) SIM Card SIM EUT Battery USB type C Port
(1) USB Adapter Report No.: RF190321C20 Page No. 15 / 170 Report Format Version: 6.1.1 3.5 General Description of Applied Standards The EUT is a RF Product. According to the specifications of the manufacturer, it must comply with the requirements of the following standards:
FCC 47 CFR Part 2 FCC 47 CFR Part 30 KDB 842590 D01 Upper Microwave Flexible Use Service v01 ANSI 63.26-2015 All test items have been performed and recorded as per the above standards. NOTE: The EUT has been verified to comply with the requirements of FCC Part 15, Subpart B, Class B
(DoC). The test report has been issued separately. Report No.: RF190321C20 Page No. 16 / 170 Report Format Version: 6.1.1 Test Types and Results 4 4.1 Modulation characteristics 4.1.1 Limits of Modulation characteristics N/A 4.1.2 Results QPSK / Mid Channel 16QAM / Mid Channel 64QAM / Mid Channel Report No.: RF190321C20 Page No. 17 / 170 Report Format Version: 6.1.1 4.2 Equivalent Isotropic Radiated Power (EIRP) Measurement 4.2.1 Limits of EIRP Measurement Device Fixed and Base Stations Mobile Stations Transportable Stations Maximum Limit of EIRP EIRP 75dBm/100MHz
(sum of all antenna elements)
(sum of all antenna elements) EIRP 43dBm EIRP 55dBm
(sum of all antenna elements) 4.2.2 Test Setup Test site-up for radiated ERP and/or EIRP measurements TowerAnt. DUT & Support Units 150cm 1m Turn Table Absorber Ground Plane Test Receiver Substitution method set-up for radiated emission 1-4m Variable Substitution Ant Sig Gen 150cm Ant. 1m 1-4m Variable Turn Table Absorber Ground Plane Test Receiver Report No.: RF190321C20 Page No. 18 / 170 Report Format Version: 6.1.1 3117 ESCI FSP40 100040 N9030B N9030A Cal. Due 9111-363 Cal. Date 9124-546 9168-155 00034126 VULB9168 VHBB9124 BBHA 9170 BBHA 9170 9120D-1170 VUSLP 9111 BBHA 9120D MY57140953 MY53120770 BBHA9170241 N5173B 8447D Serial No. 100424 Jan. 03, 2019 Jan. 02, 2020 Jan. 14, 2019 Jan. 13, 2020 Jan. 14, 2019 Jan. 13, 2020 Jun. 22, 2018 Jun. 21, 2019 Jan. 23, 2019 Jan. 22, 2020 Nov. 25, 2018 Nov. 24, 2019 Nov. 25, 2018 Nov. 24, 2019 Nov. 25, 2018 Nov. 24, 2019 Nov. 21, 2018 Nov. 20, 2019 Sep. 25, 2018 Sep. 24, 2019 BBHA9170243 MY53270724 2944A10631 4.2.3 Test Instruments For Below 40GHz and Frequency Stabillity Description & Manufacturer Model No. Test Receiver ROHDE & SCHWARZ Spectrum Analyzer ROHDE & SCHWARZ Spectrum Analyzer KEYSIGHT Spectrum Analyzer KEYSIGHT Biconical antenna SCHWARZBECK LOG Antenna SCHWARZBECK BILOG Antenna SCHWARZBECK HORN Antenna SCHWARZBECK HORN Antenna ETS HORN Antenna SCHWARZBECK HORN Antenna SCHWARZBECK Signal Generator Preamplifier (Below 1GHz) Agilent Preamplifier (1GHz-18GHz) KEYSIGHT Pre-amplifier (18GHz-40GHz) EMC RF signal cable HUBER+SUHNER RF signal cable HUBER+SUHNER RF signal cable HUBER+SUHNER RF signal cable HUBER+SUHNER RF signal cable Rosnal Software BV ADT Antenna Tower inn-co GmbH Antenna Tower Controller BV ADT Turn Table BV ADT Turn Table Controller BV ADT Boresight Antenna Fixture WIT Standard Temperature And Humidity Chamber JFW 20dB attenuation True RMS Clamp Meter Fluke Note: 1. The calibration interval of the above test instruments is 12 months and the calibrations are traceable SUCOFLEX 104 Cable-CH4-03 (250724) Aug. 08, 2018 Aug. 07, 2019 EMC102-KM-KM-
Nov. 25, 2018 Nov. 24, 2019 Apr. 07, 2019 Apr. 06, 2020 Aug. 08, 2018 Aug. 07, 2019 MY 13380+295012/04 Aug. 08, 2018 Aug. 07, 2019 SC93021703 FBA-SIP01 W981030 SC100 FBA-01 TH-4S-C Dec. 18, 2018 Dec. 17, 2019 Mar. 25, 2019 Mar. 24, 2020 Mar. 25, 2019 Mar. 24, 2020 May 22, 2018 May 21, 2019 Jun. 04, 2018 Jun. 03, 2019 Oct. 12, 2018 Oct. 11, 2019 V7.6.15.9.5 MA 4000 K1K50-UP0279-K EMC102-KM-KM-
SUCOFLEX 104 ADT_Radiated_ 50HF-020-SMA EMC184045B MY53270295 31130711WS Jul. 02, 2018 TT93021703 AT93021703 Jul. 01, 2019 1K50-3000 181129-1 NA NA NA NA 83017A 010303 150928 150929 980116 TT100 AT100 3000 600 325 NA NA NA NA NA NA NA NA NA NA NA NA to NML/ROC and NIST/USA. 2. The test was performed in HwaYa Chamber 4. Report No.: RF190321C20 Page No. 19 / 170 Report Format Version: 6.1.1 For Above 40GHz:
Description & Manufacturer Model No. Serial No. MY48250253 Cal. Date Cal. Due Jul. 31, 2019 Aug. 14, 2017 Aug. 13, 2019 Oct. 17, 2017 Oct. 16, 2019 Oct. 17, 2017 Oct. 16, 2019 Oct. 17, 2017 Oct. 16, 2019 Oct. 17, 2017 Oct. 16, 2019 Oct. 17, 2017 Oct. 16, 2019 Oct. 17, 2017 Oct. 16, 2019 Oct. 17, 2017 Oct. 16, 2019 Oct. 17, 2017 Oct. 16, 2019 Oct. 17, 2017 Oct. 16, 2019 Oct. 17, 2017 Oct. 16, 2019 DPL26 M05RH M06RH M10RH M22RH E4446A N9041B 110215-1 110215-1 110215-1 110215-1 110215-1 110215-1 110215-1 WR10CH WR15CH M05HWD M06HWD M15HWD DPL26_01 WR15CH-01 WR10CH-01 US56480107 Aug. 01, 2018 Spectrum Analyzer Agilent
*Spectrum Analyzer Keysight
*Horn Antenna (33~55GHz) OML
*Horn Antenna (50~75GHz) OML
*Horn Antenna (75~110GHz) OML
*Harmonic Mixer (110~170GHz) OML
*Horn Antenna(110~170GHz) OML
*Harmonic Mixer (140~220GHz) OML
*Horn Antenna (140~220GHz) OML
*Diplexer EMCI
*WR15CH Conical Horn Keysight
*WR10CH Conical Horn Keysight
*Millimeter-Wave Signal Generator Frequency Extension Module (50~75 GHz) Keysight
*Millimeter-Wave Signal Generator Frequency Extension Module (75~110 GHz) Keysight Millimeter-Wave Signal Generator Frequency Extension Module (90~140 GHz) VDI Millimeter-Wave Signal Generator Frequency Extension Module (140~220 GHz) VDI PSG analog signal generator Keysight Millimeter-Wave Signal Spectrum Analyzer Extension Modules(90~140 GHz) Millimeter-Wave Signal Spectrum Analyzer Extension Modules(140~220 GHz) Power meter Keysight Waveguide Power Sensor Keysight Waveguide Power Sensor Keysight Antenna Tower & Turn Table CT Note:
1. The calibration interval of the above test instruments is 12 months and the calibrations are traceable to VDIWR8.0SGX VDIWR5.1SGX VDIWR8.0SAX VDIWR5.1SAX Jun. 26, 2018 MY55230006 MY53401987 MY55276004 MY55170003 US54250106 US53250009 E8257DV15 E8257DV10 C.O.C. Note4 C.O.C. Note4 C.O.C. Note4 C.O.C. Note4 C.O.C. Note4 C.O.C. Note4 C.O.C. Note4 C.O.C. Note4 PSGX 007 PXAX 007 PSGX002 PXAX002 W8486A E8257D E4417A V8486A NA NA NA NA Oct. 17, 2017 Oct. 16, 2019 Oct. 17, 2017 Oct. 16, 2019 Oct. 17, 2017 Oct. 16, 2019 Oct. 17, 2017 Oct. 16, 2019 Oct. 17, 2017 Oct. 16, 2019 Jun. 25, 2019 2. *The calibration interval of the above test instruments is 24 months and the calibrations are traceable to NML/ROC and NIST/USA. NML/ROC and NIST/USA. 3. The test was performed in HwaYa Chamber 4 4. C.O.C: Certificate of conformance Report No.: RF190321C20 Page No. 20 / 170 Report Format Version: 6.1.1 4.2.4 Test Procedures a. Substitution method is used for E.I.R.P measurement. In the semi-anechoic chamber, EUT placed on the 0.8m(below or equal 1GHz) and/or 1.5m(above 1GHz) height of Turn Table, rotated the table around 360 degrees to search the maximum radiation power and receiver antenna shall be rotated vertical and horizontal polarization and moved height from 1m to 4m to find the maximum polar radiated power. The Read Value is the spectrum reading the maximum power value. b. The substitution antenna is substituted for EUT at the same position and signals generator export the CW signal to the substitution antenna via a TX cable. Rotated the Turn Table and moved receiving antenna to find the maximum radiation power. Adjust output power level of S.G to get a Value of spectrum reading equal to Read Value of step a. Record the power level of S.G STEP 1: DUT emission amplitude level = SPEC ANALYZER READING (X dBm) STEP 2: Adjust SG so that SG + TX CABLE LOSS + TX ANT GAIN + Free Space Path Loss + RX ANT Factor + RX Cable Loss = SPEC ANALYZER READING (X dBm) c. EIRP = Output power level of S.G TX cable loss + Antenna gain of substitution horn. Note: Measurements were taken in the far field of the mm-Wave test signal based on the formula:
R (2D^2) / wavelength. Measurement Frequency range Measurement Distance EUT antenna of far field distance Far Field calculation distance Below 18GHz 18GHz to 40GHz 40GHz to 200GHz Note: EUT Antenna Dimension is 21mm length, 2.2mm thick and 6.7mm high. 0.05m 0.3m 0.12m to 0.59m Measurement antenna of far field distance Measurement Frequency range Far Field calculation distance 40GHz-50GHz 50GHz-75GHz 75GHz-110GHz 110GHz-170GHz 170GHz-200GHz 30mm 25mm 18mm 12mm 8mm Measurement Distance
(Far field) 3m 1m 1m Measurement Distance
(Far field) 1m 1m 1m 1m 1m 4.2.5 Test Settings a. Radiated power measurements were performed using the spectrum analyzers channel power measurement function. b. Set the RBW =1~5% of the anticipated RBW=1MHz, and the VBW 3 x RBW. c. Set spectrum analyzer detection mode to RMS d. Span = 2x to 3x the OBW e. No. of sweep points 2 x span / RBW f. Trigger is set to free run for test signals with continuous operation with the sweep times set to auto. Trigger is set to enable triggering only on full power bursts with the sweep time set less that or equal to the transmission burst duration. g. The integration bandwidth was roughly set equal to the measured OBW of the signal for signals with continuous operation. For signal with burst transmission, the gating function was enabled to ensure that measurements were performed during times in which the transmitter is operating at its maximum power. h. Trace mode = trace averaging (RMS) over 100 sweeps. i. The trace was allowed to stabilize. Report No.: RF190321C20 Page No. 21 / 170 Report Format Version: 6.1.1 4.2.6 Deviation from Test Standard No deviation. 4.2.7 EUT Operating Conditions The software provided by client to enable the EUT under transmission condition continuously at lowest, middle and highest channel frequencies individually. 4.2.8 Test Results Beam ID 37 Receive Antenna polarization QPSK EUT position Horizontal X-plan Channel No. Freq. (MHz) 2239991 37649.52 2260003 38850.24 2278331 39949.92 RB Condition 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB Spectrum Reading
(dBm)
-35.22
-35.20
-35.10
-35.49
-36.12
-36.10
-36.05
-36.38
-37.59
-37.62
-37.53
-37.89 S.G Power Value (dBm) 7.03 7.05 7.15 6.76 7.54 7.56 7.61 7.28 7.93 7.90 7.99 7.63 Correction Factor (dB) 10.47 10.47 10.47 10.47 9.43 9.43 9.43 9.43 9.51 9.51 9.51 9.51 EIRP (dBm) Limit (dBm) Margin (dB) 17.50 17.52 17.62 17.23 16.97 16.99 17.04 16.71 17.44 17.41 17.50 17.14 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00
-25.50
-25.48
-25.38
-25.77
-26.03
-26.01
-25.96
-26.29
-25.56
-25.59
-25.50
-25.86 Remarks:
1. The EIRP was evaluated on vertical and horizontal polarization, the worst case is Horizontal polarization. 2. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 3. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). 4. Spectrum reading (dBm) = DUT emission amplitude level. Report No.: RF190321C20 Page No. 22 / 170 Report Format Version: 6.1.1 16QAM Channel No. Freq. (MHz) 2239991 37649.52 2260003 38850.24 2278331 39949.92 Correction Factor (dB) 10.47 10.47 10.47 10.47 9.43 9.43 9.43 9.43 9.51 9.51 9.51 9.51 RB Condition 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB Spectrum Reading
(dBm)
-38.06
-38.02
-37.97
-38.29
-38.92
-38.82
-38.73
-39.08
-40.20
-40.24
-40.15
-40.49 S.G Power Value (dBm) 4.19 4.23 4.28 3.96 4.74 4.84 4.93 4.58 5.32 5.28 5.37 5.03 EIRP (dBm) Limit (dBm) Margin (dB) 16.64 16.59 16.68 16.35 16.05 16.09 16.17 15.81 16.56 16.62 16.68 16.34 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00
-26.36
-26.41
-26.32
-26.65
-26.95
-26.91
-26.83
-27.19
-26.44
-26.38
-26.32
-26.66 Remarks:
1. The EIRP was evaluated on vertical and horizontal polarization, the worst case is Horizontal polarization. 2. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 3. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). 4. Spectrum reading (dBm) = DUT emission amplitude level. 64QAM Channel No. Freq. (MHz) 2239991 37649.52 2260003 38850.24 2278331 39949.92 RB Condition 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB Spectrum Reading
(dBm)
-38.06
-38.02
-37.97
-38.29
-38.92
-38.82
-38.73
-39.08
-40.20
-40.24
-40.15
-40.49 S.G Power Value (dBm) 4.19 4.23 4.28 3.96 4.74 4.84 4.93 4.58 5.32 5.28 5.37 5.03 Correction Factor (dB) 10.47 10.47 10.47 10.47 9.43 9.43 9.43 9.43 9.51 9.51 9.51 9.51 EIRP (dBm) Limit (dBm) Margin (dB) 14.66 14.70 14.75 14.43 14.17 14.27 14.36 14.01 14.83 14.79 14.88 14.54 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00
-28.34
-28.30
-28.25
-28.57
-28.83
-28.73
-28.64
-28.99
-28.17
-28.21
-28.12
-28.46 Remarks:
1. The EIRP was evaluated on vertical and horizontal polarization, the worst case is Horizontal polarization. 2. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 3. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). 4. Spectrum reading (dBm) = DUT emission amplitude level. Report No.: RF190321C20 Page No. 23 / 170 Report Format Version: 6.1.1 Beam ID 48 Receive Antenna polarization QPSK EUT position Horizontal X-plan Channel No. Freq. (MHz) 2239991 37649.52 2260003 38850.24 2278331 39949.92 RB Condition 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB Spectrum Reading
(dBm)
-33.75
-33.73
-33.64
-34.03
-35.18
-35.14
-35.07
-35.43
-36.96
-36.93
-36.86
-37.22 S.G Power Value (dBm) 8.50 8.52 8.61 8.22 8.48 8.52 8.59 8.23 8.56 8.59 8.66 8.30 Correction Factor (dB) 10.47 10.47 10.47 10.47 9.43 9.43 9.43 9.43 9.51 9.51 9.51 9.51 EIRP (dBm) Limit (dBm) Margin (dB) 18.97 18.99 19.08 18.69 17.91 17.95 18.02 17.66 18.07 18.10 18.17 17.81 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00
-24.03
-24.01
-23.92
-24.31
-25.09
-25.05
-24.98
-25.34
-24.93
-24.90
-24.83
-25.19 Remarks:
1. The EIRP was evaluated on vertical and horizontal polarization, the worst case is Horizontal polarization. 2. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 3. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). 4. Spectrum reading (dBm) = DUT emission amplitude level. 16QAM Channel No. Freq. (MHz) 2239991 37649.52 2260003 38850.24 2278331 39949.92 RB Condition 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB Spectrum Reading
(dBm)
-34.78
-34.74
-34.67
-35.03
-36.82
-36.80
-36.74
-37.08
-37.86
-37.81
-37.75
-38.10 S.G Power Value (dBm) 7.47 7.51 7.58 7.22 6.84 6.86 6.92 6.58 7.66 7.71 7.77 7.42 Correction Factor (dB) 10.47 10.47 10.47 10.47 9.43 9.43 9.43 9.43 9.51 9.51 9.51 9.51 EIRP (dBm) Limit (dBm) Margin (dB) 17.94 17.98 18.05 17.69 16.27 16.29 16.35 16.01 17.17 17.22 17.28 16.93 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00
-25.06
-25.02
-24.95
-25.31
-26.73
-26.71
-26.65
-26.99
-25.83
-25.78
-25.72
-26.07 Remarks:
1. The EIRP was evaluated on vertical and horizontal polarization, the worst case is Horizontal polarization. 2. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 3. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). 4. Spectrum reading (dBm) = DUT emission amplitude level. Report No.: RF190321C20 Page No. 24 / 170 Report Format Version: 6.1.1 64QAM Channel No. Freq. (MHz) 2239991 37649.52 2260003 38850.24 2278331 39949.92 Correction Factor (dB) 10.47 10.47 10.47 10.47 9.43 9.43 9.43 9.43 9.51 9.51 9.51 9.51 RB Condition 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB Spectrum Reading
(dBm)
-36.76
-36.70
-36.65
-36.98
-38.67
-38.70
-38.64
-38.96
-39.76
-39.73
-39.67
-40.00 S.G Power Value (dBm) 5.49 5.55 5.60 5.27 4.99 4.96 5.02 4.70 5.76 5.79 5.85 5.52 EIRP (dBm) Limit (dBm) Margin (dB) 15.96 16.02 16.07 15.74 14.42 14.39 14.45 14.13 15.27 15.30 15.36 15.03 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00
-27.04
-26.98
-26.93
-27.26
-28.58
-28.61
-28.55
-28.87
-27.73
-27.70
-27.64
-27.97 Remarks:
1. The EIRP was evaluated on vertical and horizontal polarization, the worst case is Horizontal polarization. 2. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 3. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). 4. Spectrum reading (dBm) = DUT emission amplitude level. Report No.: RF190321C20 Page No. 25 / 170 Report Format Version: 6.1.1 Beam ID 52 Receive Antenna polarization QPSK EUT position Horizontal X-plan Channel No. Freq. (MHz) 2239991 37649.52 2260003 38850.24 2278331 39949.92 RB Condition 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB Spectrum Reading
(dBm)
-33.12
-33.13
-33.09
-33.47
-35.36
-35.28
-35.25
-35.67
-37.60
-37.63
-37.57
-38.02 S.G Power Value (dBm) 9.13 9.12 9.16 8.78 8.30 8.38 8.41 7.99 7.92 7.89 7.95 7.50 Correction Factor (dB) 10.47 10.47 10.47 10.47 9.43 9.43 9.43 9.43 9.51 9.51 9.51 9.51 EIRP (dBm) Limit (dBm) Margin (dB) 19.60 19.59 19.63 19.25 17.73 17.81 17.84 17.42 17.43 17.40 17.46 17.01 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00
-23.40
-23.41
-23.37
-23.75
-25.27
-25.19
-25.16
-25.58
-25.57
-25.60
-25.54
-25.99 Remarks:
1. The EIRP was evaluated on vertical and horizontal polarization, the worst case is Horizontal polarization. 2. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 3. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). 4. Spectrum reading (dBm) = DUT emission amplitude level. 16QAM Channel No. Freq. (MHz) 2239991 37649.52 2260003 38850.24 2278331 39949.92 RB Condition 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB Spectrum Reading
(dBm)
-34.41
-34.32
-34.30
-34.66
-36.14
-36.16
-36.08
-36.50
-38.42
-38.41
-38.32
-38.76 S.G Power Value (dBm) 7.84 7.93 7.95 7.59 7.52 7.50 7.58 7.16 7.10 7.11 7.20 6.76 Correction Factor (dB) 10.47 10.47 10.47 10.47 9.43 9.43 9.43 9.43 9.51 9.51 9.51 9.51 EIRP (dBm) Limit (dBm) Margin (dB) 18.31 18.40 18.42 18.06 16.95 16.93 17.01 16.59 16.61 16.62 16.71 16.27 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00
-24.69
-24.60
-24.58
-24.94
-26.05
-26.07
-25.99
-26.41
-26.39
-26.38
-26.29
-26.73 Remarks:
1. The EIRP was evaluated on vertical and horizontal polarization, the worst case is Horizontal polarization. 2. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 3. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). 4. Spectrum reading (dBm) = DUT emission amplitude level. Report No.: RF190321C20 Page No. 26 / 170 Report Format Version: 6.1.1 64QAM Channel No. Freq. (MHz) 2239991 37649.52 2260003 38850.24 2278331 39949.92 Correction Factor (dB) 10.47 10.47 10.47 10.47 9.43 9.43 9.43 9.43 9.51 9.51 9.51 9.51 RB Condition 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB Spectrum Reading
(dBm)
-36.26
-36.21
-36.19
-36.55
-37.90
-37.92
-37.86
-38.29
-40.01
-40.10
-39.94
-40.37 S.G Power Value (dBm) 5.99 6.04 6.06 5.70 5.76 5.74 5.80 5.37 5.51 5.42 5.58 5.15 EIRP (dBm) Limit (dBm) Margin (dB) 16.46 16.51 16.53 16.17 15.19 15.17 15.23 14.80 15.02 14.93 15.09 14.66 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00
-26.54
-26.49
-26.47
-26.83
-27.81
-27.83
-27.77
-28.20
-27.98
-28.07
-27.91
-28.34 Remarks:
1. The EIRP was evaluated on vertical and horizontal polarization, the worst case is Horizontal polarization. 2. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 3. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). 4. Spectrum reading (dBm) = DUT emission amplitude level. Report No.: RF190321C20 Page No. 27 / 170 Report Format Version: 6.1.1 Beam ID 56 Receive Antenna polarization QPSK EUT position Horizontal X-plan Channel No. Freq. (MHz) 2239991 37649.52 2260003 38850.24 2278331 39949.92 RB Condition 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB Spectrum Reading
(dBm)
-35.25
-35.19
-35.13
-35.48
-35.29
-35.25
-35.18
-35.54
-37.14
-37.07
-37.00
-37.36 S.G Power Value (dBm) 7.00 7.06 7.12 6.77 8.37 8.41 8.48 8.12 8.38 8.45 8.52 8.16 Correction Factor (dB) 10.47 10.47 10.47 10.47 9.43 9.43 9.43 9.43 9.51 9.51 9.51 9.51 EIRP (dBm) Limit (dBm) Margin (dB) 17.47 17.53 17.59 17.24 17.80 17.84 17.91 17.55 17.89 17.96 18.03 17.67 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00
-25.53
-25.47
-25.41
-25.76
-25.20
-25.16
-25.09
-25.45
-25.11
-25.04
-24.97
-25.33 Remarks:
1. The EIRP was evaluated on vertical and horizontal polarization, the worst case is Horizontal polarization. 2. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 3. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). 4. Spectrum reading (dBm) = DUT emission amplitude level. 16QAM Channel No. Freq. (MHz) 2239991 37649.52 2260003 38850.24 2278331 39949.92 RB Condition 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB Spectrum Reading
(dBm)
-35.80
-35.77
-35.70
-36.05
-35.93
-35.96
-35.89
-36.24
-37.85
-37.79
-37.73
-38.08 S.G Power Value (dBm) 6.45 6.48 6.55 6.20 7.73 7.70 7.77 7.42 7.67 7.73 7.79 7.44 Correction Factor (dB) 10.47 10.47 10.47 10.47 9.43 9.43 9.43 9.43 9.51 9.51 9.51 9.51 EIRP (dBm) Limit (dBm) Margin (dB) 16.92 16.95 17.02 16.67 17.16 17.13 17.20 16.85 17.18 17.24 17.30 16.95 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00
-26.08
-26.05
-25.98
-26.33
-25.84
-25.87
-25.80
-26.15
-25.82
-25.76
-25.70
-26.05 Remarks:
1. The EIRP was evaluated on vertical and horizontal polarization, the worst case is Horizontal polarization. 2. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 3. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). 4. Spectrum reading (dBm) = DUT emission amplitude level. Report No.: RF190321C20 Page No. 28 / 170 Report Format Version: 6.1.1 64QAM Channel No. Freq. (MHz) 2239991 37649.52 2260003 38850.24 2278331 39949.92 Correction Factor (dB) 10.47 10.47 10.47 10.47 9.43 9.43 9.43 9.43 9.51 9.51 9.51 9.51 RB Condition 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB Spectrum Reading
(dBm)
-37.78
-37.75
-37.69
-38.02
-37.81
-37.85
-37.79
-38.12
-39.49
-39.51
-39.45
-39.78 S.G Power Value (dBm) 4.47 4.50 4.56 4.23 5.85 5.81 5.87 5.54 6.03 6.01 6.07 5.74 EIRP (dBm) Limit (dBm) Margin (dB) 14.94 14.97 15.03 14.70 15.28 15.24 15.30 14.97 15.54 15.52 15.58 15.25 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00
-28.06
-28.03
-27.97
-28.30
-27.72
-27.76
-27.70
-28.03
-27.46
-27.48
-27.42
-27.75 Remarks:
1. The EIRP was evaluated on vertical and horizontal polarization, the worst case is Horizontal polarization. 2. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 3. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). 4. Spectrum reading (dBm) = DUT emission amplitude level. Report No.: RF190321C20 Page No. 29 / 170 Report Format Version: 6.1.1 Beam ID 166 Receive Antenna polarization QPSK EUT position Horizontal Y-plan Channel No. Freq. (MHz) 2239991 37649.52 2260003 38850.24 2278331 39949.92 RB Condition 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB Spectrum Reading
(dBm)
-32.58
-32.56
-32.51
-32.91
-32.56
-32.58
-32.51
-32.89
-34.59
-34.54
-34.47
-34.91 S.G Power Value (dBm) 9.67 9.69 9.74 9.34 11.10 11.08 11.15 10.77 10.93 10.98 11.05 10.61 Correction Factor (dB) 10.47 10.47 10.47 10.47 9.43 9.43 9.43 9.43 9.51 9.51 9.51 9.51 EIRP (dBm) Limit (dBm) Margin (dB) 20.14 20.16 20.21 19.81 20.53 20.51 20.58 20.20 20.44 20.49 20.56 20.12 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00
-22.86
-22.84
-22.79
-23.19
-22.47
-22.49
-22.42
-22.80
-22.56
-22.51
-22.44
-22.88 Remarks:
1. The EIRP was evaluated on vertical and horizontal polarization, the worst case is Horizontal polarization. 2. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 3. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). 4. Spectrum reading (dBm) = DUT emission amplitude level. 16QAM Channel No. Freq. (MHz) 2239991 37649.52 2260003 38850.24 2278331 39949.92 RB Condition 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB Spectrum Reading
(dBm)
-33.54
-33.57
-33.49
-33.93
-33.63
-33.55
-33.53
-33.94
-35.61
-35.65
-35.56
-36.00 S.G Power Value (dBm) 8.71 8.68 8.76 8.32 10.03 10.11 10.13 9.72 9.91 9.87 9.96 9.52 Correction Factor (dB) 10.47 10.47 10.47 10.47 9.43 9.43 9.43 9.43 9.51 9.51 9.51 9.51 EIRP (dBm) Limit (dBm) Margin (dB) 19.18 19.15 19.23 18.79 19.46 19.54 19.56 19.15 19.42 19.38 19.47 19.03 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00
-23.82
-23.85
-23.77
-24.21
-23.54
-23.46
-23.44
-23.85
-23.58
-23.62
-23.53
-23.97 Remarks:
1. The EIRP was evaluated on vertical and horizontal polarization, the worst case is Horizontal polarization. 2. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 3. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). 4. Spectrum reading (dBm) = DUT emission amplitude level. Report No.: RF190321C20 Page No. 30 / 170 Report Format Version: 6.1.1 64QAM Channel No. Freq. (MHz) 2239991 37649.52 2260003 38850.24 2278331 39949.92 Correction Factor (dB) 10.47 10.47 10.47 10.47 9.43 9.43 9.43 9.43 9.51 9.51 9.51 9.51 RB Condition 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB Spectrum Reading
(dBm)
-35.46
-35.40
-35.38
-35.81
-35.58
-35.47
-35.42
-35.84
-37.54
-37.58
-37.52
-37.89 S.G Power Value (dBm) 6.79 6.85 6.87 6.44 8.08 8.19 8.24 7.82 7.98 7.94 8.00 7.63 EIRP (dBm) Limit (dBm) Margin (dB) 17.26 17.32 17.34 16.91 17.51 17.62 17.67 17.25 17.49 17.45 17.51 17.14 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00
-25.74
-25.68
-25.66
-26.09
-25.49
-25.38
-25.33
-25.75
-25.51
-25.55
-25.49
-25.86 Remarks:
1. The EIRP was evaluated on vertical and horizontal polarization, the worst case is Horizontal polarization. 2. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 3. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). 4. Spectrum reading (dBm) = DUT emission amplitude level. Report No.: RF190321C20 Page No. 31 / 170 Report Format Version: 6.1.1 Beam ID 175 Receive Antenna polarization QPSK EUT position Horizontal Y-plan Channel No. Freq. (MHz) 2239991 37649.52 2260003 38850.24 2278331 39949.92 RB Condition 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB Spectrum Reading
(dBm)
-32.59
-32.60
-32.53
-32.91
-32.99
-33.00
-32.92
-33.31
-34.34
-34.35
-34.27
-34.66 S.G Power Value (dBm) 9.66 9.65 9.72 9.34 10.67 10.66 10.74 10.35 11.18 11.17 11.25 10.86 Correction Factor (dB) 10.47 10.47 10.47 10.47 9.43 9.43 9.43 9.43 9.51 9.51 9.51 9.51 EIRP (dBm) Limit (dBm) Margin (dB) 20.13 20.12 20.19 19.81 20.10 20.09 20.17 19.78 20.69 20.68 20.76 20.37 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00
-22.87
-22.88
-22.81
-23.19
-22.90
-22.91
-22.83
-23.22
-22.31
-22.32
-22.24
-22.63 Remarks:
1. The EIRP was evaluated on vertical and horizontal polarization, the worst case is Horizontal polarization. 2. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 3. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). 4. Spectrum reading (dBm) = DUT emission amplitude level. 16QAM Channel No. Freq. (MHz) 2239991 37649.52 2260003 38850.24 2278331 39949.92 RB Condition 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB Spectrum Reading
(dBm)
-33.62
-33.63
-33.55
-33.93
-34.94
-34.95
-34.88
-35.24
-34.78
-34.79
-34.71
-35.10 S.G Power Value (dBm) 8.63 8.62 8.70 8.32 8.72 8.71 8.78 8.42 10.74 10.73 10.81 10.42 Correction Factor (dB) 10.47 10.47 10.47 10.47 9.43 9.43 9.43 9.43 9.51 9.51 9.51 9.51 EIRP (dBm) Limit (dBm) Margin (dB) 19.10 19.09 19.17 18.79 18.15 18.14 18.21 17.85 20.25 20.24 20.32 19.93 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00
-23.90
-23.91
-23.83
-24.21
-24.85
-24.86
-24.79
-25.15
-22.75
-22.76
-22.68
-23.07 Remarks:
1. The EIRP was evaluated on vertical and horizontal polarization, the worst case is Horizontal polarization. 2. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 3. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). 4. Spectrum reading (dBm) = DUT emission amplitude level. Report No.: RF190321C20 Page No. 32 / 170 Report Format Version: 6.1.1 64QAM Channel No. Freq. (MHz) 2239991 37649.52 2260003 38850.24 2278331 39949.92 Correction Factor (dB) 10.47 10.47 10.47 10.47 9.43 9.43 9.43 9.43 9.51 9.51 9.51 9.51 RB Condition 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB Spectrum Reading
(dBm)
-35.52
-35.52
-35.46
-35.81
-36.78
-36.79
-36.73
-37.07
-36.72
-36.73
-36.66
-37.02 S.G Power Value (dBm) 6.73 6.73 6.79 6.44 6.88 6.87 6.93 6.59 8.80 8.79 8.86 8.50 EIRP (dBm) Limit (dBm) Margin (dB) 17.20 17.20 17.26 16.91 16.31 16.30 16.36 16.02 18.31 18.30 18.37 18.01 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00
-25.80
-25.80
-25.74
-26.09
-26.69
-26.70
-26.64
-26.98
-24.69
-24.70
-24.63
-24.99 Remarks:
1. The EIRP was evaluated on vertical and horizontal polarization, the worst case is Horizontal polarization. 2. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 3. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). 4. Spectrum reading (dBm) = DUT emission amplitude level. Report No.: RF190321C20 Page No. 33 / 170 Report Format Version: 6.1.1 Beam ID 180 Receive Antenna polarization QPSK EUT position Horizontal Y-plan Channel No. Freq. (MHz) 2239991 37649.52 2260003 38850.24 2278331 39949.92 RB Condition 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB Spectrum Reading
(dBm)
-32.30
-32.32
-32.25
-32.58
-32.00
-31.98
-31.90
-32.21
-33.91
-33.94
-33.85
-34.23 S.G Power Value (dBm) 9.95 9.93 10.00 9.67 11.66 11.68 11.76 11.45 11.61 11.58 11.67 11.29 Correction Factor (dB) 10.47 10.47 10.47 10.47 9.43 9.43 9.43 9.43 9.51 9.51 9.51 9.51 EIRP (dBm) Limit (dBm) Margin (dB) 20.42 20.40 20.47 20.14 21.09 21.11 21.19 20.88 21.12 21.09 21.18 20.80 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00
-22.58
-22.60
-22.53
-22.86
-21.91
-21.89
-21.81
-22.12
-21.88
-21.91
-21.82
-22.20 Remarks:
1. The EIRP was evaluated on vertical and horizontal polarization, the worst case is Horizontal polarization. 2. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 3. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). 4. Spectrum reading (dBm) = DUT emission amplitude level. 16QAM Channel No. Freq. (MHz) 2239991 37649.52 2260003 38850.24 2278331 39949.92 RB Condition 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB Spectrum Reading
(dBm)
-33.78
-33.79
-33.72
-34.09
-33.76
-33.77
-33.70
-34.07
-35.07
-35.08
-35.01
-35.39 S.G Power Value (dBm) 8.47 8.46 8.53 8.16 9.90 9.89 9.96 9.59 10.45 10.44 10.51 10.13 Correction Factor (dB) 10.47 10.47 10.47 10.47 9.43 9.43 9.43 9.43 9.51 9.51 9.51 9.51 EIRP (dBm) Limit (dBm) Margin (dB) 18.94 18.93 19.00 18.63 19.33 19.32 19.39 19.02 19.96 19.95 20.02 19.64 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00
-24.06
-24.07
-24.00
-24.37
-23.67
-23.68
-23.61
-23.98
-23.04
-23.05
-22.98
-23.36 Remarks:
1. The EIRP was evaluated on vertical and horizontal polarization, the worst case is Horizontal polarization. 2. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 3. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). 4. Spectrum reading (dBm) = DUT emission amplitude level. Report No.: RF190321C20 Page No. 34 / 170 Report Format Version: 6.1.1 64QAM Channel No. Freq. (MHz) 2239991 37649.52 2260003 38850.24 2278331 39949.92 Correction Factor (dB) 10.47 10.47 10.47 10.47 9.43 9.43 9.43 9.43 9.51 9.51 9.51 9.51 RB Condition 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB Spectrum Reading
(dBm)
-35.65
-35.66
-35.59
-35.94
-35.76
-35.76
-35.70
-36.05
-36.72
-36.73
-36.66
-37.02 S.G Power Value (dBm) 6.60 6.59 6.66 6.31 7.90 7.90 7.96 7.61 8.80 8.79 8.86 8.50 EIRP (dBm) Limit (dBm) Margin (dB) 17.07 17.06 17.13 16.78 17.33 17.33 17.39 17.04 18.31 18.30 18.37 18.01 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00
-25.93
-25.94
-25.87
-26.22
-25.67
-25.67
-25.61
-25.96
-24.69
-24.70
-24.63
-24.99 Remarks:
1. The EIRP was evaluated on vertical and horizontal polarization, the worst case is Horizontal polarization. 2. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 3. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). 4. Spectrum reading (dBm) = DUT emission amplitude level. Report No.: RF190321C20 Page No. 35 / 170 Report Format Version: 6.1.1 Beam ID 185 Receive Antenna polarization QPSK EUT position Horizontal Y-plan Channel No. Freq. (MHz) 2239991 37649.52 2260003 38850.24 2278331 39949.92 RB Condition 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB Spectrum Reading
(dBm)
-32.39
-32.41
-32.34
-32.71
-33.05
-33.06
-32.98
-33.37
-34.93
-34.94
-34.87
-35.25 S.G Power Value (dBm) 9.86 9.84 9.91 9.54 10.61 10.60 10.68 10.29 10.59 10.58 10.65 10.27 Correction Factor (dB) 10.47 10.47 10.47 10.47 9.43 9.43 9.43 9.43 9.51 9.51 9.51 9.51 EIRP (dBm) Limit (dBm) Margin (dB) 20.33 20.31 20.38 20.01 20.04 20.03 20.11 19.72 20.10 20.09 20.16 19.78 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00
-22.67
-22.69
-22.62
-22.99
-22.96
-22.97
-22.89
-23.28
-22.90
-22.91
-22.84
-23.22 Remarks:
1. The EIRP was evaluated on vertical and horizontal polarization, the worst case is Horizontal polarization. 2. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 3. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). 4. Spectrum reading (dBm) = DUT emission amplitude level. 16QAM Channel No. Freq. (MHz) 2239991 37649.52 2260003 38850.24 2278331 39949.92 RB Condition 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB Spectrum Reading
(dBm)
-33.48
-33.49
-33.41
-33.79
-34.10
-34.11
-34.04
-34.41
-35.85
-35.86
-35.79
-36.16 S.G Power Value (dBm) 8.77 8.76 8.84 8.46 9.56 9.55 9.62 9.25 9.67 9.66 9.73 9.36 Correction Factor (dB) 10.47 10.47 10.47 10.47 9.43 9.43 9.43 9.43 9.51 9.51 9.51 9.51 EIRP (dBm) Limit (dBm) Margin (dB) 19.24 19.23 19.31 18.93 18.99 18.98 19.05 18.68 19.18 19.17 19.24 18.87 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00
-23.76
-23.77
-23.69
-24.07
-24.01
-24.02
-23.95
-24.32
-23.82
-23.83
-23.76
-24.13 Remarks:
1. The EIRP was evaluated on vertical and horizontal polarization, the worst case is Horizontal polarization. 2. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 3. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). 4. Spectrum reading (dBm) = DUT emission amplitude level. Report No.: RF190321C20 Page No. 36 / 170 Report Format Version: 6.1.1 64QAM Channel No. Freq. (MHz) 2239991 37649.52 2260003 38850.24 2278331 39949.92 Correction Factor (dB) 10.47 10.47 10.47 10.47 9.43 9.43 9.43 9.43 9.51 9.51 9.51 9.51 RB Condition 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB Spectrum Reading
(dBm)
-35.20
-35.21
-35.15
-35.50
-35.90
-35.90
-35.84
-36.19
-37.87
-37.88
-37.81
-38.16 S.G Power Value (dBm) 7.05 7.04 7.10 6.75 7.76 7.76 7.82 7.47 7.65 7.64 7.71 7.36 EIRP (dBm) Limit (dBm) Margin (dB) 17.52 17.51 17.57 17.22 17.19 17.19 17.25 16.90 17.16 17.15 17.22 16.87 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00
-25.48
-25.49
-25.43
-25.78
-25.81
-25.81
-25.75
-26.10
-25.84
-25.85
-25.78
-26.13 Remarks:
1. The EIRP was evaluated on vertical and horizontal polarization, the worst case is Horizontal polarization. 2. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 3. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). 4. Spectrum reading (dBm) = DUT emission amplitude level. Report No.: RF190321C20 Page No. 37 / 170 Report Format Version: 6.1.1 Beam ID Receive Antenna polarization QPSK 52+180 EUT position Vertical X-plan EIRP (dBm) Limit (dBm) Margin (dB) Channel No. Freq. (MHz) 2239991 37649.52 2260003 38850.24 2278331 39949.92 Channel No. Freq. (MHz) 2239991 37649.52 2260003 38850.24 2278331 39949.92 RB Condition 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB Spectrum Reading
(dBm)
-32.99
-32.93
-32.87
-33.31
-31.64
-31.66
-31.57
-31.99
-34.68
-34.72
-34.64
-35.13 S.G Power Value (dBm) 9.26 9.32 9.38 8.94 12.02 12.00 12.09 11.67 10.84 10.80 10.88 10.39 Correction Factor (dB) 10.47 10.47 10.47 10.47 9.43 9.43 9.43 9.43 9.51 9.51 9.51 9.51 19.73 19.79 19.85 19.41 21.45 21.43 21.52 21.10 20.35 20.31 20.39 19.90 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 RB Condition 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB Spectrum Reading
(dBm)
-32.16
-32.13
-32.09
-32.48
-32.06
-32.13
-31.03
-31.45
-34.13
-34.14
-34.10
-34.62 S.G Power Value (dBm) Correction Factor (dB) 10.09 10.12 10.16 9.77 11.60 11.53 12.63 12.21 11.39 11.38 11.42 10.90 10.47 10.47 10.47 10.47 9.43 9.43 9.43 9.43 9.51 9.51 9.51 9.51 EIRP
(dBm) 20.56 20.59 20.63 20.24 21.03 20.96 22.06 21.64 20.9 20.89 20.93 20.41 Limit
(dBm) 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 Margin
(dB)
-22.44
-22.41
-22.37
-22.76
-21.97
-22.04
-20.94
-21.36
-22.10
-22.11
-22.07
-22.59
-23.27
-23.21
-23.15
-23.59
-21.55
-21.57
-21.48
-21.90
-22.65
-22.69
-22.61
-23.10 Antenna rotating
(degee) 51 30 62 Remarks:
1. The EIRP was evaluated on vertical and horizontal polarization, the worst case is Horizontal polarization. 2. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 3. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). 4. Spectrum reading (dBm) = DUT emission amplitude level. Report No.: RF190321C20 Page No. 38 / 170 Report Format Version: 6.1.1 16QAM Channel No. Freq. (MHz) 2239991 37649.52 2260003 38850.24 2278331 39949.92 Channel No. Freq. (MHz) 2239991 37649.52 2260003 38850.24 2278331 39949.92 Correction Factor (dB) 10.47 10.47 10.47 10.47 9.43 9.43 9.43 9.43 9.51 9.51 9.51 9.51 RB Condition 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB Spectrum Reading
(dBm)
-34.03
-34.01
-33.99
-34.30
-33.98
-33.90
-33.88
-33.38
-35.77
-35.69
-35.66
-36.10 S.G Power Value (dBm) 8.22 8.24 8.26 7.95 9.68 9.76 9.78 10.28 9.75 9.83 9.86 9.42 EIRP (dBm) Limit (dBm) Margin (dB) 18.69 18.71 18.73 18.42 19.11 19.19 19.21 19.71 19.26 19.34 19.37 18.93 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 RB Condition 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB Spectrum Reading
(dBm)
-33.25
-33.26
-33.15
-33.48
-32.54
-32.49
-32.44
-32.78
-35.32
-35.35
-35.24
-35.59 S.G Power Value (dBm) Correction Factor (dB) 9.00 8.99 9.10 8.77 11.12 11.17 11.22 10.88 10.20 10.17 10.28 9.93 10.47 10.47 10.47 10.47 9.43 9.43 9.43 9.43 9.51 9.51 9.51 9.51 EIRP
(dBm) 19.47 19.46 19.57 19.24 20.55 20.6 20.65 20.31 19.71 19.68 19.79 19.44 Limit
(dBm) 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 Margin
(dB)
-23.53
-23.54
-23.43
-23.76
-22.45
-22.40
-22.35
-22.69
-23.29
-23.32
-23.21
-23.56
-24.31
-24.29
-24.27
-24.58
-23.89
-23.81
-23.79
-23.29
-23.74
-23.66
-23.63
-24.07 Antenna rotating
(degee) 50 35 60 Remarks:
1. The EIRP was evaluated on vertical and horizontal polarization, the worst case is Horizontal polarization. 2. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 3. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). 4. Spectrum reading (dBm) = DUT emission amplitude level. Report No.: RF190321C20 Page No. 39 / 170 Report Format Version: 6.1.1 64QAM Channel No. Freq. (MHz) 2239991 37649.52 2260003 38850.24 2278331 39949.92 Channel No. Freq. (MHz) 2239991 37649.52 2260003 38850.24 2278331 39949.92 Correction Factor (dB) 10.47 10.47 10.47 10.47 9.43 9.43 9.43 9.43 9.51 9.51 9.51 9.51 RB Condition 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB Spectrum Reading
(dBm)
-35.48
-35.41
-35.33
-35.80
-34.83
-34.87
-34.80
-35.18
-37.31
-37.31
-37.24
-37.70 S.G Power Value (dBm) 6.77 6.84 6.92 6.45 8.83 8.79 8.86 8.48 8.21 8.21 8.28 7.82 EIRP (dBm) Limit (dBm) Margin (dB) 17.24 17.31 17.39 16.92 18.26 18.22 18.29 17.91 17.72 17.72 17.79 17.33 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 RB Condition 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB Spectrum Reading
(dBm)
-34.71
-34.69
-34.63
-35.02
-34.27
-34.33
-34.24
-34.58
-36.09
-37.01
-36.94
-37.29 S.G Power Value (dBm) Correction Factor (dB) 7.54 7.56 7.62 7.23 9.39 9.33 9.42 9.08 9.43 8.51 8.58 8.23 10.47 10.47 10.47 10.47 9.43 9.43 9.43 9.43 9.51 9.51 9.51 9.51 EIRP
(dBm) 18.01 18.03 18.09 17.7 18.82 18.76 18.85 18.51 18.94 18.02 18.09 17.74 Limit
(dBm) 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 Margin
(dB)
-24.99
-24.97
-24.91
-25.30
-24.18
-24.24
-24.15
-24.49
-24.06
-24.98
-24.91
-25.26
-25.76
-25.69
-25.61
-26.08
-24.74
-24.78
-24.71
-25.09
-25.28
-25.28
-25.21
-25.67 Antenna rotating
(degee) 45 35 60 Remarks:
1. The EIRP was evaluated on vertical and horizontal polarization, the worst case is Horizontal polarization. 2. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 3. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). 4. Spectrum reading (dBm) = DUT emission amplitude level. Report No.: RF190321C20 Page No. 40 / 170 Report Format Version: 6.1.1 Beam ID Receive Antenna polarization QPSK 52+180 EUT position Horizontal Y-plan EIRP (dBm) Limit (dBm) Margin (dB) Channel No. Freq. (MHz) 2239991 37649.52 2260003 38850.24 2278331 39949.92 Channel No. Freq. (MHz) 2239991 37649.52 2260003 38850.24 2278331 39949.92 RB Condition 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB Spectrum Reading
(dBm)
-32.09
-32.11
-32.04
-32.48
-31.53
-31.55
-31.50
-32.07
-33.95
-33.97
-33.88
-34.31 S.G Power Value (dBm) 10.16 10.14 10.21 9.77 12.13 12.11 12.16 11.59 11.57 11.55 11.64 11.21 Correction Factor (dB) 10.47 10.47 10.47 10.47 9.43 9.43 9.43 9.43 9.51 9.51 9.51 9.51 20.63 20.61 20.68 20.24 21.56 21.54 21.59 21.02 21.08 21.06 21.15 20.72 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 RB Condition 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB Spectrum Reading
(dBm)
-31.54
-31.49
-31.45
-31.91
-30.90
-30.93
-30.88
-31.34
-33.71
-33.76
-33.67
-34.12 S.G Power Value (dBm) Correction Factor (dB) EIRP
(dBm) 10.71 10.76 10.80 10.34 12.76 12.73 12.78 12.32 11.81 11.76 11.85 11.40 10.47 10.47 10.47 10.47 9.43 9.43 9.43 9.43 9.51 9.51 9.51 9.51 21.18 21.23 21.27 20.81 22.19 22.16 22.21 21.75 21.32 21.27 21.36 20.91 Limit
(dBm) 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 Margin
(dB)
-21.82
-21.77
-21.73
-22.19
-20.81
-20.84
-20.79
-21.25
-21.68
-21.73
-21.64
-22.09
-22.37
-22.39
-22.32
-22.76
-21.44
-21.46
-21.41
-21.98
-21.92
-21.94
-21.85
-22.28 Antenna rotating
(degee) 35 50 10 Remarks:
1. The EIRP was evaluated on vertical and horizontal polarization, the worst case is Horizontal polarization. 2. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 3. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). 4. Spectrum reading (dBm) = DUT emission amplitude level. Report No.: RF190321C20 Page No. 41 / 170 Report Format Version: 6.1.1 16QAM Channel No. Freq. (MHz) 2239991 37649.52 2260003 38850.24 2278331 39949.92 Channel No. Freq. (MHz) 2239991 37649.52 2260003 38850.24 2278331 39949.92 Correction Factor (dB) 10.47 10.47 10.47 10.47 9.43 9.43 9.43 9.43 9.51 9.51 9.51 9.51 RB Condition 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB Spectrum Reading
(dBm)
-33.34
-33.29
-33.26
-33.68
-32.94
-32.93
-32.87
-33.32
-35.02
-34.97
-34.94
-35.33 S.G Power Value (dBm) 8.91 8.96 8.99 8.57 10.72 10.73 10.79 10.34 10.50 10.55 10.58 10.19 EIRP (dBm) Limit (dBm) Margin (dB) 19.38 19.43 19.46 19.04 20.15 20.16 20.22 19.77 20.01 20.06 20.09 19.70 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 RB Condition 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB Spectrum Reading
(dBm)
-32.76
-32.74
-32.69
-33.06
-32.28
-32.33
-32.23
-32.66
-34.64
-34.65
-34.57
-35.04 S.G Power Value (dBm) Correction Factor (dB) EIRP
(dBm) 9.49 9.51 9.56 9.19 11.38 11.33 11.43 11.00 10.88 10.87 10.95 10.48 10.47 10.47 10.47 10.47 9.43 9.43 9.43 9.43 9.51 9.51 9.51 9.51 19.96 19.98 20.03 19.66 20.81 20.76 20.86 20.43 20.39 20.38 20.46 19.99 Limit
(dBm) 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 Margin
(dB)
-23.04
-23.02
-22.97
-23.34
-22.19
-22.24
-22.14
-22.57
-22.61
-22.62
-22.54
-23.01
-23.62
-23.57
-23.54
-23.96
-22.85
-22.84
-22.78
-23.23
-22.99
-22.94
-22.91
-23.30 Antenna rotating
(degee) 35 60 10 Remarks:
1. The EIRP was evaluated on vertical and horizontal polarization, the worst case is Horizontal polarization. 2. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 3. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). 4. Spectrum reading (dBm) = DUT emission amplitude level. Report No.: RF190321C20 Page No. 42 / 170 Report Format Version: 6.1.1 64QAM Channel No. Freq. (MHz) 2239991 37649.52 2260003 38850.24 2278331 39949.92 Channel No. Freq. (MHz) 2239991 37649.52 2260003 38850.24 2278331 39949.92 Correction Factor (dB) 10.47 10.47 10.47 10.47 9.43 9.43 9.43 9.43 9.51 9.51 9.51 9.51 RB Condition 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB Spectrum Reading
(dBm)
-35.23
-35.21
-35.16
-35.58
-34.83
-34.81
-34.77
-35.21
-36.75
-36.72
-36.69
-37.13 S.G Power Value (dBm) 7.02 7.04 7.09 6.67 8.83 8.85 8.89 8.45 8.77 8.80 8.83 8.39 EIRP (dBm) Limit (dBm) Margin (dB) 17.49 17.51 17.56 17.14 18.26 18.28 18.32 17.88 18.28 18.31 18.34 17.90 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 RB Condition 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB Spectrum Reading
(dBm)
-34.60
-34.63
-34.53
-34.96
-34.30
-34.37
-34.21
-34.67
-36.66
-36.61
-36.50
-36.94 S.G Power Value (dBm) Correction Factor (dB) EIRP
(dBm) 7.65 7.62 7.72 7.29 9.36 9.29 9.45 8.99 8.86 8.91 9.02 8.58 10.47 10.47 10.47 10.47 9.43 9.43 9.43 9.43 9.51 9.51 9.51 9.51 18.12 18.09 18.19 17.76 18.79 18.72 18.88 18.42 18.37 18.42 18.53 18.09 Limit
(dBm) 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 Margin
(dB)
-24.88
-24.91
-24.81
-25.24
-24.21
-24.28
-24.12
-24.58
-24.63
-24.58
-24.47
-24.91
-25.51
-25.49
-25.44
-25.86
-24.74
-24.72
-24.68
-25.12
-24.72
-24.69
-24.66
-25.10 Antenna rotating
(degee) 35 55 60 Remarks:
1. The EIRP was evaluated on vertical and horizontal polarization, the worst case is Horizontal polarization. 2. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 3. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). 4. Spectrum reading (dBm) = DUT emission amplitude level. Report No.: RF190321C20 Page No. 43 / 170 Report Format Version: 6.1.1 Beam ID Receive Antenna polarization QPSK 37+166 EUT position Vertical X-plan EIRP (dBm) Limit (dBm) Margin (dB) Channel No. Freq. (MHz) 2239991 37649.52 2260003 38850.24 2278331 39949.92 Channel No. Freq. (MHz) 2239991 37649.52 2260003 38850.24 2278331 39949.92 RB Condition 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB Spectrum Reading
(dBm)
-32.54
-32.58
-32.53
-33.00
-33.18
-33.15
-33.06
-33.49
-34.09
-34.12
-34.06
-34.43 S.G Power Value (dBm) 9.71 9.67 9.72 9.25 10.48 10.51 10.60 10.17 11.43 11.40 11.46 11.09 Correction Factor (dB) 10.47 10.47 10.47 10.47 9.43 9.43 9.43 9.43 9.51 9.51 9.51 9.51 20.18 20.14 20.19 19.72 19.91 19.94 20.03 19.60 20.94 20.91 20.97 20.60 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 RB Condition 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB Spectrum Reading
(dBm)
-30.76
-30.78
-30.69
-31.10
-32.38
-32.41
-32.36
-32.80
-33.11
-33.07
-32.94
-33.42 S.G Power Value (dBm) Correction Factor (dB) EIRP
(dBm) 11.49 11.47 11.56 11.15 11.28 11.25 11.30 10.86 12.41 12.45 12.58 12.10 10.47 10.47 10.47 10.47 9.43 9.43 9.43 9.43 9.51 9.51 9.51 9.51 21.96 21.94 22.03 21.62 20.71 20.68 20.73 20.29 21.92 21.96 22.09 21.61 Limit
(dBm) 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 Margin
(dB)
-21.04
-21.06
-20.97
-21.38
-22.29
-22.32
-22.27
-22.71
-21.08
-21.04
-20.91
-21.39
-22.82
-22.86
-22.81
-23.28
-23.09
-23.06
-22.97
-23.40
-22.06
-22.09
-22.03
-22.40 Antenna rotating
(degee) 39 20 54 Remarks:
1. The EIRP was evaluated on vertical and horizontal polarization, the worst case is Horizontal polarization. 2. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 3. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). 4. Spectrum reading (dBm) = DUT emission amplitude level. Report No.: RF190321C20 Page No. 44 / 170 Report Format Version: 6.1.1 16QAM Channel No. Freq. (MHz) 2239991 37649.52 2260003 38850.24 2278331 39949.92 Channel No. Freq. (MHz) 2239991 37649.52 2260003 38850.24 2278331 39949.92 Correction Factor (dB) 10.47 10.47 10.47 10.47 9.43 9.43 9.43 9.43 9.51 9.51 9.51 9.51 RB Condition 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB Spectrum Reading
(dBm)
-33.27
-33.26
-33.21
-33.78
-33.90
-33.91
-33.86
-34.29
-34.84
-34.87
-34.81
-35.22 S.G Power Value (dBm) 8.98 8.99 9.04 8.47 9.76 9.75 9.80 9.37 10.68 10.65 10.71 10.30 EIRP (dBm) Limit (dBm) Margin (dB) 19.45 19.46 19.51 18.94 19.19 19.18 19.23 18.80 20.19 20.16 20.22 19.81 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 RB Condition 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB Spectrum Reading
(dBm)
-31.28
-31.23
-31.19
-31.67
-33.22
-33.27
-33.16
-33.60
-33.47
-33.52
-33.41
-33.88 S.G Power Value (dBm) Correction Factor (dB) EIRP
(dBm) 10.97 11.02 11.06 10.58 10.44 10.39 10.50 10.06 12.05 12.00 12.11 11.64 10.47 10.47 10.47 10.47 9.43 9.43 9.43 9.43 9.51 9.51 9.51 9.51 21.44 21.49 21.53 21.05 19.87 19.82 19.93 19.49 21.56 21.51 21.62 21.15 Limit
(dBm) 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 Margin
(dB)
-21.56
-21.51
-21.47
-21.95
-23.13
-23.18
-23.07
-23.51
-21.44
-21.49
-21.38
-21.85
-23.55
-23.54
-23.49
-24.06
-23.81
-23.82
-23.77
-24.20
-22.81
-22.84
-22.78
-23.19 Antenna rotating
(degee) 40 25 60 Remarks:
1. The EIRP was evaluated on vertical and horizontal polarization, the worst case is Horizontal polarization. 2. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 3. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). 4. Spectrum reading (dBm) = DUT emission amplitude level. Report No.: RF190321C20 Page No. 45 / 170 Report Format Version: 6.1.1 64QAM Channel No. Freq. (MHz) 2239991 37649.52 2260003 38850.24 2278331 39949.92 Channel No. Freq. (MHz) 2239991 37649.52 2260003 38850.24 2278331 39949.92 Correction Factor (dB) 10.47 10.47 10.47 10.47 9.43 9.43 9.43 9.43 9.51 9.51 9.51 9.51 RB Condition 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB Spectrum Reading
(dBm)
-35.18
-35.20
-35.13
-35.56
-35.80
-35.85
-35.70
-36.07
-36.72
-36.71
-36.60
-37.02 S.G Power Value (dBm) 7.07 7.05 7.12 6.69 7.86 7.81 7.96 7.59 8.80 8.81 8.92 8.50 EIRP (dBm) Limit (dBm) Margin (dB) 17.54 17.52 17.59 17.16 17.29 17.24 17.39 17.02 18.31 18.32 18.43 18.01 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 RB Condition 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB 1RB0 1RB32 1RB65 66RB Spectrum Reading
(dBm)
-33.07
-33.06
-33.00
-33.43
-35.10
-35.13
-35.06
-35.40
-35.39
-35.41
-35.27
-35.68 S.G Power Value (dBm) Correction Factor (dB) EIRP
(dBm) 9.18 9.19 9.25 8.82 8.56 8.53 8.60 8.26 10.13 10.11 10.25 9.84 10.47 10.47 10.47 10.47 9.43 9.43 9.43 9.43 9.51 9.51 9.51 9.51 19.65 19.66 19.72 19.29 17.99 17.96 18.03 17.69 19.64 19.62 19.76 19.35 Limit
(dBm) 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 43.00 Margin
(dB)
-23.35
-23.34
-23.28
-23.71
-25.01
-25.04
-24.97
-25.31
-23.36
-23.38
-23.24
-23.65
-25.46
-25.48
-25.41
-25.84
-25.71
-25.76
-25.61
-25.98
-24.69
-24.68
-24.57
-24.99 Antenna rotating
(degee) 45 30 55 Remarks:
1. The EIRP was evaluated on vertical and horizontal polarization, the worst case is Horizontal polarization. 2. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 3. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). 4. Spectrum reading (dBm) = DUT emission amplitude level. Report No.: RF190321C20 Page No. 46 / 170 Report Format Version: 6.1.1 Single Beam Low Channel / QPSK 1RB_65 Middle Channel / QPSK 1RB_65 High Channel / QPSK 1RB_65 Report No.: RF190321C20 Page No. 47 / 170 Report Format Version: 6.1.1 Mimo Beam Low Channel / QPSK 1RB_65 Middle Channel / QPSK 1RB_65 High Channel / QPSK 1RB_65 Report No.: RF190321C20 Page No. 48 / 170 Report Format Version: 6.1.1 4.3 Emission Bandwidth Measurement 4.3.1 Limit of Emission Bandwidth Measurement The emission bandwidth is defined as the width of the signal between two points, one below the carrier center frequency and one above the carrier center frequency, outside of which all emissions are attenuated at least 26 dB below the transmitter power. 4.3.2 Test Setup Refer to section 4.1.2 4.3.3 Test Instruments Refer to section 4.2.3 to get information of above instrument. 4.3.4 Test Procedure 1. The spectrum analyzers automatic bandwidth measurement function was used to perform the 99%
occupied bandwidth and the 26 dB bandwidth measurement. 2. Set the RBW =1~5% of the anticipated OBW, and the VBW3 x RBW. 3. Set spectrum analyzer detection mode to peak, and the trace mode to max hold 4. Sweep = auto couple 5. Record the test plots and test results. 4.3.5 Deviation from Test Standard No deviation. 4.3.6 EUT Operating Conditions The software provided by client to enable the EUT under transmission condition continuously at lowest, middle and highest channel frequencies individually. Report No.: RF190321C20 Page No. 49 / 170 Report Format Version: 6.1.1 4.3.7 Test Result 1RB / 65RB Low Channel Channel 2239991 Freq. (MHz) 37649.52 QPSK 1.7531 QPSK Occupied Bandwidth (MHz) 16QAM 2.3829 16QAM 64QAM 2.0935 64QAM Report No.: RF190321C20 Page No. 50 / 170 Report Format Version: 6.1.1 Middle Channel Channel 2260003 Freq. (MHz) 38850.24 QPSK 2.7219 QPSK Occupied Bandwidth (MHz) 16QAM 2.2682 16QAM 64QAM 2.3893 64QAM Report No.: RF190321C20 Page No. 51 / 170 Report Format Version: 6.1.1 High Channel Channel 2278331 Freq. (MHz) 39949.92 QPSK 2.4512 QPSK Occupied Bandwidth (MHz) 16QAM 2.1508 16QAM 64QAM 2.1014 64QAM Report No.: RF190321C20 Page No. 52 / 170 Report Format Version: 6.1.1 Full RB Low Channel Channel 2239991 Freq. (MHz) 37649.52 QPSK 94.513 QPSK Occupied Bandwidth (MHz) 16QAM 94.546 16QAM 64QAM 94.473 64QAM Report No.: RF190321C20 Page No. 53 / 170 Report Format Version: 6.1.1 Middle Channel Channel 2260003 Freq. (MHz) 38850.24 QPSK 94.530 QPSK Occupied Bandwidth (MHz) 16QAM 94.628 16QAM 64QAM 94.749 64QAM Report No.: RF190321C20 Page No. 54 / 170 Report Format Version: 6.1.1 High Channel Channel 2278331 Freq. (MHz) 39949.92 QPSK 94.491 QPSK Occupied Bandwidth (MHz) 16QAM 94.396 16QAM 64QAM 95.013 64QAM Report No.: RF190321C20 Page No. 55 / 170 Report Format Version: 6.1.1 4.4 Out-of-Band Spurious Emission Measurement 4.4.1 Limits of Out-of-Band Spurious Emission Measurement The conductive power or the total radiated power of any emission outside a licensee's frequency block shall be 13 dBm/MHz or lower. However, in the bands immediately outside and adjacent to the licensee's frequency block, having a bandwidth equal to 10 percent of the channel bandwidth, the conductive power or the total radiated power of any emission shall be 5 dBm/MHz or lower. 4.4.2 Test Instruments Refer to section 4.2.3 to get information of above instrument. 4.4.3 Test Procedures a. Substitution method is used for E.I.R.P measurement. In the semi-anechoic chamber, EUT placed on the 0.8m(below or equal 1GHz) and/or 1.5m(above 1GHz) height of Turn Table, rotated the table around 360 degrees to search the maximum radiation power and receiver antenna shall be rotated vertical and horizontal polarization and moved height from 1m to 4m to find the maximum polar radiated power. The Read Value is the spectrum reading the maximum power value. b. The substitution antenna is substituted for EUT at the same position and signals generator export the CW signal to the substitution antenna via a TX cable. Rotated the Turn Table and moved receiving antenna to find the maximum radiation power. Adjust output power level of S.G to get a Value of spectrum reading equal to Read Value of step a. Record the power level of S.G. c. EIRP = Output power level of S.G TX cable loss + Antenna gain of substitution horn. d. E.R.P power can be calculated form E.I.R.P power by subtracting the gain of dipole, E.R.P power =
E.I.R.P power - 2.15dBi. Note:
1. The resolution bandwidth of spectrum analyzer is 100 kHz and the video bandwidth is 300 kHz for below 1GHz. 1GHz. testing. 2. The resolution bandwidth of spectrum analyzer is 1 MHz and the video bandwidth is 3 MHz for above 3. When test frequency below 1GHz the test-receiver detector function was use peak mode during the 4. When test frequency above 1GHz the detector function was use RMS (average) mode during the testing. 5. Measurements were taken in the far field of the mm-Wave test signal based on the formula:
R (2D^2) / wavelength. Measurement Frequency range Below 18GHz 18GHz to 40GHz 40GHz to 200GHz Note: EUT Antenna Dimension is 21mm length, 2.2mm thick and 6.7mm high. EUT antenna of far field distance Far Field calculation distance Measurement Distance (Far field) 0.05m 0.3m 0.12m to 0.59m 3m 1m 1m Measurement antenna of far field distance Measurement Frequency range 40GHz-50GHz 50GHz-75GHz 75GHz-110GHz 110GHz-170GHz 170GHz-200GHz Far Field calculation distance Measurement Distance (Far field) 30mm 25mm 18mm 12mm 8mm 1m 1m 1m 1m 1m 4.4.4 Deviation from Test Standard No deviation. Report No.: RF190321C20 Page No. 56 / 170 Report Format Version: 6.1.1 4.4.5 Test Set Up
<Frequency Range below 1GHz>
Ant. Tower 1-4m Variable EUT&
Support Units 80cm 3m 10m Turn Table Ground Plane Test Receiver
<Frequency Range 1GHz ~ 18GHz>
EUT&
Support Units 3m Ant. Tower 1-4m Variable Turn Table Absorber 150cm Ground Plane Test Receiver Report No.: RF190321C20 Page No. 57 / 170 Report Format Version: 6.1.1
<Frequency Range above 18GHz>
EUT&
Support Units 1m Ant. Tower 1-4m Variable Turn Table Absorber 150cm Ground Plane Test Receiver For the actual test configuration, please refer to the attached file (Test Setup Photo). 4.4.6 EUT Operating Conditions a. Connected the Adapter to EUT. b. Prepared notebook to act as communication partner and placed it outside of testing area. c. The communication partner connected with EUT via a RJ45 cable and ran a test program (provided by manufacturer) to enable EUT under transmission condition continuously at specific channel frequency. d. The communication partner sent data to EUT by command "PING". Report No.: RF190321C20 Page No. 58 / 170 Report Format Version: 6.1.1 4.4.7 Test Results Below 1GHz Data:
Beam ID Channel No. Freq. (MHz) 1 2 3 4 5 6 35.82 142.52 392.78 445.16 745.86 934.04 180 Low Frequency Range Polarity Below 1000 MHz Horizontal Spectrum Reading
(dBm)
-50.5
-59.8
-63.3
-59.8
-55.5
-61.0 Test Distance: 3 M S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-35.8
-64.8
-69.5
-65.7
-56.6
-57.8
-11.4
-0.3 5.2 5.0 4.7 3.9
-47.2
-65.1
-64.3
-60.7
-51.9
-53.9
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-34.2
-52.1
-51.3
-47.7
-38.9
-40.9 Remarks:
1. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). 3. Spectrum reading (dBm) = Spectrum reading value without factor, Factor = free space loss + antenna factor (dB/m) and cable loss. Report No.: RF190321C20 Page No. 59 / 170 Report Format Version: 6.1.1 Beam ID Channel No. Freq. (MHz) 1 2 3 4 5 6 68.80 247.28 272.50 383.08 716.76 935.98 180 Low Frequency Range Polarity Below 1000 MHz Vertical Spectrum Reading
(dBm)
-50.0
-51.4
-49.5
-54.6
-63.6
-60.7 Test Distance: 3 M S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-50.8
-56.5
-51.7
-61.2
-63.0
-55.9
-5.3 5.4 5.3 5.3 5.0 3.9
-56.1
-51.1
-46.4
-55.9
-58.0
-52.0
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-43.1
-38.1
-33.4
-42.9
-45.0
-39.0 Remarks:
1. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). 3. Spectrum reading (dBm) = Spectrum reading value without factor, Factor = free space loss + antenna factor (dB/m) and cable loss. Report No.: RF190321C20 Page No. 60 / 170 Report Format Version: 6.1.1 Beam ID Channel 180 Mid Frequency Range Polarity Below 1000 MHz Horizontal No. Freq. (MHz) 1 2 3 4 5 6 30.00 121.18 280.26 641.10 745.86 934.04 Spectrum Reading
(dBm)
-62.9
-53.9
-57.1
-63.7
-56.5
-61.0 Test Distance: 3 M S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-47.3
-61.5
-66.9
-67.4
-57.6
-57.8
-12.2 0.1 5.3 4.7 4.7 3.9
-59.5
-61.4
-61.6
-62.7
-52.9
-53.9
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-46.5
-48.4
-48.6
-49.7
-39.9
-40.9 Remarks:
1. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). 3. Spectrum reading (dBm) = Spectrum reading value without factor, Factor = free space loss + antenna factor (dB/m) and cable loss. Report No.: RF190321C20 Page No. 61 / 170 Report Format Version: 6.1.1 Beam ID Channel No. Freq. (MHz) 1 2 3 4 5 6 51.34 128.94 177.44 262.80 745.86 934.04 180 Mid Frequency Range Polarity Below 1000 MHz Vertical Spectrum Reading
(dBm)
-46.7
-52.0
-57.7
-49.6
-60.7
-59.8 Test Distance: 3 M S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-44.5
-57.2
-61.1
-52.8
-59.8
-55.0
-8.9
-0.1 2.6 5.3 4.7 3.9
-53.4
-57.3
-58.5
-47.5
-55.1
-51.1
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-40.4
-44.3
-45.5
-34.5
-42.1
-38.1 Remarks:
1. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). 3. Spectrum reading (dBm) = Spectrum reading value without factor, Factor = free space loss + antenna factor (dB/m) and cable loss. Report No.: RF190321C20 Page No. 62 / 170 Report Format Version: 6.1.1 Beam ID Channel No. Freq. (MHz) 1 2 3 4 5 6 43.58 125.06 286.08 563.50 747.80 935.98 180 High Frequency Range Polarity Below 1000 MHz Horizontal Spectrum Reading
(dBm)
-68.1
-58.0
-63.1
-64.8
-62.3
-60.9 Test Distance: 3 M S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-55.3
-65.1
-71.7
-69.6
-63.4
-57.8
-10.3 0.0 5.2 4.5 4.7 3.9
-65.6
-65.1
-66.5
-65.1
-58.7
-53.9
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-52.6
-52.1
-53.5
-52.1
-45.7
-40.9 Remarks:
1. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). 3. Spectrum reading (dBm) = Spectrum reading value without factor, Factor = free space loss + antenna factor (dB/m) and cable loss. Report No.: RF190321C20 Page No. 63 / 170 Report Format Version: 6.1.1 Beam ID Channel No. Freq. (MHz) 1 2 3 4 5 6 90.14 229.82 266.68 487.84 734.22 935.98 180 High Frequency Range Polarity Below 1000 MHz Vertical Spectrum Reading
(dBm)
-48.2
-50.9
-56.2
-58.5
-58.7
-61.3 Test Distance: 3 M S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-54.1
-57.3
-58.5
-64.7
-57.9
-56.5 1.1 5.4 5.3 5.0 4.8 3.9
-53.0
-51.9
-53.2
-59.7
-53.1
-52.6
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-40.0
-38.9
-40.2
-46.7
-40.1
-39.6 Remarks:
1. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). 3. Spectrum reading (dBm) = Spectrum reading value without factor, Factor = free space loss + antenna factor (dB/m) and cable loss. Report No.: RF190321C20 Page No. 64 / 170 Report Format Version: 6.1.1 Beam ID Channel No. Freq. (MHz) 1 2 3 4 5 6 31.94 235.64 268.62 668.26 792.42 934.04 52+180 Low Frequency Range Polarity Below 1000 MHz Horizontal Test Distance: 3 M Spectrum Reading
(dBm)
-68.32
-64.20
-63.19
-67.58
-67.39
-56.57 S.G Power Value (dBm)
-52.77
-78.05
-73.87
-70.87
-66.07
-53.39 Correction Factor (dB) EIRP (dBm)
-64.70
-72.63
-68.58
-65.87
-61.95
-49.47
-11.93 5.42 5.29 5.00 4.12 3.92 Limit (dBm) Margin (dB)
-13.00
-13.00
-13.00
-13.00
-13.00
-13.00
-51.70
-59.63
-55.58
-52.87
-48.95
-36.47 Remarks:
1. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). 3. Spectrum reading (dBm) = Spectrum reading value without factor, Factor = free space loss + antenna factor (dB/m) and cable loss. Report No.: RF190321C20 Page No. 65 / 170 Report Format Version: 6.1.1 Beam ID Channel No. Freq. (MHz) 1 2 3 4 5 6 146.40 231.76 375.32 619.76 792.42 932.10 52+180 Low Frequency Range Polarity Below 1000 MHz Vertical Test Distance: 3 M Spectrum Reading
(dBm)
-54.48
-55.53
-57.06
-67.94
-64.25
-56.96 S.G Power Value (dBm)
-56.48
-61.41
-63.59
-67.55
-62.08
-52.37 Correction Factor (dB) EIRP (dBm)
-56.70
-55.99
-58.36
-62.95
-57.96
-48.46
-0.22 5.42 5.23 4.60 4.12 3.91 Limit (dBm) Margin (dB)
-13.00
-13.00
-13.00
-13.00
-13.00
-13.00
-43.70
-42.99
-45.36
-49.95
-44.96
-35.46 Remarks:
1. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). 3. Spectrum reading (dBm) = Spectrum reading value without factor, Factor = free space loss + antenna factor (dB/m) and cable loss. Report No.: RF190321C20 Page No. 66 / 170 Report Format Version: 6.1.1 Beam ID Channel No. Freq. (MHz) 1 2 3 4 5 6 140.58 235.64 414.12 561.56 641.10 934.04 52+180 Mid Frequency Range Polarity Below 1000 MHz Horizontal Test Distance: 3 M Spectrum Reading
(dBm)
-55.90
-55.05
-68.11
-67.41
-66.73
-59.24 S.G Power Value (dBm)
-61.18
-68.90
-74.27
-72.32
-70.48
-56.06 Correction Factor (dB) EIRP (dBm)
-61.49
-63.48
-69.04
-67.71
-65.71
-52.14
-0.31 5.42 5.23 4.61 4.77 3.92 Limit (dBm) Margin (dB)
-13.00
-13.00
-13.00
-13.00
-13.00
-13.00
-48.49
-50.48
-56.04
-54.71
-52.71
-39.14 Remarks:
1. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). 3. Spectrum reading (dBm) = Spectrum reading value without factor, Factor = free space loss + antenna factor (dB/m) and cable loss. Report No.: RF190321C20 Page No. 67 / 170 Report Format Version: 6.1.1 Beam ID Channel No. Freq. (MHz) 1 2 3 4 5 6 37.76 121.18 235.64 551.86 610.06 934.04 52+180 Mid Frequency Range Polarity Below 1000 MHz Vertical Test Distance: 3 M Spectrum Reading
(dBm)
-49.36
-50.53
-60.14
-61.15
-61.31
-57.52 S.G Power Value (dBm)
-46.65
-56.85
-65.24
-64.51
-61.32
-52.76 Correction Factor (dB) EIRP (dBm)
-57.83
-56.80
-59.82
-59.89
-56.82
-48.84
-11.18 0.05 5.42 4.62 4.50 3.92 Limit (dBm) Margin (dB)
-13.00
-13.00
-13.00
-13.00
-13.00
-13.00
-44.83
-43.80
-46.82
-46.89
-43.82
-35.84 Remarks:
1. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). 3. Spectrum reading (dBm) = Spectrum reading value without factor, Factor = free space loss + antenna factor (dB/m) and cable loss. Report No.: RF190321C20 Page No. 68 / 170 Report Format Version: 6.1.1 Beam ID Channel No. Freq. (MHz) 1 2 3 4 5 6 156.10 224.00 433.52 598.42 788.54 932.10 52+180 High Frequency Range Polarity Below 1000 MHz Horizontal Test Distance: 3 M Spectrum Reading
(dBm)
-61.29
-62.44
-66.04
-66.51
-67.28
-58.95 S.G Power Value (dBm)
-66.49
-76.03
-72.52
-70.53
-66.07
-55.81 Correction Factor (dB) EIRP (dBm)
-66.32
-70.59
-67.38
-66.09
-61.90
-51.90 0.17 5.44 5.14 4.44 4.17 3.91 Limit (dBm) Margin (dB)
-13.00
-13.00
-13.00
-13.00
-13.00
-13.00
-53.32
-57.59
-54.38
-53.09
-48.90
-38.90 Remarks:
1. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). 3. Spectrum reading (dBm) = Spectrum reading value without factor, Factor = free space loss + antenna factor (dB/m) and cable loss. Report No.: RF190321C20 Page No. 69 / 170 Report Format Version: 6.1.1 Beam ID Channel No. Freq. (MHz) 1 2 3 4 5 6 121.18 233.70 247.28 355.92 419.94 932.10 52+180 High Frequency Range Polarity Below 1000 MHz Vertical Test Distance: 3 M Spectrum Reading
(dBm)
-48.95
-54.74
-55.40
-61.22
-61.45
-57.43 S.G Power Value (dBm)
-55.27
-60.20
-60.51
-67.74
-68.20
-52.84 Correction Factor (dB) EIRP (dBm)
-55.22
-54.78
-55.10
-62.52
-62.99
-48.93 0.05 5.42 5.41 5.22 5.21 3.91 Limit (dBm) Margin (dB)
-13.00
-13.00
-13.00
-13.00
-13.00
-13.00
-42.22
-41.78
-42.10
-49.52
-49.99
-35.93 Remarks:
1. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). 3. Spectrum reading (dBm) = Spectrum reading value without factor, Factor = free space loss + antenna factor (dB/m) and cable loss. Report No.: RF190321C20 Page No. 70 / 170 Report Format Version: 6.1.1 Above 1GHz Data:
Beam ID Channel No. Freq. (MHz) 1 2 3 4 5 6 2530.00 8004.00 10894.00 14974.00 16912.00 17830.00 180 Low Frequency Range Polarity 1GHz ~ 18GHz Horizontal Spectrum Reading
(dBm)
-61.7
-64.0
-65.0
-61.3
-61.1
-63.4 Test Distance: 3 M S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-59.2
-42.6
-36.7
-30.5
-28.4
-22.5 6.4 4.0 2.3 3.1 3.1
-3.1
-52.8
-38.6
-34.4
-27.4
-25.3
-25.6
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-39.8
-25.6
-21.4
-14.4
-12.3
-12.6 Remarks:
1. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). 3. Spectrum reading (dBm) = Spectrum reading value without factor, Factor = free space loss + antenna factor (dB/m) and cable loss. Report No.: RF190321C20 Page No. 71 / 170 Report Format Version: 6.1.1 Beam ID Channel No. Freq. (MHz) 1 2 3 4 5 6 1748.00 7528.00 11234.00 14226.0 15144.00 18000.00 180 Low Frequency Range Polarity 1GHz ~ 18GHz Vertical Spectrum Reading
(dBm)
-54.7
-65.3
-65.4
-62.2
-61.5
-63.8 Test Distance: 3 M S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-53.1
-45.1
-36.6
-27.8
-31.4
-18.5 5.7 4.2 2.2 1.5 3.9
-5.1
-47.4
-40.9
-34.4
-26.3
-27.5
-23.6
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-34.4
-27.9
-21.4
-13.3
-14.5
-10.6 Remarks:
1. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). 3. Spectrum reading (dBm) = Spectrum reading value without factor, Factor = free space loss + antenna factor (dB/m) and cable loss. Report No.: RF190321C20 Page No. 72 / 170 Report Format Version: 6.1.1 Beam ID Channel No. Freq. (MHz) 1 2 3 4 5 6 1748.00 8004.00 11472.00 13988.00 14974.00 17830.00 180 Mid Frequency Range Polarity 1GHz ~ 18GHz Horizontal Spectrum Reading
(dBm)
-57.2
-64.1
-65.4
-62.5
-59.7
-63.6 Test Distance: 3 M S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-57.8
-42.7
-36.5
-29.3
-28.9
-22.7 5.7 4.0 2.4 1.6 3.1
-3.1
-52.1
-38.7
-34.1
-27.7
-25.8
-25.8
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-39.1
-25.7
-21.1
-14.7
-12.8
-12.8 Remarks:
1. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). 3. Spectrum reading (dBm) = Spectrum reading value without factor, Factor = free space loss + antenna factor (dB/m) and cable loss. Report No.: RF190321C20 Page No. 73 / 170 Report Format Version: 6.1.1 Beam ID Channel No. Freq. (MHz) 1 2 3 4 5 6 7664.00 10588.00 11642.00 14226.00 15076.00 17592.00 180 Mid Frequency Range Polarity 1GHz ~ 18GHz Vertical Spectrum Reading
(dBm)
-64.3
-65.0
-65.5
-63.2
-61.0
-62.5 Test Distance: 3 M S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-44.4
-38.6
-37.8
-28.8
-30.8
-24.2 4.2 2.7 2.7 1.5 3.5
-0.4
-40.2
-35.9
-35.1
-27.3
-27.3
-24.6
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-27.2
-22.9
-22.1
-14.3
-14.3
-11.6 Remarks:
1. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). 3. Spectrum reading (dBm) = Spectrum reading value without factor, Factor = free space loss + antenna factor (dB/m) and cable loss. Report No.: RF190321C20 Page No. 74 / 170 Report Format Version: 6.1.1 Beam ID Channel No. Freq. (MHz) 1 2 3 4 5 6 1714.00 8004.00 11370.00 14056.00 15042.00 17014.00 180 High Frequency Range Polarity 1GHz ~ 18GHz Horizontal Spectrum Reading
(dBm)
-40.2
-64.2
-65.6
-62.4
-60.7
-61.3 Test Distance: 3 M S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-40.8
-42.8
-36.8
-29.2
-30.4
-27.9 5.6 4.0 2.4 1.6 3.3 2.5
-35.2
-38.8
-34.4
-27.6
-27.1
-25.4
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-22.2
-25.8
-21.4
-14.6
-14.1
-12.4 Remarks:
1. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). 3. Spectrum reading (dBm) = Spectrum reading value without factor, Factor = free space loss + antenna factor (dB/m) and cable loss. Report No.: RF190321C20 Page No. 75 / 170 Report Format Version: 6.1.1 Beam ID Channel No. Freq. (MHz) 1 2 3 4 5 6 1714.00 5114.00 8174.00 11302.00 14362.00 17864.00 180 High Frequency Range Polarity 1GHz ~ 18GHz Vertical Spectrum Reading
(dBm)
-50.0
-66.2
-63.9
-66.3
-62.5
-63.3 Test Distance: 3 M S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-48.3
-55.5
-43.5
-37.4
-28.1
-20.3 5.6 6.6 4.3 2.2 1.5
-3.5
-42.7
-48.9
-39.2
-35.2
-26.6
-23.8
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-29.7
-35.9
-26.2
-22.2
-13.6
-10.8 Remarks:
1. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). 3. Spectrum reading (dBm) = Spectrum reading value without factor, Factor = free space loss + antenna factor (dB/m) and cable loss. Report No.: RF190321C20 Page No. 76 / 170 Report Format Version: 6.1.1 Beam ID Channel No. Freq. (MHz) 1 2 3 4 5 6 2394.00 7494.00 11948.00 14294.00 15178.00 17456.00 52+180 Low Frequency Range Polarity 1GHz ~ 18GHz Horizontal Spectrum Reading
(dBm)
-48.4
-63.8
-63.7
-61.4
-60.0
-60.2 Test Distance: 3 M S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-46.9
-43.2
-36.2
-27.6
-30.6
-24.1 6.4 4.2 3.4 1.4 4.1 0.7
-40.5
-39.0
-32.8
-26.2
-26.5
-23.4
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-27.5
-26.0
-19.8
-13.2
-13.5
-10.4 Remarks:
1. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). 3. Spectrum reading (dBm) = Spectrum reading value without factor, Factor = free space loss + antenna factor (dB/m) and cable loss. Report No.: RF190321C20 Page No. 77 / 170 Report Format Version: 6.1.1 Beam ID Channel No. Freq. (MHz) 1 2 3 4 5 6 2428.00 5522.00 9058.00 11302.00 13716.00 17830.00 52+180 Low Frequency Range Polarity 1GHz ~ 18GHz Vertical Spectrum Reading
(dBm)
-50.1
-66.5
-64.8
-63.9
-62.2
-62.5 Test Distance: 3 M S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-45.8
-55.1
-43.7
-35.0
-28.9
-19.8 6.4 6.8 4.5 2.2 2.3
-3.1
-39.4
-48.3
-39.2
-32.8
-26.6
-22.9
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-26.4
-35.3
-26.2
-19.8
-13.6
-9.9 Remarks:
1. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). 3. Spectrum reading (dBm) = Spectrum reading value without factor, Factor = free space loss + antenna factor (dB/m) and cable loss. Report No.: RF190321C20 Page No. 78 / 170 Report Format Version: 6.1.1 Beam ID Channel No. Freq. (MHz) 1 2 3 4 5 6 2428.00 7834.00 11370.00 14260.00 15008.00 16912.00 52+180 Mid Frequency Range Polarity 1GHz ~ 18GHz Horizontal Spectrum Reading
(dBm)
-48.0
-64.2
-64.1
-61.6
-60.8
-59.9 Test Distance: 3 M S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-46.2
-43.6
-35.3
-28.2
-30.1
-27.2 6.4 4.1 2.4 1.5 3.2 3.1
-39.8
-39.5
-32.9
-26.7
-26.9
-24.1
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-26.8
-26.5
-19.9
-13.7
-13.9
-11.1 Remarks:
1. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). 3. Spectrum reading (dBm) = Spectrum reading value without factor, Factor = free space loss + antenna factor (dB/m) and cable loss. Report No.: RF190321C20 Page No. 79 / 170 Report Format Version: 6.1.1 Beam ID Channel No. Freq. (MHz) 1 2 3 4 5 6 7 2428.00 8174.00 10860.00 11778.00 14362.00 17082.00 17932.00 52+180 Mid Frequency Range Polarity 1GHz ~ 18GHz Vertical Spectrum Reading
(dBm)
-42.2
-64.3
-64.4
-63.9
-62.0
-60.5
-62.4 Test Distance: 3 M S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-37.9
-43.9
-37.3
-36.2
-27.6
-26.4
-18.5 6.4 4.3 2.3 3.0 1.5 2.1
-4.3
-31.5
-39.6
-35.0
-33.2
-26.1
-24.3
-22.8
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-18.5
-26.6
-22.0
-20.2
-13.1
-11.3
-9.8 Remarks:
1. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). 3. Spectrum reading (dBm) = Spectrum reading value without factor, Factor = free space loss + antenna factor (dB/m) and cable loss. Report No.: RF190321C20 Page No. 80 / 170 Report Format Version: 6.1.1 Beam ID Channel No. Freq. (MHz) 1 2 3 4 5 6 2394.00 8004.00 11370.00 13750.00 14974.00 16980.00 52+180 High Frequency Range Polarity 1GHz ~ 18GHz Horizontal Spectrum Reading
(dBm)
-47.2
-64.8
-64.0
-62.8
-61.1
-60.2 Test Distance: 3 M S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-45.7
-43.4
-35.2
-30.2
-30.3
-27.1 6.4 4.0 2.4 2.2 3.1 2.7
-39.3
-39.4
-32.8
-28.0
-27.2
-24.4
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-26.3
-26.4
-19.8
-15.0
-14.2
-11.4 Remarks:
1. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). 3. Spectrum reading (dBm) = Spectrum reading value without factor, Factor = free space loss + antenna factor (dB/m) and cable loss. Report No.: RF190321C20 Page No. 81 / 170 Report Format Version: 6.1.1 Beam ID Channel No. Freq. (MHz) 1 2 3 4 5 6 2428.00 8174.00 10792.00 13648.00 14838.00 17830.00 52+180 High Frequency Range Polarity 1GHz ~ 18GHz Vertical Spectrum Reading
(dBm)
-48.7
-63.8
-63.9
-62.8
-61.0
-62.1 Test Distance: 3 M S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-44.4
-43.4
-36.7
-29.6
-29.2
-19.4 6.4 4.3 2.3 2.3 2.7
-3.1
-38.0
-39.1
-34.4
-27.3
-26.5
-22.5
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-25.0
-26.1
-21.4
-14.3
-13.5
-9.5 Remarks:
1. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). 3. Spectrum reading (dBm) = Spectrum reading value without factor, Factor = free space loss + antenna factor (dB/m) and cable loss. Report No.: RF190321C20 Page No. 82 / 170 Report Format Version: 6.1.1 Beam ID Channel 180 Low Frequency Range Antenna polarity 18GHz-37.575GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 180 Low Frequency Range Antenna polarity 18GHz-37.575GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 83 / 170 Report Format Version: 6.1.1 Beam ID Channel 180 Mid Frequency Range Antenna polarity 18GHz-37.575GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 180 Mid Frequency Range Antenna polarity 18GHz-37.575GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 84 / 170 Report Format Version: 6.1.1 Beam ID Channel 180 High Frequency Range Antenna polarity 18GHz-37.575GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 180 High Frequency Range Antenna polarity 18GHz-37.575GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 85 / 170 Report Format Version: 6.1.1 Beam ID Channel 52+180 Low Frequency Range Antenna polarity 18GHz-37.575GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 52+180 Low Frequency Range Antenna polarity 18GHz-37.575GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 86 / 170 Report Format Version: 6.1.1 Beam ID Channel 52+180 Mid Frequency Range Antenna polarity 18GHz-37.575GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 52+180 Mid Frequency Range Antenna polarity 18GHz-37.575GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 87 / 170 Report Format Version: 6.1.1 Beam ID Channel 52+180 High Frequency Range Antenna polarity 18GHz-37.575GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 52+180 High Frequency Range Antenna polarity 18GHz-37.575GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 88 / 170 Report Format Version: 6.1.1 Beam ID Channel 175 Low Frequency Range Antenna polarity 40.25GHz-50GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 175 Low Frequency Range Antenna polarity 40.25GHz-50GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 89 / 170 Report Format Version: 6.1.1 Beam ID Channel 175 Mid Frequency Range Antenna polarity 40.25GHz-50GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 175 Mid Frequency Range Antenna polarity 40.25GHz-50GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 90 / 170 Report Format Version: 6.1.1
1 2 3 4 | Part 30 part 2 | Test Report | 5.02 MiB | / June 06 2019 |
Beam ID Channel 175 High Frequency Range Antenna polarity 40.25GHz-50GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 175 High Frequency Range Antenna polarity 40.25GHz-50GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 91 / 170 Report Format Version: 6.1.1 Beam ID Channel 180 Low Frequency Range Antenna polarity 40.25GHz-50GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 180 Low Frequency Range Antenna polarity 40.25GHz-50GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 92 / 170 Report Format Version: 6.1.1 Beam ID Channel 180 Mid Frequency Range Antenna polarity 40.25GHz-50GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 180 Mid Frequency Range Antenna polarity 40.25GHz-50GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 93 / 170 Report Format Version: 6.1.1 Beam ID Channel 180 High Frequency Range Antenna polarity 40.25GHz-50GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 180 High Frequency Range Antenna polarity 40.25GHz-50GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 94 / 170 Report Format Version: 6.1.1 Beam ID Channel 185 Low Frequency Range Antenna polarity 40.25GHz-50GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 185 Low Frequency Range Antenna polarity 40.25GHz-50GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 95 / 170 Report Format Version: 6.1.1 Beam ID Channel 185 Mid Frequency Range Antenna polarity 40.25GHz-50GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 185 Mid Frequency Range Antenna polarity 40.25GHz-50GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 96 / 170 Report Format Version: 6.1.1 Beam ID Channel 185 High Frequency Range Antenna polarity 40.25GHz-50GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 185 High Frequency Range Antenna polarity 40.25GHz-50GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 97 / 170 Report Format Version: 6.1.1 Beam ID Channel 52+180 Low Frequency Range Antenna polarity 40.25GHz-50GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 52+180 Low Frequency Range Antenna polarity 40.25GHz-50GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 98 / 170 Report Format Version: 6.1.1 Beam ID Channel 52+180 Mid Frequency Range Antenna polarity 40.25-50GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 52+180 Mid Frequency Range Antenna polarity 40.25GHz-50GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 99 / 170 Report Format Version: 6.1.1 Beam ID Channel 52+180 High Frequency Range Antenna polarity 40.25GHz-50GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 52+180 High Frequency Range Antenna polarity 40.25GHz-50GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 100 / 170 Report Format Version: 6.1.1 Beam ID Channel 175 Low Frequency Range Antenna polarity 50GHz-75GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 175 Low Frequency Range Antenna polarity 50GHz-75GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 101 / 170 Report Format Version: 6.1.1 Beam ID Channel 175 Mid Frequency Range Antenna polarity 50GHz-75GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 175 Mid Frequency Range Antenna polarity 50GHz-75GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 102 / 170 Report Format Version: 6.1.1 Beam ID Channel 175 High Frequency Range Antenna polarity 50GHz-75GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 175 High Frequency Range Antenna polarity 50GHz-75GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 103 / 170 Report Format Version: 6.1.1 Beam ID Channel 180 Low Frequency Range Antenna polarity 50GHz-75GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 180 Low Frequency Range Antenna polarity 50GHz-75GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 104 / 170 Report Format Version: 6.1.1 Beam ID Channel 180 Mid Frequency Range Antenna polarity 50GHz-75GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 180 Mid Frequency Range Antenna polarity 50GHz-75GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 105 / 170 Report Format Version: 6.1.1 Beam ID Channel 180 High Frequency Range Antenna polarity 50GHz-75GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 180 High Frequency Range Antenna polarity 50GHz-75GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 106 / 170 Report Format Version: 6.1.1 Beam ID Channel 185 Low Frequency Range Antenna polarity 50GHz-75GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 185 Low Frequency Range Antenna polarity 50GHz-75GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 107 / 170 Report Format Version: 6.1.1 Beam ID Channel 185 Mid Frequency Range Antenna polarity 50GHz-75GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 185 Mid Frequency Range Antenna polarity 50GHz-75GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 108 / 170 Report Format Version: 6.1.1 Beam ID Channel 185 High Frequency Range Antenna polarity 50GHz-75GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 185 High Frequency Range Antenna polarity 50GHz-75GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 109 / 170 Report Format Version: 6.1.1 Beam ID Channel 52+180 Low Frequency Range Antenna polarity 50GHz-75GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 52+180 Low Frequency Range Antenna polarity 50GHz-75GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 110 / 170 Report Format Version: 6.1.1
1 2 3 4 | Part 30 part 3 | Test Report | 4.82 MiB | / June 06 2019 |
Beam ID Channel 52+180 Mid Frequency Range Antenna polarity 50GHz-75GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 52+180 Mid Frequency Range Antenna polarity 50GHz-75GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 111 / 170 Report Format Version: 6.1.1 Beam ID Channel 52+180 High Frequency Range Antenna polarity 50GHz-75GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 52+180 High Frequency Range Antenna polarity 50GHz-75GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 112 / 170 Report Format Version: 6.1.1 Beam ID Channel 175 Low Frequency Range Antenna polarity 75GHz-110GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 175 Low Frequency Range Antenna polarity 75GHz-110GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 113 / 170 Report Format Version: 6.1.1 Beam ID Channel 175 Mid Frequency Range Antenna polarity 75GHz-110GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 175 Mid Frequency Range Antenna polarity 75GHz-110GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 114 / 170 Report Format Version: 6.1.1 Beam ID Channel 175 High Frequency Range Antenna polarity 75GHz-110GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 175 High Frequency Range Antenna polarity 75GHz-110GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 115 / 170 Report Format Version: 6.1.1 Beam ID Channel 180 Low Frequency Range Antenna polarity 75GHz-110GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 180 Low Frequency Range Antenna polarity 75GHz-110GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 116 / 170 Report Format Version: 6.1.1 Beam ID Channel 180 Mid Frequency Range Antenna polarity 75GHz-110GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 180 Mid Frequency Range Antenna polarity 75GHz-110GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 117 / 170 Report Format Version: 6.1.1 Beam ID Channel 180 High Frequency Range Antenna polarity 75GHz-110GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 180 High Frequency Range Antenna polarity 75GHz-110GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 118 / 170 Report Format Version: 6.1.1 Beam ID Channel 185 Low Frequency Range Antenna polarity 75GHz-110GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 185 Low Frequency Range Antenna polarity 75GHz-110GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 119 / 170 Report Format Version: 6.1.1 Beam ID Channel 185 Mid Frequency Range Antenna polarity 75GHz-110GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 185 Mid Frequency Range Antenna polarity 75GHz-110GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 120 / 170 Report Format Version: 6.1.1 Beam ID Channel 185 High Frequency Range Antenna polarity 75GHz-110GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 185 High Frequency Range Antenna polarity 75GHz-110GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 121 / 170 Report Format Version: 6.1.1 Beam ID Channel 52+180 Low Frequency Range Antenna polarity 75GHz-110GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 52+180 Low Frequency Range Antenna polarity 75GHz-110GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 122 / 170 Report Format Version: 6.1.1 Beam ID Channel 52+180 Mid Frequency Range Antenna polarity 75GHz-110GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 52+180 Mid Frequency Range Antenna polarity 75GHz-110GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 123 / 170 Report Format Version: 6.1.1 Beam ID Channel 52+180 High Frequency Range Antenna polarity 75GHz-110GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 52+180 High Frequency Range Antenna polarity 75GHz-110GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 124 / 170 Report Format Version: 6.1.1 Beam ID Channel 175 Low Frequency Range Antenna polarity 110GHz-140GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 175 Low Frequency Range Antenna polarity 110GHz-140GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 125 / 170 Report Format Version: 6.1.1 Beam ID Channel 175 Mid Frequency Range Antenna polarity 110GHz-140GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 175 Mid Frequency Range Antenna polarity 110GHz-140GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 126 / 170 Report Format Version: 6.1.1 Beam ID Channel 175 High Frequency Range Antenna polarity 110GHz-140GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 175 High Frequency Range Antenna polarity 110GHz-140GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 127 / 170 Report Format Version: 6.1.1 Beam ID Channel 180 Low Frequency Range Antenna polarity 110GHz-140GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 180 Low Frequency Range Antenna polarity 110GHz-140GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 128 / 170 Report Format Version: 6.1.1 Beam ID Channel 180 Mid Frequency Range Antenna polarity 110GHz-140GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 180 Mid Frequency Range Antenna polarity 110GHz-140GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 129 / 170 Report Format Version: 6.1.1 Beam ID Channel 180 High Frequency Range Antenna polarity 110GHz-140GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 180 High Frequency Range Antenna polarity 110GHz-140GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 130 / 170 Report Format Version: 6.1.1
1 2 3 4 | Part 30 part 4 | Test Report | 4.03 MiB | / June 06 2019 |
Beam ID Channel 185 Low Frequency Range Antenna polarity 110GHz-140GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 185 Low Frequency Range Antenna polarity 110GHz-140GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 131 / 170 Report Format Version: 6.1.1 Beam ID Channel 185 Mid Frequency Range Antenna polarity 110GHz-140GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 185 Mid Frequency Range Antenna polarity 110GHz-140GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 132 / 170 Report Format Version: 6.1.1 Beam ID Channel 185 High Frequency Range Antenna polarity 110GHz-140GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 185 High Frequency Range Antenna polarity 110GHz-140GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 133 / 170 Report Format Version: 6.1.1 Beam ID Channel 52+180 Low Frequency Range Antenna polarity 110GHz-140GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 52+180 Low Frequency Range Antenna polarity 110GHz-140GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 134 / 170 Report Format Version: 6.1.1 Beam ID Channel 52+180 Mid Frequency Range Antenna polarity 110GHz-140GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 52+180 Mid Frequency Range Antenna polarity 110GHz-140GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 135 / 170 Report Format Version: 6.1.1 Beam ID Channel 52+180 High Frequency Range Antenna polarity 110GHz-140GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 52+180 High Frequency Range Antenna polarity 110GHz-140GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 136 / 170 Report Format Version: 6.1.1 Beam ID Channel 175 Low Frequency Range Antenna polarity 140GHz-170GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 175 Low Frequency Range Antenna polarity 140GHz-170GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 137 / 170 Report Format Version: 6.1.1 Beam ID Channel 175 Mid Frequency Range Antenna polarity 140GHz-170GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 175 Mid Frequency Range Antenna polarity 140GHz-170GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 138 / 170 Report Format Version: 6.1.1 Beam ID Channel 175 High Frequency Range Antenna polarity 140GHz-170GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 175 High Frequency Range Antenna polarity 140GHz-170GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 139 / 170 Report Format Version: 6.1.1 Beam ID Channel 180 Low Frequency Range Antenna polarity 140GHz-170GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 180 Low Frequency Range Antenna polarity 140GHz-170GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 140 / 170 Report Format Version: 6.1.1 Beam ID Channel 180 Mid Frequency Range Antenna polarity 140GHz-170GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 180 Mid Frequency Range Antenna polarity 140GHz-170GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 141 / 170 Report Format Version: 6.1.1 Beam ID Channel 180 High Frequency Range Antenna polarity 140GHz-170GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 180 High Frequency Range Antenna polarity 140GHz-170GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 142 / 170 Report Format Version: 6.1.1 Beam ID Channel 185 Low Frequency Range Antenna polarity 140GHz-170GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 185 Low Frequency Range Antenna polarity 140GHz-170GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 143 / 170 Report Format Version: 6.1.1 Beam ID Channel 185 Mid Frequency Range Antenna polarity 140GHz-170GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 185 Mid Frequency Range Antenna polarity 140GHz-170GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 144 / 170 Report Format Version: 6.1.1 Beam ID Channel 185 High Frequency Range Antenna polarity 140GHz-170GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 185 High Frequency Range Antenna polarity 140GHz-170GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 145 / 170 Report Format Version: 6.1.1
1 2 3 4 | Part 30 part 5 | Test Report | 3.84 MiB | / June 06 2019 |
Beam ID Channel 52+180 Low Frequency Range Antenna polarity 140GHz-170GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 52+180 Low Frequency Range Antenna polarity 140GHz-170GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 146 / 170 Report Format Version: 6.1.1 Beam ID Channel 52+180 Mid Frequency Range Antenna polarity 140GHz-170GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 52+180 Mid Frequency Range Antenna polarity 140GHz-170GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 147 / 170 Report Format Version: 6.1.1 Beam ID Channel 52+180 High Frequency Range Antenna polarity 140GHz-170GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 52+180 High Frequency Range Antenna polarity 140GHz-170GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 148 / 170 Report Format Version: 6.1.1 Beam ID Channel 175 Low Frequency Range Antenna polarity 170GHz-200GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 175 Low Frequency Range Antenna polarity 170GHz-200GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 149 / 170 Report Format Version: 6.1.1 Beam ID Channel 175 Mid Frequency Range Antenna polarity 170GHz-200GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 175 Mid Frequency Range Antenna polarity 170GHz-200GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 150 / 170 Report Format Version: 6.1.1 Beam ID Channel 175 High Frequency Range Antenna polarity 170GHz-200GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 175 High Frequency Range Antenna polarity 170GHz-200GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 151 / 170 Report Format Version: 6.1.1 Beam ID Channel 180 Low Frequency Range Antenna polarity 170GHz-200GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 180 Low Frequency Range Antenna polarity 170GHz-200GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 152 / 170 Report Format Version: 6.1.1 Beam ID Channel 180 Mid Frequency Range Antenna polarity 170GHz-200GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 180 Mid Frequency Range Antenna polarity 170GHz-200GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 153 / 170 Report Format Version: 6.1.1 Beam ID Channel 180 High Frequency Range Antenna polarity 170GHz-200GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 180 High Frequency Range Antenna polarity 170GHz-200GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 154 / 170 Report Format Version: 6.1.1 Beam ID Channel 185 Low Frequency Range Antenna polarity 170GHz-200GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 185 Low Frequency Range Antenna polarity 170GHz-200GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 155 / 170 Report Format Version: 6.1.1 Beam ID Channel 185 Mid Frequency Range Antenna polarity 170GHz-200GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 185 Mid Frequency Range Antenna polarity 170GHz-200GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 156 / 170 Report Format Version: 6.1.1 Beam ID Channel 185 High Frequency Range Antenna polarity 170GHz-200GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 185 High Frequency Range Antenna polarity 170GHz-200GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 157 / 170 Report Format Version: 6.1.1 Beam ID Channel 52+180 Low Frequency Range Antenna polarity 170GHz-200GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 52+180 Low Frequency Range Antenna polarity 170GHz-200GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 158 / 170 Report Format Version: 6.1.1 Beam ID Channel 52+180 Mid Frequency Range Antenna polarity 170GHz-200GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 52+180 Mid Frequency Range Antenna polarity 170GHz-200GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 159 / 170 Report Format Version: 6.1.1 Beam ID Channel 52+180 High Frequency Range Antenna polarity 170GHz-200GHz Horizontal Test distance at 1m Note: The test results already include the correction factor (corrections: On). Beam ID Channel 52+180 High Frequency Range Antenna polarity 170GHz-200GHz Vertical Test distance at 1m Note: The test results already include the correction factor (corrections: On). Report No.: RF190321C20 Page No. 160 / 170 Report Format Version: 6.1.1
1 2 3 4 | Part 30 part 6 | Test Report | 3.59 MiB | / June 06 2019 |
4.5 Out-of-Band Emission at the Band Edge Measurement 4.5.1 Limits of Out-of Band Emission at the Band Edge Measurement The conductive power or the total radiated power of any emission outside a licensee's frequency block shall be 13 dBm/MHz or lower. However, in the bands immediately outside and adjacent to the licensee's frequency block, having a bandwidth equal to 10 percent of the channel bandwidth, the conductive power or the total radiated power of any emission shall be 5 dBm/MHz or lower. 4.5.2 Test Instruments Refer to section 4.5.2. 4.5.3 Test Procedures a. Substitution method is used for E.I.R.P measurement. In the semi-anechoic chamber, EUT placed on the 0.8m(below or equal 1GHz) and/or 1.5m(above 1GHz) height of Turn Table, rotated the table around 360 degrees to search the maximum radiation power and receiver antenna shall be rotated vertical and horizontal polarization and moved height from 1m to 4m to find the maximum polar radiated power. The Read Value is the spectrum reading the maximum power value. b. The substitution antenna is substituted for EUT at the same position and signals generator export the CW signal to the substitution antenna via a TX cable. Rotated the Turn Table and moved receiving antenna to find the maximum radiation power. Adjust output power level of S.G to get a Value of spectrum reading equal to Read Value of step a. Record the power level of S.G. c. EIRP = Output power level of S.G TX cable loss + Antenna gain of substitution horn. d. E.R.P power can be calculated form E.I.R.P power by subtracting the gain of dipole, E.R.P power =
e. The requirements in 30.203 are expressed in terms of conductive power, and then conducted power will E.I.R.P power - 2.15dBi. be calculated by EIRP-Array Gain. f. Antenna Gain Information at the Band Edge :
The following antenna gain information is provided to demonstrate the antenna performance of the 37~40 GHz band. These antenna gains were subtracted from the measured E.I.R.P levels at lower and upper band edge frequencies to determine an equivalent conductive power that was compared directly with the part 30.203 limits. Frequency(GHz) Gain(dBi) 37 37.5 38 38.5 39 39.5 40 10.60 10.95 11.27 11.10 10.90 10.70 10.51 Note: The resolution bandwidth of spectrum analyzer is 1 MHz and the video bandwidth is 3 MHz. 4.5.4 Deviation from Test Standard No deviation. Report No.: RF190321C20 Page No. 161 / 170 Report Format Version: 6.1.1 4.5.5 Test Set Up EUT&
Support Units 1m Ant. Tower 1-4m Variable Turn Table Absorber 150cm Ground Plane Test Receiver For the actual test configuration, please refer to the attached file (Test Setup Photo). 4.5.6 EUT Operating Conditions a. Connected the Adapter to EUT. b. Prepared notebook to act as communication partner and placed it outside of testing area. c. The communication partner connected with EUT via a RJ45 cable and ran a test program (provided by manufacturer) to enable EUT under transmission condition continuously at specific channel frequency. d. The communication partner sent data to EUT by command "PING". Report No.: RF190321C20 Page No. 162 / 170 Report Format Version: 6.1.1 4.5.7 Test Results Channel 2239991 QPSK / 1RB 0RB Beam ID Frequency
(GHz) 175 180 185 52+180 37.60000 37.59100 37.59985 37.59465 37.60000 37.57740 37.59970 37.59480 Array Gain
(dBi) 10.6 10.6 10.6 10.6 10.6 10.6 10.6 10.6 Conducted Power
(dBm)
-13.280
-28.610
-7.436
-26.600
-16.54
-28.84
-12.97
-29.23 Limit
(dBm)
-5
-13
-5
-13
-5
-13
-5
-13 EIRP Value
(dBm)
-2.680
-18.010 3.164
-16.000
-5.940
-18.240
-2.370
-18.630 Note: The Conducted Power = EIRP-Array Gain Beam 175 Beam 180 Margin
(dB)
-8.28
-15.61
-2.436
-13.6
-11.54
-15.84
-7.97
-16.23 Result Pass Pass Pass Pass Pass Pass Pass Pass Beam 185 Beam52+180 Report No.: RF190321C20 Page No. 163 / 170 Report Format Version: 6.1.1 Channel 2239991 QPSK / 66RB Beam ID Frequency
(GHz) 175 180 185 52+180 37.59925 37.58840 37.59900 37.59440 37.59910 37.59295 37.59905 37.59150 Array Gain
(dBi) 10.6 10.6 10.6 10.6 10.6 10.6 10.6 10.6 Conducted Power
(dBm)
-26.97
-28.44
-27.25
-28.3
-26.25
-30.64
-26.61
-29.00 Limit
(dBm)
-5
-13
-5
-13
-5
-13
-5
-13 EIRP Value
(dBm)
-16.37
-17.84
-16.65
-17.7
-15.65
-20.04
-16.01
-18.4 Note: The Conducted Power = EIRP-Array Gain Beam 175 Beam 180 Margin
(dB)
-21.97
-15.44
-22.25
-15.3
-21.25
-17.64
-21.61
-16 Result Pass Pass Pass Pass Pass Pass Pass Pass Beam 185 Beam52+180 Report No.: RF190321C20 Page No. 164 / 170 Report Format Version: 6.1.1 Channel 2278331 QPSK / 1RB 65RB Beam ID Frequency
(GHz) 175 180 185 52+180 40.00010 40.01470 40.00040 40.01430 40.00035 40.00620 40.00025 40.00685 Array Gain
(dBi) 10.51 10.51 10.51 10.51 10.51 10.51 10.51 10.51 Conducted Power
(dBm)
-13.43
-27.92
-15.60
-27.84
-15.43
-27.40
-14.00
-25.83 Limit
(dBm)
-5
-13
-5
-13
-5
-13
-5
-13 EIRP Value
(dBm)
-2.92
-17.41
-5.09
-17.33
-4.92
-16.89
-3.49
-15.32 Note: The Conducted Power = EIRP-Array Gain Beam 175 Beam 180 Margin
(dB)
-8.43
-14.92
-10.6
-14.84
-10.43
-14.4
-9
-12.83 Result Pass Pass Pass Pass Pass Pass Pass Pass Beam 185 Beam52+180 Report No.: RF190321C20 Page No. 165 / 170 Report Format Version: 6.1.1 Channel 2278331 QPSK / 66RB Beam ID Frequency
(GHz) 175 180 185 52+180 40.00010 40.00640 40.00020 40.01030 40.00015 40.00780 40.00080 40.00875 Array Gain
(dBi) 10.51 10.51 10.51 10.51 10.51 10.51 10.51 10.51 Conducted Power
(dBm)
-24.99
-26.53
-26.58
-27.47
-27.05
-27.20
-25.54
-25.28 Limit
(dBm)
-5
-13
-5
-13
-5
-13
-5
-13 EIRP Value
(dBm)
-14.48
-16.02
-16.07
-16.96
-16.54
-16.69
-15.03
-14.77 Note: The Conducted Power = EIRP-Array Gain Beam 175 Beam 180 Margin
(dB)
-19.99
-13.53
-21.58
-14.47
-22.05
-14.2
-20.54
-12.28 Result Pass Pass Pass Pass Pass Pass Pass Pass Beam 185 Beam52+180 Report No.: RF190321C20 Page No. 166 / 170 Report Format Version: 6.1.1 4.6 Frequency Stability Measurement 4.6.1 Limits of Frequency Stability Measurement The frequency stability shall be sufficient to ensure that the fundamental emission stays within the authorized frequency band. 4.6.2 Test Procedure b. Device is placed at the oven room. The oven room could control the temperatures and humidity. Power warm up is at least 15 min and power applied should perform before recording frequency error. c. EUT is connected the external power supply to control the DC input power. The test voltage range is from minimum to maximum working voltage. Each step shall be record the frequency error rate. d. The temperature range step is 10 degrees in this test items. All temperature levels shall be hold the 0.5 during the measurement testing. The each temperature step shall be at least 0.5 hours, consider the EUT could be test under the stability condition. Note: The frequency error was recorded from the communication simulator. 4.6.3 Test Setup Report No.: RF190321C20 Page No. 167 / 170 Report Format Version: 6.1.1 4.6.4 Test Results TEMP.
() 50 40 30 20 10 0
-10
-20
-30 Power Supply
(Vac) 120 120 120 120 120 120 120 120 120 TEMP.
() Power Supply
(Vac) 20 138 102 Frequency Stability Versus Temp. Measured Frequency
(MHz) 38850.240034 38850.240026 38850.240037 38850.240023 38850.240019 38850.240022 38850.240026 38850.240029 38850.240028 Frequency Stability Versus Voltage Measured Frequency(MHz) 38850.240039 38850.240024 Pass/Fail Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass/Fail Pass Pass Report No.: RF190321C20 Page No. 168 / 170 Report Format Version: 6.1.1 5 Pictures of Test Arrangements Please refer to the attached file (Test Setup Photo). Report No.: RF190321C20 Page No. 169 / 170 Report Format Version: 6.1.1 Appendix Information of the Testing Laboratories We, Bureau Veritas Consumer Products Services (H.K.) Ltd., Taoyuan Branch, were founded in 1988 to provide our best service in EMC, Radio, Telecom and Safety consultation. Our laboratories are FCC recognized accredited test firms and accredited according to ISO/IEC 17025. FCC accreditation scope:
Web Site:
https://apps.fcc.gov/oetcf/eas/reports/ViewTestFirmAccredScopes.cfm?calledFromFrame=N&RequestTimeo ut=500®num_specified=N&test_firm_id=7635 If you have any comments, please feel free to contact us at the following:
Lin Kou EMC/RF Lab Tel: 886-2-26052180 Fax: 886-2-26051924 Hwa Ya EMC/RF/Safety Lab Tel: 886-3-3183232 Fax: 886-3-3270892 Email: service.adt@tw.bureauveritas.com Web Site: www.bureauveritas-adt.com Hsin Chu EMC/RF/Telecom Lab Tel: 886-3-6668565 Fax: 886-3-6668323 The address and road map of all our labs can be found in our web site also.
--- END ---
Report No.: RF190321C20 Page No. 170 / 170 Report Format Version: 6.1.1
1 2 3 4 | Channel declaration | Cover Letter(s) | 10.58 KiB | / June 06 2019 |
Netgear Incorporated 350 East Plumeria Drive San Jose California 95134 United States Declaration Date: May 6, 2019 We, Netgear Incorporated, declare that the device, FCC ID: PY319100441, does not support any non-US channels in all the operational mode(s). All non-US frequencies, US 2.4G channel 12-13 and Country code selection are disabled through proprietary software and are not user changeable. Should you have any question or comment regarding this matter, please do not hesitate to contact me. Sincerely yours, _____________________ David Kay / Director, Regulatory Compliance Netgear Incorporated Tel: 4088903160 Fax: 4089078097 E-mail: david.kay@netgear.com
1 2 3 4 | DTS rpeort | Test Report | 1.75 MiB | / June 06 2019 |
FCC Test Report (WLAN) Report No.: RF181004C17 FCC ID: PY318300428 Test Model: MR5000 Received Date: Oct. 04, 2018 Test Date: Nov. 07 to 14, 2018 Issued Date: Nov. 19, 2018 Applicant: NETGEAR INC. Address: 350 East Plumeria Drive, San Jose, CA 95134, USA Issued By: Bureau Veritas Consumer Products Services (H.K.) Ltd., Taoyuan Branch Hsin Chu Laboratory Lab Address: E-2, No.1, Li Hsin 1st Road, Hsinchu Science Park, Hsinchu City 300, Taiwan R.O.C. Test Location: E-2, No.1, Li Hsin 1st Road, Hsinchu Science Park, Hsinchu City 300, FCC Registration /
Designation Number: 723255 / TW2022 Taiwan R.O.C. This report is for your exclusive use. Any copying or replication of this report to or for any other person or entity, or use of our name or trademark, is permitted only with our prior written permission. This report sets forth our findings solely with respect to the test samples identified herein. The results set forth in this report are not indicative or representative of the quality or characteristics of the lot from which a test sample was taken or any similar or identical product unless specifically and expressly noted. Our report includes all of the tests requested by you and the results thereof based upon the information that you provided to us. You have 60 days from date of issuance of this report to notify us of any material error or omission caused by our negligence, provided, however, that such notice shall be in writing and shall specifically address the issue you wish to raise. A failure to raise such issue within the prescribed time shall constitute your unqualified acceptance of the completeness of this report, the tests conducted and the correctness of the report contents. Unless specific mention, the uncertainty of measurement has been explicitly taken into account to declare the compliance or non-compliance to the specification. The report must not be used by the client to claim product certification, approval, or endorsement by TAF or any government agencies. Report No.: RF181004C17 Report Format Version: 6.1.1 Page No. 1 / 62 Table of Contents 4 3 Release Control Record .................................................................................................................................. 4 1 Certificate of Conformity ...................................................................................................................... 5 Summary of Test Results ..................................................................................................................... 6 2 2.1 Measurement Uncertainty ................................................................................................................... 6 2.2 Modification Record ............................................................................................................................ 6 General Information .............................................................................................................................. 7 3.1 General Description of EUT (WLAN) .................................................................................................. 7 3.2 Description of Test Modes ................................................................................................................... 9 3.2.1 Test Mode Applicability and Tested Channel Detail ........................................................................... 10 3.3 Duty Cycle of Test Signal .................................................................................................................. 12 3.4 Description of Support Units ............................................................................................................. 13 3.4.1 Configuration of System under Test .................................................................................................. 14 3.5 General Description of Applied Standards ........................................................................................ 15 Test Types and Results ...................................................................................................................... 16 4.1 Radiated Emission and Bandedge Measurement ............................................................................. 16 4.1.1 Limits of Radiated Emission and Bandedge Measurement .............................................................. 16 4.1.2 Test Instruments ................................................................................................................................ 17 4.1.3 Test Procedures ................................................................................................................................. 18 4.1.4 Deviation from Test Standard ............................................................................................................ 18 4.1.5 Test Setup .......................................................................................................................................... 19 4.1.6 EUT Operating Conditions ................................................................................................................. 20 4.1.7 Test Results ....................................................................................................................................... 21 4.2 Conducted Emission Measurement .................................................................................................. 35 4.2.1 Limits of Conducted Emission Measurement .................................................................................... 35 4.2.2 Test Instruments ................................................................................................................................ 35 4.2.3 Test Procedures ................................................................................................................................. 36 4.2.4 Deviation from Test Standard ............................................................................................................ 36 4.2.5 Test Setup .......................................................................................................................................... 36 4.2.6 EUT Operating Conditions ................................................................................................................. 36 4.2.7 Test Results (Mode 1)........................................................................................................................ 37 4.2.8 Test Results (Mode 2)........................................................................................................................ 39 4.3 6dB Bandwidth Measurement ........................................................................................................... 41 4.3.1 Limits of 6dB Bandwidth Measurement ............................................................................................. 41 4.3.2 Test Setup .......................................................................................................................................... 41 4.3.3 Test Instruments ................................................................................................................................ 41 4.3.4 Test Procedure .................................................................................................................................. 41 4.3.5 Deviation from Test Standard ............................................................................................................ 41 4.3.6 EUT Operating Conditions ................................................................................................................. 41 4.3.7 Test Result ......................................................................................................................................... 42 4.4 Conducted Output Power Measurement ........................................................................................... 44 4.4.1 Limits of Conducted Output Power Measurement ............................................................................ 44 4.4.2 Test Setup .......................................................................................................................................... 44 4.4.3 Test Instruments ................................................................................................................................ 44 4.4.4 Test Procedures ................................................................................................................................. 44 4.4.5 Deviation from Test Standard ............................................................................................................ 44 4.4.6 EUT Operating Conditions ................................................................................................................. 44 4.4.7 Test Results ....................................................................................................................................... 45 4.5 Power Spectral Density Measurement .............................................................................................. 47 4.5.1 Limits of Power Spectral Density Measurement ............................................................................... 47 4.5.2 Test Setup .......................................................................................................................................... 47 4.5.3 Test Instruments ................................................................................................................................ 47 4.5.4 Test Procedure .................................................................................................................................. 47 4.5.5 Deviation from Test Standard ............................................................................................................ 48 Report No.: RF181004C17 Page No. 2 / 62 Report Format Version: 6.1.1 4.5.6 EUT Operating Condition .................................................................................................................. 48 4.5.7 Test Results ....................................................................................................................................... 49 4.6 Conducted Out of Band Emission Measurement .............................................................................. 52 4.6.1 Limits of Conducted Out of Band Emission Measurement................................................................ 52 4.6.2 Test Setup .......................................................................................................................................... 52 4.6.3 Test Instruments ................................................................................................................................ 52 4.6.4 Test Procedure .................................................................................................................................. 52 4.6.5 Deviation from Test Standard ............................................................................................................ 52 4.6.6 EUT Operating Condition .................................................................................................................. 52 4.6.7 Test Results ....................................................................................................................................... 52 Pictures of Test Arrangements .......................................................................................................... 61 5 Appendix Information on the Testing Laboratories ................................................................................ 62 Report No.: RF181004C17 Page No. 3 / 62 Report Format Version: 6.1.1 Release Control Record Issue No. RF181004C17 Description Original release. Date Issued Nov. 19, 2018 Report No.: RF181004C17 Page No. 4 / 62 Report Format Version: 6.1.1 1 Certificate of Conformity Product: 5G MHS Travel Router Brand: Netgear Test Model: MR5000 Sample Status: ENGINEERING SAMPLE Applicant: NETGEAR INC. Test Date: Nov. 07 to 14, 2018 Standards: 47 CFR FCC Part 15, Subpart C (Section 15.247) ANSI C63.10: 2013 The above equipment has been tested by Bureau Veritas Consumer Products Services (H.K.) Ltd., Taoyuan Branch, and found compliance with the requirement of the above standards. The test record, data evaluation & Equipment Under Test (EUT) configurations represented herein are true and accurate accounts of the measurements of the samples EMC characteristics under the conditions specified in this report. Prepared by :
:
Approved by Claire Kuan / Specialist
, Date:
Nov. 19, 2018
, Date:
Nov. 19, 2018 May Chen / Manager Report No.: RF181004C17 Page No. 5 / 62 Report Format Version: 6.1.1 2 Summary of Test Results FCC Clause 47 CFR FCC Part 15, Subpart C (Section 15.247) Test Item Result Remarks 15.207 AC Power Conducted Emission PASS 15.205 /
15.209 /
15.247(d) 15.247(d) 15.247(a)(2) 15.247(b) 15.247(e) 15.203 Radiated Emissions and Band Edge Measurement Antenna Port Emission 6dB bandwidth Conducted power Power Spectral Density Antenna Requirement PASS PASS PASS PASS PASS PASS Meet the requirement of limit. Minimum passing margin is -13.68 dB at 0.15781 MHz. Meet the requirement of limit. Minimum passing margin is -3.0dB at 2390.00MHz. Meet the requirement of limit. Meet the requirement of limit. Meet the requirement of limit. Meet the requirement of limit. There is no antenna connector 2.1 Measurement Uncertainty Where relevant, the following measurement uncertainty levels have been estimated for tests performed on the EUT as specified in CISPR 16-4-2:
Expanded Uncertainty Measurement Conducted Emissions at mains ports Radiated Emissions up to 1 GHz Radiated Emissions above 1 GHz Frequency 150kHz ~ 30MHz 30MHz ~ 1GHz 1GHz ~ 6GHz 6GHz ~ 18GHz 18GHz ~ 40GHz 2.2 Modification Record There were no modifications required for compliance.
(k=2) () 1.84 dB 5.53 dB 5.08 dB 4.98 dB 5.19 dB Report No.: RF181004C17 Page No. 6 / 62 Report Format Version: 6.1.1 3 General Information 3.1 General Description of EUT (WLAN) Product Brand Test Model Status of EUT Power Supply Rating Modulation Type Modulation Technology Transfer Rate Operating Frequency Number of Channel Output Power 5G MHS Travel Router Netgear MR5000 ENGINEERING SAMPLE 5Vdc from power adapter or 5Vdc from USB interface or 3.8V dc from battery CCK, DQPSK, DBPSK for DSSS 64QAM, 16QAM, QPSK, BPSK for OFDM 256QAM for OFDM in 11ac mode and VHT (20/40) mode in 2.4GHz DSSS, OFDM 802.11b: up to 11Mbps 802.11a/g: up to 54Mbps 802.11n: up to 300Mbps 802.11ac: up to 866.7Mbps 2.4GHz: 2.412 ~ 2.462GHz 5GHz: 5.18~ 5.24GHz, 5.745 ~ 5.825GHz 2.4GHz:
802.11b, 802.11g, 802.11n (HT20), VHT20: 11 802.11n (HT40), VHT40: 7 5GHz:
802.11a, 802.11n (HT20), 802.11ac (VHT20): 9 802.11n (HT40), 802.11ac (VHT40): 4 802.11ac (VHT80): 2 2.412 ~ 2.462GHz: 58.084mW 5.18 ~ 5.24GHz: 19.455mW 5.745 ~ 5.825GHz: 19.455mW Refer to Note Refer to Note Adapter x1 , Battery x1 USB cable x 1 (Shielded, 0.95m) Antenna Type Antenna Connector Accessory Device Data Cable Supplied Note:
1. Simultaneously transmission condition. Condition 1 WLAN 2.4GHz 1Tx Technology WLAN 5GHz 1Tx WWAN or 5G NR Note: The emission of the simultaneous operation has been evaluated and no non-compliance was found. 2. The EUT must be supplied with a power adapter or battery as following table:
Items Adapter Battery 3. The antennas provided to the EUT, please refer to the following table:
P/N No. 332-11106-01 308-10084-01 3.85V dc 19.78Wh Spec. Input: 100-240V~50/60Hz 0.5A Output: 5V / 2.0A or 9V /1.8A Brand NETGEAR NETGEAR W-10a Model No. AD2122F20 Antenna Net Gain Frequency rang
(dBi) 2.03 2.59 2.03 2.59
(GHz) 2.4~2.4835 5.15~5.85 2.4~2.4835 5.15~5.85 Antenna type Connector type Internal IFA Internal IFA NA NA Ant No. 1 2 Report No.: RF181004C17 Page No. 7 / 62 Report Format Version: 6.1.1 DATA RATE (MCS) TX & RX CONFIGURATION 2.4GHz Band 4. The EUT incorporates a MIMO function. MODULATION MODE 802.11b 802.11g 802.11n (HT20) 802.11n (HT40) VHT20 VHT40 MODULATION MODE 802.11a 802.11n (HT20) 802.11n (HT40) 802.11ac (VHT20) 802.11ac (VHT40) 802.11ac (VHT80) 1 ~ 11Mbps 6 ~ 54Mbps MCS 0~7 MCS 8~15 MCS 0~7 MCS 8~15 MCS0~8 Nss=1 MCS0~8 Nss=2 MCS0~9 Nss=1 MCS0~9 Nss=2 6 ~ 54Mbps MCS 0~7 MCS 8~15 MCS 0~7 MCS 8~15 MCS0~8 Nss=1 MCS0~8 Nss=2 MCS0~9 Nss=1 MCS0~9 Nss=2 MCS0~9 Nss=1 MCS0~9 Nss=2 2TX 2TX 2TX 2TX 2TX 2TX 2TX 2TX 2TX 2TX 2TX 2TX 2TX 2TX 2TX 2TX 2TX 2TX 2TX 2TX 2TX DATA RATE (MCS) TX & RX CONFIGURATION 5GHz Band 2RX 2RX 2RX 2RX 2RX 2RX 2RX 2RX 2RX 2RX 2RX 2RX 2RX 2RX 2RX 2RX 2RX 2RX 2RX 2RX 2RX 5. The EUT was pre-tested under the following modes:
Test Mode Mode A Mode B Mode C Note: From the above modes, radiated emission the worst case was found in Mode A. Therefore only the test Description With adapter mode With Laptop mode Power from battery data of the mode was recorded in this report. 6. The above EUT information is declared by manufacturer and for more detailed features description, please refer to the manufacturer's specifications or user's manual. Report No.: RF181004C17 Page No. 8 / 62 Report Format Version: 6.1.1 3.2 Description of Test Modes 11 channels are provided for 802.11b, 802.11g and 802.11n (HT20), VHT20:
Channel 1 2 3 4 5 6 Frequency 2412MHz 2417MHz 2422MHz 2427MHz 2432MHz 2437MHz 7 channels are provided for 802.11n (HT40), VHT40:
Channel 3 4 5 6 Frequency 2422MHz 2427MHz 2432MHz 2437MHz Channel 7 8 9 10 11 Channel 7 8 9 Frequency 2442MHz 2447MHz 2452MHz 2457MHz 2462MHz Frequency 2442MHz 2447MHz 2452MHz Report No.: RF181004C17 Page No. 9 / 62 Report Format Version: 6.1.1 3.2.1 Test Mode Applicability and Tested Channel Detail EUT CONFIGURE MODE APPLICABLE TO RE1G RE<1G 1 2
-
-
PLC APCM
-
DESCRIPTION With adapter mode With Laptop mode Where RE1G: Radiated Emission above 1GHz &
Note:
Bandedge Measurement PLC: Power Line Conducted Emission The EUT had been pre-tested on the positioned of each 3 axis. The worst case was found when positioned on X-plane. APCM: Antenna Port Conducted Measurement RE<1G: Radiated Emission below 1GHz Radiated Emission Test (Above 1GHz):
Pre-Scan has been conducted to determine the worst-case mode from all possible combinations between available modulations, data rates and antenna ports (if EUT with antenna diversity architecture). Following channel(s) was (were) selected for the final test as listed below. MODULATION DATA RATE AVAILABLE CHANNEL TESTED CHANNEL MODULATION TECHNOLOGY MODE 802.11b 802.11g VHT20 VHT40 1 to 11 1 to 11 1 to 11 3 to 9 1, 6, 11 1, 6, 11 1, 6, 11 3, 6, 9 DSSS OFDM OFDM OFDM Radiated Emission Test (Below 1GHz):
TYPE DBPSK BPSK BPSK BPSK
(Mbps) 1 6 6.5 13.5 Pre-Scan has been conducted to determine the worst-case mode from all possible combinations between available modulations, data rates and antenna ports (if EUT with antenna diversity architecture). Following channel(s) was (were) selected for the final test as listed below. MODULATION DATA RATE AVAILABLE CHANNEL TESTED CHANNEL MODULATION TECHNOLOGY MODE TYPE BPSK
(Mbps) 6.5 VHT20 1 to 11 11 OFDM Power Line Conducted Emission Test:
Pre-Scan has been conducted to determine the worst-case mode from all possible combinations between available modulations, data rates and antenna ports (if EUT with antenna diversity architecture). Following channel(s) was (were) selected for the final test as listed below. MODULATION DATA RATE AVAILABLE CHANNEL TESTED CHANNEL MODULATION TECHNOLOGY MODE VHT20 1 to 11 11 OFDM TYPE BPSK
(Mbps) 6.5 Report No.: RF181004C17 Page No. 10 / 62 Report Format Version: 6.1.1 Antenna Port Conducted Measurement:
This item includes all test value of each mode, but only includes spectrum plot of worst value of each mode. Pre-Scan has been conducted to determine the worst-case mode from all possible combinations between available modulations, data rates and antenna ports (if EUT with antenna diversity architecture). Following channel(s) was (were) selected for the final test as listed below. MODULATION DATA RATE MODE AVAILABLE CHANNEL TESTED CHANNEL MODULATION TECHNOLOGY 802.11b 802.11g VHT20 VHT40 1 to 11 1 to 11 1 to 11 3 to 9 1, 6, 11 1, 6, 11 1, 6, 11 3, 6, 9 DSSS OFDM OFDM OFDM TYPE DBPSK BPSK BPSK BPSK
(Mbps) 1 6 6.5 13.5 Test Condition:
APPLICABLE TO ENVIRONMENTAL CONDITIONS RE1G RE<1G PLC APCM 24deg. C, 63%RH 23deg. C, 68%RH 25deg. C, 75%RH 25deg. C, 60%RH INPUT POWER 120Vac, 60Hz 120Vac, 60Hz 120Vac, 60Hz 120Vac, 60Hz TESTED BY Rey Chen Andy Ho Andy Ho Anderson Chen Report No.: RF181004C17 Page No. 11 / 62 Report Format Version: 6.1.1 3.3 Duty Cycle of Test Signal If duty cycle of test signal is 98 %, duty factor is not required. If duty cycle of test signal is < 98%, duty factor shall be considered. 802.11b: Duty cycle = 8.172 ms/8.254 ms = 0.99 802.11g: Duty cycle = 1.357 ms/1.412 ms = 0.961, Duty factor = 10 * log (1/Duty cycle) = 0.17 VHT20: Duty cycle = 1.27 ms/1.323 ms = 0.96, Duty factor = 10 * log (1/Duty cycle) = 0.18 VHT40: Duty cycle = 0.632 ms/0.67 ms = 0.943, Duty factor = 10 * log (1/Duty cycle) = 0.25 802.11b 802.11g VHT20 VHT40 Report No.: RF181004C17 Page No. 12 / 62 Report Format Version: 6.1.1 3.4 Description of Support Units The EUT has been tested as an independent unit together with other necessary accessories or support units. The following support units or accessories were used to form a representative test configuration during the tests. ID A. B. Product SIM Card Laptop Note:
1. All power cords of the above support units are non-shielded (1.8m). E6420 Model No. CMW-Z05 Brand R&S DELL Serial No. NA B92T3R1 FCC ID NA FCC DoC Remarks Provided by Lab Provided by Lab ID Descriptions Qty. Length (m) 1. USB type C Cable 0.95 Note: The core(s) is(are) originally attached to the cable(s). 1 Shielding
(Yes/No) Yes Cores (Qty.) Remarks 0 Supplied by client Report No.: RF181004C17 Page No. 13 / 62 Report Format Version: 6.1.1 3.4.1 Configuration of System under Test Adapter mode:
Laptop mode:
Report No.: RF181004C17 Page No. 14 / 62 Report Format Version: 6.1.1 3.5 General Description of Applied Standards The EUT is a RF Product. According to the specifications of the manufacturer, it must comply with the requirements of the following standards:
FCC Part 15, Subpart C (15.247) KDB 558074 D01 15.247 Meas Guidance v05 KDB 662911 D01 Multiple Transmitter Output v02r01 ANSI C63.10-2013 All test items have been performed and recorded as per the above standards. Report No.: RF181004C17 Page No. 15 / 62 Report Format Version: 6.1.1 Test Types and Results 4 4.1 Radiated Emission and Bandedge Measurement 4.1.1 Limits of Radiated Emission and Bandedge Measurement Radiated emissions which fall in the restricted bands must comply with the radiated emission limits specified as below table. Other emissions shall be at least 20dB below the highest level of the desired power:
Frequencies
(MHz) 0.009 ~ 0.490 0.490 ~ 1.705 1.705 ~ 30.0 30 ~ 88 88 ~ 216 216 ~ 960 Above 960 Field Strength
(microvolts/meter) Measurement Distance
(meters) 2400/F(kHz) 24000/F(kHz) 30 100 150 200 500 300 30 30 3 3 3 3 Note:
1. The lower limit shall apply at the transition frequencies. 2. Emission level (dBuV/m) = 20 log Emission level (uV/m). 3. For frequencies above 1000MHz, the field strength limits are based on average detector, however, the peak field strength of any emission shall not exceed the maximum permitted average limits, specified above by more than 20dB under any condition of modulation. Report No.: RF181004C17 Page No. 16 / 62 Report Format Version: 6.1.1 4.1.2 Test Instruments DESCRIPTION &
MANUFACTURER Test Receiver Agilent Pre-Amplifier EMCI Loop Antenna(*) Electro-Metrics RF Cable RF Cable Pre-Amplifier Mini-Circuits Trilog Broadband Antenna SCHWARZBECK RF Cable RF Cable RF Cable Fixed attenuator Mini-Circuits Horn_Antenna SCHWARZBECK Pre-Amplifier EMCI RF Cable RF Cable RF Cable Spectrum Analyzer Keysight Pre-Amplifier EMCI Horn_Antenna SCHWARZBECK RF Cable Software Antenna Tower & Turn Table Max-Full Boresight Antenna Fixture Spectrum Analyzer Agilent Power meter Anritsu Power sensor Anritsu Note:
MODEL NO. SERIAL NO. N9038A MY50010156 CALIBRATED DATE July 12, 2018 CALIBRATED UNTIL July 11, 2019 EMC001340 980142 Feb. 09, 2018 Feb. 08, 2019 EM-6879 NA NA ZFL-1000VH2B VULB 9168 8D 8D 8D UNAT-5+
264 Dec. 16, 2016 Dec. 15, 2018 LOOPCAB-001 Jan. 15, 2018 Jan. 14, 2019 LOOPCAB-002 Jan. 15, 2018 Jan. 14, 2019 AMP-ZFL-05 May 05, 2018 May 04, 2019 9168-361 966-3-1 966-3-2 966-3-3 PAD-3m-3-01 Nov. 29, 2017 Nov. 28, 2018 Mar. 20, 2018 Mar. 19, 2019 Mar. 20, 2018 Mar. 19, 2019 Mar. 20, 2018 Mar. 19, 2019 Sep. 27, 2018 Sep. 26, 2019 BBHA9120-D 9120D-406 Dec. 12, 2017 Dec. 11, 2018 EMC12630SE 980384 EMC104-SM-SM-1200 160922 EMC104-SM-SM-2000 150317 EMC104-SM-SM-5000 150322 N9030A MY54490679 Jan. 29, 2018 Jan. 29, 2018 Jan. 29, 2018 Jan. 29, 2018 July 23, 2018 Jan. 28, 2019 Jan. 28, 2019 Jan. 28, 2019 Jan. 28, 2019 July 22, 2019 EMC184045SE 980386 Jan. 29, 2018 Jan. 28, 2019 BBHA 9170 EMC102-KM-KM-1200 160924 ADT_Radiated_V8.7.08 NA MF-7802 FBA-01 E4446A BBHA9170608 Dec. 14, 2017 Dec. 13, 2018 Jan. 28, 2019 NA NA NA Jan. 29, 2018 NA MF780208406 NA FBA-SIP01 NA MY48250254 Nov. 21, 2017 Nov. 20, 2018 ML2495A MA2411B 1014008 0917122 May 09, 2018 May 08, 2019 May 09, 2018 May 08, 2019 1. The calibration interval of the above test instruments is 12 months and the calibrations are traceable to NML/ROC and NIST/USA. 2. *The calibration interval of the above test instruments is 24 months and the calibrations are traceable to NML/ROC and NIST/USA. 3. The test was performed in 966 Chamber No. 3. 4. The CANADA Site Registration No. is 20331-1 5. Loop antenna was used for all emissions below 30 MHz. 6. Tested Date: Nov. 07 to 14, 2018 Report No.: RF181004C17 Page No. 17 / 62 Report Format Version: 6.1.1 4.1.3 Test Procedures For Radiated emission below 30MHz a. The EUT was placed on the top of a rotating table 0.8 meters above the ground at a 3 meter chamber room. The table was rotated 360 degrees to determine the position of the highest radiation. b. The EUT was set 3 meters away from the interference-receiving antenna, which was mounted on the top of a variable-height antenna tower. c. Parallel, perpendicular, and ground-parallel orientations of the antenna are set to make the measurement. d. For each suspected emission, the EUT was arranged to its worst case and the rotatable table was turned from 0 degrees to 360 degrees to find the maximum reading. e. The test-receiver system was set to Quasi-Peak Detect Function and Specified Bandwidth with Maximum Hold Mode. Note:
1. The resolution bandwidth and video bandwidth of test receiver/spectrum analyzer is 9kHz at frequency below 30MHz. For Radiated emission above 30MHz a. The EUT was placed on the top of a rotating table 0.8 meters (for 30MHz ~ 1GHz) / 1.5 meters (for above 1GHz) above the ground at 3 meter chamber room for test. The table was rotated 360 degrees to determine the position of the highest radiation. b. The EUT was set 3 meters away from the interference-receiving antenna, which was mounted on the top of a variable-height antenna tower. c. The height of antenna is varied from one meter to four meters above the ground to determine the maximum value of the field strength. Both horizontal and vertical polarizations of the antenna are set to make the measurement. d. For each suspected emission, the EUT was arranged to its worst case and then the antenna was tuned to heights from 1 meter to 4 meters and the rotatable table was turned from 0 degrees to 360 degrees to find the maximum reading. e. The test-receiver system was set to quasi-peak detect function and specified bandwidth with maximum f. hold mode when the test frequency is below 1 GHz. The test-receiver system was set to peak and average detects function and specified bandwidth with maximum hold mode when the test frequency is above 1 GHz. If the peak reading value also meets average limit, measurement with the average detector is unnecessary. Note:
1. The resolution bandwidth and video bandwidth of test receiver/spectrum analyzer is 120kHz for Quasi-peak detection (QP) at frequency below 1GHz. 2. The resolution bandwidth of test receiver/spectrum analyzer is 1 MHz and the video bandwidth is 3 MHz for Peak detection (PK) at frequency above 1GHz. 3. The resolution bandwidth of test receiver/spectrum analyzer is 1MHz and the video bandwidth is 1/T
(Duty cycle < 98%) or 10Hz (Duty cycle 98%) for Average detection (AV) at frequency above 1GHz. 4. All modes of operation were investigated and the worst-case emissions are reported. 4.1.4 Deviation from Test Standard No deviation. Report No.: RF181004C17 Page No. 18 / 62 Report Format Version: 6.1.1 4.1.5 Test Setup For Radiated emission below 30MHz 1 m EUT&
Support Units 80cm 3m Turn Table Ground Plane Test Receiver For Radiated emission 30MHz to 1GHz EUT&
Support Units 80cm 3m 10m Turn Table Ant. Tower 1-4m Variable Ground Plane Test Receiver Report No.: RF181004C17 Page No. 19 / 62 Report Format Version: 6.1.1 For Radiated emission above 1GHz EUT&
Support Units 3m Ant. Tower 1-4m Variable Turn Table Absorber 150cm Ground Plane Test Receiver For the actual test configuration, please refer to the attached file (Test Setup Photo). 4.1.6 EUT Operating Conditions a. Connected the EUT with the Laptop which is placed on remote site. b. Controlling software (QDART (4.8.00059)) has been activated to set the EUT on specific status. Report No.: RF181004C17 Page No. 20 / 62 Report Format Version: 6.1.1 4.1.7 Test Results Above 1GHz Data 802.11b CHANNEL TX Channel 1 FREQUENCY RANGE 1GHz ~ 25GHz DETECTOR FUNCTION Peak (PK) Average (AV) NO. 1 2 3 4 5 6 FREQ.
(MHz) 2390.00 2390.00
*2412.00
*2412.00 4824.00 4824.00 NO. FREQ.
(MHz) 1 2 3 4 5 6 2390.00 2390.00
*2412.00
*2412.00 4824.00 4824.00 REMARKS:
(dB) LIMIT MARGIN 74.0 54.0 74.0 54.0
(dBuV/m)
-16.7
-9.3 ANTENNA HEIGHT TABLE ANGLE
(Degree)
(m) 1.55 H 1.55 H 1.55 H 1.55 H 1.70 H 1.70 H ANTENNA POLARITY & TEST DISTANCE: HORIZONTAL AT 3 M RAW EMISSION VALUE LEVEL
(dBuV)
(dBuV/m) 60.0 57.3 PK 47.4 44.7 AV 108.7 106.0 PK 106.3 103.6 AV 38.8 40.4 PK 28.0 AV 26.4 ANTENNA POLARITY & TEST DISTANCE: VERTICAL AT 3 M RAW EMISSION VALUE
(dBuV) 61.2 47.3 103.9 101.2 38.6 26.9 LEVEL
(dBuV/m) 58.5 PK 44.6 AV 101.2 PK 98.5 AV 40.2 PK 28.5 AV
(m) 2.76 V 2.76 V 2.76 V 2.76 V 1.65 V 1.65 V TABLE ANGLE
(Degree) 277 277 277 277 231 231 259 259 259 259 118 118 ANTENNA HEIGHT
-33.8
-25.5
-15.5
-9.4
-33.6
-26.0
(dBuV/m) 74.0 54.0 74.0 54.0 MARGIN LIMIT
(dB) CORRECTION FACTOR
(dB/m)
-2.7
-2.7
-2.7
-2.7 1.6 1.6 CORRECTION FACTOR
(dB/m)
-2.7
-2.7
-2.7
-2.7 1.6 1.6 1. Emission Level(dBuV/m) = Raw Value(dBuV) + Correction Factor(dB/m) 2. Correction Factor(dB/m) = Antenna Factor(dB/m) + Cable Factor(dB) Pre-Amplifier Factor(dB) 3. The other emission levels were very low against the limit. 4. Margin value = Emission Level Limit value 5. " * ": Fundamental frequency. Report No.: RF181004C17 Page No. 21 / 62 Report Format Version: 6.1.1 CHANNEL TX Channel 6 FREQUENCY RANGE 1GHz ~ 25GHz DETECTOR FUNCTION Peak (PK) Average (AV)
(dB) LIMIT MARGIN 74.0 54.0
(dBuV/m)
-17.5
-9.8 ANTENNA HEIGHT TABLE ANGLE
(Degree) 74.0 54.0 74.0 54.0 74.0 54.0
-17.3
-9.7
-33.6
-25.6
-28.2
-19.5 224 224 224 224 224 224 121 121 216 216
(m) 1.56 H 1.56 H 1.56 H 1.56 H 1.56 H 1.56 H 1.70 H 1.70 H 1.67 H 1.67 H ANTENNA POLARITY & TEST DISTANCE: HORIZONTAL AT 3 M RAW EMISSION VALUE LEVEL
(dBuV)
(dBuV/m) 59.2 56.5 PK 46.9 44.2 AV 108.7 105.7 PK 106.1 103.1 AV 59.7 56.7 PK 47.3 44.3 AV 38.8 40.4 PK 26.8 28.4 AV 38.1 45.8 PK 34.5 AV 26.8 ANTENNA POLARITY & TEST DISTANCE: VERTICAL AT 3 M RAW EMISSION VALUE
(dBuV) 59.3 46.8 103.4 101.0 60.1 47.8 38.3 26.3 38.2 26.1 LEVEL
(dBuV/m) 56.6 PK 44.1 AV 100.4 PK 98.0 AV 57.1 PK 44.8 AV 39.9 PK 27.9 AV 45.9 PK 33.8 AV
(m) 2.82 V 2.82 V 2.82 V 2.82 V 2.82 V 2.82 V 1.70 V 1.70 V 1.80 V 1.80 V 274 274 274 274 274 274 220 220 189 189
-16.9
-9.2
-34.1
-26.1
-28.1
-20.2 74.0 54.0 74.0 54.0 74.0 54.0 TABLE ANGLE
(Degree) ANTENNA HEIGHT
-17.4
-9.9
(dBuV/m) 74.0 54.0 MARGIN LIMIT
(dB) CORRECTION FACTOR
(dB/m)
-2.7
-2.7
-3.0
-3.0
-3.0
-3.0 1.6 1.6 7.7 7.7 CORRECTION FACTOR
(dB/m)
-2.7
-2.7
-3.0
-3.0
-3.0
-3.0 1.6 1.6 7.7 7.7 NO. 1 2 3 4 5 6 7 8 9 10 FREQ.
(MHz) 2390.00 2390.00
*2437.00
*2437.00 2483.50 2483.50 4874.00 4874.00 7311.00 7311.00 NO. FREQ.
(MHz) 2390.00 1 2390.00 2
*2437.00 3
*2437.00 4 2483.50 5 2483.50 6 4874.00 7 4874.00 8 7311.00 9 10 7311.00 REMARKS:
1. Emission Level(dBuV/m) = Raw Value(dBuV) + Correction Factor(dB/m) 2. Correction Factor(dB/m) = Antenna Factor(dB/m) + Cable Factor(dB) Pre-Amplifier Factor(dB) 3. The other emission levels were very low against the limit. 4. Margin value = Emission Level Limit value 5. " * ": Fundamental frequency. Report No.: RF181004C17 Page No. 22 / 62 Report Format Version: 6.1.1 CHANNEL TX Channel 11 FREQUENCY RANGE 1GHz ~ 25GHz DETECTOR FUNCTION Peak (PK) Average (AV)
(dB) LIMIT MARGIN
(dBuV/m) ANTENNA HEIGHT TABLE ANGLE
(Degree) 74.0 54.0 74.0 54.0 74.0 54.0
-16.8
-9.4
-33.4
-25.5
-27.8
-19.2 235 235 235 235 125 125 200 200
(m) 1.54 H 1.54 H 1.54 H 1.54 H 1.65 H 1.65 H 1.70 H 1.70 H ANTENNA POLARITY & TEST DISTANCE: HORIZONTAL AT 3 M RAW EMISSION VALUE LEVEL
(dBuV)
(dBuV/m) 108.5 105.5 PK 105.9 102.9 AV 60.2 57.2 PK 47.6 44.6 AV 38.9 40.6 PK 26.8 28.5 AV 38.3 46.2 PK 34.8 AV 26.9 ANTENNA POLARITY & TEST DISTANCE: VERTICAL AT 3 M RAW EMISSION VALUE
(dBuV) 104.0 101.1 62.0 48.0 38.5 26.6 38.1 26.3 LEVEL
(dBuV/m) 101.0 PK 98.1 AV 59.0 PK 45.0 AV 40.2 PK 28.3 AV 46.0 PK 34.2 AV
(m) 2.74 V 2.74 V 2.74 V 2.74 V 1.70 V 1.70 V 1.77 V 1.77 V 268 268 268 268 235 235 200 200
-15.0
-9.0
-33.8
-25.7
-28.0
-19.8 74.0 54.0 74.0 54.0 74.0 54.0 TABLE ANGLE
(Degree) ANTENNA HEIGHT
(dBuV/m) MARGIN LIMIT
(dB) CORRECTION FACTOR
(dB/m)
-3.0
-3.0
-3.0
-3.0 1.7 1.7 7.9 7.9 CORRECTION FACTOR
(dB/m)
-3.0
-3.0
-3.0
-3.0 1.7 1.7 7.9 7.9 NO. 1 2 3 4 5 6 7 8 FREQ.
(MHz)
*2462.00
*2462.00 2483.50 2483.50 4924.00 4924.00 7386.00 7386.00 NO. FREQ.
(MHz) 1 2 3 4 5 6 7 8
*2462.00
*2462.00 2483.50 2483.50 4924.00 4924.00 7386.00 7386.00 REMARKS:
1. Emission Level(dBuV/m) = Raw Value(dBuV) + Correction Factor(dB/m) 2. Correction Factor(dB/m) = Antenna Factor(dB/m) + Cable Factor(dB) Pre-Amplifier Factor(dB) 3. The other emission levels were very low against the limit. 4. Margin value = Emission Level Limit value 5. " * ": Fundamental frequency. Report No.: RF181004C17 Page No. 23 / 62 Report Format Version: 6.1.1 802.11g CHANNEL TX Channel 1 FREQUENCY RANGE 1GHz ~ 25GHz DETECTOR FUNCTION Peak (PK) Average (AV) NO. 1 2 3 4 5 6 FREQ.
(MHz) 2390.00 2390.00
*2412.00
*2412.00 4824.00 4824.00 NO. FREQ.
(MHz) 1 2 3 4 5 6 2390.00 2390.00
*2412.00
*2412.00 4824.00 4824.00 REMARKS:
(dB) LIMIT
-8.6
-7.2 MARGIN 74.0 54.0 74.0 54.0
(dBuV/m) ANTENNA HEIGHT TABLE ANGLE
(Degree)
(m) 1.50 H 1.50 H 1.50 H 1.50 H 1.65 H 1.65 H ANTENNA POLARITY & TEST DISTANCE: HORIZONTAL AT 3 M EMISSION RAW VALUE LEVEL
(dBuV)
(dBuV/m) 68.1 65.4 PK 49.5 46.8 AV 111.6 108.9 PK 100.1 97.4 AV 39.6 41.2 PK 27.3 28.9 AV ANTENNA POLARITY & TEST DISTANCE: VERTICAL AT 3 M RAW EMISSION VALUE
(dBuV) 61.3 47.3 106.7 95.0 38.3 26.3 LEVEL
(dBuV/m) 58.6 PK 44.6 AV 104.0 PK 92.3 AV 39.9 PK 27.9 AV
(m) 2.77 V 2.77 V 2.77 V 2.77 V 1.72 V 1.72 V TABLE ANGLE
(Degree) 274 274 274 274 240 240 235 235 235 235 128 128 ANTENNA HEIGHT
-34.1
-26.1
-32.8
-25.1
-15.4
-9.4
(dBuV/m) 74.0 54.0 74.0 54.0 MARGIN LIMIT
(dB) CORRECTION FACTOR
(dB/m)
-2.7
-2.7
-2.7
-2.7 1.6 1.6 CORRECTION FACTOR
(dB/m)
-2.7
-2.7
-2.7
-2.7 1.6 1.6 1. Emission Level(dBuV/m) = Raw Value(dBuV) + Correction Factor(dB/m) 2. Correction Factor(dB/m) = Antenna Factor(dB/m) + Cable Factor(dB) Pre-Amplifier Factor(dB) 3. The other emission levels were very low against the limit. 4. Margin value = Emission Level Limit value 5. " * ": Fundamental frequency. Report No.: RF181004C17 Page No. 24 / 62 Report Format Version: 6.1.1 CHANNEL TX Channel 6 FREQUENCY RANGE 1GHz ~ 25GHz DETECTOR FUNCTION Peak (PK) Average (AV)
(dB) LIMIT
-9.2
-7.6 MARGIN 74.0 54.0
(dBuV/m) ANTENNA HEIGHT TABLE ANGLE
(Degree) 74.0 54.0 74.0 54.0 74.0 54.0
-10.2
-8.0
-32.6
-25.0
-29.0
-20.5 238 238 238 238 238 238 139 139 193 193
(m) 1.62 H 1.62 H 1.62 H 1.62 H 1.62 H 1.62 H 1.66 H 1.66 H 1.69 H 1.69 H ANTENNA POLARITY & TEST DISTANCE: HORIZONTAL AT 3 M RAW EMISSION VALUE LEVEL
(dBuV)
(dBuV/m) 67.5 64.8 PK 49.1 46.4 AV 112.4 109.4 PK 100.4 97.4 AV 66.8 63.8 PK 49.0 46.0 AV 39.8 41.4 PK 27.4 29.0 AV 37.3 45.0 PK 33.5 AV 25.8 ANTENNA POLARITY & TEST DISTANCE: VERTICAL AT 3 M RAW EMISSION VALUE
(dBuV) 59.9 47.3 106.7 94.8 59.3 47.0 38.1 26.3 38.1 26.3 LEVEL
(dBuV/m) 57.2 PK 44.6 AV 103.7 PK 91.8 AV 56.3 PK 44.0 AV 39.7 PK 27.9 AV 45.8 PK 34.0 AV
(m) 2.79 V 2.79 V 2.79 V 2.79 V 2.79 V 2.79 V 1.74 V 1.74 V 1.72 V 1.72 V 285 285 285 285 285 285 234 234 187 187
-17.7
-10.0
-34.3
-26.1
-28.2
-20.0 74.0 54.0 74.0 54.0 74.0 54.0 TABLE ANGLE
(Degree) ANTENNA HEIGHT
-16.8
-9.4
(dBuV/m) 74.0 54.0 MARGIN LIMIT
(dB) CORRECTION FACTOR
(dB/m)
-2.7
-2.7
-3.0
-3.0
-3.0
-3.0 1.6 1.6 7.7 7.7 CORRECTION FACTOR
(dB/m)
-2.7
-2.7
-3.0
-3.0
-3.0
-3.0 1.6 1.6 7.7 7.7 NO. 1 2 3 4 5 6 7 8 9 10 FREQ.
(MHz) 2390.00 2390.00
*2437.00
*2437.00 2483.50 2483.50 4874.00 4874.00 7311.00 7311.00 NO. FREQ.
(MHz) 2390.00 1 2390.00 2
*2437.00 3
*2437.00 4 2483.50 5 2483.50 6 4874.00 7 4874.00 8 7311.00 9 10 7311.00 REMARKS:
1. Emission Level(dBuV/m) = Raw Value(dBuV) + Correction Factor(dB/m) 2. Correction Factor(dB/m) = Antenna Factor(dB/m) + Cable Factor(dB) Pre-Amplifier Factor(dB) 3. The other emission levels were very low against the limit. 4. Margin value = Emission Level Limit value 5. " * ": Fundamental frequency. Report No.: RF181004C17 Page No. 25 / 62 Report Format Version: 6.1.1 CHANNEL TX Channel 11 FREQUENCY RANGE 1GHz ~ 25GHz DETECTOR FUNCTION Peak (PK) Average (AV)
(dB) LIMIT MARGIN
(dBuV/m) ANTENNA HEIGHT TABLE ANGLE
(Degree) 74.0 54.0 74.0 54.0 74.0 54.0
-9.2
-7.4
-33.0
-25.3
-28.9
-20.5 258 258 258 258 125 125 194 194
(m) 1.61 H 1.61 H 1.61 H 1.61 H 1.66 H 1.66 H 1.66 H 1.66 H ANTENNA POLARITY & TEST DISTANCE: HORIZONTAL AT 3 M RAW EMISSION VALUE LEVEL
(dBuV)
(dBuV/m) 112.8 109.8 PK 101.0 98.0 AV 67.8 64.8 PK 49.6 46.6 AV 39.3 41.0 PK 27.0 28.7 AV 37.2 45.1 PK 33.5 AV 25.6 ANTENNA POLARITY & TEST DISTANCE: VERTICAL AT 3 M RAW EMISSION VALUE
(dBuV) 106.5 95.0 61.9 47.7 38.5 26.5 38.0 26.2 LEVEL
(dBuV/m) 103.5 PK 92.0 AV 58.9 PK 44.7 AV 40.2 PK 28.2 AV 45.9 PK 34.1 AV
(m) 2.83 V 2.83 V 2.83 V 2.83 V 1.79 V 1.79 V 1.68 V 1.68 V 279 279 279 279 218 218 179 179
-15.1
-9.3
-33.8
-25.8
-28.1
-19.9 74.0 54.0 74.0 54.0 74.0 54.0 TABLE ANGLE
(Degree) ANTENNA HEIGHT
(dBuV/m) MARGIN LIMIT
(dB) CORRECTION FACTOR
(dB/m)
-3.0
-3.0
-3.0
-3.0 1.7 1.7 7.9 7.9 CORRECTION FACTOR
(dB/m)
-3.0
-3.0
-3.0
-3.0 1.7 1.7 7.9 7.9 NO. 1 2 3 4 5 6 7 8 FREQ.
(MHz)
*2462.00
*2462.00 2483.50 2483.50 4924.00 4924.00 7386.00 7386.00 NO. FREQ.
(MHz) 1 2 3 4 5 6 7 8
*2462.00
*2462.00 2483.50 2483.50 4924.00 4924.00 7386.00 7386.00 REMARKS:
1. Emission Level(dBuV/m) = Raw Value(dBuV) + Correction Factor(dB/m) 2. Correction Factor(dB/m) = Antenna Factor(dB/m) + Cable Factor(dB) Pre-Amplifier Factor(dB) 3. The other emission levels were very low against the limit. 4. Margin value = Emission Level Limit value 5. " * ": Fundamental frequency. Report No.: RF181004C17 Page No. 26 / 62 Report Format Version: 6.1.1 VHT20 CHANNEL TX Channel 1 FREQUENCY RANGE 1GHz ~ 25GHz DETECTOR FUNCTION Peak (PK) Average (AV) NO. 1 2 3 4 5 6 FREQ.
(MHz) 2390.00 2390.00
*2412.00
*2412.00 4824.00 4824.00 NO. FREQ.
(MHz) 1 2 3 4 5 6 2390.00 2390.00
*2412.00
*2412.00 4824.00 4824.00 REMARKS:
(dB) LIMIT
-9.2
-7.6 MARGIN 74.0 54.0 74.0 54.0
(dBuV/m) ANTENNA HEIGHT TABLE ANGLE
(Degree)
(m) 1.54 H 1.54 H 1.54 H 1.54 H 1.70 H 1.70 H ANTENNA POLARITY & TEST DISTANCE: HORIZONTAL AT 3 M EMISSION RAW VALUE LEVEL
(dBuV)
(dBuV/m) 67.5 64.8 PK 49.1 46.4 AV 111.9 109.2 PK 100.3 97.6 AV 40.1 41.7 PK 27.6 29.2 AV ANTENNA POLARITY & TEST DISTANCE: VERTICAL AT 3 M RAW EMISSION VALUE
(dBuV) 61.2 47.1 106.7 94.9 37.8 26.2 LEVEL
(dBuV/m) 58.5 PK 44.4 AV 104.0 PK 92.2 AV 39.4 PK 27.8 AV
(m) 2.80 V 2.80 V 2.80 V 2.80 V 1.78 V 1.78 V TABLE ANGLE
(Degree) 260 260 260 260 242 242 240 240 240 240 131 131 ANTENNA HEIGHT
-34.6
-26.2
-32.3
-24.8
-15.5
-9.6
(dBuV/m) 74.0 54.0 74.0 54.0 MARGIN LIMIT
(dB) CORRECTION FACTOR
(dB/m)
-2.7
-2.7
-2.7
-2.7 1.6 1.6 CORRECTION FACTOR
(dB/m)
-2.7
-2.7
-2.7
-2.7 1.6 1.6 1. Emission Level(dBuV/m) = Raw Value(dBuV) + Correction Factor(dB/m) 2. Correction Factor(dB/m) = Antenna Factor(dB/m) + Cable Factor(dB) Pre-Amplifier Factor(dB) 3. The other emission levels were very low against the limit. 4. Margin value = Emission Level Limit value 5. " * ": Fundamental frequency. Report No.: RF181004C17 Page No. 27 / 62 Report Format Version: 6.1.1 CHANNEL TX Channel 6 FREQUENCY RANGE 1GHz ~ 25GHz DETECTOR FUNCTION Peak (PK) Average (AV)
(dB) LIMIT
-8.7
-7.3 MARGIN 74.0 54.0
(dBuV/m) ANTENNA HEIGHT TABLE ANGLE
(Degree) 74.0 54.0 74.0 54.0 74.0 54.0
-9.5
-7.6
-32.4
-24.5
-28.5
-20.3 243 243 243 243 243 243 140 140 200 200
(m) 1.61 H 1.61 H 1.61 H 1.61 H 1.61 H 1.61 H 1.66 H 1.66 H 1.72 H 1.72 H ANTENNA POLARITY & TEST DISTANCE: HORIZONTAL AT 3 M RAW EMISSION VALUE LEVEL
(dBuV)
(dBuV/m) 68.0 65.3 PK 49.4 46.7 AV 112.1 109.1 PK 100.2 97.2 AV 67.5 64.5 PK 49.4 46.4 AV 40.0 41.6 PK 27.9 29.5 AV 37.8 45.5 PK 33.7 AV 26.0 ANTENNA POLARITY & TEST DISTANCE: VERTICAL AT 3 M RAW EMISSION VALUE
(dBuV) 59.4 47.0 107.1 95.1 59.5 47.3 37.7 26.0 38.4 26.4 LEVEL
(dBuV/m) 56.7 PK 44.3 AV 104.1 PK 92.1 AV 56.5 PK 44.3 AV 39.3 PK 27.6 AV 46.1 PK 34.1 AV
(m) 2.73 V 2.73 V 2.73 V 2.73 V 2.73 V 2.73 V 1.76 V 1.76 V 1.75 V 1.75 V 260 260 260 260 260 260 222 222 202 202
-17.5
-9.7
-34.7
-26.4
-27.9
-19.9 74.0 54.0 74.0 54.0 74.0 54.0 TABLE ANGLE
(Degree) ANTENNA HEIGHT
-17.3
-9.7
(dBuV/m) 74.0 54.0 MARGIN LIMIT
(dB) CORRECTION FACTOR
(dB/m)
-2.7
-2.7
-3.0
-3.0
-3.0
-3.0 1.6 1.6 7.7 7.7 CORRECTION FACTOR
(dB/m)
-2.7
-2.7
-3.0
-3.0
-3.0
-3.0 1.6 1.6 7.7 7.7 NO. 1 2 3 4 5 6 7 8 9 10 FREQ.
(MHz) 2390.00 2390.00
*2437.00
*2437.00 2483.50 2483.50 4874.00 4874.00 7311.00 7311.00 NO. FREQ.
(MHz) 2390.00 1 2390.00 2
*2437.00 3
*2437.00 4 2483.50 5 2483.50 6 4874.00 7 4874.00 8 7311.00 9 10 7311.00 REMARKS:
1. Emission Level(dBuV/m) = Raw Value(dBuV) + Correction Factor(dB/m) 2. Correction Factor(dB/m) = Antenna Factor(dB/m) + Cable Factor(dB) Pre-Amplifier Factor(dB) 3. The other emission levels were very low against the limit. 4. Margin value = Emission Level Limit value 5. " * ": Fundamental frequency. Report No.: RF181004C17 Page No. 28 / 62 Report Format Version: 6.1.1 CHANNEL TX Channel 11 FREQUENCY RANGE 1GHz ~ 25GHz DETECTOR FUNCTION Peak (PK) Average (AV)
(dB) LIMIT MARGIN
(dBuV/m) ANTENNA HEIGHT TABLE ANGLE
(Degree) 74.0 54.0 74.0 54.0 74.0 54.0
-9.5
-7.7
-32.4
-25.0
-28.9
-20.3 243 243 243 243 126 126 180 180
(m) 1.56 H 1.56 H 1.56 H 1.56 H 1.69 H 1.69 H 1.65 H 1.65 H ANTENNA POLARITY & TEST DISTANCE: HORIZONTAL AT 3 M RAW EMISSION VALUE LEVEL
(dBuV)
(dBuV/m) 112.3 109.3 PK 100.5 97.5 AV 67.5 64.5 PK 49.3 46.3 AV 39.9 41.6 PK 27.3 29.0 AV 37.2 45.1 PK 33.7 AV 25.8 ANTENNA POLARITY & TEST DISTANCE: VERTICAL AT 3 M RAW EMISSION VALUE
(dBuV) 107.5 95.7 62.0 47.7 38.1 26.2 37.3 25.7 LEVEL
(dBuV/m) 104.5 PK 92.7 AV 59.0 PK 44.7 AV 39.8 PK 27.9 AV 45.2 PK 33.6 AV
(m) 2.71 V 2.71 V 2.71 V 2.71 V 1.78 V 1.78 V 1.72 V 1.72 V 267 267 267 267 223 223 172 172
-15.0
-9.3
-34.2
-26.1
-28.8
-20.4 74.0 54.0 74.0 54.0 74.0 54.0 TABLE ANGLE
(Degree) ANTENNA HEIGHT
(dBuV/m) MARGIN LIMIT
(dB) CORRECTION FACTOR
(dB/m)
-3.0
-3.0
-3.0
-3.0 1.7 1.7 7.9 7.9 CORRECTION FACTOR
(dB/m)
-3.0
-3.0
-3.0
-3.0 1.7 1.7 7.9 7.9 NO. 1 2 3 4 5 6 7 8 FREQ.
(MHz)
*2462.00
*2462.00 2483.50 2483.50 4924.00 4924.00 7386.00 7386.00 NO. FREQ.
(MHz) 1 2 3 4 5 6 7 8
*2462.00
*2462.00 2483.50 2483.50 4924.00 4924.00 7386.00 7386.00 REMARKS:
1. Emission Level(dBuV/m) = Raw Value(dBuV) + Correction Factor(dB/m) 2. Correction Factor(dB/m) = Antenna Factor(dB/m) + Cable Factor(dB) Pre-Amplifier Factor(dB) 3. The other emission levels were very low against the limit. 4. Margin value = Emission Level Limit value 5. " * ": Fundamental frequency. Report No.: RF181004C17 Page No. 29 / 62 Report Format Version: 6.1.1 VHT40 CHANNEL TX Channel 3 FREQUENCY RANGE 1GHz ~ 25GHz DETECTOR FUNCTION Peak (PK) Average (AV) NO. 1 2 3 4 5 6 7 8 FREQ.
(MHz) 2390.00 2390.00
*2422.00
*2422.00 4844.00 4844.00 7266.00 7266.00 NO. FREQ.
(MHz) 1 2 3 4 5 6 7 8 2390.00 2390.00
*2422.00
*2422.00 4844.00 4844.00 7266.00 7266.00 REMARKS:
(dB) LIMIT MARGIN 74.0 54.0
(dBuV/m)
-10.1
-3.2 74.0 54.0 74.0 54.0 ANTENNA HEIGHT
-32.9
-25.5
-28.7
-20.3 TABLE ANGLE
(Degree) 240 240 240 240 145 145 178 178
(m) 1.30 H 1.30 H 1.30 H 1.30 H 1.67 H 1.67 H 1.73 H 1.73 H ANTENNA POLARITY & TEST DISTANCE: HORIZONTAL AT 3 M EMISSION RAW VALUE LEVEL
(dBuV)
(dBuV/m) 66.6 63.9 PK 53.5 50.8 AV 109.0 106.1 PK 98.5 95.6 AV 39.5 41.1 PK 26.9 28.5 AV 37.5 45.3 PK 33.7 AV 25.9 ANTENNA POLARITY & TEST DISTANCE: VERTICAL AT 3 M EMISSION RAW VALUE
(dBuV) 61.4 47.2 104.0 93.2 37.8 26.0 37.3 25.8 LEVEL
(dBuV/m) 58.7 PK 44.5 AV 101.1 PK 90.3 AV 39.4 PK 27.6 AV 45.1 PK 33.6 AV
(m) 2.76 V 2.76 V 2.76 V 2.76 V 1.74 V 1.74 V 1.70 V 1.70 V 263 263 263 263 235 235 198 198 TABLE ANGLE
(Degree)
-34.6
-26.4
-28.9
-20.4 ANTENNA HEIGHT 74.0 54.0 74.0 54.0
-15.3
-9.5
(dBuV/m) 74.0 54.0 MARGIN LIMIT
(dB) CORRECTION FACTOR
(dB/m)
-2.7
-2.7
-2.9
-2.9 1.6 1.6 7.8 7.8 CORRECTION FACTOR
(dB/m)
-2.7
-2.7
-2.9
-2.9 1.6 1.6 7.8 7.8 1. Emission Level(dBuV/m) = Raw Value(dBuV) + Correction Factor(dB/m) 2. Correction Factor(dB/m) = Antenna Factor(dB/m) + Cable Factor(dB) Pre-Amplifier Factor(dB) 3. The other emission levels were very low against the limit. 4. Margin value = Emission Level Limit value 5. " * ": Fundamental frequency. Report No.: RF181004C17 Page No. 30 / 62 Report Format Version: 6.1.1 CHANNEL TX Channel 6 FREQUENCY RANGE 1GHz ~ 25GHz DETECTOR FUNCTION Peak (PK) Average (AV)
(dB) LIMIT
-9.6
-3.0 MARGIN 74.0 54.0
(dBuV/m) ANTENNA HEIGHT TABLE ANGLE
(Degree) 74.0 54.0 74.0 54.0 74.0 54.0
-9.0
-5.2
-32.4
-24.8
-29.0
-20.3 243 243 243 243 243 243 144 144 197 197
(m) 1.36 H 1.36 H 1.36 H 1.36 H 1.36 H 1.36 H 1.67 H 1.67 H 1.73 H 1.73 H ANTENNA POLARITY & TEST DISTANCE: HORIZONTAL AT 3 M RAW EMISSION VALUE LEVEL
(dBuV)
(dBuV/m) 67.1 64.4 PK 53.7 51.0 AV 109.7 106.7 PK 99.1 96.1 AV 68.0 65.0 PK 51.8 48.8 AV 40.0 41.6 PK 27.6 29.2 AV 37.3 45.0 PK 33.7 AV 26.0 ANTENNA POLARITY & TEST DISTANCE: VERTICAL AT 3 M RAW EMISSION VALUE
(dBuV) 58.6 46.4 103.9 92.9 59.9 47.2 38.7 26.8 38.2 26.7 LEVEL
(dBuV/m) 55.9 PK 43.7 AV 100.9 PK 89.9 AV 56.9 PK 44.2 AV 40.3 PK 28.4 AV 45.9 PK 34.4 AV
(m) 2.79 V 2.79 V 2.79 V 2.79 V 2.79 V 2.79 V 1.76 V 1.76 V 1.78 V 1.78 V 265 265 265 265 265 265 230 230 179 179
-17.1
-9.8
-33.7
-25.6
-28.1
-19.6 74.0 54.0 74.0 54.0 74.0 54.0 TABLE ANGLE
(Degree) ANTENNA HEIGHT
-18.1
-10.3
(dBuV/m) 74.0 54.0 MARGIN LIMIT
(dB) CORRECTION FACTOR
(dB/m)
-2.7
-2.7
-3.0
-3.0
-3.0
-3.0 1.6 1.6 7.7 7.7 CORRECTION FACTOR
(dB/m)
-2.7
-2.7
-3.0
-3.0
-3.0
-3.0 1.6 1.6 7.7 7.7 NO. 1 2 3 4 5 6 7 8 9 10 FREQ.
(MHz) 2390.00 2390.00
*2437.00
*2437.00 2483.50 2483.50 4874.00 4874.00 7311.00 7311.00 NO. FREQ.
(MHz) 2390.00 1 2390.00 2
*2437.00 3
*2437.00 4 2483.50 5 2483.50 6 4874.00 7 4874.00 8 7311.00 9 10 7311.00 REMARKS:
1. Emission Level(dBuV/m) = Raw Value(dBuV) + Correction Factor(dB/m) 2. Correction Factor(dB/m) = Antenna Factor(dB/m) + Cable Factor(dB) Pre-Amplifier Factor(dB) 3. The other emission levels were very low against the limit. 4. Margin value = Emission Level Limit value 5. " * ": Fundamental frequency. Report No.: RF181004C17 Page No. 31 / 62 Report Format Version: 6.1.1 CHANNEL TX Channel 9 FREQUENCY RANGE 1GHz ~ 25GHz DETECTOR FUNCTION Peak (PK) Average (AV)
(dB) LIMIT MARGIN
(dBuV/m) ANTENNA HEIGHT TABLE ANGLE
(Degree) 74.0 54.0 74.0 54.0 74.0 54.0
-9.1
-5.1
-32.9
-25.4
-29.3
-21.0 254 254 254 254 133 133 193 193
(m) 1.31 H 1.31 H 1.31 H 1.31 H 1.71 H 1.71 H 1.71 H 1.71 H ANTENNA POLARITY & TEST DISTANCE: HORIZONTAL AT 3 M RAW EMISSION VALUE LEVEL
(dBuV)
(dBuV/m) 109.4 106.4 PK 98.8 95.8 AV 67.9 64.9 PK 51.9 48.9 AV 39.4 41.1 PK 26.9 28.6 AV 36.8 44.7 PK 33.0 AV 25.1 ANTENNA POLARITY & TEST DISTANCE: VERTICAL AT 3 M RAW EMISSION VALUE
(dBuV) 103.9 93.1 62.3 47.9 37.6 26.0 38.0 26.3 LEVEL
(dBuV/m) 100.9 PK 90.1 AV 59.3 PK 44.9 AV 39.3 PK 27.7 AV 45.9 PK 34.2 AV
(m) 2.74 V 2.74 V 2.74 V 2.74 V 1.80 V 1.80 V 1.70 V 1.70 V 274 274 274 274 229 229 203 203
-14.7
-9.1
-34.7
-26.3
-28.1
-19.8 74.0 54.0 74.0 54.0 74.0 54.0 TABLE ANGLE
(Degree) ANTENNA HEIGHT
(dBuV/m) MARGIN LIMIT
(dB) CORRECTION FACTOR
(dB/m)
-3.0
-3.0
-3.0
-3.0 1.7 1.7 7.9 7.9 CORRECTION FACTOR
(dB/m)
-3.0
-3.0
-3.0
-3.0 1.7 1.7 7.9 7.9 NO. 1 2 3 4 5 6 7 8 FREQ.
(MHz)
*2452.00
*2452.00 2483.50 2483.50 4904.00 4904.00 7356.00 7356.00 NO. FREQ.
(MHz) 1 2 3 4 5 6 7 8
*2452.00
*2452.00 2483.50 2483.50 4904.00 4904.00 7356.00 7356.00 REMARKS:
1. Emission Level(dBuV/m) = Raw Value(dBuV) + Correction Factor(dB/m) 2. Correction Factor(dB/m) = Antenna Factor(dB/m) + Cable Factor(dB) Pre-Amplifier Factor(dB) 3. The other emission levels were very low against the limit. 4. Margin value = Emission Level Limit value 5. " * ": Fundamental frequency. Report No.: RF181004C17 Page No. 32 / 62 Report Format Version: 6.1.1 Below 1GHz Data:
VHT20 CHANNEL TX Channel 11 FREQUENCY RANGE 9kHz ~ 1GHz DETECTOR FUNCTION Quasi-Peak (QP) NO. FREQ.
(MHz) 1 2 3 4 5 6 42.17 164.49 222.93 322.38 540.73 800.45 REMARKS:
(dB) LIMIT MARGIN
(dBuV/m) ANTENNA HEIGHT ANTENNA POLARITY & TEST DISTANCE: HORIZONTAL AT 3 M RAW EMISSION VALUE
(dBuV) 37.1 44.3 39.3 31.9 29.8 29.9 LEVEL
(dBuV/m) 29.0 QP 36.2 QP 28.5 QP 25.8 QP 28.4 QP 33.6 QP
(m) 3.00 H 1.91 H 3.00 H 2.50 H 1.50 H 1.00 H
-11.0
-7.3
-17.5
-20.2
-17.6
-12.4 40.0 43.5 46.0 46.0 46.0 46.0 TABLE ANGLE
(Degree) 265 53 118 193 247 261 CORRECTION FACTOR
(dB/m)
-8.1
-8.1
-10.8
-6.1
-1.4 3.7 1. Emission Level(dBuV/m) = Raw Value(dBuV) + Correction Factor(dB/m) 2. Correction Factor(dB/m) = Antenna Factor(dB/m) + Cable Factor(dB) Pre-Amplifier Factor(dB) 3. Margin value = Emission Level Limit value 4. The emission levels were very low against the limit of frequency range 9kHz~30MHz: the amplitude of spurious emissions attenuated more than 20 dB below the permissible value to be report. Report No.: RF181004C17 Page No. 33 / 62 Report Format Version: 6.1.1 CHANNEL TX Channel 11 FREQUENCY RANGE 9kHz ~ 1GHz DETECTOR FUNCTION Quasi-Peak (QP)
(dB) LIMIT MARGIN
(dBuV/m) ANTENNA HEIGHT ANTENNA POLARITY & TEST DISTANCE: VERTICAL AT 3 M RAW EMISSION VALUE
(dBuV) 46.9 45.4 31.2 29.8 30.4 28.9 LEVEL
(dBuV/m) 36.0 QP 37.1 QP 22.9 QP 26.7 QP 31.6 QP 32.4 QP
(m) 1.01 V 1.50 V 2.00 V 1.00 V 1.50 V 1.50 V
-4.0
-6.4
-23.1
-19.3
-14.4
-13.6 40.0 43.5 46.0 46.0 46.0 46.0 TABLE ANGLE
(Degree) 6 119 241 243 247 311 CORRECTION FACTOR
(dB/m)
-10.9
-8.3
-8.3
-3.1 1.2 3.5 NO. FREQ.
(MHz) 1 2 3 4 5 6 73.64 168.71 265.06 443.03 640.49 762.54 REMARKS:
1. Emission Level(dBuV/m) = Raw Value(dBuV) + Correction Factor(dB/m) 2. Correction Factor(dB/m) = Antenna Factor(dB/m) + Cable Factor(dB) Pre-Amplifier Factor(dB) 3. Margin value = Emission Level Limit value 4. The emission levels were very low against the limit of frequency range 9kHz~30MHz: the amplitude of spurious emissions attenuated more than 20 dB below the permissible value to be report. Report No.: RF181004C17 Page No. 34 / 62 Report Format Version: 6.1.1 4.2 Conducted Emission Measurement 4.2.1 Limits of Conducted Emission Measurement Frequency (MHz) 0.15 - 0.5 0.50 - 5.0 5.0 - 30.0 Quasi-peak 66 - 56 56 60 Conducted Limit (dBuV) Average 56 - 46 46 50 Note: 1. The lower limit shall apply at the transition frequencies. 2. The limit decreases in line with the logarithm of the frequency in the range of 0.15 to 0.50MHz. 4.2.2 Test Instruments DESCRIPTION &
MANUFACTURER Test Receiver R&S Line-Impedance Stabilization Network (for EUT) R&S Line-Impedance Stabilization Network
(for Peripheral) R&S 50 ohms Terminator RF Cable Fixed attenuator EMCI Software BVADT Note:
MODEL NO. SERIAL NO. ESCS 30 847124/029 CALIBRATED DATE Oct. 24, 2018 CALIBRATED UNTIL Oct. 23, 2019 ESH3-Z5 848773/004 Nov. 15, 2017 Nov. 14, 2018 ENV216 100072 June 04, 2018 June 03, 2019 N/A 5D-FB 3 COCCAB-001 Oct. 22, 2018 Sep. 28, 2018 Oct. 21, 2019 Sep. 27, 2019 STI02-2200-10 003 BVADT_Cond_ V7.3.7.4 NA Mar. 16, 2018 Mar. 15, 2019 NA NA 1. The calibration interval of the above test instruments are 12 months and the calibrations are traceable to NML/ROC and NIST/USA. 2. The test was performed in Conduction 1. 3. Tested Date: Nov. 08, 2018 Report No.: RF181004C17 Page No. 35 / 62 Report Format Version: 6.1.1 4.2.3 Test Procedures a. The EUT was placed 0.4 meters from the conducting wall of the shielded room with EUT being connected to the power mains through a line impedance stabilization network (LISN). Other support units were connected to the power mains through another LISN. The two LISNs provide 50 ohm/ 50uH of coupling impedance for the measuring instrument. b. Both lines of the power mains connected to the EUT were checked for maximum conducted interference. c. The frequency range from 150kHz to 30MHz was searched. Emission levels under (Limit - 20dB) was not recorded. Note: The resolution bandwidth and video bandwidth of test receiver is 9kHz for quasi-peak detection (QP) and average detection (AV) at frequency 0.15MHz-30MHz. 4.2.4 Deviation from Test Standard No deviation. 4.2.5 Test Setup Vertical Ground Reference Plane 40cm EUT Test Receiver LISN 80cm Note: 1.Support units were connected to second LISN. Horizontal Ground Reference Plane For the actual test configuration, please refer to the attached file (Test Setup Photo). 4.2.6 EUT Operating Conditions Same as 4.1.6. Report No.: RF181004C17 Page No. 36 / 62 Report Format Version: 6.1.1 4.2.7 Test Results (Mode 1) Phase Line (L) Detector Function Quasi-Peak (QP) /
Average (AV) Corr. Factor
(dB) 10.03 10.03 10.05 10.05 10.10 10.28 Reading Value Emission Level
[dB (uV)]
[dB (uV)]
Limit
[dB (uV)]
Margin
(dB) Q.P. 38.98 38.70 33.60 31.07 21.63 11.26 AV. 12.74 11.75 8.35 4.78 5.84
-4.27 Q.P. 49.01 48.73 43.65 41.12 31.73 21.54 AV. 22.77 21.78 18.40 14.83 15.94 6.01 Q.P. 65.79 65.38 63.74 62.81 56.00 56.00 AV. 55.79 55.38 53.74 52.81 46.00 46.00 Q.P.
-16.78
-16.65
-20.09
-21.69
-24.27
-34.46 AV.
-33.02
-33.60
-35.34
-37.98
-30.06
-39.99 No 1 2 3 4 5 6 Freq.
[MHz]
0.15391 0.16172 0.19687 0.22031 0.66172 3.44531 Remarks:
1. Q.P. and AV. are abbreviations of quasi-peak and average individually. 2. The emission levels of other frequencies were very low against the limit. 3. Margin value = Emission level Limit value 4. Correction factor = Insertion loss + Cable loss 5. Emission Level = Correction Factor + Reading Value Report No.: RF181004C17 Page No. 37 / 62 Report Format Version: 6.1.1 Phase No 1 2 3 4 5 6 Neutral (N) Detector Function Quasi-Peak (QP) /
Average (AV) Freq.
[MHz]
0.16172 0.18516 0.20078 0.22422 0.67344 3.23438 Corr. Factor
(dB) 9.94 9.95 9.95 9.95 9.99 10.13 Reading Value Emission Level
[dB (uV)]
[dB (uV)]
Limit
[dB (uV)]
Margin
(dB) Q.P. 38.63 33.68 33.56 30.69 22.92 9.98 AV. 13.33 10.41 9.96 6.00 5.53
-6.55 Q.P. 48.57 43.63 43.51 40.64 32.91 20.11 AV. 23.27 20.36 19.91 15.95 15.52 3.58 Q.P. 65.38 64.25 63.58 62.66 56.00 56.00 AV. 55.38 54.25 53.58 52.66 46.00 46.00 Q.P.
-16.81
-20.62
-20.07
-22.02
-23.09
-35.89 AV.
-32.11
-33.89
-33.67
-36.71
-30.48
-42.42 Remarks:
1. Q.P. and AV. are abbreviations of quasi-peak and average individually. 2. The emission levels of other frequencies were very low against the limit. 3. Margin value = Emission level Limit value 4. Correction factor = Insertion loss + Cable loss 5. Emission Level = Correction Factor + Reading Value Report No.: RF181004C17 Page No. 38 / 62 Report Format Version: 6.1.1 4.2.8 Test Results (Mode 2) Phase Line (L) Detector Function Quasi-Peak (QP) /
Average (AV) Corr. Factor
(dB) 10.02 10.04 10.05 10.08 10.10 10.23 Reading Value Emission Level
[dB (uV)]
[dB (uV)]
Limit
[dB (uV)]
Margin
(dB) Q.P. 34.74 33.31 32.07 20.85 18.47 14.07 AV. 19.59 20.82 10.98 12.00 6.38 8.53 Q.P. 44.76 43.35 42.12 30.93 28.57 24.30 AV. 29.61 30.86 21.03 22.08 16.48 18.76 Q.P. 66.00 64.08 61.45 56.00 56.00 56.00 AV. 56.00 54.08 51.45 46.00 46.00 46.00 Q.P.
-21.24
-20.73
-19.33
-25.07
-27.43
-31.70 AV.
-26.39
-23.22
-30.42
-23.92
-29.52
-27.24 No 1 2 3 4 5 6 Freq.
[MHz]
0.15000 0.18906 0.25938 0.57969 0.80234 3.47266 Remarks:
1. Q.P. and AV. are abbreviations of quasi-peak and average individually. 2. The emission levels of other frequencies were very low against the limit. 3. Margin value = Emission level Limit value 4. Correction factor = Insertion loss + Cable loss 5. Emission Level = Correction Factor + Reading Value Report No.: RF181004C17 Page No. 39 / 62 Report Format Version: 6.1.1 Phase No 1 2 3 4 5 6 Neutral (N) Detector Function Quasi-Peak (QP) /
Average (AV) Freq.
[MHz]
0.15781 0.20859 0.27109 0.59531 0.79453 8.90234 Corr. Factor
(dB) 9.93 9.94 9.95 9.97 9.98 10.33 Reading Value Emission Level
[dB (uV)]
[dB (uV)]
Limit
[dB (uV)]
Margin
(dB) Q.P. 41.97 25.56 29.53 19.99 18.71 12.31 AV. 25.91 11.44 8.95 11.15 6.42 7.31 Q.P. 51.90 35.50 39.48 29.96 28.69 22.64 AV. 35.84 21.38 18.90 21.12 16.40 17.64 Q.P. 65.58 63.26 61.08 56.00 56.00 60.00 AV. 55.58 53.26 51.08 46.00 46.00 50.00 Q.P.
-13.68
-27.76
-21.60
-26.04
-27.31
-37.36 AV.
-19.74
-31.88
-32.18
-24.88
-29.60
-32.36 Remarks:
1. Q.P. and AV. are abbreviations of quasi-peak and average individually. 2. The emission levels of other frequencies were very low against the limit. 3. Margin value = Emission level Limit value 4. Correction factor = Insertion loss + Cable loss 5. Emission Level = Correction Factor + Reading Value Report No.: RF181004C17 Page No. 40 / 62 Report Format Version: 6.1.1 6dB Bandwidth Measurement 4.3 4.3.1 Limits of 6dB Bandwidth Measurement The minimum of 6dB Bandwidth Measurement is 0.5 MHz. 4.3.2 Test Setup 4.3.3 Test Instruments EUT Attenuator Spectrum Analyzer Refer to section 4.1.2 to get information of above instrument. 4.3.4 Test Procedure a. Set resolution bandwidth (RBW) = 100kHz b. Set the video bandwidth (VBW) 3 x RBW, Detector = Peak. c. Trace mode = max hold. d. Sweep = auto couple. e. Measure the maximum width of the emission that is constrained by the frequencies associated with the two amplitude points (upper and lower) that are attenuated by 6 dB relative to the maximum level measured in the fundamental emission 4.3.5 Deviation from Test Standard No deviation. 4.3.6 EUT Operating Conditions The software provided by client to enable the EUT under transmission condition continuously at lowest, middle and highest channel frequencies individually. Report No.: RF181004C17 Page No. 41 / 62 Report Format Version: 6.1.1 4.3.7 Test Result 802.11b Channel 1 6 11 802.11g Channel 1 6 11 VHT20 Channel 1 6 11 VHT40 Channel 3 6 9 Frequency
(MHz) 2412 2437 2462 Frequency
(MHz) 2412 2437 2462 Frequency
(MHz) 2412 2437 2462 Frequency
(MHz) 2422 2437 2452 6dB Bandwidth (MHz) Chain 0 7.06 7.09 7.09 Chain 1 7.07 7.03 6.62 Minimum Limit
(MHz) Pass / Fail 0.5 0.5 0.5 Pass Pass Pass 6dB Bandwidth (MHz) Chain 0 15.19 15.19 15.18 Chain 1 15.16 15.15 15.32 Minimum Limit
(MHz) Pass / Fail 0.5 0.5 0.5 Pass Pass Pass 6dB Bandwidth (MHz) Chain 0 15.19 15.20 15.53 Chain 1 15.18 15.40 15.34 Minimum Limit
(MHz) Pass / Fail 0.5 0.5 0.5 Pass Pass Pass 6dB Bandwidth (MHz) Chain 0 33.86 35.08 31.47 Chain 1 35.08 35.07 32.66 Minimum Limit
(MHz) Pass / Fail 0.5 0.5 0.5 Pass Pass Pass Report No.: RF181004C17 Page No. 42 / 62 Report Format Version: 6.1.1 802.11b_Chain 1 / CH11 802.11g_Chain 1 / CH6 Spectrum Plot of Worst Value VHT40_Chain 0 / CH9 VHT20_Chain 1 / CH1 Report No.: RF181004C17 Page No. 43 / 62 Report Format Version: 6.1.1 4.4 Conducted Output Power Measurement 4.4.1 Limits of Conducted Output Power Measurement For systems using digital modulation in the 24002483.5 MHz bands: 1 Watt (30dBm) Per KDB 662911 D01 Multiple Transmitter Output Method of conducted output power measurement on IEEE 802.11 devices, Array Gain = 0 dB (i.e., no array gain) for NANT 4;
Array Gain = 0 dB (i.e., no array gain) for channel widths 40 MHz for any NANT;
Array Gain = 5 log(NANT/NSS) dB or 3 dB, whichever is less for 20-MHz channel widths with NANT 5. For power measurements on all other devices: Array Gain = 10 log(NANT/NSS) dB. 4.4.2 Test Setup 4.4.3 Test Instruments Power Sensor Attenuator EUT Power Meter Refer to section 4.1.2 to get information of above instrument. 4.4.4 Test Procedures A peak power sensor was used on the output port of the EUT. A power meter was used to read the response of the peak power sensor. Record the power level. Average power sensor was used to perform output power measurement, trigger and gating function of wide band power meter is enabled to measure max output power of TX on burst. Duty factor is not added to measured value. 4.4.5 Deviation from Test Standard No deviation. 4.4.6 EUT Operating Conditions Same as Item 4.3.6. Report No.: RF181004C17 Page No. 44 / 62 Report Format Version: 6.1.1 Total Power
(mW) 32.289 30.383 33.155 Total Power
(mW) 56.303 55.66 56.628 Total Power
(mW) 56.176 55.469 58.084 Total Power
(mW) 57.682 57.681 52.308 Total Power
(dBm) 15.09 14.83 15.21 Total Power
(dBm) 17.51 17.46 17.53 Total Power
(dBm) 17.50 17.44 17.64 Total Power
(dBm) 17.61 17.61 17.19 Limit
(dBm) 30.00 30.00 30.00 Limit
(dBm) 30.00 30.00 30.00 Limit
(dBm) 30.00 30.00 30.00 Limit
(dBm) 30.00 30.00 30.00 Pass / Fail Pass Pass Pass Pass / Fail Pass Pass Pass Pass / Fail Pass Pass Pass Pass / Fail Pass Pass Pass Peak Power (dBm) Chain 0 12.04 11.72 12.16 Chain 1 12.12 11.91 12.23 Peak Power (dBm) Chain 0 14.48 14.41 14.51 Chain 1 14.51 14.48 14.53 Peak Power (dBm) Chain 0 14.44 14.39 14.68 Chain 1 14.53 14.47 14.58 Peak Power (dBm) Chain 0 14.57 14.61 14.12 Chain 1 14.63 14.59 14.23 4.4.7 Test Results FOR PEAK POWER 802.11b Freq.
(MHz) 2412 2437 2462 Freq.
(MHz) 2412 2437 2462 Freq.
(MHz) 2412 2437 2462 Freq.
(MHz) 2422 2437 2452 Chan. 1 6 11 802.11g Chan. 1 6 11 VHT20 Chan. 1 6 11 VHT40 Chan. 3 6 9 Report No.: RF181004C17 Page No. 45 / 62 Report Format Version: 6.1.1 FOR AVERAGE POWER 802.11b Chan. Frequency
(MHz) Avg. Power (dBm) Chain 0 Chain 1 Total Power
(mW) Total Power
(dBm) 1 6 11 802.11g 2412 2437 2462 9.88 9.91 9.85 9.83 9.92 9.81 19.343 19.612 19.233 12.87 12.93 12.84 Chan. Frequency
(MHz) Avg. Power (dBm) Chain 0 Chain 1 Total Power
(mW) Total Power
(dBm) 1 6 11 VHT20 2412 2437 2462 9.69 9.87 9.85 9.72 9.86 9.81 18.687 19.388 19.233 12.72 12.88 12.84 Chan. Frequency
(MHz) Avg. Power (dBm) Chain 0 Chain 1 Total Power
(mW) Total Power
(dBm) 1 6 11 VHT40 2412 2437 2462 9.82 9.85 9.83 9.85 9.84 9.81 19.255 19.299 19.188 12.85 12.86 12.83 Chan. Frequency
(MHz) Avg. Power (dBm) Chain 0 Chain 1 Total Power
(mW) Total Power
(dBm) 3 6 9 2422 2437 2452 9.85 9.77 9.72 9.86 9.71 9.76 19.344 18.838 18.838 12.87 12.75 12.75 Report No.: RF181004C17 Page No. 46 / 62 Report Format Version: 6.1.1 4.5 Power Spectral Density Measurement 4.5.1 Limits of Power Spectral Density Measurement The Maximum of Power Spectral Density Measurement is 8dBm in any 3 kHz. 4.5.2 Test Setup 4.5.3 Test Instruments EUT 4.5.4 Test Procedure For 802.11b Attenuator Spectrum Analyzer Refer to section 4.1.2 to get information of above instrument. a. Set instrument center frequency to DTS channel center frequency. b. Set span to at least 1.5 times the OBW. c. Set RBW to: 3 kHz RBW 100 kHz. d. Set VBW 3 x RBW. e. Detector = power averaging (RMS) or sample detector (when RMS not available). f. Ensure that the number of measurement points in the sweep 2 x span/RBW. g. Sweep time = auto couple. h. Employ trace averaging (RMS) mode over a minimum of 100 traces. i. Use the peak marker function to determine the maximum amplitude level. For, 802.11g, VHT20, VHT40 a. Measure the duty cycle (x). b. Set instrument center frequency to DTS channel center frequency. c. Set span to at least 1.5 times the OBW. d. Set RBW to: 3 kHz RBW 100 kHz.. e. Set VBW 3 x RBW. f. Detector = power averaging (RMS) or sample detector (when RMS not available). g. Ensure that the number of measurement points in the sweep 2 x span/RBW. h. Sweep time = auto couple. i. Do not use sweep triggering. Allow sweep to free run. j. Employ trace averaging (RMS) mode over a minimum of 100 traces. k. Use the peak marker function to determine the maximum amplitude level. l. Add 10 log (1/x), where x is the duty cycle measured in step (a, to the measured PSD to compute the average PSD during the actual transmission time. Report No.: RF181004C17 Page No. 47 / 62 Report Format Version: 6.1.1 4.5.5 Deviation from Test Standard No deviation. 4.5.6 EUT Operating Condition Same as Item 4.3.6 Report No.: RF181004C17 Page No. 48 / 62 Report Format Version: 6.1.1 4.5.7 Test Results 802.11b TX chain Channel 0 1 1 6 11 1 6 11 Freq.
(MHz) 2412 2437 2462 2412 2437 2462 PSD
(dBm/3kHz)
-11.42
-10.58
-11.22
-11.87
-11.44
-11.81 10 log (N=2) dB 3.01 3.01 3.01 3.01 3.01 3.01 Total PSD
(dBm/3kHz) Limit
(dBm/3kHz)
-8.41
-7.57
-8.21
-8.86
-8.43
-8.80 8 8 8 8 8 8 Pass
/Fail Pass Pass Pass Pass Pass Pass Note: 1. The directional gain = 2.3dBi + 10log(2) = 5.04dBi < 6dBi, so the power density limit shall not be reduced. 802.11g TX chain Channel 0 1 1 6 11 1 6 11 Freq.
(MHz) 2412 2437 2462 2412 2437 2462 PSD W/O Duty Factor
(dBm/3kHz)
-14.20
-14.88
-14.55
-14.33
-14.33
-14.61 10 log
(N=2) dB 3.01 3.01 3.01 3.01 3.01 3.01 Duty Factor
(dB) 0.17 0.17 0.17 0.17 0.17 0.17 Total PSD With Duty Factor
(dBm/3kHz) Limit
(dBm/3kHz)
-11.19
-11.87
-11.54
-11.32
-11.32
-11.60 8 8 8 8 8 8 Pass
/Fail Pass Pass Pass Pass Pass Pass Note: 1. The directional gain = 2.3dBi + 10log(2) = 5.04dBi < 6dBi, so the power density limit shall not be reduced. 2. Refer to section 3.3 for duty cycle spectrum plot. Report No.: RF181004C17 Page No. 49 / 62 Report Format Version: 6.1.1 VHT20 TX chain Channel 0 1 1 6 11 1 6 11 Freq.
(MHz) 2412 2437 2462 2412 2437 2462 Duty Factor
(dB) 0.18 0.18 0.18 0.18 0.18 0.18 10 log
(N=2) dB 3.01 3.01 3.01 3.01 3.01 3.01 Pass
/Fail Pass Pass Pass Pass Pass Pass Total PSD With Duty Factor
(dBm/3kHz) Limit
(dBm/3kHz)
-12.05
-12.04
-11.33
-11.10
-10.94
-11.34 8 8 8 8 8 8 PSD W/O Duty Factor
(dBm/3kHz)
-15.06
-15.05
-14.34
-14.11
-13.95
-14.35 Note: 1. The directional gain = 2.3dBi + 10log(2) = 5.04dBi < 6dBi, so the power density limit shall not be reduced. 2. Refer to section 3.3 for duty cycle spectrum plot. VHT40 TX chain Channel 0 1 3 6 9 3 6 9 Freq.
(MHz) 2422 2437 2452 2422 2437 2452 PSD W/O Duty Factor
(dBm/3kHz)
-17.77
-15.62
-13.78
-15.28
-17.27
-17.60 10 log
(N=2) dB 3.01 3.01 3.01 3.01 3.01 3.01 Duty Factor
(dB) 0.25 0.25 0.25 0.25 0.25 0.25 Total PSD With Duty Factor
(dBm/3kHz) Limit
(dBm/3kHz)
-14.76
-12.61
-10.77
-12.27
-14.26
-14.59 8 8 8 8 8 8 Pass
/Fail Pass Pass Pass Pass Pass Pass Note: 1. The directional gain = 2.3dBi + 10log(2) = 5.04dBi < 6dBi, so the power density limit shall not be reduced. 2. Refer to section 3.3 for duty cycle spectrum plot. Report No.: RF181004C17 Page No. 50 / 62 Report Format Version: 6.1.1 802.11b_Chain 0 / CH6 802.11g_Chain 0 / CH1 Spectrum Plot of Worst Value VHT40_Chain 0 / CH9 VHT20_Chain 1 / CH6 Report No.: RF181004C17 Page No. 51 / 62 Report Format Version: 6.1.1 4.6 Conducted Out of Band Emission Measurement 4.6.1 Limits of Conducted Out of Band Emission Measurement EUT Attenuator Spectrum Analyzer Below 20dB of the highest emission level of operating band (in 100kHz Resolution Bandwidth). 4.6.2 Test Setup 4.6.3 Test Instruments Refer to section 4.1.2 to get information of above instrument. 4.6.4 Test Procedure MEASUREMENT PROCEDURE REF 1. Set the RBW = 100 kHz. 2. Set the VBW 300 kHz. 3. Detector = peak. 4. Sweep time = auto couple. 5. Trace mode = max hold. 6. Allow trace to fully stabilize. 7. Use the peak marker function to determine the maximum power level in any 100 kHz band segment within the fundamental EBW. MEASUREMENT PROCEDURE OOBE 1. Set RBW = 100 kHz. 2. Set VBW 300 kHz. 3. Detector = peak. 4. Sweep = auto couple. 5. Trace Mode = max hold. 6. Allow trace to fully stabilize. 7. Use the peak marker function to determine the maximum amplitude level. 4.6.5 Deviation from Test Standard No deviation. 4.6.6 EUT Operating Condition Same as Item 4.3.6 4.6.7 Test Results The spectrum plots are attached on the following pages. D1 line indicates the highest level, and D2 line indicates the 20dB offset below D1. It shows compliance with the requirement. Report No.: RF181004C17 Page No. 52 / 62 Report Format Version: 6.1.1 802.11b Chain 0 CH 1 Band edge CH 1 CH 6 CH 11 CH 11 Band edge Report No.: RF181004C17 Page No. 53 / 62 Report Format Version: 6.1.1 Chain 1 CH 1 Band edge CH 1 CH 6 CH 11 CH 11 Band edge Report No.: RF181004C17 Page No. 54 / 62 Report Format Version: 6.1.1 802.11g Chain 0 CH 1 Band edge CH 1 CH 6 CH 11 CH 11 Band edge Report No.: RF181004C17 Page No. 55 / 62 Report Format Version: 6.1.1 Chain 1 CH 1 Band edge CH 1 CH 6 CH 11 CH 11 Band edge Report No.: RF181004C17 Page No. 56 / 62 Report Format Version: 6.1.1 VHT20 Chain 0 CH 1 Band edge CH 1 CH 6 CH 11 CH 11 Band edge Report No.: RF181004C17 Page No. 57 / 62 Report Format Version: 6.1.1 Chain 1 CH 1 Band edge CH 1 CH 6 CH 11 CH 11 Band edge Report No.: RF181004C17 Page No. 58 / 62 Report Format Version: 6.1.1 VHT40 Chain 0 CH 3 Band edge CH 3 CH 6 CH 9 CH 9 Band edge Report No.: RF181004C17 Page No. 59 / 62 Report Format Version: 6.1.1 Chain 1 CH 3 Band edge CH 3 CH 6 CH 9 CH 9 Band edge Report No.: RF181004C17 Page No. 60 / 62 Report Format Version: 6.1.1 5 Pictures of Test Arrangements Please refer to the attached file (Test Setup Photo). Report No.: RF181004C17 Page No. 61 / 62 Report Format Version: 6.1.1 Appendix Information on the Testing Laboratories We, Bureau Veritas Consumer Products Services (H.K.) Ltd., Taoyuan Branch, were founded in 1988 to provide our best service in EMC, Radio, Telecom and Safety consultation. Our laboratories are FCC recognized accredited test firms and accredited according to ISO/IEC 17025. If you have any comments, please feel free to contact us at the following:
Linkou EMC/RF Lab Tel: 886-2-26052180 Fax: 886-2-26051924 Hwa Ya EMC/RF/Safety Lab Tel: 886-3-3183232 Fax: 886-3-3270892 Email: service.adt@tw.bureauveritas.com Web Site: www.bureauveritas-adt.com Hsin Chu EMC/RF/Telecom Lab Tel: 886-3-6668565 Fax: 886-3-6668323 The address and road map of all our labs can be found in our web site also.
--- END ---
Report No.: RF181004C17 Page No. 62 / 62 Report Format Version: 6.1.1
1 2 3 4 | Declaration of referencing test data | Cover Letter(s) | 87.46 KiB | / June 06 2019 |
NETGEAR, INC. 350 East Plumeria Drive San Jose, CA 95134 Date: 2019-05-10 Attestation Letter for re-use of Test Data:
Comparison of FCC ID: PY318300428 made according to 47CFR Part C/Part E for on 12/19/2018. For New application: FCC ID: PY319100441 The new equipment in this application FCC ID: PY319100441, differs from the initial version with new firmware to increase 5G NR Transmit E.I.R.P. (SISO/MIMO) and enable 3 modules for 126 single beams and 63 beam pairs. The testing documenting the change is shown in the FCC Part 30 and power density evaluation attached. FCC ID: PY319100441 used same 4G LTE and Wi-Fi hardware design with all (TX power, antenna, etc.) remaining the same. Old Firmware version: NTGX50_15.07.02.00 New Firmware version: NTGX50_15.10.01.00 The change described above does not affect the radio characteristics of LTE and Wi-Fi operations. Consequently, radio test data retrieved from the initial application FCC ID: PY318300428 can be used for the FCC ID: PY319100441 application. It is therefore not necessary to re-test for LTE & Wi-Fi Function. If you have any questions, feel free to contact me. Regards,
-----------------------------------
David Kay Regulatory Compliance Director Tel: 4088903657 Fax: 4089078097 E-mail: david.kay@netgear.com
1 2 3 4 | SAR part 1 | RF Exposure Info | 4.65 MiB | / June 06 2019 |
FCC SAR Test Report FCC SAR Test Report Report No.
: SA181015C09 Applicant
: NETGEAR INC. Address Product FCC ID Brand Model No. Standards
: 350 East Plumeria Drive, San Jose, CA 95134, USA
: 5G MHS Travel Router
: PY318300428
: NETGEAR
: MR5000
: FCC 47 CFR Part 2 (2.1093), IEEE C95.1:1992, IEEE Std 1528:2013 KDB 865664 D01 v01r04, KDB 865664 D02 v01r02, KDB 248227 D01 v02r02, KDB 447498 D01 v06, KDB 941225 D05 v02r05, KDB 941225 D05A v01r02, Sample Received Date
: Oct. 15, 2018 KDB 941225 D06 v02r01 Date of Testing
: Nov. 02, 2018 ~ Nov. 15, 2018 Lab Address
: No. 47-2, 14th Ling, Chia Pau Vil., Lin Kou Dist., New Taipei City, Taiwan, R.O.C. Test Location
: No. 19, Hwa Ya 2nd Rd, Wen Hwa Vil, Kwei Shan Dist., Taoyuan City 33383, Taiwan (R.O.C) CERTIFICATION: The above equipment have been tested by Bureau Veritas Consumer Products Services (H.K.) Ltd., Taoyuan Branch Lin Kou Laboratories, and found compliance with the requirement of the above standards. The test record, data evaluation & Equipment Under Test (EUT) configurations represented herein are true and accurate accounts of the measurements of the samples SAR characteristics under the conditions specified in this report. It should not be reproduced except in full, without the written approval of our laboratory. The client should not use it to claim product certification, approval, or endorsement by TAF or any government agenc ies. Prepared By :
Rona Chen / Specialist Approved By :
Gordon Lin / Assistant Manager FCC Accredited No.: TW0003 This report is for your exclusive use. Any copying or replication of this report to or for any other person or entity, or use of our name or trademark, is permitted only with our prior written permission. This report sets forth our findings solely with respect to the test samples identified her ein. The results set forth in this report are not indicative or representative of the quality or characteristics of the lot from which a test sample was taken or any similar or identical product unless specifically and expressly noted. Our report includes all of the tests requested by you and the results thereof based upon the information that you provided to us. You have 60 days from date of issuance of this report to notify us of any material error or omission caused by our negligence, provided, however, that such notice shall be in writing and shall specifically address the issue you wish to raise. A failure to raise such issue within the prescribed time shall constitute your unqualified acceptance of the completeness of this report, the tests conducted and the correctness of the report contents. Unless specifi c mention, the uncertainty of measurement has been explicitly taken into account to declare the compliance or non -compliance to the specification. Report Format Version 5.0.0 Report No. : SA181015C09 Page No.
: 1 of 56 Issued Date
: Nov. 19, 2018 FCC SAR Test Report Table of Contents 4.1 4.2 3.3 3.4 3.1 3.2 Release Control Record ....................................................................................................................................................................... 3 1. Summary of Maximum SAR Value .............................................................................................................................................. 4 2. Description of Equipment Under Test ........................................................................................................................................ 5 3. SAR Measurement Syste m ........................................................................................................................................................... 6 Definition of Specific Absorption Rate (SAR) ..................................................................................................................... 6 SPEAG DASY52 System..................................................................................................................................................... 6 3.2.1 Robot .......................................................................................................................................................................... 7 3.2.2 Probes ........................................................................................................................................................................ 8 3.2.3 Data Acquisition Electronics (DAE) .......................................................................................................................... 8 3.2.4 Phantoms ................................................................................................................................................................... 9 3.2.5 Device Holder .......................................................................................................................................................... 10 3.2.6 System Validation Dipoles....................................................................................................................................... 10 3.2.7 Tissue Simulating Liquids........................................................................................................................................ 11 SAR System Verification .................................................................................................................................................... 14 SAR Measurement Procedure .......................................................................................................................................... 15 3.4.1 Area & Zoom Scan Procedure ................................................................................................................................ 15 3.4.2 Volume Scan Procedure ......................................................................................................................................... 15 3.4.3 Power Drift Monitoring ............................................................................................................................................. 16 3.4.4 Spatial Peak SAR Evaluation.................................................................................................................................. 16 3.4.5 SAR Averaged Methods .......................................................................................................................................... 16 4. SAR Measurement Evaluation ................................................................................................................................................... 17 EUT Configuration and Setting.......................................................................................................................................... 17 EUT Testing Position.......................................................................................................................................................... 28 4.2.1 Hotspot Mode Exposure Conditions ....................................................................................................................... 28 Tissue Verification .............................................................................................................................................................. 29 4.3 System Validation............................................................................................................................................................... 29 4.4 4.5 System Verification ............................................................................................................................................................ 30 4.6 Maximum Output Power .................................................................................................................................................... 31 4.6.1 Maximum Target Conducted Power ....................................................................................................................... 31 4.6.2 Measured Conducted Power Result....................................................................................................................... 32 SAR Testing Results .......................................................................................................................................................... 39 4.7.1 SAR Test Reduction Considerations ...................................................................................................................... 39 4.7.2 SAR Results for Body Exposure Condition (Test Separation Distance is 10 mm) .............................................. 43 4.7.3 SAR Measurement Variability ................................................................................................................................. 46 4.7.4 Simultaneous Multi-band Transmission Evaluation ............................................................................................... 47 5. Calibration of Test Equipment ................................................................................................................................................... 51 6. Measurement Uncertainty........................................................................................................................................................... 52 7. Information on the Testing Laboratories ................................................................................................................................. 56 Appendix A. SAR Plots of Syste m Verification Appendix B. SAR Plots of SAR Measure ment Appendix C. Calibration Certificate for Probe and Dipole Appendix D. Photographs of EUT and Setup 4.7 Report Format Version 5.0.0 Report No. : SA181015C09 Page No.
: 2 of 56 Issued Date
: Nov. 19, 2018 FCC SAR Test Report Release Control Record Report No. Reason for Change SA181015C09 Initial releas e Date Issued Nov. 19, 2018 Report Format Version 5.0.0 Report No. : SA181015C09 Page No.
: 3 of 56 Issued Date
: Nov. 19, 2018 FCC SAR Test Report 1. Summary of Maximum SAR Value Equipment Class Mode LTE 2 LTE 4 / 66 LTE 5 LTE 12 LTE 14 LTE 30 2.4G WLAN 5.2G WLAN 5.8G WLAN PCB DTS NII Highest Simultaneous Transmission SAR Highest SAR-1g Hotspot Tested at 10 mm
(W/kg) 1.16 1.00 0.56 0.59 0.79 1.09 0.05 0.13 0.07 Highest SAR-1g Hotspot Tested at 10 mm
(W/kg) 1.28 Note:
1. The SAR criteria (Head & Body: SAR-1g 1.6 W/kg, and Extremity: SAR-10g 4.0 W/kg) for general population /
uncontrolled exposure is specified in FCC 47 CFR part 2 (2.1093) and ANSI/IEEE C95.1-1992. 2. This device supports both LTE band 66 and band 4. The frequency span of LTE band 66 can completely cover LTE band 4, and they has the same tune-up power. SAR was tested for LTE band 66 only. Report Format Version 5.0.0 Report No. : SA181015C09 Page No.
: 4 of 56 Issued Date
: Nov. 19, 2018 FCC SAR Test Report 2. Description of Equipment Under Test EUT Type FCC ID Brand Name Model Name Tx Frequency Bands
(Unit: MHz) Uplink Modulations Maximum Tune-up Conducted Power
(Unit: dBm) Antenna Type EUT Stage Note:
5G MHS Travel Router PY318300428 NETGEAR MR5000 LTE Band 2 : 1850.7 ~ 1909.3 (BW: 1.4M, 3M, 5M, 10M, 15M, 20M) LTE Band 4 : 1710.7 ~ 1754.3 (BW: 1.4M, 3M, 5M, 10M, 15M, 20M) LTE Band 5 : 824.7 ~ 848.3 (BW: 1.4M, 3M, 5M, 10M) LTE Band 12 : 699.7 ~ 715.3 (BW: 1.4M, 3M, 5M, 10M) LTE Band 14 : 790.5 ~ 795.5 (BW: 5M, 10M) LTE Band 29 : 717 ~ 728 (Rx only) LTE Band 30 : 2307.5 ~ 2312.5 (BW: 5M, 10M) LTE Band 46 : 5150~5925 (Rx only) LTE Band 66 : 1710.7 ~ 1779.3 (BW: 1.4M, 3M, 5M, 10M, 15M, 20M) WLAN : 2412 ~ 2462, 5180 ~ 5240, 5745 ~ 5825 LTE : QPSK, 16QAM, 64QAM 802.11b : DSSS 802.11a/g/n/ac : OFDM Please refer to section 4.6.1 of this report Internal IFA Antenna Engineering Sample 1. The above EUT information is declared by manufacturer and for more detailed features description please refers to the manufacturer's specifications or User's Manual. 2. For mmW5G please refer to power density report No. SP181015C09. List of Accessory:
Battery Brand Name Model Name Power Rating Type NETGEAR W-10a 3.85Vdc, 5040mAh Li-ion Report Format Version 5.0.0 Report No. : SA181015C09 Page No.
: 5 of 56 Issued Date
: Nov. 19, 2018 FCC SAR Test Report 3. SAR Measurement System 3.1 Definition of Specific Absorption Rate (SAR) SAR is related to the rate at which energy is absorbed per unit mass in an object exposed to a radio field. The SAR distribution in a biological body is complicated and is usually carried out by experimental techniques or numerical modeling. The standard recommends limits for two tiers of groups, occupational/controlled and general population/uncontrolled, based on a persons awareness and ability to exercise control over his or her exposure. In general, occupational/controlled exposure limits are higher than the limits for general population/uncontrolled. The SAR definition is the time derivative (rate) of the incremental energy (dW) absorbed by (dissipated in) an incremental mass (dm) contained in a volume element (dv) of a given density (). The equation description is as below:
SAR is expressed in units of Watts per kilogram (W/kg) SAR measurement can be related to the electrical field in the tissue by Where: is the conductivity of the tissue, is the mass density of the tissue and E is the RMS electrical field strength. 3.2 SPEAG DASY52 System DASY52 system consists of high precision robot, probe alignment sensor, phantom, robot controller, controlled measurement server and near-field probe. The robot includes six axes that can move to the precision position of the DASY52 software defined. The DASY52 software can define the area that is detected by the probe. The robot is connected to controlled box. Controlled measurement server is connected to the controlled robot box. The DAE includes amplifier, signal multiplexing, AD converter, offset measurement and surface detection. It is connected to the Electro-optical coupler (ECO). The ECO performs the conversion form the optical into digital electric signal of the DAE and transfers data to the PC. Report Format Version 5.0.0 Report No. : SA181015C09 Page No.
: 6 of 56 Issued Date
: Nov. 19, 2018 FCC SAR Test Report Fig-3.1 SPEAG DASY52 System Setup 3.2.1 Robot The DASY52 systems use the high precision robots from Stubli SA (France). For the 6-axis controller system, the robot controller version of CS8c from Stubli is used. The Stubli robot series have many features that are important for our application:
High precision (repeatability 0.035 mm) High reliability (industrial design) Jerk-free straight movements Low ELF interference (the closed metallic construction shields against motor control fields) Report Format Version 5.0.0 Report No. : SA181015C09 Fig-3.2 SPEAG DASY52 System Page No.
: 7 of 56 Issued Date
: Nov. 19, 2018 FCC SAR Test Report 3.2.2 Probes The SAR measurement is conducted with the dosimetric probe. The probe is specially designed and calibrated for use in liquid with high permittivity. The dosimetric probe has special calibration in liquid at different frequency. Model Construction Frequency Directivity Dynamic Range Dimensions Model Construction Frequency Directivity Dynamic Range Dimensions Model Construction Frequency Directivity Dynamic Range Dimensions EX3DV4 Symmetrical design with triangular core. Built-in shielding against static charges. PEEK enclosure material (resistant to organic solvents, e.g., DGBE). 10 MHz to 6 GHz Linearity: 0.2 dB 0.3 dB in HSL (rotation around probe axis) 0.5 dB in tissue material (rotation normal to probe axis) 10 W/g to 100 mW/g Linearity: 0.2 dB (noise: typically < 1 W/g) Overall length: 337 mm (Tip: 20 mm) Tip diameter: 2.5 mm (Body: 12 mm) Typical distance from probe tip to dipole centers: 1 mm ES3DV3 Symmetrical design with triangular core. Interleaved sensors. Built-in shielding against static charges. PEEK enclosure material
(resistant to organic solvents, e.g., DGBE). 10 MHz to 4 GHz Linearity: 0.2 dB 0.2 dB in HSL (rotation around probe axis) 0.3 dB in tissue material (rotation normal to probe axis) 5 W/g to 100 mW/g Linearity: 0.2 dB Overall length: 337 mm (Tip: 20 mm) Tip diameter: 3.9 mm (Body: 12 mm) Distance from probe tip to dipole centers: 2.0 mm ET3DV6 Symmetrical design with triangular core Built-in optical fiber for surface detection system. Built-in shielding against static charges. PEEK enclosure material
(resistant to organic solvents, e.g., DGBE) 10 MHz to 2.3 GHz; Linearity: 0.2 dB 0.2 dB in TSL (rotation around probe axis) 0.4 dB in TSL (rotation normal to probe axis) 5 W/g to 100 mW/g; Linearity: 0.2 dB Overall length: 337 mm (Tip: 16 mm) Tip diameter: 6.8 mm (Body: 12 mm) Distance from probe tip to dipole centers: 2.7 mm 3.2.3 Data Acquisition Electronics (DAE) Model Construction Measurement Range Input Offset Voltage Input Bias Current Dimensions DAE3, DAE4 Signal amplifier, multiplexer, A/D converter and control logic. Serial optical link for communication with DASY embedded system (fully remote controlled). Two step probe touch detector for mechanical surface detection and emergency robot stop.
-100 to +300 mV (16 bit resolution and two range settings: 4mV, 400m V)
< 5 V (with auto zero)
< 50 fA 60 x 60 x 68 mm Report Format Version 5.0.0 Report No. : SA181015C09 Page No.
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: Nov. 19, 2018 FCC SAR Test Report 3.2.4 Phantoms Model Construction Material Shell Thickness Dimensions Filling Volume Model Construction Material Shell Thickness Dimensions Filling Volume Twin SAM The shell corresponds to the specifications of the Specific Anthropomorphic Mannequin (SAM) phantom defined in IEEE 1528 and IEC 62209-1. It enables the dosimetric evaluation of left and right hand phone usage as well as body mounted usage at the flat phantom region. A cover prevents evaporation of the liquid. Reference markings on the phantom allow the complete setup of all predefined phantom positions and measurement grids by teaching three points with the robot. Vinylester, glass fiber reinforced (VE-GF) 2 0.2 mm (6 0.2 mm at ear point) Length: 1000 mm Width: 500 mm Height: adjustable feet approx. 25 liters ELI Phantom for compliance testing of handheld and body-mounted wireless devices in the frequency range of 30 MHz to 6 GHz. ELI is fully compatible with the IEC 62209-2 standard and all known tissue simulating liquids. ELI has been optimized regarding its performance and can be integrated into our standard phantom tables. A cover prevents evaporation of the liquid. Reference markings on the phantom allow installation of the complete setup, including all predefined phantom positions and measurement grids, by teaching three points. The phantom is compatible with all SPEAG dosimetric probes and dipoles. Vinylester, glass fiber reinforced (VE-GF) 2.0 0.2 mm (bottom plate) Major axis: 600 mm Minor axis: 400 mm approx. 30 liters Report Format Version 5.0.0 Report No. : SA181015C09 Page No.
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: Nov. 19, 2018 FCC SAR Test Report 3.2.5 Device Holder Model Construction Material Model Construction Mounting Device In combination with the Twin SAM Phantom or ELI4, the Mounting Device enables the rotation of the mounted transmitter device in spherical coordinates. Rotation point is the ear opening point. Transmitter devices can be easily and accurately positioned according to IEC, IEEE, FCC or other specifications. The device holder can be locked for positioning at different phantom sections (left head, right head, flat). POM Laptop Extensions Kit Simple but effective and easy-to-use extension for Mounting Device that facilitates the testing of larger devices according to IEC 62209-2 (e.g., laptops, cameras, etc.). It is lightweight and fits easily on the upper part of the Mounting Device in place of the phone positioner. Material POM, Acrylic glass, Foam 3.2.6 System Validation Dipoles Model Construction Frequency Return Loss D-Serial Symmetrical dipole with l/4 balun. Enables measurement of feed point impedance with NWA. Matched for use near flat phantoms filled with tissue simulating solutions. 750 MHz to 5800 MHz
> 20 dB Power Capability
> 100 W (f < 1GHz), > 40 W (f > 1GHz) Report Format Version 5.0.0 Report No. : SA181015C09 Page No.
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: Nov. 19, 2018 FCC SAR Test Report 3.2.7 Tissue Simulating Liquids For SAR measurement of the field distribution inside the phantom, the phantom must be filled with homogeneous tissue simulating liquid to a depth of at least 15 cm. For head SAR testing, the liquid height from the ear reference point (ERP) of the phantom to the liquid top surface is larger than 15 cm. For body SAR testing, the liquid height from the center of the flat phantom to the liquid top surface is larger than 15 cm. The nominal dielectric values of the tissue simulating liquids in the phantom and the tolerance of 5% are listed in Table-3.1. Photo of Liquid Height for Head Position Photo of Liquid Height for Body Position The dielectric properties of the head tissue simulating liquids are defined in IEEE 1528, and KDB 865664 D01 Appendix A. For the body tissue simulating liquids, the dielectric properties are defined in KDB 865664 D01 Appendix A. The dielectric properties of the tissue simulating liquids were verified prior to the SAR evaluation using a dielectric assessment kit and a network analyzer. Report Format Version 5.0.0 Report No. : SA181015C09 Page No.
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: Nov. 19, 2018 FCC SAR Test Report Table-3.1 Targets of Tissue Simulating Liquid Frequency
(MHz) Target Permittivity 750 835 900 1450 1640 1750 1800 1900 2000 2300 2450 2600 3500 5200 5300 5500 5600 5800 750 835 900 1450 1640 1750 1800 1900 2000 2300 2450 2600 3500 5200 5300 5500 5600 5800 41.9 41.5 41.5 40.5 40.3 40.1 40.0 40.0 40.0 39.5 39.2 39.0 37.9 36.0 35.9 35.6 35.5 35.3 55.5 55.2 55.0 54.0 53.8 53.4 53.3 53.3 53.3 52.9 52.7 52.5 51.3 49.0 48.9 48.6 48.5 48.2 Range of 5%
For Head 39.8 ~ 44.0 39.4 ~ 43.6 39.4 ~ 43.6 38.5 ~ 42.5 38.3 ~ 42.3 38.1 ~ 42.1 38.0 ~ 42.0 38.0 ~ 42.0 38.0 ~ 42.0 37.5 ~ 41.5 37.2 ~ 41.2 37.1 ~ 41.0 36.0 ~ 39.8 34.2 ~ 37.8 34.1 ~ 37.7 33.8 ~ 37.4 33.7 ~ 37.3 33.5 ~ 37.1 For Body 52.7 ~ 58.3 52.4 ~ 58.0 52.3 ~ 57.8 51.3 ~ 56.7 51.1 ~ 56.5 50.7 ~ 56.1 50.6 ~ 56.0 50.6 ~ 56.0 50.6 ~ 56.0 50.3 ~ 55.5 50.1 ~ 55.3 49.9 ~ 55.1 48.7 ~ 53.9 46.6 ~ 51.5 46.5 ~ 51.3 46.2 ~ 51.0 46.1 ~ 50.9 45.8 ~ 50.6 Target Conductivity 0.89 0.90 0.97 1.20 1.29 1.37 1.40 1.40 1.40 1.67 1.80 1.96 2.91 4.66 4.76 4.96 5.07 5.27 0.96 0.97 1.05 1.30 1.40 1.49 1.52 1.52 1.52 1.81 1.95 2.16 3.31 5.30 5.42 5.65 5.77 6.00 Range of 5%
0.85 ~ 0.93 0.86 ~ 0.95 0.92 ~ 1.02 1.14 ~ 1.26 1.23 ~ 1.35 1.30 ~ 1.44 1.33 ~ 1.47 1.33 ~ 1.47 1.33 ~ 1.47 1.59 ~ 1.75 1.71 ~ 1.89 1.86 ~ 2.06 2.76 ~ 3.06 4.43 ~ 4.89 4.52 ~ 5.00 4.71 ~ 5.21 4.82 ~ 5.32 5.01 ~ 5.53 0.91 ~ 1.01 0.92 ~ 1.02 1.00 ~ 1.10 1.24 ~ 1.37 1.33 ~ 1.47 1.42 ~ 1.56 1.44 ~ 1.60 1.44 ~ 1.60 1.44 ~ 1.60 1.72 ~ 1.90 1.85 ~ 2.05 2.05 ~ 2.27 3.14 ~ 3.48 5.04 ~ 5.57 5.15 ~ 5.69 5.37 ~ 5.93 5.48 ~ 6.06 5.70 ~ 6.30 Report Format Version 5.0.0 Report No. : SA181015C09 Page No.
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: Nov. 19, 2018 FCC SAR Test Report The following table gives the recipes for tissue simulating liquids. Tissue Type H750 H835 H900 H1450 H1640 H1750 H1800 H1900 H2000 H2300 H2450 H2600 H3500 H5G B750 B835 B900 B1450 B1640 B1750 B1800 B1900 B2000 B2300 B2450 B2600 B3500 B5G Table-3.2 Recipes of Tissue Simulating Liquid Bactericide DGBE HEC NaCl Sucrose Triton X-100 Water Diethylene Glycol Mono-
hexylether 0.2 0.2 0.2
-
-
-
-
-
-
-
-
-
-
-
0.2 0.2 0.2
-
-
-
-
-
-
-
-
-
-
-
0.2 0.2 0.2
-
-
-
-
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-
0.2 0.2 0.2
-
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-
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-
43.3 45.8 47.0 44.5 44.5 44.5 44.9 45.0 45.1 8.0
-
-
-
-
34.0 32.5 31.0 29.5 29.5 30.0 31.0 31.4 31.8 28.8
-
1.5 1.5 1.4 0.6 0.5 0.4 0.3 0.2 0.1 0.1 0.1 0.1 0.2
-
0.8 0.9 0.9 0.3 0.3 0.2 0.4 0.3 0.2 0.1 0.1 0.1 0.1
-
56.0 57.0 58.0
-
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48.8 48.5 48.2
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20.0 17.2
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-
10.7 42.1 41.1 40.2 56.1 53.7 52.6 55.2 55.3 55.4 55.0 54.9 54.8 71.8 65.5 50.0 50.2 50.5 65.7 67.2 68.8 70.1 70.2 69.8 68.9 68.5 68.1 71.1 78.6
-
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17.3
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10.7 Report Format Version 5.0.0 Report No. : SA181015C09 Page No.
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: Nov. 19, 2018 FCC SAR Test Report 3.3 SAR System Verification The system check verifies that the system operates within its specifications. It is performed daily or before every SAR measurement. The system check uses normal SAR measurements in the flat section of the phantom with a matched dipole at a specified distance. The system verification setup is shown as below. Fig-3.3 System Verification Setup The validation dipole is placed beneath the flat phantom with the specific spacer in place. The distance spacer is touch the phantom surface with a light pressure at the reference marking and be oriented parallel to the long side of the phantom. The spectrum analyzer measures the forward power at the location of the system check dipole connector. The signal generator is adjusted for the desired forward power (250 mW is used for 700 MHz to 3 GHz, 100 mW is used for 3.5 GHz to 6 GHz) at the dipole connector and the power meter is read at that level. After connecting the cable to the dipole, the signal generator is readjusted for the same reading at power meter. After system check testing, the SAR result will be normalized to 1W forward input power and compared with the reference SAR value derived from validation dipole certificate report. The deviation of system check should be within 10 %. Report Format Version 5.0.0 Report No. : SA181015C09 Page No.
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: Nov. 19, 2018 FCC SAR Test Report 3.4 SAR Measurement Procedure According to the SAR test standard, the recommended procedure for assessing the peak spatia l-average SAR value consists of the following steps:
(a) Power reference measurement
(b) Area scan
(c) Zoom scan
(d) Power drift measurement The SAR measurement procedures for each of test conditions are as follows:
(a) Make EUT to transmit maximum output power
(b) Measure conducted output power through RF cable
(c) Place the EUT in the specific position of phantom
(d) Perform SAR testing steps on the DASY system
(e) Record the SAR value 3.4.1 Area & Zoom Scan Procedure First Area Scan is used to locate the approximate location(s) of the loc al peak SAR value(s). The measurement grid within an Area Scan is defined by the grid extent, grid step size and grid offset. Next, in order to determine the EM field distribution in a three-dimensional spatial extension, Zoom Scan is required. The Zoom Sc an is performed around the highest E-field value to determine the averaged SAR-distribution over 10 g. According to KDB 865664 D01, the resolution for Area and Zoom scan is specified in the table below. Items Area Scan
(x, y) Zoom Scan
(x, y) Zoom Scan
(z) Zoom Scan Volume Note:
<= 2 GHz 2-3 GHz 3-4 GHz 4-5 GHz 5-6 GHz
<= 15 mm
<= 12 mm
<= 12 mm
<= 10 mm
<= 10 mm
<= 8 mm
<= 5 mm
<= 5 mm
<= 4 mm
<= 4 mm
<= 5 mm
<= 5 mm
<= 4 mm
<= 3 mm
<= 2 mm
>= 30 mm
>= 30 mm
>= 28 mm
>= 25 mm
>= 22 mm When zoom scan is required and report SAR is <= 1.4 W/kg, the zoom scan resolution of x / y (2-3GHz: <= 8 mm, 3-4GHz: <= 7 mm, 4-6GHz: <= 5 mm) may be applied. 3.4.2 Volume Scan Procedure The volume scan is used for assess overlapping SAR distributions for antennas transmitting in different frequency bands. It is equivalent to an oversized zoom scan used in standalone measurements. The measurement volume will be used to enclose all the simultaneous transmitting antennas. For antennas transmitting simultaneously in different frequency bands, the volume scan is measured separately in each frequency band. In order to sum correctly to compute the 1g aggregate SAR, the EUT remain in the same test position for all measurements and all volume scan use the same spatial resolution and grid spacing. When all volume scan were completed, the software, SEMCAD postprocessor can combine and subsequently superpose these measurement data to calculating the mu ltiband SAR. Report Format Version 5.0.0 Report No. : SA181015C09 Page No.
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: Nov. 19, 2018 FCC SAR Test Report 3.4.3 Power Drift Monitoring All SAR testing is under the EUT install full charged battery and transmit maximum output power. In DASY measurement software, the power reference measurement and power drift measurement procedures are used for monitoring the power drift of EUT during SAR test. Both these procedures measure the field at a specified reference position before and after the SAR testing. The software will calculate the field difference in dB. If the power drift more than 5%, the SAR will be retested. 3.4.4 Spatial Peak SAR Evaluation The procedure for spatial peak SAR evaluation has been implemented according to the test standard. It can be conducted for 1g and 10g, as well as for user-specific masses. The DASY software includes all numerical procedures necessary to evaluate the spatial peak SAR value. The base for the evaluation is a "cube" measurement. The measured volume must include the 1g and 10g cubes with the highest averaged SAR values. For that purpose, the center of the measured volume is aligned to the interpolated peak SAR value of a previously performed area scan. The entire evaluation of the spatial peak values is performed within the post-processing engine (SEMCAD). The system always gives the maximum values for the 1g and 10g cubes. The algorithm to find the cube with highest averaged SAR is divided into the following stages:
(a) Extraction of the measured data (grid and values) from the Zoom Scan
(b) Calculation of the SAR value at every measurement point based on all stored data (A/D values and measurement parameters)
(c) Generation of a high-resolution mesh within the measured volume
(d) Interpolation of all measured values form the measurement grid to the high-resolution grid
(e) Extrapolation of the entire 3-D field distribution to the phantom surface over the distance from sensor to surface
(f) Calculation of the averaged SAR within masses of 1g and 10g 3.4.5 SAR Averaged Methods In DASY, the interpolation and extrapolation are both based on the modified Quadratic Shepards method. The interpolation scheme combines a least-square fitted function method and a weighted average method which are the two basic types of computational interpolation and approximation. Extrapolation routines are used to obtain SAR values between the lowest measurement points and the inner phantom surface. The extrapolation distance is determined by the surface detection distance and the probe sensor offset. The uncertainty increases with the extrapolation distance. To keep the uncertainty within 1% for the 1 g and 10 g cubes, the extrapolation distance should not be larger than 5 mm. Report Format Version 5.0.0 Report No. : SA181015C09 Page No.
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: Nov. 19, 2018 FCC SAR Test Report 4. SAR Measurement Evaluation 4.1 EUT Configuration and Setting
<Connections between EUT and System Simulator>
For WWAN SAR testing, the EUT was linked and controlled by base station emulator. Communication between the EUT and the emulator was established by air link. The distance between the EUT and the communicating antenna of the emulator is larger than 50 cm and the output power radiated from the emulator antenna is at least 30 dB smaller than the output power of EUT. The EUT was set from the emulator to radiate maximum output power during SAR testing.
<Considerations Related to LTE for Setup and Testing>
This device contains LTE transmitter which follows 3GPP standards, is category 3, supports both QPSK and QAM modulations, and supported LTE band and channel bandwidth is listed in below. The output power was tested per 3GPP TS 36.521-1 maximum transmit procedures for both QPSK and QAM modulation. The results please refer to section 4.6 of this report. LTE Band BW 1.4 MHz BW 3 MHz BW 5 MHz BW 10 MHz BW 15 MHz BW 20 MHz EUT Supported LTE Band and Channel Bandwidth 2 4 5 12 14 30 66 V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V The LTE maximum power reduction (MPR) in accordance with 3GPP TS 36.101 is active all times during LTE operation. The allowed MPR for the maximum output power is specified in below. Modulation QPSK 16QAM 16QAM 64QAM 64QAM BW 1.4 MHz BW 3 MHz BW 5 MHz BW 10 MHz BW 15 MHz BW 20 MHz Channel Bandwidth / RB Configurations
> 5
<= 5
> 5
<= 5
> 5
> 4
<= 4
> 4
<= 4
> 4
> 8
<= 8
> 8
<= 8
> 8
> 12
<= 12
> 12
<= 12
> 12
> 16
<= 16
> 16
<= 16
> 16
> 18
<= 18
> 18
<= 18
> 18 LTE MP R Setting
(dB) 1 1 2 2 3 Note: MPR is according to the standard and implemented in the circuit (mandatory). In addition, the device is compliant with additional maximum power reduction (A-MPR) requirements defined in 3GPP TS 36.101 section 6.2.4 that was disabled for all FCC compliance testing. During LTE SAR testing, the related parameters of operating band, channel bandwidth, uplink channel number, modulation type, and RB was set in base station simulator. When the EUT has registered and communicated to base station simulator, the simulator set to make EUT transmitting the maximum radiated power. Report Format Version 5.0.0 Report No. : SA181015C09 Page No.
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: Nov. 19, 2018 FCC SAR Test Report LTE Downlink Carrier Aggregation (CA) Setup Configurations LTE Carrier Aggregation (CA) was defined in 3GPP release 10 and higher. The LTE device in CA mode has one Primary Component Carrier (PCC) and one or more Secondary Component Carriers (SCC). PCC acts as the anchor carrier and can optionally cross-schedule data transmission on SCC. The RRC connection is only handled by one cell, the PCC for downlink and uplink communications. After making a data connection to the PCC, the LTE device adds the SCC on the downlink only. All uplink communications and acknowledgements remain identical to release 8 specifications on the PCC. The combinations of downlink carrier aggregation supported by this device are listed in below. LTE CA Configurations and Bandwidth Combination Sets defined for Intra-Band Non-Contiguous CA Downlink CA Configuration CA_2A-2A CA_66A-66A Component Carriers in order of Increasing Carrier Frequency Channel Bandwidths Channel Bandwidths for Carrier-1
(MHz) 5, 10, 15, 20 5, 10, 15, 20 for Carrier-2
(MHz) 5, 10, 15, 20 5, 10, 15, 20 Maximum Aggregated Bandwidth
(MHz) 40 40 Bandwidth Combination Set 0 0 Report Format Version 5.0.0 Report No. : SA181015C09 Page No.
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: Nov. 19, 2018 FCC SAR Test Report LTE CA Configurations and Bandwidth Combination Sets defined for Inter-Band CA (Two Bands) Downlink CA Configuration LTE Bands CA_2A-5A CA_2A-2A-5A CA_2A-5B CA_2A-12A CA_2A-2A-12A CA_2A-29A CA_2A-30A CA_2A-2A-30A CA_2A-46A CA_2A-46C CA_2A-46D CA_2A-66A CA_2A-2A-66A CA_2A-66A-66A CA_5A-30A CA_5B-30A CA_5A-66A 2 5 2 5 2 5 2 5 2 12 2 12 2 12 2 12 2 29 2 29 2 29 2 30 2 30 2 46 2 46 2 46 2 66 2 66 2 66 2 66 2 66 5 30 5 30 5 66 Report Format Version 5.0.0 Report No. : SA181015C09 Channel Bandwidths Maximum Aggregated for Carrier
(MHz) 5, 10, 15, 20 5, 10 5, 10 5, 10 Refer to CA_2A-2A (BCS0) 5, 10 5, 10, 15, 20 Refer to CA_5B (BCS0) 5, 10, 15, 20 5, 10 5, 10, 15, 20 3, 5, 10 5, 10 5, 10 Refer to CA_2A-2A (BCS0) 5, 10 5, 10 3, 5, 10 5, 10 5, 10 5, 10, 15, 20 5, 10 5, 10, 15, 20 5, 10 Refer to CA_2A-2A (BCS0) 5, 10 5, 10, 15, 20 20 5, 10, 15, 20 Refer to CA_46D (BCS0) 5, 10, 15, 20 Refer to CA_46C (BCS0) 1.4, 3, 5, 10, 15, 20 5, 10, 15, 20 5, 10 5, 10 5, 10, 15, 20 5, 10, 15, 20 Refer to CA_2A-2A (BCS0) 5, 10, 15, 20 5, 10, 15, 20 Refer to CA_66A-66A (BCS0) 5, 10 5, 10 5, 10 5, 10 5, 10 5, 10, 15, 20 Bandwidth
(MHz) 30 20 50 40 30 30 20 50 20 20 30 30 50 40 60 80 40 20 40 60 60 20 20 30 Bandwidth Combination Set 0 1 0 0 0 1 2 0 0 1 2 0 0 0 0 0 0 1 2 0 0 0 0 0 Page No.
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: Nov. 19, 2018 FCC SAR Test Report Downlink CA Configuration LTE Bands CA_5A-66A-66A CA_5B-66A CA_12A-30A CA_12A-66A CA_12A-66A-66A CA_29A-30A CA_30A-66A CA_30A-66A-66A CA_46C-66A CA_46A-66A CA_46D-66A 5 66 5 66 12 30 12 66 12 66 12 66 12 66 12 66 12 66 12 66 29 30 30 66 30 66 46 66 46 66 46 66 Channel Bandwidths Maximum Aggregated for Carrier
(MHz) 5, 10 Refer to CA_66A-66A (BCS0) Refer to CA_5B (BCS0) 5, 10, 15, 20 5, 10 5, 10 5, 10 1.4, 3, 5,10 5, 10 1.4, 3, 5, 10, 15, 20 3, 5, 10 5, 10, 15, 20 5, 10 5, 10 5, 10 5, 10, 15, 20 5 5, 10, 15 5, 10 Refer to CA_66A-66A (BCS0) 5, 10 5, 10 5, 10 5, 10, 15, 20 5, 10 Refer to CA_66A-66A (BCS0) Refer to CA_46C (BCS0) 5, 10, 15, 20 20 5, 10, 15, 20 Refer to CA_46D (BCS0) 5, 10, 15, 20 Bandwidth
(MHz) 50 40 20 20 30 30 20 30 20 50 20 30 50 60 40 80 Bandwidth Combination Set 0 0 0 0 1 2 3 4 5 0 0 0 0 0 0 0 Report Format Version 5.0.0 Report No. : SA181015C09 Page No.
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: Nov. 19, 2018 FCC SAR Test Report LTE CA Configurations and Bandwidth Combination Sets defined for Inter-Band CA (Three Bands) Downlink CA Configuration LTE Bands Channel Bandwidths Maximum Aggregated for Carrier
(MHz) Bandwidth
(MHz) Bandwidth Combination Set 2 5 66 2 5 66 2 5 30 2 5 30 2 5 30 2 5 66 2 5 66 2 5 66 2 12 30 2 12 30 2 12 66 2 12 66 2 12 66 2 12 66 2 29 30 2 30 66 2 30 66 2 30 66 CA_2A-2A-5A-66A CA_2A-2A-5A-66A-66A CA_2A-5A-30A CA_2A-2A-5A-30A CA_2A-5B-30A CA_2A-5A-66A CA_2A-5A-66A-66A CA_2A-5B-66A CA_2A-12A-30A CA_2A-2A-12A-30A CA_2A-12A-66A CA_2A-2A-12A-66A CA_2A-12A-66A-66A CA_2A-29A-30A CA_2A-2A-30A-66A CA_2A-30A-66A-66A CA_2A-30A-66A Report Format Version 5.0.0 Report No. : SA181015C09 Refer to CA_2A-2A (BCS0) 5, 10 5, 10, 15, 20 Refer to CA_2A-2A (BCS0) 5, 10 Refer to CA_66A-66A (BCS0) 5, 10, 15, 20 5, 10 5, 10 Refer to CA_2A-2A (BCS0) 5, 10 5, 10 5, 10, 15, 20 Refer to CA_5B (BCS0) 5, 10 5, 10, 15, 20 5, 10 5, 10, 15, 20 5, 10, 15, 20 5, 10 Refer to CA_66A-66A (BCS0) 5, 10, 15, 20 Refer to CA_5B (BCS0) 5, 10, 15, 20 5, 10, 15, 20 5, 10 5, 10 Refer to CA_2A-2A (BCS0) 5, 10 5, 10 5, 10, 15, 20 5, 10 5, 10, 15, 20 5, 10 5, 10 5, 10, 15, 20 Refer to CA_2A-2A (BCS0) 5, 10 5, 10, 15, 20 5, 10,15, 20 5, 10 Refer to 66A-66A (BCS0) 5, 10, 15, 20 5, 10 5, 10 Refer to CA_2A-2A (BCS0) 5, 10 5, 10, 15, 20 5, 10, 15, 20 5, 10 Refer to CA_66A-6A (BCS0) 5, 10, 15, 20 5, 10 5, 10, 15, 20 70 90 40 60 50 50 70 60 40 60 50 40 70 70 40 70 70 50 0 0 0 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 Page No.
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: Nov. 19, 2018 FCC SAR Test Report Downlink CA Configuration LTE Bands CA_2A-46A-66A CA_2A-46C-66A CA_2A-46D-66A CA_5A-30A-66A CA_5A-30A-66A-66A CA_5B-30A-66A CA_12A-30A-66A CA_12A-30A-66A-66A 2 46 66 2 46 66 2 46 66 5 30 66 5 30 66 5 30 66 12 30 66 12 30 66 Channel Bandwidths Maximum Aggregated for Carrier
(MHz) 5, 10, 15, 20 20 5, 10, 15, 20 5, 10, 15, 20 Refer to CA_46C (BCS0) 5, 10, 15, 20 5, 10, 15, 20 Refer to CA_46D (BCS0) 5, 10, 15, 20 5, 10 5, 10 5, 10, 15, 20 5, 10 5, 10 Refer to CA_66A-66A (BCS0) Refer to CA_5B (BCS0) 5, 10 5, 10, 15, 20 5, 10 5, 10 5, 10, 15, 20 5, 10 5, 10 Refer to CA_66A-66A (BCS0) Bandwidth
(MHz) 60 80 100 40 60 50 40 60 Bandwidth Combination Set 0 0 0 0 0 0 0 0 Report Format Version 5.0.0 Report No. : SA181015C09 Page No.
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: Nov. 19, 2018 FCC SAR Test Report LTE CA Configurations and Bandwidth Combination Sets defined for Inter-Band CA (Four Bands) Downlink CA Configuration LTE Bands CA_2A-2A-5A-30A-66A CA_2A-2A-12A-30A-66A CA_2A-5A-30A-66A CA_2A-5A-30A-66A-66A CA_2A-5B-30A-66A CA_2A-12A-30A-66A CA_2A-12A-30A-66A-66A 2 5 30 66 2 12 30 66 2 5 30 66 2 5 30 66 2 5 30 66 2 12 30 66 2 12 30 66 Channel Bandwidths Maximum Aggregated for Carrier
(MHz) Refer to CA_2A-2A (BCS0) 5, 10 5, 10 5, 10, 15, 20 Refer to CA_2A-2A (BCS0) 5, 10 5, 10 5, 10, 15, 20 5, 10, 15, 20 5, 10 5, 10 5, 10, 15, 20 5, 10, 15, 20 5, 10 5, 10 Refer to CA_66A-66A (BCS3) 5, 10, 15, 20 Refer to CA_5B (BCS0) 5, 10 5, 10, 15, 20 5, 10, 15, 20 5, 10 5, 10 5, 10, 15, 20 5, 10, 15, 20 5, 10 5, 10 Refer to CA_66A-66A (BCS0) Bandwidth
(MHz) 80 80 60 80 70 60 80 Bandwidth Combination Set 0 0 0 0 0 0 0
<SAR Test Exclusion Evaluations for LTE Downlink CA>
According to Nov 2017 TCB Workshop, SAR test exclusion for LTE downlink Carrier Aggregation is determined by power measurements according to the number of component carriers (CCs) supported by the product implementation. The downlink Carrier Aggregation configurations are tabulated in separate columns. DL CA would be listed in the columns corresponding to Intra Band contiguous, Intra Band Non-contiguous, 2bands/2CCs, 2bands/3CCs, 2bands/4CCs, 3bands/3CCs, 3bands/4CCs, 3bands/5CC, 4bands/4CCs and 4bands/5CC. The CA/CC combinations in each columns are sorted so that frequency bands listed in subsequent columns on each row are ascending subsets, as following LTE Downlink CA table and LTE Downlink CA (4*4 MIMO) table ; i.e., columns to the right correspond to increasing number of frequency bands and CCs. Report Format Version 5.0.0 Report No. : SA181015C09 Page No.
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: Nov. 19, 2018 FCC SAR Test Report Intra Band Non-Contiguo us Inter Band 2 Bands / 2CC 2 Bands / 3CC 2 Bands / 4CC 3 Bands / 3CC 3 Bands / 4CC 3 Bands / 5CC 4 Bands / 4CC 4 Bands / 5CC CA_2A-2A CA_2A-30A CA_2A-2A-30A CA_2A-12A CA_2A-2A-12A CA_12A-30A CA_66A-66A CA_2A-66A CA_2A-66A-66A CA_2A-12A-30A CA_2A-2A-12A-3 0A CA_12A-30A-66 A CA_2A-2A-66A CA_2A-12A-66A CA_2A-12A-66A-
66A CA_2A-5A CA_2A-5B CA_5A-30A CA_5B-30A CA_5A-66A CA_5A-66A-66A CA_2A-2A-5A CA_5B-66A CA_2A-5A-30A CA_2A-2A-5A-30 A CA_2A-5A-66A CA_2A-5B-30A CA_2A-2A-12A-6 6A CA_2A-2A-5A-66 A CA_2A-5B-66A CA_5A-30A-66A CA_5B-30A-66A CA_5A-30A-66A-
66A LTE Downlink CA-Configure CA_30A-66A CA_30A-66A-66 A CA_2A-30A-66A CA_12A-66A CA_12A-66A-66 A CA_2A-30A-66A-
66A CA_2A-2A-30A-6 6A CA_12A-30A-66 A-66A CA_2A-5A-66A-6 6A CA_2A-46A CA_2A-46C CA_2A-46D CA_2A-46A-66A CA_2A-46C-66A CA_2A-46D-66A CA_2A-29A CA_29A-30A CA_2A-29A-30A CA_46A-66A CA_46C-66A CA_46D-66A CA_2A-12A-30A-
CA_2A-2A-12A-
66A 30A-66A CA_2A-5A-30A-6 6A CA_2A-2A-5A-3 0A-66A CA_2A-5A-30A-
66A-66A CA_2A-5B-30A-
66A CA_2A-12A-30A
-66A-66A Only yellow highlighted cells need power measurement. Report Format Version 5.0.0 Report No. : SA181015C09 Page No.
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: Nov. 19, 2018 FCC SAR Test Report Inter Band(4*4 MIMO) 2 Bands / 2CC 2 Bands / 3CC 2 Bands / 4CC 3 Bands / 3CC 4 Bands / 4CC CA_2A(4*4)-12A CA_2A(4*4)-66A CA_2A-66A(4*4) LTE Downlink CA (4*4 MIMO) Configure CA_2A(4*4)-66A(4*4) CA_2A(4*4)-12A-66A CA_2A-12A-12A-66A(4*4) CA_46A-66A(4*4) CA_46C-66A(4*4) CA_46D-66A(4*4) CA_2A(4*4)-12A-30A CA_2A(4*4)-46A CA_2A(4*4)-46C CA_2A(4*4)-46D CA_2A-12A-66A(4*4) CA_2A(4*4)-30A CA_12A-66A(4*4) CA_30A-66A(4*4) CA_12A_30A_66A(4*4) Only yellow highlighted cells need power measurement. Report Format Version 5.0.0 Report No. : SA181015C09 Page No.
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: Nov. 19, 2018 FCC SAR Test Report
<Considerations Related to WLAN for Setup and Testing>
In general, various vendor specific external test software and chipset based internal test modes are typically used for SAR measurement. These chipset based test mode utilities are generally hardware and manufacturer dependent, and often include substantial flexibility to reconfigure or reprogram a device. A Wi-Fi device must be configured to transmit continuously at the required data rate, channel bandwidth and signal modulation, using the highest transmission duty factor supported by the test mode tools for SAR measurement. The test frequencies established using test mode must correspond to the actual channel frequencies. When 802.11 frame gaps are accounted for in the transmission, a maximum transmission duty factor of 92 - 96% is typically achievable in most test mode configurations. A minimum transmission duty factor of 85% is required to avoid certain hardware and device implementation issues related to wide range SAR scaling. In addition, a periodic transmission duty factor is required for current generation SAR systems to measure SAR correctly. The reported SAR must be scaled to 100%
transmission duty factor to determine compliance at the maximum tune-up tolerance limit. According to KDB 248227 D01, this device has installed WLAN engineering testing software which can provide continuous transmitting RF signal. During WLAN SAR testing, this device was operated to transmit continuously at the maximum transmission duty with specified transmission mode, operating frequency, lowest data rate, and maximum output power. Initial Test Configuration An initial test configuration is determined for OFDM transmission modes in 2.4 GHz and 5 GHz bands according to the channel bandwidth, modulation and data rate combination(s) with the highest maximum output power specified for production units in each standalone and aggregated frequency band. When the same maximum power is specified for multiple transmission modes in a frequency band, the largest channel bandwidth, lowest order modulation, lowest data rate and lowest order 802.11a/g/n/ac mode is used for SAR measurement, on the highest measured output power channel in the initial test configuration, for each frequency band. Subsequent Test Configuration SAR measurement requirements for the remaining 802.11 transmission mode conf igurations that have not been tested in the initial test configuration are determined separately for each standalone and aggregated frequency band, in each exposure condition, according to the maximum output power specified for production units. Additional power measurements may be required to determine if SAR measurements are required for subsequent highest output power channels in a subsequent test configuration. When the highest reported SAR for the initial test configuration according to the initial test position or fixed exposure position requirements, is adjusted by the ratio of the subsequent test configuration to initial test configuration specified maximum output power and the adjusted SAR is 1.2 W/kg, SAR is not required for that subsequent test configuration. Report Format Version 5.0.0 Report No. : SA181015C09 Page No.
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: Nov. 19, 2018 FCC SAR Test Report SAR Test Configuration and Channel Selection When multiple channel bandwidth configurations in a frequency band have the same specified maximum output power, the initial test configuration is using largest channel bandwidth, lowest order modulation, lowest data rate, and lowest order 802.11 mode (i.e., 802.11a is chosen over 802.11n then 802.11ac or 802.11g is chosen over 802.11n). After an initial test configuration is determined, if multiple test channels have the same measured maximum output power, the channel chosen for SAR measurement is determined according to the following. 1) The channel closest to mid-band frequency is selected for SAR measurement. 2) For channels with equal separation from mid-band frequency; for example, high and low channels or two mid-band channels, the higher frequency (number) channel is selected for SAR measurement. Test Reduction for U-NII-1 (5.2 GHz) and U-NII-2A (5.3 GHz) Bands For devices that operate in both U-NII bands using the same transmitter and antenna(s), SAR test reduction is determined according to the following. 1) When the same maximum output power is specified for both bands, begin SAR measurement in U-NII-2A band by applying the OFDM SAR requirements. If the highest reported SAR for a test configuration is 1.2 W/kg, SAR is not required for U-NII-1 band for that configuration (802.11 mode and exposure condition). 2) When different maximum output power is specified for the bands, begin SAR measurement in the band with higher specified maximum output power. The highest reported SAR for the tested configuration is adjusted by the ratio of lower to higher specified maximum output power for the two bands. When the adjusted SAR is 1.2 W/kg, SAR is not required for the band with lower maximum output power in that test configuration. Report Format Version 5.0.0 Report No. : SA181015C09 Page No.
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: Nov. 19, 2018 FCC SAR Test Report 4.2 EUT Testing Position 4.2.1 Hotspot Mode Exposure Conditions For handsets that support hotspot mode operations, with wireless router capabilities and various web browsing functions, the relevant hand and body exposure conditions are tested according to the hotspot SAR procedures in KDB 941225 D06. A test separation distance of 10 mm is required between the phantom and all surfaces and edges with a transmitting antenna located within 25 mm from that surface or edge. When the form factor of a handset is smaller than 9 cm x 5 cm, a test separation distance of 5 mm (instead of 10 mm) is required for testing hotspot mode. When the separation distance required for body-worn accessory testing is larger than or equal to that tested for hotspot mode, in the same wireless mode and for the same surface of the phone, the hotspot mode SAR data may be used to support body-worn accessory SAR compliance for that particular configuration (surface). Based on the antenna location shown on appendix D of this report, the SAR testing required for hotspot mode is listed as below. Antenna WWAN Ant
(For LTE B2/4/5/12/14/29/66) WWAN Ant
(For LTE B30) WLAN Ant 0 WLAN Ant 1 Front Face Rear Face Left Side Right Side Top Side Bottom Side V V V V V V V V V V V V V V V Report Format Version 5.0.0 Report No. : SA181015C09 Page No.
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: Nov. 19, 2018 FCC SAR Test Report 4.3 Tissue Verification The measuring results for tissue simulating liquid are shown as below. Test Date Tissue Type Frequency
(MHz) Nov. 05, 2018 Nov. 05, 2018 Nov. 06, 2018 Nov. 05, 2018 Nov. 02, 2018 Nov. 02, 2018 Nov. 05, 2018 Nov. 06, 2018 Nov. 02, 2018 Nov. 15, 2018 Nov. 15, 2018 Nov. 15, 2018 Note:
Body Body Body Body Body Body Body Body Body Body Body Body 750 750 750 835 1750 1900 1900 1900 2300 2450 5250 5750 Liquid Temp. Measured Conductivity Measured Permittivity Target Target Conductivity Permittivity Conductivity Permittivity Deviation Deviation
() 23.4 23.4 23.4 23.4 23.3 23.3 23.5 23.4 23.3 23.3 23.3 23.3
() 0.975 0.938 0.918 1.012 1.443 1.586 1.574 1.581 1.849 2.017 5.262 5.918
(r) 55.11 57.378 55.862 56.703 51.612 51.293 52.296 51.599 51.991 51.297 49.557 48.809
() 0.96 0.96 0.96 0.97 1.49 1.52 1.52 1.52 1.81 1.95 5.36 5.94
(r) 55.5 55.5 55.5 55.2 53.4 53.3 53.3 53.3 52.9 52.7 48.9 48.3
(%) 1.56
-2.29
-4.37 4.12
-3.15 4.34 3.55 4.01 2.15 3.44
-1.83
-0.37
(%)
-0.70 3.38 0.65 2.72
-3.35
-3.77
-1.88
-3.19
-1.72
-2.66 1.34 1.05 The dielectric properties of the tissue simulating liquid must be measured within 24 hours before the SAR testing and within 5% of the target values. Liquid temperature during the SAR testing must be within 2 . 4.4 System Validation The SAR measurement system was validated according to procedures in KDB 865664 D01. The validation status in tabulated summary is as below. Test Date Probe S/N 3898 3898 3650 3898 3650 3650 3898 3650 3650 7472 7472 7472 Body Body Body Body Body Body Body Body Body Body Body Body Nov. 05, 2018 Nov. 05, 2018 Nov. 06, 2018 Nov. 05, 2018 Nov. 02, 2018 Nov. 02, 2018 Nov. 05, 2018 Nov. 06, 2018 Nov. 02, 2018 Nov. 15, 2018 Nov. 15, 2018 Nov. 15, 2018 750 750 750 835 1750 1900 1900 1900 2300 2450 5250 5750 Calibration Point Conductiv ity Permittiv ity Sensitivity Probe Probe Modulation Measured Measured Validation for CW Validation for Modulation
() 0.975 0.938 0.918 1.01 1.443 1.586 1.574 1.581 1.849 2.017 5.262 5.918
(r) 55.11 57.378 55.862 56.703 51.612 51.293 52.296 51.599 51.991 51.297 49.557 48.809 Range Linearity Isotropy Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Type N/A N/A GMSK N/A N/A GMSK N/A N/A GMSK OFDM OFDM OFDM Duty Factor PAR N/A N/A Pass N/A N/A Pass N/A N/A Pass N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A Pass Pass Pass Report Format Version 5.0.0 Report No. : SA181015C09 Page No.
: 29 of 56 Issued Date
: Nov. 19, 2018 FCC SAR Test Report 4.5 System Verification The measuring result for system verification is tabulated as below. Test Date Mode Frequency
(MHz) 1W Target Measured SAR-1g
(W/kg) SAR-1g
(W/kg) Normalized to 1W SAR-1g
(W/kg) Deviation
(%) Dipole S/N Probe S/N Nov. 05, 2018 Nov. 05, 2018 Nov. 06, 2018 Nov. 05, 2018 Nov. 02, 2018 Nov. 02, 2018 Nov. 05, 2018 Nov. 06, 2018 Nov. 02, 2018 Nov. 15, 2018 Nov. 15, 2018 Nov. 15, 2018 Note:
Body Body Body Body Body Body Body Body Body Body Body Body 750 750 750 835 1750 1900 1900 1900 2300 2450 5250 5750 8.62 8.62 8.62 9.64 36.90 40.20 40.20 40.20 47.30 50.50 74.90 74.50 2.2 2.12 2.04 2.51 8.87 10.1 10.3 9.84 11.80 12.8 7.68 6.99 8.80 8.48 8.16 10.04 35.48 40.40 41.20 39.36 47.20 51.20 76.80 69.90 2.09
-1.62
-5.34 4.15
-3.85 0.50 2.49
-2.09
-0.21 1.39 2.54
-6.17 1013 1013 1013 4d121 1055 5d036 5d036 5d036 1004 737 1019 1019 3898 3898 3650 3898 3650 3650 3898 3650 3650 7472 7472 7472 DAE S/N 1277 1277 579 1277 579 579 1277 579 579 861 861 861 Comparing to the reference SAR value provided by SPEAG, the validation data should be within its specification of 10 %. The result indicates the system check can meet the variation criterion and the plots can be referred to Appendix A of this report. Report Format Version 5.0.0 Report No. : SA181015C09 Page No.
: 30 of 56 Issued Date
: Nov. 19, 2018 FCC SAR Test Report 4.6 Maximum Output Power 4.6.1 Maximum Target Conducted Power The maximum conducted average power (Unit: dBm) including tune-up tolerance is shown as below. Mode Maximum Target Power LTE 2 24.0 LTE 4 24.0 LTE 5 24.0 LTE 12 24.0 Mode Maximum Target Power Mode 802.11b 802.11g 802.11a 802.11n HT20 802.11n HT40 802.11ac VHT20 802.11ac VHT40 802.11ac VHT80 LTE 14 24.0 2.4G WLAN Ant 0: 10.0 Ant 1: 10.0 Ant 0+ 1: 13. 0 Ant 0: 10.0 Ant 1: 10.0 Ant 0+1: 13.0 N/A Ant 0: 10.0 Ant 1: 10.0 Ant 0+1: 13.0 Ant 0: 10.0 Ant 1: 10.0 Ant 0+1: 13.0 N/A N/A N/A LTE 30 23.5 LTE 66 24.0 5.2G WLAN 5.8G WLAN N/A N/A N/A N/A Ant 0: 10.0 Ant 1: 10.0 Ant 0+1: 13.0 Ant 0: 10.0 Ant 1: 10.0 Ant 0+1: 13.0 N/A N/A Ant 0: 10.0 Ant 1: 10.0 Ant 0+1: 13.0 Ant 0: 10.0 Ant 1: 10.0 Ant 0+1: 13.0 Ant 0: 10.0 Ant 1: 10.0 Ant 0+ 1: 13. 0 N/A N/A Ant 0: 10.0 Ant 1: 10.0 Ant 0+1: 13.0 Ant 0: 10.0 Ant 1: 10.0 Ant 0+1: 13.0 Ant 0: 10.0 Ant 1: 10.0 Ant 0+ 1: 13. 0 Report Format Version 5.0.0 Report No. : SA181015C09 Page No.
: 31 of 56 Issued Date
: Nov. 19, 2018 FCC SAR Test Report 4.6.2 Measured Conducted Power Result The measuring conducted average power (Unit: dBm) is shown as below. 3GPP MPR
(dB) 0 0 0 1 1 1 1 1 1 1 2 2 2 2 2 2 2 3 3 3 3 3GPP MPR
(dB) 0 0 0 1 1 1 1 1 1 1 2 2 2 2 2 2 2 3 3 3 3 3GPP MPR
(dB) 0 0 0 0 0 0 1 1 1 1 1 1 1 2 2 2 2 2 2 2 3 Low Mid High 18700 1860.0 23.74 23.38 23.62 22.93 22.92 22.86 22.91 22.64 22.34 22.57 21.89 21.82 21.84 21.87 21.64 21.35 21.58 20.84 20.87 20.80 20.91 18900 1880.0 23.88 23.47 23.71 22.99 22.96 22.97 22.98 22.83 22.37 22.68 21.95 21.93 21.89 21.96 21.83 21.47 21.65 20.97 20.97 20.89 20.91 19100 1900.0 23.68 23.31 23.57 22.85 22.82 22.80 22.81 22.58 22.24 22.51 21.80 21.76 21.71 21.74 21.60 21.24 21.53 20.79 20.74 20.73 20.71 Low Mid High 18650 1855.0 23.64 23.33 23.52 22.82 22.75 22.75 22.79 22.59 22.12 22.42 21.82 21.71 21.64 21.71 21.59 21.18 21.42 20.74 20.73 20.67 20.67 18900 1880.0 23.70 23.38 23.68 22.85 22.90 22.82 22.84 22.73 22.35 22.58 21.89 21.90 21.76 21.67 21.84 21.18 21.60 20.88 20.97 20.85 20.86 19150 1905.0 23.60 23.23 23.48 22.63 22.71 22.58 22.64 22.57 22.09 22.43 21.73 21.58 21.56 21.58 21.48 21.11 21.37 20.54 20.53 20.58 20.59 Low Mid High 18615 1851.5 23.59 23.31 23.48 22.80 22.78 22.76 22.72 22.61 22.21 22.52 21.74 21.75 21.71 21.76 21.63 21.12 21.37 20.77 20.75 20.69 20.75 18900 1880.0 23.83 23.33 23.61 22.93 23.00 22.80 22.87 22.68 22.19 22.51 21.85 21.85 21.89 21.86 21.65 21.35 21.59 20.82 20.97 20.91 20.79 19185 1908.5 23.60 23.19 23.54 22.80 22.74 22.69 22.61 22.43 22.16 22.48 21.75 21.60 21.74 21.67 21.51 21.13 21.41 20.67 20.63 20.57 20.63 LTE Band 2 3GPP MPR
(dB) BW MCS Index RB Size RB Offset Channel Frequency (MHz) 0 0 0 1 1 1 1 1 1 1 2 2 2 2 2 2 2 3 3 3 3 QPSK 15M 16QAM 64QAM 3GPP MPR
(dB) BW MCS Index 0 0 0 1 1 1 1 1 1 1 2 2 2 2 2 2 2 3 3 3 3 QPSK 5M 16QAM 64QAM 3GPP MPR
(dB) BW MCS Index 0 0 0 1 1 1 1 1 1 1 2 2 2 2 2 2 2 3 3 3 3 QPSK 1.4M 16QAM 64QAM 1 1 1 36 36 36 75 1 1 1 36 36 36 75 1 1 1 36 36 36 75 RB Size 0 37 74 0 19 39 0 0 37 74 0 19 39 0 0 37 74 0 19 39 0 RB Offset Channel Frequency (MHz) 1 1 1 12 12 12 25 1 1 1 12 12 12 25 1 1 1 12 12 12 25 RB Size 0 12 24 0 6 13 0 0 12 24 0 6 13 0 0 12 24 0 6 13 0 RB Offset Channel Frequency (MHz) 1 1 1 3 3 3 6 1 1 1 3 3 3 6 1 1 1 3 3 3 6 0 2 5 0 1 3 0 0 2 5 0 1 3 0 0 2 5 0 1 3 0 Low Mid High 18675 1857.5 23.65 23.38 23.61 22.87 22.84 22.83 22.87 22.59 22.37 22.62 21.76 21.82 21.78 21.89 21.63 21.36 21.49 20.83 20.80 20.77 20.77 18900 1880.0 23.82 23.41 23.69 22.99 22.93 22.90 22.90 22.74 22.37 22.60 21.97 21.94 21.92 21.86 21.74 21.42 21.66 20.99 20.92 20.94 20.91 19125 1902.5 23.64 23.21 23.56 22.84 22.79 22.79 22.72 22.60 22.24 22.44 21.72 21.70 21.69 21.71 21.53 21.18 21.47 20.74 20.65 20.73 20.71 Low Mid High 18625 1852.5 23.68 23.24 23.50 22.79 22.76 22.79 22.81 22.54 22.33 22.43 21.70 21.66 21.57 21.68 21.53 21.25 21.41 20.67 20.68 20.64 20.81 18900 1880.0 23.71 23.40 23.68 22.90 22.98 22.75 22.81 22.64 22.30 22.53 21.93 21.77 21.89 21.91 21.64 21.36 21.59 20.85 20.85 20.78 20.82 19175 1907.5 23.58 23.14 23.25 22.55 22.57 22.56 22.56 22.42 22.15 22.54 21.71 21.59 21.59 21.66 21.48 21.22 21.46 20.66 20.72 20.69 20.71 Low Mid High 18607 1850.7 23.56 23.26 23.58 23.80 23.71 23.73 22.89 22.61 22.10 22.41 22.75 22.81 22.67 21.75 21.47 21.15 21.37 21.80 21.70 21.54 20.65 18900 1880.0 23.86 23.38 23.62 23.87 23.85 23.81 22.98 22.55 22.20 22.54 22.88 22.80 22.88 21.82 21.69 21.42 21.61 21.98 21.81 21.89 20.83 19193 1909.3 23.45 23.14 23.35 23.74 23.62 23.66 22.78 22.60 22.13 22.42 22.59 22.71 22.65 21.48 21.60 21.12 21.34 21.74 21.62 21.64 20.60 Page No.
: 32 of 56 Issued Date
: Nov. 19, 2018 BW MCS Index RB Size RB Offset Channel Frequency (MHz) QPSK 20M 16QAM 64QAM BW MCS Index QPSK 10M 16QAM 64QAM BW MCS Index QPSK 3M 16QAM 64QAM 1 1 1 50 50 50 100 1 1 1 50 50 50 100 1 1 1 50 50 50 100 RB Size 0 50 99 0 25 50 0 0 50 99 0 25 50 0 0 50 99 0 25 50 0 RB Offset Channel Frequency (MHz) 1 1 1 25 25 25 50 1 1 1 25 25 25 50 1 1 1 25 25 25 50 RB Size 0 24 49 0 12 25 0 0 24 49 0 12 25 0 0 24 49 0 12 25 0 RB Offset Channel Frequency (MHz) 1 1 1 8 8 8 15 1 1 1 8 8 8 15 1 1 1 8 8 8 15 0 7 14 0 3 7 0 0 7 14 0 3 7 0 0 7 14 0 3 7 0 Report Format Version 5.0.0 Report No. : SA181015C09 FCC SAR Test Report BW MCS Index RB Size RB Offset Channel Frequency (MHz) QPSK 20M 16QAM 64QAM BW MCS Index QPSK 10M 16QAM 64QAM BW MCS Index QPSK 3M 16QAM 64QAM 1 1 1 50 50 50 100 1 1 1 50 50 50 100 1 1 1 50 50 50 100 RB Size 0 50 99 0 25 50 0 0 50 99 0 25 50 0 0 50 99 0 25 50 0 RB Offset Channel Frequency (MHz) 1 1 1 25 25 25 50 1 1 1 25 25 25 50 1 1 1 25 25 25 50 RB Size 0 24 49 0 12 25 0 0 24 49 0 12 25 0 0 24 49 0 12 25 0 RB Offset Channel Frequency (MHz) 1 1 1 8 8 8 15 1 1 1 8 8 8 15 1 1 1 8 8 8 15 0 7 14 0 3 7 0 0 7 14 0 3 7 0 0 7 14 0 3 7 0 Report Format Version 5.0.0 Report No. : SA181015C09 LTE Band 4 3GPP MPR
(dB) BW MCS Index RB Size RB Offset Channel Frequency (MHz) 0 0 0 1 1 1 1 1 1 1 2 2 2 2 2 2 2 3 3 3 3 QPSK 15M 16QAM 64QAM 3GPP MPR
(dB) BW MCS Index 0 0 0 1 1 1 1 1 1 1 2 2 2 2 2 2 2 3 3 3 3 QPSK 5M 16QAM 64QAM 3GPP MPR
(dB) BW MCS Index 0 0 0 1 1 1 1 1 1 1 2 2 2 2 2 2 2 3 3 3 3 QPSK 1.4M 16QAM 64QAM 1 1 1 36 36 36 75 1 1 1 36 36 36 75 1 1 1 36 36 36 75 RB Size 0 37 74 0 19 39 0 0 37 74 0 19 39 0 0 37 74 0 19 39 0 RB Offset Channel Frequency (MHz) 1 1 1 12 12 12 25 1 1 1 12 12 12 25 1 1 1 12 12 12 25 RB Size 0 12 24 0 6 13 0 0 12 24 0 6 13 0 0 12 24 0 6 13 0 RB Offset Channel Frequency (MHz) 1 1 1 3 3 3 6 1 1 1 3 3 3 6 1 1 1 3 3 3 6 0 2 5 0 1 3 0 0 2 5 0 1 3 0 0 2 5 0 1 3 0 Low Mid High 20025 1717.5 23.55 23.47 23.53 22.61 22.61 22.60 22.62 22.50 22.42 22.37 21.58 21.52 21.47 21.52 21.54 21.39 21.49 20.62 20.54 20.64 20.52 20175 1732.5 23.74 23.67 23.72 22.96 22.91 22.86 22.94 22.74 22.61 22.67 21.82 21.79 21.80 21.87 21.64 21.60 21.72 20.84 20.86 20.86 20.86 20325 1747.5 23.89 23.83 23.79 22.97 23.00 23.00 22.98 22.84 22.84 22.82 21.94 21.96 21.89 21.90 21.89 21.68 21.77 20.95 20.98 20.90 20.94 Low Mid High 19975 1712.5 23.45 23.39 23.52 22.62 22.69 22.62 22.57 22.50 22.40 22.42 21.61 21.46 21.50 21.44 21.48 21.28 21.41 20.68 20.54 20.45 20.56 20175 1732.5 23.78 23.62 23.58 22.86 22.76 22.68 22.70 22.64 22.46 22.58 21.87 21.77 21.72 21.65 21.60 21.54 21.60 20.76 20.73 20.75 20.82 20375 1752.5 23.78 23.71 23.85 22.76 22.82 22.87 22.88 22.79 22.61 22.71 21.84 21.88 21.79 21.99 21.81 21.68 21.85 20.91 20.87 20.94 20.83 Low Mid High 19957 1710.7 23.42 23.38 23.41 23.56 23.61 23.59 22.57 22.44 22.36 22.36 22.54 22.43 22.44 21.49 21.41 21.39 21.47 21.60 21.56 21.47 20.34 20175 1732.5 23.77 23.53 23.73 23.81 23.84 23.81 22.73 22.60 22.52 22.67 22.81 22.76 22.64 21.77 21.65 21.41 21.61 21.89 21.83 21.68 20.76 20393 1754.3 23.89 23.81 23.77 23.95 23.94 23.87 22.98 22.70 22.76 22.84 22.96 22.99 22.82 21.95 21.75 21.58 21.75 21.97 21.86 21.95 20.97 Low Mid High 20050 1720.0 23.60 23.52 23.56 22.71 22.69 22.65 22.67 22.55 22.42 22.53 21.67 21.62 21.63 21.66 21.57 21.50 21.48 20.63 20.66 20.59 20.62 20175 1732.5 23.83 23.72 23.76 22.97 22.95 22.91 22.95 22.82 22.64 22.71 21.92 21.91 21.91 21.95 21.77 21.62 21.67 20.91 20.85 20.89 20.86 20300 1745.0 23.96 23.86 23.89 22.99 22.97 22.96 22.98 22.88 22.82 22.81 21.95 21.94 21.95 21.96 21.96 21.80 21.85 20.97 20.92 20.95 20.99 Low Mid High 20000 1715.0 23.53 23.34 23.46 22.61 22.44 22.48 22.51 22.47 22.47 22.33 21.51 21.50 21.54 21.43 21.46 21.41 21.35 20.61 20.53 20.54 20.46 20175 1732.5 23.67 23.66 23.66 22.74 22.78 22.80 22.81 22.66 22.46 22.57 21.76 21.83 21.75 21.77 21.73 21.44 21.50 20.88 20.78 20.83 20.73 20350 1750.0 23.75 23.63 23.67 22.90 22.90 22.87 22.93 22.75 22.66 22.71 21.97 21.90 21.84 21.79 21.69 21.74 21.69 20.97 20.82 20.92 20.86 Low Mid High 20175 1732.5 23.72 23.64 23.65 22.89 22.87 22.68 22.84 22.59 22.52 22.58 21.76 21.88 21.66 21.85 21.69 21.53 21.51 20.69 20.88 20.75 20.78 20385 1753.5 23.83 23.74 23.71 22.96 22.92 22.94 22.97 22.80 22.57 22.62 21.91 21.83 21.97 21.84 21.76 21.67 21.64 20.92 20.84 20.89 20.80 19965 1711.5 23.57 23.42 23.52 22.57 22.62 22.53 22.49 22.50 22.31 22.37 21.48 21.66 21.35 21.55 21.43 21.38 21.40 20.42 20.48 20.47 20.63 3GPP MPR
(dB) 0 0 0 1 1 1 1 1 1 1 2 2 2 2 2 2 2 3 3 3 3 3GPP MPR
(dB) 0 0 0 1 1 1 1 1 1 1 2 2 2 2 2 2 2 3 3 3 3 3GPP MPR
(dB) 0 0 0 0 0 0 1 1 1 1 1 1 1 2 2 2 2 2 2 2 3 Page No.
: 33 of 56 Issued Date
: Nov. 19, 2018 FCC SAR Test Report BW MCS Index RB Size RB Offset Channel Frequency (MHz) QPSK 10M 16QAM 64QAM BW MCS Index QPSK 3M 16QAM 64QAM 1 1 1 25 25 25 50 1 1 1 25 25 25 50 1 1 1 25 25 25 50 RB Size 0 24 49 0 12 25 0 0 24 49 0 12 25 0 0 24 49 0 12 25 0 RB Offset Channel Frequency (MHz) 1 1 1 8 8 8 15 1 1 1 8 8 8 15 1 1 1 8 8 8 15 0 7 14 0 3 7 0 0 7 14 0 3 7 0 0 7 14 0 3 7 0 Low Mid High 20450 829.0 23.32 22.95 23.23 22.40 22.37 22.33 22.35 22.26 21.90 22.05 21.38 21.29 21.20 21.25 21.28 20.84 21.05 20.36 20.30 20.24 20.28 20525 836.5 23.43 23.05 23.24 22.48 22.46 22.41 22.46 22.41 22.00 22.20 21.38 21.40 21.37 21.43 21.40 21.04 21.22 20.39 20.46 20.31 20.37 20600 844.0 23.35 23.00 23.17 22.43 22.40 22.36 22.39 22.25 21.91 22.10 21.38 21.32 21.32 21.28 21.34 20.90 21.13 20.42 20.39 20.32 20.34 Low Mid High 20525 836.5 23.37 22.92 23.14 22.30 22.40 22.35 22.38 22.19 21.97 21.98 21.26 21.34 21.24 21.16 21.29 20.82 21.10 20.33 20.25 20.27 20.26 20635 847.5 23.23 22.93 23.01 22.22 22.30 22.21 22.22 22.17 21.81 21.89 21.23 21.18 21.23 21.17 21.32 20.81 21.07 20.35 20.23 20.23 20.13 20415 825.5 23.10 22.75 22.99 22.19 22.27 22.18 22.21 22.14 21.80 21.85 21.24 21.33 21.13 21.10 21.11 20.75 20.98 20.33 20.17 20.15 20.24 LTE Band 5 3GPP MPR
(dB) BW MCS Index RB Size RB Offset Channel Frequency (MHz) 0 0 0 1 1 1 1 1 1 1 2 2 2 2 2 2 2 3 3 3 3 QPSK 5M 16QAM 64QAM 3GPP MPR
(dB) BW MCS Index 0 0 0 1 1 1 1 1 1 1 2 2 2 2 2 2 2 3 3 3 3 QPSK 1.4M 16QAM 64QAM 1 1 1 12 12 12 25 1 1 1 12 12 12 25 1 1 1 12 12 12 25 RB Size 0 12 24 0 6 13 0 0 12 24 0 6 13 0 0 12 24 0 6 13 0 RB Offset Channel Frequency (MHz) 1 1 1 3 3 3 6 1 1 1 3 3 3 6 1 1 1 3 3 3 6 0 2 5 0 1 3 0 0 2 5 0 1 3 0 0 2 5 0 1 3 0 Low Mid High 20425 826.5 23.14 22.81 22.98 22.28 22.27 22.12 22.21 22.10 21.81 21.93 21.25 21.20 21.08 21.31 21.13 20.78 20.83 20.18 20.12 20.20 20.14 20525 836.5 23.23 22.97 23.02 22.35 22.46 22.22 22.25 22.20 21.76 22.01 21.28 21.30 21.23 21.38 21.31 20.85 21.10 20.31 20.36 20.27 20.27 20625 846.5 23.03 22.77 22.91 22.21 22.22 22.18 22.16 22.28 21.89 21.84 21.11 21.10 21.11 21.18 21.08 20.71 20.94 20.30 20.11 20.15 20.09 Low Mid High 20407 824.7 23.11 22.72 23.08 23.36 23.36 23.29 22.16 22.17 21.72 21.86 22.32 22.30 22.08 21.22 21.15 20.76 20.89 21.26 21.27 21.23 20.22 20525 836.5 23.35 22.92 23.09 23.26 23.38 23.29 22.31 22.24 21.86 21.97 22.21 22.26 22.12 21.35 21.30 20.79 21.07 21.32 21.22 21.13 20.24 20643 848.3 23.12 22.81 22.92 23.25 23.27 23.17 22.31 22.33 21.79 22.05 22.18 22.24 22.21 21.15 21.15 20.66 21.06 21.24 21.23 21.13 20.22 3GPP MPR
(dB) 0 0 0 1 1 1 1 1 1 1 2 2 2 2 2 2 2 3 3 3 3 3GPP MPR
(dB) 0 0 0 0 0 0 1 1 1 1 1 1 1 2 2 2 2 2 2 2 3 Report Format Version 5.0.0 Report No. : SA181015C09 Page No.
: 34 of 56 Issued Date
: Nov. 19, 2018 FCC SAR Test Report BW MCS Index RB Size RB Offset Channel Frequency (MHz) QPSK 10M 16QAM 64QAM BW MCS Index QPSK 3M 16QAM 64QAM 1 1 1 25 25 25 50 1 1 1 25 25 25 50 1 1 1 25 25 25 50 RB Size 0 24 49 0 12 25 0 0 24 49 0 12 25 0 0 24 49 0 12 25 0 RB Offset Channel Frequency (MHz) 1 1 1 8 8 8 15 1 1 1 8 8 8 15 1 1 1 8 8 8 15 0 7 14 0 3 7 0 0 7 14 0 3 7 0 0 7 14 0 3 7 0 Low Mid High 23060 704.0 23.18 22.95 23.05 22.29 22.24 22.14 22.26 22.08 21.94 21.97 21.23 21.14 21.04 21.19 21.14 20.86 20.96 20.26 20.18 20.04 20.23 23095 707.5 23.25 22.97 23.12 22.34 22.28 22.21 22.32 22.23 21.96 22.06 21.34 21.19 21.14 21.28 21.16 20.92 21.07 20.28 20.21 20.20 20.26 23130 711.0 23.19 22.91 23.06 22.31 22.25 22.17 22.28 22.19 21.86 22.04 21.25 21.20 21.12 21.23 21.19 20.91 21.02 20.27 20.16 20.09 20.25 Low Mid High 23095 707.5 23.05 22.88 23.01 22.29 22.21 22.10 22.14 22.00 21.78 22.03 21.24 21.05 21.10 21.06 21.09 20.84 20.82 20.24 20.13 19.94 20.02 23165 714.5 22.96 22.78 23.00 22.15 22.07 21.97 22.22 22.03 21.82 21.92 21.23 21.10 20.94 21.09 21.05 20.86 20.94 20.17 20.04 19.92 20.11 23025 700.5 23.08 22.89 22.91 22.07 22.01 22.01 22.09 21.90 21.75 21.71 21.15 21.11 20.91 21.08 20.93 20.80 20.87 20.11 20.05 19.95 20.07 LTE Band 12 3GPP MPR
(dB) BW MCS Index RB Size RB Offset Channel Frequency (MHz) 0 0 0 1 1 1 1 1 1 1 2 2 2 2 2 2 2 3 3 3 3 QPSK 5M 16QAM 64QAM 3GPP MPR
(dB) BW MCS Index 0 0 0 1 1 1 1 1 1 1 2 2 2 2 2 2 2 3 3 3 3 QPSK 1.4M 16QAM 64QAM 1 1 1 12 12 12 25 1 1 1 12 12 12 25 1 1 1 12 12 12 25 RB Size 0 12 24 0 6 13 0 0 12 24 0 6 13 0 0 12 24 0 6 13 0 RB Offset Channel Frequency (MHz) 1 1 1 3 3 3 6 1 1 1 3 3 3 6 1 1 1 3 3 3 6 0 2 5 0 1 3 0 0 2 5 0 1 3 0 0 2 5 0 1 3 0 Low Mid High 23035 701.5 23.06 22.76 22.85 22.11 22.11 21.98 22.15 22.01 21.81 21.98 21.18 21.11 20.92 21.00 21.09 20.67 20.80 20.14 19.99 19.90 20.05 23095 707.5 23.18 22.84 22.99 22.28 22.17 22.01 22.18 22.09 21.76 21.91 21.15 21.06 20.97 21.03 21.23 20.86 20.81 20.19 20.18 19.97 20.18 23155 713.5 22.95 22.82 22.92 22.02 21.88 21.93 22.12 21.89 21.77 21.93 21.11 21.11 20.93 21.11 21.02 20.68 21.05 20.03 20.16 20.12 20.02 Low Mid High 23017 699.7 23.07 22.85 22.97 23.22 23.21 23.11 22.13 22.04 21.81 21.85 22.05 22.06 21.90 21.14 20.86 20.67 20.85 21.18 21.06 20.91 20.08 23095 707.5 23.04 22.79 23.06 23.11 23.08 23.15 22.14 22.20 21.77 21.97 22.09 22.13 22.08 21.28 21.05 20.91 20.93 21.23 21.06 21.00 20.09 23173 715.3 23.14 22.76 22.98 23.19 23.04 23.15 22.16 22.03 21.70 21.96 22.16 22.08 22.13 21.19 21.03 20.65 20.79 21.15 21.09 20.93 20.13 3GPP MPR
(dB) 0 0 0 1 1 1 1 1 1 1 2 2 2 2 2 2 2 3 3 3 3 3GPP MPR
(dB) 0 0 0 0 0 0 1 1 1 1 1 1 1 2 2 2 2 2 2 2 3 Report Format Version 5.0.0 Report No. : SA181015C09 Page No.
: 35 of 56 Issued Date
: Nov. 19, 2018 FCC SAR Test Report BW MCS Index RB Size RB Offset Channel Frequency (MHz) QPSK 10M 16QAM 64QAM 1 1 1 25 25 25 50 1 1 1 25 25 25 50 1 1 1 25 25 25 50 0 24 49 0 12 25 0 0 24 49 0 12 25 0 0 24 49 0 12 25 0 BW MCS Index RB Size RB Offset Channel Frequency (MHz) QPSK 10M 16QAM 64QAM 1 1 1 25 25 25 50 1 1 1 25 25 25 50 1 1 1 25 25 25 50 0 24 49 0 12 25 0 0 24 49 0 12 25 0 0 24 49 0 12 25 0 Low Mid High 23330 793.0 23.31 22.76 23.09 22.36 22.32 22.23 22.31 22.30 21.71 21.99 21.35 21.31 21.23 21.28 21.29 20.75 21.05 20.32 20.28 20.14 20.29 Mid 27710 2310.0 22.82 22.41 22.84 22.06 21.96 22.09 22.07 21.80 21.39 21.82 21.04 20.94 21.07 21.05 20.77 20.36 20.79 20.01 19.91 20.04 20.02 LTE Band 14 3GPP MPR
(dB) BW MCS Index RB Size RB Offset Channel Frequency (MHz) 0 0 0 1 1 1 1 1 1 1 2 2 2 2 2 2 2 3 3 3 3 QPSK 5M 16QAM 64QAM 1 1 1 12 12 12 25 1 1 1 12 12 12 25 1 1 1 12 12 12 25 0 12 24 0 6 13 0 0 12 24 0 6 13 0 0 12 24 0 6 13 0 LTE Band 30 3GPP MPR
(dB) BW MCS Index RB Size RB Offset Channel Frequency (MHz) 0 0 0 1 1 1 1 1 1 1 2 2 2 2 2 2 2 3 3 3 3 QPSK 5M 16QAM 64QAM 1 1 1 12 12 12 25 1 1 1 12 12 12 25 1 1 1 12 12 12 25 0 12 24 0 6 13 0 0 12 24 0 6 13 0 0 12 24 0 6 13 0 3GPP MPR
(dB) 0 0 0 1 1 1 1 1 1 1 2 2 2 2 2 2 2 3 3 3 3 Low Mid High 22.95 22.74 22.72 22.19 22.16 22.18 22.27 21.94 22.18 22.24 21.15 21.49 21.47 21.44 20.95 21.26 21.41 20.27 20.48 20.46 20.49 23330 793.0 23.04 22.83 22.81 22.28 22.25 22.27 22.36 21.97 21.81 21.78 21.21 21.22 21.18 21.34 21.03 20.77 20.73 20.22 20.22 20.25 20.30 22.87 22.66 22.64 22.11 22.08 22.10 22.19 21.91 22.33 22.30 21.32 21.32 21.46 21.43 20.90 21.19 21.24 20.09 20.49 20.42 20.48 Low Mid High 27685 2307.5 22.71 22.38 22.73 21.98 21.86 21.98 21.96 21.76 21.36 21.78 20.98 20.84 20.98 20.96 20.65 20.25 20.67 19.87 19.73 19.87 19.85 27710 2310.0 22.69 22.28 22.71 21.93 21.83 21.96 21.94 21.74 21.31 21.76 20.89 20.78 20.96 20.92 20.63 20.20 20.65 19.78 19.67 19.85 19.81 27735 2312.5 22.65 22.26 22.61 21.91 21.80 21.93 21.90 21.68 21.27 21.72 20.86 20.75 20.92 20.86 20.57 20.16 20.61 19.75 19.64 19.81 19.75 3GPP MPR
(dB) 0 0 0 1 1 1 1 1 1 1 2 2 2 2 2 2 2 3 3 3 3 Report Format Version 5.0.0 Report No. : SA181015C09 Page No.
: 36 of 56 Issued Date
: Nov. 19, 2018 RB Offset Low Mid High FCC SAR Test Report BW MCS Index RB Size RB Offset Channel Frequency (MHz) QPSK 20M 16QAM 64QAM BW MCS Index QPSK 10M 16QAM 64QAM BW MCS Index QPSK 3M 16QAM 64QAM 0 50 99 0 25 50 0 0 50 99 0 25 50 0 0 50 99 0 25 50 0 1 1 1 50 50 50 100 1 1 1 50 50 50 100 1 1 1 50 50 50 100 RB Size Channel Frequency (MHz) 1 1 1 25 25 25 50 1 1 1 25 25 25 50 1 1 1 25 25 25 50 RB Size 0 24 49 0 12 25 0 0 24 49 0 12 25 0 0 24 49 0 12 25 0 RB Offset Channel Frequency (MHz) 1 1 1 8 8 8 15 1 1 1 8 8 8 15 1 1 1 8 8 8 15 0 7 14 0 3 7 0 0 7 14 0 3 7 0 0 7 14 0 3 7 0 Report Format Version 5.0.0 Report No. : SA181015C09 Low Mid High 132072 1720.0 23.73 23.55 23.58 22.89 22.75 22.80 22.86 21.94 22.18 22.24 21.15 21.66 21.93 21.54 20.95 21.26 21.41 20.27 20.68 20.83 20.64 132322 1745.0 23.99 23.80 23.86 22.97 22.94 22.96 22.95 22.94 22.74 22.79 21.97 21.92 21.94 21.86 21.91 21.78 21.82 20.92 20.92 20.88 20.88 132572 1770.0 23.96 23.79 23.85 22.94 22.92 22.89 22.89 21.91 22.33 22.30 21.32 21.68 21.74 21.63 20.90 21.19 21.24 20.09 20.69 20.92 20.48 132022 1715.0 23.60 23.51 23.52 22.76 22.67 22.67 22.69 21.81 22.02 22.16 21.13 21.55 21.74 21.46 20.80 21.06 21.39 20.16 20.60 20.67 20.46 132322 1745.0 23.94 23.68 23.73 22.89 22.89 22.79 22.79 22.85 22.57 22.57 21.76 21.79 21.83 21.82 21.87 21.59 21.65 20.75 20.72 20.76 20.73 132622 1775.0 23.76 23.69 23.69 22.91 22.74 22.80 22.81 21.71 22.09 22.14 21.21 21.59 21.50 21.50 20.89 20.98 21.04 19.86 20.57 20.67 20.29 Low Mid High 132322 1745.5 23.81 23.65 23.78 22.83 22.84 22.94 22.83 22.75 22.61 22.74 21.78 21.67 21.72 21.79 21.82 21.54 21.63 20.74 20.72 20.71 20.81 132657 1778.5 23.84 23.66 23.75 22.85 22.74 22.79 22.85 21.80 22.23 22.09 21.28 21.59 21.62 21.46 20.69 21.16 21.14 19.99 20.56 20.81 20.47 131987 1711.5 23.55 23.39 23.44 22.77 22.57 22.66 22.63 21.80 22.14 22.09 21.03 21.52 21.77 21.39 20.73 21.08 21.17 20.19 20.60 20.71 20.55 LTE Band 66 3GPP MPR
(dB) BW MCS Index RB Size RB Offset Channel Frequency (MHz) 0 0 0 1 1 1 1 1 1 1 2 2 2 2 2 2 2 3 3 3 3 QPSK 15M 16QAM 64QAM 1 1 1 36 36 36 75 1 1 1 36 36 36 75 1 1 1 36 36 36 75 0 37 74 0 19 39 0 0 37 74 0 19 39 0 0 37 74 0 19 39 0 3GPP MPR
(dB) BW MCS Index RB Size RB Offset Channel Frequency (MHz) 0 0 0 1 1 1 1 1 1 1 2 2 2 2 2 2 2 3 3 3 3 QPSK 5M 16QAM 64QAM 3GPP MPR
(dB) BW MCS Index 0 0 0 1 1 1 1 1 1 1 2 2 2 2 2 2 2 3 3 3 3 QPSK 1.4M 16QAM 64QAM 1 1 1 12 12 12 25 1 1 1 12 12 12 25 1 1 1 12 12 12 25 RB Size 0 12 24 0 6 13 0 0 12 24 0 6 13 0 0 12 24 0 6 13 0 RB Offset Channel Frequency (MHz) 1 1 1 3 3 3 6 1 1 1 3 3 3 6 1 1 1 3 3 3 6 0 2 5 0 1 3 0 0 2 5 0 1 3 0 0 2 5 0 1 3 0 3GPP MPR
(dB) 0 0 0 1 1 1 1 1 1 1 2 2 2 2 2 2 2 3 3 3 3 3GPP MPR
(dB) 0 0 0 1 1 1 1 1 1 1 2 2 2 2 2 2 2 3 3 3 3 3GPP MPR
(dB) 0 0 0 0 0 0 1 1 1 1 1 1 1 2 2 2 2 2 2 2 3 Low Mid High 132047 1717.5 23.71 23.45 23.56 22.86 22.73 22.73 22.82 21.88 22.09 22.17 21.14 21.63 21.91 21.53 20.88 21.24 21.34 20.20 20.58 20.81 20.62 132322 1745.0 23.94 23.77 23.77 22.88 22.88 22.88 22.87 22.93 22.70 22.78 21.88 21.80 21.91 21.90 21.96 21.74 21.77 20.94 20.80 20.86 20.82 132597 1772.5 23.90 23.75 23.82 22.90 22.85 22.84 22.80 21.84 22.31 22.21 21.28 21.67 21.64 21.57 20.88 21.13 21.17 20.02 20.59 20.84 20.42 Low Mid High 131997 1712.5 23.63 23.48 23.36 22.75 22.65 22.57 22.67 21.82 22.09 22.11 20.98 21.58 21.79 21.33 20.82 21.12 21.37 20.18 20.56 20.71 20.55 132322 1745.0 23.86 23.62 23.64 22.91 22.73 22.88 22.79 22.86 22.55 22.72 21.75 21.83 21.82 21.66 21.81 21.78 21.74 20.83 20.80 20.72 20.88 132647 1777.5 23.84 23.52 23.62 22.75 22.72 22.78 22.71 21.78 22.18 22.21 21.17 21.51 21.55 21.53 20.71 21.06 21.14 19.93 20.44 20.77 20.34 Low Mid High 131979 1710.7 23.62 23.50 23.39 23.77 23.63 23.76 22.71 21.81 21.95 22.18 22.04 22.49 22.78 21.50 20.75 21.19 21.24 21.19 21.64 21.65 20.46 132322 1745.0 23.78 23.61 23.69 23.89 23.84 23.85 22.87 22.83 22.59 22.70 22.71 22.65 22.78 21.72 21.89 21.61 21.71 21.85 21.79 21.79 20.73 132665 1779.3 23.89 23.65 23.64 23.72 23.71 23.81 22.74 21.81 22.24 22.10 22.22 22.52 22.65 21.57 20.86 21.02 21.11 20.89 21.59 21.83 20.27 Page No.
: 37 of 56 Issued Date
: Nov. 19, 2018 FCC SAR Test Report
<WLAN 2.4G>
Mode Channel Frequency (MHz) Average Power Average Power
(Ant-0)
(Ant-1) Average Power
(Ant-0 + Ant-1) 802.11b
<WLAN 5.2G>
1 6 11 2412 2437 2462 9.88 9.91 9.85 9.83 9.92 9.81 12.87 12.93 12.84 Mode Channel Frequency (MHz) 802.11ac (VHT80) 42 5210 Average Power Average Power
(Ant-0) 9.87
(Ant-1) 9.89 Average Power
(Ant-0 + Ant-1) 12.89
<WLAN 5.8G>
Mode Channel Frequency (MHz) 802.11ac (VHT80) 155 5775 Average Power Average Power
(Ant-0) 9.87
(Ant-1) 9.89 Average Power
(Ant-0 + Ant-1) 12.89 Report Format Version 5.0.0 Report No. : SA181015C09 Page No.
: 38 of 56 Issued Date
: Nov. 19, 2018 FCC SAR Test Report 4.7 SAR Testing Results 4.7.1 SAR Test Reduction Considerations
<KDB 447498 D01, General RF Exposure Guidance>
Testing of other required channels within the operating mode of a frequency band is not required when the reported SAR for the mid-band or highest output power channel is:
(1) 0.8 W/kg or 2.0 W/kg, for 1-g or 10-g respectively, when the transmission band is 100 MHz
(2) 0.6 W/kg or 1.5 W/kg, for 1-g or 10-g respectively, when the transmission band is between 100 MHz and 200 MHz
(3) 0.4 W/kg or 1.0 W/kg, for 1-g or 10-g respectively, when the transmission band is 200 MHz When SAR is not measured at the maximum power level allowed for production units, the measured SAR will be scaled to the maximum tune-up tolerance limit to determine compliance. The scaling factor for the tune-up power is defined as maximum tune-up limit (mW) / measured conducted power (mW). The reported SAR would be calculated by measured SAR x tune-up power scaling factor. The SAR has been measured with highest transmission duty factor supported by the test mode tools for WLAN and/or Bluetooth. When the transmission duty factor could not achieve 100%, the reported SAR will be scaled to 100% transmission duty factor to determine compliance at the maximum tune-up power. The scaling factor for the duty factor is defined as 100% / transmission duty cycle (%). The reported SAR would be calculated by measured SAR x tune-up power scaling factor x duty cycle scaling factor.
<KDB 941225 D01, 3G SAR Measurement Procedures>
The mode tested for SAR is referred to as the primary mode. The equivalent modes considered for SAR test reduction are denoted as secondary modes. Both primary and secondary modes must be in the same frequency band. When the maximum output power and tune-up tolerance specified for production units in a secondary mode is 1/4 dB higher than the primary mode or when the highest reported SAR of the primary mode is scaled by the ratio of specified maximum output power and tune-up tolerance of secondary to primary mode and the adjusted SAR is 1.2 W/kg, SAR measurement is not required for the secondary mode.
<KDB 941225 D05, SAR Evaluation Considerations for LTE Devices>
(1) QPSK with 1 RB and 50% RB allocation Start with the largest channel bandwidth and measure SAR, using the RB offset and required test channel combination with the highest maximum output power among RB offsets at the upper edge, middle and lower edge of each required test channel. When the reported SAR is 0.8 W/kg, testing of the remaining RB offset configurations and required test channels is not required; otherwise, SAR is required for the remaining required test channels and only for the RB offset configuration with the highest output power for that channel. When the reported SAR of a required test channel is > 1.45 W/kg, SAR is required for all three RB offset configurations for that required test channel. Report Format Version 5.0.0 Report No. : SA181015C09 Page No.
: 39 of 56 Issued Date
: Nov. 19, 2018 FCC SAR Test Report
(2) QPSK with 100% RB allocation SAR is not required when the highest maximum output power for 100% RB allocation is less than the highest maximum output power in 50% and 1 RB allocations and the highest reported SAR for 1 RB and 50% RB allocation are 0.8 W/kg. Otherwise, SAR is measured for the highest output power channel; and if the reported SAR is > 1.45 W/kg, the remaining required test channels must also be tested.
(3) Higher order modulations SAR is required only when the highest maximum output power for the configuration in the higher order modulation is
> 1/2 dB higher than the same configuration in QPSK or when the reported SAR for the QPSK configuration is >
1.45 W/kg.
(4) Other channel bandwidth SAR is required when the highest maximum output power of the smaller channel bandwidth is > 1/2 dB higher than the equivalent channel configurations in the largest channel bandwidth configuration or the reported SAR of a configuration for the largest channel bandwidth is > 1.45 W/kg.
<Power Confirmation for SAR Test Exclusion for LTE Downlink CA>
According to KDB 941225 D05A, the uplink maximum output power below was measured with downlink CA active on the channel with highest measured maximum output power when downlink CA is inactive. The downlink SCC channel was paired with the uplink channel as normal operation. For intra-band contiguous CA, the downlink channel spacing between the component carriers was set to multiple of 300 kHz less than the nominal channel spacing per section 5.4.1A of 3GPP TS36.521. For intra-band non-contiguous CA, the downlink channel spacing between the component carriers was set to maximum separation from PCC and remain fully within the downlink transmission band. For Inter-band CA, the SCC downlink channel was set to near the middle of its transmission band. Power Measurements for Inter-Band Downlink CA PCC SCC1 SCC2 SCC3 Power CA Combination LTE Band BW
(MHz) UL Channel UL Freq.
(MHz) RB Size RB DL Offset Channel DL Freq.
(MHz) LTE Band BW
(MHz) DL Channel DL Freq.
(MHz) LTE Band BW
(MHz) DL Channel DL Freq.
(MHz) LTE Band BW
(MHz) DL Channel DL Freq.
(MHz) Single Carrier Tx Power
(dBm) Tx Power with DL-CA Active
(dBm) CA_2A-29A-30 A 2 20 18900 1880 CA_66A-46D 66 20 132322 1745 1 1 0 900 1960 0 66786 2145 29 46 10 9715 722.5 30 10 9820 2355
-
-
-
-
23.88 23.16 20 50492 5520.2 46 20 50690 5540 46 20 50888 5559.8 23.99 23.07 PCC SCC1 SCC2 Power CA Combination LTE Band BW
(MHz) UL Channel UL Freq.
(MHz) RB Size RB DL Offset Channel DL Freq.
(MHz) LTE Band BW
(MHz) DL Channel DL Freq.
(MHz) LTE Band BW
(MHz) DL Channel DL Freq.
(MHz) Single Carrier Tx Power
(dBm) Tx Power with DL-CA Active
(dBm) CA_2A-46D-66A 2 20 18900 1880 1 0 900 1960 46 20 50492 5520.2 46 20 50690 5540 SCC3 SCC4 LTE Band BW
(MHz) DL Channel DL Freq.
(MHz) LTE Band BW
(MHz) DL Channel DL Freq.
(MHz) 46 20 50888 5559.8 66 20 66886 2155 23.88 23.15 Report Format Version 5.0.0 Report No. : SA181015C09 Page No.
: 40 of 56 Issued Date
: Nov. 19, 2018 FCC SAR Test Report CA Combination LTE Band BW
(MHz) UL Channel PCC UL Freq.
(MHz) SCC1 SCC2 Power RB Size RB DL Offset Channel DL Freq.
(MHz) LTE Band BW
(MHz) DL Channel DL Freq.
(MHz) LTE Band BW
(MHz) DL Channel DL Freq.
(MHz) Single Carrier Tx Power
(dBm) Tx Power with DL-CA Active
(dBm) 2 20 18900 1880 1 0 900 1960 CA_2A-2A-12A-30 A-66A 2 20 1100 1980 12 10 5095 737.5 SCC3 SCC4 LTE Band BW
(MHz) DL Channel 30 10 9820 DL Freq.
(MHz) 2355 LTE Band BW
(MHz) DL Channel DL Freq.
(MHz) 66 20 66886 2155 23.88 23.03 CA Combination LTE Band BW
(MHz) UL Channel PCC UL Freq.
(MHz) SCC1 SCC2 Power RB Size RB DL Offset Channel DL Freq.
(MHz) LTE Band BW
(MHz) DL Channel DL Freq.
(MHz) LTE Band BW
(MHz) DL Channel DL Freq.
(MHz) Single Carrier Tx Power
(dBm) Tx Power with DL-CA Active
(dBm) 2 20 18900 1880 1 0 900 1960 CA_2A-2A-5A-30A
-66A 2 20 1100 1980 5 10 2525 881.5 SCC3 SCC4 LTE Band BW
(MHz) DL Channel 30 10 9820 DL Freq.
(MHz) 2355 LTE Band BW
(MHz) DL Channel DL Freq.
(MHz) 66 20 66886 2155 23.88 23.08 PCC SCC1 SCC2 Power CA Combination LTE Band BW
(MHz) UL Channel UL Freq.
(MHz) RB Size RB DL Offset Channel DL Freq.
(MHz) LTE Band BW
(MHz) DL Channel DL Freq.
(MHz) LTE Band BW
(MHz) DL Channel DL Freq.
(MHz) Single Carrier Tx Power
(dBm) Tx Power with DL-CA Active
(dBm) 2 20 18900 1880 1 0 900 1960 5 10 2525 881.5 30 10 9820 2355 SCC3 SCC4 LTE Band BW
(MHz) DL Channel DL Freq.
(MHz) LTE Band BW
(MHz) DL Channel DL Freq.
(MHz) 66 20 66536 2120 66 20 67036 2170 23.88 23.15 CA_2A-5A-30A-66 A-66A CA Combination LTE Band BW
(MHz) UL Channel PCC UL Freq.
(MHz) SCC1 SCC2 Power RB Size RB DL Offset Channel DL Freq.
(MHz) LTE Band BW
(MHz) DL Channel DL Freq.
(MHz) LTE Band BW
(MHz) DL Channel DL Freq.
(MHz) Single Carrier Tx Power
(dBm) Tx Power with DL-CA Active
(dBm) 2 20 18900 1880 1 0 900 1960 CA_2A-5B-30A-66 A 5 10 2476 876.6 5 10 2575 886.5 SCC3 SCC4 LTE Band BW
(MHz) DL Channel 30 10 9820 DL Freq.
(MHz) 2355 LTE Band BW
(MHz) DL Channel DL Freq.
(MHz) 66 20 66886 2155 23.88 23.11 CA Combination LTE Band BW
(MHz) UL Channel PCC UL Freq.
(MHz) SCC1 SCC2 Power RB Size RB DL Offset Channel DL Freq.
(MHz) LTE Band BW
(MHz) DL Channel DL Freq.
(MHz) LTE Band BW
(MHz) DL Channel DL Freq.
(MHz) Single Carrier Tx Power
(dBm) Tx Power with DL-CA Active
(dBm) CA_2A-12A-30A-6 6A-66A 2 20 18900 1880 1 0 900 1960 12 10 5095 737.5 30 10 9820 2355 SCC3 SCC4 LTE Band BW
(MHz) DL Channel 66 20 66536 DL Freq.
(MHz) 2120 LTE Band BW
(MHz) DL Channel DL Freq.
(MHz) 66 20 67036 2170 23.88 23.27 Report Format Version 5.0.0 Report No. : SA181015C09 Page No.
: 41 of 56 Issued Date
: Nov. 19, 2018 FCC SAR Test Report Power Measurements for Inter-Band Downlink CA (4*4 MIMO) PCC SCC1 SCC2 SCC3 Power CA Combination LTE Band BW
(MHz) UL Channel UL Freq.
(MHz) RB Size RB DL Offset Channel DL Freq.
(MHz) LTE Band BW
(MHz) DL Channel DL Freq.
(MHz) LTE Band BW
(MHz) DL Channel DL Freq.
(MHz) LTE Band BW
(MHz) DL Channel DL Freq.
(MHz) Single Carrier Tx Power
(dBm) Tx Power with DL-CA Active
(dBm) 2 2 20 18900 1880 20 18900 1880 2 20 18900 1880 12 10 23095 707.5 1 1 1 1 CA_2A-12A-12 A-66A(4*4) CA_2A(4*4)-12 A-30A CA_2A-12A-66 A(4*4) CA_12A_30A_ 66A(4*4) 0 900 1960 0 900 1960 12 12 10 5095 737.5 30 10 9820 2355 5 5035 731.5 12 5 5155 743.5 66 20 66886 2155 23.88 23.18 0 900 1960 12 0 5095 737.5 30 10 10 5095 737.5 66 20 66886 2155 9820 2355 66 20 66886 2155 23.88 23.13 23.88 23.25 23.25 23.20 Summary for SAR Test Exclusion for LTE Downlink CA Per power confirmation results in above, the uplink maximum output power with downlink CA active remains within the specified tune-up tolerance and not more than 0.25 dB higher than the maximum output power with downlink CA inactive. According to KDB 941225 D05A, the SAR test exclusion applies to LTE downlink CA operation.
<KDB 248227 D01, SAR Guidance for Wi-Fi Transmitters>
(1) For handsets operating next to ear, hotspot mode or mini-tablet configurations, the initial test position procedures were applied. The test position with the highest extrapolated peak SAR will be used as the initial test position. When the reported SAR of initial test position is <= 0.4 W/kg, SAR testing for remaining test positions is not required. Otherwise, SAR is evaluated at the subsequent highest peak SAR positions until the reported SAR result is <= 0.8 W/kg or all test positions are measured.
(2) For WLAN 2.4 GHz, the highest measured maximum output power channel for DSSS was selected for SAR measurement. When the reported SAR is <= 0.8 W/kg, no further SAR testing is required. Otherwise, SAR is evaluated at the next highest measured output power channel. When any reported SAR is > 1.2 W/kg, SAR is required for the third channel. For OFDM modes (802.11g/n), SAR is not required when the highest reported SAR for DSSS is adjusted by the ratio of OFDM to DSSS specified maximum output power and it is <= 1.2 W/kg.
(3) For WLAN 5 GHz, the initial test configuration was selected according to the transmission mode with the highest maximum output power. When the reported SAR of initial test configuration is > 0.8 W/kg, SAR is required for the subsequent highest measured output power channel until the reported SAR result is <= 1.2 W/kg or all required channels are measured. For other transmission modes, SAR is not required when the highest reported SAR for initial test configuration is adjusted by the ratio of subsequent test configuration to initial test configuration specified maximum output power and it is <= 1.2 W/kg.
(4) For WLAN MIMO mode, the power-based standalone SAR test exclusion or the sum of SAR provision in KDB 447498 to determine simultaneous transmission SAR test exclusion should be applied. Otherwise, SAR for MIMO mode will be measured with all applicable antennas transmitting simultaneously at the specified maximum output power of MIMO operation. Report Format Version 5.0.0 Report No. : SA181015C09 Page No.
: 42 of 56 Issued Date
: Nov. 19, 2018 FCC SAR Test Report 4.7.2 SAR Results for Body Exposure Condition (Test Separation Distance is 10 mm) Band Mode Test Position Ch. RB#
RB Offset Max. Tune-up Power
(dBm) Measured Conducted Power
(dBm) Scaling Factor Power Drift
(dB) Measured SAR-1g
(W/kg) Scaled SAR-1g
(W/kg) Plot No. 01 02 LTE 2 LTE 2 LTE 2 LTE 2 LTE 2 LTE 2 LTE 2 LTE 2 LTE 2 LTE 2 LTE 2 LTE 2 LTE 2 LTE 2 LTE 2 LTE 2 LTE 2 LTE 2 LTE 2 LTE 5 LTE 5 LTE 5 LTE 5 LTE 5 LTE 5 LTE 5 LTE 5 LTE 5 LTE 5 QPSK20M Front Face QPSK20M Rear Face QPSK20M Left Side QPSK20M Top Side 18900 18900 18900 18900 QPSK20M Bottom Side 18900 QPSK20M Front Face QPSK20M Rear Face QPSK20M Left Side QPSK20M Top Side 18900 18900 18900 18900 QPSK20M Bottom Side 18900 QPSK20M Front Face QPSK20M Front Face 18700 19100 QPSK20M Bottom Side 18700 QPSK20M Bottom Side 19100 QPSK20M Front Face QPSK20M Front Face QPSK20M Front Face 18700 19100 18900 QPSK20M Bottom Side 18900 QPSK20M Front Face 18700 QPSK10M Front Face QPSK10M Rear Face QPSK10M Left Side QPSK10M Top Side 20525 20525 20525 20525 QPSK10M Bottom Side 20525 QPSK10M Front Face QPSK10M Rear Face QPSK10M Left Side QPSK10M Top Side 20525 20525 20525 20525 QPSK10M Bottom Side 20525 03 LTE 12 QPSK10M Front Face LTE 12 QPSK10M Rear Face LTE 12 QPSK10M Left Side LTE 12 QPSK10M Top Side 23095 23095 23095 23095 LTE 12 QPSK10M Bottom Side 23095 LTE 12 QPSK10M Front Face LTE 12 QPSK10M Rear Face LTE 12 QPSK10M Left Side LTE 12 QPSK10M Top Side 23095 23095 23095 23095 LTE 12 QPSK10M Bottom Side 23095 1 1 1 1 1 50 50 50 50 50 1 1 1 1 50 50 100 100 1 1 1 1 1 1 25 25 25 25 25 1 1 1 1 1 25 25 25 25 25 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 24.0 24.0 24.0 24.0 24.0 23.0 23.0 23.0 23.0 23.0 24.0 24.0 24.0 24.0 23.0 23.0 23.0 23.0 24.0 24.0 24.0 24.0 24.0 24.0 23.0 23.0 23.0 23.0 23.0 24.0 24.0 24.0 24.0 24.0 23.0 23.0 23.0 23.0 23.0 23.88 23.88 23.88 23.88 23.88 22.99 22.99 22.99 22.99 22.99 23.74 23.68 23.74 23.68 22.93 22.85 22.98 22.98 23.74 23.43 23.43 23.43 23.43 23.43 22.48 22.48 22.48 22.48 22.48 23.25 23.25 23.25 23.25 23.25 22.34 22.34 22.34 22.34 22.34 1.03 1.03 1.03 1.03 1.03 1.00 1.00 1.00 1.00 1.00 1.06 1.08 1.06 1.08 1.02 1.04 1.00 1.00 1.06 1.14 1.14 1.14 1.14 1.14 1.13 1.13 1.13 1.13 1.13 1.19 1.19 1.19 1.19 1.19 1.16 1.16 1.16 1.16 1.16
-0.08
-0.07
-0.02
-0.01
-0.08
-0.09
-0.19
-0.10
-0.04
-0.17
-0.10 0.02 0.07 0.15
-0.16
-0.18 0.12
-0.05
-0.10
-0.01
-0.02 0.01 0.10 0.12 0.15 0.15 0.01 0.17
-0.04
-0.04 0.02 0.01 0.19 0.19 0.12
-0.16
-0.03 0.01 0.09 1.08 0.742 0.475 0.037 0.846 0.883 0.75 0.47 0.042 0.717 1.09 1.04 0.846 0.877 0.933 0.881 0.94 0.88 1.05 0.399 0.489 0.166 0.195 0.351 0.313 0.334 0.146 0.168 0.265 0.388 0.497 0.075 0.083 0.236 0.335 0.394 0.063 0.071 0.210 1.11 0.76 0.49 0.04 0.87 0.88 0.75 0.47 0.04 0.72 1.16 1.12 0.90 0.95 0.95 0.92 0.94 0.88 1.11 0.45 0.56 0.19 0.22 0.40 0.35 0.38 0.16 0.19 0.30 0.46 0.59 0.09 0.10 0.28 0.39 0.46 0.07 0.08 0.24 Report Format Version 5.0.0 Report No. : SA181015C09 Page No.
: 43 of 56 Issued Date
: Nov. 19, 2018 FCC SAR Test Report Band Mode Test Position Ch. RB#
RB Offset Max. Tune-up Power
(dBm) Measured Conducted Power
(dBm) Scaling Factor Power Drift
(dB) Measured SAR-1g
(W/kg) Scaled SAR-1g
(W/kg) Plot No. 04 LTE 14 QPSK10M Front Face LTE 14 QPSK10M Rear Face LTE 14 QPSK10M Left Side LTE 14 QPSK10M Top Side 23330 23330 23330 23330 LTE 14 QPSK10M Bottom Side 23330 LTE 14 QPSK10M Front Face LTE 14 QPSK10M Rear Face LTE 14 QPSK10M Left Side LTE 14 QPSK10M Top Side 23330 23330 23330 23330 LTE 14 QPSK10M Bottom Side 23330 05 LTE 30 QPSK10M Front Face LTE 30 QPSK10M Rear Face LTE 30 QPSK10M Left Side LTE 30 QPSK10M Front Face LTE 30 QPSK10M Rear Face LTE 30 QPSK10M Left Side LTE 30 QPSK10M Front Face LTE 30 QPSK10M Left Side LTE 30 QPSK10M Front Face 27710 27710 27710 27710 27710 27710 27710 27710 27710 06 LTE 66 QPSK20M Front Face 132322 LTE 66 QPSK20M Rear Face 132322 LTE 66 QPSK20M Left Side 132322 LTE 66 QPSK20M Top Side 132322 LTE 66 QPSK20M Bottom Side 132322 LTE 66 QPSK20M Front Face 132322 LTE 66 QPSK20M Rear Face 132322 LTE 66 QPSK20M Left Side LTE 66 QPSK20M Top Side 132322 132322 LTE 66 QPSK20M Bottom Side 132322 LTE 66 QPSK20M Front Face 132072 LTE 66 QPSK20M Front Face 132572 LTE 66 QPSK20M Rear Face 132072 LTE 66 QPSK20M Rear Face 132572 LTE 66 QPSK20M Bottom Side 132072 LTE 66 QPSK20M Bottom Side 132572 LTE 66 QPSK20M Front Face 132072 LTE 66 QPSK20M Front Face 132572 LTE 66 QPSK20M Front Face 132322 LTE 66 QPSK20M Rear Face 132322 LTE 66 QPSK20M Bottom Side 132322 LTE 66 QPSK20M Front Face 132322 1 1 1 1 1 25 25 25 25 25 1 1 1 25 25 25 50 50 1 1 1 1 1 1 50 50 50 50 50 1 1 1 1 1 1 50 50 100 100 100 1 0 0 0 0 0 0 0 0 0 0 49 49 49 25 25 25 0 0 49 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 24.0 24.0 24.0 24.0 24.0 23.0 23.0 23.0 23.0 23.0 23.5 23.5 23.5 22.5 22.5 22.5 22.5 22.5 23.5 24.0 24.0 24.0 24.0 24.0 23.0 23.0 23.0 23.0 23.0 24.0 24.0 24.0 24.0 24.0 24.0 23.0 23.0 23.0 23.0 23.0 24.0 23.31 23.31 23.31 23.31 23.31 22.36 22.36 22.36 22.36 22.36 22.84 22.84 22.84 22.09 22.09 22.09 22.07 22.07 22.84 23.99 23.99 23.99 23.99 23.99 22.97 22.97 22.97 22.97 22.97 23.73 23.96 23.73 23.96 23.73 23.96 22.89 22.94 22.95 22.95 22.95 23.99 1.17 1.17 1.17 1.17 1.17 1.16 1.16 1.16 1.16 1.16 1.16 1.16 1.16 1.10 1.10 1.10 1.10 1.10 1.16 1.00 1.00 1.00 1.00 1.00 1.01 1.01 1.01 1.01 1.01 1.06 1.01 1.06 1.01 1.06 1.01 1.03 1.01 1.01 1.01 1.01 1.00 0.02 0.07
-0.13
-0.14 0.11 0.13
-0.03
-0.08 0.18
-0.13
-0.03 0.08
-0.09
-0.08
-0.15
-0.01 0.11
-0.10
-0.03 0.02 0.09
-0.07
-0.10 0.05
-0.15
-0.02 0.03 0.08 0.17 0.12
-0.06 0.05
-0.03 0.07 0.18 0.04 0.12
-0.08 0.15
-0.05 0.01 0.654 0.674 0.081 0.148 0.486 0.52 0.552 0.104 0.143 0.335 0.938 0.416 0.907 0.845 0.351 0.756 0.822 0.764 0.821 1 0.800 0.526 0.084 0.884 0.843 0.676 0.414 0.074 0.695 0.812 0.983 0.652 0.771 0.726 0.851 0.651 0.793 0.822 0.66 0.736 0.987 0.77 0.79 0.09 0.17 0.57 0.60 0.64 0.12 0.17 0.39 1.09 0.48 1.05 0.93 0.39 0.83 0.90 0.84 0.95 1.00 0.80 0.53 0.08 0.88 0.85 0.68 0.42 0.07 0.70 0.86 0.99 0.69 0.78 0.77 0.86 0.67 0.80 0.83 0.67 0.74 0.99 Report Format Version 5.0.0 Report No. : SA181015C09 Page No.
: 44 of 56 Issued Date
: Nov. 19, 2018 FCC SAR Test Report Plot No. Band Mode Test Position Ch. Tx Ant enna Dut y C ycl e Crest Factor WLAN2.4G 802.11b Front Face WLAN2.4G 802.11b Rear Face WLAN2.4G 802.11b Top Side WLAN2.4G 802.11b Front Face WLAN2.4G 07 WLAN2.4G 802.11b Rear Face 802.11b Right Side WLAN2.4G 802.11b Top Side WLAN2.4G 802.11b Front Face WLAN2.4G 802.11b Rear Face WLAN2.4G 802.11b Right Side WLAN2.4G 802.11b Top Side WLAN5.2G 802. 11ac VHT80 Front Face WLAN5.2G 802. 11ac VHT80 Rear Face 08 WLAN5.2G 802. 11ac VHT80 Top Side WLAN5.2G 802. 11ac VHT80 Front Face WLAN5.2G 802. 11ac VHT80 Rear Face WLAN5.2G 802. 11ac VHT80 Right Side WLAN5.2G 802. 11ac VHT80 Top Side WLAN5.2G 802. 11ac VHT80 Front Face WLAN5.2G 802. 11ac VHT80 Rear Face WLAN5.2G 802. 11ac VHT80 Right Side WLAN5.2G 802. 11ac VHT80 Top Side 09 WLAN5.8G 802. 11ac VHT80 Front Face WLAN5.8G 802. 11ac VHT80 Rear Face WLAN5.8G 802. 11ac VHT80 Top Side WLAN5.8G 802. 11ac VHT80 Front Face WLAN5.8G 802. 11ac VHT80 Rear Face WLAN5.8G 802. 11ac VHT80 Right Side WLAN5.8G 802. 11ac VHT80 Top Side WLAN5.8G 802. 11ac VHT80 Front Face WLAN5.8G 802. 11ac VHT80 Rear Face WLAN5.8G 802. 11ac VHT80 Right Side WLAN5.8G 802. 11ac VHT80 Top Side 6 6 6 6 6 6 6 6 6 6 6 42 42 42 42 42 42 42 42 42 42 42 155 155 155 155 155 155 155 155 155 155 155 Ant 0 Ant 0 Ant 0 Ant 1 Ant 1 Ant 1 Ant 1 99.00 99.00 99.00 99.00 99.00 99.00 99.00 Ant 0+1 99.00 Ant 0+1 99.00 Ant 0+1 99.00 Ant 0+1 99.00 Ant 0 Ant 0 Ant 0 Ant 1 Ant 1 Ant 1 Ant 1 94.70 94.70 94.70 94.70 94.70 94.70 94.70 Ant 0+1 94.70 Ant 0+1 94.70 Ant 0+1 Ant 0+1 Ant 0 Ant 0 Ant 0 Ant 1 Ant 1 Ant 1 Ant 1 94.70 94.70 94.70 94.70 94.70 94.70 94.70 94.70 94.70 Ant 0+1 94.70 Ant 0+1 94.70 Ant 0+1 94.70 Ant 0+1 94.70 1.01 1.01 1.01 1.01 1.01 1.01 1.01 1.01 1.01 1.01 1.01 1.06 1.06 1.06 1.06 1.06 1.06 1.06 1.06 1.06 1.06 1.06 1.06 1.06 1.06 1.06 1.06 1.06 1.06 1.06 1.06 1.06 1.06 Max. Measur ed Tune-up Conducted Scali ng Po wer
(dBm) 10.0 10.0 10.0 10.0 10.0 10.0 10.0 13.0 13.0 13.0 13.0 10.0 10.0 10.0 10.0 10.0 10.0 10.0 13.0 13.0 13.0 13.0 10.0 10.0 10.0 10.0 10.0 10.0 10.0 13.0 13.0 13.0 13.0 Po wer
(dBm) 9.91 9.91 9.91 9.92 9.92 9.92 9.92 12.93 12.93 12.93 12.93 9.87 9.87 9.87 9.89 9.89 9.89 9.89 12.89 12.89 12.89 12.89 9.87 9.87 9.87 9.89 9.89 9.89 9.89 12.89 12.89 12.89 12.89 Factor 1.02 1.02 1.02 1.02 1.02 1.02 1.02 1.02 1.02 1.02 1.02 1.03 1.03 1.03 1.03 1.03 1.03 1.03 1.03 1.03 1.03 1.03 1.03 1.03 1.03 1.03 1.03 1.03 1.03 1.03 1.03 1.03 1.03 Po wer Measur ed Scal ed Drift
(dB) SAR-1g
(W /kg) SAR-1g
(W /kg)
-0.14 0.037 0.00 0.00 0.03 0.00 0.09 0.00
-0.11 0.00 0.00
-0.17
-0.16 0.00 0.11 0.03 0.00 0.00
-0.03 0.09 0.00 0.00 0.13
< 0.001
< 0.001 0.048
< 0.001 0.051
< 0.001 0.04
< 0.001
< 0.001 0.032 0.106
< 0.001 0.119 0.06
< 0.001
< 0.001 0.062 0.078
< 0.001
< 0.001 0.115
-0.01 0.063 0.00 0.00 0.00 0.00 0.00 0.00 0.03 0.00 0.00 0.00
< 0.001
< 0.001
< 0.001
< 0.001
< 0.001
< 0.001 0.052
< 0.001
< 0.001
< 0.001 0.04 0.00 0.00 0.05 0.00 0.05 0.00 0.04 0.00 0.00 0.03 0.12 0.00 0.13 0.07 0.00 0.00 0.07 0.09 0.00 0.00 0.13 0.07 0.00 0.00 0.00 0.00 0.00 0.00 0.06 0.00 0.00 0.00 Note: The < 0.001 means there is no SAR value or the SAR is too low to be measured. Report Format Version 5.0.0 Report No. : SA181015C09 Page No.
: 45 of 56 Issued Date
: Nov. 19, 2018 FCC SAR Test Report 4.7.3 SAR Measurement Variability According to KDB 865664 D01, SAR measurement variability was assessed for each frequency band, which is determined by the SAR probe calibration point and tissue-equivalent medium used for the device measurements. When both head and body tissue-equivalent media are required for SAR measurements in a frequency band, the variability measurement procedures should be applied to the tissue medium with the highest measured SAR, using the highest measured SAR configuration for that tissue-equivalent medium. Alternatively, if the highest measured SAR for both head and body tissue-equivalent media are 1.45 W/kg and the ratio of these highest SAR values, i.e., largest divided by smallest value, is 1.10, the highest SAR configuration for either head or body tissue-equivalent medium may be used to perform the repeated measurement. These additional measurements are repeated after the completion of all measurements requiring the same head or body tissue-equivalent medium in a frequency band. The test device should be returned to ambient conditions (normal room temperature) with the battery fully charged before it is re-mounted on the device holder for the repeated measurement(s) to minimize any unexpected variations in the repeated results. SAR repeated measurement procedure:
1. When the highest measured SAR is < 0.80 W/kg, repeated measurement is not required. 2. When the highest measured SAR is >= 0.80 W/kg, repeat that measurement once. 3. If the ratio of largest to smallest SAR for the original and first repeated measurements is > 1.20, or when the original or repeated measurement is >= 1.45 W/kg, perform a second repeated measurement. 4. If the ratio of largest to smallest SAR for the original, first and second repeated measurements is > 1.20, and the original, first or second repeated measurement is >= 1.5 W/kg, perform a third repeated measurement. Band Mode Test Position Ch. LTE 2 LTE 30 LTE 66 QPSK20M Front Face QPSK10M Front Face QPSK20M Front Face 18700 27710 132322 Original Measured SAR-1g
(W/kg) 1.09 0.938 1.00 1st Repeated SAR-1g
(W/kg) 1.05 0.821 0.987 L/S Ratio 1.04 1.14 1.01 2nd Repeated SAR-1g
(W/kg) N/A N/A N/A L/S Ratio N/A N/A N/A 3rd Repeated SAR-1g
(W/kg) N/A N/A N/A L/S Ratio N/A N/A N/A Report Format Version 5.0.0 Report No. : SA181015C09 Page No.
: 46 of 56 Issued Date
: Nov. 19, 2018 FCC SAR Test Report 4.7.4 Simultaneous Multi-band Transmission Evaluation
<Possibilities of Simultaneous Transmission>
The simultaneous transmission possibilities for this device are listed as below. Simultaneous TX Combination Capable Transmit Configuration s Body Exposure Condition 1 2 LTE + WLAN 2.4G LTE + WLAN 5G Note :
1. The WLAN 2.4G and WLAN 5G cannot transmit simultaneously. 2. This device does not support voice transmission capability.
<SAR Summation Analysis>
Yes Yes Simultaneous transmission SAR test exclusion is determined for each operating configuration and exposure condition according to the reported standalone SAR of each applicable simultaneous transmitting antenna. When the sum of SAR1g of all simultaneously transmitting antennas in an operating mode and exposure condition combination is within the SAR limit (SAR1g 1.6 W/kg), the simultaneous transmission SAR is not required. When the sum of SAR1g is greater than the SAR limit (SAR1g 1.6 W/kg), SAR test exclusion is determined by the SPLSR. No. Conditions
(SAR1 + SAR2) Exposure Condition 1 2 LTE 2
+
WLAN (DTS) Hotspot LTE 2
+
WLAN (NII) Hotspot Test Position Front Face Rear Face Left Side Right Side Top Side Bottom Side Front Face Rear Face Left Side Right Side Top Side Bottom Side Max. SAR1 1.16 0.76 0.49 0.00 0.04 0.95 1.16 0.76 0.49 0.00 0.04 0.95 Max. SAR2 0.05 0.00 0.00 0.05 0.03 0.00 0.12 0.00 0.00 0.00 0.13 0.00 SAR Summation 1.21 0.76 0.49 0.05 0.07 0.95 1.28 0.76 0.49 0.00 0.17 0.95 SPLSR Analysis SAR < 1.6, Not required SAR < 1.6, Not required SAR < 1.6, Not required SAR < 1.6, Not required SAR < 1.6, Not required SAR < 1.6, Not required SAR < 1.6, Not required SAR < 1.6, Not required SAR < 1.6, Not required SAR < 1.6, Not required SAR < 1.6, Not required SAR < 1.6, Not required Report Format Version 5.0.0 Report No. : SA181015C09 Page No.
: 47 of 56 Issued Date
: Nov. 19, 2018 FCC SAR Test Report No. Conditions
(SAR1 + SAR2) Exposure Condition 3 4 LTE 5
+
WLAN (DTS) Hotspot LTE 5
+
WLAN (NII) Hotspot No. Conditions
(SAR1 + SAR2) Exposure Condition 5 6 LTE 12
+
WLAN (DTS) Hotspot LTE 12
+
WLAN (NII) Hotspot Test Position Front Face Rear Face Left Side Right Side Top Side Bottom Side Front Face Rear Face Left Side Right Side Top Side Bottom Side Test Position Front Face Rear Face Left Side Right Side Top Side Bottom Side Front Face Rear Face Left Side Right Side Top Side Bottom Side Max. SAR1 0.45 0.56 0.19 0.00 0.22 0.40 0.45 0.56 0.19 0.00 0.22 0.40 Max. SAR1 0.46 0.59 0.09 0.00 0.10 0.28 0.46 0.59 0.09 0.00 0.10 0.28 Max. SAR2 0.05 0.00 0.00 0.05 0.03 0.00 0.12 0.00 0.00 0.00 0.13 0.00 Max. SAR2 0.05 0.00 0.00 0.05 0.03 0.00 0.12 0.00 0.00 0.00 0.13 0.00 SAR Summation 0.50 0.56 0.19 0.05 0.25 0.40 0.57 0.56 0.19 0.00 0.35 0.40 SAR Summation 0.51 0.59 0.09 0.05 0.13 0.28 0.58 0.59 0.09 0.00 0.23 0.28 SPLSR Analysis SAR < 1.6, Not required SAR < 1.6, Not required SAR < 1.6, Not required SAR < 1.6, Not required SAR < 1.6, Not required SAR < 1.6, Not required SAR < 1.6, Not required SAR < 1.6, Not required SAR < 1.6, Not required SAR < 1.6, Not required SAR < 1.6, Not required SAR < 1.6, Not required SPLSR Analysis SAR < 1.6, Not required SAR < 1.6, Not required SAR < 1.6, Not required SAR < 1.6, Not required SAR < 1.6, Not required SAR < 1.6, Not required SAR < 1.6, Not required SAR < 1.6, Not required SAR < 1.6, Not required SAR < 1.6, Not required SAR < 1.6, Not required SAR < 1.6, Not required Report Format Version 5.0.0 Report No. : SA181015C09 Page No.
: 48 of 56 Issued Date
: Nov. 19, 2018 FCC SAR Test Report No. Conditions
(SAR1 + SAR2) Exposure Condition 7 8 LTE 14
+
WLAN (DTS) Hotspot LTE 14
+
WLAN (NII) Hotspot No. Conditions
(SAR1 + SAR2) Exposure Condition 9 LTE 30
+
WLAN (DTS) Hotspot 10 LTE 30
+
WLAN (NII) Hotspot Test Position Front Face Rear Face Left Side Right Side Top Side Bottom Side Front Face Rear Face Left Side Right Side Top Side Bottom Side Test Position Front Face Rear Face Left Side Right Side Top Side Bottom Side Front Face Rear Face Left Side Right Side Top Side Bottom Side Max. SAR1 0.77 0.79 0.12 0.00 0.17 0.57 0.77 0.79 0.12 0.00 0.17 0.57 Max. SAR1 1.09 0.48 1.05 0.00 0.00 0.00 1.09 0.48 1.05 0.00 0.00 0.00 Max. SAR2 0.05 0.00 0.00 0.05 0.03 0.00 0.12 0.00 0.00 0.00 0.13 0.00 Max. SAR2 0.05 0.00 0.00 0.05 0.03 0.00 0.12 0.00 0.00 0.00 0.13 0.00 SAR Summation 0.82 0.79 0.12 0.05 0.20 0.57 0.89 0.79 0.12 0.00 0.30 0.57 SAR Summation 1.14 0.48 1.05 0.05 0.03 0.00 1.21 0.48 1.05 0.00 0.13 0.00 SPLSR Analysis SAR < 1.6, Not required SAR < 1.6, Not required SAR < 1.6, Not required SAR < 1.6, Not required SAR < 1.6, Not required SAR < 1.6, Not required SAR < 1.6, Not required SAR < 1.6, Not required SAR < 1.6, Not required SAR < 1.6, Not required SAR < 1.6, Not required SAR < 1.6, Not required SPLSR Analysis SAR < 1.6, Not required SAR < 1.6, Not required SAR < 1.6, Not required SAR < 1.6, Not required SAR < 1.6, Not required SAR < 1.6, Not required SAR < 1.6, Not required SAR < 1.6, Not required SAR < 1.6, Not required SAR < 1.6, Not required SAR < 1.6, Not required SAR < 1.6, Not required Report Format Version 5.0.0 Report No. : SA181015C09 Page No.
: 49 of 56 Issued Date
: Nov. 19, 2018 FCC SAR Test Report No. Conditions
(SAR1 + SAR2) Exposure Condition 11 LTE 66
+
WLAN (DTS) Hotspot 12 LTE 66
+
WLAN (NII) Hotspot Test Position Front Face Rear Face Left Side Right Side Top Side Bottom Side Front Face Rear Face Left Side Right Side Top Side Bottom Side Max. SAR1 1.00 0.80 0.53 0.08 0.00 0.88 1.00 0.80 0.53 0.08 0.00 0.88 Test EngineerRaymond Wu, and Hance Chang Max. SAR2 0.05 0.00 0.00 0.05 0.03 0.00 0.12 0.00 0.00 0.00 0.13 0.00 SAR Summation 1.05 0.80 0.53 0.13 0.03 0.88 1.12 0.80 0.53 0.08 0.13 0.88 SPLSR Analysis SAR < 1.6, Not required SAR < 1.6, Not required SAR < 1.6, Not required SAR < 1.6, Not required SAR < 1.6, Not required SAR < 1.6, Not required SAR < 1.6, Not required SAR < 1.6, Not required SAR < 1.6, Not required SAR < 1.6, Not required SAR < 1.6, Not required SAR < 1.6, Not required Report Format Version 5.0.0 Report No. : SA181015C09 Page No.
: 50 of 56 Issued Date
: Nov. 19, 2018 FCC SAR Test Report 5. Calibration of Test Equipment Equipment Manufacturer Model System Validation Dipole System Validation Dipole System Validation Dipole System Validation Dipole System Validation Dipole System Validation Dipole System Validation Dipole Dosimetric E-Field Probe Dosimetric E-Field Probe Dosimetric E-Field Probe Data Acquisition Electronics Data Acquisition Electronics Data Acquisition Electronics Radio Communication Analyzer Spectrum Analyzer ENA Series Network Analyzer MXG Analong Signal Generator Vector Signal Generator Power Meter Power Sensor Thermometer SPEAG SPEAG SPEAG SPEAG SPEAG SPEAG SPEAG SPEAG SPEAG SPEAG SPEAG SPEAG SPEAG Anritsu R&S Agilent Agilent Anritsu Anritsu Anritsu YFE SN 1013 4d121 1055 5d036 1004 737 1019 3898 3650 7472 579 861 1277 D750V3 D835V2 D1750V2 D1900V2 D2300V2 D2450V2 D5GHzV2 EX3DV4 EX3DV4 EX3DV4 DAE3 DAE4 DAE4 MT8820C 6201381727 FSL6 E5071C N5181A MG3710A ML2495A MA2411B YF-160A 102006 MY46214281 MY50143868 6201599977 1218009 1207252 130504591 Cal. Date Cal. Interval Aug. 23, 2018 Aug. 23, 2018 Aug. 27, 2018 Jan. 18, 2018 Jan. 17, 2018 Aug. 24, 2018 Mar. 22, 2018 Jun. 26, 2018 Jul. 27, 2018 Aug. 29, 2018 Aug. 27, 2018 May. 30, 2018 Jan. 18, 2018 May. 09, 2018 Mar. 23, 2018 Jun. 08, 2018 Jul. 03, 2018 Mar. 16, 2018 Jul. 03, 2018 Jul. 03, 2018 Mar. 23, 2018 1 Year 1 Year 1 Year 1 Year 1 Year 1 Year 1 Year 1 Year 1 Year 1 Year 1 Year 1 Year 1 Year 1 Year 1 Year 1 Year 1 Year 1 Year 1 Year 1 Year 1 Year Report Format Version 5.0.0 Report No. : SA181015C09 Page No.
: 51 of 56 Issued Date
: Nov. 19, 2018 FCC SAR Test Report 6. Measurement Uncertainty Source of Uncertainty Uncertainty Probability
( %) Distribution Divisor Measurement System Probe Calibration Axial Isotropy Hemispherical Isotropy Boundary Effect Linearity Detection Limits Probe Modulation Response Readout Electronics Response Time Integration Time RF Ambient Conditions Noise RF Ambient Conditions Reflections Probe Positioner Mechanical Tolerance Probe Positioning with Respect to Phantom Post-processing Test Sample Related Test Sample Positioning Device Holder Uncer tainty Power Drift of Measurement Power Scaling Phantom and Setup Phantom Uncer tainty (Shape and Thickness Tolerances) Liquid Conductivity ( Temperature Uncer tainty) Liquid Conductivity (Measured) Liquid Permittivity (Temperature Uncer tainty) Liquid Permittivity (Measured) Combined Standard Uncertainty Expanded Uncertainty (K= 2) 6.0 4.7 9.6 1.0 4.7 Normal Rectangular Rectangular Rectangular Rectangular 0.25 Rectangular 3.5 0.3 0.0 1.7 3.0 3.0 0.4 2.9 2.0 Rectangular Normal Rectangular Rectangular Rectangular Rectangular Rectangular Rectangular Rectangular 3.9 / 2.06 Normal 2.9 / 4.1 Normal 5.0 0.0 Rectangular Rectangular 6.1 Rectangular 3.24 2.88 1.13 2.50 Rectangular Normal Rectangular Normal 1 3 3 3 3 3 3 1 3 3 3 3 3 3 3 1 1 3 3 3 3 1 3 1 Ci
(1g) 1 0.5 0.5 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 Ci
(10g) 1 0.5 0.5 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 0.78 0.78 0.23 0.23 0.71 0.71 0.26 0.26 Standard Standard Uncertainty Uncertainty Vi
( %, 1g)
( %, 10g) 6.0 1.9 3.9 0.6 2.7 6.0 1.9 3.9 0.6 2.7 0.14 0.14 2.0 0.3 0.0 1.0 1.7 1.7 0.2 1.7 1.2 3.9 2.9 2.9 0.0 3.5 1.5 2.2 0.2 0.6 2.0 0.3 0.0 1.0 1.7 1.7 0.2 1.7 1.2 2.1 4.1 2.9 0.0 3.5 1.3 2.0 0.2 0.7 11.4 %
11.2 %
22.8 %
22.4 %
35 11 43 54 Head SAR Uncertainty Budget for Frequency Range of 300 MHz to 3 GHz Report Format Version 5.0.0 Report No. : SA181015C09 Page No.
: 52 of 56 Issued Date
: Nov. 19, 2018 FCC SAR Test Report Source of Uncertainty Uncertainty Probability
( %) Distribution Divisor Measurement System Probe Calibration Axial Isotropy Hemispherical Isotropy Boundary Effect Linearity Detection Limits Probe Modulation Response Readout Electronics Response Time Integration Time RF Ambient Conditions Noise RF Ambient Conditions Reflections Probe Positioner Mechanical Tolerance Probe Positioning with Respect to Phantom Post-processing Test Sample Related Test Sample Positioning Device Holder Uncer tainty Power Drift of Measurement Power Scaling Phantom and Setup Phantom Uncer tainty (Shape and Thickness Tolerances) Liquid Conductivity ( Temperature Uncer tainty) Liquid Conductivity (Measured) Liquid Permittivity (Temperature Uncer tainty) Liquid Permittivity (Measured) Combined Standard Uncertainty Expanded Uncertainty (K= 2) 6.55 Normal 4.7 9.6 2.0 4.7 Rectangular Rectangular Rectangular Rectangular 0.25 Rectangular 3.5 0.3 0.0 1.7 3.0 3.0 0.4 6.7 4.0 Rectangular Normal Rectangular Rectangular Rectangular Rectangular Rectangular Rectangular Rectangular 3.9 / 2.06 Normal 2.9 / 4.1 Normal 5.0 0.0 Rectangular Rectangular 6.6 Rectangular 3.24 2.88 1.13 2.50 Rectangular Normal Rectangular Normal 1 3 3 3 3 3 3 1 3 3 3 3 3 3 3 1 1 3 3 3 3 1 3 1 Ci
(1g) 1 0.7 0.7 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 0.78 0.78 0.23 0.23 Standard Standard Uncertainty Uncertainty Vi
( %, 1g)
( %, 10g) 6.55 1.9 3.9 1.2 2.7 6.55 1.9 3.9 1.2 2.7 0.14 0.14 2.0 0.3 0.0 1.0 1.7 1.7 0.2 3.9 2.3 3.9 2.9 2.9 0.0 3.8 1.5 2.2 0.2 0.6 2.0 0.3 0.0 1.0 1.7 1.7 0.2 3.9 2.3 2.1 4.1 2.9 0.0 3.8 1.3 2.0 0.2 0.7 12.5 %
12.3 %
25.0 %
24.6 %
35 11 43 54 Ci
(10g) 1 0.7 0.7 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 0.71 0.71 0.26 0.26 Head SAR Uncertainty Budget for Frequency Range of 3 GHz to 6 GHz Report Format Version 5.0.0 Report No. : SA181015C09 Page No.
: 53 of 56 Issued Date
: Nov. 19, 2018 FCC SAR Test Report Source of Uncertainty Uncertainty Probability
( %) Distribution Divisor Measurement System Probe Calibration Axial Isotropy Hemispherical Isotropy Boundary Effect Linearity Detection Limits Probe Modulation Response Readout Electronics Response Time Integration Time RF Ambient Conditions Noise RF Ambient Conditions Reflections Probe Positioner Mechanical Tolerance Probe Positioning with Respect to Phantom Post-processing Test Sample Related Test Sample Positioning Device Holder Uncer tainty Power Drift of Measurement Power Scaling Phantom and Setup Phantom Uncer tainty (Shape and Thickness Tolerances) Liquid Conductivity ( Temperature Uncer tainty) Liquid Conductivity (Measured) Liquid Permittivity (Temperature Uncer tainty) Liquid Permittivity (Measured) Combined Standard Uncertainty Expanded Uncertainty (K= 2) 6.0 4.7 9.6 1.0 4.7 Normal Rectangular Rectangular Rectangular Rectangular 0.25 Rectangular 3.5 0.3 0.0 1.7 3.0 3.0 0.4 2.9 2.0 Rectangular Normal Rectangular Rectangular Rectangular Rectangular Rectangular Rectangular Rectangular 4.38 / 1.35 Normal 2.9 / 4.1 Normal 5.0 0.0 Rectangular Rectangular 7.2 Rectangular 3.24 2.88 1.13 2.50 Rectangular Normal Rectangular Normal 1 3 3 3 3 3 3 1 3 3 3 3 3 3 3 1 1 3 3 3 3 1 3 1 Ci
(1g) 1 0.5 0.5 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 Ci
(10g) 1 0.5 0.5 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 0.78 0.78 0.23 0.23 0.71 0.71 0.26 0.26 Standard Standard Uncertainty Uncertainty Vi
( %, 1g)
( %, 10g) 6.0 1.9 3.9 0.6 2.7 6.0 1.9 3.9 0.6 2.7 0.14 0.14 2.0 0.3 0.0 1.0 1.7 1.7 0.2 1.7 1.2 4.4 2.9 2.9 0.0 4.2 1.5 2.2 0.2 0.6 2.0 0.3 0.0 1.0 1.7 1.7 0.2 1.7 1.2 1.4 4.1 2.9 0.0 4.2 1.3 2.0 0.2 0.7 11.8 %
11.3 %
23.6 %
22.6 %
29 11 43 54 Body SAR Uncertainty Budget for Frequency Range of 300 MHz to 3 GHz Report Format Version 5.0.0 Report No. : SA181015C09 Page No.
: 54 of 56 Issued Date
: Nov. 19, 2018 FCC SAR Test Report Source of Uncertainty Uncertainty Probability
( %) Distribution Divisor Measurement System Probe Calibration Axial Isotropy Hemispherical Isotropy Boundary Effect Linearity Detection Limits Probe Modulation Response Readout Electronics Response Time Integration Time RF Ambient Conditions Noise RF Ambient Conditions Reflections Probe Positioner Mechanical Tolerance Probe Positioning with Respect to Phantom Post-processing Test Sample Related Test Sample Positioning Device Holder Uncer tainty Power Drift of Measurement Power Scaling Phantom and Setup Phantom Uncer tainty (Shape and Thickness Tolerances) Liquid Conductivity ( Temperature Uncer tainty) Liquid Conductivity (Measured) Liquid Permittivity (Temperature Uncer tainty) Liquid Permittivity (Measured) Combined Standard Uncertainty Expanded Uncertainty (K= 2) 6.55 Normal 4.7 9.6 2.0 4.7 Rectangular Rectangular Rectangular Rectangular 0.25 Rectangular 3.5 0.3 0.0 1.7 3.0 3.0 0.4 6.7 4.0 Rectangular Normal Rectangular Rectangular Rectangular Rectangular Rectangular Rectangular Rectangular 4.38 / 1.35 Normal 2.9 / 4.1 Normal 5.0 0.0 Rectangular Rectangular 7.6 Rectangular 3.24 2.88 1.13 2.50 Rectangular Normal Rectangular Normal 1 3 3 3 3 3 3 1 3 3 3 3 3 3 3 1 1 3 3 3 3 1 3 1 Ci
(1g) 1 0.7 0.7 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 0.78 0.78 0.23 0.23 Standard Standard Uncertainty Uncertainty Vi
( %, 1g)
( %, 10g) 6.55 1.9 3.9 1.2 2.7 6.55 1.9 3.9 1.2 2.7 0.14 0.14 2.0 0.3 0.0 1.0 1.7 1.7 0.2 3.9 2.3 4.4 2.9 2.9 0.0 4.4 1.5 2.2 0.2 0.6 2.0 0.3 0.0 1.0 1.7 1.7 0.2 3.9 2.3 1.4 4.1 2.9 0.0 4.4 1.3 2.0 0.2 0.7 12.8 %
12.4 %
25.6 %
24.8 %
29 11 43 54 Ci
(10g) 1 0.7 0.7 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 0.71 0.71 0.26 0.26 Body SAR Uncertainty Budget for Frequency Range of 3 GHz to 6 GHz Report Format Version 5.0.0 Report No. : SA181015C09 Page No.
: 55 of 56 Issued Date
: Nov. 19, 2018 FCC SAR Test Report 7. Information on the Testing Laboratories We, Bureau Veritas Consumer Products Services (H.K.) Ltd., Taoyuan Branch, were founded in 1988 to provide our best service in EMC, Radio, Telecom and Safety consultation. Our laboratories are accredited and approved according to ISO/IEC 17025. If you have any comments, please feel free to contact us at the following:
Taiwan HwaYa EMC/RF/Safety Lab:
Add: No.19, Hwa Ya 2nd Rd., Wen Hwa Vil., Kwei Shan Dist., Taoyuan City 33383, Taiwan, R.O.C. Tel: 886-3-318-3232 Fax: 886-3-327-0892 Taiwan LinKo EMC/RF Lab:
Add: No. 47-2, 14th Ling, Chia Pau Vil., Linkou Dist., New Taipei City 244, Taiwan, R.O.C. Tel: 886-2-2605-2180 Fax: 886-2-2605-1924 Taiwan HsinChu EMC/RF/Telecom Lab:
Add: E-2, No.1, Li Hsin 1st Road, Hsinchu Science Park, Hsinchu City 30078, Taiwan, R.O.C. Tel: 886-3-666-8565 Fax: 886-3-666-8323 Email: service.adt@tw.bureauveritas.com Web Site: www.bureauveritas-adt.com The road map of all our labs can be found in our web site also.
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Report Format Version 5.0.0 Report No. : SA181015C09 Page No.
: 56 of 56 Issued Date
: Nov. 19, 2018 FCC SAR Test Report Appendix A. SAR Plots of System Verification The plots for system verification with largest deviation for each SAR system combination are shown as follows. Report Format Version 5.0.0 Report No. : SA181015C09 Issued Date
: Nov. 19, 2018 Test Laboratory: Bureau Veritas ADT SAR/HAC Testing Lab Date: 2018/11/06 System Check_B750_181106 DUT: Dipole 750 MHz; Type: D750V3; SN: 1013 Communication System: CW; Frequency: 750 MHz;Duty Cycle: 1:1 Medium: B07T10N1_1106 Medium parameters used: f = 750 MHz; = 0.918 S/m; r = 55.862; =
1000 kg/m3 Ambient Temperature23.9 ; Liquid Temperature23.4 DASY5 Configuration:
- Probe: EX3DV4 - SN3650; ConvF(9.91, 9.91, 9.91); Calibrated: 2018/07/27
- Sensor-Surface: 1.4mm (Mechanical Surface Detection)
- Electronics: DAE3 Sn579; Calibrated: 2018/08/27
- Phantom: Twin SAM Phantom_1822; Type: QD000P40CD;
- Measurement SW: DASY52, Version 52.10 (2); SEMCAD X Version 14.6.12 (7450) Pin=250mW/Area Scan (61x81x1): Interpolated grid: dx=1.500 mm, dy=1.500 mm Maximum value of SAR (interpolated) = 2.73 W/kg Pin=250mW/Zoom Scan (5x5x7)/Cube 0: Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 57.02 V/m; Power Drift = -0.04 dB Peak SAR (extrapolated) = 3.04 W/kg SAR(1 g) = 2.04 W/kg; SAR(10 g) = 1.36 W/kg Maximum value of SAR (measured) = 2.70 W/kg Test Laboratory: Bureau Veritas ADT SAR/HAC Testing Lab Date: 2018/11/05 System Check_B835_181105 DUT: Dipole 835 MHz; Type: D835V2; SN: 4d121 Communication System: CW; Frequency: 835 MHz;Duty Cycle: 1:1 Medium: B07T10N1_1105 Medium parameters used: f = 835 MHz; = 1.012 S/m; r = 56.703; =
1000 kg/m3 Ambient Temperature23.7 ; Liquid Temperature23.4 DASY5 Configuration:
- Probe: EX3DV4 - SN3898; ConvF(10.25, 10.25, 10.25); Calibrated: 2018/06/26
- Sensor-Surface: m (Mechanical Surface Detection)
- Electronics: DAE4 Sn1277; Calibrated: 2018/01/18
- Phantom: Twin SAM Phantom_1496; Type: QD000P40CA;
- Measurement SW: DASY52, Version 52.10 (2); SEMCAD X Version 14.6.12 (7450) Pin=250mW/Area Scan (61x61x1): Interpolated grid: dx=1.500 mm, dy=1.500 mm Maximum value of SAR (interpolated) = 4.73 W/kg Pin=250mW/Zoom Scan (5x5x7)/Cube 0: Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 66.16 V/m; Power Drift = -0.01 dB Peak SAR (extrapolated) = 5.61 W/kg SAR(1 g) = 2.51 W/kg; SAR(10 g) = 1.6 W/kg Maximum value of SAR (measured) = 4.76 W/kg Test Laboratory: Bureau Veritas ADT SAR/HAC Testing Lab Date: 2018/11/02 System Check_B1750_181102 DUT: Dipole 1750 MHz; Type: D1750V2; SN: 1055 Communication System: CW; Frequency: 1750 MHz;Duty Cycle: 1:1 Medium: B16T20N1_1102 Medium parameters used: f = 1750 MHz; = 1.443 S/m; r = 51.612;
= 1000 kg/m3 Ambient Temperature23.7 ; Liquid Temperature23.3 DASY5 Configuration:
- Probe: EX3DV4 - SN3650; ConvF(8.2, 8.2, 8.2); Calibrated: 2018/07/27
- Sensor-Surface: 1.4mm (Mechanical Surface Detection)
- Electronics: DAE3 Sn579; Calibrated: 2018/08/27
- Phantom: Twin SAM Phantom_1822; Type: QD000P40CD;
- Measurement SW: DASY52, Version 52.10 (2); SEMCAD X Version 14.6.12 (7450) Pin=250mW/Area Scan (61x61x1): Interpolated grid: dx=1.500 mm, dy=1.500 mm Maximum value of SAR (interpolated) = 13.5 W/kg Pin=250mW/Zoom Scan (5x5x7)/Cube 0: Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 100.6 V/m; Power Drift = -0.08 dB Peak SAR (extrapolated) = 15.7 W/kg SAR(1 g) = 8.87 W/kg; SAR(10 g) = 4.74 W/kg Maximum value of SAR (measured) = 13.4 W/kg Test Laboratory: Bureau Veritas ADT SAR/HAC Testing Lab Date: 2018/11/05 System Check_B1900_181105 DUT: Dipole 1900 MHz; Type: D1900V2; SN: 5d036 Communication System: CW; Frequency: 1900 MHz;Duty Cycle: 1:1 Medium: B16T20N1_1105 Medium parameters used: f = 1900 MHz; = 1.574 S/m; r = 52.296;
= 1000 kg/m3 Ambient Temperature23.6 ; Liquid Temperature23.3 DASY5 Configuration:
- Probe: EX3DV4 - SN3898; ConvF(7.97, 7.97, 7.97) ; Calibrated: 2018/06/26
- Sensor-Surface: 1.4mm (Mechanical Surface Detection)
- Electronics: DAE4 Sn1277; Calibrated: 2018/01/18
- Phantom: Twin SAM Phantom_1496; Type: QD000P40CA;
- Measurement SW: DASY52, Version 52.10 (2); SEMCAD X Version 14.6.12 (7450) Pin=250mW/Area Scan (61x61x1): Interpolated grid: dx=1.500 mm, dy=1.500 mm Maximum value of SAR (interpolated) = 15.9 W/kg Pin=250mW/Zoom Scan (5x5x7)/Cube 0: Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 102.6 V/m; Power Drift = -0.03 dB Peak SAR (extrapolated) = 19.0 W/kg SAR(1 g) = 10.3 W/kg; SAR(10 g) = 5.35 W/kg Maximum value of SAR (measured) = 16.1 W/kg Test Laboratory: Bureau Veritas ADT SAR/HAC Testing Lab Date: 2018/11/02 System Check_B2300_181102 DUT: Dipole 2300 MHz; Type: D2300V2; SN:1004 Communication System: CW; Frequency: 2300 MHz;Duty Cycle: 1:1 Medium: B19T27N1_1102 Medium parameters used: f = 2300 MHz; = 1.849 S/m; r = 51.991; =
1000 kg/m3 Ambient Temperature23.7 ; Liquid Temperature23.3 DASY5 Configuration:
- Probe: EX3DV4 - SN3650; ConvF(7.77, 7.77, 7.77); Calibrated: 2018/07/27
- Sensor-Surface: 1.4mm (Mechanical Surface Detection)
- Electronics: DAE3 Sn579; Calibrated: 2018/08/27
- Phantom: Twin SAM Phantom_1822; Type: QD000P40CD;
- Measurement SW: DASY52, Version 52.10 (2); SEMCAD X Version 14.6.12 (7450) Pin=250mW/Area Scan (81x81x1): Interpolated grid: dx=1.200 mm, dy=1.200 mm Maximum value of SAR (interpolated) = 19.0 W/kg Pin=250mW/Zoom Scan (7x7x7)/Cube 0: Measurement grid: dx=5mm, dy=5mm, dz=5mm Reference Value = 104.9 V/m; Power Drift = -0.03 dB Peak SAR (extrapolated) = 22.8 W/kg SAR(1 g) = 11.8 W/kg; SAR(10 g) = 5.68 W/kg Maximum value of SAR (measured) = 19.0 W/kg Test Laboratory: Bureau Veritas ADT SAR/HAC Testing Lab Date: 2018/11/15 System Check_B2450_181115 DUT: Dipole 2450 MHz; Type: D2450V2; SN: 737 Communication System: CW; Frequency: 2450 MHz;Duty Cycle: 1:1 Medium: B19T27N1_1115 Medium parameters used: f = 2450 MHz; = 2.017 S/m; r = 51.297; =
1000 kg/m3 Ambient Temperature23.7 ; Liquid Temperature23.3 DASY5 Configuration:
- Probe: EX3DV4 - SN7472; ConvF(7.84, 7.84, 7.84); Calibrated: 2018/08/29
- Sensor-Surface: 1.4mm (Mechanical Surface Detection)
- Electronics: DAE4 Sn861; Calibrated: 2018/05/30
- Phantom: Twin SAM Phantom_1823; Type: QD000P40CD;
- Measurement SW: DASY52, Version 52.10 (2); SEMCAD X Version 14.6.12 (7450) Pin=250mW/Area Scan (81x81x1): Interpolated grid: dx=1.200 mm, dy=1.200 mm Maximum value of SAR (interpolated) = 21.5 W/kg Pin=250mW/Zoom Scan (7x7x7)/Cube 0: Measurement grid: dx=5mm, dy=5mm, dz=5mm Reference Value = 107.3 V/m; Power Drift = -0.15 dB Peak SAR (extrapolated) = 26.9 W/kg SAR(1 g) = 12.8 W/kg; SAR(10 g) = 5.82 W/kg Maximum value of SAR (measured) = 21.7 W/kg Test Laboratory: Bureau Veritas ADT SAR/HAC Testing Lab Date: 2018/11/15 System Check_B5250_181115 DUT: Dipole 5 GHz; Type: D5GHzV2; SN: 1019 Communication System: CW; Frequency: 5250 MHz;Duty Cycle: 1:1 Medium: B34T60N2_1115 Medium parameters used: f = 5250 MHz; = 5.262 S/m; r = 49.557; =
1000 kg/m3 Ambient Temperature23.7 ; Liquid Temperature23.3 DASY5 Configuration:
- Probe: EX3DV4 - SN7472; ConvF(4.9, 4.9, 4.9); Calibrated: 2018/08/29
- Sensor-Surface: 1.4mm (Mechanical Surface Detection)
- Electronics: DAE4 Sn861; Calibrated: 2018/05/30
- Phantom: Twin SAM Phantom_1823; Type: QD000P40CD;
- Measurement SW: DASY52, Version 52.10 (2); SEMCAD X Version 14.6.12 (7450) Pin=100mW/Area Scan (91x91x1): Interpolated grid: dx=1.000 mm, dy=1.000 mm Maximum value of SAR (interpolated) = 17.9 W/kg Pin=100mW/Zoom Scan (7x7x12)/Cube 0: Measurement grid: dx=4mm, dy=4mm, dz=2mm Reference Value = 67.66 V/m; Power Drift = -0.01 dB Peak SAR (extrapolated) = 34.3 W/kg SAR(1 g) = 7.68 W/kg; SAR(10 g) = 2.16 W/kg Maximum value of SAR (measured) = 19.7 W/kg Test Laboratory: Bureau Veritas ADT SAR/HAC Testing Lab Date: 2018/11/15 System Check_B5750_181115 DUT: Dipole 5 GHz; Type: D5GHzV2; SN: 1019 Communication System: CW; Frequency: 5750 MHz;Duty Cycle: 1:1 Medium: B34T60N2_1115 Medium parameters used: f = 5750 MHz; = 5.918 S/m; r = 48.809; =
1000 kg/m3 Ambient Temperature23.7 ; Liquid Temperature23.3 DASY5 Configuration:
- Probe: EX3DV4 - SN7472; ConvF(4.56, 4.56, 4.56); Calibrated: 2018/08/29
- Sensor-Surface: 1.4mm (Mechanical Surface Detection)
- Electronics: DAE4 Sn861; Calibrated: 2018/05/30
- Phantom: Twin SAM Phantom_1823; Type: QD000P40CD;
- Measurement SW: DASY52, Version 52.10 (2); SEMCAD X Version 14.6.12 (7450) Pin=100mW/Area Scan (91x91x1): Interpolated grid: dx=1.000 mm, dy=1.000 mm Maximum value of SAR (interpolated) = 15.7 W/kg Pin=100mW/Zoom Scan (7x7x12)/Cube 0: Measurement grid: dx=4mm, dy=4mm, dz=2mm Reference Value = 51.55 V/m; Power Drift = 0.12 dB Peak SAR (extrapolated) = 29.6 W/kg SAR(1 g) = 6.99 W/kg; SAR(10 g) = 1.99 W/kg Maximum value of SAR (measured) = 17.9 W/kg FCC SAR Test Report Appendix B. SAR Plots of SAR Measurement The SAR plots for highest measured SAR in each exposure configuration, wireless mode and frequency band combination, and measured SAR > 1.5 W/kg are shown as follows. Report Format Version 5.0.0 Report No. : SA181015C09 Issued Date
: Nov. 19, 2018 Test Laboratory: Bureau Veritas ADT SAR/HAC Testing Lab Date: 2018/11/05 P01 LTE 2_QPSK20M_Front Face_10mm_Ch18700_1RB_OS0 DUT: 181015C09 Communication System: LTE; Frequency: 1860 MHz;Duty Cycle: 1:1 Medium: B16T20N1_1105 Medium parameters used: f = 1860 MHz; = 1.54 S/m; r = 52.418; =
1000 kg/m3 Ambient Temperature23.6 ; Liquid Temperature23.3 DASY5 Configuration:
- Probe: EX3DV4 - SN3898; ConvF(7.97, 7.97, 7.97) ; Calibrated: 2018/06/26
- Sensor-Surface: 1.4mm (Mechanical Surface Detection)
- Electronics: DAE4 Sn1277; Calibrated: 2018/01/18
- Phantom: Twin SAM Phantom_1496; Type: QD000P40CA;
- Measurement SW: DASY52, Version 52.10 (2); SEMCAD X Version 14.6.12 (7450)
- Area Scan (101x111x1): Interpolated grid: dx=1.500 mm, dy=1.500 mm Maximum value of SAR (interpolated) = 1.39 W/kg
- Zoom Scan (5x5x7)/Cube 0: Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 30.03 V/m; Power Drift = -0.10 dB Peak SAR (extrapolated) = 1.73 W/kg SAR(1 g) = 1.09 W/kg; SAR(10 g) = 0.660 W/kg Maximum value of SAR (measured) = 1.49 W/kg Test Laboratory: Bureau Veritas ADT SAR/HAC Testing Lab Date: 2018/11/05 P LTE 5_QPSK10M_Rear Face_10mm_Ch20525_1RB_OS0 DUT: 181015C09 Communication System: LTE; Frequency: 836.5 MHz;Duty Cycle: 1:1 Medium: B07T10N1_1105 Medium parameters used: f = 836.5 MHz; = 1.013 S/m; r = 56.682; =
1000 kg/m3 Ambient Temperature23.7 ; Liquid Temperature23.4 DASY5 Configuration:
- Probe: EX3DV4 - SN3898; ConvF(10.25, 10.25, 10.25); Calibrated: 2018/06/26
- Sensor-Surface: 1.4mm (Mechanical Surface Detection)
- Electronics: DAE4 Sn1277; Calibrated: 2018/01/18
- Phantom: Twin SAM Phantom_1496; Type: QD000P40CA;
- Measurement SW: DASY52, Version 52.10 (2); SEMCAD X Version 14.6.12 (7450)
- Area Scan (101x111x1): Interpolated grid: dx=1.500 mm, dy=1.500 mm Maximum value of SAR (interpolated) = 0.614 W/kg
- Zoom Scan (5x5x7)/Cube 0: Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 23.89 V/m; Power Drift = -0.02 dB Peak SAR (extrapolated) = 0.624 W/kg SAR(1 g) = 0.489 W/kg; SAR(10 g) = 0.375 W/kg Maximum value of SAR (measured) = 0.585 W/kg
- Zoom Scan (5x5x7)/Cube 1: Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 23.89 V/m; Power Drift = -0.02 dB Peak SAR (extrapolated) = 0.594 W/kg SAR(1 g) = 0.449 W/kg; SAR(10 g) = 0.340 W/kg Maximum value of SAR (measured) = 0.545 W/kg Test Laboratory: Bureau Veritas ADT SAR/HAC Testing Lab Date: 2018/11/05 P LTE 12_QPSK10M_Rear Face_10mm_Ch23095_1RB_OS0 DUT: 181015C09 Communication System: LTE; Frequency: 707.5 MHz;Duty Cycle: 1:1 Medium: B06T09N1_1105 Medium parameters used: f = 707.5 MHz; = 0.938 S/m; r = 55.47; =
1000 kg/m3 Ambient Temperature23.7 ; Liquid Temperature23.4 DASY5 Configuration:
- Probe: EX3DV4 - SN3898; ConvF(10.28, 10.28, 10.28); Calibrated: 2018/06/26
- Sensor-Surface: 1.4mm (Mechanical Surface Detection)
- Electronics: DAE4 Sn1277; Calibrated: 2018/01/18
- Phantom: Twin SAM Phantom_1496; Type: QD000P40CA;
- Measurement SW: DASY52, Version 52.10 (2); SEMCAD X Version 14.6.12 (7450)
- Area Scan (101x111x1): Interpolated grid: dx=1.500 mm, dy=1.500 mm Maximum value of SAR (interpolated) = 0.622 W/kg
- Zoom Scan (5x5x7)/Cube 0: Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 25.07 V/m; Power Drift = 0.02 dB Peak SAR (extrapolated) = 0.678 W/kg SAR(1 g) = 0.497 W/kg; SAR(10 g) = 0.358 W/kg Maximum value of SAR (measured) = 0.611 W/kg
- Zoom Scan (5x5x7)/Cube 1: Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 25.07 V/m; Power Drift = 0.02 dB Peak SAR (extrapolated) = 0.615 W/kg SAR(1 g) = 0.464 W/kg; SAR(10 g) = 0.353 W/kg Maximum value of SAR (measured) = 0.567 W/kg Test Laboratory: Bureau Veritas ADT SAR/HAC Testing Lab Date: 2018/11/05 P04 LTE 14_QPSK10M_Rear Face_10mm_Ch23330_1RB_OS0 DUT: 181015C09 Communication System: LTE; Frequency: 793 MHz;Duty Cycle: 1:1 Medium: B07T10N1_1105 Medium parameters used: f = 793 MHz; = 0.975 S/m; r = 57.019; =
1000 kg/m3 Ambient Temperature23.6 ; Liquid Temperature23.3 DASY5 Configuration:
- Probe: EX3DV4 - SN3898; ConvF(10.28, 10.28, 10.28) ; Calibrated: 2018/06/26
- Sensor-Surface: 1.4mm (Mechanical Surface Detection)
- Electronics: DAE4 Sn1277; Calibrated: 2018/01/18
- Phantom: Twin SAM Phantom_1496; Type: QD000P40CA;
- Measurement SW: DASY52, Version 52.10 (2); SEMCAD X Version 14.6.12 (7450)
- Area Scan (101x111x1): Interpolated grid: dx=1.500 mm, dy=1.500 mm Maximum value of SAR (interpolated) = 0.839 W/kg
- Zoom Scan (5x5x7)/Cube 0: Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 28.21 V/m; Power Drift = 0.07 dB Peak SAR (extrapolated) = 0.903 W/kg SAR(1 g) = 0.674 W/kg; SAR(10 g) = 0.500 W/kg Maximum value of SAR (measured) = 0.821 W/kg Test Laboratory: Bureau Veritas ADT SAR/HAC Testing Lab Date: 2018/11/02 P LTE 30_QPSK10M_Front Face_10mm_Ch27710_1RB_OS49 DUT: 181015C09 Communication System: LTE; Frequency: 2310 MHz;Duty Cycle: 1:1 Medium: B19T27N1_1102 Medium parameters used: f = 2310 MHz; = 1.859 S/m; r = 51.962;
= 1000 kg/m3 Ambient Temperature23.7 ; Liquid Temperature23.1 DASY5 Configuration:
- Probe: EX3DV4 - SN3650; ConvF(7.77, 7.77, 7.77); Calibrated: 2018/07/27
- Sensor-Surface: 1.4mm (Mechanical Surface Detection)
- Electronics: DAE3 Sn579; Calibrated: 2018/08/27
- Phantom: Twin SAM Phantom_1822; Type: QD000P40CD;
- Measurement SW: DASY52, Version 52.10 (2); SEMCAD X Version 14.6.12 (7450)
- Area Scan (121x141x1): Interpolated grid: dx=1.200 mm, dy=1.200 mm Maximum value of SAR (interpolated) = 1.42 W/kg
- Zoom Scan (5x5x7)/Cube 0: Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 26.95 V/m; Power Drift = -0.03 dB Peak SAR (extrapolated) = 1.70 W/kg SAR(1 g) = 0.938 W/kg; SAR(10 g) = 0.486 W/kg Maximum value of SAR (measured) = 1.40 W/kg Test Laboratory: Bureau Veritas ADT SAR/HAC Testing Lab Date: 2018/11/02 P06 LTE 66_QPSK20M_Front Face_10mm_Ch132322_1RB_OS0 DUT: 181015C09 Communication System: LTE; Frequency: 1745 MHz;Duty Cycle: 1:1 Medium: B16T20N1_1102 Medium parameters used: f = 1745 MHz; = 1.438 S/m; r = 51.619; =
1000 kg/m3 Ambient Temperature23.7 ; Liquid Temperature23.3 DASY5 Configuration:
- Probe: EX3DV4 - SN3650; ConvF(8.2, 8.2, 8.2); Calibrated: 2018/07/27
- Sensor-Surface: 1.4mm (Mechanical Surface Detection)
- Electronics: DAE3 Sn579; Calibrated: 2018/08/27
- Phantom: Twin SAM Phantom_1822; Type: QD000P40CD;
- Measurement SW: DASY52, Version 52.10 (2); SEMCAD X Version 14.6.12 (7450)
- Area Scan (101x111x1): Interpolated grid: dx=1.500 mm, dy=1.500 mm Maximum value of SAR (interpolated) = 1.41 W/kg
- Zoom Scan (5x5x7)/Cube 0: Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 29.35 V/m; Power Drift = 0.02 dB Peak SAR (extrapolated) = 1.64 W/kg SAR(1 g) = 1 W/kg; SAR(10 g) = 0.602 W/kg Maximum value of SAR (measured) = 1.36 W/kg
- Zoom Scan (5x5x7)/Cube 1: Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 29.35 V/m; Power Drift = 0.02 dB Peak SAR (extrapolated) = 1.11 W/kg SAR(1 g) = 0.708 W/kg; SAR(10 g) = 0.447 W/kg Maximum value of SAR (measured) = 0.946 W/kg Test Laboratory: Bureau Veritas ADT SAR/HAC Testing Lab Date: 2018/11/15 P07 WLAN2.4G_802.11b_Right Side_10mm_Ch6_Ant1 DUT: 181015C09 Communication System: WLAN_2.4G; Frequency: 2437 MHz;Duty Cycle: 1:1.01 Medium: B19T27N1_1115 Medium parameters used: f = 2437 MHz; = 2.003 S/m; r = 51.331; =
1000 kg/m3 Ambient Temperature23.7 ; Liquid Temperature23.3 DASY5 Configuration:
- Probe: EX3DV4 - SN7472; ConvF(7.84, 7.84, 7.84); Calibrated: 2018/08/29
- Sensor-Surface: 1.4mm (Mechanical Surface Detection)
- Electronics: DAE4 Sn861; Calibrated: 2018/05/30
- Phantom: Twin SAM Phantom_1823; Type: QD000P40CD;
- Measurement SW: DASY52, Version 52.10 (2); SEMCAD X Version 14.6.12 (7450)
- Area Scan (91x141x1): Interpolated grid: dx=1.200 mm, dy=1.200 mm Maximum value of SAR (interpolated) = 0.0798 W/kg
- Zoom Scan (5x5x7)/Cube 0: Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 6.262 V/m; Power Drift = 0.09 dB Peak SAR (extrapolated) = 0.104 W/kg SAR(1 g) = 0.051 W/kg; SAR(10 g) = 0.028 W/kg Maximum value of SAR (measured) = 0.0838 W/kg Test Laboratory: Bureau Veritas ADT SAR/HAC Testing Lab Date: 2018/11/15 P WLAN5.2G_802.11ac VHT80_Top Side_10mm_Ch42_Ant0 DUT: 181015C09 Communication System: WLAN_5G; Frequency: 5210 MHz;Duty Cycle: 1:1.06 Medium: B34T60N2_1115 Medium parameters used: f = 5210 MHz; = 5.21 S/m; r = 49.619; =
1000 kg/m3 Ambient Temperature23.7 ; Liquid Temperature23.3 DASY5 Configuration:
- Probe: EX3DV4 - SN7472; ConvF(4.9, 4.9, 4.9); Calibrated: 2018/08/29
- Sensor-Surface: 1.4mm (Mechanical Surface Detection)
- Electronics: DAE4 Sn861; Calibrated: 2018/05/30
- Phantom: Twin SAM Phantom_1823; Type: QD000P40CD;
- Measurement SW: DASY52, Version 52.10 (2); SEMCAD X Version 14.6.12 (7450)
- Area Scan (101x161x1): Interpolated grid: dx=1.000 mm, dy=1.000 mm Maximum value of SAR (interpolated) = 0.209 W/kg
- Zoom Scan (6x6x12)/Cube 0: Measurement grid: dx=5mm, dy=5mm, dz=2mm Reference Value = 6.810 V/m; Power Drift = 0.11 dB Peak SAR (extrapolated) = 0.388 W/kg SAR(1 g) = 0.119 W/kg; SAR(10 g) = 0.048 W/kg Maximum value of SAR (measured) = 0.241 W/kg Test Laboratory: Bureau Veritas ADT SAR/HAC Testing Lab Date: 2018/11/15 P09 WLAN5.8G_802.11ac VHT80_Front Face_10mm_Ch155_Ant0 DUT: 181015C09 Communication System: WLAN_5G; Frequency: 5775 MHz;Duty Cycle: 1:1.06 Medium: B34T60N2_1115 Medium parameters used: f = 5775 MHz; = 5.954 S/m; r = 48.775; =
1000 kg/m3 Ambient Temperature23.7 ; Liquid Temperature23.3 DASY5 Configuration:
- Probe: EX3DV4 - SN7472; ConvF(4.56, 4.56, 4.56); Calibrated: 2018/08/29
- Sensor-Surface: 1.4mm (Mechanical Surface Detection)
- Electronics: DAE4 Sn861; Calibrated: 2018/05/30
- Phantom: Twin SAM Phantom_1823; Type: QD000P40CD;
- Measurement SW: DASY52, Version 52.10 (2); SEMCAD X Version 14.6.12 (7450)
- Area Scan (141x161x1): Interpolated grid: dx=1.000 mm, dy=1.000 mm Maximum value of SAR (interpolated) = 0.121 W/kg
- Zoom Scan (6x6x12)/Cube 0: Measurement grid: dx=5mm, dy=5mm, dz=2mm Reference Value = 5.059 V/m; Power Drift = -0.01 dB Peak SAR (extrapolated) = 0.273 W/kg SAR(1 g) = 0.063 W/kg; SAR(10 g) = 0.021 W/kg Maximum value of SAR (measured) = 0.149 W/kg FCC SAR Test Report Appendix C. Calibration Certificate for Probe and Dipole The SPEAG calibration certificates are shown as follows. Report Format Version 5.0.0 Report No. : SA181015C09 Issued Date
: Nov. 19, 2018
1 2 3 4 | Part 22 report | Test Report | 1.87 MiB | / June 06 2019 |
FCC Test Report
(Part 22) Report No.: RF181015C09 FCC ID: PY318300428 Test Model: MR5000 Received Date: Oct. 15, 2018 Test Date: Oct. 23 ~ Nov. 05, 2018 Issued Date: Nov. 15, 2018 Applicant: NETGEAR INC. Address: 350 East Plumeria Drive, San Jose, CA 95134, USA Issued By: Bureau Veritas Consumer Products Services (H.K.) Ltd., Taoyuan Branch Lab Address: No. 47-2, 14th Ling, Chia Pau Vil., Lin Kou Dist., New Taipei City, Taiwan
(R.O.C.) Test Location: No. 19, Hwa Ya 2nd Rd., Wen Hwa Vil., Kwei Shan Dist., Taoyuan City FCC Registration /
Designation Number:
33383, TAIWAN (R.O.C.) 788550 / TW0003 This report is for your exclusive use. Any copying or replication of this report to or for any other person or entity, or use of our name or trademark, is permitted only with our prior written permission. This report sets forth our findings solely with respect to the test samples identified herein. The results set forth in this report are not indicative or representative of the quality or characteristics of the lot from which a test sample was taken or any similar or identical product specifically and expressly noted. Our report includes all of the tests requested by you and the results thereof based upon the information that you provided to us. You have 60 days from date of issuance of this report to notify us of any material error or omission caused by our negligence, provided, however, that such notice shall be in writing and shall specifically address the issue you wish to raise. A failure to raise such issue within the prescribed time shall constitute your unqualified acceptance of the completeness of this report, the tests conducted and the correctness of the report contents. Unless specific mention, the uncertainty of measurement has been explicitly taken into account to declare the compliance or non-compliance to the specification. The report must not be used by the client to claim product certification, approval, or endorsement by TAF or any government agencies Report No.: RF181015C09 Page No. 1 / 78 Report Format Version: 6.1.1 Table of Contents 4 3 Release Control Record .................................................................................................................................. 4 1 Certificate of Conformity ...................................................................................................................... 5 Summary of Test Results ..................................................................................................................... 6 2 2.1 Measurement Uncertainty ................................................................................................................... 6 2.2 Test Site and Instruments .................................................................................................................... 7 General Information .............................................................................................................................. 8 3.1 General Description of EUT ................................................................................................................ 8 3.2 Configuration of System under Test .................................................................................................... 9 3.2.1 Description of Support Units ................................................................................................................ 9 Test Mode Applicability and Tested Channel Detail .......................................................................... 10 3.3 3.4 EUT Operating Conditions ................................................................................................................ 12 3.5 General Description of Applied Standards ........................................................................................ 12 Test Types and Results ...................................................................................................................... 13 4.1 Output Power Measurement ............................................................................................................. 13 4.1.1 Limits of Output Power Measurement ............................................................................................... 13 4.1.2 Test Procedures ................................................................................................................................. 13 4.1.3 Test Setup .......................................................................................................................................... 14 4.1.4 Test Results ....................................................................................................................................... 15 4.2 Modulation Characteristics Measurement ......................................................................................... 31 4.2.1 Limits of Modulation Characteristics .................................................................................................. 31 4.2.2 Test Procedure .................................................................................................................................. 31 4.2.3 Test Setup .......................................................................................................................................... 31 4.2.4 Test Results ....................................................................................................................................... 32 4.3 Frequency Stability Measurement .................................................................................................... 33 4.3.1 Limits of Frequency Stability Measurement ...................................................................................... 33 4.3.2 Test Procedure .................................................................................................................................. 33 4.3.3 Test Setup .......................................................................................................................................... 33 4.3.4 Test Results ....................................................................................................................................... 34 4.4 Occupied Bandwidth Measurement .................................................................................................. 38 4.4.1 Test Procedure .................................................................................................................................. 38 4.4.2 Test Setup .......................................................................................................................................... 38 4.4.3 Test Result ......................................................................................................................................... 39 4.5 Band Edge Measurement ................................................................................................................. 42 4.5.1 Limits of Band Edge Measurement ................................................................................................... 42 4.5.2 Test Setup .......................................................................................................................................... 42 4.5.3 Test Procedures ................................................................................................................................. 42 4.5.4 Test Results ....................................................................................................................................... 43 4.6 Peak to Average Ratio ...................................................................................................................... 47 4.6.1 Limits of Peak to Average Ratio Measurement ................................................................................. 47 4.6.2 Test Setup .......................................................................................................................................... 47 4.6.3 Test Procedures ................................................................................................................................. 47 4.6.4 Test Results ....................................................................................................................................... 48 4.7 Conducted Spurious Emissions ........................................................................................................ 50 4.7.1 Limits of Conducted Spurious Emissions Measurement ................................................................... 50 4.7.2 Test Setup .......................................................................................................................................... 50 4.7.3 Test Procedure .................................................................................................................................. 50 4.7.4 Test Results ....................................................................................................................................... 51 4.8 Radiated Emission Measurement ..................................................................................................... 63 4.8.1 Limits of Radiated Emission Measurement ....................................................................................... 63 4.8.2 Test Procedure .................................................................................................................................. 63 4.8.3 Deviation from Test Standard ............................................................................................................ 63 4.8.4 Test Setup .......................................................................................................................................... 64 4.8.5 Test Results ....................................................................................................................................... 65 Report No.: RF181015C09 Page No. 2 / 78 Report Format Version: 6.1.1 5 Pictures of Test Arrangements .......................................................................................................... 77 Appendix Information on the Testing Laboratories ................................................................................ 78 Report No.: RF181015C09 Page No. 3 / 78 Report Format Version: 6.1.1 Release Control Record Issue No. RF181015C09 Description Original release. Date Issued Nov. 15, 2018 Report No.: RF181015C09 Page No. 4 / 78 Report Format Version: 6.1.1 1 Certificate of Conformity Product: 5G MHS Travel Router Brand: Netgear Test Model: MR5000 Sample Status: Engineering sample Applicant: NETGEAR INC. Test Date: Oct. 23 ~ Nov. 05, 2018 Standards: FCC Part 22, Subpart H The above equipment has been tested by Bureau Veritas Consumer Products Services (H.K.) Ltd., Taoyuan Branch, and found compliance with the requirement of the above standards. The test record, data evaluation & Equipment Under Test (EUT) configurations represented herein are true and accurate accounts of the measurements of the samples RF characteristics under the conditions specified in this report. Prepared by :
Polly Chien / Specialist
, Date:
Nov. 15, 2018 Approved by :
, Date:
Nov. 15, 2018 Bruce Chen / Project Engineer Report No.: RF181015C09 Page No. 5 / 78 Report Format Version: 6.1.1 2 Summary of Test Results Applied Standard: FCC Part 22 & Part 2 Test Item Result Remarks FCC Clause 2.1046 22.913 (a) Effective radiated power 2.1047 Modulation characteristics
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Peak To Average Ratio 2.1055 22.355 2.1049 22.917 2.1051 22.917 2.1053 22.917 Frequency Stability Occupied Bandwidth Band Edge Measurements Conducted Spurious Emissions Radiated Spurious Emissions Pass Pass Pass Pass Pass Pass Pass Pass Meet the requirement of limit. Meet the requirement Meet the requirement of limit. Meet the requirement of limit. Meet the requirement of limit. Meet the requirement of limit. Meet the requirement of limit. Meet the requirement of limit. Minimum passing margin is
-30.0dB at 62.01MHz. 2.1 Measurement Uncertainty Where relevant, the following measurement uncertainty levels have been estimated for tests performed on the EUT as specified in CISPR 16-4-2:
Measurement Radiated Emissions up to 1 GHz Radiated Emissions above 1 GHz Frequency 30MHz ~ 200MHz 200MHz ~1000MHz 1GHz ~ 18GHz 18GHz ~ 40GHz Expanded Uncertainty
(k=2) () 3.59 dB 3.60 dB 2.29 dB 2.29 dB Report No.: RF181015C09 Page No. 6 / 78 Report Format Version: 6.1.1 2.2 Test Site and Instruments Description &
Manufacturer Model No. Serial No. Cal. Date Cal. Due 269 8449B 8447D FSP40 100269 N9038A EM-6879 9168-148 VULB9168 BBHA 9170 9120D-1169 2944A10638 3008A01638 MY55420137 BBHA 9120 D BBHA9170241 SUCOFLEX 104 Apr. 11, 2018 Apr. 10, 2019 May 29, 2018 May 28, 2019 Feb. 22, 2018 Feb. 21, 2019 Dec. 01, 2017 Nov. 30, 2018 Dec. 12, 2017 Dec. 11, 2018 Dec. 11, 2017 Dec. 10, 2018 Aug. 08, 2018 Aug. 07, 2019 Sep. 07, 2018 Sep. 06, 2019 CABLE-CH9-02
(248780+171006) SUCOFLEX 104 &
EMC104-SM-SM8000 Test Receiver KEYSIGHT Spectrum Analyzer ROHDE & SCHWARZ BILOG Antenna SCHWARZBECK HORN Antenna SCHWARZBECK HORN Antenna SCHWARZBECK Loop Antenna EMCI Preamplifier Agilent
(Below 1GHz) Preamplifier Agilent
(Above 1GHz) RF signal cable HUBER+SUHNER&EMCI RF signal cable HUBER+SUHNER RF signal cable Woken Software BV ADT Antenna Tower EMCO Turn Table EMCO Antenna Tower &Turn BV ADT Turn Table BV ADT Turn Table Controller BV ADT Boresight Antenna Fixture Turn Table Controller BV ADT Temperature And Humidity Chamber TERCHY JFW 20dB attenuation Radio Communication Dec. 21, 2017 Dec. 20, 2018 Analyzer Note: 1. The calibration interval of the above test instruments is 12 months and the calibrations are traceable CABLE-CH9-(250795/4) Aug. 08, 2018 Aug. 07, 2019 SC93021705 FBA-SIP01 SC93021702 SC100 FBA-01 SC100 Nov. 20, 2017 Nov. 19, 2018 Jan. 15, 2018 Jan. 14, 2019 V7.6.15.9.5 2070/2080 ADT_Radiated_ 50HF-020-SMA Cable-CH9-01 NA NA NA NA NA NA 512.835.4684 Jul. 31, 2018 TT93021705 AT93021705 HRM-120RF 6261786083 Jul. 30, 2019 2087-2.03 MT8821C 931022 8D-FB TT100 AT100 NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA to NML/ROC and NIST/USA. 2. The test was performed in HwaYa Chamber 9. 3. The FCC Designation Number is TW0003. The number will be varied with the Lab location and scope as attached. 4. The IC Site Registration No. is 7450F-9. Report No.: RF181015C09 Page No. 7 / 78 Report Format Version: 6.1.1 3 General Information 3.1 General Description of EUT Product Brand Test Model Sample Status Power Supply Rating Modulation Type QPSK, 16QAM, 64QAM 5G MHS Travel Router Netgear MR5000 Engineering sample 5.0 Vdc or 9Vdc (adapter) 3.85Vdc (battery) Operating Frequency Max. ERP Power Emission Designator LTE Band 5 (Channel Bandwidth 3MHz) LTE Band 5 (Channel Bandwidth 1.4MHz) 824.7MHz ~ 848.3MHz LTE Band 5 (Channel Bandwidth 3MHz) 825.5MHz ~ 847.5MHz LTE Band 5 (Channel Bandwidth 5MHz) 826.5MHz ~ 846.5MHz LTE Band 5 (Channel Bandwidth 10MHz) 829.0MHz ~ 844.0MHz 16QAM 229.087mW LTE Band 5 (Channel Bandwidth 1.4MHz)
(23.6dBm) 208.930mW
(23.2dBm)) 234.423mW
(23.7dBm) 194.984mW
(22.9dBm) 16QAM 1M09D7W 2M70D7W 4M49D7W 8M99D7W LTE Band 5 (Channel Bandwidth 10MHz) LTE Band 5 (Channel Bandwidth 1.4MHz) 1M09G7D LTE Band 5 (Channel Bandwidth 3MHz) 2M70G7D LTE Band 5 (Channel Bandwidth 5MHz) 4M50G7D LTE Band 5 (Channel Bandwidth 10MHz) 8M99G7D Internal IFA antenna with 0.96dBi QPSK 275.423mW
(24.4dBm) 263.027mW
(24.2dBm) 245.471mW
(23.9dBm) 257.040mW
(24.1dBm) QPSK LTE Band 5 (Channel Bandwidth 5MHz) NA 0.95m shielded USB cable without core Antenna Type Antenna Connector Accessory Device Adapter, battery Data Cable Supplied Note:
1. The EUT consumes power from the following adapter and battery. Adapter Brand Model P/N Input Output NETGEAR AD2122F20 332-11106-01 100-240Vac, 50/60Hz, 0.5A 5.0Vdc, 2.0A or 9Vdc /1.8A 64QAM 199.526mW
(23.0dBm) 186.209mW
(22.7dBm) 213.796mW
(23.3dBm) 173.780mW
(22.4dBm) 64QAM 1M09D7W 2M70D7W 4M49D7W 8M99D7W Lithium ion battery Brand Model P/N Rating Report No.: RF181015C09 NETGEAR W-10a 308-10084-01 3.85Vdc, 19.78Wh, 5040mAh Page No. 8 / 78 Report Format Version: 6.1.1 EUT Adapter (EUT) 3.2 Configuration of System under Test 3.2.1 Description of Support Units The EUT has been tested as an independent unit together with other necessary accessories or support units. The following support units or accessories were used to form a representative test configuration during the tests. ID Communication Remote site Tester (A) Model No. Serial No. Radio Remarks FCC ID Brand DC Product Radio A. Communication Anritsu MT8820C 6201010284 NA
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Tester Note:
1. All power cords of the above support units are non-shielded (1.8m). 2. Item A acted as a communication partner to transfer data. Report No.: RF181015C09 Page No. 9 / 78 Report Format Version: 6.1.1 3.3 Test Mode Applicability and Tested Channel Detail Pre-Scan has been conducted to determine the worst-case mode from all possible combinations between available modulations, data rates, XYZ axis and antenna ports. The worst case was found when positioned on X-plane. Following channel(s) was (were) selected for the final test as listed below:
LTE Band 5 EUT Configure Mode Test item Available channel Tested channel Channel Bandwidth Modulation Mode ERP 20407 to 20643 20415 to 20635 20425 to 20625 20450 to 20600 20407(824.7MHz), 20525(836.5MHz), 20643(848.3MHz) 20415(825.5MHz), 20525(836.5MHz), 20635(847.5MHz) 20425(826.5MHz), 20525(836.5MHz), 20625(846.5MHz) 20450(829.0MHz), 20525(836.5MHz), 20600(844.0MHz) 1.4MHz QPSK / 16QAM /
64QAM 1 RB / 5 RB Offset 3MHz QPSK / 16QAM /
64QAM 1 RB / 14 RB Offset 5MHz QPSK / 16QAM /
64QAM 1 RB / 24 RB Offset 10MHz QPSK / 16QAM /
64QAM 1 RB / 49 RB Offset Modulation characteristics 20450 to 20600 20525(836.5MHz), 10MHz QPSK / 16QAM
/ 64QAM 1 RB / 49 RB Offset
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Frequency Stability
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Occupied Bandwidth
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Band Edge Report No.: RF181015C09 20407 to 20643 20415 to 20635 20425 to 20625 20450 to 20600 20407 to 20643 20415 to 20635 20425 to 20625 20450 to 20600 20407 to 20643 20415 to 20635 20425 to 20625 20450 to 20600 20407(824.7MHz), 20643(848.3MHz) 20415(825.5MHz), 20635(847.5MHz) 20425(826.5MHz), 20625(846.5MHz) 20450(829.0MHz), 20600(844.0MHz) 20407(824.7MHz), 20525(836.5MHz), 20643(848.3MHz) 20415(825.5MHz), 20525(836.5MHz), 20635(847.5MHz) 20425(826.5MHz), 20525(836.5MHz), 20625(846.5MHz) 20450(829.0MHz), 20525(836.5MHz), 20600(844.0MHz) 20407(824.7MHz), 20643(848.3MHz) 20415(825.5MHz), 20635(847.5MHz) 20425(826.5MHz), 20625(846.5MHz) 20450(829.0MHz), 20600(844.0MHz) 1.4MHz QPSK 1 RB / 5 RB Offset 3MHz 5MHz QPSK 1 RB / 14 RB Offset QPSK 1 RB / 24 RB Offset 10MHz QPSK 1 RB / 49 RB Offset 1.4MHz QPSK / 16QAM /
64QAM 5 RB / 0RB Offset 3MHz QPSK / 16QAM /
64QAM 14 RB / 0RB Offset 5MHz QPSK / 16QAM /
64QAM 24RB / 0RB Offset 10MHz QPSK / 16QAM /
64QAM 49RB / 0RB Offset 1.4MHz QPSK 3MHz QPSK 5MHz QPSK 10MHz QPSK 1 RB / 0 RB Offset 1 RB / 5 RB Offset 6 RB / 0 RB Offset 1 RB / 0 RB Offset 1 RB / 14 RB Offset 15 RB / 0 RB Offset 1 RB / 0 RB Offset 1 RB / 24 RB Offset 25 RB / 0 RB Offset 1 RB / 0 RB Offset 1 RB / 49 RB Offset 50 RB / 0 RB Offset Page No. 10 / 78 Report Format Version: 6.1.1 EUT Configure Mode Test item Available channel Tested channel Channel Bandwidth Modulation Mode
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Peak to Average Ratio 20407 to 20643 20415 to 20635 20425 to 20625 20450 to 20600 20407 to 20643 20415 to 20635 20425 to 20625 20450 to 20600 20407 to 20643 20425 to 20625 20450 to 20600 20407 to 20643 20407(824.7MHz), 20525(836.5MHz), 20643(848.3MHz) 20415(825.5MHz), 20525(836.5MHz), 20635(847.5MHz) 20425(826.5MHz), 20525(836.5MHz), 20625(846.5MHz) 20450(829.0MHz), 20525(836.5MHz), 20600(844.0MHz) 20407(824.7MHz), 20525(836.5MHz), 20643(848.3MHz) 20415(825.5MHz), 20525(836.5MHz), 20635(847.5MHz) 20425(826.5MHz), 20525(836.5MHz), 20625(846.5MHz) 20450(829.0MHz), 20525(836.5MHz), 20600(844.0MHz) 20407(824.7MHz) 20425(826.5MHz) 20450(829.0MHz) 20407(824.7MHz), 20525(836.5MHz), 20643(848.3MHz) 20425(826.5MHz), 20525(836.5MHz), 20625(846.5MHz) 20450(829.0MHz), 20525(836.5MHz), 20600(844.0MHz) 1.4MHz QPSK / 16QAM /
64QAM 1 RB / 5 RB Offset 3MHz QPSK / 16QAM /
64QAM 1 RB / 14 RB Offset 5MHz QPSK / 16QAM /
64QAM 1 RB / 24 RB Offset 10MHz QPSK / 16QAM /
64QAM 1 RB / 49 RB Offset 1.4MHz QPSK 1 RB / 5 RB Offset 3MHz QPSK 1 RB / 14 RB Offset 5MHz QPSK 1 RB / 24 RB Offset 10MHz QPSK 1 RB / 49 RB Offset 1.4MHz 5MHz 10MHz QPSK QPSK QPSK 1 RB / 5 RB Offset 1 RB / 24 RB Offset 1 RB / 49 RB Offset 1.4MHz QPSK 1 RB / 5 RB Offset 5MHz QPSK 1 RB / 24 RB Offset 10MHz QPSK 1 RB / 49 RB Offset Conducted Emission Radiated Emission Below 1GHz
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Radiated Emission Above 1GHz 20425 to 20625 20450 to 20600 Note: The conducted output power for QPSK, 16QAM and 64QAM, measured value of QPSK is higher than 16QAM and 64QAM mode. Therefore, only occupied bandwidth and Peak to average ratio items had been tested under QPSK, 16QAM and 64QAM modes, the other test items were performed under QPSK mode only. Report No.: RF181015C09 Page No. 11 / 78 Report Format Version: 6.1.1 Test Condition:
Test Item ERP Modulation characteristics Frequency Stability Occupied Bandwidth Band Edge Peak To Average Ratio Conducted Emission Radiated Emission Environmental Conditions 25deg. C, 66%RH 24deg. C, 64%RH 24deg. C, 64%RH 24deg. C, 64%RH 24deg. C, 64%RH 24deg. C, 64%RH 24deg. C, 64%RH 25deg. C, 66%RH Input Power 120Vac, 60Hz 120Vac, 60Hz 120Vac, 60Hz 120Vac, 60Hz 120Vac, 60Hz 120Vac, 60Hz 120Vac, 60Hz 120Vac, 60Hz Tested By Tim Chen Wayne Huang Wayne Huang Wayne Huang Wayne Huang Wayne Huang Wayne Huang Greg Lin Tim Chen 3.4 EUT Operating Conditions The EUT makes a call to the communication simulator. The communication simulator station system controlled a EUT to export maximum output power under transmission mode and specific channel frequency 3.5 General Description of Applied Standards The EUT is a RF Product. According to the specifications of the manufacturer, it must comply with the requirements of the following standards:
FCC 47 CFR Part 2 FCC 47 CFR Part 22 KDB 971168 D01 Power Meas License Digital Systems v03r01 ANSI/TIA/EIA-603-E 2016 ANSI 63.26-2015 All test items have been performed and recorded as per the above standards. Report No.: RF181015C09 Page No. 12 / 78 Report Format Version: 6.1.1 Test Types and Results 4 4.1 Output Power Measurement 4.1.1 Limits of Output Power Measurement Mobile / Portable station are limited to 7 watts e.r.p. 4.1.2 Test Procedures EIRP / ERP Measurement:
a. All measurements were done at low, middle and high operational frequency range. RBW and VBW is 10MHz for LTE mode. b. Substitution method is used for E.I.R.P measurement. In the semi-anechoic chamber, EUT placed on the 0.8m(below or equal 1GHz) and/or 1.5m(above 1GHz) height of Turn Table, rotated the table around 360 degrees to search the maximum radiation power and receiver antenna shall be rotated vertical and horizontal polarization and moved height from 1m to 4m to find the maximum polar radiated power. The Read Value is the spectrum reading the maximum power value. c. The substitution horn antenna is substituted for EUT at the same position and signals generator export the CW signal to the substitution antenna via a TX cable. Rotated the Turn Table and moved receiving antenna to find the maximum radiation power. Adjust output power level of S.G to get a Value of spectrum reading equal to Read Value of step b. Record the power level of S.G d. EIRP = Output power level of S.G TX cable loss + Antenna gain of substitution horn.E.R.P power can be calculated form E.I.R.P power by subtracting the gain of dipole, E.R.P power = E.I.R.P power - 2.15dB. Where:
ERP/EIRP = PMeas + GT - LC PMeas : Measure transmitter output power. GT : Gain of the transmitting antenna. LC : signal attenuation in the connecting cable between the transmitter and antenna. Conducted Power Measurement:
The EUT was set up for the maximum power with GSM, WCDMA, LTE link data modulation and link up with simulator. Set the EUT to transmit under low, middle and high channel and record the power level shown on simulator. Report No.: RF181015C09 Page No. 13 / 78 Report Format Version: 6.1.1 4.1.3 Test Setup EIRP / ERP Measurement:
For Radiated Emission below or equal 1GHz Ant. Tower 1-4m Variable EUT&
Support Units 80cm 3m 10m Turn Table Ground Plane Test Receiver For Radiated Emission above 1GHz EUT&
Support Units 3m Ant. Tower 1-4m Variable Turn Table Absorber 150cm Ground Plane Test Receiver For the actual test configuration, please refer to the attached file (Test Setup Photo). Conducted Power Measurement:
For the actual test configuration, please refer to the attached file (Test Setup Photo). COMMUNICATION SIMULATOR EUT Report No.: RF181015C09 Page No. 14 / 78 Report Format Version: 6.1.1 4.1.4 Test Results Conducted Output Power (dBm) BW MCS Index QPSK 10M 16QAM 64QAM LTE Band 5 Low 20450 829 23.32 22.95 23.23 22.40 22.37 22.33 22.35 22.26 21.90 22.05 21.38 21.29 21.20 21.25 21.28 20.84 21.05 20.36 20.30 20.24 20.28 RB Size RB Offset Channel Frequency (MHz) 0 24 49 0 12 25 0 0 24 49 0 12 25 0 0 24 49 0 12 25 0 1 1 1 25 25 25 50 1 1 1 25 25 25 50 1 1 1 25 25 25 50 Mid 20525 836.5 23.43 23.05 23.24 22.48 22.46 22.41 22.46 22.41 22.00 22.20 21.38 21.40 21.37 21.43 21.40 21.04 21.22 20.39 20.46 20.31 20.37 High 20600 844 23.35 23.00 23.17 22.43 22.40 22.36 22.39 22.25 21.91 22.10 21.38 21.32 21.32 21.28 21.34 20.90 21.13 20.42 20.39 20.32 20.34 Report No.: RF181015C09 Page No. 15 / 78 Report Format Version: 6.1.1 BW MCS Index QPSK 5M 16QAM 64QAM LTE Band 5 Low 20425 826.5 23.14 22.81 22.98 22.28 22.27 22.12 22.21 22.10 21.81 21.93 21.25 21.20 21.08 21.31 21.13 20.78 20.83 20.18 20.12 20.20 20.14 RB Size RB Offset Channel Frequency (MHz) 0 12 24 0 6 13 0 0 12 24 0 6 13 0 0 12 24 0 6 13 0 1 1 1 12 12 12 25 1 1 1 12 12 12 25 1 1 1 12 12 12 25 Mid 20525 836.5 23.23 22.97 23.02 22.35 22.46 22.22 22.25 22.20 21.76 22.01 21.28 21.30 21.23 21.38 21.31 20.85 21.10 20.31 20.36 20.27 20.27 High 20625 846.5 23.03 22.77 22.91 22.21 22.22 22.18 22.16 22.28 21.89 21.84 21.11 21.10 21.11 21.18 21.08 20.71 20.94 20.30 20.11 20.15 20.09 Report No.: RF181015C09 Page No. 16 / 78 Report Format Version: 6.1.1 RB Size RB Offset BW MCSIndex Channel Frequency (MHz) QPSK 3M 16QAM 64QAM 0 7 14 0 3 7 0 0 7 14 0 3 7 0 0 7 14 0 3 7 0 1 1 1 8 8 8 15 1 1 1 8 8 8 15 1 1 1 8 8 8 15 LTE Band 5 Low 20415 825.5 23.10 22.75 22.99 22.19 22.27 22.18 22.21 22.14 21.80 21.85 21.24 21.33 21.13 21.10 21.11 20.75 20.98 20.33 20.17 20.15 20.24 Mid 20525 836.5 23.37 22.92 23.14 22.30 22.40 22.35 22.38 22.19 21.97 21.98 21.26 21.34 21.24 21.16 21.29 20.82 21.10 20.33 20.25 20.27 20.26 High 20635 847.5 23.23 22.93 23.01 22.22 22.30 22.21 22.22 22.17 21.81 21.89 21.23 21.18 21.23 21.17 21.32 20.81 21.07 20.35 20.23 20.23 20.13 Report No.: RF181015C09 Page No. 17 / 78 Report Format Version: 6.1.1 BW MCS Index QPSK 1.4M 16QAM 64QAM LTE Band 5 Low 20407 824.7 23.11 22.72 23.08 23.36 23.36 23.29 22.16 22.17 21.72 21.86 22.32 22.30 22.08 21.22 21.15 20.76 20.89 21.26 21.27 21.23 20.22 RB Size RB Offset Channel Frequency (MHz) 0 2 5 0 1 3 0 0 2 5 0 1 3 0 0 2 5 0 1 3 0 1 1 1 3 3 3 6 1 1 1 3 3 3 6 1 1 1 3 3 3 6 Mid 20525 836.5 23.35 22.92 23.09 23.26 23.38 23.29 22.31 22.24 21.86 21.97 22.21 22.26 22.12 21.35 21.30 20.79 21.07 21.32 21.22 21.13 20.24 High 20643 848.3 23.12 22.81 22.92 23.25 23.27 23.17 22.31 22.33 21.79 22.05 22.18 22.24 22.21 21.15 21.15 20.66 21.06 21.24 21.23 21.13 20.22 Report No.: RF181015C09 Page No. 18 / 78 Report Format Version: 6.1.1 ERP Power Modulation Type: QPSK LTE Band 5, Channel Bandwidth: 1.4MHz MODE TX channel 20407 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 824.70 Reading
(dBm)
-7.1 S.G Power Value (dBm) Correction Factor (dB) 20.5 3.9 ERP (dBm) Limit (dBm) Margin (dB) 24.4 38.5
-14.1 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 824.70 Reading
(dBm)
-15.4 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 13.0 3.9 16.9 38.5
-21.6 MODE TX channel 20525 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 836.50 Reading
(dBm)
-7.6 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 19.9 3.8 23.7 38.5
-14.8 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 836.50 Reading
(dBm)
-16.5 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 11.6 3.8 15.4 38.5
-23.1 MODE TX channel 20643 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 848.30 Reading
(dBm)
-7.5 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 20.2 3.4 23.6 38.5
-14.9 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 848.30 Reading
(dBm)
-15.3 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 12.8 3.4 16.2 38.5
-22.3 Note: ERP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09 Page No. 19 / 78 Report Format Version: 6.1.1 LTE Band 5, Channel Bandwidth: 3MHz MODE TX channel 20415 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 825.50 Reading
(dBm)
-7.3 S.G Power Value (dBm) Correction Factor (dB) 20.3 3.9 ERP (dBm) Limit (dBm) Margin (dB) 24.2 38.5
-14.3 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 825.50 Reading
(dBm)
-13.9 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 14.5 3.9 18.4 38.5
-20.1 MODE TX channel 20525 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 836.50 Reading
(dBm)
-8.8 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 18.7 3.8 22.5 38.5
-16.0 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 836.50 Reading
(dBm)
-13.1 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 15.0 3.8 18.8 38.5
-19.7 MODE TX channel 20635 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 847.50 Reading
(dBm)
-7.9 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 19.7 3.4 23.1 38.5
-15.4 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 847.50 Reading
(dBm)
-16.3 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 11.9 3.4 15.3 38.5
-23.2 Note: ERP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09 Page No. 20 / 78 Report Format Version: 6.1.1 LTE Band 5, Channel Bandwidth: 5MHz MODE TX channel 20425 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 826.50 Reading
(dBm)
-7.6 S.G Power Value (dBm) Correction Factor (dB) 20.0 3.9 ERP (dBm) Limit (dBm) Margin (dB) 23.9 38.5
-14.6 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 826.50 Reading
(dBm)
-15.1 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 13.2 3.9 17.1 38.5
-21.4 MODE TX channel 20525 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 836.50 Reading
(dBm)
-7.9 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 19.6 3.8 23.4 38.5
-15.1 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 836.50 Reading
(dBm)
-15.2 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 12.9 3.8 16.7 38.5
-21.8 MODE TX channel 20625 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 846.50 Reading
(dBm)
-8.1 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 19.5 3.4 22.9 38.5
-15.6 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 846.50 Reading
(dBm)
-14.2 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 14.0 3.4 17.4 38.5
-21.1 Note: ERP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09 Page No. 21 / 78 Report Format Version: 6.1.1 LTE Band 5, Channel Bandwidth: 10MHz MODE TX channel 20450 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 829.00 Reading
(dBm)
-7.5 S.G Power Value (dBm) Correction Factor (dB) 20.2 3.9 ERP (dBm) Limit (dBm) Margin (dB) 24.1 38.5
-14.4 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 829.00 Reading
(dBm)
-14.2 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 14.0 3.9 17.9 38.5
-20.6 MODE TX channel 20525 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 836.50 Reading
(dBm)
-7.9 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 19.5 3.8 23.3 38.5
-15.2 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 836.50 Reading
(dBm)
-15.1 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 13.0 3.8 16.8 38.5
-21.7 MODE TX channel 20600 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 844.00 Reading
(dBm)
-7.2 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 20.3 3.7 24.0 38.5
-14.5 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 844.00 Reading
(dBm)
-15.8 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 12.6 3.7 16.3 38.5
-22.2 Note: ERP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09 Page No. 22 / 78 Report Format Version: 6.1.1 Modulation Type: 16QAM LTE Band 5, Channel Bandwidth: 1.4MHz MODE TX channel 20407 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 824.70 Reading
(dBm)
-7.9 S.G Power Value (dBm) Correction Factor (dB) 19.7 3.9 ERP (dBm) Limit (dBm) Margin (dB) 23.6 38.5
-14.9 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 824.70 Reading
(dBm)
-16.4 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 12.0 3.9 15.9 38.5
-22.6 MODE TX channel 20525 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 836.50 Reading
(dBm)
-8.4 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 19.1 3.8 22.9 38.5
-15.6 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 836.50 Reading
(dBm)
-17.4 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 10.7 3.8 14.5 38.5
-24.0 MODE TX channel 20643 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 848.30 Reading
(dBm)
-8.5 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 19.2 3.4 22.6 38.5
-15.9 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 848.30 Reading
(dBm)
-16.4 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 11.7 3.4 15.1 38.5
-23.4 Note: ERP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09 Page No. 23 / 78 Report Format Version: 6.1.1 LTE Band 5, Channel Bandwidth: 3MHz MODE TX channel 20415 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 825.50 Reading
(dBm)
-8.3 S.G Power Value (dBm) Correction Factor (dB) 19.3 3.9 ERP (dBm) Limit (dBm) Margin (dB) 23.2 38.5
-15.3 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 825.50 Reading
(dBm)
-8.3 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 19.3 3.9 23.2 38.5
-15.3 MODE TX channel 20525 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 836.50 Reading
(dBm)
-9.6 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 17.8 3.8 21.6 38.5
-16.9 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 836.50 Reading
(dBm)
-15.1 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 13.0 3.8 16.8 38.5
-21.7 MODE TX channel 20635 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 847.50 Reading
(dBm)
-8.6 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 19.0 3.4 22.4 38.5
-16.1 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 847.50 Reading
(dBm)
-17.0 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 11.2 3.4 14.6 38.5
-23.9 Note: ERP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09 Page No. 24 / 78 Report Format Version: 6.1.1 LTE Band 5, Channel Bandwidth: 5MHz MODE TX channel 20425 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 826.50 Reading
(dBm)
-7.8 S.G Power Value (dBm) Correction Factor (dB) 19.8 3.9 ERP (dBm) Limit (dBm) Margin (dB) 23.7 38.5
-14.8 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 826.50 Reading
(dBm)
-15.9 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 12.4 3.9 16.3 38.5
-22.2 MODE TX channel 20525 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 836.50 Reading
(dBm)
-8.6 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 18.8 3.8 22.6 38.5
-15.9 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 836.50 Reading
(dBm)
-16.1 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 12.0 3.8 15.8 38.5
-22.7 MODE TX channel 20625 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 846.50 Reading
(dBm)
-9.1 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 18.5 3.4 21.9 38.5
-16.6 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 846.50 Reading
(dBm)
-15.2 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 13.0 3.4 16.4 38.5
-22.1 Note: ERP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09 Page No. 25 / 78 Report Format Version: 6.1.1 LTE Band 5, Channel Bandwidth: 10MHz MODE TX channel 20450 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 829.00 Reading
(dBm)
-8.7 S.G Power Value (dBm) Correction Factor (dB) 19.0 3.9 ERP (dBm) Limit (dBm) Margin (dB) 22.9 38.5
-15.6 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 829.00 Reading
(dBm)
-15.1 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 13.1 3.9 17.0 38.5
-21.5 MODE TX channel 20525 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 836.50 Reading
(dBm)
-8.8 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 18.7 3.8 22.5 38.5
-16.0 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 836.50 Reading
(dBm)
-15.9 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 12.2 3.8 16.0 38.5
-22.5 MODE TX channel 20600 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 844.00 Reading
(dBm)
-8.4 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 19.1 3.7 22.8 38.5
-15.7 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 844.00 Reading
(dBm)
-16.6 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 11.8 3.7 15.5 38.5
-23.0 Note: ERP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09 Page No. 26 / 78 Report Format Version: 6.1.1 Modulation Type: 64QAM LTE Band 5, Channel Bandwidth: 1.4MHz MODE TX channel 20407 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 824.70 Reading
(dBm)
-8.5 S.G Power Value (dBm) Correction Factor (dB) 19.1 3.9 ERP (dBm) Limit (dBm) Margin (dB) 23.0 38.5
-15.5 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 824.70 Reading
(dBm)
-16.9 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 11.5 3.9 15.4 38.5
-23.1 MODE TX channel 20525 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 836.50 Reading
(dBm)
-8.9 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 18.6 3.8 22.4 38.5
-16.1 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 836.50 Reading
(dBm)
-17.9 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 10.2 3.8 14.0 38.5
-24.5 MODE TX channel 20643 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 848.30 Reading
(dBm)
-9.1 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 18.6 3.4 22.0 38.5
-16.5 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 848.30 Reading
(dBm)
-16.8 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 11.3 3.4 14.7 38.5
-23.8 Note: ERP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09 Page No. 27 / 78 Report Format Version: 6.1.1 LTE Band 5, Channel Bandwidth: 3MHz MODE TX channel 20415 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 825.50 Reading
(dBm)
-8.8 S.G Power Value (dBm) Correction Factor (dB) 18.8 3.9 ERP (dBm) Limit (dBm) Margin (dB) 22.7 38.5
-15.8 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 825.50 Reading
(dBm)
-15.4 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 13.0 3.9 16.9 38.5
-21.6 MODE TX channel 20525 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 836.50 Reading
(dBm)
-9.9 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 17.5 3.8 21.3 38.5
-17.2 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 836.50 Reading
(dBm)
-15.7 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 12.4 3.8 16.2 38.5
-22.3 MODE TX channel 20635 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 847.50 Reading
(dBm)
-9.1 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 18.5 3.4 21.9 38.5
-16.6 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 847.50 Reading
(dBm)
-17.4 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 10.8 3.4 14.2 38.5
-24.3 Note: ERP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09 Page No. 28 / 78 Report Format Version: 6.1.1 LTE Band 5, Channel Bandwidth: 5MHz MODE TX channel 20425 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 826.50 Reading
(dBm)
-8.2 S.G Power Value (dBm) Correction Factor (dB) 19.4 3.9 ERP (dBm) Limit (dBm) Margin (dB) 23.3 38.5
-15.2 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 826.50 Reading
(dBm)
-16.1 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 12.2 3.9 16.1 38.5
-22.4 MODE TX channel 20525 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 836.50 Reading
(dBm)
-9.1 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 18.4 3.8 22.2 38.5
-16.3 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 836.50 Reading
(dBm)
-16.5 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 11.6 3.8 15.4 38.5
-23.1 MODE TX channel 20625 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 846.50 Reading
(dBm)
-9.5 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 18.1 3.4 21.5 38.5
-17.0 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 846.50 Reading
(dBm)
-15.8 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 12.4 3.4 15.8 38.5
-22.7 Note: ERP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09 Page No. 29 / 78 Report Format Version: 6.1.1 LTE Band 5, Channel Bandwidth: 10MHz MODE TX channel 20450 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 829.00 Reading
(dBm)
-9.2 S.G Power Value (dBm) Correction Factor (dB) 18.5 3.9 ERP (dBm) Limit (dBm) Margin (dB) 22.4 38.5
-16.1 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 829.00 Reading
(dBm)
-15.5 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 12.7 3.9 16.6 38.5
-21.9 MODE TX channel 20525 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 836.50 Reading
(dBm)
-9.4 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 18.1 3.8 21.9 38.5
-16.6 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 836.50 Reading
(dBm)
-16.2 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 11.9 3.8 15.7 38.5
-22.8 MODE TX channel 20600 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 844.00 Reading
(dBm)
-9.1 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 18.4 3.7 22.1 38.5
-16.4 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 844.00 Reading
(dBm)
-17.0 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 11.4 3.7 15.1 38.5
-23.4 Note: ERP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09 Page No. 30 / 78 Report Format Version: 6.1.1 4.2 Modulation Characteristics Measurement 4.2.1 Limits of Modulation Characteristics N/A 4.2.2 Test Procedure Connect the EUT to Communication Simulator via the antenna connector, The frequency band is set as EUT supported Modulation and Channels, the EUT output is matched with 50 ohm load, the waveform quality and constellation of the EUT was tested. 4.2.3 Test Setup Communication Simulator EUT Report No.: RF181015C09 Page No. 31 / 78 Report Format Version: 6.1.1 4.2.4 Test Results LTE Band 5 Spectrum Plot of Measurement Value Channel: 20525 / Frequency (MHz): 836.5MHz Channel Bandwidth: 10MHz / QPSK Channel Bandwidth: 10MHz / 16QAM Channel Bandwidth: 10MHz / 64QAM Report No.: RF181015C09 Page No. 32 / 78 Report Format Version: 6.1.1 4.3 Frequency Stability Measurement 4.3.1 Limits of Frequency Stability Measurement 1.5 ppm is for base and fixed station. 2.5 ppm is for mobile station. 4.3.2 Test Procedure a. Device is placed at the oven room. The oven room could control the temperatures and humidity. Power warm up is at least 15 min and power applied should perform before recording frequency error. b. EUT is connected the external power supply to control the DC input power. The test voltage range is from minimum to maximum working voltage. Each step shall be record the frequency error rate. c. The temperature range step is 10 degrees in this test items. All temperature levels shall be hold the 0.5 during the measurement testing. The each temperature step shall be at least 0.5 hours, consider the EUT could be test under the stability condition. Simulator Communication SPECTRUM ANALYZER NOTE: The frequency error was recorded frequency error from the communication simulator. 4.3.3 Test Setup 20dB ATTENUATION PAD External Power Source POWER SPLITTER DC Power Supply Oven Room EUT Report No.: RF181015C09 Page No. 33 / 78 Report Format Version: 6.1.1 4.3.4 Test Results Frequency Error vs. Voltage LTE Band 5 Channel Bandwidth: 1.4 MHz Low Channel High Channel Frequency (MHz) Frequency Error (ppm) Frequency (MHz) Frequency Error (ppm) 824.700000 824.699995 824.700004 0.000
-0.006 0.005 848.299999 848.299995 848.300004
-0.001
-0.006 0.004 Voltage
(Volts) 3.80 3.23 4.37 Note: The applicant defined the normal working voltage is from 3.23 Vdc to 4.37 Vdc. Frequency Error vs. Temperature LTE Band 5 Channel Bandwidth: 1.4 MHz Low Channel High Channel Frequency (MHz) Frequency Error (ppm) Frequency (MHz) Frequency Error (ppm) 824.700008 824.700006 824.700003 824.700003 824.700000 824.699999 824.699996 824.699994 824.699992 0.010 0.008 0.003 0.003 0.000
-0.001
-0.005
-0.007
-0.009 848.300009 848.300007 848.300004 848.300002 848.300000 848.299998 848.299997 848.299993 848.299991 0.010 0.008 0.005 0.002 0.000
-0.002
-0.003
-0.008
-0.011 Temp. ()
-30
-20
-10 0 10 20 30 40 50 Report No.: RF181015C09 Page No. 34 / 78 Report Format Version: 6.1.1 Frequency Error vs. Voltage LTE Band 5 Channel Bandwidth: 3 MHz Voltage
(Volts) 3.80 3.23 4.37 Low Channel High Channel Frequency (MHz) Frequency Error (ppm) Frequency (MHz) Frequency Error (ppm) 825.499999 825.499997 825.500003
-0.001
-0.004 0.004 847.499999 847.499996 847.500004
-0.001
-0.005 0.005 Note: The applicant defined the normal working voltage is from 3.23 Vdc to 4.37 Vdc. Frequency Error vs. Temperature LTE Band 5 Channel Bandwidth: 3 MHz Low Channel High Channel Frequency (MHz) Frequency Error (ppm) Frequency (MHz) Frequency Error (ppm) 825.500007 825.500007 825.500004 825.500002 825.500001 825.499999 825.499997 825.499993 825.499991 0.009 0.008 0.005 0.003 0.001
-0.001
-0.004
-0.009
-0.011 847.500008 847.500005 847.500004 847.500002 847.499999 847.499998 847.499996 847.499993 847.499991 0.010 0.006 0.004 0.002
-0.001
-0.002
-0.005
-0.009
-0.010 Temp. ()
-30
-20
-10 0 10 20 30 40 50 Report No.: RF181015C09 Page No. 35 / 78 Report Format Version: 6.1.1 Frequency Error vs. Voltage LTE Band 5 Channel Bandwidth: 5 MHz Voltage
(Volts) 3.80 3.23 4.37 Low Channel High Channel Frequency (MHz) Frequency Error (ppm) Frequency (MHz) Frequency Error (ppm) 826.500001 826.499995 826.500004 0.001
-0.007 0.004 846.500000 846.499995 846.500004 0.000
-0.006 0.004 Note: The applicant defined the normal working voltage is from 3.23 Vdc to 4.37 Vdc. Frequency Error vs. Temperature LTE Band 5 Channel Bandwidth: 5 MHz Low Channel High Channel Frequency (MHz) Frequency Error (ppm) Frequency (MHz) Frequency Error (ppm) 826.500008 826.500006 826.500003 826.500002 826.500000 826.499997 826.499996 826.499994 826.499991 0.009 0.008 0.003 0.003 0.000
-0.004
-0.005
-0.007
-0.011 846.500008 846.500006 846.500003 846.500002 846.500000 846.499998 846.499995 846.499994 846.499992 0.009 0.008 0.003 0.003 0.000
-0.003
-0.006
-0.007
-0.010 Temp. ()
-30
-20
-10 0 10 20 30 40 50 Report No.: RF181015C09 Page No. 36 / 78 Report Format Version: 6.1.1 Frequency Error vs. Voltage LTE Band 5 Channel Bandwidth: 10 MHz Voltage
(Volts) 3.80 3.23 4.37 Low Channel High Channel Frequency (MHz) Frequency Error (ppm) Frequency (MHz) Frequency Error (ppm) 829.000000 828.999995 829.000003 0.000
-0.007 0.004 844.000000 843.999997 844.000004 0.000
-0.004 0.004 Note: The applicant defined the normal working voltage is from 3.23 Vdc to 4.37 Vdc. Frequency Error vs. Temperature LTE Band 5 Channel Bandwidth: 10 MHz Low Channel High Channel Frequency (MHz) Frequency Error (ppm) Frequency (MHz) Frequency Error (ppm) 829.000008 829.000007 829.000004 829.000002 829.000001 828.999998 828.999997 828.999994 828.999992 0.009 0.008 0.005 0.002 0.001
-0.003
-0.004
-0.007
-0.010 844.000008 844.000005 844.000003 844.000002 843.999999 843.999999 843.999995 843.999994 843.999992 0.009 0.006 0.004 0.002
-0.001
-0.002
-0.006
-0.007
-0.010 Temp. ()
-30
-20
-10 0 10 20 30 40 50 Report No.: RF181015C09 Page No. 37 / 78 Report Format Version: 6.1.1 4.4 Occupied Bandwidth Measurement 4.4.1 Test Procedure The EUT makes a call to the communication simulator. All measurements were done at low, middle and high operational frequency range. The communication simulator station system controlled a EUT to export maximum output power under transmission mode and specific channel frequency. Use OBW measurement function of Spectrum analyzer to measure 99 % occupied bandwidth. 4.4.2 Test Setup 20dB Attenuation PAD Spectrum Analyzer Communication Power Splitter Simulator EUT Report No.: RF181015C09 Page No. 38 / 78 Report Format Version: 6.1.1 4.4.3 Test Result Frequency
(MHz) 824.7 836.5 848.3 Frequency
(MHz) 825.5 836.5 847.5 Frequency
(MHz) 826.5 836.5 846.5 Frequency
(MHz) 829.0 836.5 844.0 Channel 20407 20525 20643 Channel 20415 20525 20635 Channel 20425 20525 20625 Channel 20450 20525 20600 LTE Band 5, Channel Bandwidth: 1.4MHz Occupied Bandwidth (MHz) 26dBc Bandwidth (MHz) QPSK 1.09 1.09 1.09 LTE Band 5, Channel Bandwidth: 3MHz 16QAM 1.09 1.09 1.09 64QAM 1.09 1.09 1.09 QPSK 1.23 1.22 1.24 16QAM 1.22 1.22 1.22 64QAM 1.22 1.22 1.23 Occupied Bandwidth (MHz) 26dBc Bandwidth (MHz) QPSK 2.70 2.70 2.70 LTE Band 5, Channel Bandwidth: 5MHz 16QAM 2.70 2.70 2.70 64QAM 2.70 2.70 2.70 QPSK 2.94 2.92 2.93 16QAM 2.93 2.93 2.93 64QAM 2.92 2.94 2.94 Occupied Bandwidth (MHz) 26dBc Bandwidth (MHz) QPSK 4.49 4.48 4.50 LTE Band 5, Channel Bandwidth: 10MHz 16QAM 4.49 4.48 4.49 64QAM 4.49 4.49 4.49 QPSK 4.82 4.79 4.82 16QAM 4.82 4.79 4.83 64QAM 4.80 4.79 4.83 Occupied Bandwidth (MHz) 26dBc Bandwidth (MHz) 16QAM 8.99 8.94 8.99 64QAM 8.99 8.93 8.99 QPSK 9.54 9.48 9.53 16QAM 9.54 9.49 9.52 64QAM 9.54 9.47 9.53 QPSK 8.99 8.93 8.99 Report No.: RF181015C09 Page No. 39 / 78 Report Format Version: 6.1.1 1.4MHz / 16QAM Occupied Bandwidth Spectrum Plot of Worst Value 3MHz / 64QAM 5MHz / QPSK 10MHz / 16QAM Report No.: RF181015C09 Page No. 40 / 78 Report Format Version: 6.1.1 1.4MHz / QPSK 26dBc Bandwidth Spectrum Plot of Worst Value 3MHz / QPSK 5MHz / 64QAM 10MHz / 16QAM Report No.: RF181015C09 Page No. 41 / 78 Report Format Version: 6.1.1 4.5 Band Edge Measurement 4.5.1 Limits of Band Edge Measurement Power of any emission outside of the authorized operating frequency ranges must be attenuated below the transmitting power (P) by a factor of at least 43 + 10 log(P) dB. In the 1 MHz bands immediately outside and adjacent to the frequency block a resolution bandwidth of at least one percent of the emission bandwidth of the fundamental emission of the transmitter may be employed. 4.5.2 Test Setup 4.5.3 Test Procedures 20dB Attenuation PAD Spectrum Analyzer Communication Power Splitter Simulator EUT a. All measurements were done at low and high operational frequency range. b. The center frequency of spectrum is the band edge frequency and span is 1.5MHz. RB of the spectrum is 15kHz and VB of the spectrum is 51kHz (LTE Channel Bandwidth 1.4MHz). c. The center frequency of spectrum is the band edge frequency and span is 1.5MHz. RB of the spectrum is 30kHz and VB of the spectrum is 100kHz (LTE Channel Bandwidth 3MHz). d. The center frequency of spectrum is the band edge frequency and span is 1.5MHz. RB of the spectrum is 62kHz and VB of the spectrum is 200kHz (LTE Channel Bandwidth 5MHz). e. The center frequency of spectrum is the band edge frequency and span is 1.5MHz. RB of the spectrum is 100kHz and VB of the spectrum is 300kHz (LTE Channel Bandwidth 10MHz). f. Record the max trace plot into the test report. Report No.: RF181015C09 Page No. 42 / 78 Report Format Version: 6.1.1 4.5.4 Test Results LTE Band 5, Channel Bandwidth 1.4MHz Channel 20407
(824.7MHz) QPSK 1 RB / 0 RB Offset Channel 20643
(848.3MHz) QPSK 1 RB / 5 RB Offset Channel 20407
(824.7MHz) QPSK 6 RB / 0 RB Offset Channel 20643
(848.3MHz) QPSK 6 RB / 0 RB Offset Report No.: RF181015C09 Page No. 43 / 78 Report Format Version: 6.1.1 LTE Band 5, Channel Bandwidth 3MHz Channel 20415
(825.5MHz) QPSK 1 RB / 0 RB Offset Channel 20635
(847.5MHz) Channel 20415
(825.5MHz) QPSK 15 RB / 0 RB Offset Channel 20635
(847.5MHz) QPSK 1 RB / 14 RB Offset QPSK 15 RB / 0 RB Offset Report No.: RF181015C09 Page No. 44 / 78 Report Format Version: 6.1.1 LTE Band 5, Channel Bandwidth 5MHz Channel 20425
(826.5MHz) QPSK 1 RB / 0 RB Offset Channel 20625
(846.5MHz) Channel 20425
(826.5MHz) QPSK 25 RB / 0 RB Offset Channel 20625
(846.5MHz) QPSK 1 RB / 24 RB Offset QPSK 25 RB / 0 RB Offset Report No.: RF181015C09 Page No. 45 / 78 Report Format Version: 6.1.1 LTE Band 5, Channel Bandwidth 10MHz Channel 20450
(829.0MHz) QPSK 1 RB / 0 RB Offset Channel 20600
(844.0MHz) Channel 20450
(829.0MHz) QPSK 50 RB / 0 RB Offset Channel 20600
(844.0MHz) QPSK 1 RB / 49 RB Offset QPSK 50 RB / 0 RB Offset Report No.: RF181015C09 Page No. 46 / 78 Report Format Version: 6.1.1 4.6 Peak to Average Ratio 4.6.1 Limits of Peak to Average Ratio Measurement In measuring transmissions in this band using an average power technique, the peak to-average ratio (PAR) of the transmission may not exceed 13 dB 4.6.2 Test Setup 4.6.3 Test Procedures 20dB Attenuation PAD Spectrum Analyzer Communication Power Splitter Simulator EUT a. Set resolution/measurement bandwidth signals occupied bandwidth;
b. Set the number of counts to a value that stabilizes the measured CCDF curve;
c. Record the maximum PAPR level associated with a probability of 0.1%. Report No.: RF181015C09 Page No. 47 / 78 Report Format Version: 6.1.1 4.6.4 Test Results LTE Band 5, Channel Bandwidth 1.4MHz Channel Frequency (MHz) 20407 20525 20643 824.7 836.5 848.3 QPSK 3.70 4.13 3.38 Peak To Average Ratio (dB) 16QAM 5.14 5.55 4.67 LTE Band 5, Channel Bandwidth 3MHz Channel Frequency (MHz) 20415 20525 20635 825.5 836.5 847.5 QPSK 3.27 3.84 3.34 Peak To Average Ratio (dB) 16QAM 4.80 5.29 4.85 LTE Band 5, Channel Bandwidth 5MHz Channel Frequency (MHz) 20425 20525 20625 826.5 836.5 846.5 QPSK 3.39 3.85 3.50 Peak To Average Ratio (dB) 16QAM 4.83 5.25 4.86 LTE Band 5, Channel Bandwidth 10MHz Channel Frequency (MHz) 20450 20525 20600 829.0 836.5 844.0 Peak To Average Ratio (dB) QPSK 3.05 3.22 3.18 16QAM 4.49 4.77 4.70 64QAM 5.16 5.57 4.67 64QAM 4.86 5.29 4.79 64QAM 4.84 5.15 4.93 64QAM 4.60 4.74 4.67 Report No.: RF181015C09 Page No. 48 / 78 Report Format Version: 6.1.1 1.4MHz / 64QAM Spectrum Plot of Worst Value 3MHz / 64QAM 5MHz / 16QAM 10MHz / 16QAM Report No.: RF181015C09 Page No. 49 / 78 Report Format Version: 6.1.1 4.7 Conducted Spurious Emissions 4.7.1 Limits of Conducted Spurious Emissions Measurement The power of any emission outside of the authorized operating frequency ranges must be attenuated below the transmitting power (P) by a factor of at least 43 + 10 log(P) dB. The emission limit equal to 13dBm. 4.7.2 Test Setup 4.7.3 Test Procedure 20dB Attenuation PAD Spectrum Analyzer Communication Power Splitter Simulator EUT a. The EUT makes a phone call to the Radio Communication Tester. All measurements were done at low, middle and high operational frequency range. b. Measuring frequency range is from 9 kHz to 1GHz. 20dB attenuation pad is connected with spectrum. RBW=100kHz and VBW=300kHz is used for conducted emission measurement. c. Measuring frequency range is from 1GHz to 27GHz. 20dB attenuation pad is connected with spectrum. RBW=1MHz and VBW=3MHz is used for conducted emission measurement. Report No.: RF181015C09 Page No. 50 / 78 Report Format Version: 6.1.1 4.7.4 Test Results LTE Band 5, Channel Bandwidth 1.4MHz Channel 20407 (824.7MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Report No.: RF181015C09 Page No. 51 / 78 Report Format Version: 6.1.1 LTE Band 5, Channel Bandwidth 1.4MHz Channel 20525 (836.5MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Report No.: RF181015C09 Page No. 52 / 78 Report Format Version: 6.1.1 LTE Band 5, Channel Bandwidth 1.4MHz Channel 20643 (848.3MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Report No.: RF181015C09 Page No. 53 / 78 Report Format Version: 6.1.1 LTE Band 5, Channel Bandwidth 3MHz Channel 20415 (825.5MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Report No.: RF181015C09 Page No. 54 / 78 Report Format Version: 6.1.1 LTE Band 5, Channel Bandwidth 3MHz Channel 20525 (836.5MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Report No.: RF181015C09 Page No. 55 / 78 Report Format Version: 6.1.1 LTE Band 5, Channel Bandwidth 3MHz Channel 20635 (847.5MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Report No.: RF181015C09 Page No. 56 / 78 Report Format Version: 6.1.1 LTE Band 5, Channel Bandwidth 5MHz Channel 20425 (826.5MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Report No.: RF181015C09 Page No. 57 / 78 Report Format Version: 6.1.1 LTE Band 5, Channel Bandwidth 5MHz Channel 20525 (836.5MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Report No.: RF181015C09 Page No. 58 / 78 Report Format Version: 6.1.1 LTE Band 5, Channel Bandwidth 5MHz Channel 20625 (846.5MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Report No.: RF181015C09 Page No. 59 / 78 Report Format Version: 6.1.1 LTE Band 5, Channel Bandwidth 10MHz Channel 20450 (829.0MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Report No.: RF181015C09 Page No. 60 / 78 Report Format Version: 6.1.1 LTE Band 5, Channel Bandwidth 10MHz Channel 20525 (836.5MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Report No.: RF181015C09 Page No. 61 / 78 Report Format Version: 6.1.1 LTE Band 5, Channel Bandwidth 10MHz Channel 20600 (844.0MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Report No.: RF181015C09 Page No. 62 / 78 Report Format Version: 6.1.1 4.8 Radiated Emission Measurement 4.8.1 Limits of Radiated Emission Measurement The power of any emission outside of the authorized operating frequency ranges must be attenuated below the transmitting power (P) by a factor of at least 43 + 10 log(P) dB. The emission limit equal to 13dBm. 4.8.2 Test Procedure a. Substitution method is used for E.I.R.P measurement. In the semi-anechoic chamber, EUT placed on the 0.8m height of Turn Table, rotated the table around 360 degrees to search the maximum radiation power and receiver antenna shall be rotated vertical and horizontal polarization and moved height from 1m to 4m to find the maximum polar radiated power. The Read Value is the spectrum reading the maximum power value. b. The substitution horn antenna is substituted for EUT at the same position and signals generator export the CW signal to the substitution antenna via a TX cable. Rotated the Turn Table and moved receiving antenna to find the maximum radiation power. Adjust output power level of S.G to get a Value of spectrum reading equal to Read Value of step a. Record the power level of S.G c. EIRP = Output power level of S.G TX cable loss + Antenna gain of substitution horn. d. E.R.P power can be calculated form E.I.R.P power by subtracting the gain of dipole, E.R.P power =
E.I.R.P power - 2.15dBi. NOTE: The resolution bandwidth and video bandwidth of test receiver/spectrum analyzer is 1MHz/3MHz. 4.8.3 Deviation from Test Standard No deviation. Report No.: RF181015C09 Page No. 63 / 78 Report Format Version: 6.1.1 4.8.4 Test Setup For the actual test configuration, please refer to the attached file (Test Setup Photo). Report No.: RF181015C09 Page No. 64 / 78 Report Format Version: 6.1.1 4.8.5 Test Results Below 1GHz LTE Band 5, Channel Bandwidth: 1.4MHz Mode TX channel 20407
(824.7MHz) Environmental Conditions 25deg. C, 66%RH Tested By Greg Lin Frequency Range Below 1000 MHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 2 3 4 5 6 74.62 172.59 248.25 426.73 731.31 961.20 Reading
(dBm)
-39.8
-45.0
-56.2
-62.4
-61.5
-60.9 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB)
-47.9
-51.5
-63.6
-68.4
-63.3
-58.3 0.1
-2.9
-1.5 3.5 3.6 3.7
-47.8
-54.4
-65.1
-64.9
-59.7
-54.6
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-34.8
-41.4
-52.1
-51.9
-46.7
-41.6 Remarks:
1. ERP (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09 Page No. 65 / 78 Report Format Version: 6.1.1 Mode TX channel 20407
(824.7MHz) Environmental Conditions 25deg. C, 66%RH Tested By Greg Lin Frequency Range Below 1000 MHz Input Power 120Vac, 60Hz No. Freq. (MHz) 1 2 3 4 5 6 32.91 91.11 179.38 513.06 750.71 957.32 Reading
(dBm)
-31.2
-36.0
-44.8
-62.5
-61.5
-61.9 Antenna Polarity & Test Distance: Vertical at 3 m S.G Power Value (dBm) Correction Factor (dB)
-26.3
-44.4
-47.4
-68.3
-60.3
-58.6
-17.7
-0.4
-2.9 3.8 3.7 3.8 ERP (dBm) Limit (dBm) Margin (dB)
-44.0
-44.8
-50.3
-64.5
-56.6
-54.8
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-31.0
-31.8
-37.3
-51.5
-43.6
-41.8 Remarks:
1. ERP (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09 Page No. 66 / 78 Report Format Version: 6.1.1 LTE Band 5, Channel Bandwidth: 5MHz Mode TX channel 20425
(826.5MHz) Environmental Conditions 25deg. C, 66%RH Tested By Greg Lin Frequency Range Below 1000 MHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 2 3 4 5 6 32.91 107.60 243.40 501.42 747.80 955.38 Reading
(dBm)
-50.7
-40.3
-54.1
-62.2
-60.9
-61.6 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB)
-32.0
-48.1
-61.8
-68.2
-62.7
-59.1
-17.7
-2.3
-1.4 3.8 3.7 3.8
-49.7
-50.4
-63.2
-64.4
-59.0
-55.3
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-36.7
-37.4
-50.2
-51.4
-46.0
-42.3 Remarks:
1. ERP (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09 Page No. 67 / 78 Report Format Version: 6.1.1 Mode TX channel 20425
(826.5MHz) Environmental Conditions 25deg. C, 66%RH Tested By Greg Lin Frequency Range Below 1000 MHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 2 3 4 5 6 33.88 62.01 175.50 479.11 738.10 939.86 Reading
(dBm)
-36.0
-34.0
-43.5
-61.6
-61.0
-61.5 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB)
-31.7
-40.0
-46.6
-67.6
-60.1
-58.3
-17.1
-3.0
-2.8 3.6 3.7 3.7
-48.8
-43.0
-49.4
-64.0
-56.4
-54.6
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-35.8
-30.0
-36.4
-51.0
-43.4
-41.6 Remarks:
1. ERP (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09 Page No. 68 / 78 Report Format Version: 6.1.1 LTE Band 5, Channel Bandwidth: 10MHz Mode TX channel 20450
(829.0MHz) Environmental Conditions 25deg. C, 66%RH Tested By Greg Lin Frequency Range Below 1000 MHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 2 3 4 5 6 35.82 140.58 273.47 479.11 771.08 919.49 Reading
(dBm)
-51.6
-43.9
-59.4
-62.0
-60.6
-60.8 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB)
-34.3
-48.6
-64.3
-67.9
-62.0
-58.5
-15.9
-3.0
-1.6 3.6 3.9 3.6
-50.2
-51.6
-65.9
-64.3
-58.1
-54.9
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-37.2
-38.6
-52.9
-51.3
-45.1
-41.9 Remarks:
1. ERP (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09 Page No. 69 / 78 Report Format Version: 6.1.1 Mode TX channel 20450
(829.0MHz) Environmental Conditions 25deg. C, 66%RH Tested By Greg Lin Frequency Range Below 1000 MHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 2 3 4 5 6 42.61 91.11 180.35 277.35 674.08 834.13 Reading
(dBm)
-35.9
-36.2
-44.8
-62.0
-62.2
-61.0 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB)
-35.0
-44.6
-47.4
-59.3
-62.3
-59.7
-11.8
-0.4
-2.9
-1.6 3.6 3.8
-46.8
-45.0
-50.3
-60.9
-58.7
-55.9
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-33.8
-32.0
-37.3
-47.9
-45.7
-42.9 Remarks:
1. ERP (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09 Page No. 70 / 78 Report Format Version: 6.1.1 Above 1GHz LTE Band 5, Channel Bandwidth: 1.4MHz Mode TX channel 20407
(824.7MHz) Environmental Conditions 25deg. C, 66%RH Tested By Tim Chen Frequency Range 1GHz ~ 18GHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1649.40 1 2 2474.10 Reading
(dBm)
-65.7
-75.2 S.G Power Value (dBm) Correction Factor (dB)
-57.9
-68.8 0.9 0.1 ERP (dBm) Limit (dBm) Margin (dB)
-57.0
-68.7
-13.0
-13.0
-44.0
-55.7 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1649.40 1 2 2474.10 Reading
(dBm)
-66.2
-75.8 S.G Power Value (dBm) Correction Factor (dB)
-59.0
-71.7 0.9 0.1 ERP (dBm) Limit (dBm) Margin (dB)
-58.1
-71.6
-13.0
-13.0
-45.1
-58.6 Remarks:
1. ERP (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Mode TX channel 20525
(836.5MHz) Environmental Conditions 25deg. C, 66%RH Tested By Tim Chen Frequency Range 1GHz ~ 18GHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1673.00 1 2 2509.50 Reading
(dBm)
-62.8
-74.2 S.G Power Value (dBm) Correction Factor (dB)
-55.1
-68.0 0.8 0.2 ERP (dBm) Limit (dBm) Margin (dB)
-54.3
-67.8
-13.0
-13.0
-41.3
-54.8 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1673.00 1 2 2509.50 Reading
(dBm)
-67.2
-75.4 S.G Power Value (dBm) Correction Factor (dB)
-59.9
-71.4 0.8 0.2 ERP (dBm) Limit (dBm) Margin (dB)
-59.1
-71.2
-13.0
-13.0
-46.1
-58.2 Remarks:
1. ERP (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09 Page No. 71 / 78 Report Format Version: 6.1.1 Mode TX channel 20643
(848.3MHz) Environmental Conditions 25deg. C, 66%RH Tested By Tim Chen Frequency Range 1GHz ~ 18GHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1696.60 1 2 2544.90 Reading
(dBm)
-63.8
-75.5 S.G Power Value (dBm) Correction Factor (dB)
-56.2
-69.4 0.7 0.2 ERP (dBm) Limit (dBm) Margin (dB)
-55.5
-69.2
-13.0
-13.0
-42.5
-56.2 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1696.60 1 2 2544.90 Reading
(dBm)
-66.7
-75.2 S.G Power Value (dBm) Correction Factor (dB)
-59.3
-71.1 0.7 0.2 ERP (dBm) Limit (dBm) Margin (dB)
-58.6
-70.9
-13.0
-13.0
-45.6
-57.9 Remarks:
1. ERP (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09 Page No. 72 / 78 Report Format Version: 6.1.1 LTE Band 5, Channel Bandwidth: 5MHz Mode TX channel 20425
(826.5MHz) Environmental Conditions 25deg. C, 66%RH Tested By Tim Chen Frequency Range 1GHz ~ 18GHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1653.00 2479.50 2 Reading
(dBm)
-63.8
-75.9 S.G Power Value (dBm) Correction Factor (dB)
-56.0
-69.5 0.9 0.1 ERP (dBm) Limit (dBm) Margin (dB)
-55.1
-69.4
-13.0
-13.0
-42.1
-56.4 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1653.00 1 2 2479.50 Reading
(dBm)
-66.2
-75.2 S.G Power Value (dBm) Correction Factor (dB)
-59.0
-71.1 0.9 0.1 ERP (dBm) Limit (dBm) Margin (dB)
-58.1
-71.0
-13.0
-13.0
-45.1
-58.0 Remarks:
1. ERP (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Mode TX channel 20525
(836.5MHz) Environmental Conditions 25deg. C, 66%RH Tested By Tim Chen Frequency Range 1GHz ~ 18GHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1673.00 1 2 2509.50 Reading
(dBm)
-64.2
-74.9 S.G Power Value (dBm) Correction Factor (dB)
-56.6
-68.6 0.8 0.2 ERP (dBm) Limit (dBm) Margin (dB)
-55.8
-68.4
-13.0
-13.0
-42.8
-55.4 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1673.00 2509.50 2 Reading
(dBm)
-66.0
-75.2 S.G Power Value (dBm) Correction Factor (dB)
-58.7
-71.2 0.8 0.2 ERP (dBm) Limit (dBm) Margin (dB)
-57.9
-71.0
-13.0
-13.0
-44.9
-58.0 Remarks:
1. ERP (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09 Page No. 73 / 78 Report Format Version: 6.1.1 Mode TX channel 20625
(846.5MHz) Environmental Conditions 25deg. C, 66%RH Tested By Tim Chen Frequency Range 1GHz ~ 18GHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1693.00 1 2 2539.50 Reading
(dBm)
-64.5
-75.6 S.G Power Value (dBm) Correction Factor (dB)
-56.9
-69.5 0.7 0.2 ERP (dBm) Limit (dBm) Margin (dB)
-56.2
-69.3
-13.0
-13.0
-43.2
-56.3 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1693.00 1 2 2539.50 Reading
(dBm)
-66.5
-75.0 S.G Power Value (dBm) Correction Factor (dB)
-59.2
-71.0 0.7 0.2 ERP (dBm) Limit (dBm) Margin (dB)
-58.5
-70.8
-13.0
-13.0
-45.5
-57.8 Remarks:
1. ERP (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09 Page No. 74 / 78 Report Format Version: 6.1.1 LTE Band 5, Channel Bandwidth: 10MHz Mode TX channel 20450
(829.0MHz) Environmental Conditions 25deg. C, 66%RH Tested By Tim Chen Frequency Range 1GHz ~ 18GHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1658.00 2487.00 2 Reading
(dBm)
-66.5
-75.1 S.G Power Value (dBm) Correction Factor (dB)
-58.9
-68.8 0.9 0.2 ERP (dBm) Limit (dBm) Margin (dB)
-58.0
-68.6
-13.0
-13.0
-45.0
-55.6 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1658.00 1 2 2487.00 Reading
(dBm)
-67.0
-75.5 S.G Power Value (dBm) Correction Factor (dB)
-59.8
-71.5 0.9 0.2 ERP (dBm) Limit (dBm) Margin (dB)
-58.9
-71.3
-13.0
-13.0
-45.9
-58.3 Remarks:
1. ERP (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Mode TX channel 20525
(836.5MHz) Environmental Conditions 25deg. C, 66%RH Tested By Tim Chen Frequency Range 1GHz ~ 18GHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1673.00 1 2 2509.50 Reading
(dBm)
-63.2
-75.5 S.G Power Value (dBm) Correction Factor (dB)
-55.6
-69.2 0.8 0.2 ERP (dBm) Limit (dBm) Margin (dB)
-54.8
-69.0
-13.0
-13.0
-41.8
-56.0 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1673.00 2509.50 2 Reading
(dBm)
-66.2
-75.2 S.G Power Value (dBm) Correction Factor (dB)
-58.9
-71.2 0.8 0.2 ERP (dBm) Limit (dBm) Margin (dB)
-58.1
-71.0
-13.0
-13.0
-45.1
-58.0 Remarks:
1. ERP (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09 Page No. 75 / 78 Report Format Version: 6.1.1 Mode TX channel 20600
(844.0MHz) Environmental Conditions 25deg. C, 66%RH Tested By Tim Chen Frequency Range 1GHz ~ 18GHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1688.00 1 2 2532.00 Reading
(dBm)
-64.8
-75.5 S.G Power Value (dBm) Correction Factor (dB)
-57.1
-69.4 0.7 0.2 ERP (dBm) Limit (dBm) Margin (dB)
-56.4
-69.2
-13.0
-13.0
-43.4
-56.2 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1688.00 1 2 2532.00 Reading
(dBm)
-66.8
-75.0 S.G Power Value (dBm) Correction Factor (dB)
-59.4
-71.0 0.7 0.2 ERP (dBm) Limit (dBm) Margin (dB)
-58.7
-70.8
-13.0
-13.0
-45.7
-57.8 Remarks:
1. ERP (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09 Page No. 76 / 78 Report Format Version: 6.1.1 5 Pictures of Test Arrangements Please refer to the attached file (Test Setup Photo). Report No.: RF181015C09 Page No. 77 / 78 Report Format Version: 6.1.1 Appendix Information on the Testing Laboratories We, Bureau Veritas Consumer Products Services (H.K.) Ltd., Taoyuan Branch, were founded in 1988 to provide our best service in EMC, Radio, Telecom and Safety consultation. Our laboratories are FCC recognized accredited test firms and accredited and approved according to ISO/IEC 17025. If you have any comments, please feel free to contact us at the following:
Linko EMC/RF Lab Tel: 886-2-26052180 Fax: 886-2-26051924 Hwa Ya EMC/RF/Safety Lab Tel: 886-3-3183232 Fax: 886-3-3270892 Email: service.adt@tw.bureauveritas.com Web Site: www.bureauveritas-adt.com Hsin Chu EMC/RF/Telecom Lab Tel: 886-3-6668565 Fax: 886-3-6668323 The address and road map of all our labs can be found in our web site also.
--- END ---
Report No.: RF181015C09 Page No. 78 / 78 Report Format Version: 6.1.1
1 2 3 4 | Part 24 report | Test Report | 2.29 MiB | / June 06 2019 |
FCC Test Report
(Part 24) Report No.: RF181015C09-1 FCC ID: PY318300428 Test Model: MR5000 Received Date: Oct. 15, 2018 Test Date: Oct. 22 ~ Nov. 03, 2018 Issued Date: Nov. 15, 2018 Applicant: NETGEAR INC. Address: 350 East Plumeria Drive, San Jose, CA 95134, USA Issued By: Bureau Veritas Consumer Products Services (H.K.) Ltd., Taoyuan Branch Lab Address: No. 47-2, 14th Ling, Chia Pau Vil., Lin Kou Dist., New Taipei City, Taiwan
(R.O.C.) Test Location: No. 19, Hwa Ya 2nd Rd., Wen Hwa Vil., Kwei Shan Dist., Taoyuan City FCC Registration /
Designation Number:
33383, TAIWAN (R.O.C.) 788550 / TW0003 This report is for your exclusive use. Any copying or replication of this report to or for any other person or entity, or use of our name or trademark, is permitted only with our prior written permission. This report sets forth our findings solely with respect to the test samples identified herein. The results set forth in this report are not indicative or representative of the quality or characteristics of the lot from which a test sample was taken or any similar or identical product specifically and expressly noted. Our report includes all of the tests requested by you and the results thereof based upon the information that you provided to us. You have 60 days from date of issuance of this report to notify us of any material error or omission caused by our negligence, provided, however, that such notice shall be in writing and shall specifically address the issue you wish to raise. A failure to raise such issue within the prescribed time shall constitute your unqualified acceptance of the completeness of this report, the tests conducted and the correctness of the report contents. Unless specific mention, the uncertainty of measurement has been explicitly taken into account to declare the compliance or non-compliance to the specification. The report must not be used by the client to claim product certification, approval, or endorsement by TAF or any government agencies Report No.: RF181015C09-1 Page No. 1 / 97 Report Format Version: 6.1.1 Table of Contents 4 3 Release Control Record .................................................................................................................................. 4 1 Certificate of Conformity ...................................................................................................................... 5 Summary of Test Results ..................................................................................................................... 6 2 2.1 Measurement Uncertainty ................................................................................................................... 6 2.2 Test Site and Instruments .................................................................................................................... 7 General Information .............................................................................................................................. 8 3.1 General Description of EUT ................................................................................................................ 8 3.2 Configuration of System under Test .................................................................................................. 10 3.2.1 Description of Support Units .............................................................................................................. 10 Test Mode Applicability and Tested Channel Detail ........................................................................... 11 3.3 3.4 EUT Operating Conditions ................................................................................................................ 13 3.5 General Description of Applied Standards ........................................................................................ 13 Test Types and Results ...................................................................................................................... 14 4.1 Output Power Measurement ............................................................................................................. 14 4.1.1 Limits of Output Power Measurement ............................................................................................... 14 4.1.2 Test Procedures ................................................................................................................................. 14 4.1.3 Test Setup .......................................................................................................................................... 15 4.1.4 Test Results ....................................................................................................................................... 16 4.2 Modulation Characteristics Measurement ......................................................................................... 40 4.2.1 Limits of Modulation Characteristics .................................................................................................. 40 4.2.2 Test Procedure .................................................................................................................................. 40 4.2.3 Test Setup .......................................................................................................................................... 40 4.2.4 Test Results ....................................................................................................................................... 41 4.3 Frequency Stability Measurement .................................................................................................... 42 4.3.1 Limits of Frequency Stability Measurement ...................................................................................... 42 4.3.2 Test Procedure .................................................................................................................................. 42 4.3.3 Test Setup .......................................................................................................................................... 42 4.3.4 Test Results ....................................................................................................................................... 43 4.4 Occupied Bandwidth Measurement .................................................................................................. 49 4.4.1 Test Procedure .................................................................................................................................. 49 4.4.2 Test Setup .......................................................................................................................................... 49 4.4.3 Test Result ......................................................................................................................................... 50 4.5 Band Edge Measurement ................................................................................................................. 53 4.5.1 Limits of Band Edge Measurement ................................................................................................... 53 4.5.2 Test Setup .......................................................................................................................................... 53 4.5.3 Test Procedures ................................................................................................................................. 53 4.5.4 Test Results ....................................................................................................................................... 54 4.6 Peak to Average Ratio ...................................................................................................................... 60 4.6.1 Limits of Peak to Average Ratio Measurement ................................................................................. 60 4.6.2 Test Setup .......................................................................................................................................... 60 4.6.3 Test Procedures ................................................................................................................................. 60 4.6.4 Test Results ....................................................................................................................................... 61 4.7 Conducted Spurious Emissions ........................................................................................................ 63 4.7.1 Limits of Conducted Spurious Emissions Measurement ................................................................... 63 4.7.2 Test Setup .......................................................................................................................................... 63 4.7.3 Test Procedure .................................................................................................................................. 63 4.7.4 Test Results ....................................................................................................................................... 64 4.8 Radiated Emission Measurement ..................................................................................................... 82 4.8.1 Limits of Radiated Emission Measurement ....................................................................................... 82 4.8.2 Test Procedure .................................................................................................................................. 82 4.8.3 Deviation from Test Standard ............................................................................................................ 82 4.8.4 Test Setup .......................................................................................................................................... 83 4.8.5 Test Results ....................................................................................................................................... 84 Report No.: RF181015C09-1 Page No. 2 / 97 Report Format Version: 6.1.1 5 Pictures of Test Arrangements .......................................................................................................... 96 Appendix Information on the Testing Laboratories ................................................................................ 97 Report No.: RF181015C09-1 Page No. 3 / 97 Report Format Version: 6.1.1 Release Control Record Issue No. RF181015C09-1 Description Original release. Date Issued Nov. 15, 2018 Report No.: RF181015C09-1 Page No. 4 / 97 Report Format Version: 6.1.1 1 Certificate of Conformity Product: 5G MHS Travel Router Brand: Netgear Test Model: MR5000 Sample Status: Engineering sample Applicant: NETGEAR INC. Test Date: Oct. 22 ~ Nov. 03, 2018 Standards: FCC Part 24, Subpart E The above equipment has been tested by Bureau Veritas Consumer Products Services (H.K.) Ltd., Taoyuan Branch, and found compliance with the requirement of the above standards. The test record, data evaluation & Equipment Under Test (EUT) configurations represented herein are true and accurate accounts of the measurements of the samples RF characteristics under the conditions specified in this report. Prepared by :
Polly Chien / Specialist
, Date:
Nov. 15, 2018 Approved by :
, Date:
Nov. 15, 2018 Bruce Chen / Project Engineer Report No.: RF181015C09-1 Page No. 5 / 97 Report Format Version: 6.1.1 2 Summary of Test Results FCC Clause 2.1046 24.232 2.1046 24.232(d) 2.1047 2.1055 24.235 2.1049 24.238(b) 24.238(b) 2.1051 24.238 2.1053 24.238 Applied Standard: FCC Part 24 & Part 2 Test Item Result Remarks Effective radiated power Peak To Average Ratio Modulation characteristics Frequency Stability Occupied Bandwidth Band Edge Measurements Conducted Spurious Emissions Radiated Spurious Emissions Pass Pass Pass Pass Pass Pass Pass Pass Meet the requirement of limit. Meet the requirement of limit. Meet the requirement Meet the requirement of limit. Meet the requirement of limit. Meet the requirement of limit. Meet the requirement of limit. Meet the requirement of limit. Minimum passing margin is
-30.2dB at 62.98MHz. 2.1 Measurement Uncertainty Where relevant, the following measurement uncertainty levels have been estimated for tests performed on the EUT as specified in CISPR 16-4-2:
Measurement Radiated Emissions up to 1 GHz Radiated Emissions above 1 GHz Frequency 30MHz ~ 200MHz 200MHz ~1000MHz 1GHz ~ 18GHz 18GHz ~ 40GHz Expanded Uncertainty
(k=2) () 3.59 dB 3.60 dB 2.29 dB 2.29 dB Report No.: RF181015C09-1 Page No. 6 / 97 Report Format Version: 6.1.1 2.2 Test Site and Instruments Description &
Manufacturer Model No. Serial No. Cal. Date Cal. Due 269 8449B 8447D FSP40 100269 N9038A EM-6879 9168-148 VULB9168 BBHA 9170 9120D-1169 2944A10638 3008A01638 MY55420137 BBHA 9120 D BBHA9170241 SUCOFLEX 104 Apr. 11, 2018 Apr. 10, 2019 May 29, 2018 May 28, 2019 Feb. 22, 2018 Feb. 21, 2019 Dec. 01, 2017 Nov. 30, 2018 Dec. 12, 2017 Dec. 11, 2018 Dec. 11, 2017 Dec. 10, 2018 Aug. 08, 2018 Aug. 07, 2019 Sep. 07, 2018 Sep. 06, 2019 CABLE-CH9-02
(248780+171006) SUCOFLEX 104 &
EMC104-SM-SM8000 Test Receiver KEYSIGHT Spectrum Analyzer ROHDE & SCHWARZ BILOG Antenna SCHWARZBECK HORN Antenna SCHWARZBECK HORN Antenna SCHWARZBECK Loop Antenna EMCI Preamplifier Agilent
(Below 1GHz) Preamplifier Agilent
(Above 1GHz) RF signal cable HUBER+SUHNER&EMCI RF signal cable HUBER+SUHNER RF signal cable Woken Software BV ADT Antenna Tower EMCO Turn Table EMCO Antenna Tower &Turn BV ADT Turn Table BV ADT Turn Table Controller BV ADT Boresight Antenna Fixture Turn Table Controller BV ADT Temperature And Humidity Chamber TERCHY JFW 20dB attenuation Radio Communication Dec. 21, 2017 Dec. 20, 2018 Analyzer Note: 1. The calibration interval of the above test instruments is 12 months and the calibrations are traceable CABLE-CH9-(250795/4) Aug. 08, 2018 Aug. 07, 2019 SC93021705 FBA-SIP01 SC93021702 SC100 FBA-01 SC100 Nov. 20, 2017 Nov. 19, 2018 Jan. 15, 2018 Jan. 14, 2019 V7.6.15.9.5 2070/2080 ADT_Radiated_ 50HF-020-SMA Cable-CH9-01 NA NA NA NA NA NA 512.835.4684 Jul. 31, 2018 TT93021705 AT93021705 HRM-120RF 6261786083 Jul. 30, 2019 2087-2.03 MT8821C 931022 8D-FB TT100 AT100 NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA to NML/ROC and NIST/USA. 2. The test was performed in HwaYa Chamber 9. 3. The FCC Designation Number is TW0003. The number will be varied with the Lab location and scope as attached. 4. The IC Site Registration No. is 7450F-9. Report No.: RF181015C09-1 Page No. 7 / 97 Report Format Version: 6.1.1 3 General Information 3.1 General Description of EUT Product Brand Test Model Sample Status Power Supply Rating Modulation Type QPSK, 16QAM, 64QAM 5G MHS Travel Router Netgear MR5000 Engineering sample 5.0 Vdc or 9Vdc (adapter) 3.85Vdc (battery) Operating Frequency LTE Band 2 (Channel Bandwidth 1.4MHz) 1850.7MHz ~ 1909.3MHz 1851.5MHz ~ 1908.5MHz LTE Band 2 (Channel Bandwidth 3MHz) LTE Band 2 (Channel Bandwidth 5MHz) 1852.5MHz ~ 1907.5MHz LTE Band 2 (Channel Bandwidth 10MHz) 1855.0MHz ~ 1905.0MHz LTE Band 2 (Channel Bandwidth 15MHz) 1857.5MHz ~ 1902.5MHz LTE Band 2 (Channel Bandwidth 20MHz) 1860.0MHz ~ 1900.0MHz LTE Band 2 (Channel Bandwidth 1.4MHz) QPSK 562.341mW
(27.5dBm) 616.595mW
(27.9dBm) 588.844mW
(27.7dBm) 549.541mW
(27.4dBm) 549.541mW
(27.4dBm) 588.844mW
(27.7dBm) QPSK 16QAM 457.088mW
(26.6dBm) 512.861mW
(27.1dBm) 457.088mW
(26.6dBm) 426.580mW
(26.3dBm) 446.684mW
(26.5dBm) 467.735mW
(26.7dBm) 16QAM 1M09D7W 2M70D7W 4M49D7W 8M98D7W 13M4D7W 18M0D7W 64QAM 398.107mW
(26.0dBm) 446.684mW
(26.5dBm) 426.580mW
(26.3dBm) 380.189mW
(25.8dBm) 407.380mW
(26.1dBm) 407.380mW
(26.1dBm) 64QAM 1M09D7W 2M71D7W 4M49D7W 8M97D7W 13M4D7W 18M0D7W Max. EIRP Power LTE Band 2 (Channel Bandwidth 3MHz) LTE Band 2 (Channel Bandwidth 5MHz) LTE Band 2 (Channel Bandwidth 10MHz) LTE Band 2 (Channel Bandwidth 15MHz) LTE Band 2 (Channel Bandwidth 20MHz) Emission Designator LTE Band 2 (Channel Bandwidth 1.4MHz) 1M09G7D LTE Band 2 (Channel Bandwidth 3MHz) 2M71G7D LTE Band 2 (Channel Bandwidth 5MHz) 4M49G7D LTE Band 2 (Channel Bandwidth 10MHz) 8M98G7D LTE Band 2 (Channel Bandwidth 15MHz) 13M5G7D LTE Band 2 (Channel Bandwidth 20MHz) 18M0G7D Internal IFA antenna with 2.73dBi NA Antenna Type Antenna Connector Accessory Device Adapter, battery Data Cable Supplied 0.95m shielded USB cable without core Report No.: RF181015C09-1 Page No. 8 / 97 Report Format Version: 6.1.1 Note:
1. The EUT consumes power from the following adapter and battery. Adapter Brand Model P/N Input Output NETGEAR AD2122F20 332-11106-01 100-240Vac, 50/60Hz, 0.5A 5.0Vdc, 2.0A or 9Vdc /1.8A Lithium ion battery Brand Model P/N Rating NETGEAR W-10a 308-10084-01 3.85Vdc, 19.78Wh, 5040mAh Report No.: RF181015C09-1 Page No. 9 / 97 Report Format Version: 6.1.1 EUT Adapter (EUT) 3.2 Configuration of System under Test 3.2.1 Description of Support Units The EUT has been tested as an independent unit together with other necessary accessories or support units. The following support units or accessories were used to form a representative test configuration during the tests. ID Communication Remote site Tester (A) Model No. Serial No. Radio Remarks FCC ID Brand DC Product Radio A. Communication Anritsu MT8820C 6201010284 NA
-
Tester Note:
1. All power cords of the above support units are non-shielded (1.8m). 2. Item A acted as a communication partner to transfer data. Report No.: RF181015C09-1 Page No. 10 / 97 Report Format Version: 6.1.1 3.3 Test Mode Applicability and Tested Channel Detail Pre-Scan has been conducted to determine the worst-case mode from all possible combinations between available modulations, data rates, XYZ axis and antenna ports. The worst case was found when positioned on X-plane. Following channel(s) was (were) selected for the final test as listed below:
LTE Band 2 EUT Configure Mode
-
-
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Test item Available channel Tested Channel EIRP Modulation characteristics Frequency Stability Occupied Bandwidth 18607 to 19193 18615 to 19185 18625 to 19175 18650 to 19150 18675 to 19125 18700 to 19100 18700 to 19100 18607 to 19193 18615 to 19185 18625 to 19175 18650 to 19150 18675 to 19125 18700 to 19100 18607 to 19193 18615 to 19185 18625 to 19175 18650 to 19150 18675 to 19125 18700 to 19100 18607(1850.70MHz), 18900(1880.00MHz), 19193(1909.30MHz) 18615(1851.50MHz), 18900(1880.00MHz), 19185(1908.50MHz) 18625(1852.50MHz), 18900(1880.00MHz), 19175(1907.50MHz) 18650(1855.00MHz), 18900(1880.00MHz), 19150(1905.00MHz) 18675(1857.50MHz), 18900(1880.00MHz), 19125(1902.50MHz) 18700(1860.00MHz), 18900(1880.00MHz), 19100(1900.00MHz) 18900(1880.00MHz) 18607(1850.70MHz), 19193(1909.30MHz) 18615(1851.50MHz), 19185(1908.50MHz) 18625(1852.50MHz), 19175(1907.50MHz) 18650(1855.00MHz), 19150(1905.00MHz) 18675(1857.50MHz), 19125(1902.50MHz) 18700(1860.00MHz), 19100(1900.00MHz) 18607(1850.70MHz), 18900(1880.00MHz), 19193(1909.30MHz) 18615(1851.50MHz), 18900(1880.00MHz), 19185(1908.50MHz) 18625(1852.50MHz), 18900(1880.00MHz), 19175(1907.50MHz) 18650(1855.00MHz), 18900(1880.00MHz), 19150(1905.00MHz) 18675(1857.50MHz), 18900(1880.00MHz), 19125(1902.50MHz) 18700(1860.00MHz), 18900(1880.00MHz), 19100(1900.00MHz) Channel Bandwidth Modulation Mode 1.4MHz QPSK / 16QAM /
64QAM 1 RB / 5 RB Offset 3MHz 5MHz QPSK / 16QAM /
64QAM QPSK / 16QAM /
64QAM 10MHz QPSK / 16QAM /
64QAM 15MHz QPSK / 16QAM /
64QAM 20MHz QPSK / 16QAM /
64QAM 20MHz 1.4MHz 3MHz 5MHz 10MHz 15MHz 20MHz QPSK / 16QAM /
64QAM QPSK QPSK QPSK QPSK QPSK QPSK 1.4MHz QPSK / 16QAM /
64QAM 3MHz QPSK / 16QAM /
64QAM 5MHz QPSK / 16QAM /
64QAM 10MHz QPSK / 16QAM /
64QAM 15MHz QPSK / 16QAM /
64QAM 20MHz QPSK / 16QAM /
64QAM 1 RB / 14 RB Offset 1 RB / 24 RB Offset 1 RB / 49 RB Offset 1 RB / 74 RB Offset 1 RB / 99 RB Offset 1 RB / 99 RB Offset 1 RB / 5 RB Offset 1 RB / 14 RB Offset 1 RB / 24 RB Offset 1 RB / 49 RB Offset 1 RB / 74 RB Offset 1 RB / 99 RB Offset 1 RB / 5 RB Offset 1 RB / 14 RB Offset 1 RB / 24 RB Offset 1 RB / 49 RB Offset 1 RB / 74 RB Offset 1 RB / 99 RB Offset Report No.: RF181015C09-1 Page No. 11 / 97 Report Format Version: 6.1.1 EUT Configure Mode Test item Available channel Tested Channel Channel Bandwidth Modulation Mode 18607 to 19193 18615 to 19185 18625 to 19175 18650 to 19150 18675 to 19125 18700 to 19100 18607 to 19193 18615 to 19185 18625 to 19175 18650 to 19150 18675 to 19125 18700 to 19100 18607 to 19193 18615 to 19185 18625 to 19175 18650 to 19150 18675 to 19125 18700 to 19100 18607 to 19193 18625 to 19175 18700 to 19100 18607 to 19193 18607(1850.70MHz), 19193(1909.30MHz) 18615(1851.50MHz), 19185(1908.50MHz) 18625(1852.50MHz), 19175(1907.50MHz) 18650(1855.00MHz), 19150(1905.00MHz) 18675(1857.50MHz), 19125(1902.50MHz) 18700(1860.00MHz), 19100(1900.00MHz) 18607(1850.70MHz), 18900(1880.00MHz), 19193(1909.30MHz) 18615(1851.50MHz), 18900(1880.00MHz), 19185(1908.50MHz) 18625(1852.50MHz), 18900(1880.00MHz), 19175(1907.50MHz) 18650(1855.00MHz), 18900(1880.00MHz), 19150(1905.00MHz) 18675(1857.50MHz), 18900(1880.00MHz), 19125(1902.50MHz) 18700(1860.00MHz), 18900(1880.00MHz), 19100(1900.00MHz) 18607(1850.70MHz), 18900(1880.00MHz), 19193(1909.30MHz) 18615(1851.50MHz), 18900(1880.00MHz), 19185(1908.50MHz) 18625(1852.50MHz), 18900(1880.00MHz), 19175(1907.50MHz) 18650(1855.00MHz), 18900(1880.00MHz), 19150(1905.00MHz) 18675(1857.50MHz), 18900(1880.00MHz), 19125(1902.50MHz) 18700(1860.00MHz), 18900(1880.00MHz), 19100(1900.00MHz) 18607(1850.70MHz) 18625(1852.50MHz) 18700(1860.00MHz) 18607(1850.70MHz), 18900(1880.00MHz), 19193(1909.30MHz) 18625(1852.50MHz), 18900(1880.00MHz), 19175(1907.50MHz) 18700(1860.00MHz), 18900(1880.00MHz), 19100(1900.00MHz) 1.4MHz QPSK 3MHz QPSK 5MHz QPSK 10MHz QPSK 15MHz QPSK 20MHz QPSK 1.4MHz QPSK / 16QAM /
64QAM 3MHz QPSK / 16QAM /
64QAM 5MHz QPSK / 16QAM /
64QAM 10MHz QPSK / 16QAM /
64QAM 15MHz QPSK / 16QAM /
64QAM 20MHz QPSK / 16QAM /
64QAM 1 RB / 0 RB Offset 1 RB / 5 RB Offset 6 RB / 0 RB Offset 1 RB / 0 RB Offset 1 RB / 14 RB Offset 15 RB / 0 RB Offset 1 RB / 0 RB Offset 1 RB / 24 RB Offset 25 RB / 0 RB Offset 1 RB / 0 RB Offset 1 RB / 49 RB Offset 50 RB / 0 RB Offset 1 RB / 0 RB Offset 1 RB / 74 RB Offset 75 RB / 0 RB Offset 1 RB / 0 RB Offset 1 RB / 99 RB Offset 100 RB / 0 RB Offset 1 RB / 5 RB Offset 1 RB / 14 RB Offset 1 RB / 24 RB Offset 1 RB / 49 RB Offset 1 RB / 74 RB Offset 1 RB / 99 RB Offset 1.4MHz QPSK 1 RB / 5 RB Offset 3MHz QPSK 1 RB / 14 RB Offset 5MHz QPSK 1 RB / 24 RB Offset 10MHz QPSK 1 RB / 49 RB Offset 15MHz QPSK 1 RB / 74 RB Offset 20MHz 1.4MHz 5MHz 20MHz 1.4MHz QPSK QPSK QPSK QPSK QPSK 1 RB / 99 RB Offset 1 RB / 5 RB Offset 1 RB / 24 RB Offset 1 RB / 99 RB Offset 1 RB / 5 RB Offset 5MHz QPSK 1 RB / 24 RB Offset 20MHz QPSK 1 RB / 99 RB Offset Page No. 12 / 97 Report Format Version: 6.1.1
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Band Edge
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Peak to Average Ratio Conducted Emission Radiated Emission Below 1GHz
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Radiated Emission Above 1GHz 18625 to 19175 18700 to 19100 Report No.: RF181015C09-1 Note: The conducted output power for QPSK, 16QAM and 64QAM, measured value of QPSK is higher than 16QAM and 64QAM mode. Therefore, only occupied bandwidth and Peak to average ratio items had been tested under QPSK, 16QAM and 64QAM modes, the other test items were performed under QPSK mode only. Test Condition:
Test Item EIRP Modulation characteristics Frequency Stability Occupied Bandwidth Band Edge Peak To Average Ratio Conducted Emission Radiated Emission Environmental Conditions 25deg. C, 66%RH 24deg. C, 66%RH 24deg. C, 64%RH 24deg. C, 64%RH 24deg. C, 64%RH 24deg. C, 64%RH 24deg. C, 64%RH 24deg. C, 64%RH 25deg. C, 66%RH Input Power 120Vac, 60Hz 120Vac, 60Hz 120Vac, 60Hz 120Vac, 60Hz 120Vac, 60Hz 120Vac, 60Hz 120Vac, 60Hz 120Vac, 60Hz Tested By Greg Lin Tim Chen Wayne Huang Wayne Huang Wayne Huang Wayne Huang Wayne Huang Wayne Huang Greg Lin 3.4 EUT Operating Conditions The EUT makes a call to the communication simulator. The communication simulator station system controlled a EUT to export maximum output power under transmission mode and specific channel frequency 3.5 General Description of Applied Standards The EUT is a RF Product. According to the specifications of the manufacturer, it must comply with the requirements of the following standards:
FCC 47 CFR Part 2 FCC 47 CFR Part 24 KDB 971168 D01 Power Meas License Digital Systems v03r01 ANSI/TIA/EIA-603-E 2016 ANSI 63.26-2015 All test items have been performed and recorded as per the above standards. Report No.: RF181015C09-1 Page No. 13 / 97 Report Format Version: 6.1.1 Test Types and Results 4 4.1 Output Power Measurement 4.1.1 Limits of Output Power Measurement Mobile / Portable station are limited to 2 watts e.r.p. 4.1.2 Test Procedures EIRP / ERP Measurement:
a. All measurements were done at low, middle and high operational frequency range. RBW and VBW is 10MHz for LTE mode. b. Substitution method is used for E.I.R.P measurement. In the semi-anechoic chamber, EUT placed on the 0.8m(below or equal 1GHz) and/or 1.5m(above 1GHz) height of Turn Table, rotated the table around 360 degrees to search the maximum radiation power and receiver antenna shall be rotated vertical and horizontal polarization and moved height from 1m to 4m to find the maximum polar radiated power. The Read Value is the spectrum reading the maximum power value. c. The substitution horn antenna is substituted for EUT at the same position and signals generator export the CW signal to the substitution antenna via a TX cable. Rotated the Turn Table and moved receiving antenna to find the maximum radiation power. Adjust output power level of S.G to get a Value of spectrum reading equal to Read Value of step b. Record the power level of S.G d. EIRP = Output power level of S.G TX cable loss + Antenna gain of substitution horn.E.R.P power can be calculated form E.I.R.P power by subtracting the gain of dipole, E.R.P power = E.I.R.P power - 2.15dB. Where:
ERP/EIRP = PMeas + GT - LC PMeas : Measure transmitter output power. GT : Gain of the transmitting antenna. LC : signal attenuation in the connecting cable between the transmitter and antenna. Conducted Power Measurement:
The EUT was set up for the maximum power with PCS, WCDMA, LTE link data modulation and link up with simulator. Set the EUT to transmit under low, middle and high channel and record the power level shown on simulator. Report No.: RF181015C09-1 Page No. 14 / 97 Report Format Version: 6.1.1 4.1.3 Test Setup EIRP / ERP Measurement:
For Radiated Emission below or equal 1GHz Ant. Tower 1-4m Variable EUT&
Support Units 80cm 3m 10m Turn Table Ground Plane Test Receiver For Radiated Emission above 1GHz EUT&
Support Units 3m Ant. Tower 1-4m Variable Turn Table Absorber 150cm Ground Plane Test Receiver For the actual test configuration, please refer to the attached file (Test Setup Photo). Conducted Power Measurement:
For the actual test configuration, please refer to the attached file (Test Setup Photo). COMMUNICATION SIMULATOR EUT Report No.: RF181015C09-1 Page No. 15 / 97 Report Format Version: 6.1.1 4.1.4 Test Results Conducted Output Power (dBm) BW MCS Index QPSK 20M 16QAM 64QAM LTE Band 2 Low 18700 1860 23.74 23.38 23.62 22.93 22.92 22.86 22.91 22.64 22.34 22.57 21.89 21.82 21.84 21.87 21.64 21.35 21.58 20.84 20.87 20.80 20.91 RB Size RB Offset Channel Frequency (MHz) 0 50 99 0 25 50 0 0 50 99 0 25 50 0 0 50 99 0 25 50 0 1 1 1 50 50 50 100 1 1 1 50 50 50 100 1 1 1 50 50 50 100 Mid 18900 1880 23.88 23.47 23.71 22.99 22.96 22.97 22.98 22.83 22.37 22.68 21.95 21.93 21.89 21.96 21.83 21.47 21.65 20.97 20.97 20.89 20.91 High 19100 1900 23.68 23.31 23.57 22.85 22.82 22.80 22.81 22.58 22.24 22.51 21.80 21.76 21.71 21.74 21.60 21.24 21.53 20.79 20.74 20.73 20.71 Report No.: RF181015C09-1 Page No. 16 / 97 Report Format Version: 6.1.1 BW MCS Index QPSK 15M 16QAM 64QAM LTE Band 2 Low 18675 1857.5 23.65 23.38 23.61 22.87 22.84 22.83 22.87 22.59 22.37 22.62 21.76 21.82 21.78 21.89 21.63 21.36 21.49 20.83 20.80 20.77 20.77 RB Size RB Offset Channel Frequency (MHz) 0 37 74 0 19 39 0 0 37 74 0 19 39 0 0 37 74 0 19 39 0 1 1 1 36 36 36 75 1 1 1 36 36 36 75 1 1 1 36 36 36 75 Mid 18900 1880 23.82 23.41 23.69 22.99 22.93 22.90 22.90 22.74 22.37 22.60 21.97 21.94 21.92 21.86 21.74 21.42 21.66 20.99 20.92 20.94 20.91 High 19125 1902.5 23.64 23.21 23.56 22.84 22.79 22.79 22.72 22.60 22.24 22.44 21.72 21.70 21.69 21.71 21.53 21.18 21.47 20.74 20.65 20.73 20.71 Report No.: RF181015C09-1 Page No. 17 / 97 Report Format Version: 6.1.1 BW MCS Index QPSK 10M 16QAM 64QAM LTE Band 2 Low 18650 1855 23.64 23.33 23.52 22.82 22.75 22.75 22.79 22.59 22.12 22.42 21.82 21.71 21.64 21.71 21.59 21.18 21.42 20.74 20.73 20.67 20.67 RB Size RB Offset Channel Frequency (MHz) 0 24 49 0 12 25 0 0 24 49 0 12 25 0 0 24 49 0 12 25 0 1 1 1 25 25 25 50 1 1 1 25 25 25 50 1 1 1 25 25 25 50 Mid 18900 1880 23.70 23.38 23.68 22.85 22.90 22.82 22.84 22.73 22.35 22.58 21.89 21.90 21.76 21.67 21.84 21.18 21.60 20.88 20.97 20.85 20.86 High 19150 1905 23.60 23.23 23.48 22.63 22.71 22.58 22.64 22.57 22.09 22.43 21.73 21.58 21.56 21.58 21.48 21.11 21.37 20.54 20.53 20.58 20.59 Report No.: RF181015C09-1 Page No. 18 / 97 Report Format Version: 6.1.1 BW MCS Index QPSK 5M 16QAM 64QAM LTE Band 2 Low 18625 1852.5 23.68 23.24 23.50 22.79 22.76 22.79 22.81 22.54 22.33 22.43 21.70 21.66 21.57 21.68 21.53 21.25 21.41 20.67 20.68 20.64 20.81 RB Size RB Offset Channel Frequency (MHz) 0 12 24 0 6 13 0 0 12 24 0 6 13 0 0 12 24 0 6 13 0 1 1 1 12 12 12 25 1 1 1 12 12 12 25 1 1 1 12 12 12 25 Mid 18900 1880 23.71 23.40 23.68 22.90 22.98 22.75 22.81 22.64 22.30 22.53 21.93 21.77 21.89 21.91 21.64 21.36 21.59 20.85 20.85 20.78 20.82 High 19175 1907.5 23.58 23.14 23.25 22.55 22.57 22.56 22.56 22.42 22.15 22.54 21.71 21.59 21.59 21.66 21.48 21.22 21.46 20.66 20.72 20.69 20.71 Report No.: RF181015C09-1 Page No. 19 / 97 Report Format Version: 6.1.1 BW MCS Index QPSK 3M 16QAM 64QAM LTE Band 2 Low 18615 1851.5 23.59 23.31 23.48 22.80 22.78 22.76 22.72 22.61 22.21 22.52 21.74 21.75 21.71 21.76 21.63 21.12 21.37 20.77 20.75 20.69 20.75 RB Size RB Offset Channel Frequency (MHz) 0 7 14 0 3 7 0 0 7 14 0 3 7 0 0 7 14 0 3 7 0 1 1 1 8 8 8 15 1 1 1 8 8 8 15 1 1 1 8 8 8 15 Mid 18900 1880 23.83 23.33 23.61 22.93 23.00 22.80 22.87 22.68 22.19 22.51 21.85 21.85 21.89 21.86 21.65 21.35 21.59 20.82 20.97 20.91 20.79 High 19185 1908.5 23.60 23.19 23.54 22.80 22.74 22.69 22.61 22.43 22.16 22.48 21.75 21.60 21.74 21.67 21.51 21.13 21.41 20.67 20.63 20.57 20.63 Report No.: RF181015C09-1 Page No. 20 / 97 Report Format Version: 6.1.1 BW MCS Index QPSK 1.4M 16QAM 64QAM LTE Band 2 Low 18607 1850.7 23.56 23.26 23.58 23.80 23.71 23.73 22.89 22.61 22.10 22.41 22.75 22.81 22.67 21.75 21.47 21.15 21.37 21.80 21.70 21.54 20.65 RB Size RB Offset Channel Frequency (MHz) 0 2 5 0 1 3 0 0 2 5 0 1 3 0 0 2 5 0 1 3 0 1 1 1 3 3 3 6 1 1 1 3 3 3 6 1 1 1 3 3 3 6 Mid 18900 1880 23.86 23.38 23.62 23.87 23.85 23.81 22.98 22.55 22.20 22.54 22.88 22.80 22.88 21.82 21.69 21.42 21.61 21.98 21.81 21.89 20.83 High 19193 1909.3 23.45 23.14 23.35 23.74 23.62 23.66 22.78 22.60 22.13 22.42 22.59 22.71 22.65 21.48 21.60 21.12 21.34 21.74 21.62 21.64 20.60 Report No.: RF181015C09-1 Page No. 21 / 97 Report Format Version: 6.1.1 EIRP Power (dBm) Modulation Type: QPSK LTE Band 2, Channel Bandwidth: 1.4MHz TX channel 18607 MODE Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1850.70 Reading
(dBm)
-12.9 S.G Power Value (dBm) Correction Factor (dB) 27.3 0.1 EIRP (dBm) Limit (dBm) Margin (dB) 27.4 33.0
-5.6 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1850.70 Reading
(dBm)
-16.5 S.G Power Value (dBm) Correction Factor (dB) 23.9 0.1 EIRP (dBm) Limit (dBm) Margin (dB) 24.0 33.0
-9.0 MODE TX channel 18900 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1880.00 Reading
(dBm)
-13.0 S.G Power Value (dBm) Correction Factor (dB) 27.5 0.0 EIRP (dBm) Limit (dBm) Margin (dB) 27.5 33.0
-5.5 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1880.00 Reading
(dBm)
-15.9 S.G Power Value (dBm) Correction Factor (dB) 24.7 0.0 EIRP (dBm) Limit (dBm) Margin (dB) 24.7 33.0
-8.3 MODE TX channel 19193 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1909.30 Reading
(dBm)
-13.1 S.G Power Value (dBm) Correction Factor (dB) 27.6
-0.1 EIRP (dBm) Limit (dBm) Margin (dB) 27.5 33.0
-5.5 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1909.30 Reading
(dBm)
-16.4 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 24.4
-0.1 24.3 33.0
-8.7 Note: EIRP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-1 Page No. 22 / 97 Report Format Version: 6.1.1 LTE Band 2, Channel Bandwidth: 3MHz MODE TX channel 18615 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1851.50 Reading
(dBm)
-12.4 S.G Power Value (dBm) Correction Factor (dB) 27.8 0.1 EIRP (dBm) Limit (dBm) Margin (dB) 27.9 33.0
-5.1 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1851.50 Reading
(dBm)
-16.1 S.G Power Value (dBm) Correction Factor (dB) 24.3 0.1 EIRP (dBm) Limit (dBm) Margin (dB) 24.4 33.0
-8.6 MODE TX channel 18900 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1880.00 Reading
(dBm)
-12.7 S.G Power Value (dBm) Correction Factor (dB) 27.8 0.0 EIRP (dBm) Limit (dBm) Margin (dB) 27.8 33.0
-5.2 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1880.00 Reading
(dBm)
-15.6 S.G Power Value (dBm) Correction Factor (dB) 25.0 0.0 EIRP (dBm) Limit (dBm) Margin (dB) 25.0 33.0
-8.0 MODE TX channel 19185 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1908.50 Reading
(dBm)
-12.8 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 27.9
-0.1 27.8 33.0
-5.2 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1908.50 Reading
(dBm)
-16.5 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 24.3
-0.1 24.2 33.0
-8.8 Note: EIRP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-1 Page No. 23 / 97 Report Format Version: 6.1.1 LTE Band 2, Channel Bandwidth: 5MHz MODE TX channel 18625 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1852.50 Reading
(dBm)
-13.7 S.G Power Value (dBm) Correction Factor (dB) 26.5 0.1 EIRP (dBm) Limit (dBm) Margin (dB) 26.6 33.0
-6.4 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1852.50 Reading
(dBm)
-16.4 S.G Power Value (dBm) Correction Factor (dB) 24.0 0.1 EIRP (dBm) Limit (dBm) Margin (dB) 24.1 33.0
-8.9 MODE TX channel 18900 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1880.00 Reading
(dBm)
-13.5 S.G Power Value (dBm) Correction Factor (dB) 27.0 0.0 EIRP (dBm) Limit (dBm) Margin (dB) 27.0 33.0
-6.0 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1880.00 Reading
(dBm)
-16.0 S.G Power Value (dBm) Correction Factor (dB) 24.6 0.0 EIRP (dBm) Limit (dBm) Margin (dB) 24.6 33.0
-8.4 MODE TX channel 19175 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1907.50 Reading
(dBm)
-12.9 S.G Power Value (dBm) Correction Factor (dB) 27.8
-0.1 EIRP (dBm) Limit (dBm) Margin (dB) 27.7 33.0
-5.3 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1907.50 Reading
(dBm)
-16.2 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 24.6
-0.1 24.5 33.0
-8.5 Note: EIRP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-1 Page No. 24 / 97 Report Format Version: 6.1.1 LTE Band 2, Channel Bandwidth: 10MHz MODE TX channel 18650 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1855.00 Reading
(dBm)
-13.5 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 26.8 0.0 26.8 33.0
-6.2 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1855.00 Reading
(dBm)
-16.4 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 24.1 0.0 24.1 33.0
-8.9 MODE TX channel 18900 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1880.00 Reading
(dBm)
-13.3 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 27.2 0.0 27.2 33.0
-5.8 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1880.00 Reading
(dBm)
-16.1 S.G Power Value (dBm) Correction Factor (dB) 24.5 0.0 MODE TX channel 19150 EIRP (dBm) Limit (dBm) Margin (dB) 24.5 33.0
-8.5 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1905.00 Reading
(dBm)
-13.2 S.G Power Value (dBm) Correction Factor (dB) 27.5
-0.1 EIRP (dBm) Limit (dBm) Margin (dB) 27.4 33.0
-5.6 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1905.00 Reading
(dBm)
-16.2 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 24.6
-0.1 24.5 33.0
-8.5 Note: EIRP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-1 Page No. 25 / 97 Report Format Version: 6.1.1 LTE Band 2, Channel Bandwidth: 15MHz MODE TX channel 18675 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1857.50 Reading
(dBm)
-13.7 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 26.6 0.0 26.6 33.0
-6.4 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1857.50 Reading
(dBm)
-16.2 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 24.3 0.0 24.3 33.0
-8.7 MODE TX channel 18900 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1880.00 Reading
(dBm)
-13.1 S.G Power Value (dBm) Correction Factor (dB) 27.4 0.0 EIRP (dBm) Limit (dBm) Margin (dB) 27.4 33.0
-5.6 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1880.00 Reading
(dBm)
-16.6 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 24.0 0.0 24.0 33.0
-9.0 MODE TX channel 19125 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1902.50 Reading
(dBm)
-13.8 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 26.9
-0.1 26.8 33.0
-6.2 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1902.50 Reading
(dBm)
-16.1 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 24.7
-0.1 24.6 33.0
-8.4 Note: EIRP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-1 Page No. 26 / 97 Report Format Version: 6.1.1 LTE Band 2, Channel Bandwidth: 20MHz MODE TX channel 18700 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1860.00 Reading
(dBm)
-13.3 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 27.0 0.0 27.0 33.0
-6.0 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1860.00 Reading
(dBm)
-16.5 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 24.0 0.0 24.0 33.0
-9.0 MODE TX channel 18900 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1880.00 Reading
(dBm)
-12.8 S.G Power Value (dBm) Correction Factor (dB) 27.7 0.0 EIRP (dBm) Limit (dBm) Margin (dB) 27.7 33.0
-5.3 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1880.00 Reading
(dBm)
-16.2 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 24.4 0.0 24.4 33.0
-8.6 MODE TX channel 19100 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1900.00 Reading
(dBm)
-13.0 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 27.7
-0.1 27.6 33.0
-5.4 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1900.00 Reading
(dBm)
-16.0 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 24.8
-0.1 24.7 33.0
-8.3 Note: EIRP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-1 Page No. 27 / 97 Report Format Version: 6.1.1 Modulation Type: 16QAM LTE Band 2, Channel Bandwidth: 1.4MHz MODE TX channel 18607 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1850.70 Reading
(dBm)
-13.8 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 26.4 0.1 26.5 33.0
-6.5 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1850.70 Reading
(dBm)
-17.5 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 22.9 0.1 23.0 33.0
-10.0 MODE TX channel 18900 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1880.00 Reading
(dBm)
-13.9 S.G Power Value (dBm) Correction Factor (dB) 26.6 0.0 EIRP (dBm) Limit (dBm) Margin (dB) 26.6 33.0
-6.4 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1880.00 Reading
(dBm)
-16.9 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 23.7 0.0 23.7 33.0
-9.3 MODE TX channel 19193 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1909.30 Reading
(dBm)
-14.1 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 26.6
-0.1 26.5 33.0
-6.5 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1909.30 Reading
(dBm)
-17.4 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 23.4
-0.1 23.3 33.0
-9.7 Note: EIRP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-1 Page No. 28 / 97 Report Format Version: 6.1.1 LTE Band 2, Channel Bandwidth: 3MHz MODE TX channel 18615 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1851.50 Reading
(dBm)
-13.2 S.G Power Value (dBm) Correction Factor (dB) 27.0 0.1 EIRP (dBm) Limit (dBm) Margin (dB) 27.1 33.0
-5.9 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1851.50 Reading
(dBm)
-17.0 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 23.4 0.1 23.5 33.0
-9.5 MODE TX channel 18900 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1880.00 Reading
(dBm)
-13.8 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 26.7 0.0 26.7 33.0
-6.3 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1880.00 Reading
(dBm)
-17.2 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 23.4 0.0 23.4 33.0
-9.6 MODE TX channel 19185 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1908.50 Reading
(dBm)
-13.8 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 26.9
-0.1 26.8 33.0
-6.2 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1908.50 Reading
(dBm)
-17.4 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 23.4
-0.1 23.3 33.0
-9.7 Note: EIRP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-1 Page No. 29 / 97 Report Format Version: 6.1.1 LTE Band 2, Channel Bandwidth: 5MHz MODE TX channel 18625 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1852.50 Reading
(dBm)
-14.6 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 25.6 0.1 25.7 33.0
-7.3 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1852.50 Reading
(dBm)
-17.3 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 23.1 0.1 23.2 33.0
-9.8 MODE TX channel 18900 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1880.00 Reading
(dBm)
-14.5 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 26.0 0.0 26.0 33.0
-7.0 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1880.00 Reading
(dBm)
-17.0 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 23.6 0.0 23.6 33.0
-9.4 MODE TX channel 19175 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1907.50 Reading
(dBm)
-14.0 S.G Power Value (dBm) Correction Factor (dB) 26.7
-0.1 EIRP (dBm) Limit (dBm) Margin (dB) 26.6 33.0
-6.4 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1907.50 Reading
(dBm)
-17.3 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 23.5
-0.1 23.4 33.0
-9.6 Note: EIRP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-1 Page No. 30 / 97 Report Format Version: 6.1.1 LTE Band 2, Channel Bandwidth: 10MHz MODE TX channel 18650 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1855.00 Reading
(dBm)
-14.3 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 26.0 0.0 26.0 33.0
-7.0 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1855.00 Reading
(dBm)
-17.5 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 23.0 0.0 23.0 33.0
-10.0 MODE TX channel 18900 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1880.00 Reading
(dBm)
-14.2 S.G Power Value (dBm) Correction Factor (dB) 26.3 0.0 EIRP (dBm) Limit (dBm) Margin (dB) 26.3 33.0
-6.7 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1880.00 Reading
(dBm)
-17.2 S.G Power Value (dBm) Correction Factor (dB) 23.4 0.0 MODE TX channel 19150 EIRP (dBm) Limit (dBm) Margin (dB) 23.4 33.0
-9.6 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1905.00 Reading
(dBm)
-14.3 S.G Power Value (dBm) Correction Factor (dB) 26.4
-0.1 EIRP (dBm) Limit (dBm) Margin (dB) 26.3 33.0
-6.7 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1905.00 Reading
(dBm)
-17.3 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 23.5
-0.1 23.4 33.0
-9.6 Note: EIRP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-1 Page No. 31 / 97 Report Format Version: 6.1.1 LTE Band 2, Channel Bandwidth: 15MHz MODE TX channel 18675 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1857.50 Reading
(dBm)
-14.6 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 25.7 0.0 25.7 33.0
-7.3 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1857.50 Reading
(dBm)
-17.6 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 22.9 0.0 22.9 33.0
-10.1 MODE TX channel 18900 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1880.00 Reading
(dBm)
-14.0 S.G Power Value (dBm) Correction Factor (dB) 26.5 0.0 EIRP (dBm) Limit (dBm) Margin (dB) 26.5 33.0
-6.5 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1880.00 Reading
(dBm)
-17.5 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 23.1 0.0 23.1 33.0
-9.9 MODE TX channel 19125 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1902.50 Reading
(dBm)
-14.6 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 26.1
-0.1 26.0 33.0
-7.0 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1902.50 Reading
(dBm)
-17.3 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 23.5
-0.1 23.4 33.0
-9.6 Note: EIRP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-1 Page No. 32 / 97 Report Format Version: 6.1.1 LTE Band 2, Channel Bandwidth: 20MHz MODE TX channel 18700 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1860.00 Reading
(dBm)
-14.3 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 26.0 0.0 26.0 33.0
-7.0 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1860.00 Reading
(dBm)
-17.4 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 23.1 0.0 23.1 33.0
-9.9 MODE TX channel 18900 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1880.00 Reading
(dBm)
-13.8 S.G Power Value (dBm) Correction Factor (dB) 26.7 0.0 EIRP (dBm) Limit (dBm) Margin (dB) 26.7 33.0
-6.3 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1880.00 Reading
(dBm)
-17.2 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 23.4 0.0 23.4 33.0
-9.6 MODE TX channel 19100 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1900.00 Reading
(dBm)
-14.1 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 26.6
-0.1 26.5 33.0
-6.5 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1900.00 Reading
(dBm)
-17.2 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 23.6
-0.1 23.5 33.0
-9.5 Note: EIRP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-1 Page No. 33 / 97 Report Format Version: 6.1.1 Modulation Type: 64QAM LTE Band 2, Channel Bandwidth: 1.4MHz MODE TX channel 18607 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1850.70 Reading
(dBm)
-14.5 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 25.7 0.1 25.8 33.0
-7.2 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1850.70 Reading
(dBm)
-18.1 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 22.3 0.1 22.4 33.0
-10.6 MODE TX channel 18900 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1880.00 Reading
(dBm)
-14.5 S.G Power Value (dBm) Correction Factor (dB) 26.0 0.0 EIRP (dBm) Limit (dBm) Margin (dB) 26.0 33.0
-7.0 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1880.00 Reading
(dBm)
-17.5 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 23.1 0.0 23.1 33.0
-9.9 MODE TX channel 19193 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1909.30 Reading
(dBm)
-14.8 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 25.9
-0.1 25.8 33.0
-7.2 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1909.30 Reading
(dBm)
-17.9 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 22.9
-0.1 22.8 33.0
-10.2 Note: EIRP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-1 Page No. 34 / 97 Report Format Version: 6.1.1 LTE Band 2, Channel Bandwidth: 3MHz MODE TX channel 18615 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1851.50 Reading
(dBm)
-13.8 S.G Power Value (dBm) Correction Factor (dB) 26.4 0.1 EIRP (dBm) Limit (dBm) Margin (dB) 26.5 33.0
-6.5 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1851.50 Reading
(dBm)
-17.4 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 23.0 0.1 23.1 33.0
-9.9 MODE TX channel 18900 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1880.00 Reading
(dBm)
-14.3 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 26.2 0.0 26.2 33.0
-6.8 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1880.00 Reading
(dBm)
-17.7 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 22.9 0.0 22.9 33.0
-10.1 MODE TX channel 19185 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1908.50 Reading
(dBm)
-14.3 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 26.4
-0.1 26.3 33.0
-6.7 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1908.50 Reading
(dBm)
-17.9 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 22.9
-0.1 22.8 33.0
-10.2 Note: EIRP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-1 Page No. 35 / 97 Report Format Version: 6.1.1 LTE Band 2, Channel Bandwidth: 5MHz MODE TX channel 18625 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1852.50 Reading
(dBm)
-15.2 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 25.0 0.1 25.1 33.0
-7.9 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1852.50 Reading
(dBm)
-17.6 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 22.8 0.1 22.9 33.0
-10.1 MODE TX channel 18900 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1880.00 Reading
(dBm)
-14.9 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 25.6 0.0 25.6 33.0
-7.4 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1880.00 Reading
(dBm)
-17.4 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 23.2 0.0 23.2 33.0
-9.8 MODE TX channel 19175 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1907.50 Reading
(dBm)
-14.3 S.G Power Value (dBm) Correction Factor (dB) 26.4
-0.1 EIRP (dBm) Limit (dBm) Margin (dB) 26.3 33.0
-6.7 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1907.50 Reading
(dBm)
-17.8 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 23.0
-0.1 22.9 33.0
-10.1 Note: EIRP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-1 Page No. 36 / 97 Report Format Version: 6.1.1 LTE Band 2, Channel Bandwidth: 10MHz MODE TX channel 18650 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1855.00 Reading
(dBm)
-14.8 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 25.5 0.0 25.5 33.0
-7.5 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1855.00 Reading
(dBm)
-18.0 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 22.5 0.0 22.5 33.0
-10.5 MODE TX channel 18900 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1880.00 Reading
(dBm)
-14.7 S.G Power Value (dBm) Correction Factor (dB) 25.8 0.0 EIRP (dBm) Limit (dBm) Margin (dB) 25.8 33.0
-7.2 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1880.00 Reading
(dBm)
-17.6 S.G Power Value (dBm) Correction Factor (dB) 23.0 0.0 MODE TX channel 19150 EIRP (dBm) Limit (dBm) Margin (dB) 23.0 33.0
-10.0 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1905.00 Reading
(dBm)
-14.8 S.G Power Value (dBm) Correction Factor (dB) 25.9
-0.1 EIRP (dBm) Limit (dBm) Margin (dB) 25.8 33.0
-7.2 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1905.00 Reading
(dBm)
-17.8 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 23.0
-0.1 22.9 33.0
-10.1 Note: EIRP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-1 Page No. 37 / 97 Report Format Version: 6.1.1 LTE Band 2, Channel Bandwidth: 15MHz MODE TX channel 18675 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1857.50 Reading
(dBm)
-14.9 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 25.4 0.0 25.4 33.0
-7.6 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1857.50 Reading
(dBm)
-18.1 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 22.4 0.0 22.4 33.0
-10.6 MODE TX channel 18900 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1880.00 Reading
(dBm)
-14.4 S.G Power Value (dBm) Correction Factor (dB) 26.1 0.0 EIRP (dBm) Limit (dBm) Margin (dB) 26.1 33.0
-6.9 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1880.00 Reading
(dBm)
-18.1 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 22.5 0.0 22.5 33.0
-10.5 MODE TX channel 19125 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1902.50 Reading
(dBm)
-15.1 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 25.6
-0.1 25.5 33.0
-7.5 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1902.50 Reading
(dBm)
-17.7 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 23.1
-0.1 23.0 33.0
-10.0 Note: EIRP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-1 Page No. 38 / 97 Report Format Version: 6.1.1 LTE Band 2, Channel Bandwidth: 20MHz MODE TX channel 18700 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1860.00 Reading
(dBm)
-14.8 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 25.5 0.0 25.5 33.0
-7.5 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1860.00 Reading
(dBm)
-17.9 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 22.6 0.0 22.6 33.0
-10.4 MODE TX channel 18900 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1880.00 Reading
(dBm)
-14.3 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 26.2 0.0 26.2 33.0
-6.8 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1880.00 Reading
(dBm)
-17.8 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 22.8 0.0 22.8 33.0
-10.2 MODE TX channel 19100 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1900.00 Reading
(dBm)
-14.5 S.G Power Value (dBm) Correction Factor (dB) 26.2
-0.1 EIRP (dBm) Limit (dBm) Margin (dB) 26.1 33.0
-6.9 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1900.00 Reading
(dBm)
-18.3 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 22.5
-0.1 22.4 33.0
-10.6 Note: EIRP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-1 Page No. 39 / 97 Report Format Version: 6.1.1 4.2 Modulation Characteristics Measurement 4.2.1 Limits of Modulation Characteristics N/A 4.2.2 Test Procedure Connect the EUT to Communication Simulator via the antenna connector, The frequency band is set as EUT supported Modulation and Channels, the EUT output is matched with 50 ohm load, the waveform quality and constellation of the EUT was tested. 4.2.3 Test Setup Communication Simulator EUT Report No.: RF181015C09-1 Page No. 40 / 97 Report Format Version: 6.1.1 4.2.4 Test Results LTE Band 2 Spectrum Plot of Measurement Value Channel: 18900 / Frequency (MHz): 1880.0MHz Channel Bandwidth: 20MHz / QPSK Channel Bandwidth: 20MHz / 16QAM Channel Bandwidth: 20MHz / 64QAM Report No.: RF181015C09-1 Page No. 41 / 97 Report Format Version: 6.1.1 4.3 Frequency Stability Measurement 4.3.1 Limits of Frequency Stability Measurement 1.5 ppm is for base and fixed station. 2.5 ppm is for mobile station. 4.3.2 Test Procedure a. Device is placed at the oven room. The oven room could control the temperatures and humidity. Power warm up is at least 15 min and power applied should perform before recording frequency error. b. EUT is connected the external power supply to control the DC input power. The test voltage range is from minimum to maximum working voltage. Each step shall be record the frequency error rate. c. The temperature range step is 10 degrees in this test items. All temperature levels shall be hold the 0.5 during the measurement testing. The each temperature step shall be at least 0.5 hours, consider the EUT could be test under the stability condition. Simulator Communication SPECTRUM ANALYZER NOTE: The frequency error was recorded frequency error from the communication simulator. 4.3.3 Test Setup 20dB ATTENUATION PAD External Power Source POWER SPLITTER DC Power Supply Oven Room EUT Report No.: RF181015C09-1 Page No. 42 / 97 Report Format Version: 6.1.1 4.3.4 Test Results Frequency Error vs. Voltage Voltage
(Volts) LTE Band 2 Channel Bandwidth: 1.4 MHz Low Channel High Channel Frequency (MHz) Frequency Error (ppm) Frequency (MHz) Frequency Error (ppm) 3.85 3.23 4.37 1850.700001 1850.699995 1850.700004 0.000
-0.003 0.002 1909.300000 1909.299997 1909.300004 0.000
-0.002 0.002 Note: The applicant defined the normal working voltage is from 3.23 Vdc to 4.37 Vdc. Frequency Error vs. Temperature LTE Band 2 Channel Bandwidth: 1.4 MHz Low Channel High Channel Frequency (MHz) Frequency Error (ppm) Frequency (MHz) Frequency Error (ppm) 1850.700008 1850.700006 1850.700004 1850.700001 1850.699999 1850.699997 1850.699997 1850.699994 1850.699992 0.004 0.003 0.002 0.001 0.000
-0.001
-0.002
-0.004
-0.004 1909.300009 1909.300005 1909.300004 1909.300002 1909.300001 1909.299997 1909.299996 1909.299993 1909.299991 0.005 0.003 0.002 0.001 0.000
-0.001
-0.002
-0.004
-0.005 Temp. ()
-30
-20
-10 0 10 20 30 40 50 Report No.: RF181015C09-1 Page No. 43 / 97 Report Format Version: 6.1.1 Frequency Error vs. Voltage Voltage
(Volts) LTE Band 2 Channel Bandwidth: 3 MHz Low Channel High Channel Frequency (MHz) Frequency Error (ppm) Frequency (MHz) Frequency Error (ppm) 3.80 3.23 4.37 1851.499999 1851.499996 1851.500003 0.000
-0.002 0.002 1907.500001 1907.499995 1907.500004 0.000
-0.003 0.002 Note: The applicant defined the normal working voltage is from 3.23 Vdc to 4.37 Vdc. Frequency Error vs. Temperature LTE Band 2 Channel Bandwidth: 3 MHz Low Channel High Channel Frequency (MHz) Frequency Error (ppm) Frequency (MHz) Frequency Error (ppm) 1851.500008 1851.500005 1851.500003 1851.500003 1851.500000 1851.499999 1851.499996 1851.499993 1851.499991 0.004 0.003 0.002 0.001 0.000
-0.001
-0.002
-0.004
-0.005 1907.500009 1907.500006 1907.500004 1907.500001 1907.499999 1907.499998 1907.499996 1907.499994 1907.499992 0.005 0.003 0.002 0.001 0.000
-0.001
-0.002
-0.003
-0.004 Temp. ()
-30
-20
-10 0 10 20 30 40 50 Report No.: RF181015C09-1 Page No. 44 / 97 Report Format Version: 6.1.1 Frequency Error vs. Voltage Voltage
(Volts) LTE Band 2 Channel Bandwidth: 5 MHz Low Channel High Channel Frequency (MHz) Frequency Error (ppm) Frequency (MHz) Frequency Error (ppm) 3.80 3.23 4.37 1852.500000 1852.499995 1852.500004 0.000
-0.003 0.002 1907.500000 1907.499995 1907.500003 0.000
-0.003 0.002 Note: The applicant defined the normal working voltage is from 3.23 Vdc to 4.37 Vdc. Frequency Error vs. Temperature LTE Band 2 Channel Bandwidth: 5 MHz Low Channel High Channel Frequency (MHz) Frequency Error (ppm) Frequency (MHz) Frequency Error (ppm) 1852.500008 1852.500005 1852.500004 1852.500003 1852.499999 1852.499998 1852.499996 1852.499993 1852.499992 0.004 0.003 0.002 0.001 0.000
-0.001
-0.002
-0.004
-0.004 1907.500009 1907.500006 1907.500004 1907.500002 1907.500001 1907.499998 1907.499995 1907.499994 1907.499992 0.004 0.003 0.002 0.001 0.001
-0.001
-0.003
-0.003
-0.004 Temp. ()
-30
-20
-10 0 10 20 30 40 50 Report No.: RF181015C09-1 Page No. 45 / 97 Report Format Version: 6.1.1 Frequency Error vs. Voltage Voltage
(Volts) LTE Band 2 Channel Bandwidth: 10 MHz Low Channel High Channel Frequency (MHz) Frequency Error (ppm) Frequency (MHz) Frequency Error (ppm) 3.80 3.23 4.37 1854.999999 1854.999997 1855.000003 0.000
-0.002 0.002 1904.999999 1904.999995 1905.000004
-0.001
-0.003 0.002 Note: The applicant defined the normal working voltage is from 3.23 Vdc to 4.37 Vdc. Frequency Error vs. Temperature LTE Band 2 Channel Bandwidth: 10 MHz Low Channel High Channel Frequency (MHz) Frequency Error (ppm) Frequency (MHz) Frequency Error (ppm) 1855.000009 1855.000005 1855.000004 1855.000002 1854.999999 1854.999997 1854.999995 1854.999993 1854.999992 0.005 0.003 0.002 0.001 0.000
-0.001
-0.003
-0.004
-0.004 1905.000007 1905.000006 1905.000004 1905.000002 1905.000000 1904.999999 1904.999996 1904.999993 1904.999991 0.004 0.003 0.002 0.001 0.000
-0.001
-0.002
-0.004
-0.005 Temp. ()
-30
-20
-10 0 10 20 30 40 50 Report No.: RF181015C09-1 Page No. 46 / 97 Report Format Version: 6.1.1 Frequency Error vs. Voltage Voltage
(Volts) LTE Band 2 Channel Bandwidth: 15 MHz Low Channel High Channel Frequency (MHz) Frequency Error (ppm) Frequency (MHz) Frequency Error (ppm) 3.80 3.23 4.37 1857.499999 1857.499995 1857.500003 0.000
-0.003 0.002 1902.500001 1902.499996 1902.500003 0.000
-0.002 0.001 Note: The applicant defined the normal working voltage is from 3.23 Vdc to 4.37 Vdc. Frequency Error vs. Temperature LTE Band 2 Channel Bandwidth: 15 MHz Low Channel High Channel Frequency (MHz) Frequency Error (ppm) Frequency (MHz) Frequency Error (ppm) 1857.500007 1857.500006 1857.500003 1857.500002 1857.500001 1857.499998 1857.499995 1857.499994 1857.499991 0.004 0.003 0.002 0.001 0.000
-0.001
-0.003
-0.003
-0.005 1902.500007 1902.500007 1902.500004 1902.500001 1902.500000 1902.499998 1902.499997 1902.499993 1902.499993 0.004 0.004 0.002 0.001 0.000
-0.001
-0.002
-0.003
-0.004 Temp. ()
-30
-20
-10 0 10 20 30 40 50 Report No.: RF181015C09-1 Page No. 47 / 97 Report Format Version: 6.1.1 Frequency Error vs. Voltage Voltage
(Volts) LTE Band 2 Channel Bandwidth: 20 MHz Low Channel High Channel Frequency (MHz) Frequency Error (ppm) Frequency (MHz) Frequency Error (ppm) 3.80 3.23 4.37 1859.999999 1859.999995 1860.000003
-0.001
-0.003 0.002 1900.000000 1899.999995 1900.000004 0.000
-0.003 0.002 Note: The applicant defined the normal working voltage is from 3.23 Vdc to 4.37 Vdc. Frequency Error vs. Temperature LTE Band 2 Channel Bandwidth: 20 MHz Low Channel High Channel Frequency (MHz) Frequency Error (ppm) Frequency (MHz) Frequency Error (ppm) 1860.000009 1860.000005 1860.000004 1860.000001 1860.000000 1859.999999 1859.999996 1859.999994 1859.999992 0.005 0.003 0.002 0.001 0.000 0.000
-0.002
-0.003
-0.004 1900.000009 1900.000007 1900.000004 1900.000001 1900.000000 1899.999998 1899.999996 1899.999994 1899.999992 0.005 0.004 0.002 0.001 0.000
-0.001
-0.002
-0.003
-0.004 Temp. ()
-30
-20
-10 0 10 20 30 40 50 Report No.: RF181015C09-1 Page No. 48 / 97 Report Format Version: 6.1.1 4.4 Occupied Bandwidth Measurement 4.4.1 Test Procedure The EUT makes a call to the communication simulator. All measurements were done at low, middle and high operational frequency range. The communication simulator station system controlled a EUT to export maximum output power under transmission mode and specific channel frequency. Use OBW measurement function of Spectrum analyzer to measure 99 % occupied bandwidth. 4.4.2 Test Setup 20dB Attenuation PAD Spectrum Analyzer Communication Power Splitter Simulator EUT Report No.: RF181015C09-1 Page No. 49 / 97 Report Format Version: 6.1.1 4.4.3 Test Result Channel 18607 18900 19193 Channel 18615 18900 19185 Channel 18625 18900 19175 Channel 18650 18900 19150 Channel 18675 18900 19125 Channel 18700 18900 19100 Frequency
(MHz) 1850.7 1880.0 1909.3 Frequency
(MHz) 1851.5 1880.0 1908.5 Frequency
(MHz) 1852.5 1880.0 1907.5 Frequency
(MHz) 1855.0 1880.0 1905.0 Frequency
(MHz) 1857.5 1880.0 1902.5 Frequency
(MHz) 1860.0 1880.0 1900.0 Report No.: RF181015C09-1 LTE Band 2, Channel Bandwidth: 1.4MHz Occupied Bandwidth (MHz) 26dBc Bandwidth (MHz) QPSK 1.09 1.09 1.09 LTE Band 2, Channel Bandwidth: 3MHz 16QAM 1.09 1.09 1.09 64QAM 1.09 1.09 1.09 QPSK 1.24 1.23 1.30 16QAM 1.22 1.22 1.23 64QAM 1.23 1.23 1.24 Occupied Bandwidth (MHz) 26dBc Bandwidth (MHz) QPSK 2.70 2.70 2.71 LTE Band 2, Channel Bandwidth: 5MHz 16QAM 2.70 2.70 2.70 64QAM 2.70 2.71 2.71 QPSK 2.94 2.93 3.15 16QAM 2.95 2.94 2.98 64QAM 2.95 2.93 2.99 Occupied Bandwidth (MHz) 26dBc Bandwidth (MHz) QPSK 4.49 4.49 4.49 LTE Band 2, Channel Bandwidth: 10MHz 16QAM 4.49 4.49 4.49 64QAM 4.49 4.49 4.49 QPSK 4.82 4.82 4.90 16QAM 4.81 4.82 4.83 64QAM 4.82 4.81 4.87 Occupied Bandwidth (MHz) 26dBc Bandwidth (MHz) QPSK 8.96 8.98 8.97 LTE Band 2, Channel Bandwidth: 15MHz 16QAM 8.97 8.97 8.98 64QAM 8.96 8.97 8.97 QPSK 9.51 9.54 9.62 16QAM 9.51 9.53 9.55 64QAM 9.50 9.52 9.55 Occupied Bandwidth (MHz) 26dBc Bandwidth (MHz) QPSK 13.43 13.50 13.49 LTE Band 2, Channel Bandwidth: 20MHz 64QAM 13.41 13.48 13.47 16QAM 13.42 13.48 13.48 QPSK 14.26 14.32 14.71 16QAM 14.23 14.29 14.34 64QAM 14.24 14.30 14.35 Occupied Bandwidth (MHz) 26dBc Bandwidth (MHz) QPSK 17.83 18.02 17.97 16QAM 17.85 18.02 17.98 64QAM 17.84 18.02 17.99 QPSK 18.99 19.31 19.51 16QAM 18.98 19.13 19.12 64QAM 18.99 19.12 19.09 Page No. 50 / 97 Report Format Version: 6.1.1 1.4MHz / QPSK Occupied Bandwidth Spectrum Plot of Worst Value 3MHz / 64QAM 5MHz / QPSK 10MHz / QPSK 15MHz / QPSK 20MHz / QPSK Report No.: RF181015C09-1 Page No. 51 / 97 Report Format Version: 6.1.1 1.4MHz / QPSK 26dBc Bandwidth Spectrum Plot of Worst Value 3MHz / QPSK 5MHz / QPSK 10MHz / QPSK 15MHz / QPSK 20MHz / QPSK Report No.: RF181015C09-1 Page No. 52 / 97 Report Format Version: 6.1.1 4.5 Band Edge Measurement 4.5.1 Limits of Band Edge Measurement Power of any emission outside of the authorized operating frequency ranges must be attenuated below the transmitting power (P) by a factor of at least 43 + 10 log(P) dB. In the 1 MHz bands immediately outside and adjacent to the frequency block a resolution bandwidth of at least one percent of the emission bandwidth of the fundamental emission of the transmitter may be employed. 4.5.2 Test Setup 4.5.3 Test Procedures 20dB Attenuation PAD Spectrum Analyzer Communication Power Splitter Simulator EUT a. All measurements were done at low and high operational frequency range. b. The center frequency of spectrum is the band edge frequency and span is 1.5MHz. RB of the spectrum is 15kHz and VB of the spectrum is 51kHz (LTE Channel Bandwidth 1.4MHz). c. The center frequency of spectrum is the band edge frequency and span is 1.5MHz. RB of the spectrum is 30kHz and VB of the spectrum is 100kHz (LTE Channel Bandwidth 3MHz). d. The center frequency of spectrum is the band edge frequency and span is 1.5MHz. RB of the spectrum is 62kHz and VB of the spectrum is 200kHz (LTE Channel Bandwidth 5MHz). e. The center frequency of spectrum is the band edge frequency and span is 1.5MHz. RB of the spectrum is 100kHz and VB of the spectrum is 300kHz (LTE Channel Bandwidth 10MHz). f. The center frequency of spectrum is the band edge frequency and span is 1MHz. RB of the spectrum is 150kHz and VB of the spectrum is 470kHz (LTE Channel Bandwidth 15MHz). g. The center frequency of spectrum is the band edge frequency and span is 1MHz. RB of the spectrum is 200kHz and VB of the spectrum is 1MHz (LTE Channel Bandwidth 20MHz). h. Record the max trace plot into the test report. Report No.: RF181015C09-1 Page No. 53 / 97 Report Format Version: 6.1.1 4.5.4 Test Results LTE Band 2, Channel Bandwidth 1.4MHz Channel 18607
(1850.70MHz) QPSK 1 RB / 0 RB Offset Channel 19193
(1909.30MHz) QPSK 1 RB / 5 RB Offset Channel 18607
(1850.70MHz) QPSK 6 RB / 0 RB Offset Channel 19193
(1909.30MHz) QPSK 6 RB / 0 RB Offset Report No.: RF181015C09-1 Page No. 54 / 97 Report Format Version: 6.1.1 LTE Band 2, Channel Bandwidth 3MHz Channel 18615
(1851.50MHz) QPSK 1 RB / 0 RB Offset Channel 19185
(1908.50MHz) QPSK 1 RB / 14 RB Offset Channel 18615
(1851.50MHz) QPSK 15 RB / 0 RB Offset Channel 19185
(1908.50MHz) QPSK 15 RB / 0 RB Offset Report No.: RF181015C09-1 Page No. 55 / 97 Report Format Version: 6.1.1 LTE Band 2, Channel Bandwidth 5MHz Channel 18625
(1852.50MHz) QPSK 1 RB / 0 RB Offset Channel 19175
(1907.50MHz) QPSK 1 RB / 24 RB Offset Channel 18625
(1852.50MHz) QPSK 25 RB / 0 RB Offset Channel 19175
(1907.50MHz) QPSK 25 RB / 0 RB Offset Report No.: RF181015C09-1 Page No. 56 / 97 Report Format Version: 6.1.1 LTE Band 2, Channel Bandwidth 10MHz Channel 18650
(1855.00MHz) QPSK 1 RB / 0 RB Offset Channel 19150
(1905.00MHz) QPSK 1 RB / 49 RB Offset Channel 18650
(1855.00MHz) QPSK 50 RB / 0 RB Offset Channel 19150
(1905.00MHz) QPSK 50 RB / 0 RB Offset Report No.: RF181015C09-1 Page No. 57 / 97 Report Format Version: 6.1.1 LTE Band 2, Channel Bandwidth 15MHz Channel 18675
(1857.50MHz) QPSK 1 RB / 0 RB Offset Channel 19125
(1902.50MHz) QPSK 1 RB / 74 RB Offset Channel 18675
(1857.50MHz) QPSK 75 RB / 0 RB Offset Channel 19125
(1902.50MHz) QPSK 75 RB / 0 RB Offset Report No.: RF181015C09-1 Page No. 58 / 97 Report Format Version: 6.1.1 LTE Band 2, Channel Bandwidth 20MHz Channel 18700
(1860.00MHz) QPSK 1 RB / 0 RB Offset Channel 19100
(1900.00 MHz) QPSK 1 RB / 99 RB Offset Channel 18700
(1860.00MHz) QPSK 100 RB / 0 RB Offset Channel 19100
(1900.00 MHz) QPSK 100 RB / 0 RB Offset Report No.: RF181015C09-1 Page No. 59 / 97 Report Format Version: 6.1.1 4.6 Peak to Average Ratio 4.6.1 Limits of Peak to Average Ratio Measurement In measuring transmissions in this band using an average power technique, the peak to-average ratio (PAR) of the transmission may not exceed 13 dB 4.6.2 Test Setup 4.6.3 Test Procedures 20dB Attenuation PAD Spectrum Analyzer Communication Power Splitter Simulator EUT a. Set resolution/measurement bandwidth signals occupied bandwidth;
b. Set the number of counts to a value that stabilizes the measured CCDF curve;
c. Record the maximum PAPR level associated with a probability of 0.1%. Report No.: RF181015C09-1 Page No. 60 / 97 Report Format Version: 6.1.1 4.6.4 Test Results LTE Band 2, Channel Bandwidth 1.4MHz Channel Frequency (MHz) 18607 18900 19193 1850.7 1880.0 1909.3 QPSK 3.55 3.85 3.00 Peak To Average Ratio (dB) 16QAM 4.85 5.16 4.21 LTE Band 2, Channel Bandwidth 3MHz Channel Frequency (MHz) 18615 18900 19185 1851.5 1880.0 1908.5 QPSK 3.34 3.52 3.09 Peak To Average Ratio (dB) 16QAM 4.71 4.90 4.51 LTE Band 2, Channel Bandwidth 5MHz Channel Frequency (MHz) 18625 18900 19175 1852.5 1880.0 1907.5 QPSK 3.27 3.40 3.43 Peak To Average Ratio (dB) 16QAM 4.62 4.76 4.80 LTE Band 2, Channel Bandwidth 10MHz Channel Frequency (MHz) 18650 18900 19150 1855.0 1880.0 1905.0 QPSK 2.90 3.00 3.07 Peak To Average Ratio (dB) 16QAM 4.36 4.51 4.50 LTE Band 2, Channel Bandwidth 15MHz Channel Frequency (MHz) 18675 18900 19125 1857.5 1880.0 1902.5 QPSK 2.84 2.90 2.97 Peak To Average Ratio (dB) 16QAM 4.27 4.36 4.35 LTE Band 2, Channel Bandwidth 20MHz Peak To Average Ratio (dB) QPSK 2.85 2.84 3.07 16QAM 4.20 4.20 4.42 Channel Frequency (MHz) 18700 18900 19100 1860.0 1880.0 1900.0 Report No.: RF181015C09-1 64QAM 4.76 5.13 3.99 64QAM 4.58 4.79 4.32 64QAM 4.51 4.79 4.73 64QAM 4.33 4.39 4.44 64QAM 4.25 4.31 4.30 64QAM 4.25 4.26 4.46 Page No. 61 / 97 Report Format Version: 6.1.1 1.4MHz / 16QAM Spectrum Plot of Worst Value 3MHz / 16QAM 5MHz / 16QAM 10MHz / 16QAM 15MHz / 16QAM 20MHz / 64QAM Report No.: RF181015C09-1 Page No. 62 / 97 Report Format Version: 6.1.1 4.7 Conducted Spurious Emissions 4.7.1 Limits of Conducted Spurious Emissions Measurement The power of any emission outside of the authorized operating frequency ranges must be attenuated below the transmitting power (P) by a factor of at least 43 + 10 log(P) dB. The emission limit equal to 13dBm. 4.7.2 Test Setup 4.7.3 Test Procedure 20dB Attenuation PAD Spectrum Analyzer Communication Power Splitter Simulator EUT a. The EUT makes a phone call to the communication simulator. All measurements were done at low, middle and high operational frequency range. b. Measuring frequency range is from 9 kHz to 1GHz. 20dB attenuation pad is connected with spectrum. RBW=100kHz and VBW=300kHz is used for conducted emission measurement. c. Measuring frequency range is from 1GHz to 27GHz. 20dB attenuation pad is connected with spectrum. RBW=1MHz and VBW=3MHz is used for conducted emission measurement. Report No.: RF181015C09-1 Page No. 63 / 97 Report Format Version: 6.1.1 4.7.4 Test Results LTE Band 2, Channel Bandwidth 1.4MHz Channel 18607 (1850.70MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Report No.: RF181015C09-1 Page No. 64 / 97 Report Format Version: 6.1.1 LTE Band 2, Channel Bandwidth 1.4MHz Channel 18900 (1880.00MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Report No.: RF181015C09-1 Page No. 65 / 97 Report Format Version: 6.1.1 LTE Band 2, Channel Bandwidth 1.4MHz Channel 19193 (1909.30MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Report No.: RF181015C09-1 Page No. 66 / 97 Report Format Version: 6.1.1 LTE Band 2, Channel Bandwidth 3MHz Channel 18615 (1851.50MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Report No.: RF181015C09-1 Page No. 67 / 97 Report Format Version: 6.1.1 LTE Band 2, Channel Bandwidth 3MHz Channel 18900 (1880.00MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Report No.: RF181015C09-1 Page No. 68 / 97 Report Format Version: 6.1.1 LTE Band 2, Channel Bandwidth 3MHz Channel 19185 (1908.50MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Report No.: RF181015C09-1 Page No. 69 / 97 Report Format Version: 6.1.1 LTE Band 2, Channel Bandwidth 5MHz Channel 18625 (1852.50MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Report No.: RF181015C09-1 Page No. 70 / 97 Report Format Version: 6.1.1 LTE Band 2, Channel Bandwidth 5MHz Channel 18900 (1880.00MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Report No.: RF181015C09-1 Page No. 71 / 97 Report Format Version: 6.1.1 LTE Band 2, Channel Bandwidth 5MHz Channel 19175 (1907.50MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Report No.: RF181015C09-1 Page No. 72 / 97 Report Format Version: 6.1.1 LTE Band 2, Channel Bandwidth 10MHz Channel 18650 (1855.00MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Report No.: RF181015C09-1 Page No. 73 / 97 Report Format Version: 6.1.1 LTE Band 2, Channel Bandwidth 10MHz Channel 18900 (1880.00MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Report No.: RF181015C09-1 Page No. 74 / 97 Report Format Version: 6.1.1 LTE Band 2, Channel Bandwidth 10MHz Channel 19150 (1905.00MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Report No.: RF181015C09-1 Page No. 75 / 97 Report Format Version: 6.1.1 LTE Band 2, Channel Bandwidth 15MHz Channel 18675 (1857.50MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Report No.: RF181015C09-1 Page No. 76 / 97 Report Format Version: 6.1.1 LTE Band 2, Channel Bandwidth 15MHz Channel 18900 (1880.00MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Report No.: RF181015C09-1 Page No. 77 / 97 Report Format Version: 6.1.1 LTE Band 2, Channel Bandwidth 15MHz Channel 19125 (1902.50MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Report No.: RF181015C09-1 Page No. 78 / 97 Report Format Version: 6.1.1 LTE Band 2, Channel Bandwidth 20MHz Channel 18700 (1860.00MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Report No.: RF181015C09-1 Page No. 79 / 97 Report Format Version: 6.1.1 LTE Band 2, Channel Bandwidth 20MHz Channel 18900 (1880.00MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Report No.: RF181015C09-1 Page No. 80 / 97 Report Format Version: 6.1.1 LTE Band 2, Channel Bandwidth 20MHz Channel 19100 (1900.00MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Report No.: RF181015C09-1 Page No. 81 / 97 Report Format Version: 6.1.1 4.8 Radiated Emission Measurement 4.8.1 Limits of Radiated Emission Measurement The power of any emission outside of the authorized operating frequency ranges must be attenuated below the transmitting power (P) by a factor of at least 43 + 10 log(P) dB. The emission limit equal to 13dBm. 4.8.2 Test Procedure a. Substitution method is used for E.I.R.P measurement. In the semi-anechoic chamber, EUT placed on the 0.8m height of Turn Table, rotated the table around 360 degrees to search the maximum radiation power and receiver antenna shall be rotated vertical and horizontal polarization and moved height from 1m to 4m to find the maximum polar radiated power. The Read Value is the spectrum reading the maximum power value. b. The substitution horn antenna is substituted for EUT at the same position and signals generator export the CW signal to the substitution antenna via a TX cable. Rotated the Turn Table and moved receiving antenna to find the maximum radiation power. Adjust output power level of S.G to get a Value of spectrum reading equal to Read Value of step a. Record the power level of S.G c. EIRP = Output power level of S.G TX cable loss + Antenna gain of substitution horn. d. E.R.P power can be calculated form E.I.R.P power by subtracting the gain of dipole, E.R.P power =
E.I.R.P power - 2.15dBi. NOTE: The resolution bandwidth and video bandwidth of test receiver/spectrum analyzer is 1MHz/3MHz. 4.8.3 Deviation from Test Standard No deviation. Report No.: RF181015C09-1 Page No. 82 / 97 Report Format Version: 6.1.1 4.8.4 Test Setup For the actual test configuration, please refer to the attached file (Test Setup Photo). Report No.: RF181015C09-1 Page No. 83 / 97 Report Format Version: 6.1.1 4.8.5 Test Results Below 1GHz LTE Band 2, Channel Bandwidth: 1.4MHz Mode TX channel 18607
(1850.70MHz) Environmental Conditions 25deg. C, 66%RH Tested By Greg Lin Frequency Range Below 1000 MHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 2 3 4 5 6 35.82 106.63 242.43 458.74 753.62 957.32 Reading
(dBm)
-55.2
-42.1
-55.3
-68.3
-68.6
-68.6 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-35.8
-47.9
-60.8
-71.8
-68.5
-63.9
-15.9
-2.2
-1.4 3.5 3.9 3.8
-51.7
-50.1
-62.2
-68.3
-64.6
-60.1
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-38.7
-37.1
-49.2
-55.3
-51.6
-47.1 Remarks:
1. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09-1 Page No. 84 / 97 Report Format Version: 6.1.1 Mode TX channel 18607
(1850.70MHz) Environmental Conditions 25deg. C, 66%RH Tested By Greg Lin Frequency Range Below 1000 MHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 2 3 4 5 6 34.85 180.35 313.24 595.51 835.10 955.38 Reading
(dBm)
-42.2
-45.9
-61.3
-68.5
-68.9
-68.6 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-35.9
-46.4
-65.4
-68.9
-65.5
-63.0
-16.5
-2.9 4.0 3.8 3.8 3.8
-52.4
-49.3
-61.4
-65.1
-61.7
-59.2
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-39.4
-36.3
-48.4
-52.1
-48.7
-46.2 Remarks:
1. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09-1 Page No. 85 / 97 Report Format Version: 6.1.1 LTE Band 2, Channel Bandwidth: 5MHz Mode TX channel 18625
(1852.50MHz) Environmental Conditions 25deg. C, 66%RH Tested By Greg Lin Frequency Range Below 1000 MHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 2 3 4 5 6 30.97 177.44 268.62 538.28 753.62 957.32 Reading
(dBm)
-49.0
-43.3
-58.9
-68.1
-68.6
-68.6 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-26.5
-48.2
-61.5
-71.6
-68.5
-63.9
-18.8
-3.0
-1.5 3.8 3.9 3.8
-45.3
-51.2
-63.0
-67.8
-64.6
-60.1
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-32.3
-38.2
-50.0
-54.8
-51.6
-47.1 Remarks:
1. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09-1 Page No. 86 / 97 Report Format Version: 6.1.1 Mode TX channel 18625
(1852.50MHz) Environmental Conditions 25deg. C, 66%RH Tested By Greg Lin Frequency Range Below 1000 MHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 2 3 4 5 6 30.00 172.59 260.86 432.55 649.83 950.53 Reading
(dBm)
-44.8
-47.7
-65.3
-67.6
-68.6
-69.1 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-35.3
-48.3
-62.8
-71.3
-66.7
-63.5
-19.4
-2.9
-1.5 3.5 3.6 3.7
-54.7
-51.2
-64.3
-67.8
-63.1
-59.8
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-41.7
-38.2
-51.3
-54.8
-50.1
-46.8 Remarks:
1. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09-1 Page No. 87 / 97 Report Format Version: 6.1.1 LTE Band 2, Channel Bandwidth: 20MHz Mode TX channel 18700
(1860.00MHz) Environmental Conditions 25deg. C, 66%RH Tested By Greg Lin Frequency Range Below 1000 MHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 2 3 4 5 6 32.91 175.50 246.31 541.19 728.40 925.31 Reading
(dBm)
-49.3
-43.9
-54.8
-68.4
-67.8
-68.0 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-28.5
-48.7
-60.1
-71.9
-67.7
-63.5
-17.7
-2.8
-1.6 3.9 3.6 3.7
-46.2
-51.5
-61.7
-68.0
-64.1
-59.8
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-33.2
-38.5
-48.7
-55.0
-51.1
-46.8 Remarks:
1. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09-1 Page No. 88 / 97 Report Format Version: 6.1.1 Mode TX channel 18700
(1860.00MHz) Environmental Conditions 25deg. C, 66%RH Tested By Greg Lin Frequency Range Below 1000 MHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 2 3 4 5 6 62.98 176.47 276.38 440.31 692.51 950.53 Reading
(dBm)
-36.5
-43.8
-67.3
-68.2
-67.2
-67.5 S.G Power Value (dBm)
-40.8
-44.6
-62.4
-71.7
-65.0
-61.9 Correction Factor (dB) EIRP (dBm)
-2.4
-2.9
-1.6 3.5 3.6 3.7
-43.2
-47.5
-64.0
-68.2
-61.4
-58.2 Remarks:
1. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Limit (dBm) Margin (dB)
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-30.2
-34.5
-51.0
-55.2
-48.4
-45.2 Report No.: RF181015C09-1 Page No. 89 / 97 Report Format Version: 6.1.1 Above 1GHz LTE Band 2, Channel Bandwidth: 1.4MHz Mode TX channel 18607
(1850.70MHz) Environmental Conditions 25deg. C, 66%RH Tested By Han Wu Frequency Range 1GHz ~ 18GHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 3701.40 Reading
(dBm)
-57.5 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-49.0 1.4
-47.6
-13.0
-34.6 No. Freq. (MHz) 1 3701.40 Reading
(dBm)
-58.4 Antenna Polarity & Test Distance: Vertical at 3 M Correction Factor (dB) EIRP (dBm) S.G Power Value (dBm) Limit (dBm) Margin (dB)
-50.2 1.4
-48.8
-13.0
-35.8 Remarks:
1. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Mode TX channel 18900
(1880.00MHz) Environmental Conditions 25deg. C, 66%RH Tested By Han Wu Frequency Range 1GHz ~ 18GHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 3760.00 Reading
(dBm)
-57.1 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-48.6 1.3
-47.3
-13.0
-34.3 No. Freq. (MHz) 1 3760.00 Reading
(dBm)
-58.0 Antenna Polarity & Test Distance: Vertical at 3 M Correction Factor (dB) EIRP (dBm) S.G Power Value (dBm) Limit (dBm) Margin (dB)
-49.7 1.3
-48.4
-13.0
-35.4 Remarks:
1. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09-1 Page No. 90 / 97 Report Format Version: 6.1.1 Mode TX channel 19193
(1909.30MHz) Environmental Conditions 25deg. C, 66%RH Tested By Han Wu Frequency Range 1GHz ~ 18GHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 3818.60 Reading
(dBm)
-57.7 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-49.4 1.4
-48.0
-13.0
-35.0 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 3818.60 Reading
(dBm)
-58.4 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-50.2 1.4
-48.8
-13.0
-35.8 Remarks:
1. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09-1 Page No. 91 / 97 Report Format Version: 6.1.1 LTE Band 2, Channel Bandwidth: 5MHz Mode TX channel 18625
(1852.50MHz) Environmental Conditions 25deg. C, 66%RH Tested By Han Wu Frequency Range 1GHz ~ 18GHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 3705.00 Reading
(dBm)
-56.9 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-48.4 1.4
-47.0
-13.0
-34.0 No. Freq. (MHz) 1 3705.00 Reading
(dBm)
-58.0 Antenna Polarity & Test Distance: Vertical at 3 M Correction Factor (dB) EIRP (dBm) S.G Power Value (dBm) Limit (dBm) Margin (dB)
-49.8 1.4
-48.4
-13.0
-35.4 Remarks:
1. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Mode TX channel 18900
(1880.00MHz) Environmental Conditions 25deg. C, 66%RH Tested By Han Wu Frequency Range 1GHz ~ 18GHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 3760.00 Reading
(dBm)
-56.8 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-48.3 1.3
-47.0
-13.0
-34.0 No. Freq. (MHz) 1 3760.00 Reading
(dBm)
-58.5 Antenna Polarity & Test Distance: Vertical at 3 M Correction Factor (dB) EIRP (dBm) S.G Power Value (dBm) Limit (dBm) Margin (dB)
-50.2 1.3
-48.9
-13.0
-35.9 Remarks:
1. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09-1 Page No. 92 / 97 Report Format Version: 6.1.1 Mode TX channel 19175
(1907.50MHz) Environmental Conditions 25deg. C, 66%RH Tested By Han Wu Frequency Range 1GHz ~ 18GHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 3815.00 Reading
(dBm)
-57.5 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-49.2 1.4
-47.8
-13.0
-34.8 No. Freq. (MHz) 1 3815.00 Reading
(dBm)
-58.3 Antenna Polarity & Test Distance: Vertical at 3 M Correction Factor (dB) EIRP (dBm) S.G Power Value (dBm) Limit (dBm) Margin (dB)
-50.1 1.4
-48.7
-13.0
-35.7 Remarks:
1. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09-1 Page No. 93 / 97 Report Format Version: 6.1.1 LTE Band 2, Channel Bandwidth: 20MHz Mode TX channel 18700
(1860.00MHz) Environmental Conditions 25deg. C, 66%RH Tested By Han Wu Frequency Range 1GHz ~ 18GHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 3720.00 Reading
(dBm)
-57.1 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-48.6 1.4
-47.2
-13.0
-34.2 No. Freq. (MHz) 1 3720.00 Reading
(dBm)
-58.3 Antenna Polarity & Test Distance: Vertical at 3 M Correction Factor (dB) EIRP (dBm) S.G Power Value (dBm) Limit (dBm) Margin (dB)
-50.1 1.4
-48.7
-13.0
-35.7 Remarks:
1. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Mode TX channel 18900
(1880.00MHz) Environmental Conditions 25deg. C, 66%RH Tested By Han Wu Frequency Range 1GHz ~ 18GHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 3760.00 Reading
(dBm)
-57.2 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-48.7 1.3
-47.4
-13.0
-34.4 No. Freq. (MHz) 1 3760.00 Reading
(dBm)
-58.2 Antenna Polarity & Test Distance: Vertical at 3 M Correction Factor (dB) EIRP (dBm) S.G Power Value (dBm) Limit (dBm) Margin (dB)
-49.9 1.3
-48.6
-13.0
-35.6 Remarks:
1. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09-1 Page No. 94 / 97 Report Format Version: 6.1.1 Mode TX channel 19100
(1900.00MHz) Environmental Conditions 25deg. C, 66%RH Tested By Han Wu Frequency Range 1GHz ~ 18GHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 3800.00 Reading
(dBm)
-57.5 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-49.1 1.3
-47.8
-13.0
-34.8 No. Freq. (MHz) 1 3800.00 Reading
(dBm)
-58.8 Antenna Polarity & Test Distance: Vertical at 3 M Correction Factor (dB) EIRP (dBm) S.G Power Value (dBm) Limit (dBm) Margin (dB)
-50.6 1.3
-49.3
-13.0
-36.3 Remarks:
1. EIRP (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09-1 Page No. 95 / 97 Report Format Version: 6.1.1 5 Pictures of Test Arrangements Please refer to the attached file (Test Setup Photo). Report No.: RF181015C09-1 Page No. 96 / 97 Report Format Version: 6.1.1 Appendix Information on the Testing Laboratories We, Bureau Veritas Consumer Products Services (H.K.) Ltd., Taoyuan Branch, were founded in 1988 to provide our best service in EMC, Radio, Telecom and Safety consultation. Our laboratories are FCC recognized accredited test firms and accredited and approved according to ISO/IEC 17025. If you have any comments, please feel free to contact us at the following:
Linko EMC/RF Lab Tel: 886-2-26052180 Fax: 886-2-26051924 Hwa Ya EMC/RF/Safety Lab Tel: 886-3-3183232 Fax: 886-3-3270892 Email: service.adt@tw.bureauveritas.com Web Site: www.bureauveritas-adt.com Hsin Chu EMC/RF/Telecom Lab Tel: 886-3-6668565 Fax: 886-3-6668323 The address and road map of all our labs can be found in our web site also.
--- END ---
Report No.: RF181015C09-1 Page No. 97 / 97 Report Format Version: 6.1.1
1 2 3 4 | Part 27 report | Test Report | 5.47 MiB | / June 06 2019 |
FCC Test Report
(Part 27) Report No.: RF181015C09-2 FCC ID: PY318300428 Test Model: MR5000 Received Date: Oct. 15, 2018 Test Date: Oct. 23 ~ Nov. 05, 2018 Issued Date: Nov. 15, 2018 Applicant: NETGEAR INC. Address: 350 East Plumeria Drive, San Jose, CA 95134, USA Issued By: Bureau Veritas Consumer Products Services (H.K.) Ltd., Taoyuan Branch Lab Address: No. 47-2, 14th Ling, Chia Pau Vil., Lin Kou Dist., New Taipei City, Taiwan, R.O.C. Test Location: No. 19, Hwa Ya 2nd Rd., Wen Hwa Vil., Kwei Shan Dist., Taoyuan City 33383, TAIWAN (R.O.C.) This report is for your exclusive use. Any copying or replication of this report to or for any other person or entity, or use of our name or trademark, is permitted only with our prior written permission. This report sets forth our findings solely with respect to the test samples identified herein. The results set forth in this report are not indicative or representative of the quality or characteristics of the lot from which a test sample was taken or any similar or identical product unless specifically and expressly noted. Our report includes all of the tests requested by you and the results thereof based upon the information that you provided to us. You have 60 days from date of issuance of this report to notify us of any material error or omission caused by our negligence, provided, however, that such notice shall be in writing and shall specifically address the issue you wish to raise. A failure to raise such issue within the prescribed time shall constitute your unqualified acceptance of the completeness of this report, the tests conducted and the correctness of the report contents. Unless specific mention, the uncertainty of measurement has been explicitly taken into account to declare the compliance or non-compliance to the specification. The report must not be used by the client to claim product certification, approval, or endorsement by TAF or any government agencie Report No.: RF181015C09-2 Page No. 1 / 257 Report Format Version: 6.1.1 Table of Contents 4 3 Release Control Record .................................................................................................................................. 4 1 Certificate of Conformity ...................................................................................................................... 5 Summary of Test Results ..................................................................................................................... 6 2 2.1 Measurement Uncertainty ................................................................................................................... 6 2.2 Test Site and Instruments .................................................................................................................... 7 General Information .............................................................................................................................. 8 3.1 General Description of EUT ................................................................................................................ 8 3.2 Configuration of System under Test ................................................................................................... 11 3.2.1 Description of Support Units ............................................................................................................... 11 Test Mode Applicability and Tested Channel Detail .......................................................................... 12 3.3 3.4 EUT Operating Conditions ................................................................................................................ 19 3.5 General Description of Applied Standards ........................................................................................ 19 Test Types and Results ...................................................................................................................... 20 4.1 Output Power Measurement ............................................................................................................. 20 4.1.1 Limits of Output Power Measurement ............................................................................................... 20 4.1.2 Test Procedures ................................................................................................................................. 20 4.1.3 Test Setup .......................................................................................................................................... 21 4.1.4 Test Results ....................................................................................................................................... 22 4.2 Modulation Characteristics Measurement ......................................................................................... 91 4.2.1 Limits of Modulation Characteristics .................................................................................................. 91 4.2.2 Test Procedure .................................................................................................................................. 91 4.2.3 Test Setup .......................................................................................................................................... 91 4.2.4 Test Results ....................................................................................................................................... 92 4.3 Frequency Stability Measurement .................................................................................................... 96 4.3.1 Limits of Frequency Stability Measurement ...................................................................................... 96 4.3.2 Test Procedure .................................................................................................................................. 96 4.3.3 Test Setup .......................................................................................................................................... 96 4.3.4 Test Results ....................................................................................................................................... 97 4.4 Emission Bandwidth Measurement .................................................................................................. 115 4.4.1 Limits of Emission Bandwidth Measurement ................................................................................... 115 4.4.2 Test Procedure ................................................................................................................................. 115 4.4.3 Test Setup ......................................................................................................................................... 115 4.4.4 Test Result ........................................................................................................................................ 116 4.5 Band Edge Measurement ............................................................................................................... 128 4.5.1 Limits of Band Edge Measurement ................................................................................................. 128 4.5.2 Test Setup ........................................................................................................................................ 128 4.5.3 Test Procedures ............................................................................................................................... 129 4.5.4 Test Results ..................................................................................................................................... 130 4.6 Peak to Average Ratio .................................................................................................................... 150 4.6.1 Limits of Peak to Average Ratio Measurement ............................................................................... 150 4.6.2 Test Setup ........................................................................................................................................ 150 4.6.3 Test Procedures ............................................................................................................................... 150 4.6.4 Test Results ..................................................................................................................................... 151 4.7 Conducted Spurious Emissions ...................................................................................................... 159 4.7.1 Limits of Conducted Spurious Emissions Measurement ................................................................. 159 4.7.2 Test Setup ........................................................................................................................................ 159 4.7.3 Test Procedure ................................................................................................................................ 159 4.7.4 Test Results ..................................................................................................................................... 160 4.8 Radiated Emission Measurement ................................................................................................... 212 4.8.1 Limits of Radiated Emission Measurement ..................................................................................... 212 4.8.2 Test Procedure ................................................................................................................................ 212 4.8.3 Deviation from Test Standard .......................................................................................................... 212 4.8.4 Test Setup ........................................................................................................................................ 213 Report No.: RF181015C09-2 Page No. 2 / 257 Report Format Version: 6.1.1 4.8.5 Test Results ..................................................................................................................................... 214 5 Pictures of Test Arrangements ........................................................................................................ 256 Appendix Information on the Testing Laboratories .............................................................................. 257 Report No.: RF181015C09-2 Page No. 3 / 257 Report Format Version: 6.1.1 Release Control Record Issue No. RF181015C09-2 Description Original release Date Issued Nov. 15, 2018 Report No.: RF181015C09-2 Page No. 4 / 257 Report Format Version: 6.1.1 1 Certificate of Conformity Product: 5G MHS Travel Router Brand: Netgear Test Model: MR5000 Sample Status: Engineering sample Applicant: NETGEAR INC. Test Date: Oct. 23 ~ Nov. 05, 2018 Standards: FCC Part 27, Subpart C, D, L, H The above equipment has been tested by Bureau Veritas Consumer Products Services (H.K.) Ltd., Taoyuan Branch, and found compliance with the requirement of the above standards. The test record, data evaluation & Equipment Under Test (EUT) configurations represented herein are true and accurate accounts of the measurements of the samples RF characteristics under the conditions specified in this report. Prepared by :
:
Approved by Pettie Chen / Senior Specialist
, Date:
Nov. 15, 2018
, Date:
Nov. 15, 2018 Bruce Chen / Project Engineer Report No.: RF181015C09-2 Page No. 5 / 257 Report Format Version: 6.1.1 2 Summary of Test Results Applied Standard: FCC Part 27 & Part 2 FCC Clause LTE Band 4 LTE Band 12 LTE Band 30 LTE Band 66 2.1046 27.50 (d)(4) 2.1046 27.50(c)(10) 2.1046 27.50(a)(3) 2.1046 27.50 (d)(4) 2.1047 2.1047 2.1047 2.1047 Test Item Result Remarks Equivalent Isotropically Radiated Power or Effective radiated power Modulation Characteristics Pass Meet the requirement of limit. Pass Meet the requirement. 27.50(d)(5) 2.1055 27.54 2.1049 27.53(h)(3) 2.1051 27.53(h) 2.1051 27.53(h) 2.1053 27.53(h)
----
2.1055 27.54 2.1049 2.1051 27.53(g) 2.1051 27.53(g) 2.1053 27.53(g)
----
27.50(d)(5) Peak To Average Ratio Pass Meet the requirement of limit. 2.1055 27.54 2.1049 2.1051 27.53(a)(4) 2.1051 27.53(a)(4) 2.1053 27.53(a)(4) Frequency Stability 2.1055 Stay with the authorized 27.54 bands of operation 2.1049 27.53(h)(3) Emission Bandwidth 2.1051 27.53(h) 2.1051 27.53(h) 2.1053 27.53(h) Band Edge Measurements Conducted Spurious Emissions Radiated Spurious Emissions Pass Meet the requirement of limit. Pass Meet the requirement of limit. Pass Meet the requirement of limit. Pass Meet the requirement of limit. Meet the requirement of limit. Minimum passing margin is
-1.3dB at 30.00MHz. Pass 2.1 Measurement Uncertainty Where relevant, the following measurement uncertainty levels have been estimated for tests performed on the EUT as specified in CISPR 16-4-2:
Measurement Radiated Emissions up to 1 GHz Radiated Emissions above 1 GHz Frequency 30MHz ~ 200MHz 200MHz ~1000MHz 1GHz ~ 18GHz 18GHz ~ 40GHz Expanded Uncertainty
(k=2) () 3.59 dB 3.60 dB 2.29 dB 2.29 dB Report No.: RF181015C09-2 Page No. 6 / 257 Report Format Version: 6.1.1 2.2 Test Site and Instruments Description &
Manufacturer Model No. Serial No. Cal. Date Cal. Due Feb. 22, 2018 Feb. 21, 2019 Aug. 08, 2018 Aug. 07, 2019 Apr. 11, 2018 Apr. 10, 2019 May 29, 2018 May 28, 2019 Dec. 11, 2017 Dec. 10, 2018 Dec. 12, 2017 Dec. 11, 2018 Dec. 01, 2017 Nov. 30, 2018 Jun. 14, 2018 Jun. 13, 2019 45745 8449B 8447D FSP40 100269 N9038A 9168-148 HLA 6121 VULB9168 BBHA 9170 9120D-1169 2944A10638 3008A01638 MY55420137 BBHA 9120 D BBHA9170241 SUCOFLEX 104 CABLE-CH9-02
(248780+171006) SUCOFLEX 104 &
EMC104-SM-SM8000 Test Receiver KEYSIGHT Spectrum Analyzer ROHDE & SCHWARZ BILOG Antenna SCHWARZBECK HORN Antenna SCHWARZBECK HORN Antenna SCHWARZBECK Loop Antenna TESEQ Preamplifier Agilent
(Below 1GHz) Preamplifier Agilent
(Above 1GHz) RF signal cable HUBER+SUHNER&EMCI RF signal cable HUBER+SUHNER RF signal cable Woken Software BV ADT Antenna Tower EMCO Turn Table EMCO Antenna Tower &Turn BV ADT Turn Table BV ADT Turn Table Controller BV ADT Boresight Antenna Fixture Turn Table Controller BV ADT Temperature And Humidity Chamber TERCHY JFW 20dB attenuation Radio Communication Analyzer Note: 1. The calibration interval of the above test instruments is 12 months and the calibrations are SC93021705 FBA-SIP01 SC93021702 SC100 FBA-01 SC100 V7.6.15.9.5 2070/2080 ADT_Radiated_ 50HF-020-SMA Cable-CH9-01 NA NA NA 512.835.4684 Jul. 31, 2018 TT93021705 AT93021705 HRM-120RF 6261786083 2087-2.03 MT8821C 931022 8D-FB TT100 AT100 NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA CABLE-CH9-(250795/4) Aug. 08, 2018 Aug. 07, 2019 Dec. 21, 2017 Dec. 20, 2018 Nov. 20, 2017 Nov. 19, 2018 Jan. 15, 2018 Jan. 14, 2019 Jul. 30, 2019 traceable to NML/ROC and NIST/USA. 2. The test was performed in HwaYa Chamber 9. 3. The FCC Designation Number is TW0003. The number will be varied with the Lab location and scope as attached. 4. The IC Site Registration No. is IC 7450F-9. Report No.: RF181015C09-2 Page No. 7 / 257 Report Format Version: 6.1.1 3 General Information 3.1 General Description of EUT 5G MHS Travel Router Netgear MR5000 Product Brand Test Model Status of EUT Engineering sample Power Supply Rating Modulation Type 5.0Vdc or 9.0Vdc (adapter) 3.85Vdc (battery) QPSK, 16QAM, 64QAM Operating Frequency LTE Band 4 LTE Band 12 LTE Band 30 LTE Band 66 Channel Bandwidth 1.4MHz 1710.7MHz ~ 1754.3MHz Channel Bandwidth 3MHz 1711.5MHz ~ 1753.5MHz Channel Bandwidth 5MHz 1712.5MHz ~ 1752.5MHz Channel Bandwidth 10MHz 1715.0MHz ~ 1750.0MHz Channel Bandwidth 15MHz 1717.5MHz ~ 1747.5MHz Channel Bandwidth 20MHz 1720.0MHz ~ 1745.0MHz Channel Bandwidth 1.4MHz 699.7MHz ~ 715.3MHz Channel Bandwidth 3MHz 700.5MHz ~ 714.5MHz Channel Bandwidth 5MHz 701.5MHz ~ 713.5MHz Channel Bandwidth 10MHz 704.0MHz ~ 711.0MHz Channel Bandwidth 5MHz Channel Bandwidth 10MHz 2310.0MHz Channel Bandwidth 1.4MHz 1710.7MHz ~ 1779.3MHz Channel Bandwidth 3MHz 1711.5MHz ~ 1778.5MHz Channel Bandwidth 5MHz 1712.5MHz ~ 1775.00MHz Channel Bandwidth 10MHz 1715.0MHz ~ 1772.5MHz Channel Bandwidth 15MHz 1717.5MHz ~ 1747.5MHz Channel Bandwidth 20MHz 1720.0MHz ~ 1770.0MHz 16QAM 2307.5MHz ~ 2312.5 MHz QPSK 64QAM LTE Band 4 Max. EIRP Power Channel Bandwidth 1.4MHz Channel Bandwidth 3MHz Channel Bandwidth 5MHz Channel Bandwidth 10MHz Channel Bandwidth 15MHz Channel Bandwidth 20MHz LTE Band 30 Channel Bandwidth 5MHz Channel Bandwidth 10MHz 389.045mW
(25.9dBm) 363.078mW
(25.6dBm) 316.228mW
(25.0dBm) 371.535mW
(25.7dBm) 331.131mW
(25.2dBm) 380.189mW
(25.8dBm) 199.526mW 309.030mW
(24.9dBm) 288.403mW
(24.6dBm) 251.189mW
(24.0dBm) 288.403mW
(24.6dBm) 257.040mW
(24.1dBm) 309.030mW
(24.9dBm) 173.780mW 275.423mW
(24.4dBm) 263.027mW
(24.2dBm) 234.423mW
(23.7dBm) 263.027mW
(24.2dBm) 234.423mW
(23.7dBm) 275.423mW
(24.4dBm) 154.882mW
(23.0dBm/5MHz)
(22.4dBm/5MHz)
(21.9dBm/5MHz) 218.776mW 173.780mW 154.882mW
(23.4dBm/5MHz)
(22.4dBm/5MHz)
(21.9dBm/5MHz) Report No.: RF181015C09-2 Page No. 8 / 257 Report Format Version: 6.1.1 Max. EIRP Power Channel Bandwidth 1.4MHz Channel Bandwidth 3MHz LTE Band Channel Bandwidth 5MHz 66 Channel Bandwidth 10MHz Channel Bandwidth 15MHz Channel Bandwidth 20MHz Channel Bandwidth 1.4MHz Max. ERP Power LTE Band 12 Channel Bandwidth 3MHz Channel Bandwidth 5MHz Emission Designator LTE Band 4 LTE Band 12 LTE Band 30 LTE Band 66 Channel Bandwidth 10MHz Channel Bandwidth 1.4MHz Channel Bandwidth 3MHz Channel Bandwidth 5MHz Channel Bandwidth 10MHz Channel Bandwidth 15MHz Channel Bandwidth 20MHz Channel Bandwidth 1.4MHz Channel Bandwidth 3MHz Channel Bandwidth 5MHz Channel Bandwidth 10MHz Channel Bandwidth 5MHz Channel Bandwidth 10MHz Channel Bandwidth 1.4MHz Channel Bandwidth 3MHz Channel Bandwidth 5MHz Channel Bandwidth 10MHz Channel Bandwidth 15MHz Channel Bandwidth 20MHz QPSK 660.693mW
(28.2dBm) 660.693mW
(28.2dBm) 616.595mW
(27.9dBm) 660.693mW
(28.2dBm) 645.654mW
(28.1dBm) 616.595mW
(27.9dBm) 102.329mW
(20.1dBm) 91.201mW
(19.6dBm) 91.201mW
(19.6dBm) 93.325mW
(19.7dBm) QPSK 1M09G7D 2M70G7D 4M49G7D 8M97G7D 13M4G7D 17M9G7D 1M09G7D 2M70G7D 4M49G7D 8M97G7D 4M49G7D 8M94G7D 1M09G7D 2M70G7D 4M49G7D 8M97G7D 13M4G7D 18M0G7D 16QAM 537.032mW
(27.3dBm) 524.807mW
(27.2dBm) 478.630mW
(26.8dBm) 549.541mW
(27.4dBm) 537.032mW
(27.3dBm) 478.630mW
(26.8dBm) 87.096mW
(19.4dBm) 81.283mW
(19.1dBm) 81.283mW
(19.1dBm) 79.433mW
(19.0dBm) 16QAM 1M09W7D 2M70W7D 4M49W7D 8M97W7D 13M4W7D 18M0W7D 1M09W7D 2M70W7D 4M49W7D 8M97W7D 4M49W7D 8M94W7D 1M09W7D 2M70W7D 4M49W7D 8M98W7D 13M4W7D 18M0W7D 64QAM 489.779mW
(26.9dBm) 467.735mW
(26.7dBm) 436.516mW
(26.4dBm) 478.630mW
(26.8dBm) 467.735mW
(26.7dBm) 416.869mW
(26.2dBm) 81.283mW
(19.1dBm) 74.131mW
(18.7dBm) 74.131mW
(18.7dBm) 74.131mW
(18.7dBm) 64QAM 1M09W7D 2M70W7D 4M49W7D 8M96W7D 13M4W7D 18M0W7D 1M09W7D 2M70W7D 4M49W7D 8M97W7D 4M50W7D 8M94W7D 1M09W7D 2M70W7D 4M50W7D 8M97W7D 13M4W7D 18M0W7D Antenna Type Antenna Connector Accessory Device Data Cable Supplied LTE Band 4: Internal IFA antenna with 2.27dBi LTE Band 12: Internal IFA antenna with 0.66dBi LTE Band 30: Internal IFA antenna with 1.64dBi LTE Band 66: Internal IFA antenna with 2.27dBi NA Adapter, battery 0.95m shielded USB cable without core Report No.: RF181015C09-2 Page No. 9 / 257 Report Format Version: 6.1.1 Note:
1. The EUT consumes power from the following adapter and battery. Adapter Brand Model P/N Input Output Lithium ion battery Brand Model P/N Rating NETGEAR AD2122F20 332-11106-01 100-240Vac, 50/60Hz, 0.5A 5.0Vdc, 2.0A or 9Vdc /1.8A NETGEAR W-10a 308-10084-01 3.85Vdc, 19.78Wh, 5040mAh Report No.: RF181015C09-2 Page No. 10 / 257 Report Format Version: 6.1.1 EUT Adapter (EUT) Configuration of System under Test 3.2 3.2.1 Description of Support Units The EUT has been tested as an independent unit together with other necessary accessories or support units. The following support units or accessories were used to form a representative test configuration during the tests. Communication Remote site Tester (A) Radio DC ID A. Product Radio Brand Model No. Serial No. FCC ID Remarks Communication Anritsu MT8820C 6201010284 NA
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Tester Note:
1. All power cords of the above support units are non-shielded (1.8m). 2. Item A acted as a communication partner to transfer data. Report No.: RF181015C09-2 Page No. 11 / 257 Report Format Version: 6.1.1 3.3 Test Mode Applicability and Tested Channel Detail Pre-Scan has been conducted to determine the worst-case mode from all possible combinations between available modulations, data rates, XYZ axis and antenna ports. The worst case was found when positioned on X-plane. Following channel(s) was (were) selected for the final test as listed below:
LTE Band 4 EUT Configure Mode
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Test Item Available Channel EIRP 19957 to 20393 19965 to 20385 19975 to 20375 20000 to 20350 20025 to 20325 20050 to 20300 Tested Channel 19957(1710.7MHz), 20175(1732.5MHz), 20393(1754.3MHz) 19965(1711.5MHz), 20175(1732.5MHz), 20385(1753.5MHz) 19975(1712.5MHz), 20175(1732.5MHz), 20375(1752.5MHz) 20000(1715.0MHz), 20175(1732.5MHz), 20350(1750.0MHz) 20025(1717.5MHz), 20175(1732.5MHz), 20325(1747.5MHz) 20050(1720.0MHz), 20175(1732.5MHz), 20300(1745.0MHz) Channel Bandwidth 1.4MHz 3MHz 5MHz 10MHz 15MHz 20MHz Modulation Characteristics 20050 to 20300 20175(1732.5MHz) 20MHz 19957 to 20393 19957 to 20393 19957(1710.7MHz), 20393(1754.3MHz) 19965 to 20385 19965(1711.5MHz), 20385(1753.5MHz) 19975 to 20375 19975(1712.5MHz), 20375(1752.5MHz) 20000 to 20350 20000(1715.0MHz), 20350(1750.0MHz) 20025 to 20325 20025(1717.5MHz), 20325(1747.5MHz) 20050 to 20300 20050(1720.0MHz), 20300(1745.0MHz) 19957(1710.7MHz), 20175(1732.5MHz), 20393(1754.3MHz) 19965(1711.5MHz), 20175(1732.5MHz), 20385(1753.5MHz) 19975(1712.5MHz), 20175(1732.5MHz), 20375(1752.5MHz) 20000(1715.0MHz), 20175(1732.5MHz), 20350(1750.0MHz) 20025(1717.5MHz), 20175(1732.5MHz), 20325(1747.5MHz) 20050(1720.0MHz), 20175(1732.5MHz), 20300(1745.0MHz) 20000 to 20350 20025 to 20325 20050 to 20300 19965 to 20385 19975 to 20375 1.4MHz 3MHz 5MHz 10MHz 15MHz 20MHz 1.4MHz 3MHz 5MHz 10MHz 15MHz 20MHz Frequency Stability
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Emission Bandwidth Modulation Mode QPSK /
16QAM /
64QAM QPSK /
16QAM /
64QAM QPSK /
16QAM /
64QAM QPSK /
16QAM /
64QAM QPSK /
16QAM /
64QAM QPSK /
16QAM /
64QAM QPSK /
16QAM /
64QAM QPSK QPSK QPSK QPSK QPSK QPSK QPSK /
16QAM /
64QAM QPSK /
16QAM /
64QAM QPSK /
16QAM /
64QAM QPSK /
16QAM /
64QAM QPSK /
16QAM /
64QAM QPSK /
16QAM /
64QAM 1 RB / 0 RB Offset 1 RB / 0 RB Offset 1 RB / 0 RB Offset 1 RB / 0 RB Offset 1 RB / 0 RB Offset 1 RB / 0 RB Offset 100 RB / 0 RB Offset 1 RB / 0 RB Offset 1 RB / 0 RB Offset 1 RB / 0 RB Offset 1 RB / 0 RB Offset 1 RB / 0 RB Offset 1 RB / 0 RB Offset 6 RB / 0 RB Offset 15 RB / 0 RB Offset 25 RB / 0 RB Offset 50 RB / 0 RB Offset 75 RB / 0 RB Offset 100 RB / 0 RB Offset Report No.: RF181015C09-2 Page No. 12 / 257 Report Format Version: 6.1.1 Test Item Available Channel Tested Channel Channel Bandwidth Modulation Mode EUT Configure Mode
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Band Edge 19957 to 20393 19957(1710.7MHz), 20393(1754.3MHz) 19965 to 20385 19965(1711.5MHz), 20385(1753.5MHz) 19975 to 20375 19975(1712.5MHz), 20375(1752.5MHz) 20000 to 20350 20000(1715.0MHz), 20350(1750.0MHz) 20025 to 20325 20025(1717.5MHz), 20325(1747.5MHz)
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Conducted Emission 19957 to 20393 19975 to 20375 19965 to 20385 20050 to 20300 20050(1720.0MHz), 20300(1745.0MHz) 19957(1710.7MHz), 20175(1732.5MHz), 20393(1754.3MHz) 19965(1711.5MHz), 20175(1732.5MHz), 20385(1753.5MHz) 19975(1712.5MHz), 20175(1732.5MHz), 20375(1752.5MHz) 20000(1715.0MHz), 20175(1732.5MHz), 20350(1750.0MHz) 20025(1717.5MHz), 20175(1732.5MHz), 20325(1747.5MHz) 20050(1720.0MHz), 20175(1732.5MHz), 20300(1745.0MHz) 19957(1710.7MHz) 19957 to 20393 20000 to 20350 20025 to 20325 20050 to 20300
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Radiated Emission Below 1GHz 19975 to 20375 19975(1712.5MHz) 20050 to 20300 19957 to 20393 Radiated Emission Above 1GHz 19975 to 20375 20050 to 20300 20050(1720.0MHz) 19957(1710.7MHz), 20175(1732.5MHz), 20393(1754.3MHz) 19975(1712.5MHz), 20175(1732.5MHz), 20375(1752.5MHz) 20050(1720.0MHz), 20175(1732.5MHz), 20300(1745.0MHz) 1.4MHz QPSK 3MHz QPSK 5MHz QPSK 10MHz QPSK 15MHz QPSK 20MHz QPSK 1 RB / 0 RB Offset 1 RB / 5 RB Offset 6 RB / 0 RB Offset 1 RB / 0 RB Offset 1 RB / 14 RB Offset 15 RB / 0 RB Offset 1 RB / 0 RB Offset 1 RB / 24 RB Offset 25 RB / 0 RB Offset 1 RB / 0 RB Offset 1 RB / 49 RB Offset 50 RB / 0 RB Offset 1 RB / 0 RB Offset 1 RB / 74 RB Offset 75 RB / 0 RB Offset 1 RB / 0 RB Offset 1 RB / 99 RB Offset 100 RB / 0 RB Offset 1.4MHz QPSK 6 RB / 0 RB Offset 3MHz QPSK 15 RB / 0 RB Offset 5MHz QPSK 25 RB / 0 RB Offset 10MHz QPSK 50 RB / 0 RB Offset 15MHz QPSK 75 RB / 0 RB Offset 20MHz QPSK 100 RB / 0 RB Offset 1.4MHz 5MHz 20MHz QPSK QPSK QPSK 1 RB / 0 RB Offset 1 RB / 0 RB Offset 1 RB / 0 RB Offset 1.4MHz QPSK 1 RB / 0 RB Offset 5MHz QPSK 1 RB / 0 RB Offset 20MHz QPSK 1 RB / 0 RB Offset Report No.: RF181015C09-2 Page No. 13 / 257 Report Format Version: 6.1.1 Test item Available channel Tested channel Channel Bandwidth Modulation Mode LTE Band 12 EUT Configure Mode
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ERP Modulation Characteristics Frequency Stability Emission Bandwidth
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Band Edge 23017 to 23171 23025 to 23165 23035 to 23155 23060 to 23130 23060 to 23130 23017 to 23171 23025 to 23165 23035 to 23155 23060 to 23130 23017 to 23171 23025 to 23165 23035 to 23155 23060 to 23130 23017 to 23171 23025 to 23165 23035 to 23155 23060 to 23130 23017(699.7MHz), 23095(707.5MHz), 23173(715.3MHz) 23025(700.5MHz), 23095(707.5MHz), 23165(714.5MHz) 23035(701.5MHz), 23095(707.5MHz), 23155(713.5MHz) 23060(704.0MHz), 23095(707.5 MHz), 23130(711.0 MHz) 23095(707.5MHz) 23017(699.7MHz), 23173(715.3MHz) 23025(700.5MHz), 23165(714.5MHz) 23035(701.5MHz), 23155(713.5MHz) 23060(704.0MHz), 23130(711.0 MHz) 23017(699.7MHz), 23095(707.5MHz), 23173(715.3MHz) 23025(700.5MHz), 23095(707.5MHz), 23165(714.5MHz) 23035(701.5MHz), 23095(707.5MHz), 23155(713.5MHz) 23060(704.0MHz), 23095(707.5MHz), 23130(711.0MHz) 1.4MHz QPSK / 16QAM /
64QAM 1 RB / 0 RB Offset 3MHz 5MHz QPSK / 16QAM /
64QAM QPSK / 16QAM /
64QAM 1 RB / 0 RB Offset 1 RB / 0 RB Offset 10MHz QPSK / 16QAM /
64QAM 1 RB / 0 RB Offset 10MHz QPSK / 16QAM /
1.4MHz 3MHz 5MHz 10MHz 64QAM QPSK QPSK QPSK QPSK 50 RB / 0 RB Offset 1 RB / 0 RB Offset 1 RB / 0 RB Offset 1 RB / 0 RB Offset 1 RB / 0 RB Offset 1.4MHz QPSK / 16QAM /
64QAM 6 RB / 0 RB Offset 3MHz QPSK / 16QAM /
64QAM 15 RB / 0 RB Offset 5MHz QPSK / 16QAM /
64QAM 25 RB / 0 RB Offset 10MHz QPSK / 16QAM /
64QAM 23017(699.7MHz) 1.4MHz QPSK 23173(715.3MHz) 1.4MHz QPSK 23025(700.5MHz) 3MHz 23165(714.5MHz) 3MHz 23035(701.5MHz) 5MHz 23155(713.5MHz) 5MHz 23060(704.0MHz) 10MHz 23130(711.0MHz) 10MHz QPSK QPSK QPSK QPSK QPSK QPSK 50 RB / 0 RB Offset 1 RB / 0 RB Offset 6 RB / 0 RB Offset 1 RB / 5 RB Offset 6 RB / 0 RB Offset 1 RB / 0 RB Offset 15 RB / 0 RB Offset 1 RB / 14 RB Offset 15 RB / 0 RB Offset 1 RB / 0 RB Offset 25 RB / 0 RB Offset 1 RB / 24 RB Offset 25 RB / 0 RB Offset 1 RB / 0 RB Offset 50 RB / 0 RB Offset 1 RB / 49 RB Offset 50 RB / 0 RB Offset Report No.: RF181015C09-2 Page No. 14 / 257 Report Format Version: 6.1.1 Test item Available channel Tested channel Channel Bandwidth Modulation Mode EUT Configure Mode 23017 to 23171 23025 to 23165 23035 to 23155 23060 to 23130 23017 to 23171 23025 to 23165 23035 to 23155 23060 to 23130 23017 to 23171 23035 to 23155 23060 to 23130 23017 to 23171
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Peak to Average Ratio
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Conducted Emission Radiated Emission Below 1GHz
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Radiated Emission Above 1GHz 23035 to 23155 23060 to 23130 23017(699.7MHz), 23095(707.5MHz), 23173(715.3MHz) 23025(700.5MHz), 23095(707.5MHz), 23165(714.5MHz) 23035(701.5MHz), 23095(707.5MHz), 23155(713.5MHz) 23060(704.0MHz), 23095(707.5MHz), 23130(711.0MHz) 23017(699.7MHz), 23095(707.5MHz), 23173(715.3MHz) 23025(700.5MHz), 23095(707.5MHz), 23165(714.5MHz) 23035(701.5MHz), 23095(707.5MHz), 23155(713.5MHz) 23060(704.0MHz), 23095(707.5MHz), 23130(711.0MHz) 23017(699.7MHz) 23035(701.5MHz) 23060(704.0MHz) 23017(699.7MHz), 23095(707.5MHz), 23173(715.3MHz) 23035(701.5MHz), 23095(707.5MHz), 23155(713.5MHz) 23060(704.0MHz), 23095(707.5MHz), 23130(711.0MHz) 1.4MHz QPSK / 16QAM /
64QAM 1 RB / 0 RB Offset 3MHz QPSK / 16QAM /
64QAM 1 RB / 0 RB Offset 5MHz QPSK / 16QAM /
64QAM 1 RB / 0 RB Offset 10MHz QPSK / 16QAM /
64QAM 1 RB / 0 RB Offset 1.4MHz QPSK 6 RB / 0 RB Offset 3MHz QPSK 15 RB / 0 RB Offset 5MHz QPSK 25 RB / 0 RB Offset 10MHz 1.4MHz 5MHz 10MHz 1.4MHz QPSK QPSK QPSK QPSK QPSK 50 RB / 0 RB Offset 1 RB / 0 RB Offset 1 RB / 0 RB Offset 1 RB / 0 RB Offset 1 RB / 0 RB Offset 5MHz QPSK 1 RB / 0 RB Offset 10MHz QPSK 1 RB / 0 RB Offset Report No.: RF181015C09-2 Page No. 15 / 257 Report Format Version: 6.1.1 LTE Band 30 EUT Configure Mode Test item Available channel Tested channel
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EIRP Modulation Characteristics Frequency Stability Emission Bandwidth Band Edge Conducted Emission Radiated Emission Below 1GHz Radiated Emission Above 1GHz Channel Bandwidth Modulation Mode 5MHz QPSK / 16QAM /
64QAM 1 RB / 0 RB Offset 27685 to 27735 27710 27710 27685 to 27735 27710 27685 to 27735 27710 27685 to 27735 27685 (2307.5MHz), 27710 (2310.0MHz), 27735 (2312.5MHz) 27710 (2310.0MHz) 27710 (2310.0MHz) 27685 (2307.5MHz), 27735 (2312.5MHz) 27710 (2310.0MHz) 27685 (2307.5MHz), 27710 (2310.0MHz), 27735 (2312.5MHz) 27710 (2310.0MHz) 27685 (2307.5MHz), 27710 (2310.0MHz), 27735 (2312.5MHz) 27710 27710 (2310.0MHz) 10MHz QPSK / 16QAM /
10MHz QPSK / 16QAM /
64QAM 64QAM QPSK QPSK 5MHz 10MHz 5MHz QPSK / 16QAM /
64QAM 10MHz QPSK / 16QAM /
64QAM 5MHz QPSK / 16QAM /
64QAM 10MHz QPSK / 16QAM /
64QAM 27685 to 27735 27710 27685 to 27735 27710 27685 to 27735 27710 27685 (2307.5MHz), 27710 (2310.0MHz), 27735 (2312.5MHz) 27710 (2310.0MHz) 27685 (2307.5MHz) 27710 (2310.0MHz) 27685 (2307.5MHz), 27710 (2310.0MHz), 27735 (2312.5MHz) 27710 (2310.0MHz) 5MHz 10MHz 5MHz 10MHz 5MHz 10MHz QPSK QPSK QPSK QPSK QPSK QPSK 1 RB / 0 RB Offset 50 RB / 0 RB Offset 1 RB / 0 RB Offset 1 RB / 0 RB Offset 25 RB / 0 RB Offset 50 RB / 0 RB Offset 25 RB / 0 RB Offset 50 RB / 0 RB Offset 25 RB / 0 RB Offset 50 RB / 0 RB Offset 1 RB / 0 RB Offset 1 RB / 0 RB Offset 1 RB / 0 RB Offset 1 RB / 0 RB Offset Report No.: RF181015C09-2 Page No. 16 / 257 Report Format Version: 6.1.1 LTE Band 66 EUT Configure Mode Channel Bandwidth 1.4MHz 3MHz 5MHz 10MHz 15MHz 20MHz Test Item Available Channel Tested Channel EIRP 131979 to 132665 131987 to 132657 131997 to 132647 132022 to 132622 132047 to 132597 132072 to 132572 131979(1710.7MHz) 132322(1745.0MHz) 132665(1779.3MHz) 131987(1711.5MHz) 132322(1745.0MHz) 132657(1778.5MHz) 131997(1712.5MHz) 132322(1745.0MHz) 132647(1777.5MHz) 132022(1715.0MHz) 132322(1745.0MHz) 132622(1775.0MHz) 132047(1717.5MHz) 132322(1745.0MHz) 132597(1772.5MHz) 132072(1720.0MHz) 132322(1745.0MHz) 132572(1770.0MHz) Modulation Characteristics 132072 to 132572 132322(1745.0MHz) 20MHz
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Frequency Stability Modulation Mode QPSK /
16QAM /
64QAM QPSK /
16QAM /
64QAM QPSK /
16QAM /
64QAM QPSK /
16QAM /
64QAM QPSK /
16QAM /
64QAM QPSK /
16QAM /
64QAM QPSK /
16QAM /
64QAM QPSK QPSK QPSK QPSK QPSK QPSK QPSK /
16QAM /
64QAM QPSK /
16QAM /
64QAM QPSK /
16QAM /
64QAM QPSK /
16QAM /
64QAM QPSK /
16QAM /
64QAM QPSK /
16QAM /
64QAM 1 RB / 0 RB Offset 1 RB / 0 RB Offset 1 RB / 0 RB Offset 1 RB / 0 RB Offset 1 RB / 0 RB Offset 1 RB / 0 RB Offset 100 RB / 0 RB Offset 1 RB / 0 RB Offset 1 RB / 0 RB Offset 1 RB / 0 RB Offset 1 RB / 0 RB Offset 1 RB / 0 RB Offset 1 RB / 0 RB Offset 6 RB / 0 RB Offset 15 RB / 0 RB Offset 25 RB / 0 RB Offset 50 RB / 0 RB Offset 75 RB / 0 RB Offset 100 RB / 0 RB Offset 1 RB / 0 RB Offset 1 RB / 5 RB Offset 6 RB / 0 RB Offset 1 RB / 0 RB Offset 1 RB / 14 RB Offset 15 RB / 0 RB Offset 1 RB / 0 RB Offset 1 RB / 24 RB Offset 25 RB / 0 RB Offset 1 RB / 0 RB Offset 1 RB / 49 RB Offset 50 RB / 0 RB Offset 1 RB / 0 RB Offset 1 RB / 74 RB Offset 75 RB / 0 RB Offset 1 RB / 0 RB Offset 1 RB / 99 RB Offset 100 RB / 0 RB Offset 1.4MHz 3MHz 5MHz 10MHz 15MHz 20MHz 1.4MHz 3MHz 5MHz 10MHz 15MHz 20MHz 131979 to 132665 131979 to 132665 131979(1710.7MHz) 132665(1779.3MHz) 131987 to 132657 131987(1711.5MHz) 132657(1778.5MHz) 131997 to 132647 131997(1712.5MHz) 132647(1777.5MHz) 132022 to 132622 132022(1715.0MHz) 132622(1775.0MHz) 132047 to 132597 132047(1717.5MHz) 132597(1772.5MHz) 132072 to 132572 132072(1720.0MHz) 132572(1770.0MHz) 131979(1710.7MHz) 132322(1745.0MHz) 132665(1779.3MHz) 131987(1711.5MHz) 132322(1745.0MHz) 132657(1778.5MHz) 131997(1712.5MHz) 132322(1745.0MHz) 132647(1777.5MHz) 132022(1715.0MHz) 132322(1745.0MHz) 132622(1775.0MHz) 132047(1717.5MHz) 132322(1745.0MHz) 132597(1772.5MHz) 132072(1720.0MHz) 132322(1745.0MHz) 132572(1770.0MHz) 131979 to 132665 131979(1710.7MHz) 132665(1779.3MHz) 132072 to 132572 131987 to 132657 131997 to 132647 132022 to 132622 132047 to 132597 131987 to 132657 131987(1711.5MHz) 132657(1778.5MHz) 131997 to 132647 131997(1712.5MHz) 132647(1777.5MHz) 132022 to 132622 132022(1715.0MHz) 132622(1775.0MHz) 132047 to 132597 132047(1717.5MHz) 132597(1772.5MHz) 132072 to 132572 132072(1720.0MHz) 132572(1770.0MHz) 1.4MHz QPSK 3MHz QPSK 5MHz QPSK 10MHz QPSK 15MHz QPSK 20MHz QPSK
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Emission Bandwidth
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Channel Edge Report No.: RF181015C09-2 Page No. 17 / 257 Report Format Version: 6.1.1 EUT Configure Mode
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Test Item Available Channel Tested Channel Conducted Emission Radiated Emission Below 1GHz 131979 to 132665 131987 to 132657 131997 to 132647 132022 to 132622 132047 to 132597 132072 to 132572 131979 to 132665 131997 to 132647 132072 to 132572 131979 to 132665 Radiated Emission Above 1GHz 131997 to 132647 132072 to 132572 131979(1710.7MHz) 132665(1779.3MHz) 131987(1711.5MHz) 132657(1778.5MHz) 131997(1712.5MHz) 132647(1777.5MHz) 132022(1715.0MHz) 132622(1775.0MHz) 132047(1717.5MHz) 132597(1772.5MHz) 132072(1720.0MHz) 132572(1770.0MHz) 131979(1710.7MHz) 131997(1712.5MHz) 132072(1720.0MHz) 131979(1710.7MHz) 132322(1745.0MHz) 132665(1779.3MHz) 131997(1712.5MHz) 132322(1745.0MHz) 132647(1777.5MHz) 132072(1720.0MHz) 132322(1745.0MHz) 132572(1770.0MHz) Channel Bandwidth 1.4MHz 3MHz 5MHz 10MHz 15MHz 20MHz 1.4MHz 5MHz 20MHz 1.4MHz Modulation Mode QPSK QPSK QPSK QPSK QPSK QPSK QPSK QPSK QPSK QPSK 1 RB / 0 RB Offset 1 RB / 0 RB Offset 1 RB / 0 RB Offset 1 RB / 0 RB Offset 1 RB / 0 RB Offset 1 RB / 0 RB Offset 1 RB / 0 RB Offset 1 RB / 0 RB Offset 1 RB / 0 RB Offset 1 RB / 0 RB Offset 5MHz QPSK 1 RB / 0 RB Offset 20MHz QPSK 1 RB / 0 RB Offset Note:
1. For radiated emission below 1GHz, low, mid and high channels were pre-tested in chamber with 1.4MHz mode. Low channel on mode A was found to be the worst case and therefore had been chosen for all final tests. 2. The conducted output power for QPSK, 16QAM and 64QAM, measured value of QPSK is higher than 16QAM and 64QAM mode. Therefore, only occupied bandwidth and Peak to average ratio items had been tested under QPSK, 16QAM and 64QAM modes, the other test items were performed under QPSK mode only. Report No.: RF181015C09-2 Page No. 18 / 257 Report Format Version: 6.1.1 Test Condition:
Test Item EIRP or ERP Environmental Conditions Input Power Tested By 25deg. C, 66%RH 120Vac, 60Hz Modulation characteristics 24deg. C, 64%RH 120Vac, 60Hz Frequency Stability 24deg. C, 64%RH 120Vac, 60Hz Occupied Bandwidth 24deg. C, 64%RH 120Vac, 60Hz Band Edge 24deg. C, 64%RH 120Vac, 60Hz Peak To Average Ratio 24deg. C, 64%RH 120Vac, 60Hz Conducted Emission Radiated Emission 24deg. C, 64%RH 24deg. C, 66%RH 25deg. C, 66%RH 120Vac, 60Hz 120Vac, 60Hz Tim Chen Randy Wu Han Wu Randy Wu Han Wu Randy Wu Han Wu Randy Wu Han Wu Randy Wu Han Wu Randy Wu Han Wu Greg Lin Tim Chen 3.4 EUT Operating Conditions The EUT makes a call to the communication simulator. The communication simulator station system controlled a EUT to export maximum output power under transmission mode and specific channel frequency 3.5 General Description of Applied Standards The EUT is a RF Product. According to the specifications of the manufacturer, it must comply with the requirements of the following standards:
FCC 47 CFR Part 2 FCC 47 CFR Part 27 KDB 971168 D01 Power Meas License Digital Systems v03r01 ANSI/TIA/EIA-603-E 2016 ANSI 63.26-2015 Note: All test items have been performed and recorded as per the above standards. Report No.: RF181015C09-2 Page No. 19 / 257 Report Format Version: 6.1.1 Test Types and Results 4 4.1 Output Power Measurement 4.1.1 Limits of Output Power Measurement Mobile / Portable station are limited to 1 watts e.i.r.p for LTE Band 4 & LTE Band 66, and 3 watts e.r.p for LTE Band 12. LTE Band 30:
Mobile and portable stations. (i) For mobile and portable stations transmitting in the 2305-2315 MHz band or the 2350-2360 MHz band, the average EIRP must not exceed 50 milliwatts within any 1 megahertz of authorized bandwidth, except that for mobile and portable stations compliant with 3GPP LTE standards or another advanced mobile broadband protocol that avoids concentrating energy at the edge of the operating band the average EIRP must not exceed 250 milliwatts within any 5 megahertz of authorized bandwidth but may exceed 50 milliwatts within any 1 megahertz of authorized bandwidth. For mobile and portable stations using time division duplexing (TDD) technology, the duty cycle must not exceed 38 percent in the 2305-2315 MHz and 2350-2360 MHz bands. Mobile and portable stations using FDD technology are restricted to transmitting in the 2305-2315 MHz band. Power averaging shall not include intervals in which the transmitter is off. 4.1.2 Test Procedures EIRP / ERP Measurement:
a. All measurements were done at low, middle and high operational frequency range. RBW is 5 MHz and VBW is 15 MHz for LTE mode. b. Substitution method is used for E.I.R.P measurement. In the semi-anechoic chamber, EUT placed on the 0.8m(below or equal 1GHz) and/or 1.5m(above 1GHz) height of Turn Table, rotated the table around 360 degrees to search the maximum radiation power and receiver antenna shall be rotated vertical and horizontal polarization and moved height from 1m to 4m to find the maximum polar radiated power. The Read Value is the spectrum reading the maximum power value. c. The substitution horn antenna is substituted for EUT at the same position and signals generator export the CW signal to the substitution antenna via a TX cable. Rotated the Turn Table and moved receiving antenna to find the maximum radiation power. Adjust output power level of S.G to get a Value of spectrum reading equal to Read Value of step b. Record the power level of S.G d. EIRP = Output power level of S.G TX cable loss + Antenna gain of substitution horn.E.R.P power can be calculated form E.I.R.P power by subtracting the gain of dipole, E.R.P power = E.I.R.P power - 2.15dBi. Conducted Power Measurement:
A power sensor was used on the output port of the EUT. A power meter was used to read the response of the power sensor. Record the power level. Report No.: RF181015C09-2 Page No. 20 / 257 Report Format Version: 6.1.1 4.1.3 Test Setup EIRP / ERP MEASUREMENT:
For Radiated Emission below or equal 1GHz Ant. Tower 1-4m Variable EUT&
Support Units 80cm 3m 10m Turn Table Ground Plane Test Receiver For Radiated Emission above 1GHz EUT&
Support Units 3m Ant. Tower 1-4m Variable Turn Table Absorber 150cm Ground Plane Test Receiver For the actual test configuration, please refer to the attached file (Test Setup Photo). Conducted Power Measurement:
For the actual test configuration, please refer to the attached file (Test Setup Photo). Communication Simulator EUT Report No.: RF181015C09-2 Page No. 21 / 257 Report Format Version: 6.1.1 4.1.4 Test Results CONDUCTED OUTPUT POWER (dBm) Conducted Output Power (dBm) LTE Band 4 BW MCS Index QPSK 20M 16QAM 64QAM LTE Band 4 Low 20050 1720 23.60 23.52 23.56 22.71 22.69 22.65 22.67 22.55 22.42 22.53 21.67 21.62 21.63 21.66 21.57 21.50 21.48 20.63 20.66 20.59 20.62 RB Size RB Offset Channel Frequency (MHz) 0 50 99 0 25 50 0 0 50 99 0 25 50 0 0 50 99 0 25 50 0 1 1 1 50 50 50 100 1 1 1 50 50 50 100 1 1 1 50 50 50 100 Mid 20175 1732.5 23.83 23.72 23.76 22.97 22.95 22.91 22.95 22.82 22.64 22.71 21.92 21.91 21.91 21.95 21.77 21.62 21.67 20.91 20.85 20.89 20.86 High 20300 1745 23.96 23.86 23.89 22.99 22.97 22.96 22.98 22.88 22.82 22.81 21.95 21.94 21.95 21.96 21.96 21.80 21.85 20.97 20.92 20.95 20.99 Report No.: RF181015C09-2 Page No. 22 / 257 Report Format Version: 6.1.1 BW MCS Index QPSK 15M 16QAM 64QAM LTE Band 4 Low 20025 1717.5 23.55 23.47 23.53 22.61 22.61 22.60 22.62 22.50 22.42 22.37 21.58 21.52 21.47 21.52 21.54 21.39 21.49 20.62 20.54 20.64 20.52 RB Size RB Offset Channel Frequency (MHz) 0 37 74 0 19 39 0 0 37 74 0 19 39 0 0 37 74 0 19 39 0 1 1 1 36 36 36 75 1 1 1 36 36 36 75 1 1 1 36 36 36 75 Mid 20175 1732.5 23.74 23.67 23.72 22.96 22.91 22.86 22.94 22.74 22.61 22.67 21.82 21.79 21.80 21.87 21.64 21.60 21.72 20.84 20.86 20.86 20.86 High 20325 1747.5 23.89 23.83 23.79 22.97 23.00 23.00 22.98 22.84 22.84 22.82 21.94 21.96 21.89 21.90 21.89 21.68 21.77 20.95 20.98 20.90 20.94 Report No.: RF181015C09-2 Page No. 23 / 257 Report Format Version: 6.1.1 BW MCS Index QPSK 10M 16QAM 64QAM LTE Band 4 Low 20000 1715 23.53 23.34 23.46 22.61 22.44 22.48 22.51 22.47 22.47 22.33 21.51 21.50 21.54 21.43 21.46 21.41 21.35 20.61 20.53 20.54 20.46 RB Size RB Offset Channel Frequency (MHz) 0 24 49 0 12 25 0 0 24 49 0 12 25 0 0 24 49 0 12 25 0 1 1 1 25 25 25 50 1 1 1 25 25 25 50 1 1 1 25 25 25 50 Mid 20175 1732.5 23.67 23.66 23.66 22.74 22.78 22.80 22.81 22.66 22.46 22.57 21.76 21.83 21.75 21.77 21.73 21.44 21.50 20.88 20.78 20.83 20.73 High 20350 1750 23.75 23.63 23.67 22.90 22.90 22.87 22.93 22.75 22.66 22.71 21.97 21.90 21.84 21.79 21.69 21.74 21.69 20.97 20.82 20.92 20.86 Report No.: RF181015C09-2 Page No. 24 / 257 Report Format Version: 6.1.1 BW MCS Index QPSK 5M 16QAM 64QAM LTE Band 4 Low 19975 1712.5 23.45 23.39 23.52 22.62 22.69 22.62 22.57 22.50 22.40 22.42 21.61 21.46 21.50 21.44 21.48 21.28 21.41 20.68 20.54 20.45 20.56 RB Size RB Offset Channel Frequency (MHz) 0 12 24 0 6 13 0 0 12 24 0 6 13 0 0 12 24 0 6 13 0 1 1 1 12 12 12 25 1 1 1 12 12 12 25 1 1 1 12 12 12 25 Mid 20175 1732.5 23.78 23.62 23.58 22.86 22.76 22.68 22.70 22.64 22.46 22.58 21.87 21.77 21.72 21.65 21.60 21.54 21.60 20.76 20.73 20.75 20.82 High 20375 1752.5 23.78 23.71 23.85 22.76 22.82 22.87 22.88 22.79 22.61 22.71 21.84 21.88 21.79 21.99 21.81 21.68 21.85 20.91 20.87 20.94 20.83 Report No.: RF181015C09-2 Page No. 25 / 257 Report Format Version: 6.1.1 BW MCS Index QPSK 3M 16QAM 64QAM LTE Band 4 Low 19965 1711.5 23.57 23.42 23.52 22.57 22.62 22.53 22.49 22.50 22.31 22.37 21.48 21.66 21.35 21.55 21.43 21.38 21.40 20.42 20.48 20.47 20.63 RB Size RB Offset Channel Frequency (MHz) 0 7 14 0 3 7 0 0 7 14 0 3 7 0 0 7 14 0 3 7 0 1 1 1 8 8 8 15 1 1 1 8 8 8 15 1 1 1 8 8 8 15 Mid 20175 1732.5 23.72 23.64 23.65 22.89 22.87 22.68 22.84 22.59 22.52 22.58 21.76 21.88 21.66 21.85 21.69 21.53 21.51 20.69 20.88 20.75 20.78 High 20385 1753.5 23.83 23.74 23.71 22.96 22.92 22.94 22.97 22.80 22.57 22.62 21.91 21.83 21.97 21.84 21.76 21.67 21.64 20.92 20.84 20.89 20.80 Report No.: RF181015C09-2 Page No. 26 / 257 Report Format Version: 6.1.1 BW MCS Index QPSK 1.4M 16QAM 64QAM LTE Band 4 Low 19957 1710.7 23.42 23.38 23.41 23.56 23.61 23.59 22.57 22.44 22.36 22.36 22.54 22.43 22.44 21.49 21.41 21.39 21.47 21.60 21.56 21.47 20.34 RB Size RB Offset Channel Frequency (MHz) 0 2 5 0 1 3 0 0 2 5 0 1 3 0 0 2 5 0 1 3 0 1 1 1 3 3 3 6 1 1 1 3 3 3 6 1 1 1 3 3 3 6 Mid 20175 1732.5 23.77 23.53 23.73 23.81 23.84 23.81 22.73 22.60 22.52 22.67 22.81 22.76 22.64 21.77 21.65 21.41 21.61 21.89 21.83 21.68 20.76 High 20393 1754.3 23.89 23.81 23.77 23.95 23.94 23.87 22.98 22.70 22.76 22.84 22.96 22.99 22.82 21.95 21.75 21.58 21.75 21.97 21.86 21.95 20.97 Report No.: RF181015C09-2 Page No. 27 / 257 Report Format Version: 6.1.1 BW MCS Index QPSK 10M 16QAM 64QAM RB Size RB Offset LTE Band 12 Low 23060 704 23.18 22.95 23.05 22.29 22.24 22.14 22.26 22.08 21.94 21.97 21.23 21.14 21.04 21.19 21.14 20.86 20.96 20.26 20.18 20.04 20.23 Channel Frequency (MHz) 0 24 49 0 12 25 0 0 24 49 0 12 25 0 0 24 49 0 12 25 0 1 1 1 25 25 25 50 1 1 1 25 25 25 50 1 1 1 25 25 25 50 Mid 23095 707.5 23.25 22.97 23.12 22.34 22.28 22.21 22.32 22.23 21.96 22.06 21.34 21.19 21.14 21.28 21.16 20.92 21.07 20.28 20.21 20.20 20.26 High 23130 711 23.19 22.91 23.06 22.31 22.25 22.17 22.28 22.19 21.86 22.04 21.25 21.20 21.12 21.23 21.19 20.91 21.02 20.27 20.16 20.09 20.25 Report No.: RF181015C09-2 Page No. 28 / 257 Report Format Version: 6.1.1 BW MCS Index QPSK 5M 16QAM 64QAM RB Size RB Offset LTE Band 12 Low 23035 701.5 23.06 22.76 22.85 22.11 22.11 21.98 22.15 22.01 21.81 21.98 21.18 21.11 20.92 21.00 21.09 20.67 20.80 20.14 19.99 19.90 20.05 Channel Frequency (MHz) 0 12 24 0 6 13 0 0 12 24 0 6 13 0 0 12 24 0 6 13 0 1 1 1 12 12 12 25 1 1 1 12 12 12 25 1 1 1 12 12 12 25 Mid 23095 707.5 23.18 22.84 22.99 22.28 22.17 22.01 22.18 22.09 21.76 21.91 21.15 21.06 20.97 21.03 21.23 20.86 20.81 20.19 20.18 19.97 20.18 High 23155 713.5 22.95 22.82 22.92 22.02 21.88 21.93 22.12 21.89 21.77 21.93 21.11 21.11 20.93 21.11 21.02 20.68 21.05 20.03 20.16 20.12 20.02 Report No.: RF181015C09-2 Page No. 29 / 257 Report Format Version: 6.1.1 BW MCS Index QPSK 3M 16QAM 64QAM RB Size RB Offset LTE Band 12 Low 23025 700.5 23.08 22.89 22.91 22.07 22.01 22.01 22.09 21.90 21.75 21.71 21.15 21.11 20.91 21.08 20.93 20.80 20.87 20.11 20.05 19.95 20.07 Channel Frequency (MHz) 0 7 14 0 3 7 0 0 7 14 0 3 7 0 0 7 14 0 3 7 0 1 1 1 8 8 8 15 1 1 1 8 8 8 15 1 1 1 8 8 8 15 Mid 23095 707.5 23.05 22.88 23.01 22.29 22.21 22.10 22.14 22.00 21.78 22.03 21.24 21.05 21.10 21.06 21.09 20.84 20.82 20.24 20.13 19.94 20.02 High 23165 714.5 22.96 22.78 23.00 22.15 22.07 21.97 22.22 22.03 21.82 21.92 21.23 21.10 20.94 21.09 21.05 20.86 20.94 20.17 20.04 19.92 20.11 Report No.: RF181015C09-2 Page No. 30 / 257 Report Format Version: 6.1.1 BW MCS Index QPSK 1.4M 16QAM 64QAM RB Size RB Offset LTE Band 12 Low 23017 699.7 23.07 22.85 22.97 23.22 23.21 23.11 22.13 22.04 21.81 21.85 22.05 22.06 21.90 21.14 20.86 20.67 20.85 21.18 21.06 20.91 20.08 Channel Frequency (MHz) 0 2 5 0 1 3 0 0 2 5 0 1 3 0 0 2 5 0 1 3 0 1 1 1 3 3 3 6 1 1 1 3 3 3 6 1 1 1 3 3 3 6 Mid 23095 707.5 23.04 22.79 23.06 23.11 23.08 23.15 22.14 22.20 21.77 21.97 22.09 22.13 22.08 21.28 21.05 20.91 20.93 21.23 21.06 21.00 20.09 High 23173 715.3 23.14 22.76 22.98 23.19 23.04 23.15 22.16 22.03 21.70 21.96 22.16 22.08 22.13 21.19 21.03 20.65 20.79 21.15 21.09 20.93 20.13 Report No.: RF181015C09-2 Page No. 31 / 257 Report Format Version: 6.1.1 BW MCS Index RB Size RB Offset Channel Frequency (MHz) LTE Band 30 QPSK 10M 16QAM 64QAM 0 24 49 0 12 25 0 0 24 49 0 12 25 0 0 24 49 0 12 25 0 1 1 1 25 25 25 50 1 1 1 25 25 25 50 1 1 1 25 25 25 50 27710 2310 23.72 23.31 23.74 22.96 22.86 22.99 22.97 22.62 22.21 22.72 21.96 21.76 21.93 21.88 21.62 21.24 21.74 20.88 20.82 20.97 20.88 Report No.: RF181015C09-2 Page No. 32 / 257 Report Format Version: 6.1.1 BW MCS Index QPSK 5M 16QAM 64QAM RB Size RB Offset LTE Band 30 Low 27685 2307.5 23.34 22.96 23.27 22.74 22.70 22.69 22.59 21.94 22.18 22.24 21.15 21.66 21.93 21.54 20.95 21.26 21.41 20.27 20.68 20.83 20.64 Channel Frequency (MHz) 0 12 24 0 6 13 0 0 12 24 0 6 13 0 0 12 24 0 6 13 0 1 1 1 12 12 12 25 1 1 1 12 12 12 25 1 1 1 12 12 12 25 Mid 27710 2310 23.64 23.25 23.57 22.97 22.94 22.99 22.89 22.64 22.23 22.56 21.92 21.93 21.97 21.85 21.62 21.17 21.57 21.00 21.00 20.94 20.88 High 27735 2312.5 23.54 23.20 23.50 22.95 22.90 22.89 22.82 21.91 22.33 22.30 21.32 21.68 21.74 21.63 20.90 21.19 21.24 20.09 20.69 20.92 20.48 Report No.: RF181015C09-2 Page No. 33 / 257 Report Format Version: 6.1.1 BW MCS Index QPSK 20M 16QAM 64QAM RB Size RB Offset LTE Band 66 Low Channel Frequency (MHz) 0 50 99 0 25 50 0 0 50 99 0 25 50 0 0 50 99 0 25 50 0 1 1 1 50 50 50 100 1 1 1 50 50 50 100 1 1 1 50 50 50 100 132072 1720 23.73 23.55 23.58 22.89 22.75 22.80 22.86 21.94 22.18 22.24 21.15 21.66 21.93 21.54 20.95 21.26 21.41 20.27 20.68 20.83 20.64 Mid 132322 1745 23.99 23.80 23.86 22.97 22.94 22.96 22.95 22.94 22.74 22.79 21.97 21.92 21.94 21.86 21.91 21.78 21.82 20.92 20.92 20.88 20.88 High 132572 1770 23.96 23.79 23.85 22.94 22.92 22.89 22.89 21.91 22.33 22.30 21.32 21.68 21.74 21.63 20.90 21.19 21.24 20.09 20.69 20.92 20.48 Report No.: RF181015C09-2 Page No. 34 / 257 Report Format Version: 6.1.1 BW MCS Index QPSK 15M 16QAM 64QAM RB Size RB Offset LTE Band 66 Low Channel Frequency (MHz) 0 37 74 0 19 39 0 0 37 74 0 19 39 0 0 37 74 0 19 39 0 1 1 1 36 36 36 75 1 1 1 36 36 36 75 1 1 1 36 36 36 75 132047 1717.5 23.71 23.45 23.56 22.86 22.73 22.73 22.82 21.88 22.09 22.17 21.14 21.63 21.91 21.53 20.88 21.24 21.34 20.20 20.58 20.81 20.62 Mid 132322 1745 23.94 23.77 23.77 22.88 22.88 22.88 22.87 22.93 22.70 22.78 21.88 21.80 21.91 21.90 21.96 21.74 21.77 20.94 20.80 20.86 20.82 High 132597 1772.5 23.90 23.75 23.82 22.90 22.85 22.84 22.80 21.84 22.31 22.21 21.28 21.67 21.64 21.57 20.88 21.13 21.17 20.02 20.59 20.84 20.42 Report No.: RF181015C09-2 Page No. 35 / 257 Report Format Version: 6.1.1 BW MCS Index QPSK 10M 16QAM 64QAM RB Size RB Offset LTE Band 66 Low Channel Frequency (MHz) 0 24 49 0 12 25 0 0 24 49 0 12 25 0 0 24 49 0 12 25 0 1 1 1 25 25 25 50 1 1 1 25 25 25 50 1 1 1 25 25 25 50 132022 1715 23.60 23.51 23.52 22.76 22.67 22.67 22.69 21.81 22.02 22.16 21.13 21.55 21.74 21.46 20.80 21.06 21.39 20.16 20.60 20.67 20.46 Mid 132322 1745 23.94 23.68 23.73 22.89 22.89 22.79 22.79 22.85 22.57 22.57 21.76 21.79 21.83 21.82 21.87 21.59 21.65 20.75 20.72 20.76 20.73 High 132622 1775 23.76 23.69 23.69 22.91 22.74 22.80 22.81 21.71 22.09 22.14 21.21 21.59 21.50 21.50 20.89 20.98 21.04 19.86 20.57 20.67 20.29 Report No.: RF181015C09-2 Page No. 36 / 257 Report Format Version: 6.1.1 BW MCS Index QPSK 5M 16QAM 64QAM RB Size RB Offset LTE Band 66 Low Channel Frequency (MHz) 0 12 24 0 6 13 0 0 12 24 0 6 13 0 0 12 24 0 6 13 0 1 1 1 12 12 12 25 1 1 1 12 12 12 25 1 1 1 12 12 12 25 131997 1712.5 23.63 23.48 23.36 22.75 22.65 22.57 22.67 21.82 22.09 22.11 20.98 21.58 21.79 21.33 20.82 21.12 21.37 20.18 20.56 20.71 20.55 Mid 132322 1745 23.86 23.62 23.64 22.91 22.73 22.88 22.79 22.86 22.55 22.72 21.75 21.83 21.82 21.66 21.81 21.78 21.74 20.83 20.80 20.72 20.88 High 132647 1777.5 23.84 23.52 23.62 22.75 22.72 22.78 22.71 21.78 22.18 22.21 21.17 21.51 21.55 21.53 20.71 21.06 21.14 19.93 20.44 20.77 20.34 Report No.: RF181015C09-2 Page No. 37 / 257 Report Format Version: 6.1.1 BW MCS Index QPSK 3M 16QAM 64QAM RB Size RB Offset LTE Band 66 Low Channel Frequency (MHz) 0 7 14 0 3 7 0 0 7 14 0 3 7 0 0 7 14 0 3 7 0 1 1 1 8 8 8 15 1 1 1 8 8 8 15 1 1 1 8 8 8 15 131987 1711.5 23.55 23.39 23.44 22.77 22.57 22.66 22.63 21.80 22.14 22.09 21.03 21.52 21.77 21.39 20.73 21.08 21.17 20.19 20.60 20.71 20.55 Mid 132322 1745 23.81 23.65 23.78 22.83 22.84 22.94 22.83 22.75 22.61 22.74 21.78 21.67 21.72 21.79 21.82 21.54 21.63 20.74 20.72 20.71 20.81 High 132657 1778.5 23.84 23.66 23.75 22.85 22.74 22.79 22.85 21.80 22.23 22.09 21.28 21.59 21.62 21.46 20.69 21.16 21.14 19.99 20.56 20.81 20.47 Report No.: RF181015C09-2 Page No. 38 / 257 Report Format Version: 6.1.1 BW MCS Index QPSK 1.4M 16QAM 64QAM RB Size RB Offset LTE Band 66 Low Channel Frequency (MHz) 0 2 5 0 1 3 0 0 2 5 0 1 3 0 0 2 5 0 1 3 0 1 1 1 3 3 3 6 1 1 1 3 3 3 6 1 1 1 3 3 3 6 131979 1710.7 23.62 23.50 23.39 23.77 23.63 23.76 22.71 21.81 21.95 22.18 22.04 22.49 22.78 21.50 20.75 21.19 21.24 21.19 21.64 21.65 20.46 Mid 132322 1745 23.78 23.61 23.69 23.89 23.84 23.85 22.87 22.83 22.59 22.70 22.71 22.65 22.78 21.72 21.89 21.61 21.71 21.85 21.79 21.79 20.73 High 132665 1779.3 23.89 23.65 23.64 23.72 23.71 23.81 22.74 21.81 22.24 22.10 22.22 22.52 22.65 21.57 20.86 21.02 21.11 20.89 21.59 21.83 20.27 Report No.: RF181015C09-2 Page No. 39 / 257 Report Format Version: 6.1.1 EIRP Power (dBm) Modulation Type: QPSK LTE Band 4 Channel Bandwidth: 1.4MHz MODE TX channel 19957 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1710.70 Reading
(dBm)
-14.0 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 24.0 0.7 24.7 30.0
-5.3 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1710.70 Reading
(dBm)
-20.5 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 17.3 0.7 18.0 30.0
-12.0 MODE TX channel 20175 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1732.50 Reading
(dBm)
-14.4 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 24.0 0.6 24.6 30.0
-5.4 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1732.50 Reading
(dBm)
-20.4 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 17.9 0.6 18.5 30.0
-11.5 MODE TX channel 20393 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1754.30 Reading
(dBm)
-13.4 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 25.4 0.5 25.9 30.0
-4.1 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1754.30 Reading
(dBm)
-20.2 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 18.7 0.5 19.2 30.0
-10.8 Note: EIRP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-2 Page No. 40 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 3MHz MODE TX channel 19965 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1711.50 Reading
(dBm)
-14.2 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 23.8 0.7 24.5 30.0
-5.5 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1711.50 Reading
(dBm)
-20.3 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 17.5 0.7 18.2 30.0
-11.8 MODE TX channel 20175 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1732.50 Reading
(dBm)
-13.4 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 25.0 0.6 25.6 30.0
-4.4 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1732.50 Reading
(dBm)
-20.1 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 18.2 0.6 18.8 30.0
-11.2 MODE TX channel 20385 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1753.50 Reading
(dBm)
-13.7 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 25.1 0.5 25.6 30.0
-4.4 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1753.50 Reading
(dBm)
-20.9 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 18.0 0.5 18.5 30.0
-11.5 Note: EIRP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-2 Page No. 41 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 5MHz MODE TX channel 19975 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1712.50 Reading
(dBm)
-14.0 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 24.1 0.7 24.8 30.0
-5.2 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1712.50 Reading
(dBm)
-21.0 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 16.9 0.7 17.6 30.0
-12.4 MODE TX channel 20175 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1732.50 Reading
(dBm)
-14.1 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 24.3 0.6 24.9 30.0
-5.1 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1732.50 Reading
(dBm)
-20.6 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 17.7 0.6 18.3 30.0
-11.7 MODE TX channel 20375 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1752.50 Reading
(dBm)
-14.3 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 24.5 0.5 25.0 30.0
-5.0 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1752.50 Reading
(dBm)
-20.7 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 18.1 0.5 18.6 30.0
-11.4 Note: EIRP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-2 Page No. 42 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 10MHz MODE TX channel 20000 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1715.00 Reading
(dBm)
-14.4 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 23.7 0.7 24.4 30.0
-5.6 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1715.00 Reading
(dBm)
-20.1 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 17.8 0.7 18.5 30.0
-11.5 MODE TX channel 20175 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1732.50 Reading
(dBm)
-14.2 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 24.2 0.6 24.8 30.0
-5.2 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1732.50 Reading
(dBm)
-21.0 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 17.3 0.6 17.9 30.0
-12.1 MODE TX channel 20350 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1750.00 Reading
(dBm)
-13.6 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 25.2 0.5 25.7 30.0
-4.3 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1750.00 Reading
(dBm)
-20.2 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 18.6 0.5 19.1 30.0
-10.9 Note: EIRP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-2 Page No. 43 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 15MHz MODE TX channel 20025 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1717.50 Reading
(dBm)
-13.8 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 24.3 0.7 25.0 30.0
-5.0 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1717.50 Reading
(dBm)
-20.1 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 17.9 0.7 18.6 30.0
-11.4 MODE TX channel 20175 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1732.50 Reading
(dBm)
-13.9 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 24.5 0.6 25.1 30.0
-4.9 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1732.50 Reading
(dBm)
-20.2 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 18.1 0.6 18.7 30.0
-11.3 MODE TX channel 20325 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1747.50 Reading
(dBm)
-14.0 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 24.7 0.5 25.2 30.0
-4.8 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1747.50 Reading
(dBm)
-20.8 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 17.9 0.5 18.4 30.0
-11.6 Note: EIRP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-2 Page No. 44 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 20MHz MODE TX channel 20050 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1720.00 Reading
(dBm)
-14.4 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 23.8 0.7 24.5 30.0
-5.5 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1720.00 Reading
(dBm)
-20.7 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 17.3 0.7 18.0 30.0
-12.0 MODE TX channel 20175 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1732.50 Reading
(dBm)
-13.5 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 24.9 0.6 25.5 30.0
-4.5 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1732.50 Reading
(dBm)
-20.5 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 17.8 0.6 18.4 30.0
-11.6 MODE TX channel 20300 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1745.00 Reading
(dBm)
-13.4 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 25.3 0.5 25.8 30.0
-4.2 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1745.00 Reading
(dBm)
-20.0 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 18.7 0.5 19.2 30.0
-10.8 Note: EIRP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-2 Page No. 45 / 257 Report Format Version: 6.1.1 LTE Band 12 Channel Bandwidth: 1.4MHz MODE TX channel 23017 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 699.70 Reading
(dBm)
-7.9 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 16.6 3.5 20.1 34.8
-14.7 No. Freq. (MHz) 1 699.70 Reading
(dBm)
-17.9 Antenna Polarity & Test Distance: Vertical at 3 M Correction Factor (dB) ERP (dBm)) S.G Power Value (dBm) Limit (dBm) Margin (dB) 9.6 3.5 13.1 34.8
-21.7 MODE TX channel 23095 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 707.50 Reading
(dBm)
-8.9 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 15.8 3.5 19.3 34.8
-15.5 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 707.50 Reading
(dBm)
-18.9 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 8.9 3.5 12.4 34.8
-22.4 MODE TX channel 23173 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 715.30 Reading
(dBm)
-8.6 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 16.4 3.5 19.9 34.8
-14.9 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 715.30 Reading
(dBm)
-18.9 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 8.7 3.5 12.2 34.8
-22.6 Note: ERP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-2 Page No. 46 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 3MHz MODE TX channel 23025 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 700.50 Reading
(dBm)
-8.5 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 16.0 3.5 19.5 34.8
-15.3 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 700.50 Reading
(dBm)
-18.3 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 9.3 3.5 12.8 34.8
-22.0 MODE TX channel 23095 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 707.50 Reading
(dBm)
-8.6 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 16.1 3.5 19.6 34.8
-15.2 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 707.50 Reading
(dBm)
-18.2 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 9.5 3.5 13.0 34.8
-21.8 MODE TX channel 23165 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 714.50 Reading
(dBm)
-9.2 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 15.8 3.5 19.3 34.8
-15.5 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 714.50 Reading
(dBm)
-18.1 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 9.5 3.5 13.0 34.8
-21.8 Note: ERP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-2 Page No. 47 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 5MHz MODE TX channel 23035 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 701.50 Reading
(dBm)
-8.9 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 15.7 3.4 19.1 34.8
-15.7 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 701.50 Reading
(dBm)
-18.2 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 9.5 3.4 12.9 34.8
-21.9 MODE TX channel 23095 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 707.50 Reading
(dBm)
-8.8 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 16.0 3.5 19.5 34.8
-15.3 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 707.50 Reading
(dBm)
-18.9 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 8.9 3.5 12.4 34.8
-22.4 MODE TX channel 23155 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 713.50 Reading
(dBm)
-8.9 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 16.1 3.5 19.6 34.8
-15.2 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 713.50 Reading
(dBm)
-18.4 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 9.4 3.5 12.9 34.8
-21.9 Note: ERP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-2 Page No. 48 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 10MHz MODE TX channel 23060 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 704.00 Reading
(dBm)
-9.1 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 15.6 3.5 19.1 34.8
-15.7 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 704.00 Reading
(dBm)
-18.9 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 8.7 3.5 12.2 34.8
-22.6 MODE TX channel 23095 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 707.50 Reading
(dBm)
-8.9 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 15.9 3.5 19.4 34.8
-15.4 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 707.50 Reading
(dBm)
-18.6 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 9.2 3.5 12.7 34.8
-22.1 MODE TX channel 23130 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 711.00 Reading
(dBm)
-8.8 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 16.2 3.5 19.7 34.8
-15.1 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 711.00 Reading
(dBm)
-18.1 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 9.5 3.5 13.0 34.8
-21.8 Note: ERP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-2 Page No. 49 / 257 Report Format Version: 6.1.1 LTE Band 30 Channel Bandwidth: 5MHz MODE TX channel 27685 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) Reading
(dBm/5MHz) S.G Power Value (dBm) Correction Factor (dB) EIRP
(dBm/5MHz) Limit
(dBm/5MHz) Margin (dB) 1 2307.50
-18.3 23.1
-0.1 23.0 23.9
-0.9 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) Reading
(dBm/5MHz) S.G Power Value (dBm) Correction Factor (dB) EIRP
(dBm/5MHz) Limit
(dBm/5MHz) Margin (dB) 1 2307.50
-20.3 22.8
-0.1 22.7 23.9
-1.2 MODE TX channel 27710 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) Reading
(dBm/5MHz) S.G Power Value (dBm) Correction Factor (dB) EIRP
(dBm/5MHz) Limit
(dBm/5MHz) Margin (dB) 1 2310.00
-18.7 22.7
-0.1 22.6 23.9
-1.3 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) Reading
(dBm/5MHz) S.G Power Value (dBm) Correction Factor (dB) EIRP
(dBm/5MHz) Limit
(dBm/5MHz) Margin (dB) 1 2310.00
-20.7 22.4
-0.1 22.3 23.9
-1.6 MODE TX channel 27735 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) Reading
(dBm/5MHz) S.G Power Value (dBm) Correction Factor (dB) EIRP
(dBm/5MHz) Limit
(dBm/5MHz) Margin (dB) 1 2312.50
-18.9 22.5
-0.1 22.4 23.9
-1.5 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) Reading
(dBm/5MHz) S.G Power Value (dBm) Correction Factor (dB) EIRP
(dBm/5MHz) Limit
(dBm/5MHz) Margin (dB) 1 2312.50
-20.7 22.4
-0.1 22.3 23.9
-1.6 Note: EIRP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Channel Bandwidth: 10MHz MODE TX channel 27710 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) Reading
(dBm/5MHz) S.G Power Value (dBm) Correction Factor (dB) EIRP
(dBm/5MHz) Limit
(dBm/5MHz) Margin (dB) 1 2310.00
-17.9 23.5
-0.1 23.4 23.9
-0.5 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) Reading
(dBm/5MHz) S.G Power Value (dBm) Correction Factor (dB) EIRP
(dBm/5MHz) Limit
(dBm/5MHz) Margin (dB) 1 2310.00
-20.5 22.6
-0.1 22.5 23.9
-1.4 Note: EIRP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-2 Page No. 50 / 257 Report Format Version: 6.1.1 LTE Band 66 Channel Bandwidth: 1.4MHz MODE TX channel 131979 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1710.70 Reading
(dBm)
-11.2 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 26.8 0.7 27.5 30.0
-2.5 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1710.70 Reading
(dBm)
-12.2 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 25.6 0.7 26.3 30.0
-3.7 MODE TX channel 132322 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1745.00 Reading
(dBm)
-11.1 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 27.6 0.5 28.1 30.0
-1.9 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1745.00 Reading
(dBm)
-12.3 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 26.4 0.5 26.9 30.0
-3.1 MODE TX channel 132665 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1779.30 Reading
(dBm)
-11.4 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 27.8 0.4 28.2 30.0
-1.8 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1779.30 Reading
(dBm)
-12.7 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 26.8 0.4 27.2 30.0
-2.8 Note: EIRP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-2 Page No. 51 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 3MHz MODE TX channel 131987 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1711.50 Reading
(dBm)
-11.3 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 26.7 0.7 27.4 30.0
-2.6 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1711.50 Reading
(dBm)
-12.4 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 25.4 0.7 26.1 30.0
-3.9 MODE TX channel 132322 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1745.00 Reading
(dBm)
-11.5 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 27.2 0.5 27.7 30.0
-2.3 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1745.00 Reading
(dBm)
-12.7 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 26.0 0.5 26.5 30.0
-3.5 MODE TX channel 132657 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1778.50 Reading
(dBm)
-11.4 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 27.8 0.4 28.2 30.0
-1.8 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1778.50 Reading
(dBm)
-12.5 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 27.0 0.4 27.4 30.0
-2.6 Note: EIRP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-2 Page No. 52 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 5MHz MODE TX channel 131997 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1712.50 Reading
(dBm)
-11.1 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 27.0 0.7 27.7 30.0
-2.3 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1712.50 Reading
(dBm)
-12.3 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 25.6 0.7 26.3 30.0
-3.7 MODE TX channel 132322 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1745.00 Reading
(dBm)
-11.4 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 27.3 0.5 27.8 30.0
-2.2 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1745.00 Reading
(dBm)
-12.8 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 25.9 0.5 26.4 30.0
-3.6 MODE TX channel 132647 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1777.50 Reading
(dBm)
-11.7 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 27.5 0.4 27.9 30.0
-2.1 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1777.50 Reading
(dBm)
-13.1 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 26.3 0.4 26.7 30.0
-3.3 Note: EIRP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-2 Page No. 53 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 10MHz MODE TX channel 132022 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1715.00 Reading
(dBm)
-11.3 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 26.8 0.7 27.5 30.0
-2.5 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1715.00 Reading
(dBm)
-12.7 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 25.2 0.7 25.9 30.0
-4.1 MODE TX channel 132322 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1745.00 Reading
(dBm)
-11.5 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 27.2 0.5 27.7 30.0
-2.3 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1745.00 Reading
(dBm)
-12.9 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 25.8 0.5 26.3 30.0
-3.7 MODE TX channel 132622 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1775.00 Reading
(dBm)
-11.4 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 27.8 0.4 28.2 30.0
-1.8 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1775.00 Reading
(dBm)
-12.6 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 26.8 0.4 27.2 30.0
-2.8 Note: EIRP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-2 Page No. 54 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 15MHz MODE TX channel 132047 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1717.50 Reading
(dBm)
-11.2 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 26.9 0.7 27.6 30.0
-2.4 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1717.50 Reading
(dBm)
-12.7 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 25.3 0.7 26.0 30.0
-4.0 MODE TX channel 132322 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1745.00 Reading
(dBm)
-11.6 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 27.1 0.5 27.6 30.0
-2.4 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1745.00 Reading
(dBm)
-12.8 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 25.9 0.5 26.4 30.0
-3.6 MODE TX channel 132597 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1772.50 Reading
(dBm)
-11.5 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 27.7 0.4 28.1 30.0
-1.9 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1772.50 Reading
(dBm)
-12.9 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 26.4 0.4 26.8 30.0
-3.2 Note: EIRP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-2 Page No. 55 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 20MHz MODE TX channel 132072 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1720.00 Reading
(dBm)
-11.0 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 27.2 0.7 27.9 30.0
-2.1 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1720.00 Reading
(dBm)
-12.1 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 25.9 0.7 26.6 30.0
-3.4 MODE TX channel 132322 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1745.00 Reading
(dBm)
-11.4 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 27.3 0.5 27.8 30.0
-2.2 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1745.00 Reading
(dBm)
-12.5 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 26.2 0.5 26.7 30.0
-3.3 MODE TX channel 132572 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1770.00 Reading
(dBm)
-11.7 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 27.3 0.5 27.8 30.0
-2.2 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1770.00 Reading
(dBm)
-13.0 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 26.2 0.5 26.7 30.0
-3.3 Note: EIRP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-2 Page No. 56 / 257 Report Format Version: 6.1.1 Modulation Type: 16QAM LTE Band 4 Channel Bandwidth: 1.4MHz MODE TX channel 19957 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1710.70 Reading
(dBm)
-15.1 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 22.9 0.7 23.6 30.0
-6.4 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1710.70 Reading
(dBm)
-21.6 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 16.2 0.7 16.9 30.0
-13.1 MODE TX channel 20175 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1732.50 Reading
(dBm)
-15.2 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 23.2 0.6 23.8 30.0
-6.2 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1732.50 Reading
(dBm)
-21.3 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 17.0 0.6 17.6 30.0
-12.4 MODE TX channel 20393 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1754.30 Reading
(dBm)
-14.4 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 24.4 0.5 24.9 30.0
-5.1 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1754.30 Reading
(dBm)
-21.1 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 17.8 0.5 18.3 30.0
-11.7 Note: EIRP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-2 Page No. 57 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 3MHz MODE TX channel 19965 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1711.50 Reading
(dBm)
-15.2 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 22.8 0.7 23.5 30.0
-6.5 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1711.50 Reading
(dBm)
-21.4 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 16.4 0.7 17.1 30.0
-12.9 MODE TX channel 20175 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1732.50 Reading
(dBm)
-14.5 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 23.9 0.6 24.5 30.0
-5.5 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1732.50 Reading
(dBm)
-21.2 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 17.1 0.6 17.7 30.0
-12.3 MODE TX channel 20385 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1753.50 Reading
(dBm)
-14.7 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 24.1 0.5 24.6 30.0
-5.4 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1753.50 Reading
(dBm)
-22.0 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 16.9 0.5 17.4 30.0
-12.6 Note: EIRP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-2 Page No. 58 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 5MHz MODE TX channel 19975 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1712.50 Reading
(dBm)
-14.9 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 23.2 0.7 23.9 30.0
-6.1 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1712.50 Reading
(dBm)
-21.9 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 16.0 0.7 16.7 30.0
-13.3 MODE TX channel 20175 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1732.50 Reading
(dBm)
-15.0 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 23.4 0.6 24.0 30.0
-6.0 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1732.50 Reading
(dBm)
-21.5 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 16.8 0.6 17.4 30.0
-12.6 MODE TX channel 20375 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1752.50 Reading
(dBm)
-15.3 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 23.5 0.5 24.0 30.0
-6.0 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1752.50 Reading
(dBm)
-21.7 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 17.1 0.5 17.6 30.0
-12.4 Note: EIRP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-2 Page No. 59 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 10MHz MODE TX channel 20000 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1715.00 Reading
(dBm)
-15.5 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 22.6 0.7 23.3 30.0
-6.7 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1715.00 Reading
(dBm)
-21.2 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 16.7 0.7 17.4 30.0
-12.6 MODE TX channel 20175 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1732.50 Reading
(dBm)
-15.2 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 23.2 0.6 23.8 30.0
-6.2 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1732.50 Reading
(dBm)
-21.9 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 16.4 0.6 17.0 30.0
-13.0 MODE TX channel 20350 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1750.00 Reading
(dBm)
-14.7 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 24.1 0.5 24.6 30.0
-5.4 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1750.00 Reading
(dBm)
-21.3 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 17.5 0.5 18.0 30.0
-12.0 Note: EIRP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-2 Page No. 60 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 15MHz MODE TX channel 20025 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1717.50 Reading
(dBm)
-14.7 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 23.4 0.7 24.1 30.0
-5.9 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1717.50 Reading
(dBm)
-21.1 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 16.9 0.7 17.6 30.0
-12.4 MODE TX channel 20175 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1732.50 Reading
(dBm)
-14.9 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 23.5 0.6 24.1 30.0
-5.9 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1732.50 Reading
(dBm)
-21.2 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 17.1 0.6 17.7 30.0
-12.3 MODE TX channel 20325 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1747.50 Reading
(dBm)
-15.1 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 23.6 0.5 24.1 30.0
-5.9 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1747.50 Reading
(dBm)
-21.8 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 16.9 0.5 17.4 30.0
-12.6 Note: EIRP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-2 Page No. 61 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 20MHz MODE TX channel 20050 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1720.00 Reading
(dBm)
-15.2 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 23.0 0.7 23.7 30.0
-6.3 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1720.00 Reading
(dBm)
-21.8 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 16.2 0.7 16.9 30.0
-13.1 MODE TX channel 20175 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1732.50 Reading
(dBm)
-14.3 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 24.1 0.6 24.7 30.0
-5.3 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1732.50 Reading
(dBm)
-21.4 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 16.9 0.6 17.5 30.0
-12.5 MODE TX channel 20300 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1745.00 Reading
(dBm)
-14.3 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 24.4 0.5 24.9 30.0
-5.1 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1745.00 Reading
(dBm)
-21.0 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 17.7 0.5 18.2 30.0
-11.8 Note: EIRP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-2 Page No. 62 / 257 Report Format Version: 6.1.1 LTE Band 12 Channel Bandwidth: 1.4MHz MODE TX channel 23017 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 699.70 Reading
(dBm)
-8.6 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 15.9 3.5 19.4 34.8
-15.4 No. Freq. (MHz) 1 699.70 Reading
(dBm)
-18.5 Antenna Polarity & Test Distance: Vertical at 3 M Correction Factor (dB) ERP (dBm)) S.G Power Value (dBm) Limit (dBm) Margin (dB) 9.0 3.5 12.5 34.8
-22.3 MODE TX channel 23095 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 707.50 Reading
(dBm)
-9.6 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 15.1 3.5 18.6 34.8
-16.2 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 707.50 Reading
(dBm)
-19.4 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 8.4 3.5 11.9 34.8
-22.9 MODE TX channel 23173 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 715.30 Reading
(dBm)
-9.2 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 15.8 3.5 19.3 34.8
-15.5 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 715.30 Reading
(dBm)
-19.6 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 8.0 3.5 11.5 34.8
-23.3 Note: ERP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-2 Page No. 63 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 3MHz MODE TX channel 23025 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 700.50 Reading
(dBm)
-9.2 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 15.3 3.5 18.8 34.8
-16.0 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 700.50 Reading
(dBm)
-18.9 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 8.7 3.5 12.2 34.8
-22.6 MODE TX channel 23095 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 707.50 Reading
(dBm)
-9.1 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 15.6 3.5 19.1 34.8
-15.7 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 707.50 Reading
(dBm)
-18.9 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 8.9 3.5 12.4 34.8
-22.4 MODE TX channel 23165 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 714.50 Reading
(dBm)
-9.8 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 15.2 3.5 18.7 34.8
-16.1 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 714.50 Reading
(dBm)
-18.8 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 8.8 3.5 12.3 34.8
-22.5 Note: ERP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-2 Page No. 64 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 5MHz MODE TX channel 23035 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 701.50 Reading
(dBm)
-9.5 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 15.1 3.4 18.5 34.8
-16.3 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 701.50 Reading
(dBm)
-18.8 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 8.9 3.4 12.3 34.8
-22.5 MODE TX channel 23095 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 707.50 Reading
(dBm)
-9.6 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 15.1 3.5 18.6 34.8
-16.2 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 707.50 Reading
(dBm)
-19.4 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 8.4 3.5 11.9 34.8
-22.9 MODE TX channel 23155 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 713.50 Reading
(dBm)
-9.4 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 15.6 3.5 19.1 34.8
-15.7 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 713.50 Reading
(dBm)
-18.9 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 8.9 3.5 12.4 34.8
-22.4 Note: ERP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-2 Page No. 65 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 10MHz MODE TX channel 23060 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 704.00 Reading
(dBm)
-9.6 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 15.1 3.5 18.6 34.8
-16.2 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 704.00 Reading
(dBm)
-19.5 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 8.1 3.5 11.6 34.8
-23.2 MODE TX channel 23095 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 707.50 Reading
(dBm)
-9.6 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 15.1 3.5 18.6 34.8
-16.2 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 707.50 Reading
(dBm)
-19.4 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 8.4 3.5 11.9 34.8
-22.9 MODE TX channel 23130 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 711.00 Reading
(dBm)
-9.5 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 15.5 3.5 19.0 34.8
-15.8 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 711.00 Reading
(dBm)
-18.7 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 8.9 3.5 12.4 34.8
-22.4 Note: ERP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-2 Page No. 66 / 257 Report Format Version: 6.1.1 LTE Band 30 Channel Bandwidth: 5MHz MODE TX channel 27685 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 2307.50 Reading
(dBm)
-19.5 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 21.9
-0.1 21.8 23.9
-2.1 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 2307.50 Reading
(dBm)
-24.4 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 18.7
-0.1 18.6 23.9
-5.3 MODE TX channel 27710 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 2310.00 Reading
(dBm)
-18.9 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 22.5
-0.1 22.4 23.9
-1.5 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 2310.00 Reading
(dBm)
-23.8 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 19.3
-0.1 19.2 23.9
-4.7 MODE TX channel 27735 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 2312.50 Reading
(dBm)
-19.2 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 22.2
-0.1 22.1 23.9
-1.8 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 2312.50 Reading
(dBm)
-24.5 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 18.6
-0.1 18.5 23.9
-5.4 Note: EIRP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Channel Bandwidth: 10MHz MODE TX channel 27710 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 2310.00 Reading
(dBm)
-18.9 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 22.5
-0.1 22.4 23.9
-1.5 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 2310.00 Reading
(dBm)
-23.5 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 19.6
-0.1 19.5 23.9
-4.4 Note: EIRP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-2 Page No. 67 / 257 Report Format Version: 6.1.1 LTE Band 66 Channel Bandwidth: 1.4MHz MODE TX channel 131979 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1710.70 Reading
(dBm)
-12.1 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 25.9 0.7 26.6 30.0
-3.4 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1710.70 Reading
(dBm)
-13.1 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 24.7 0.7 25.4 30.0
-4.6 MODE TX channel 132322 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1745.00 Reading
(dBm)
-12.2 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 26.5 0.5 27.0 30.0
-3.0 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1745.00 Reading
(dBm)
-13.3 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 25.4 0.5 25.9 30.0
-4.1 MODE TX channel 132665 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1779.30 Reading
(dBm)
-12.3 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 26.9 0.4 27.3 30.0
-2.7 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1779.30 Reading
(dBm)
-13.6 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 25.9 0.4 26.3 30.0
-3.7 Note: EIRP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-2 Page No. 68 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 3MHz MODE TX channel 131987 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1711.50 Reading
(dBm)
-12.1 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 25.9 0.7 26.6 30.0
-3.4 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1711.50 Reading
(dBm)
-13.3 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 24.5 0.7 25.2 30.0
-4.8 MODE TX channel 132322 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1745.00 Reading
(dBm)
-12.6 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 26.1 0.5 26.6 30.0
-3.4 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1745.00 Reading
(dBm)
-13.8 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 24.9 0.5 25.4 30.0
-4.6 MODE TX channel 132657 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1778.50 Reading
(dBm)
-12.4 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 26.8 0.4 27.2 30.0
-2.8 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1778.50 Reading
(dBm)
-13.5 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 26.0 0.4 26.4 30.0
-3.6 Note: EIRP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-2 Page No. 69 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 5MHz MODE TX channel 131997 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1712.50 Reading
(dBm)
-12.0 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 26.1 0.7 26.8 30.0
-3.2 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1712.50 Reading
(dBm)
-13.2 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 24.7 0.7 25.4 30.0
-4.6 MODE TX channel 132322 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1745.00 Reading
(dBm)
-12.4 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 26.3 0.5 26.8 30.0
-3.2 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1745.00 Reading
(dBm)
-13.8 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 24.9 0.5 25.4 30.0
-4.6 MODE TX channel 132647 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1777.50 Reading
(dBm)
-12.8 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 26.4 0.4 26.8 30.0
-3.2 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1777.50 Reading
(dBm)
-13.9 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 25.5 0.4 25.9 30.0
-4.1 Note: EIRP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-2 Page No. 70 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 10MHz MODE TX channel 132022 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1715.00 Reading
(dBm)
-12.3 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 25.8 0.7 26.5 30.0
-3.5 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1715.00 Reading
(dBm)
-13.7 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 24.2 0.7 24.9 30.0
-5.1 MODE TX channel 132322 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1745.00 Reading
(dBm)
-12.4 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 26.3 0.5 26.8 30.0
-3.2 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1745.00 Reading
(dBm)
-13.8 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 24.9 0.5 25.4 30.0
-4.6 MODE TX channel 132622 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1775.00 Reading
(dBm)
-12.2 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 27.0 0.4 27.4 30.0
-2.6 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1775.00 Reading
(dBm)
-13.5 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 25.9 0.4 26.3 30.0
-3.7 Note: EIRP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-2 Page No. 71 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 15MHz MODE TX channel 132047 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1717.50 Reading
(dBm)
-12.1 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 26.0 0.7 26.7 30.0
-3.3 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1717.50 Reading
(dBm)
-13.7 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 24.3 0.7 25.0 30.0
-5.0 MODE TX channel 132322 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1745.00 Reading
(dBm)
-12.6 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 26.1 0.5 26.6 30.0
-3.4 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1745.00 Reading
(dBm)
-13.8 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 24.9 0.5 25.4 30.0
-4.6 MODE TX channel 132597 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1772.50 Reading
(dBm)
-12.3 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 26.9 0.4 27.3 30.0
-2.7 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1772.50 Reading
(dBm)
-13.7 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 25.6 0.4 26.0 30.0
-4.0 Note: EIRP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-2 Page No. 72 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 20MHz MODE TX channel 132072 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1720.00 Reading
(dBm)
-12.1 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 26.1 0.7 26.8 30.0
-3.2 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1720.00 Reading
(dBm)
-13.1 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 24.9 0.7 25.6 30.0
-4.4 MODE TX channel 132322 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1745.00 Reading
(dBm)
-12.5 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 26.2 0.5 26.7 30.0
-3.3 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1745.00 Reading
(dBm)
-13.4 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 25.3 0.5 25.8 30.0
-4.2 MODE TX channel 132572 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1770.00 Reading
(dBm)
-12.7 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 26.3 0.5 26.8 30.0
-3.2 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1770.00 Reading
(dBm)
-13.9 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 25.3 0.5 25.8 30.0
-4.2 Note: EIRP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-2 Page No. 73 / 257 Report Format Version: 6.1.1 Modulation Type: 64QAM LTE Band 4 Channel Bandwidth: 1.4MHz MODE TX channel 19957 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1710.70 Reading
(dBm)
-15.5 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 22.5 0.7 23.2 30.0
-6.8 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1710.70 Reading
(dBm)
-22.1 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 15.7 0.7 16.4 30.0
-13.6 MODE TX channel 20175 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1732.50 Reading
(dBm)
-15.6 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 22.8 0.6 23.4 30.0
-6.6 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1732.50 Reading
(dBm)
-21.6 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 16.7 0.6 17.3 30.0
-12.7 MODE TX channel 20393 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1754.30 Reading
(dBm)
-14.9 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 23.9 0.5 24.4 30.0
-5.6 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1754.30 Reading
(dBm)
-21.5 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 17.4 0.5 17.9 30.0
-12.1 Note: EIRP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-2 Page No. 74 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 3MHz MODE TX channel 19965 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1711.50 Reading
(dBm)
-15.5 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 22.5 0.7 23.2 30.0
-6.8 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1711.50 Reading
(dBm)
-21.7 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 16.1 0.7 16.8 30.0
-13.2 MODE TX channel 20175 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1732.50 Reading
(dBm)
-14.9 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 23.5 0.6 24.1 30.0
-5.9 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1732.50 Reading
(dBm)
-21.6 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 16.7 0.6 17.3 30.0
-12.7 MODE TX channel 20385 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1753.50 Reading
(dBm)
-15.1 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 23.7 0.5 24.2 30.0
-5.8 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1753.50 Reading
(dBm)
-22.3 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 16.6 0.5 17.1 30.0
-12.9 Note: EIRP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-2 Page No. 75 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 5MHz MODE TX channel 19975 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1712.50 Reading
(dBm)
-15.2 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 22.9 0.7 23.6 30.0
-6.4 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1712.50 Reading
(dBm)
-22.3 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 15.6 0.7 16.3 30.0
-13.7 MODE TX channel 20175 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1732.50 Reading
(dBm)
-15.3 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 23.1 0.6 23.7 30.0
-6.3 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1732.50 Reading
(dBm)
-21.9 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 16.4 0.6 17.0 30.0
-13.0 MODE TX channel 20375 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1752.50 Reading
(dBm)
-15.7 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 23.1 0.5 23.6 30.0
-6.4 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1752.50 Reading
(dBm)
-22.1 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 16.7 0.5 17.2 30.0
-12.8 Note: EIRP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-2 Page No. 76 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 10MHz MODE TX channel 20000 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1715.00 Reading
(dBm)
-15.9 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 22.2 0.7 22.9 30.0
-7.1 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1715.00 Reading
(dBm)
-21.6 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 16.3 0.7 17.0 30.0
-13.0 MODE TX channel 20175 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1732.50 Reading
(dBm)
-15.5 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 22.9 0.6 23.5 30.0
-6.5 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1732.50 Reading
(dBm)
-22.2 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 16.1 0.6 16.7 30.0
-13.3 MODE TX channel 20350 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1750.00 Reading
(dBm)
-15.1 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 23.7 0.5 24.2 30.0
-5.8 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1750.00 Reading
(dBm)
-21.7 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 17.1 0.5 17.6 30.0
-12.4 Note: EIRP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-2 Page No. 77 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 15MHz MODE TX channel 20025 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1717.50 Reading
(dBm)
-15.1 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 23.0 0.7 23.7 30.0
-6.3 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1717.50 Reading
(dBm)
-21.4 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 16.6 0.7 17.3 30.0
-12.7 MODE TX channel 20175 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1732.50 Reading
(dBm)
-15.3 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 23.1 0.6 23.7 30.0
-6.3 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1732.50 Reading
(dBm)
-21.5 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 16.8 0.6 17.4 30.0
-12.6 MODE TX channel 20325 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1747.50 Reading
(dBm)
-15.5 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 23.2 0.5 23.7 30.0
-6.3 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1747.50 Reading
(dBm)
-22.3 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 16.4 0.5 16.9 30.0
-13.1 Note: EIRP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-2 Page No. 78 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 20MHz MODE TX channel 20050 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1720.00 Reading
(dBm)
-15.6 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 22.6 0.7 23.3 30.0
-6.7 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1720.00 Reading
(dBm)
-22.6 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 15.4 0.7 16.1 30.0
-13.9 MODE TX channel 20175 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1732.50 Reading
(dBm)
-14.7 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 23.7 0.6 24.3 30.0
-5.7 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1732.50 Reading
(dBm)
-21.8 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 16.5 0.6 17.1 30.0
-12.9 MODE TX channel 20300 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1745.00 Reading
(dBm)
-14.8 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 23.9 0.5 24.4 30.0
-5.6 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1745.00 Reading
(dBm)
-21.3 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 17.4 0.5 17.9 30.0
-12.1 Note: EIRP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-2 Page No. 79 / 257 Report Format Version: 6.1.1 LTE Band 12 Channel Bandwidth: 1.4MHz MODE TX channel 23017 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 699.70 Reading
(dBm)
-8.9 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 15.6 3.5 19.1 34.8
-15.7 No. Freq. (MHz) 1 699.70 Reading
(dBm)
-18.9 Antenna Polarity & Test Distance: Vertical at 3 M Correction Factor (dB) ERP (dBm)) S.G Power Value (dBm) Limit (dBm) Margin (dB) 8.6 3.5 12.1 34.8
-22.7 MODE TX channel 23095 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 707.50 Reading
(dBm)
-9.9 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 14.8 3.5 18.3 34.8
-16.5 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 707.50 Reading
(dBm)
-19.9 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 7.9 3.5 11.4 34.8
-23.4 MODE TX channel 23173 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 715.30 Reading
(dBm)
-9.6 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 15.4 3.5 18.9 34.8
-15.9 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 715.30 Reading
(dBm)
-19.9 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 7.7 3.5 11.2 34.8
-23.6 Note: ERP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-2 Page No. 80 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 3MHz MODE TX channel 23025 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 700.50 Reading
(dBm)
-9.7 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 14.8 3.5 18.3 34.8
-16.5 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 700.50 Reading
(dBm)
-19.3 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 8.3 3.5 11.8 34.8
-23.0 MODE TX channel 23095 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 707.50 Reading
(dBm)
-9.6 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 15.2 3.5 18.7 34.8
-16.1 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 707.50 Reading
(dBm)
-19.4 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 8.4 3.5 11.9 34.8
-22.9 MODE TX channel 23165 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 714.50 Reading
(dBm)
-10.2 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 14.8 3.5 18.3 34.8
-16.5 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 714.50 Reading
(dBm)
-19.2 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 8.4 3.5 11.9 34.8
-22.9 Note: ERP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-2 Page No. 81 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 5MHz MODE TX channel 23035 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 701.50 Reading
(dBm)
-9.8 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 14.8 3.4 18.2 34.8
-16.6 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 701.50 Reading
(dBm)
-19.3 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 8.4 3.4 11.8 34.8
-23.0 MODE TX channel 23095 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 707.50 Reading
(dBm)
-10.1 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 14.6 3.5 18.1 34.8
-16.7 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 707.50 Reading
(dBm)
-19.9 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 7.9 3.5 11.4 34.8
-23.4 MODE TX channel 23155 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 713.50 Reading
(dBm)
-9.8 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 15.2 3.5 18.7 34.8
-16.1 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 713.50 Reading
(dBm)
-19.4 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 8.4 3.5 11.9 34.8
-22.9 Note: ERP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-2 Page No. 82 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 10MHz MODE TX channel 23060 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 704.00 Reading
(dBm)
-10.2 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 14.5 3.5 18.0 34.8
-16.8 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 704.00 Reading
(dBm)
-19.8 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 7.8 3.5 11.3 34.8
-23.5 MODE TX channel 23095 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 707.50 Reading
(dBm)
-9.9 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 14.8 3.5 18.3 34.8
-16.5 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 707.50 Reading
(dBm)
-19.9 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 7.9 3.5 11.4 34.8
-23.4 MODE TX channel 23130 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 711.00 Reading
(dBm)
-9.8 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 15.2 3.5 18.7 34.8
-16.1 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 711.00 Reading
(dBm)
-19.1 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 8.5 3.5 12.0 34.8
-22.8 Note: ERP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-2 Page No. 83 / 257 Report Format Version: 6.1.1 LTE Band 30 Channel Bandwidth: 5MHz MODE TX channel 27685 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 2307.50 Reading
(dBm)
-19.8 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 21.6
-0.1 21.5 23.9
-2.4 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 2307.50 Reading
(dBm)
-24.8 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 18.3
-0.1 18.2 23.9
-5.7 MODE TX channel 27710 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 2310.00 Reading
(dBm)
-19.4 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 22.0
-0.1 21.9 23.9
-2.0 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 2310.00 Reading
(dBm)
-24.2 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 18.9
-0.1 18.8 23.9
-5.1 MODE TX channel 27735 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 2312.50 Reading
(dBm)
-19.6 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 21.8
-0.1 21.7 23.9
-2.2 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 2312.50 Reading
(dBm)
-24.8 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 18.3
-0.1 18.2 23.9
-5.7 Note: EIRP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Channel Bandwidth: 10MHz MODE TX channel 27710 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 2310.00 Reading
(dBm)
-19.4 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 22.0
-0.1 21.9 23.9
-2.0 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 2310.00 Reading
(dBm)
-23.9 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 19.2
-0.1 19.1 23.9
-4.8 Note: EIRP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-2 Page No. 84 / 257 Report Format Version: 6.1.1 LTE Band 66 Channel Bandwidth: 1.4MHz MODE TX channel 131979 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1710.70 Reading
(dBm)
-12.6 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 25.4 0.7 26.1 30.0
-3.9 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1710.70 Reading
(dBm)
-13.5 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 24.3 0.7 25.0 30.0
-5.0 MODE TX channel 132322 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1745.00 Reading
(dBm)
-12.8 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 25.9 0.5 26.4 30.0
-3.6 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1745.00 Reading
(dBm)
-13.8 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 24.9 0.5 25.4 30.0
-4.6 MODE TX channel 132665 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1779.30 Reading
(dBm)
-12.7 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 26.5 0.4 26.9 30.0
-3.1 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1779.30 Reading
(dBm)
-14.2 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 25.3 0.4 25.7 30.0
-4.3 Note: EIRP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-2 Page No. 85 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 3MHz MODE TX channel 131987 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1711.50 Reading
(dBm)
-12.5 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 25.5 0.7 26.2 30.0
-3.8 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1711.50 Reading
(dBm)
-13.8 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 24.0 0.7 24.7 30.0
-5.3 MODE TX channel 132322 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1745.00 Reading
(dBm)
-13.2 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 25.5 0.5 26.0 30.0
-4.0 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1745.00 Reading
(dBm)
-14.4 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 24.3 0.5 24.8 30.0
-5.2 MODE TX channel 132657 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1778.50 Reading
(dBm)
-12.9 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 26.3 0.4 26.7 30.0
-3.3 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1778.50 Reading
(dBm)
-14.1 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 25.4 0.4 25.8 30.0
-4.2 Note: EIRP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-2 Page No. 86 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 5MHz MODE TX channel 131997 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1712.50 Reading
(dBm)
-12.4 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 25.7 0.7 26.4 30.0
-3.6 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1712.50 Reading
(dBm)
-13.6 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 24.3 0.7 25.0 30.0
-5.0 MODE TX channel 132322 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1745.00 Reading
(dBm)
-13.0 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 25.7 0.5 26.2 30.0
-3.8 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1745.00 Reading
(dBm)
-14.3 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 24.4 0.5 24.9 30.0
-5.1 MODE TX channel 132647 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1777.50 Reading
(dBm)
-13.2 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 26.0 0.4 26.4 30.0
-3.6 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1777.50 Reading
(dBm)
-14.4 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 25.0 0.4 25.4 30.0
-4.6 Note: EIRP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-2 Page No. 87 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 10MHz MODE TX channel 132022 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1715.00 Reading
(dBm)
-12.7 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 25.4 0.7 26.1 30.0
-3.9 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1715.00 Reading
(dBm)
-14.1 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 23.8 0.7 24.5 30.0
-5.5 MODE TX channel 132322 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1745.00 Reading
(dBm)
-12.9 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 25.8 0.5 26.3 30.0
-3.7 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1745.00 Reading
(dBm)
-14.3 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 24.4 0.5 24.9 30.0
-5.1 MODE TX channel 132622 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1775.00 Reading
(dBm)
-12.8 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 26.4 0.4 26.8 30.0
-3.2 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1775.00 Reading
(dBm)
-14.0 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 25.4 0.4 25.8 30.0
-4.2 Note: EIRP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-2 Page No. 88 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 15MHz MODE TX channel 132047 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1717.50 Reading
(dBm)
-12.7 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 25.4 0.7 26.1 30.0
-3.9 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1717.50 Reading
(dBm)
-14.2 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 23.8 0.7 24.5 30.0
-5.5 MODE TX channel 132322 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1745.00 Reading
(dBm)
-13.0 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 25.7 0.5 26.2 30.0
-3.8 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1745.00 Reading
(dBm)
-14.3 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 24.4 0.5 24.9 30.0
-5.1 MODE TX channel 132597 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1772.50 Reading
(dBm)
-12.9 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 26.3 0.4 26.7 30.0
-3.3 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1772.50 Reading
(dBm)
-14.3 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 25.0 0.4 25.4 30.0
-4.6 Note: EIRP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-2 Page No. 89 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 20MHz MODE TX channel 132072 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1720.00 Reading
(dBm)
-12.7 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 25.5 0.7 26.2 30.0
-3.8 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1720.00 Reading
(dBm)
-13.7 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 24.3 0.7 25.0 30.0
-5.0 MODE TX channel 132322 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1745.00 Reading
(dBm)
-13.1 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 25.6 0.5 26.1 30.0
-3.9 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1745.00 Reading
(dBm)
-14.0 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 24.7 0.5 25.2 30.0
-4.8 MODE TX channel 132572 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 1770.00 Reading
(dBm)
-13.3 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 25.7 0.5 26.2 30.0
-3.8 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1770.00 Reading
(dBm)
-14.5 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB) 24.7 0.5 25.2 30.0
-4.8 Note: EIRP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-2 Page No. 90 / 257 Report Format Version: 6.1.1 4.2 Modulation Characteristics Measurement 4.2.1 Limits of Modulation Characteristics N/A 4.2.2 Test Procedure Connect the EUT to Communication Simulator via the antenna connector, the frequency band is set as EUT supported Modulation and Channels, the EUT output is matched with 50 ohm load, the waveform quality and constellation of the EUT was tested. 4.2.3 Test Setup Communication Simulator EUT Report No.: RF181015C09-2 Page No. 91 / 257 Report Format Version: 6.1.1 4.2.4 Test Results LTE Band 4 Spectrum Plot of Measurement Value Channel: 20175 / Frequency (MHz): 1732.5MHz Channel Bandwidth: 20MHz / QPSK Channel Bandwidth: 20MHz / 16QAM Channel Bandwidth: 20MHz / 64QAM Report No.: RF181015C09-2 Page No. 92 / 257 Report Format Version: 6.1.1 LTE Band 12 Spectrum Plot of Measurement Value Channel: 23095 / Frequency (MHz): 707.5 MHz Channel Bandwidth: 10MHz / QPSK Channel Bandwidth: 10MHz / 16QAM Channel Bandwidth: 10MHz / 64QAM Report No.: RF181015C09-2 Page No. 93 / 257 Report Format Version: 6.1.1 LTE Band 30 Spectrum Plot of Measurement Value Channel: 27710 / Frequency (MHz): 2310.0 MHz Channel Bandwidth: 20MHz / QPSK Channel Bandwidth: 20MHz / 16QAM Channel Bandwidth: 20MHz / 64QAM Report No.: RF181015C09-2 Page No. 94 / 257 Report Format Version: 6.1.1 LTE Band 66 Spectrum Plot of Measurement Value Channel: 132322 / Frequency (MHz): 1745 MHz Channel Bandwidth: 20MHz / QPSK Channel Bandwidth: 20MHz / 16QAM Channel Bandwidth: 20MHz / 64QAM Report No.: RF181015C09-2 Page No. 95 / 257 Report Format Version: 6.1.1 4.3 Frequency Stability Measurement 4.3.1 Limits of Frequency Stability Measurement According to the FCC part 2.1055 shall be tested the frequency stability. The rule is defined that The frequency stability shall be sufficient to ensure that the fundamental emission stays within the authorized frequency block. The test extreme voltage is according to the 2.1055(d)(1) Vary primary supply voltage from 85 to 115 percent of the nominal value for other than hand carried battery equipment and the extreme temperature rule is comply with specification of EUT -30 ~ 50. 4.3.2 Test Procedure a. Device is placed at the oven room. The oven room could control the temperatures and humidity. Power warm up is at least 15 min and power applied should perform before recording frequency error. b. EUT is connected the external power supply to control the DC input power. The test voltage range is from minimum to maximum working voltage. Each step shall be record the frequency error rate. c. The temperature range step is 10 degrees in this test items. All temperature levels shall be hold the 0.5 during the measurement testing. The each temperature step shall be at least 0.5 hours, consider the EUT could be test under the stability condition. Communication Note: The frequency error was recorded frequency error from the communication simulator. 4.3.3 Test Setup 20dB ATTENUATION PAD SPECTRUM ANALYZER POWER SPLITTER DC Power Supply Oven Room Simulator External Power Source EUT Report No.: RF181015C09-2 Page No. 96 / 257 Report Format Version: 6.1.1 4.3.4 Test Results Frequency Error vs. Voltage LTE Band 4 Channel Bandwidth: 1.4 MHz Low Channel High Channel Frequency (MHz) 1710.699999 1710.699996 1710.700004 Frequency Error
(ppm) 0.000
-0.002 0.002 Frequency (MHz) 1754.299999 1754.299997 1754.300004 Frequency Error
(ppm) 0.000
-0.002 0.002 Voltage
(Volts) 3.8 3.23 4.37 Note: The applicant defined the normal working voltage of the battery is from 3.23 Vdc to 4.37 Vdc. Frequency Error vs. Temperature Temp. () Low Channel High Channel LTE Band 4 Channel Bandwidth: 1.4 MHz
-30
-20
-10 0 10 20 30 40 50 Frequency (MHz) 1710.700008 1710.700006 1710.700003 1710.700001 1710.700000 1710.699997 1710.699996 1710.699994 1710.699992 Frequency Error
(ppm) 0.005 0.004 0.002 0.001 0.000
-0.002
-0.003
-0.004
-0.005 Frequency (MHz) 1754.300009 1754.300005 1754.300003 1754.300002 1754.300000 1754.299998 1754.299996 1754.299993 1754.299992 Frequency Error
(ppm) 0.005 0.003 0.002 0.001 0.000
-0.001
-0.002
-0.004
-0.005 Report No.: RF181015C09-2 Page No. 97 / 257 Report Format Version: 6.1.1 Voltage
(Volts) 3.8 3.23 4.37 LTE Band 4 Channel Bandwidth: 3 MHz Low Channel High Channel Frequency (MHz) 1711.500001 1711.499997 1711.500003 Frequency Error
(ppm) 0.001
-0.002 0.002 Frequency (MHz) 1753.500000 1753.499996 1753.500004 Frequency Error
(ppm) 0.000
-0.002 0.003 Note: The applicant defined the normal working voltage of the battery is from 3.23 Vdc to 4.37 Vdc. Frequency Error vs. Temperature Temp. () Low Channel High Channel LTE Band 4 Channel Bandwidth: 3 MHz
-30
-20
-10 0 10 20 30 40 50 Frequency (MHz) 1711.500008 1711.500007 1711.500003 1711.500002 1711.500000 1711.499997 1711.499997 1711.499994 1711.499991 Frequency Error
(ppm) 0.005 0.004 0.002 0.001 0.000
-0.002
-0.002
-0.004
-0.005 Frequency (MHz) 1753.500008 1753.500006 1753.500003 1753.500001 1753.499999 1753.499997 1753.499996 1753.499993 1753.499992 Frequency Error
(ppm) 0.004 0.004 0.002 0.001 0.000
-0.002
-0.002
-0.004
-0.004 Report No.: RF181015C09-2 Page No. 98 / 257 Report Format Version: 6.1.1 Voltage
(Volts) 3.8 3.23 4.37 LTE Band 4 Channel Bandwidth: 5MHz Low Channel High Channel Frequency (MHz) 1712.499999 1712.499996 1712.500004 Frequency Error
(ppm)
-0.001
-0.002 0.002 Frequency (MHz) 1752.499999 1752.499997 1752.500003 Frequency Error
(ppm) 0.000
-0.002 0.002 Note: The applicant defined the normal working voltage of the battery is from 3.23 Vdc to 4.37 Vdc. Frequency Error vs. Temperature Temp. () Low Channel High Channel LTE Band 4 Channel Bandwidth: 5MHz
-30
-20
-10 0 10 20 30 40 50 Frequency (MHz) 1712.500009 1712.500006 1712.500003 1712.500002 1712.499999 1712.499998 1712.499995 1712.499994 1712.499992 Frequency Error
(ppm) 0.005 0.003 0.002 0.001
-0.001
-0.001
-0.003
-0.004
-0.004 Frequency (MHz) 1752.500008 1752.500007 1752.500004 1752.500001 1752.499999 1752.499998 1752.499996 1752.499994 1752.499991 Frequency Error
(ppm) 0.004 0.004 0.002 0.001 0.000
-0.001
-0.003
-0.004
-0.005 Report No.: RF181015C09-2 Page No. 99 / 257 Report Format Version: 6.1.1 Voltage
(Volts) 3.8 3.23 4.37 LTE Band 4 Channel Bandwidth: 10MHz Low Channel High Channel Frequency (MHz) 1715.000000 1714.999996 1715.000003 Frequency Error
(ppm) 0.000
-0.002 0.001 Frequency (MHz) 1749.999999 1749.999996 1750.000003 Frequency Error
(ppm) 0.000
-0.002 0.002 Note: The applicant defined the normal working voltage of the battery is from 3.23 Vdc to 4.37 Vdc. Frequency Error vs. Temperature Temp. () Low Channel High Channel LTE Band 4 Channel Bandwidth: 10MHz
-30
-20
-10 0 10 20 30 40 50 Frequency (MHz) 1715.000008 1715.000006 1715.000003 1715.000002 1715.000001 1714.999998 1714.999996 1714.999995 1714.999992 Frequency Error
(ppm) 0.005 0.004 0.002 0.001 0.000
-0.001
-0.002
-0.003
-0.005 Frequency (MHz) 1750.000009 1750.000007 1750.000004 1750.000002 1750.000000 1749.999998 1749.999995 1749.999993 1749.999992 Frequency Error
(ppm) 0.005 0.004 0.002 0.001 0.000
-0.001
-0.003
-0.004
-0.005 Report No.: RF181015C09-2 Page No. 100 / 257 Report Format Version: 6.1.1 Voltage
(Volts) 3.8 3.23 4.37 LTE Band 4 Channel Bandwidth: 15MHz Low Channel High Channel Frequency (MHz) 1717.499999 1717.499995 1717.500004 Frequency Error
(ppm) 0.000
-0.003 0.002 Frequency (MHz) 1747.499999 1747.499996 1747.500004 Frequency Error
(ppm)
-0.001
-0.002 0.002 Note: The applicant defined the normal working voltage of the battery is from 3.23 Vdc to 4.37 Vdc. Frequency Error vs. Temperature Temp. () Low Channel High Channel LTE Band 4 Channel Bandwidth: 15MHz
-30
-20
-10 0 10 20 30 40 50 Frequency (MHz) 1717.500008 1717.500005 1717.500003 1717.500001 1717.500000 1717.499999 1717.499996 1717.499995 1717.499992 Frequency Error
(ppm) 0.005 0.003 0.002 0.001 0.000
-0.001
-0.002
-0.003
-0.005 Frequency (MHz) 1747.500007 1747.500006 1747.500004 1747.500001 1747.500000 1747.499998 1747.499995 1747.499994 1747.499991 Frequency Error
(ppm) 0.004 0.004 0.002 0.001 0.000
-0.001
-0.003
-0.004
-0.005 Report No.: RF181015C09-2 Page No. 101 / 257 Report Format Version: 6.1.1 Voltage
(Volts) 3.8 3.23 4.37 LTE Band 4 Channel Bandwidth: 20MHz Low Channel High Channel Frequency (MHz) 1720.000000 1719.999995 1720.000003 Frequency Error
(ppm) 0.000
-0.003 0.002 Frequency (MHz) 1744.999999 1744.999995 1745.000004 Frequency Error
(ppm) 0.000
-0.003 0.002 Note: The applicant defined the normal working voltage of the battery is from 3.23 Vdc to 4.37 Vdc. Frequency Error vs. Temperature Temp. () Low Channel High Channel LTE Band 4 Channel Bandwidth: 20MHz
-30
-20
-10 0 10 20 30 40 50 Frequency (MHz) 1720.000008 1720.000005 1720.000003 1720.000002 1720.000000 1719.999997 1719.999996 1719.999993 1719.999992 Frequency Error
(ppm) 0.005 0.003 0.002 0.001 0.000
-0.002
-0.002
-0.004
-0.005 Frequency (MHz) 1745.000009 1745.000006 1745.000003 1745.000001 1744.999999 1744.999997 1744.999996 1744.999995 1744.999993 Frequency Error
(ppm) 0.005 0.003 0.002 0.001
-0.001
-0.002
-0.002
-0.003
-0.004 Report No.: RF181015C09-2 Page No. 102 / 257 Report Format Version: 6.1.1 Voltage
(Volts) 3.8 3.23 4.37 LTE Band 12 Channel Bandwidth: 1.4MHz Low Channel High Channel Frequency (MHz) 699.700001 699.699995 699.700003 Frequency Error
(ppm) 0.001
-0.008 0.004 Frequency (MHz) 715.300001 715.299995 715.300003 Frequency Error
(ppm) 0.001
-0.007 0.005 Note: The applicant defined the normal working voltage of the battery is from 3.23 Vdc to 4.37 Vdc. Frequency Error vs. Temperature Temp. () Low Channel High Channel LTE Band 12 Channel Bandwidth: 1.4MHz
-30
-20
-10 0 10 20 30 40 50 Frequency (MHz) 699.700008 699.700006 699.700005 699.700002 699.700001 699.699998 699.699997 699.699993 699.699992 Frequency Error
(ppm) 0.012 0.009 0.006 0.003 0.001
-0.004
-0.005
-0.010
-0.012 Frequency (MHz) 715.300009 715.300007 715.300004 715.300001 715.300000 715.299998 715.299995 715.299995 715.299991 Frequency Error
(ppm) 0.012 0.009 0.005 0.002 0.000
-0.003
-0.007
-0.008
-0.012 Report No.: RF181015C09-2 Page No. 103 / 257 Report Format Version: 6.1.1 Voltage
(Volts) 3.8 3.23 4.37 LTE Band 12 Channel Bandwidth: 3MHz Low Channel High Channel Frequency (MHz) 700.500001 700.499996 700.500003 Frequency Error
(ppm) 0.001
-0.006 0.004 Frequency (MHz) 714.500001 714.499996 714.500005 Frequency Error
(ppm) 0.001
-0.006 0.006 Note: The applicant defined the normal working voltage of the battery is from 3.23 Vdc to 4.37 Vdc. Frequency Error vs. Temperature Temp. () Low Channel High Channel LTE Band 12 Channel Bandwidth: 3MHz
-30
-20
-10 0 10 20 30 40 50 Frequency (MHz) 700.500008 700.500005 700.500003 700.500003 700.499999 700.499998 700.499996 700.499993 700.499992 Frequency Error
(ppm) 0.012 0.007 0.004 0.004
-0.001
-0.003
-0.006
-0.010
-0.012 Frequency (MHz) 714.500008 714.500006 714.500004 714.500002 714.499999 714.499999 714.499996 714.499994 714.499992 Frequency Error
(ppm) 0.012 0.008 0.006 0.003
-0.001
-0.001
-0.005
-0.009
-0.011 Report No.: RF181015C09-2 Page No. 104 / 257 Report Format Version: 6.1.1 Voltage
(Volts) 3.8 3.23 4.37 LTE Band 12 Channel Bandwidth: 5MHz Low Channel High Channel Frequency (MHz) 701.500000 701.499995 701.500004 Frequency Error
(ppm) 0.001
-0.007 0.005 Frequency (MHz) 713.499999 713.499995 713.500003 Frequency Error
(ppm)
-0.001
-0.007 0.004 Note: The applicant defined the normal working voltage of the battery is from 3.23 Vdc to 4.37 Vdc. Frequency Error vs. Temperature Temp. () Low Channel High Channel LTE Band 12 Channel Bandwidth: 5MHz
-30
-20
-10 0 10 20 30 40 50 Frequency (MHz) 701.500007 701.500005 701.500004 701.500002 701.500000 701.499998 701.499996 701.499994 701.499993 Frequency Error
(ppm) 0.010 0.007 0.005 0.003 0.000
-0.003
-0.005
-0.009
-0.011 Frequency (MHz) 713.500007 713.500005 713.500003 713.500001 713.500001 713.499997 713.499997 713.499994 713.499992 Frequency Error
(ppm) 0.010 0.007 0.004 0.002 0.001
-0.004
-0.004
-0.008
-0.011 Report No.: RF181015C09-2 Page No. 105 / 257 Report Format Version: 6.1.1 Voltage
(Volts) 3.8 3.23 4.37 LTE Band 12 Channel Bandwidth: 10MHz Low Channel High Channel Frequency (MHz) 704.000001 703.999996 704.000003 Frequency Error
(ppm) 0.001
-0.006 0.004 Frequency (MHz) 710.999999 710.999997 711.000004 Frequency Error
(ppm)
-0.001
-0.005 0.006 Note: The applicant defined the normal working voltage of the battery is from 3.23 Vdc to 4.37 Vdc. Frequency Error vs. Temperature Temp. () Low Channel High Channel LTE Band 12 Channel Bandwidth: 10MHz
-30
-20
-10 0 10 20 30 40 50 Frequency (MHz) 704.000007 704.000005 704.000004 704.000003 703.999999 703.999998 703.999997 703.999994 703.999992 Frequency Error
(ppm) 0.011 0.008 0.005 0.004
-0.001
-0.004
-0.005
-0.008
-0.012 Frequency (MHz) 711.000008 711.000007 711.000003 711.000001 710.999999 710.999998 710.999997 710.999993 710.999991 Frequency Error
(ppm) 0.011 0.009 0.005 0.002
-0.001
-0.003
-0.004
-0.010
-0.012 Report No.: RF181015C09-2 Page No. 106 / 257 Report Format Version: 6.1.1 Voltage
(Volts) 3.8 3.23 4.37 LTE Band 30 Channel Bandwidth: 5MHz Low Channel High Channel Frequency (MHz) 2307.500000 2307.499996 2307.500004 Frequency Error
(ppm) 0.000
-0.002 0.002 Frequency (MHz) 2312.500000 2312.499996 2312.500004 Frequency Error
(ppm) 0.000
-0.002 0.002 Note: The applicant defined the normal working voltage of the battery is from 3.23 Vdc to 4.37 Vdc. Frequency Error vs. Temperature Temp. () Low Channel High Channel LTE Band 30 Channel Bandwidth: 5MHz
-30
-20
-10 0 10 20 30 40 50 Frequency (MHz) 2307.500009 2307.500007 2307.500004 2307.500002 2307.500000 2307.499999 2307.499996 2307.499994 2307.499992 Frequency Error
(ppm) 0.004 0.003 0.002 0.001 0.000 0.000
-0.002
-0.003
-0.003 Frequency (MHz) 2312.500008 2312.500006 2312.500003 2312.500002 2312.500001 2312.499998 2312.499997 2312.499994 2312.499992 Frequency Error
(ppm) 0.003 0.002 0.001 0.001 0.000
-0.001
-0.002
-0.003
-0.003 Report No.: RF181015C09-2 Page No. 107 / 257 Report Format Version: 6.1.1 Frequency Error vs. Voltage Voltage
(Volts) 3.8 3.23 4.37 LTE Band 30 Channel Bandwidth: 10 MHz Frequency (MHz) 2309.999999 2309.999995 2310.000004 Frequency Error (ppm) 0.000
-0.002 0.002 Note: The applicant defined the normal working voltage of the battery is from 3.23 Vdc to 4.37 Vdc. Frequency Error vs. Temperature Temp. () LTE Band 30 Channel Bandwidth: 10 MHz
-30
-20
-10 0 10 20 30 40 50 Frequency (MHz) 2310.000008 2310.000007 2310.000004 2310.000002 2310.000000 2309.999997 2309.999995 2309.999994 2309.999992 Frequency Error (ppm) 0.003 0.003 0.002 0.001 0.000
-0.001
-0.002
-0.003
-0.004 Report No.: RF181015C09-2 Page No. 108 / 257 Report Format Version: 6.1.1 Voltage
(Volts) 3.8 3.23 4.37 LTE Band 66 Channel Bandwidth: 1.4MHz Low Channel High Channel Frequency (MHz) 1710.700000 1710.699996 1710.700003 Frequency Error
(ppm) 0.000
-0.002 0.002 Frequency (MHz) 1779.299999 1779.299995 1779.300004 Frequency Error
(ppm) 0.000
-0.003 0.002 Note: The applicant defined the normal working voltage of the battery is from 3.23 Vdc to 4.37 Vdc. Frequency Error vs. Temperature Temp. () Low Channel High Channel LTE Band 66 Channel Bandwidth: 1.4MHz
-30
-20
-10 0 10 20 30 40 50 Frequency (MHz) 1710.700008 1710.700006 1710.700004 1710.700002 1710.700000 1710.699997 1710.699996 1710.699993 1710.699992 Frequency Error
(ppm) 0.005 0.004 0.003 0.001 0.000
-0.002
-0.002
-0.004
-0.005 Frequency (MHz) 1779.300008 1779.300005 1779.300003 1779.300003 1779.300001 1779.299998 1779.299995 1779.299994 1779.299992 Frequency Error
(ppm) 0.004 0.003 0.002 0.001 0.001
-0.001
-0.003
-0.004
-0.005 Report No.: RF181015C09-2 Page No. 109 / 257 Report Format Version: 6.1.1 Voltage
(Volts) 3.8 3.23 4.37 LTE Band 66 Channel Bandwidth: 3MHz Low Channel High Channel Frequency (MHz) 1711.500000 1711.499995 1711.500004 Frequency Error
(ppm) 0.000
-0.003 0.002 Frequency (MHz) 1778.500000 1778.499996 1778.500004 Frequency Error
(ppm) 0.000
-0.002 0.002 Note: The applicant defined the normal working voltage of the battery is from 3.23 Vdc to 4.37 Vdc. Frequency Error vs. Temperature Temp. () Low Channel High Channel LTE Band 66 Channel Bandwidth: 3MHz
-30
-20
-10 0 10 20 30 40 50 Frequency (MHz) 1711.500008 1711.500005 1711.500003 1711.500002 1711.500000 1711.499999 1711.499995 1711.499994 1711.499992 Frequency Error
(ppm) 0.005 0.003 0.002 0.001 0.000
-0.001
-0.003
-0.004
-0.005 Frequency (MHz) 1778.500009 1778.500006 1778.500003 1778.500002 1778.500001 1778.499999 1778.499997 1778.499993 1778.499992 Frequency Error
(ppm) 0.005 0.003 0.001 0.001 0.000
-0.001
-0.002
-0.004
-0.005 Report No.: RF181015C09-2 Page No. 110 / 257 Report Format Version: 6.1.1 Voltage
(Volts) 3.8 3.23 4.37 LTE Band 66 Channel Bandwidth: 5MHz Low Channel High Channel Frequency (MHz) 1712.500000 1712.499996 1712.500004 Frequency Error
(ppm) 0.000
-0.002 0.003 Frequency (MHz) 1777.500001 1777.499996 1777.500003 Frequency Error
(ppm) 0.001
-0.002 0.002 Note: The applicant defined the normal working voltage of the battery is from 3.23 Vdc to 4.37 Vdc. Frequency Error vs. Temperature Temp. () Low Channel High Channel LTE Band 66 Channel Bandwidth: 5MHz
-30
-20
-10 0 10 20 30 40 50 Frequency (MHz) 1712.500008 1712.500006 1712.500003 1712.500001 1712.500000 1712.499997 1712.499995 1712.499994 1712.499991 Frequency Error
(ppm) 0.005 0.003 0.002 0.001 0.000
-0.002
-0.003
-0.004
-0.005 Frequency (MHz) 1777.500007 1777.500006 1777.500004 1777.500002 1777.500000 1777.499999 1777.499995 1777.499994 1777.499991 Frequency Error
(ppm) 0.004 0.003 0.002 0.001 0.000
-0.001
-0.003
-0.003
-0.005 Report No.: RF181015C09-2 Page No. 111 / 257 Report Format Version: 6.1.1 Voltage
(Volts) 3.8 3.23 4.37 LTE Band 66 Channel Bandwidth: 10MHz Low Channel High Channel Frequency (MHz) 1715.000000 1714.999996 1715.000004 Frequency Error
(ppm) 0.000
-0.002 0.002 Frequency (MHz) 1775.000000 1774.999996 1775.000004 Frequency Error
(ppm) 0.000
-0.002 0.002 Note: The applicant defined the normal working voltage of the battery is from 3.23 Vdc to 4.37 Vdc. Frequency Error vs. Temperature Temp. () Low Channel High Channel LTE Band 66 Channel Bandwidth: 10MHz
-30
-20
-10 0 10 20 30 40 50 Frequency (MHz) 1715.000009 1715.000007 1715.000003 1715.000001 1715.000000 1714.999998 1714.999997 1714.999993 1714.999992 Frequency Error
(ppm) 0.005 0.004 0.002 0.001 0.000
-0.001
-0.002
-0.004
-0.005 Frequency (MHz) 1775.000008 1775.000005 1775.000004 1775.000002 1775.000000 1774.999997 1774.999995 1774.999993 1774.999992 Frequency Error
(ppm) 0.004 0.003 0.002 0.001 0.000
-0.002
-0.003
-0.004
-0.004 Report No.: RF181015C09-2 Page No. 112 / 257 Report Format Version: 6.1.1 Voltage
(Volts) 3.8 3.23 4.37 LTE Band 66 Channel Bandwidth: 15MHz Low Channel High Channel Frequency (MHz) 1717.500000 1717.499997 1717.500003 Frequency Error
(ppm) 0.000
-0.002 0.002 Frequency (MHz) 1772.500000 1772.499995 1772.500003 Frequency Error
(ppm) 0.000
-0.003 0.001 Note: The applicant defined the normal working voltage of the battery is from 3.23 Vdc to 4.37 Vdc. Frequency Error vs. Temperature Temp. () Low Channel High Channel LTE Band 66 Channel Bandwidth: 15MHz
-30
-20
-10 0 10 20 30 40 50 Frequency (MHz) 1717.500008 1717.500005 1717.500005 1717.500001 1717.499999 1717.499999 1717.499995 1717.499994 1717.499993 Frequency Error
(ppm) 0.005 0.003 0.003 0.001
-0.001
-0.001
-0.003
-0.003
-0.004 Frequency (MHz) 1772.500009 1772.500005 1772.500003 1772.500002 1772.499999 1772.499997 1772.499997 1772.499993 1772.499991 Frequency Error
(ppm) 0.005 0.003 0.002 0.001 0.000
-0.002
-0.002
-0.004
-0.005 Report No.: RF181015C09-2 Page No. 113 / 257 Report Format Version: 6.1.1 Voltage
(Volts) 3.8 3.23 4.37 LTE Band 66 Channel Bandwidth: 20MHz Low Channel High Channel Frequency (MHz) 1720.000001 1719.999997 1720.000003 Frequency Error
(ppm) 0.000
-0.002 0.002 Frequency (MHz) 1769.999999 1769.999996 1770.000004 Frequency Error
(ppm) 0.000
-0.002 0.002 Note: The applicant defined the normal working voltage of the battery is from 3.23 Vdc to 4.37 Vdc. Frequency Error vs. Temperature Temp. () Low Channel High Channel LTE Band 66 Channel Bandwidth: 20MHz
-30
-20
-10 0 10 20 30 40 50 Frequency (MHz) 1720.000008 1720.000006 1720.000003 1720.000002 1719.999999 1719.999998 1719.999995 1719.999993 1719.999992 Frequency Error
(ppm) 0.004 0.003 0.002 0.001 0.000
-0.001
-0.003
-0.004
-0.005 Frequency (MHz) 1770.000007 1770.000007 1770.000003 1770.000002 1770.000000 1769.999998 1769.999995 1769.999993 1769.999992 Frequency Error
(ppm) 0.004 0.004 0.002 0.001 0.000
-0.001
-0.003
-0.004
-0.004 Report No.: RF181015C09-2 Page No. 114 / 257 Report Format Version: 6.1.1 4.4 Emission Bandwidth Measurement 4.4.1 Limits of Emission Bandwidth Measurement For 26dB bandwidth:
According to FCC 27.53(h) specified that emission bandwidth is defined as the width of the signal between two points, one below the carrier center frequency and one above the carrier center frequency, outside of which all emissions are attenuated at least 26dB below the transmitter power. For 99% occupied bandwidth:
NA. 4.4.2 Test Procedure For 26dB bandwidth:
The transmitter output was connected to the spectrum analyzer through an attenuator. The bandwidth of the fundamental frequency was measured by spectrum analyzer with RBW = 30kHz and VBW = 100kHz
(Channel Bandwidth: 1.4MHz), RBW = 62kHz and VBW = 200kHz (Channel Bandwidth: 3MHz), RBW =
100kHz and VBW = 300kHz (Channel Bandwidth: 5MHz), RBW = 200kHz and VBW = 1MHz (Channel Bandwidth: 10MHz), RBW = 300kHz and VBW = 1MHz (Channel Bandwidth: 15MHz) and RBW = 430kHz and VBW = 1.2MHz (Channel Bandwidth: 20MHz). The 26dB bandwidth is defined as the total spectrum the power of which is higher than peak power minus 26dB. For 99% occupied bandwidth:
The EUT makes a call to the communication simulator. All measurements were done at low, middle and high operational frequency range. The communication simulator station system controlled a EUT to export maximum output power under transmission mode and specific channel frequency. Use OBW measurement function of Spectrum analyzer to measure 99 % occupied bandwidth. 4.4.3 Test Setup 20dB ATTENUATION PAD SPECTRUM ANALYZER POWER SPLITTER COMMUNICATION SIMULATOR EUT Report No.: RF181015C09-2 Page No. 115 / 257 Report Format Version: 6.1.1 4.4.4 Test Result LTE Band 4 Channel Bandwidth: 1.4MHz Channel 19957 20175 20393 Frequency
(MHz) 1710.7 1732.5 1754.3 26dBc Bandwidth (MHz) Occupied Bandwidth (MHz) QPSK 1.22 1.23 1.23 16QAM 1.21 1.23 1.22 64QAM 1.22 1.22 1.22 QPSK 1.09 1.09 1.09 16QAM 1.09 1.09 1.09 64QAM 1.09 1.09 1.09 Channel Bandwidth: 3MHz Channel 19965 20175 20385 Frequency
(MHz) 1711.5 1732.5 1753.5 26dBc Bandwidth (MHz) Occupied Bandwidth (MHz) QPSK 2.93 2.95 2.92 16QAM 2.94 2.95 2.92 64QAM 2.93 2.92 2.93 QPSK 2.70 2.70 2.70 16QAM 2.70 2.70 2.70 64QAM 2.70 2.70 2.70 Channel Bandwidth: 5MHz Channel 19975 20175 20375 Frequency
(MHz) 1712.5 1732.5 1752.5 26dBc Bandwidth (MHz) Occupied Bandwidth (MHz) QPSK 4.81 4.81 4.82 16QAM 4.81 4.82 4.83 64QAM 4.81 4.81 4.80 QPSK 4.49 4.49 4.49 16QAM 4.49 4.49 4.49 64QAM 4.49 4.49 4.49 Channel Bandwidth: 10MHz Channel 20000 20175 20350 Frequency
(MHz) 1715.0 1732.5 1750.0 26dBc Bandwidth (MHz) Occupied Bandwidth (MHz) QPSK 9.51 9.51 9.52 16QAM 9.51 9.51 9.50 64QAM 9.51 9.54 9.49 QPSK 8.97 8.96 8.96 16QAM 8.96 8.96 8.97 64QAM 8.96 8.96 8.96 Channel Bandwidth: 15MHz Channel 20025 20175 20325 Frequency
(MHz) 1717.5 1732.5 1747.5 26dBc Bandwidth (MHz) Occupied Bandwidth (MHz) QPSK 14.26 14.27 14.28 16QAM 14.25 14.24 14.30 64QAM 14.22 14.26 14.29 QPSK 13.46 13.45 13.47 16QAM 13.44 13.43 13.46 64QAM 13.44 13.43 13.45 Report No.: RF181015C09-2 Page No. 116 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 20MHz Channel 20050 20175 20300 Frequency
(MHz) 1720.0 1732.5 1745.0 26dBc Bandwidth (MHz) Occupied Bandwidth (MHz) QPSK 19.01 19.03 19.08 16QAM 18.99 19.01 19.07 64QAM 19.01 19.02 19.07 QPSK 17.90 17.90 17.99 16QAM 17.91 17.92 18.00 64QAM 17.91 17.91 18.01 Report No.: RF181015C09-2 Page No. 117 / 257 Report Format Version: 6.1.1 26dBc Bandwidth Spectrum Plot of Worst Value 1.4MHz / QPSK 3MHz / QPSK 5MHz / 16QAM 10MHz / 64QAM 15MHz / 16QAM 20MHz / QPSK Report No.: RF181015C09-2 Page No. 118 / 257 Report Format Version: 6.1.1 Occupied Bandwidth Spectrum Plot of Worst Value 1.4MHz / QPSK 3MHz / QPSK 5MHz / 16QAM 10MHz / 16QAM 15MHz / QPSK 20MHz / 64QAM Report No.: RF181015C09-2 Page No. 119 / 257 Report Format Version: 6.1.1 LTE Band 12 Channel 23017 23095 23173 Channel 23025 23095 23165 Channel 23035 23095 23155 Channel 23060 23095 23130 Frequency
(MHz) 699.7 707.5 715.3 Frequency
(MHz) 700.5 707.5 714.5 Frequency
(MHz) 701.5 707.5 713.5 Frequency
(MHz) 704 707.5 711 Channel Bandwidth: 1.4MHz 26dBc Bandwidth (MHz) Occupied Bandwidth (MHz) QPSK 1.20 1.22 1.24 16QAM 1.22 1.22 1.23 64QAM 1.18 1.18 1.22 QPSK 1.09 1.09 1.09 16QAM 1.09 1.09 1.09 64QAM 1.08 1.09 1.09 Channel Bandwidth: 3MHz 26dBc Bandwidth (MHz) Occupied Bandwidth (MHz) QPSK 2.93 2.92 2.96 16QAM 2.93 2.93 2.95 64QAM 2.82 2.93 2.83 QPSK 2.70 2.70 2.70 16QAM 2.69 2.69 2.70 64QAM 2.70 2.70 2.70 Channel Bandwidth: 5MHz 26dBc Bandwidth (MHz) Occupied Bandwidth (MHz) QPSK 4.79 4.81 4.83 16QAM 4.81 4.82 4.82 64QAM 4.81 4.82 4.82 QPSK 4.49 4.49 4.49 16QAM 4.49 4.49 4.49 64QAM 4.49 4.49 4.49 Channel Bandwidth: 10MHz 26dBc Bandwidth (MHz) Occupied Bandwidth (MHz) 16QAM 9.53 9.52 9.51 64QAM 9.53 9.52 9.52 QPSK 8.97 8.96 8.95 16QAM 8.97 8.97 8.96 64QAM 8.97 8.96 8.95 QPSK 9.53 9.52 9.51 Report No.: RF181015C09-2 Page No. 120 / 257 Report Format Version: 6.1.1 26dBc Bandwidth Spectrum Plot of Worst Value 1.4MHz / QPSK 3MHz / QPSK 5MHz / QPSK 10MHz / QPSK Report No.: RF181015C09-2 Page No. 121 / 257 Report Format Version: 6.1.1 Occupied Bandwidth Spectrum Plot of Worst Value 1.4MHz / QPSK 3MHz / QPSK 5MHz / QPSK 10MHz / QPSK Report No.: RF181015C09-2 Page No. 122 / 257 Report Format Version: 6.1.1 LTE Band 30 Channel Bandwidth: 5MHz Channel 27685 27710 27735 Frequency
(MHz) 2307.5 2310.0 2312.5 26dBc Bandwidth (MHz) Occupied Bandwidth (MHz) QPSK 4.78 4.79 4.79 16QAM 4.80 4.80 4.80 64QAM 4.82 4.85 4.83 QPSK 4.48 4.48 4.49 16QAM 4.49 4.49 4.49 64QAM 4.49 4.50 4.49 Channel Bandwidth: 10MHz Channel Frequency
(MHz) 27710 2310 26dBc Bandwidth (MHz) Occupied Bandwidth (MHz) QPSK 9.49 16QAM 9.50 64QAM 9.50 QPSK 8.94 16QAM 8.94 64QAM 8.94 26dBc Bandwidth Spectrum Plot of Worst Value 5MHz / 64QAM 10MHz / 64QAM Occupied Bandwidth Spectrum Plot of Worst Value 5MHz / 64QAM 10MHz / 64QAM Page No. 123 / 257 Report Format Version: 6.1.1 Report No.: RF181015C09-2 LTE Band 66 Channel 131979 132322 132665 Channel 131987 132322 132657 Channel 131997 132322 132647 Channel 132022 132322 132622 Channel 132047 132322 132597 Frequency
(MHz) 1710.7 1745.0 1779.3 Frequency
(MHz) 1711.5 1745.0 1778.5 Frequency
(MHz) 1712.5 1745.0 1777.5 Frequency
(MHz) 1715.0 1745.0 1775.0 Frequency
(MHz) 1717.5 1745.0 1772.5 Channel Bandwidth: 1.4MHz 26dBc Bandwidth (MHz) Occupied Bandwidth (MHz) QPSK 1.21 1.23 1.24 16QAM 1.22 1.22 1.22 64QAM 1.22 1.22 1.23 QPSK 1.09 1.09 1.09 16QAM 1.09 1.09 1.09 64QAM 1.09 1.09 1.09 Channel Bandwidth: 3MHz 26dBc Bandwidth (MHz) Occupied Bandwidth (MHz) QPSK 2.94 2.93 2.96 16QAM 2.94 2.95 2.96 64QAM 2.90 2.91 2.94 QPSK 2.70 2.70 2.70 16QAM 2.70 2.70 2.70 64QAM 2.70 2.70 2.70 Channel Bandwidth: 5MHz 26dBc Bandwidth (MHz) Occupied Bandwidth (MHz) QPSK 4.81 4.81 4.85 16QAM 4.81 4.80 4.84 64QAM 4.82 4.82 4.85 QPSK 4.49 4.49 4.49 16QAM 4.49 4.49 4.49 64QAM 4.50 4.50 4.50 Channel Bandwidth: 10MHz 26dBc Bandwidth (MHz) Occupied Bandwidth (MHz) QPSK 9.52 9.53 9.52 16QAM 9.51 9.51 9.53 64QAM 9.53 9.53 9.54 QPSK 8.96 8.97 8.97 16QAM 8.97 8.98 8.97 64QAM 8.97 8.97 8.97 Channel Bandwidth: 15MHz 26dBc Bandwidth (MHz) Occupied Bandwidth (MHz) QPSK 14.25 14.29 14.33 16QAM 14.25 14.28 14.31 64QAM 14.23 14.24 14.28 QPSK 13.46 13.48 13.49 16QAM 13.44 13.47 13.48 64QAM 13.44 13.46 13.48 Report No.: RF181015C09-2 Page No. 124 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 20MHz Channel 132072 132322 132572 Frequency
(MHz) 1720.0 1745.0 1770.0 26dBc Bandwidth (MHz) Occupied Bandwidth (MHz) QPSK 19.01 19.09 19.25 16QAM 19.01 19.07 19.13 64QAM 19.01 19.05 19.10 QPSK 17.90 18.00 18.01 16QAM 17.92 18.01 18.02 64QAM 17.92 18.00 18.02 Report No.: RF181015C09-2 Page No. 125 / 257 Report Format Version: 6.1.1 26dBc Bandwidth Spectrum Plot of Worst Value 1.4MHz / QPSK 3MHz / QPSK 5MHz / 64QAM 10MHz / 64QAM 15MHz / QPSK 20MHz / QPSK Report No.: RF181015C09-2 Page No. 126 / 257 Report Format Version: 6.1.1 Occupied Bandwidth Spectrum Plot of Worst Value 1.4MHz / QPSK 3MHz / QPSK 5MHz / 64QAM 10MHz / 16QAM 15MHz / QPSK 20MHz / 64QAM Report No.: RF181015C09-2 Page No. 127 / 257 Report Format Version: 6.1.1 4.5 Band Edge Measurement 4.5.1 Limits of Band Edge Measurement For LTE Band 4, 66 According to FCC 27.53(h) for operations in the 1695-1710 MHz, 1710-1755 MHz, 1755-1780 MHz, 1915-
1920 MHz, 1995-2000 MHz, 2000-2020 MHz, 2110-2155 MHz, 2155-2180 MHz, and 2180-2200 bands, the power of any emission outside a licensee's frequency block shall be attenuated below the transmitter power
(P) in watts by at least 43 + 10 log (P) dB. For LTE Band 12 According to FCC 27.53(g) for operations in the 600 MHz band and the 698-746 MHz band, the power of any emission outside a licensee's frequency band(s) of operation shall be attenuated below the transmitter power
(P) within the licensed band(s) of operation, measured in watts, by at least 43 + 10 log (P) dB. Compliance with this provision is based on the use of measurement instrumentation employing a resolution bandwidth of 100 kilohertz or greater. For LTE Band 30 According to FCC 27.53(a) (4) For mobile and portable stations operating in the 2305-2315 MHz and 2350-
2360 MHz bands:
(i) By a factor of not less than: 43 + 10 log (P) dB on all frequencies between 2305 and 2320 MHz and on all frequencies between 2345 and 2360 MHz that are outside the licensed band(s) of operation, not less than 55 + 10 log (P) dB on all frequencies between 2320 and 2324 MHz and on all frequencies between 2341 and 2345 MHz, not less than 61 + 10 log (P) dB on all frequencies between 2324 and 2328 MHz and on all frequencies between 2337 and 2341 MHz, and not less than 67 + 10 log (P) dB on all frequencies between 2328 and 2337 MHz;
(ii) By a factor of not less than 43 + 10 log (P) dB on all frequencies between 2300 and 2305 MHz, 55 + 10 log (P) dB on all frequencies between 2296 and 2300 MHz, 61 + 10 log (P) dB on all frequencies between 2292 and 2296 MHz, 67 + 10 log (P) dB on all frequencies between 2288 and 2292 MHz, and 70 + 10 log (P) dB below 2288 MHz;
(iii) By a factor of not less than 43 + 10 log (P) dB on all frequencies between 2360 and 2365 MHz, and not less than 70 + 10 log (P) dB above 2365 MHz. COMMUNICATION 4.5.2 Test Setup SIMULATOR POWER SPLITTER SPECTRUM ANALYZER EUT 20dB ATTENUATION PAD Report No.: RF181015C09-2 Page No. 128 / 257 Report Format Version: 6.1.1 4.5.3 Test Procedures a. The EUT was set up for the rated peak power. The power was measured with Spectrum Analyzer. All measurements were done at 3 channels: low, middle and high operational frequency range. b. The center frequency of spectrum is the band edge frequency and span is 1.5MHz. RBW = 15kHz and VBW = 51kHz (Channel Bandwidth: 1.4MHz), RBW = 30kHz and VBW = 100kHz (Channel Bandwidth:
3MHz), RBW = 62kHz and VBW = 200kHz (Channel Bandwidth: 5MHz), RBW = 100kHz and VBW =
300kHz (Channel Bandwidth: 10MHz), RBW = 150kHz and VBW = 470kHz (Channel Bandwidth: 15MHz) and RBW = 200kHz and VBW = 1MHz (Channel Bandwidth: 20MHz). c. Record the max trace plot into the test report. Report No.: RF181015C09-2 Page No. 129 / 257 Report Format Version: 6.1.1 4.5.4 Test Results LTE Band 4 Channel Bandwidth: 1.4MHz Channel 19957
(1710.7MHz) QPSK 1 RB / 0 RB Offset Channel 20393
(1754.3MHz) QPSK 1 RB / 5 RB Offset Channel 19957
(1710.7MHz) QPSK 6 RB / 0 RB Offset Channel 20393
(1754.3MHz) QPSK 6 RB / 0 RB Offset Report No.: RF181015C09-2 Page No. 130 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 3MHz Channel 19965
(1711.5MHz) QPSK 1 RB / 0 RB Offset Channel 20385
(1753.5MHz) QPSK 1 RB / 14 RB Offset Channel 19965
(1711.5MHz) QPSK 15 RB / 0 RB Offset Channel 20385
(1753.5MHz) QPSK 15 RB / 0 RB Offset Report No.: RF181015C09-2 Page No. 131 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 5MHz Channel 19975
(1712.5MHz) QPSK 1 RB / 0 RB Offset Channel 20375
(1752.5MHz) QPSK 1 RB / 24 RB Offset Channel 19975
(1712.5MHz) QPSK 15 RB / 0 RB Offset Channel 20375
(1752.5MHz) QPSK 15 RB / 0 RB Offset Report No.: RF181015C09-2 Page No. 132 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 10MHz Channel 20000
(1715.0MHz) QPSK 1 RB / 0 RB Offset Channel 20350
(1750.0MHz) QPSK 1 RB / 49 RB Offset Channel 20000
(1715.0MHz) QPSK 50 RB / 0 RB Offset Channel 20350
(1750.0MHz) QPSK 50 RB / 0 RB Offset Report No.: RF181015C09-2 Page No. 133 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 15MHz Channel 20025
(1717.5MHz) QPSK 1 RB / 0 RB Offset Channel 20325
(1747.5MHz) QPSK 1 RB / 74 RB Offset Channel 20025
(1717.5MHz) QPSK 75 RB / 0 RB Offset Channel 20325
(1747.5MHz) QPSK 75 RB / 0 RB Offset Report No.: RF181015C09-2 Page No. 134 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 20MHz Channel 20050
(1720.0MHz) QPSK 1 RB / 0 RB Offset Channel 20300
(1745.0MHz) QPSK 1 RB / 99 RB Offset Channel 20050
(1720.0MHz) QPSK 100 RB / 0 RB Offset Channel 20300
(1745.0MHz) QPSK 100 RB / 0 RB Offset Report No.: RF181015C09-2 Page No. 135 / 257 Report Format Version: 6.1.1 LTE Band 12 Channel Bandwidth: 1.4MHz Channel 23017
(699.7MHz) QPSK 1 RB / 0 RB Offset Channel 23171
(715.3MHz) QPSK 1 RB / 5 RB Offset Channel 23017
(699.7MHz) QPSK 6 RB / 0 RB Offset Channel 23171
(715.3MHz) QPSK 6 RB / 0 RB Offset Report No.: RF181015C09-2 Page No. 136 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 3MHz Channel 23025
(700.5MHz) QPSK 1 RB / 0 RB Offset Channel 23165
(714.5MHz) QPSK 1 RB / 14RB Offset Channel 23025
(700.5MHz) QPSK 15 RB / 0 RB Offset Channel 23165
(714.5MHz) QPSK 15 RB / 0 RB Offset Report No.: RF181015C09-2 Page No. 137 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 5MHz Channel 23035
(701.5MHz) QPSK 1 RB / 0 RB Offset Channel 23155
(713.5MHz) QPSK 1 RB / 24RB Offset Channel 23035
(701.5MHz) QPSK 25 RB / 0 RB Offset Channel 23155
(713.5MHz) QPSK 25 RB / 0 RB Offset Report No.: RF181015C09-2 Page No. 138 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 10MHz Channel 23060
(704MHz) QPSK 1 RB / 0 RB Offset Channel 23130
(711MHz) QPSK 1 RB / 24RB Offset Channel 23060
(704MHz) QPSK 50 RB / 0 RB Offset Channel 23130
(711MHz) QPSK 25 RB / 0 RB Offset Report No.: RF181015C09-2 Page No. 139 / 257 Report Format Version: 6.1.1 LTE Band 30 Channel 27685 LTE Band 30
<Adjacent Channel Band Edge>
Channel Bandwidth: 5 MHz / QPSK 25 RB Channel 27710 25 RB Channel 27735 25 RB Report No.: RF181015C09-2 Page No. 140 / 257 Report Format Version: 6.1.1 Channel 27685 LTE Band 30
<Adjacent Channel Band Edge>
Channel Bandwidth: 5 MHz / 16QAM 25 RB Channel 27710 25 RB Channel 27735 25 RB Report No.: RF181015C09-2 Page No. 141 / 257 Report Format Version: 6.1.1 LTE Band 30
<Adjacent Channel Band Edge>
Channel Bandwidth: 5 MHz / 64QAM Channel 27685 25 RB Channel 27710 25 RB Channel 27735 25 RB Report No.: RF181015C09-2 Page No. 142 / 257 Report Format Version: 6.1.1 Channel Channel Bandwidth: 10 MHz / QPSK LTE Band 30 27710 Channel Bandwidth: 10 MHz / 16QAM 50 RB Channel Bandwidth: 10 MHz / 64QAM Report No.: RF181015C09-2 Page No. 143 / 257 Report Format Version: 6.1.1 LTE Band 66 Channel Bandwidth: 1.4MHz Channel 131979
(1710.7MHz) QPSK 1 RB / 0 RB Offset Channel 132665
(1779.3MHz) QPSK 1 RB / 5 RB Offset Channel 131979
(1710.7MHz) QPSK 6 RB / 0 RB Offset Channel 132665
(1779.3MHz) QPSK 6 RB / 0 RB Offset Report No.: RF181015C09-2 Page No. 144 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 3MHz Channel 131987
(1711.5MHz) QPSK 1 RB / 0 RB Offset Channel 132657
(1778.5MHz) QPSK 1 RB / 14 RB Offset Channel 131987
(1711.5MHz) QPSK 15 RB / 0 RB Offset Channel 132657
(1778.5MHz) QPSK 15 RB / 0 RB Offset Report No.: RF181015C09-2 Page No. 145 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 5MHz Channel 131997
(1712.5MHz) QPSK 1 RB / 0 RB Offset Channel 132647
(1777.5MHz) QPSK 1 RB / 24 RB Offset Channel 131997
(1712.5MHz) QPSK 25 RB / 0 RB Offset Channel 132647
(1777.5MHz) QPSK 25 RB / 0 RB Offset Report No.: RF181015C09-2 Page No. 146 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 10MHz Channel 132022
(1715.0MHz) QPSK 1 RB / 0 RB Offset Channel 132622
(1775MHz) QPSK 1 RB / 49 RB Offset Channel 132022
(1715.0MHz) QPSK 50 RB / 0 RB Offset Channel 132622
(1775MHz) QPSK 50 RB / 0 RB Offset Report No.: RF181015C09-2 Page No. 147 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 15MHz Channel 132047
(1717.5MHz) QPSK 1 RB / 0 RB Offset Channel 132597
(1772.5MHz) QPSK 1 RB / 74 RB Offset Channel 132047
(1717.5MHz) QPSK 75 RB / 0 RB Offset Channel 132597
(1772.5MHz) QPSK 75 RB / 0 RB Offset Report No.: RF181015C09-2 Page No. 148 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 20MHz Channel 132072
(1720.0MHz) QPSK 1 RB / 0 RB Offset Channel 132572
(1770MHz) QPSK 1 RB / 99 RB Offset Channel 132072
(1720.0MHz) QPSK 100 RB / 0 RB Offset Channel 132572
(1770MHz) QPSK 100 RB / 0 RB Offset Report No.: RF181015C09-2 Page No. 149 / 257 Report Format Version: 6.1.1 4.6 Peak to Average Ratio 4.6.1 Limits of Peak to Average Ratio Measurement In measuring transmissions in this band using an average power technique, the peak to-average ratio (PAR) of the transmission may not exceed 13 dB 4.6.2 Test Setup COMMUNICATION SIMULATOR POWER SPLITTER EUT SPECTRUM ANALYZER 20dB ATTENUATION PAD 4.6.3 Test Procedures a. Set resolution/measurement bandwidth signals occupied bandwidth;
b. Set the number of counts to a value that stabilizes the measured CCDF curve;
c. Record the maximum PAPR level associated with a probability of 0.1%. Report No.: RF181015C09-2 Page No. 150 / 257 Report Format Version: 6.1.1 4.6.4 Test Results LTE Band 4 Channel 19957 20175 20393 Frequency
(MHz) 1710.7 1732.5 1754.3 Channel 19965 20175 20385 Frequency
(MHz) 1711.5 1732.5 1753.5 Channel 19975 20175 20375 Frequency
(MHz) 1712.5 1732.5 1752.5 Channel 20000 20175 20350 Frequency
(MHz) 1715.0 1732.5 1750.0 Channel 20025 20175 20325 Frequency
(MHz) 1717.5 1732.5 1747.5 Report No.: RF181015C09-2 LTE Band 4, Channel Bandwidth: 1.4MHz Peak To Average Ratio (dB) QPSK 3.75 3.66 3.76 16QAM 4.96 5.05 5.38 LTE Band 4, Channel Bandwidth: 3MHz Peak To Average Ratio (dB) QPSK 3.40 3.43 3.42 16QAM 4.70 4.75 4.85 LTE Band 4, Channel Bandwidth: 5MHz Peak To Average Ratio (dB) QPSK 3.33 3.59 3.54 16QAM 4.71 4.77 4.90 LTE Band 4, Channel Bandwidth: 10MHz Peak To Average Ratio (dB) QPSK 2.87 3.00 2.90 16QAM 4.47 4.49 4.38 LTE Band 4, Channel Bandwidth: 15MHz Peak To Average Ratio (dB) QPSK 2.80 2.99 2.83 16QAM 4.14 4.43 4.23 64QAM 4.91 5.03 4.83 64QAM 4.63 4.72 4.81 64QAM 4.58 4.64 4.81 64QAM 4.54 4.41 4.26 64QAM 4.27 4.39 4.13 Page No. 151 / 257 Report Format Version: 6.1.1 Channel 20050 20175 20300 Frequency
(MHz) 1720.0 1732.5 1745.0 LTE Band 4, Channel Bandwidth: 20MHz Peak To Average Ratio (dB) QPSK 2.79 3.04 2.83 16QAM 4.15 4.37 4.18 64QAM 4.17 4.45 4.15 Report No.: RF181015C09-2 Page No. 152 / 257 Report Format Version: 6.1.1 1.4MHz / 16QAM 3MHz / 16QAM Spectrum Plot Of Worst Value 5MHz / 16QAM 10MHz / 64QAM 15MHz / 16QAM 20MHz / 64QAM Report No.: RF181015C09-2 Page No. 153 / 257 Report Format Version: 6.1.1 Channel 23017 23095 23173 Channel 23025 23095 23165 Channel 23035 23095 23155 Channel 23060 23095 23130 Frequency
(MHz) 699.7 707.5 715.3 Frequency
(MHz) 700.5 707.5 714.5 Frequency
(MHz) 701.5 707.5 713.5 Frequency
(MHz) 704.0 707.5 711.0 LTE Band 12, Channel Bandwidth: 1.4MHz Peak To Average Ratio (dB) QPSK 3.50 3.77 3.13 16QAM 4.51 5.07 4.74 LTE Band 12, Channel Bandwidth: 3MHz Peak To Average Ratio (dB) QPSK 3.26 3.28 3.45 16QAM 4.45 4.85 4.66 LTE Band 12, Channel Bandwidth: 5MHz Peak To Average Ratio (dB) QPSK 3.31 3.52 3.35 16QAM 4.44 4.77 4.68 LTE Band 12, Channel Bandwidth: 10MHz Peak To Average Ratio (dB) QPSK 2.90 3.09 3.06 16QAM 4.19 4.51 4.47 64QAM 4.80 5.07 4.30 64QAM 4.40 4.81 4.72 64QAM 4.44 4.75 4.68 64QAM 4.24 4.51 4.42 Report No.: RF181015C09-2 Page No. 154 / 257 Report Format Version: 6.1.1 1.4MHz / 64QAM 3MHz / 16QAM Spectrum Plot Of Worst Value 5MHz / 16QAM 10MHz / 16QAM Report No.: RF181015C09-2 Page No. 155 / 257 Report Format Version: 6.1.1 Channel 131979 132322 132665 Frequency
(MHz) 1710.7 1745.0 1779.3 Channel 131987 132322 132657 Frequency
(MHz) 1711.5 1745.0 1778.5 Channel 131997 132322 132647 Frequency
(MHz) 1712.5 1745.0 1777.5 Channel 132022 132322 132622 Frequency
(MHz) 1715.0 1745.0 1775.0 Channel 132047 132322 132597 Frequency
(MHz) 1717.5 1745.0 1772.5 LTE Band 66, Channel Bandwidth: 1.4MHz Peak To Average Ratio (dB) QPSK 3.63 3.66 3.37 16QAM 4.84 4.88 4.39 LTE Band 66, Channel Bandwidth: 3MHz Peak To Average Ratio (dB) QPSK 3.10 3.26 3.33 16QAM 4.43 4.57 4.52 LTE Band 66, Channel Bandwidth: 5MHz Peak To Average Ratio (dB) QPSK 3.31 3.18 3.59 16QAM 4.49 4.43 4.69 LTE Band 66, Channel Bandwidth: 10MHz Peak To Average Ratio (dB) QPSK 2.85 2.78 3.11 16QAM 4.11 4.11 4.50 LTE Band 66, Channel Bandwidth: 15MHz Peak To Average Ratio (dB) QPSK 2.80 2.71 2.96 16QAM 4.06 4.04 4.23 64QAM 5.60 5.68 5.18 64QAM 5.40 5.38 5.49 64QAM 5.52 5.51 5.74 64QAM 5.27 5.21 5.93 64QAM 5.14 5.05 5.35 Report No.: RF181015C09-2 Page No. 156 / 257 Report Format Version: 6.1.1 Channel 132072 132322 132572 Frequency
(MHz) 1720.0 1745.0 1770.0 LTE Band 66, Channel Bandwidth: 20MHz Peak To Average Ratio (dB) QPSK 2.80 2.74 3.00 16QAM 3.98 3.97 4.24 64QAM 5.12 5.24 5.41 Report No.: RF181015C09-2 Page No. 157 / 257 Report Format Version: 6.1.1 1.4MHz / 64QAM 3MHz / 64QAM Spectrum Plot Of Worst Value 5MHz / 64QAM 10MHz / 64QAM 15MHz / 64QAM 20MHz / 64QAM Report No.: RF181015C09-2 Page No. 158 / 257 Report Format Version: 6.1.1 4.7 Conducted Spurious Emissions 4.7.1 Limits of Conducted Spurious Emissions Measurement For LTE Band 4, 12, 66 In the FCC 27.53,On any frequency outside a licensees frequency block, The power of any emission shall be attenuated below the transmitter power (P) by at least 43 + 10 log (P) dB. The emission limit equal to 13dBm. For LTE Band 30 The power of any emission outside a licensee's frequency block shall be attenuated below the transmitter power (P) by at least 70 +10 log10(P) dB. The limit of emission is equal to -40 dBm. 4.7.2 Test Setup 4.7.3 Test Procedure a. All measurements were done at 3 channels: low, middle and high operational frequency range. 20dB ATTENUATION PAD SPECTRUM ANALYZER POWER SPLITTER COMMUNICATION SIMULATOR EUT b. When the spectrum scanned from 9kHz to 27GHz, it shall be connected to the attenuator with the carried frequency. Report No.: RF181015C09-2 Page No. 159 / 257 Report Format Version: 6.1.1 4.7.4 Test Results LTE Band 4 Channel Bandwidth: 1.4MHz Channel 19957 (1710.7MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Note: The signal over the limit in 9 kHz is from spectrum analyzer. Report No.: RF181015C09-2 Page No. 160 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 1.4MHz Channel 20175 (1732.5MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Note: The signal over the limit in 9 kHz is from spectrum analyzer. Report No.: RF181015C09-2 Page No. 161 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 1.4MHz Channel 20393 (1754.3MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Note: The signal over the limit in 9 kHz is from spectrum analyzer. Report No.: RF181015C09-2 Page No. 162 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 3MHz Channel 19965 (1711.5MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Note: The signal over the limit in 9 kHz is from spectrum analyzer. Report No.: RF181015C09-2 Page No. 163 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 3MHz Channel 20175 (1732.5MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Note: The signal over the limit in 9 kHz is from spectrum analyzer. Report No.: RF181015C09-2 Page No. 164 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 3MHz Channel 20385 (1753.5MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Note: The signal over the limit in 9 kHz is from spectrum analyzer. Report No.: RF181015C09-2 Page No. 165 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 5MHz Channel 19975 (1712.5MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Note: The signal over the limit in 9 kHz is from spectrum analyzer. Report No.: RF181015C09-2 Page No. 166 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 5MHz Channel 20175 (1732.5MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Note: The signal over the limit in 9 kHz is from spectrum analyzer. Report No.: RF181015C09-2 Page No. 167 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 5MHz Channel 20375 (1752.5MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Note: The signal over the limit in 9 kHz is from spectrum analyzer. Report No.: RF181015C09-2 Page No. 168 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 10MHz Channel 20000 (1715.0MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Note: The signal over the limit in 9 kHz is from spectrum analyzer. Report No.: RF181015C09-2 Page No. 169 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 10MHz Channel 20175 (1732.5MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Note: The signal over the limit in 9 kHz is from spectrum analyzer. Report No.: RF181015C09-2 Page No. 170 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 10MHz Channel 20350 (1750.0MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Note: The signal over the limit in 9 kHz is from spectrum analyzer. Report No.: RF181015C09-2 Page No. 171 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 15MHz Channel 20025 (1717.5MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Note: The signal over the limit in 9 kHz is from spectrum analyzer. Report No.: RF181015C09-2 Page No. 172 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 15MHz Channel 20175 (1732.5MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Note: The signal over the limit in 9 kHz is from spectrum analyzer. Report No.: RF181015C09-2 Page No. 173 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 15MHz Channel 20325 (1747.5MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Note: The signal over the limit in 9 kHz is from spectrum analyzer. Report No.: RF181015C09-2 Page No. 174 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 20MHz Channel 20050 (1720.0MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Note: The signal over the limit in 9 kHz is from spectrum analyzer. Report No.: RF181015C09-2 Page No. 175 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 20MHz Channel 20175 (1732.5MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Note: The signal over the limit in 9 kHz is from spectrum analyzer. Report No.: RF181015C09-2 Page No. 176 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 20MHz Channel 20300 (1745.0MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Note: The signal over the limit in 9 kHz is from spectrum analyzer. Report No.: RF181015C09-2 Page No. 177 / 257 Report Format Version: 6.1.1 LTE Band 12 Channel Band width: 1.4MHz Channel 23017 (699.7MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Note: The signal over the limit in 9 kHz is from spectrum analyzer. Report No.: RF181015C09-2 Page No. 178 / 257 Report Format Version: 6.1.1 Channel Band width: 1.4MHz Channel 23095 (707.5MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Note: The signal over the limit in 9 kHz is from spectrum analyzer. Report No.: RF181015C09-2 Page No. 179 / 257 Report Format Version: 6.1.1 Channel Band width: 1.4MHz Channel 23173 (715.3MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Note: The signal over the limit in 9 kHz is from spectrum analyzer. Report No.: RF181015C09-2 Page No. 180 / 257 Report Format Version: 6.1.1 Channel Band width: 3MHz Channel 23025 (700.5MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Note: The signal over the limit in 9 kHz is from spectrum analyzer. Report No.: RF181015C09-2 Page No. 181 / 257 Report Format Version: 6.1.1 Channel Band width: 3MHz Channel 23095 (707.5MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Note: The signal over the limit in 9 kHz is from spectrum analyzer. Report No.: RF181015C09-2 Page No. 182 / 257 Report Format Version: 6.1.1 Channel Band width: 3MHz Channel 23165 (714.5MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Note: The signal over the limit in 9 kHz is from spectrum analyzer. Report No.: RF181015C09-2 Page No. 183 / 257 Report Format Version: 6.1.1 Channel Band width: 5MHz Channel 23035 (701.5MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Note: The signal over the limit in 9 kHz is from spectrum analyzer. Report No.: RF181015C09-2 Page No. 184 / 257 Report Format Version: 6.1.1 Channel Band width: 5MHz Channel 23095 (707.5MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Note: The signal over the limit in 9 kHz is from spectrum analyzer. Report No.: RF181015C09-2 Page No. 185 / 257 Report Format Version: 6.1.1 Channel Band width: 5MHz Channel 23155 (713.5MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Note: The signal over the limit in 9 kHz is from spectrum analyzer. Report No.: RF181015C09-2 Page No. 186 / 257 Report Format Version: 6.1.1 Channel Band width: 10MHz Channel 23060 (704MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Note: The signal over the limit in 9 kHz is from spectrum analyzer. Report No.: RF181015C09-2 Page No. 187 / 257 Report Format Version: 6.1.1 Channel Band width: 10MHz Channel 23095 (707.5MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Note: The signal over the limit in 9 kHz is from spectrum analyzer. Report No.: RF181015C09-2 Page No. 188 / 257 Report Format Version: 6.1.1 Channel Band width: 10MHz Channel 23130 (711MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Note: The signal over the limit in 9 kHz is from spectrum analyzer. Report No.: RF181015C09-2 Page No. 189 / 257 Report Format Version: 6.1.1 LTE Band 30 Channel Band width: 5MHz Channel 27685(2307.5MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~2GHz Frequency Range : 2GHz~3GHz Frequency Range : 3GHz~23.5GHz Note: The signal over the limit in 9 kHz is from spectrum analyzer. Report No.: RF181015C09-2 Page No. 190 / 257 Report Format Version: 6.1.1 Channel Band width: 5MHz Channel 27710(2310.0MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~2GHz Frequency Range : 2GHz~3GHz Frequency Range : 3GHz~23.5GHz Note: The signal over the limit in 9 kHz is from spectrum analyzer. Report No.: RF181015C09-2 Page No. 191 / 257 Report Format Version: 6.1.1 Channel Band width: 5MHz Channel 27735(2312.5MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~2GHz Frequency Range : 2GHz~3GHz Frequency Range : 3GHz~23.5GHz Note: The signal over the limit in 9 kHz is from spectrum analyzer. Report No.: RF181015C09-2 Page No. 192 / 257 Report Format Version: 6.1.1 Channel Band width: 10MHz Channel 27710(2310MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~2GHz Frequency Range : 2GHz~3GHz Frequency Range : 3GHz~23.5GHz Note: The signal over the limit in 9 kHz is from spectrum analyzer. Report No.: RF181015C09-2 Page No. 193 / 257 Report Format Version: 6.1.1 LTE Band 66 Channel Bandwidth: 1.4MHz Channel 131979 (1710.7MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Note: The signal over the limit in 9 kHz is from spectrum analyzer. Report No.: RF181015C09-2 Page No. 194 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 1.4MHz Channel 132322(1745MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Note: The signal over the limit in 9 kHz is from spectrum analyzer. Report No.: RF181015C09-2 Page No. 195 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 1.4MHz Channel 132665(1779.3MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Note: The signal over the limit in 9 kHz is from spectrum analyzer. Report No.: RF181015C09-2 Page No. 196 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 3MHz Channel 131987 (1711.5MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Note: The signal over the limit in 9 kHz is from spectrum analyzer. Report No.: RF181015C09-2 Page No. 197 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 3MHz Channel 132322(1745MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Note: The signal over the limit in 9 kHz is from spectrum analyzer. Report No.: RF181015C09-2 Page No. 198 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 3MHz Channel 132657(1778.5MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Note: The signal over the limit in 9 kHz is from spectrum analyzer. Report No.: RF181015C09-2 Page No. 199 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 5MHz Channel 131997(1712.5MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Note: The signal over the limit in 9 kHz is from spectrum analyzer. Report No.: RF181015C09-2 Page No. 200 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 5MHz Channel 132322(1745MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Note: The signal over the limit in 9 kHz is from spectrum analyzer. Report No.: RF181015C09-2 Page No. 201 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 5MHz Channel 132647(1777.5MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Note: The signal over the limit in 9 kHz is from spectrum analyzer. Report No.: RF181015C09-2 Page No. 202 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 10MHz Channel 132022 (1715MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Note: The signal over the limit in 9 kHz is from spectrum analyzer. Report No.: RF181015C09-2 Page No. 203 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 10MHz Channel 132322(1745MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Note: The signal over the limit in 9 kHz is from spectrum analyzer. Report No.: RF181015C09-2 Page No. 204 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 10MHz Channel 132622(1775MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Note: The signal over the limit in 9 kHz is from spectrum analyzer. Report No.: RF181015C09-2 Page No. 205 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 15MHz Channel 132047 (1717.5MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Note: The signal over the limit in 9 kHz is from spectrum analyzer. Report No.: RF181015C09-2 Page No. 206 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 15MHz Channel 132322(1745MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Note: The signal over the limit in 9 kHz is from spectrum analyzer. Report No.: RF181015C09-2 Page No. 207 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 15MHz Channel 132597(1772.5MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Note: The signal over the limit in 9 kHz is from spectrum analyzer. Report No.: RF181015C09-2 Page No. 208 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 20MHz Channel 132072 (1720.0MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Note: The signal over the limit in 9 kHz is from spectrum analyzer. Report No.: RF181015C09-2 Page No. 209 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 20MHz Channel 132322(1745MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Note: The signal over the limit in 9 kHz is from spectrum analyzer. Report No.: RF181015C09-2 Page No. 210 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 20MHz Channel 132572(1770MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Note: The signal over the limit in 9 kHz is from spectrum analyzer. Report No.: RF181015C09-2 Page No. 211 / 257 Report Format Version: 6.1.1 4.8 Radiated Emission Measurement 4.8.1 Limits of Radiated Emission Measurement For LTE Band 4, 66 According to FCC 27.53(h) for operations in the 1695-1710 MHz, 1710-1755 MHz, 1755-1780 MHz, 1915-
1920 MHz, 1995-2000 MHz, 2000-2020 MHz, 2110-2155 MHz, 2155-2180 MHz, and 2180-2200 bands, the power of any emission outside a licensee's frequency block shall be attenuated below the transmitter power
(P) in watts by at least 43 + 10 log (P) dB. For LTE Band 12 According to FCC 27.53(g) for operations in the 600 MHz band and the 698-746 MHz band, the power of any emission outside a licensee's frequency band(s) of operation shall be attenuated below the transmitter power
(P) within the licensed band(s) of operation, measured in watts, by at least 43 + 10 log (P) dB. Compliance with this provision is based on the use of measurement instrumentation employing a resolution bandwidth of 100 kilohertz or greater. For LTE Band 30 The power of any emission outside a licensee's frequency block shall be attenuated below the transmitter power (P) by at least 70 +10 log10(P) dB. The limit of emission is equal to -40 dBm. 4.8.2 Test Procedure a. Substitution method is used for E.I.R.P measurement. In the semi-anechoic chamber, EUT placed on the 0.8 m (below or equal 1 GHz) and/or 1.5 m (above 1 GHz) height of Turn Table, rotated the table around 360 degrees to search the maximum radiation power and receiver antenna shall be rotated vertical and horizontal polarization and moved height from 1 m to 4 m to find the maximum polar radiated power. The Read Value is the spectrum reading the maximum power value. b. The substitution horn antenna is substituted for EUT at the same position and signals generator export the CW signal to the substitution antenna via a TX cable. Rotated the Turn Table and moved receiving antenna to find the maximum radiation power. Adjust output power level of S.G to get a Value of spectrum reading equal to Read Value of step a. Record the power level of S.G c. EIRP = Output power level of S.G TX cable loss + Antenna gain of substitution horn. d. E.R.P power can be calculated form E.I.R.P power by subtracting the gain of dipole, E.R.P power = E.I.R.P power - 2.15 dB. Note: The resolution bandwidth and video bandwidth of test receiver/spectrum analyzer is 1MHz/3MHz. 4.8.3 Deviation from Test Standard No deviation. Report No.: RF181015C09-2 Page No. 212 / 257 Report Format Version: 6.1.1 4.8.4 Test Setup
<Radiated Emission below or equal 1 GHz>
Ant. Tower 1-4m Variable EUT&
Support Units 80cm 3 m 10m Turn Table Ground Plane Test Receiver
<Radiated Emission above 1 GHz>
EUT&
Support Units 3 m Ant. Tower 1-4 m Variable Turn Table Absorber 150 cm Ground Plane Test Receiver For the actual test configuration, please refer to the attached file (Test Setup Photo). Report No.: RF181015C09-2 Page No. 213 / 257 Report Format Version: 6.1.1 4.8.5 Test Results Below 1GHz LTE Band 4 Channel Bandwidth: 1.4MHz Mode TX channel 19957
(1710.7MHz) Environmental Conditions 25deg. C, 66%RH Tested By Greg Lin Frequency Range Below 1000 MHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 2 3 4 5 6 30.00 141.55 252.13 544.10 770.11 944.71 Reading
(dBm)
-46.5
-41.1
-51.7
-68.7
-70.9
-71.1 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-23.1
-43.5
-56.3
-72.0
-70.2
-66.5
-19.4
-3.0
-1.4 3.8 3.9 3.7
-42.5
-46.5
-57.7
-68.2
-66.3
-62.8
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-29.5
-33.5
-44.7
-55.2
-53.3
-49.8 Remarks:
1. Output Power (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09-2 Page No. 214 / 257 Report Format Version: 6.1.1 Mode TX channel 19957
(1710.7MHz) Environmental Conditions 25deg. C, 66%RH Tested By Greg Lin Frequency Range Below 1000 MHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 2 3 4 5 6 62.98 176.47 286.08 410.24 671.17 977.69 Reading
(dBm)
-31.8
-42.8
-65.9
-68.1
-70.6
-71.7 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-36.1
-43.6
-62.2
-71.9
-68.8
-65.9
-2.4
-2.9
-1.7 3.3 3.6 3.6
-38.5
-46.5
-63.9
-68.6
-65.2
-62.3
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-25.5
-33.5
-50.9
-55.6
-52.2
-49.3 Remarks:
1. Output Power (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09-2 Page No. 215 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 5MHz Mode TX channel 19975
(1712.5MHz) Environmental Conditions 25deg. C, 66%RH Tested By Greg Lin Frequency Range Below 1000 MHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 2 3 4 5 6 62.98 145.43 283.17 581.93 770.11 931.13 Reading
(dBm)
-41.9
-43.9
-59.5
-69.7
-70.9
-70.7 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-45.4
-45.7
-61.9
-72.2
-70.2
-66.4
-2.4
-3.1
-1.7 3.7 3.9 3.7
-47.8
-48.8
-63.6
-68.5
-66.3
-62.7
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-34.8
-35.8
-50.6
-55.5
-53.3
-49.7 Remarks:
1. Output Power (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09-2 Page No. 216 / 257 Report Format Version: 6.1.1 Mode TX channel 19975
(1712.5MHz) Environmental Conditions 25deg. C, 66%RH Tested By Greg Lin Frequency Range Below 1000 MHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 2 3 4 5 6 30.00 90.14 176.47 423.82 671.17 875.84 Reading
(dBm)
-39.8
-34.7
-42.8
-70.1
-70.6
-70.8 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-30.3
-40.8
-43.6
-73.8
-68.8
-66.7
-19.4
-0.2
-2.9 3.4 3.6 3.3
-49.7
-41.0
-46.5
-70.4
-65.2
-63.4
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-36.7
-28.0
-33.5
-57.4
-52.2
-50.4 Remarks:
1. Output Power (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09-2 Page No. 217 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 20MHz Mode TX channel 20050
(1720.0MHz) Environmental Conditions 25deg. C, 66%RH Tested By Greg Lin Frequency Range Below 1000 MHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 2 3 4 5 6 30.00 75.59 178.41 600.36 726.46 912.70 Reading
(dBm)
-55.3
-41.0
-43.0
-70.0
-70.3
-70.7 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-31.9
-47.0
-48.0
-72.3
-70.3
-66.6
-19.4 0.2
-3.0 3.8 3.7 3.6
-51.3
-46.8
-51.0
-68.5
-66.6
-63.0
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-38.3
-33.8
-38.0
-55.5
-53.6
-50.0 Remarks:
1. Output Power (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09-2 Page No. 218 / 257 Report Format Version: 6.1.1 Mode TX channel 20050
(1720.0MHz) Environmental Conditions 25deg. C, 66%RH Tested By Greg Lin Frequency Range Below 1000 MHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 2 3 4 5 6 30.97 144.46 264.74 432.55 716.76 948.59 Reading
(dBm)
-37.4
-46.1
-63.5
-64.0
-70.0
-70.5 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-28.8
-45.1
-60.9
-67.7
-67.6
-64.9
-18.8
-3.2
-1.6 3.5 3.5 3.7
-47.6
-48.3
-62.5
-64.2
-64.1
-61.2
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-34.6
-35.3
-49.5
-51.2
-51.1
-48.2 Remarks:
1. Output Power (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09-2 Page No. 219 / 257 Report Format Version: 6.1.1 LTE Band 12 Channel Bandwidth: 1.4MHz Mode TX channel 23017
(699.7MHz) Environmental Conditions 25deg. C, 66%RH Tested By Greg Lin Frequency Range Below 1000 MHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 2 3 4 5 6 30.97 101.78 178.41 276.38 731.31 825.40 Reading
(dBm)
-47.2
-40.5
-43.1
-62.3
-67.3
-70.0 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB)
-26.9
-49.4
-50.2
-67.3
-69.2
-69.2
-18.8
-1.6
-3.0
-1.6 3.6 3.9
-45.7
-51.0
-53.2
-68.9
-65.6
-65.3
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-32.7
-38.0
-40.2
-55.9
-52.6
-52.3 Remarks:
1. Output Power (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09-2 Page No. 220 / 257 Report Format Version: 6.1.1 Mode TX channel 23017
(699.7MHz) Environmental Conditions 25deg. C, 66%RH Tested By Greg Lin Frequency Range Below 1000 MHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 2 3 4 5 6 62.98 183.26 280.26 428.67 738.10 956.35 Reading
(dBm)
-33.8
-45.8
-67.0
-68.2
-69.8
-71.0 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB)
-40.2
-48.2
-64.4
-74.2
-69.0
-67.7
-2.4
-3.0
-1.6 3.5 3.7 3.9
-42.6
-51.2
-66.0
-70.7
-65.3
-63.8
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-29.6
-38.2
-53.0
-57.7
-52.3
-50.8 Remarks:
1. Output Power (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09-2 Page No. 221 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 5MHz Mode TX channel 23035
(701.5MHz) Environmental Conditions 25deg. C, 66%RH Tested By Greg Lin Frequency Range Below 1000 MHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 2 3 4 5 6 30.97 106.63 208.48 287.05 568.35 821.52 Reading
(dBm)
-46.5
-41.1
-48.2
-61.1
-70.2
-69.8 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB)
-26.2
-49.1
-56.8
-65.2
-75.2
-69.3
-18.8
-2.2
-2.0
-1.7 3.7 3.9
-45.0
-51.3
-58.8
-66.9
-71.5
-65.4
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-32.0
-38.3
-45.8
-53.9
-58.5
-52.4 Remarks:
1. Output Power (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09-2 Page No. 222 / 257 Report Format Version: 6.1.1 Mode TX channel 23035
(701.5MHz) Environmental Conditions 25deg. C, 66%RH Tested By Greg Lin Frequency Range Below 1000 MHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 2 3 4 5 6 62.01 175.50 259.89 413.15 659.53 989.33 Reading
(dBm)
-34.3
-44.0
-64.3
-67.2
-70.5
-70.2 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB)
-40.3
-47.1
-64.1
-73.0
-70.8
-66.0
-3.0
-2.8
-1.5 3.3 3.7 3.4
-43.3
-49.9
-65.6
-69.7
-67.1
-62.6
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-30.3
-36.9
-52.6
-56.7
-54.1
-49.6 Remarks:
1. Output Power (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09-2 Page No. 223 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 10MHz Mode TX channel 23060
(704MHz) Environmental Conditions 25deg. C, 66%RH Tested By Greg Lin Frequency Range Below 1000 MHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 2 3 4 5 6 34.85 74.62 143.49 248.25 631.40 948.59 Reading
(dBm)
-50.2
-40.8
-41.5
-54.2
-70.0
-71.2 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB)
-32.7
-48.8
-45.8
-61.6
-73.7
-68.7
-16.5 0.1
-3.1
-1.5 3.6 3.7
-49.2
-48.7
-48.9
-63.1
-70.1
-65.0
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-36.2
-35.7
-35.9
-50.1
-57.1
-52.0 Remarks:
1. Output Power (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09-2 Page No. 224 / 257 Report Format Version: 6.1.1 Mode TX channel 23060
(704MHz) Environmental Conditions 25deg. C, 66%RH Tested By Greg Lin Frequency Range Below 1000 MHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 2 3 4 5 6 30.00 88.20 143.49 271.53 427.70 766.23 Reading
(dBm)
-35.5
-35.0
-46.5
-66.5
-67.0
-69.5 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB)
-28.2
-43.4
-47.8
-65.0
-73.0
-68.6
-19.4
-0.2
-3.1
-1.4 3.5 3.9
-47.6
-43.6
-50.9
-66.4
-69.5
-64.7
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-34.6
-30.6
-37.9
-53.4
-56.5
-51.7 Remarks:
1. Output Power (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09-2 Page No. 225 / 257 Report Format Version: 6.1.1 LTE Band 30 Channel Bandwidth: 5MHz Mode TX channel 27685
(2307.5MHz) Environmental Conditions 25deg. C, 66%RH Tested By Greg Lin Frequency Range Below 1000 MHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 2 3 4 5 6 30.00 80.44 140.58 447.10 619.76 823.46 Reading
(dBm)
-45.3
-41.9
-41.2
-70.9
-70.3
-71.7 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB)
-21.9
-47.3
-43.8
-74.3
-72.0
-68.9
-19.4 0.5
-3.0 3.4 3.7 3.9
-41.3
-46.8
-46.8
-70.9
-68.3
-65.0
-40.0
-40.0
-40.0
-40.0
-40.0
-40.0
-1.3
-6.8
-6.8
-30.9
-28.3
-25.0 Remarks:
1. Output Power (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09-2 Page No. 226 / 257 Report Format Version: 6.1.1 Mode TX channel 27685
(2307.5MHz) Environmental Conditions 25deg. C, 66%RH Tested By Greg Lin Frequency Range Below 1000 MHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 2 3 4 5 6 30.97 90.14 191.99 239.52 714.82 900.09 Reading
(dBm)
-41.5
-35.4
-49.6
-59.4
-59.8
-71.5 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB)
-32.9
-41.5
-48.6
-59.7
-57.3
-66.7
-18.8
-0.2
-2.6
-1.5 3.5 3.5
-51.7
-41.7
-51.2
-61.2
-53.8
-63.2
-40.0
-40.0
-40.0
-40.0
-40.0
-40.0
-11.7
-1.7
-11.2
-21.2
-13.8
-23.2 Remarks:
1. Output Power (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09-2 Page No. 227 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 10MHz Mode TX channel 27710
(2310.0MHz) Environmental Conditions 25deg. C, 66%RH Tested By Greg Lin Frequency Range Below 1000 MHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 2 3 4 5 6 35.82 101.78 179.38 447.10 619.76 823.46 Reading
(dBm)
-52.8
-40.2
-42.9
-70.9
-70.3
-71.7 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB)
-33.4
-46.9
-47.9
-74.3
-72.0
-68.9
-15.9
-1.6
-2.9 3.4 3.7 3.9
-49.3
-48.5
-50.8
-70.9
-68.3
-65.0
-40.0
-40.0
-40.0
-40.0
-40.0
-40.0
-9.3
-8.5
-10.8
-30.9
-28.3
-25.0 Remarks:
1. Output Power (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09-2 Page No. 228 / 257 Report Format Version: 6.1.1 Mode TX channel 27710
(2310.0MHz) Environmental Conditions 25deg. C, 66%RH Tested By Greg Lin Frequency Range Below 1000 MHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 2 3 4 5 6 34.85 62.01 179.38 285.11 721.61 947.62 Reading
(dBm)
-41.4
-34.8
-45.4
-66.8
-58.0
-71.6 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB)
-35.1
-38.6
-45.9
-63.0
-55.4
-66.1
-16.5
-3.0
-2.9
-1.6 3.6 3.8
-51.6
-41.6
-48.8
-64.6
-51.8
-62.3
-40.0
-40.0
-40.0
-40.0
-40.0
-40.0
-11.6
-1.6
-8.8
-24.6
-11.8
-22.3 Remarks:
1. Output Power (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09-2 Page No. 229 / 257 Report Format Version: 6.1.1 LTE Band 66 Channel Bandwidth: 1.4MHz Mode TX channel 131979
(1710.7MHz) Environmental Conditions 25deg. C, 66%RH Tested By Greg Lin Frequency Range Below 1000 MHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 2 3 4 5 6 35.82 80.44 181.32 269.59 679.90 974.78 Reading
(dBm)
-52.8
-41.7
-43.5
-60.5
-70.2
-72.3 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-33.4
-47.1
-48.7
-63.2
-71.1
-67.0
-15.9 0.5
-3.0
-1.4 3.5 3.6
-49.3
-46.6
-51.7
-64.6
-67.6
-63.4
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-36.3
-33.6
-38.7
-51.6
-54.6
-50.4 Remarks:
1. Output Power (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09-2 Page No. 230 / 257 Report Format Version: 6.1.1 Mode TX channel 131979
(1710.7MHz) Environmental Conditions 25deg. C, 66%RH Tested By Greg Lin Frequency Range Below 1000 MHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 2 3 4 5 6 87.23 177.44 334.58 429.64 702.21 959.26 Reading
(dBm)
-33.7
-41.9
-42.5
-50.6
-69.5
-70.9 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-39.8
-42.6
-47.1
-54.5
-67.0
-65.4
-0.1
-3.0 4.0 3.5 3.4 3.8
-39.9
-45.6
-43.1
-51.0
-63.6
-61.6
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-26.9
-32.6
-30.1
-38.0
-50.6
-48.6 Remarks:
1. Output Power (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09-2 Page No. 231 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 5MHz Mode TX channel 131997
(1712.5MHz) Environmental Conditions 25deg. C, 66%RH Tested By Greg Lin Frequency Range Below 1000 MHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 2 3 4 5 6 30.00 174.53 269.59 561.56 740.04 880.69 Reading
(dBm)
-46.3
-43.3
-60.5
-69.9
-70.3
-70.8 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-22.9
-48.0
-63.2
-72.9
-69.9
-67.1
-19.4
-2.8
-1.4 3.7 3.7 3.3
-42.3
-50.8
-64.6
-69.2
-66.2
-63.8
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-29.3
-37.8
-51.6
-56.2
-53.2
-50.8 Remarks:
1. Output Power (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09-2 Page No. 232 / 257 Report Format Version: 6.1.1 Mode TX channel 131997
(1712.5MHz) Environmental Conditions 25deg. C, 66%RH Tested By Greg Lin Frequency Range Below 1000 MHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 2 3 4 5 6 31.94 84.32 185.20 336.52 579.99 743.92 Reading
(dBm)
-37.5
-37.4
-46.7
-50.7
-69.8
-70.6 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-29.7
-42.8
-46.8
-55.3
-71.5
-67.4
-18.3 0.4
-2.8 4.0 3.8 3.7
-48.0
-42.4
-49.6
-51.3
-67.7
-63.7
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-35.0
-29.4
-36.6
-38.3
-54.7
-50.7 Remarks:
1. Output Power (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09-2 Page No. 233 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 20MHz Mode TX channel 132072
(1720MHz) Environmental Conditions 25deg. C, 66%RH Tested By Greg Lin Frequency Range Below 1000 MHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 2 3 4 5 6 30.97 140.58 241.46 544.10 730.34 935.98 Reading
(dBm)
-35.8
-40.8
-55.8
-68.5
-54.4
-62.4 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-13.3
-43.4
-61.3
-71.8
-54.2
-57.9
-18.8
-3.0
-1.4 3.8 3.6 3.7
-32.1
-46.4
-62.7
-68.0
-50.6
-54.2
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-19.1
-33.4
-49.7
-55.0
-37.6
-41.2 Remarks:
1. Output Power (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09-2 Page No. 234 / 257 Report Format Version: 6.1.1 Mode TX channel 132072
(1720MHz) Environmental Conditions 25deg. C, 66%RH Tested By Greg Lin Frequency Range Below 1000 MHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 2 3 4 5 6 44.55 88.20 197.81 301.60 676.02 891.36 Reading
(dBm)
-45.1
-34.4
-52.5
-66.8
-70.7
-71.3 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-42.6
-40.6
-50.9
-70.3
-68.8
-66.5
-10.9
-0.2
-2.4 3.7 3.6 3.5
-53.5
-40.8
-53.3
-66.6
-65.2
-63.0
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-40.5
-27.8
-40.3
-53.6
-52.2
-50.0 Remarks:
1. Output Power (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09-2 Page No. 235 / 257 Report Format Version: 6.1.1 Above 1GHz LTE Band 4 Channel Bandwidth: 1.4MHz Mode TX channel 19957
(1710.7MHz) Environmental Conditions 24deg. C, 66%RH Tested By Greg Lin Frequency Range 1GHz~18GHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 3421.40 Reading
(dBm)
-57.8 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-49.2 1.3
-47.9
-13.0
-34.9 No. Freq. (MHz) 1 3421.40 Reading
(dBm)
-58.2 Antenna Polarity & Test Distance: Vertical at 3 M Correction Factor (dB) EIRP (dBm) S.G Power Value (dBm) Limit (dBm) Margin (dB)
-50.1 1.3
-48.8
-13.0
-35.8 Remarks:
1. Output Power (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Mode TX channel 20175
(1732.5MHz) Environmental Conditions 24deg. C, 66%RH Tested By Greg Lin Frequency Range 1GHz~18GHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 3465.00 Reading
(dBm)
-57.2 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-48.8 1.4
-47.4
-13.0
-34.4 No. Freq. (MHz) 1 3465.00 Reading
(dBm)
-58.6 Antenna Polarity & Test Distance: Vertical at 3 M Correction Factor (dB) EIRP (dBm) S.G Power Value (dBm) Limit (dBm) Margin (dB)
-50.8 1.4
-49.4
-13.0
-36.4 Remarks:
1. Output Power (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09-2 Page No. 236 / 257 Report Format Version: 6.1.1 Mode TX channel 20393
(1754.3MHz) Environmental Conditions 24deg. C, 66%RH Tested By Greg Lin Frequency Range 1GHz~18GHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 3508.60 Reading
(dBm)
-58.1 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-49.8 1.4
-48.4
-13.0
-35.4 No. Freq. (MHz) 1 3508.60 Reading
(dBm)
-58.5 Antenna Polarity & Test Distance: Vertical at 3 M Correction Factor (dB) EIRP (dBm) S.G Power Value (dBm) Limit (dBm) Margin (dB)
-50.8 1.4
-49.4
-13.0
-36.4 Remarks:
1. Output Power (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09-2 Page No. 237 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 5MHz Mode TX channel 19975
(1712.5MHz) Environmental Conditions 24deg. C, 66%RH Tested By Greg Lin Frequency Range 1GHz~18GHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 3425.00 Reading
(dBm)
-57.8 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-49.2 1.3
-47.9
-13.0
-34.9 No. Freq. (MHz) 1 3425.00 Reading
(dBm)
-59.1 Antenna Polarity & Test Distance: Vertical at 3 M Correction Factor (dB) EIRP (dBm) S.G Power Value (dBm) Limit (dBm) Margin (dB)
-51.0 1.3
-49.7
-13.0
-36.7 Remarks:
1. Output Power (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Mode TX channel 20175
(1732.5MHz) Environmental Conditions 24deg. C, 66%RH Tested By Greg Lin Frequency Range 1GHz~18GHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 3465.00 Reading
(dBm)
-57.5 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-49.1 1.4
-47.7
-13.0
-34.7 No. Freq. (MHz) 1 3465.00 Reading
(dBm)
-58.8 Antenna Polarity & Test Distance: Vertical at 3 M Correction Factor (dB) EIRP (dBm) S.G Power Value (dBm) Limit (dBm) Margin (dB)
-51.0 1.4
-49.6
-13.0
-36.6 Remarks:
1. Output Power (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09-2 Page No. 238 / 257 Report Format Version: 6.1.1 Mode TX channel 20375
(1752.5MHz) Environmental Conditions 24deg. C, 66%RH Tested By Greg Lin Frequency Range 1GHz~18GHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 3505.00 Reading
(dBm)
-57.2 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-49.0 1.5
-47.5
-13.0
-34.5 No. Freq. (MHz) 1 3505.00 Reading
(dBm)
-58.1 Antenna Polarity & Test Distance: Vertical at 3 M Correction Factor (dB) EIRP (dBm) S.G Power Value (dBm) Limit (dBm) Margin (dB)
-50.5 1.5
-49.0
-13.0
-36.0 Remarks:
1. Output Power (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09-2 Page No. 239 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 20MHz Mode TX channel 20050
(1720.0MHz) Environmental Conditions 24deg. C, 66%RH Tested By Greg Lin Frequency Range 1GHz~18GHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 3440.00 Reading
(dBm)
-57.1 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-48.6 1.3
-47.3
-13.0
-34.3 No. Freq. (MHz) 1 3440.00 Reading
(dBm)
-58.8 Antenna Polarity & Test Distance: Vertical at 3 M Correction Factor (dB) EIRP (dBm) S.G Power Value (dBm) Limit (dBm) Margin (dB)
-50.8 1.3
-49.5
-13.0
-36.5 Remarks:
1. Output Power (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Mode TX channel 20175
(1732.5MHz) Environmental Conditions 24deg. C, 66%RH Tested By Greg Lin Frequency Range 1GHz~18GHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 3465.00 Reading
(dBm)
-58.0 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-49.6 1.4
-48.2
-13.0
-35.2 No. Freq. (MHz) 1 3465.00 Reading
(dBm)
-58.3 Antenna Polarity & Test Distance: Vertical at 3 M Correction Factor (dB) EIRP (dBm) S.G Power Value (dBm) Limit (dBm) Margin (dB)
-50.5 1.4
-49.1
-13.0
-36.1 Remarks:
1. Output Power (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09-2 Page No. 240 / 257 Report Format Version: 6.1.1 Mode TX channel 20300
(1745.0MHz) Environmental Conditions 24deg. C, 66%RH Tested By Greg Lin Frequency Range 1GHz~18GHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 3490.00 Reading
(dBm)
-57.9 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-49.7 1.5
-48.2
-13.0
-35.2 No. Freq. (MHz) 1 3490.00 Reading
(dBm)
-58.4 Antenna Polarity & Test Distance: Vertical at 3 M Correction Factor (dB) EIRP (dBm) S.G Power Value (dBm) Limit (dBm) Margin (dB)
-50.8 1.5
-49.3
-13.0
-36.3 Remarks:
1. Output Power (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09-2 Page No. 241 / 257 Report Format Version: 6.1.1 LTE Band 12 Channel Bandwidth: 1.4MHz Mode TX channel 23017
(699.7MHz) Environmental Conditions 25deg. C, 66%RH Tested By Tim Chen Frequency Range 1GHz~18GHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 2 1399.40 2099.10 Reading
(dBm)
-68.5
-75.2 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-62.3
-70.2 0.9
-0.3
-61.4
-70.5
-13.0
-13.0
-48.4
-57.5 No. Freq. (MHz) 1 2 1399.40 2099.10 Reading
(dBm)
-68.2
-75.0 Antenna Polarity & Test Distance: Vertical at 3 M Correction Factor (dB) EIRP (dBm) S.G Power Value (dBm) Limit (dBm) Margin (dB)
-63.1
-71.5 0.9
-0.3
-62.2
-71.8
-13.0
-13.0
-49.2
-58.8 Remarks:
1. Output Power (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Mode TX channel 23095
(707.5MHz) Environmental Conditions 25deg. C, 66%RH Tested By Tim Chen Frequency Range 1GHz~18GHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 2 1415.00 2122.50 Reading
(dBm)
-65.3
-75.2 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-58.8
-70.3 0.9
-0.3
-57.9
-70.6
-13.0
-13.0
-44.9
-57.6 No. Freq. (MHz) 1 2 1415.00 2122.50 Reading
(dBm)
-69.5
-75.5 Antenna Polarity & Test Distance: Vertical at 3 M Correction Factor (dB) EIRP (dBm) S.G Power Value (dBm) Limit (dBm) Margin (dB)
-64.2
-71.7 0.9
-0.3
-63.3
-72.0
-13.0
-13.0
-50.3
-59.0 Remarks:
1. Output Power (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09-2 Page No. 242 / 257 Report Format Version: 6.1.1 Mode TX channel 23173
(715.3MHz) Environmental Conditions 25deg. C, 66%RH Tested By Tim Chen Frequency Range 1GHz~18GHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 2 1430.60 2145.90 Reading
(dBm)
-66.0
-75.2 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-59.3
-70.3 1.0
-0.3
-58.3
-70.6
-13.0
-13.0
-45.3
-57.6 No. Freq. (MHz) 1 2 1430.60 2145.90 Reading
(dBm)
-69.8
-75.2 Antenna Polarity & Test Distance: Vertical at 3 M Correction Factor (dB) EIRP (dBm) S.G Power Value (dBm) Limit (dBm) Margin (dB)
-64.3
-71.2 1.0
-0.3
-63.3
-71.5
-13.0
-13.0
-50.3
-58.5 Remarks:
1. Output Power (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09-2 Page No. 243 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 5MHz Mode TX channel 23035
(701.5MHz) Environmental Conditions 25deg. C, 66%RH Tested By Tim Chen Frequency Range 1GHz~18GHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 2 1403.00 2104.50 Reading
(dBm)
-66.8
-75.1 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-60.4
-70.1 0.9
-0.3
-59.5
-70.4
-13.0
-13.0
-46.5
-57.4 No. Freq. (MHz) 1 2 1403.00 2104.50 Reading
(dBm)
-69.3
-75.2 Antenna Polarity & Test Distance: Vertical at 3 M Correction Factor (dB) EIRP (dBm) S.G Power Value (dBm) Limit (dBm) Margin (dB)
-64.2
-71.7 0.9
-0.3
-63.3
-72.0
-13.0
-13.0
-50.3
-59.0 Remarks:
1. Output Power (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Mode TX channel 23095
(707.5MHz) Environmental Conditions 25deg. C, 66%RH Tested By Tim Chen Frequency Range 1GHz~18GHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 2 1415.00 2122.50 Reading
(dBm)
-66.2
-75.0 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-59.6
-70.0 0.9
-0.3
-58.7
-70.3
-13.0
-13.0
-45.7
-57.3 No. Freq. (MHz) 1 2 1415.00 2122.50 Reading
(dBm)
-69.8
-75.2 Antenna Polarity & Test Distance: Vertical at 3 M Correction Factor (dB) EIRP (dBm) S.G Power Value (dBm) Limit (dBm) Margin (dB)
-64.4
-71.4 0.9
-0.3
-63.5
-71.7
-13.0
-13.0
-50.5
-58.7 Remarks:
1. Output Power (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09-2 Page No. 244 / 257 Report Format Version: 6.1.1 Mode TX channel 23155
(713.5MHz) Environmental Conditions 25deg. C, 66%RH Tested By Tim Chen Frequency Range 1GHz~18GHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 2 1427.00 2140.50 Reading
(dBm)
-65.7
-75.2 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-59.0
-70.2 1.0
-0.3
-58.0
-70.5
-13.0
-13.0
-45.0
-57.5 No. Freq. (MHz) 1 2 1427.00 2140.50 Reading
(dBm)
-70.0
-75.3 Antenna Polarity & Test Distance: Vertical at 3 M Correction Factor (dB) EIRP (dBm) S.G Power Value (dBm) Limit (dBm) Margin (dB)
-64.4
-71.5 1.0
-0.3
-63.4
-71.8
-13.0
-13.0
-50.4
-58.8 Remarks:
1. Output Power (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09-2 Page No. 245 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 10MHz Mode TX channel 23060
(704MHz) Environmental Conditions 25deg. C, 66%RH Tested By Tim Chen Frequency Range 1GHz~18GHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 2 1408.00 2112.00 Reading
(dBm)
-66.5
-75.2 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-60.1
-70.3 0.9
-0.3
-59.2
-70.6
-13.0
-13.0
-46.2
-57.6 No. Freq. (MHz) 1 2 1408.00 2112.00 Reading
(dBm)
-69.7
-75.4 Antenna Polarity & Test Distance: Vertical at 3 M Correction Factor (dB) EIRP (dBm) S.G Power Value (dBm) Limit (dBm) Margin (dB)
-64.4
-71.8 0.9
-0.3
-63.5
-72.1
-13.0
-13.0
-50.5
-59.1 Remarks:
1. Output Power (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Mode TX channel 23095
(707.5MHz) Environmental Conditions 25deg. C, 66%RH Tested By Tim Chen Frequency Range 1GHz~18GHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 2 1415.00 2122.50 Reading
(dBm)
-66.5
-75.2 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-59.9
-70.2 0.9
-0.3
-59.0
-70.5
-13.0
-13.0
-46.0
-57.5 No. Freq. (MHz) 1 2 1415.00 2122.50 Reading
(dBm)
-70.3
-75.2 Antenna Polarity & Test Distance: Vertical at 3 M Correction Factor (dB) EIRP (dBm) S.G Power Value (dBm) Limit (dBm) Margin (dB)
-65.0
-71.5 0.9
-0.3
-64.1
-71.8
-13.0
-13.0
-51.1
-58.8 Remarks:
1. Output Power (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09-2 Page No. 246 / 257 Report Format Version: 6.1.1 Mode TX channel 23130
(711MHz) Environmental Conditions 25deg. C, 66%RH Tested By Tim Chen Frequency Range 1GHz~18GHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 2 1422.00 2133.00 Reading
(dBm)
-65.8
-75.1 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-59.3
-70.0 1.0
-0.4
-58.3
-70.4
-13.0
-13.0
-45.3
-57.4 No. Freq. (MHz) 1 2 1422.00 2133.00 Reading
(dBm)
-70.5
-75.2 Antenna Polarity & Test Distance: Vertical at 3 M Correction Factor (dB) EIRP (dBm) S.G Power Value (dBm) Limit (dBm) Margin (dB)
-65.1
-71.3 1.0
-0.4
-64.1
-71.7
-13.0
-13.0
-51.1
-58.7 Remarks:
1. Output Power (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09-2 Page No. 247 / 257 Report Format Version: 6.1.1 LTE Band 30 Channel Bandwidth: 5MHz Mode TX channel 27685
(2307.5MHz) Environmental Conditions 25deg. C, 66%RH Tested By Tim Chen Frequency Range 1GHz~25GHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 4615.00 Reading
(dBm)
-64.0 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-53.6 1.0
-52.6
-40.0
-12.6 No. Freq. (MHz) 1 4615.00 Reading
(dBm)
-64.2 Antenna Polarity & Test Distance: Vertical at 3 m Correction Factor (dB) EIRP (dBm) S.G Power Value (dBm) Limit (dBm) Margin (dB)
-54.0 1.0
-53.0
-40.0
-13.0 Remarks:
1. Output Power (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Mode TX channel 27710
(2310.0MHz) Environmental Conditions 25deg. C, 66%RH Tested By Tim Chen Frequency Range 1GHz~25GHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 4620.00 Reading
(dBm)
-64.3 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-53.9 1.0
-52.9
-40.0
-12.9 No. Freq. (MHz) 1 4620.00 Reading
(dBm)
-64.7 Antenna Polarity & Test Distance: Vertical at 3 M Correction Factor (dB) EIRP (dBm) S.G Power Value (dBm) Limit (dBm) Margin (dB)
-54.4 1.0
-53.4
-40.0
-13.4 Remarks:
1. Output Power (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09-2 Page No. 248 / 257 Report Format Version: 6.1.1 Mode TX channel 27735
(2312.5MHz) Environmental Conditions 25deg. C, 66%RH Tested By Tim Chen Frequency Range 1GHz~25GHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 4625.00 Reading
(dBm)
-63.7 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-53.3 1.1
-52.2
-40.0
-12.2 No. Freq. (MHz) 1 4625.00 Reading
(dBm)
-64.1 Antenna Polarity & Test Distance: Vertical at 3 M Correction Factor (dB) EIRP (dBm) S.G Power Value (dBm) Limit (dBm) Margin (dB)
-53.9 1.1
-52.8
-40.0
-12.8 Remarks:
1. Output Power (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Channel Bandwidth: 10MHz Mode TX channel 27710
(2310.0MHz) Environmental Conditions 25deg. C, 66%RH Tested By Tim Chen Frequency Range 1GHz~25GHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 4620.00 Reading
(dBm)
-62.8 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-52.4 1.0
-51.4
-40.0
-11.4 No. Freq. (MHz) 1 4620.00 Reading
(dBm)
-63.3 Antenna Polarity & Test Distance: Vertical at 3 M Correction Factor (dB) EIRP (dBm) S.G Power Value (dBm) Limit (dBm) Margin (dB)
-53.0 1.0
-52.0
-40.0
-12.0 Remarks:
1. Output Power (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09-2 Page No. 249 / 257 Report Format Version: 6.1.1 LTE Band 66 Channel Bandwidth: 1.4MHz Mode TX channel 131979
(1710.7MHz) Environmental Conditions 24deg. C, 66%RH Tested By Greg Lin Frequency Range 1GHz~18GHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 2 3421.40 5132.10 Reading
(dBm)
-54.6
-59.6 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-46.0
-47.4 1.3 1.4
-44.7
-46.0
-13.0
-13.0
-31.7
-33.0 No. Freq. (MHz) 1 2 3421.40 5132.10 Reading
(dBm)
-55.4
-59.2 Antenna Polarity & Test Distance: Vertical at 3 M Correction Factor (dB) EIRP (dBm) S.G Power Value (dBm) Limit (dBm) Margin (dB)
-47.3
-47.4 1.3 1.4
-46.0
-46.0
-13.0
-13.0
-33.0
-33.0 Remarks:
1. Output Power (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Mode TX channel 132322
(1745MHz) Environmental Conditions 24deg. C, 66%RH Tested By Greg Lin Frequency Range 1GHz~18GHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 2 3490.00 5235.00 Reading
(dBm)
-54.9
-59.7 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-46.7
-47.9 1.5 1.4
-45.2
-46.5
-13.0
-13.0
-32.2
-33.5 No. Freq. (MHz) 1 2 3490.00 5235.00 Reading
(dBm)
-55.5
-59.8 Antenna Polarity & Test Distance: Vertical at 3 M Correction Factor (dB) EIRP (dBm) S.G Power Value (dBm) Limit (dBm) Margin (dB)
-47.9
-47.9 1.5 1.4
-46.4
-46.5
-13.0
-13.0
-33.4
-33.5 Remarks:
1. Output Power (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09-2 Page No. 250 / 257 Report Format Version: 6.1.1 Mode TX channel 132665
(1779.3MHz) Environmental Conditions 24deg. C, 66%RH Tested By Greg Lin Frequency Range 1GHz~18GHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 2 3558.60 5337.90 Reading
(dBm)
-55.2
-60.1 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-46.7
-48.0 1.4 1.4
-45.3
-46.6
-13.0
-13.0
-32.3
-33.6 No. Freq. (MHz) 1 2 3558.60 5337.90 Reading
(dBm)
-56.3
-60.4 Antenna Polarity & Test Distance: Vertical at 3 M Correction Factor (dB) EIRP (dBm) S.G Power Value (dBm) Limit (dBm) Margin (dB)
-48.5
-49.0 1.4 1.4
-47.1
-47.6
-13.0
-13.0
-34.1
-34.6 Remarks:
1. Output Power (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09-2 Page No. 251 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 5MHz Mode TX channel 131997
(1712.5MHz) Environmental Conditions 24deg. C, 66%RH Tested By Greg Lin Frequency Range 1GHz~18GHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 2 3425.00 5137.50 Reading
(dBm)
-55.1
-59.5 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-46.5
-47.3 1.3 1.4
-45.2
-45.9
-13.0
-13.0
-32.2
-32.9 No. Freq. (MHz) 1 2 3425.00 5137.50 Reading
(dBm)
-55.6
-60.2 Antenna Polarity & Test Distance: Vertical at 3 M Correction Factor (dB) EIRP (dBm) S.G Power Value (dBm) Limit (dBm) Margin (dB)
-47.5
-48.3 1.3 1.4
-46.2
-46.9
-13.0
-13.0
-33.2
-33.9 Remarks:
1. Output Power (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Mode TX channel 132322
(1745MHz) Environmental Conditions 24deg. C, 66%RH Tested By Greg Lin Frequency Range 1GHz~18GHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 2 3490.00 5235.00 Reading
(dBm)
-54.6
-59.4 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-46.4
-47.6 1.5 1.4
-44.9
-46.2
-13.0
-13.0
-31.9
-33.2 No. Freq. (MHz) 1 2 3490.00 5235.00 Reading
(dBm)
-55.1
-59.5 Antenna Polarity & Test Distance: Vertical at 3 M Correction Factor (dB) EIRP (dBm) S.G Power Value (dBm) Limit (dBm) Margin (dB)
-47.5
-47.6 1.5 1.4
-46.0
-46.2
-13.0
-13.0
-33.0
-33.2 Remarks:
1. Output Power (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09-2 Page No. 252 / 257 Report Format Version: 6.1.1 Mode TX channel 132647
(1777.5MHz) Environmental Conditions 24deg. C, 66%RH Tested By Greg Lin Frequency Range 1GHz~18GHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 2 3555.00 5332.50 Reading
(dBm)
-54.8
-59.9 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-46.4
-47.8 1.4 1.4
-45.0
-46.4
-13.0
-13.0
-32.0
-33.4 No. Freq. (MHz) 1 2 3555.00 5332.50 Reading
(dBm)
-55.2
-60.5 Antenna Polarity & Test Distance: Vertical at 3 M Correction Factor (dB) EIRP (dBm) S.G Power Value (dBm) Limit (dBm) Margin (dB)
-47.4
-49.1 1.4 1.4
-46.0
-47.7
-13.0
-13.0
-33.0
-34.7 Remarks:
1. Output Power (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09-2 Page No. 253 / 257 Report Format Version: 6.1.1 Channel Bandwidth: 20MHz Mode TX channel 132072
(1720MHz) Environmental Conditions 24deg. C, 66%RH Tested By Greg Lin Frequency Range 1GHz~18GHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 2 3440.00 5160.00 Reading
(dBm)
-55.3
-59.4 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-46.8
-47.4 1.3 1.4
-45.5
-46.0
-13.0
-13.0
-32.5
-33.0 No. Freq. (MHz) 1 2 3440.00 5160.00 Reading
(dBm)
-55.8
-59.8 Antenna Polarity & Test Distance: Vertical at 3 M Correction Factor (dB) EIRP (dBm) S.G Power Value (dBm) Limit (dBm) Margin (dB)
-47.8
-47.8 1.3 1.4
-46.5
-46.4
-13.0
-13.0
-33.5
-33.4 Remarks:
1. Output Power (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Mode TX channel 132322
(1745MHz) Environmental Conditions 24deg. C, 66%RH Tested By Greg Lin Frequency Range 1GHz~18GHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 2 3490.00 5235.00 Reading
(dBm)
-55.0
-59.8 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-46.8
-48.0 1.5 1.4
-45.3
-46.6
-13.0
-13.0
-32.3
-33.6 No. Freq. (MHz) 1 2 3490.00 5235.00 Reading
(dBm)
-55.4
-60.1 Antenna Polarity & Test Distance: Vertical at 3 M Correction Factor (dB) EIRP (dBm) S.G Power Value (dBm) Limit (dBm) Margin (dB)
-47.8
-48.2 1.5 1.4
-46.3
-46.8
-13.0
-13.0
-33.3
-33.8 Remarks:
1. Output Power (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09-2 Page No. 254 / 257 Report Format Version: 6.1.1 Mode TX channel 132572
(1770MHz) Environmental Conditions 24deg. C, 66%RH Tested By Greg Lin Frequency Range 1GHz~18GHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 2 3540.00 5310.00 Reading
(dBm)
-54.3
-59.3 S.G Power Value (dBm) Correction Factor (dB) EIRP (dBm) Limit (dBm) Margin (dB)
-45.9
-47.3 1.4 1.4
-44.5
-45.9
-13.0
-13.0
-31.5
-32.9 No. Freq. (MHz) 1 2 3540.00 5310.00 Reading
(dBm)
-54.7
-59.7 Antenna Polarity & Test Distance: Vertical at 3 M Correction Factor (dB) EIRP (dBm) S.G Power Value (dBm) Limit (dBm) Margin (dB)
-46.9
-48.3 1.4 1.4
-45.5
-46.9
-13.0
-13.0
-32.5
-33.9 Remarks:
1. Output Power (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09-2 Page No. 255 / 257 Report Format Version: 6.1.1 5 Pictures of Test Arrangements Please refer to the attached file (Test Setup Photo). Report No.: RF181015C09-2 Page No. 256 / 257 Report Format Version: 6.1.1 Appendix Information on the Testing Laboratories We, Bureau Veritas Consumer Products Services (H.K.) Ltd., Taoyuan Branch, were founded in 1988 to provide our best service in EMC, Radio, Telecom and Safety consultation. Our laboratories are FCC recognized accredited test firms and accredited and approved according to ISO/IEC 17025. If you have any comments, please feel free to contact us at the following:
Linko EMC/RF Lab Tel: 886-2-26052180 Fax: 886-2-26051924 Hwa Ya EMC/RF/Safety Lab Tel: 886-3-3183232 Fax: 886-3-3270892 Email: service.adt@tw.bureauveritas.com Web Site: www.bureauveritas-adt.com Hsin Chu EMC/RF/Telecom Lab Tel: 886-3-6668565 Fax: 886-3-6668323 The address and road map of all our labs can be found in our web site also.
--- END ---
Report No.: RF181015C09-2 Page No. 257 / 257 Report Format Version: 6.1.1
1 2 3 4 | Part 90 report | Test Report | 1.72 MiB | / June 06 2019 |
FCC Test Report
(Part 90R) Report No.: RF181015C09-3 FCC ID: PY318300428 Test Model: MR5000 Received Date: Oct. 15, 2018 Test Date: Oct. 27 ~ Nov. 05, 2018 Issued Date: Nov. 15, 2018 Applicant: NETGEAR INC. Address: 350 East Plumeria Drive, San Jose, CA 95134, USA Issued By: Bureau Veritas Consumer Products Services (H.K.) Ltd., Taoyuan Branch Lab Address: No. 47-2, 14th Ling, Chia Pau Vil., Lin Kou Dist., New Taipei City, Taiwan
(R.O.C.) Test Location: No. 19, Hwa Ya 2nd Rd., Wen Hwa Vil., Kwei Shan Dist., Taoyuan City FCC Registration /
Designation Number:
33383, TAIWAN (R.O.C.) 788550 / TW0003 This report is for your exclusive use. Any copying or replication of this report to or for any other person or entity, or use of our name or trademark, is permitted only with our prior written permission. This report sets forth our findings solely with respect to the test samples identified herein. The results set forth in this report are not indicative or representative of the quality or characteristics of the lot from which a test sample was taken or any similar or identical product unless specifically and expressly noted. Our report includes all of the tests requested by you and the results thereof based upon the information that you provided to us. You have 60 days from date of issuance of this report to notify us of any material error or omission caused by our negligence, provided, however, that such notice shall be in writing and shall specifically address the issue you wish to raise. A failure to raise such issue within the prescribed time shall constitute your unqualified acceptance of the completeness of this report, the tests conducted and the correctness of the report contents. Unless specific mention, the uncertainty of measurement has been explicitly taken into account to declare the compliance or non-compliance to the specification. The report must not be used by the client to claim product certification, approval, or endorsement by TAF or any government agencie Report No.: RF181015C09-3 Page No. 1 / 47 Report Format Version: 6.1.1 Table of Contents 4 3 Release Control Record .................................................................................................................................. 4 1 Certificate of Conformity ...................................................................................................................... 5 Summary of Test Results ..................................................................................................................... 6 2 2.1 Measurement Uncertainty ................................................................................................................... 6 2.2 Test Site and Instruments .................................................................................................................... 7 General Information .............................................................................................................................. 8 3.1 General Description of EUT ................................................................................................................ 8 3.2 Configuration of System under Test .................................................................................................... 9 3.2.1 Description of Support Units ................................................................................................................ 9 Test Mode Applicability and Tested Channel Detail .......................................................................... 10 3.3 3.4 EUT Operating Conditions ................................................................................................................. 11 3.5 General Description of Applied Standards ......................................................................................... 11 Test Types and Results ...................................................................................................................... 12 4.1 Output Power Measurement ............................................................................................................. 12 4.1.1 Limits of Output Power Measurement ............................................................................................... 12 4.1.2 Test Procedures ................................................................................................................................. 12 4.1.3 Test Setup .......................................................................................................................................... 13 4.1.4 Test Results ....................................................................................................................................... 14 4.2 Modulation Characteristics Measurement ......................................................................................... 19 4.2.1 Limits of Modulation Characteristics .................................................................................................. 19 4.2.2 Test Procedure .................................................................................................................................. 19 4.2.3 Test Setup .......................................................................................................................................... 19 4.2.4 Test Results ....................................................................................................................................... 20 4.3 Frequency Stability Measurement .................................................................................................... 21 4.3.1 Limits of Frequency Stabiliity Measurement ..................................................................................... 21 4.3.2 Test Procedure .................................................................................................................................. 21 4.3.3 Test Setup .......................................................................................................................................... 21 4.3.4 Test Results ....................................................................................................................................... 22 4.4 Occupied Bandwidth Measurement .................................................................................................. 24 4.4.1 Limits of Occupied Bandwidth Measurement .................................................................................... 24 4.4.2 Test Procedure .................................................................................................................................. 24 4.4.3 Test Setup .......................................................................................................................................... 24 4.4.4 Test Result ......................................................................................................................................... 25 4.5 Emission Mask Measurement ........................................................................................................... 26 4.5.1 Limits of Emission Mask Measurement ............................................................................................. 26 4.5.2 Test Procedures ................................................................................................................................. 26 4.5.3 Test Setup .......................................................................................................................................... 26 4.5.4 Test Results ....................................................................................................................................... 27 4.6 Band Edge Measurement ................................................................................................................. 29 4.6.1 Limits of Band Edge Measurement ................................................................................................... 29 4.6.2 Test Setup .......................................................................................................................................... 29 4.6.3 Test Procedures ................................................................................................................................. 29 4.6.4 Test Results ....................................................................................................................................... 30 4.7 Conducted Spurious Emissions ........................................................................................................ 32 4.7.1 Limits of Conducted Spurious Emissions Measurement ................................................................... 32 4.7.2 Test Setup .......................................................................................................................................... 32 4.7.3 Test Procedure .................................................................................................................................. 32 4.7.4 Test Results ....................................................................................................................................... 33 4.8 Radiated Emission Measurement ..................................................................................................... 37 4.8.1 Limits of Radiated Emission Measuremen ........................................................................................ 37 4.8.2 Test Procedure .................................................................................................................................. 37 4.8.3 Deviation from Test Standard ............................................................................................................ 37 4.8.4 Test Setup .......................................................................................................................................... 38 Report No.: RF181015C09-3 Page No. 2 / 47 Report Format Version: 6.1.1 4.8.5 Test Results ....................................................................................................................................... 39 5 Pictures of Test Arrangements .......................................................................................................... 46 Appendix Information on the Testing Laboratories ................................................................................ 47 Report No.: RF181015C09-3 Page No. 3 / 47 Report Format Version: 6.1.1 Issue No. RF181015C09-3 Description Original release Release Control Record Date Issued Nov. 15, 2018 Report No.: RF181015C09-3 Page No. 4 / 47 Report Format Version: 6.1.1 1 Certificate of Conformity Product: 5G MHS Travel Router Brand: Netgear Test Model: MR5000 Sample Status: Engineering sample Applicant: NETGEAR INC. Test Date: Oct. 27 ~ Nov. 05, 2018 Standards: FCC Part 90, Subpart R The above equipment has been tested by Bureau Veritas Consumer Products Services (H.K.) Ltd., Taoyuan Branch, and found compliance with the requirement of the above standards. The test record, data evaluation & Equipment Under Test (EUT) configurations represented herein are true and accurate accounts of the measurements of the samples RF characteristics under the conditions specified in this report. Prepared by :
Polly Chien / Specialist
, Date:
Nov. 15, 2018 Approved by :
, Date:
Nov. 15, 2018 Bruce Chen / Project Engineer Report No.: RF181015C09-3 Page No. 5 / 47 Report Format Version: 6.1.1 2 Summary of Test Results Applied Standard: FCC Part 90 & Part 2 Test Item 90.542 (a)(7) Effective Radiated Power Modulation Characteristics Frequency Stability 2.1049 Occupied Bandwidth (*) 90.210 (n) Emission Masks FCC Clause 2.1046 2.1047 2.1055 90.539 (e) 2.1053 90.543
(e)(2)(3) 2.1051 Result Pass Pass Pass Pass Pass Remarks Meet the requirement of limit. Meet the requirement. Meet the requirement of limit. Meet the requirement of limit. Meet the requirement of limit. Band Edge Measurements Pass Meet the requirement of limit. 90.543 (e)(3) Conducted Spurious Emissions 2.1053 90.543 (e)(f) Radiated Spurious Emissions Pass Pass Meet the requirement of limit. Meet the requirement of limit. Minimum passing margin is -11.1dB at 1581.00MHz. 2.1 Measurement Uncertainty Where relevant, the following measurement uncertainty levels have been estimated for tests performed on the EUT as specified in CISPR 16-4-2:
Measurement Radiated Emissions up to 1 GHz Radiated Emissions above 1 GHz Frequency 30MHz ~ 200MHz 200MHz ~1000MHz 1GHz ~ 18GHz 18GHz ~ 40GHz Expanded Uncertainty
(k=2) () 3.59 dB 3.60 dB 2.29 dB 2.29 dB Report No.: RF181015C09-3 Page No. 6 / 47 Report Format Version: 6.1.1 8449B 8447D FSP40 100269 Cal. Due Cal. Date 9168-148 Serial No. VULB9168 BBHA 9170 9120D-1169 2944A10638 3008A01638 MY55420137 BBHA 9120 D BBHA9170241 Model No. N9038A Apr. 11, 2018 Apr. 10, 2019 May 29, 2018 May 28, 2019 Feb. 22, 2018 Feb. 21, 2019 Dec. 12, 2017 Dec. 11, 2018 Dec. 01, 2017 Nov. 30, 2018 Dec. 11, 2017 Dec. 10, 2018 Aug. 08, 2018 Aug. 07, 2019 SUCOFLEX 104 &
EMC104-SM-SM80 2.2 Test Site and Instruments Description & Manufacturer Test Receiver KEYSIGHT Spectrum Analyzer ROHDE & SCHWARZ BILOG Antenna SCHWARZBECK HORN Antenna SCHWARZBECK HORN Antenna SCHWARZBECK Preamplifier Agilent
(Below 1GHz) Preamplifier Agilent
(Above 1GHz) RF signal cable HUBER+SUHNER&EMCI RF signal cable HUBER+SUHNER RF signal cable Woken Software BV ADT Antenna Tower EMCO Turn Table EMCO Antenna Tower &Turn BV ADT Turn Table BV ADT Turn Table Controller BV ADT Boresight Antenna Fixture WIT Standard Temperature And Humidity Chamber Mini-Circuits Power Splitter JFW 20dB attenuation Note: 1. The calibration interval of the above test instruments is 12 months and the calibrations are traceable SUCOFLEX 104 CABLE-CH9-(250795/4) Aug. 08, 2018 Aug. 07, 2019 Jun. 04, 2018 Jun. 03, 2019 Jun. 21, 2018 Jun. 20, 2019 SC100 FBA-01 TH-4S-C ZN2PD-9G SC93021705 FBA-SIP01 W981030 CABLE-CH9-02
(248780+171006) Jan. 15, 2018 Jan. 14, 2019 V7.6.15.9.5 2070/2080 ADT_Radiated_ 50HF-020-SMA Cable-CH9-01 512.835.4684 Jul. 31, 2018 TT93021705 AT93021705 Jul. 30, 2019 2087-2.03 NA NA NA NA NA NA 8D-FB TT100 AT100 NA NA NA NA NA NA NA NA NA NA NA NA NA NA 00 to NML/ROC and NIST/USA. 2. The test was performed in HwaYa Chamber 9. 3. The FCC Designation Number is TW0003. The number will be varied with the Lab location and scope as attached. 4. The IC Site Registration No. is 7450F-9. Report No.: RF181015C09-3 Page No. 7 / 47 Report Format Version: 6.1.1 3 General Information 3.1 General Description of EUT 5G MHS Travel Router Netgear MR5000 Engineering sample 5.0 Vdc or 9Vdc (adapter) 3.85Vdc (battery) QPSK, 16QAM, 64QAM Channel Bandwidth 5MHz Channel Bandwidth 10MHz 793MHz Channel Bandwidth 5MHz Product Brand Test Model Status of EUT Power Supply Rating Modulation Type Operating Frequency Max. ERP Power Emission Designator Channel Bandwidth 10MHz Channel Bandwidth 5MHz Channel Bandwidth 10MHz Internal IFA antenna with 1.09dBi NA Adapter, battery 0.95m shielded USB cable without core Antenna Type Antenna Connector Accessory Device Data Cable Supplied Note:
1. The EUT consumes power from the following adapter and battery. Adapter Brand Model Input Output NETGEAR AD2122F20 100-240Vac, 50/60Hz, 0.5A 5.0Vdc, 2.0A or 9Vdc /1.8A 790.50MHz ~ 795.5MHz QPSK 123.027mW
(20.9dBm) 144.544mW
(21.6dBm) QPSK 4M49G7D 8M96G7D 16QAM 95.499mW
(19.8dBm) 107.152mW
(20.3dBm) 16QAM 4M49D7W 8M96D7W 64QAM 81.283mW
(19.1dBm) 95.499mW
(19.8dBm) 64QAM 4M50D7W 8M97D7W Lithium ion battery Brand Model P/N Rating NETGEAR W-10a 308-10084-01 3.85Vdc, 19.78Wh, 5040mAh Report No.: RF181015C09-3 Page No. 8 / 47 Report Format Version: 6.1.1 EUT Adapter (EUT) 3.2 Configuration of System under Test 3.2.1 Description of Support Units The EUT has been tested as an independent unit together with other necessary accessories or support units. The following support units or accessories were used to form a representative test configuration during the tests. ID Communication Remote site Tester (A) Model No. Serial No. Radio Remarks FCC ID Brand DC Product Radio A. Communication Anritsu MT8820C 6201010284 NA
-
Tester Note:
1. All power cords of the above support units are non-shielded (1.8m). 2. Item A acted as a communication partner to transfer data. Report No.: RF181015C09-3 Page No. 9 / 47 Report Format Version: 6.1.1 3.3 Test Mode Applicability and Tested Channel Detail Pre-Scan has been conducted to determine the worst-case mode from all possible combinations between available modulations, data rates, XYZ axis and antenna ports. The worst case was found when positioned on X-plane. Following channel(s) was (were) selected for the final test as listed below:
EUT Configure Mode Test item Available channel Channel Bandwidth Modulation Mode
-
-
-
-
-
-
-
-
-
ERP Modulation Characteristics Frequency Stability Occupied Bandwidth Emission Mask Band Edge Conducted Emission Radiated Emission below 1GHz Radiated Emission above 1GHz Tested channel 23305(790.5MHz), 23330(793.0MHz), 23355(795.5MHz) 23330(793.0MHz) 23330(793.0MHz) 23305(790.5MHz), 23355(795.5MHz) 23330(793.0MHz) 23305(790.5MHz), 23330(793.0MHz), 23355(795.5MHz) 23330(793.0MHz) 23305(790.5MHz), 23330(793.0MHz), 23355(795.5MHz) 23330(793.0MHz) 23305(790.5MHz), 23355(795.5MHz) 23305 to 23355 23330 23305 to 23355 23305 to 23355 23330 23305 to 23355 23330 23305 to 23355 23330 23305 to 23355 5MHz 10MHz 10MHz 5MHz 10MHz 5MHz 10MHz 5MHz 10MHz 5MHz 23305 to 23355 23330 23305(790.5MHz), 23330(793.0MHz), 23355(795.5MHz) 23330(793.0MHz) 5MHz 10MHz 23305 to 23355 23305(790.5MHz) 5MHz 23330 23305 to 23355 23330 23330(793.0MHz) 23305(790.5MHz), 23330(793.0MHz), 23355(795.5MHz) 23330(793.0MHz) 10MHz 5MHz QPSK / 16QAM /
64QAM QPSK / 16QAM /
64QAM QPSK / 16QAM /
64QAM QPSK 1 RB / 0 RB Offset 1 RB / 0 RB Offset 1 RB / 0 RB Offset 1 RB / 0 RB Offset QPSK 1 RB / 0 RB Offset QPSK / 16QAM /
64QAM QPSK / 16QAM /
64QAM QPSK / 16QAM /
64QAM QPSK / 16QAM /
64QAM QPSK 25 RB / 0 RB Offset 50 RB / 0 RB Offset 25 RB / 0 RB Offset 50 RB / 0 RB Offset 1 RB / 0 RB Offset 25 RB / 0 RB Offset 1 RB / 0 RB Offset 1 RB / 49 RB Offset 50 RB / 0 RB Offset QPSK 1 RB / 0 RB Offset QPSK QPSK QPSK 1 RB / 0 RB Offset 1 RB / 0 RB Offset 1 RB / 0 RB Offset QPSK 1 RB / 0 RB Offset 23330 23330(793.0MHz) 10MHz QPSK 10MHz QPSK 1 RB / 0 RB Offset Note: The output power for QPSK, 16QAM and 64QAM, measured value of QPSK is higher than 16QAM and 64QAM mode. Therefore, only ERP, Modulation Characteristics, Occupied Bandwidth, Emission Mask and Band Edge had been tested under QPSK, 16QAM and 64QAM modes, the other test items were performed under QPSK mode only. Report No.: RF181015C09-3 Page No. 10 / 47 Report Format Version: 6.1.1 Test Condition:
Test Item ERP Environmental Conditions Input Power 25deg. C, 66%RH Modulation characteristics 24deg. C, 64%RH Frequency Stability Occupied Bandwidth Emission Mask Band Edge Conducted Emission 24deg. C, 64%RH 24deg. C, 64%RH 24deg. C, 64%RH 24deg. C, 64%RH 24deg. C, 64%RH 120Vac, 60Hz 120Vac, 60Hz 120Vac, 60Hz 120Vac, 60Hz 120Vac, 60Hz 120Vac, 60Hz 120Vac, 60Hz Tested By Tim Chen Wayne Lin Wayne Lin Wayne Lin Wayne Lin Wayne Lin Wayne Lin Greg Lin Tim Chen Radiated Emission 25deg. C, 66%RH 120Vac, 60Hz 3.4 EUT Operating Conditions The EUT makes a call to the communication simulator. The communication simulator station system controlled a EUT to export maximum output power under transmission mode and specific channel frequency 3.5 General Description of Applied Standards The EUT is a RF Product. According to the specifications of the manufacturer, it must comply with the requirements of the following standards:
FCC 47 CFR Part 2 FCC 47 CFR Part 90 KDB 971168 D01 Power Meas License Digital Systems v03r01 ANSI/TIA/EIA-603-E 2016 ANSI 63.26-2015 Note: All test items have been performed and recorded as per the above standards. Report No.: RF181015C09-3 Page No. 11 / 47 Report Format Version: 6.1.1 Test Types and Results 4 4.1 Output Power Measurement 4.1.1 Limits of Output Power Measurement Portable stations (hand-held devices) transmitting in the 758-768 MHz band and the 788-798 MHz band are limited to 3 watts ERP. 4.1.2 Test Procedures EIRP / ERP Measurement:
a. The EUT was set up for the maximum power with LTE link data modulation. The power was measured with Agilent Spectrum Analyzer. All measurements were done at 1 channel. RWB is 1MHz and VBW is 3MHz. b. Substitution method is used for E.I.R.P measurement. In the semi-anechoic chamber, EUT placed on the 0.8m(below or equal 1GHz) and/or 1.5m(above 1GHz) height of Turn Table, rotated the table around 360 degrees to search the maximum radiation power and receiver antenna shall be rotated vertical and horizontal polarization and moved height from 1m to 4m to find the maximum polar radiated power. The Read Value is the spectrum reading the maximum power value. c. The substitution horn antenna is substituted for EUT at the same position and signals generator export the CW signal to the substitution antenna via a tx cable. Rotated the Turn Table and moved receiving antenna to find the maximum radiation power. Adjust output power level of S.G to get a Value of spectrum reading equal to Read Value of step b. Record the power level of S.G d. EIRP = Output power level of S.G TX cable loss + Antenna gain of substitution horn.E.R.P power can be calculated form E.I.R.P power by subtracting the gain of dipole, E.R.P power = E.I.R.P power - 2.15dBi. Conducted Power Measurement:
The EUT was set up for the maximum power with LTE link data modulation and link up with simulator. Set the EUT to transmit under low, middle and high channel and record the power level shown on simulator. Report No.: RF181015C09-3 Page No. 12 / 47 Report Format Version: 6.1.1 4.1.3 Test Setup EIRP / ERP MEASUREMENT:
For Radiated Emission below or equal 1GHz Ant. Tower 1-4m Variable EUT&
Support Units 80cm 3m 10m Turn Table Ground Plane Test Receiver For Radiated Emission above 1GHz EUT&
Support Units 3m Ant. Tower 1-4m Variable Turn Table Absorber 150cm Ground Plane Test Receiver For the actual test configuration, please refer to the attached file (Test Setup Photo). CONDUCTED POWER MEASUREMENT:
For the actual test configuration, please refer to the attached file (Test Setup Photo). COMMUNICATION SIMULATOR EUT Report No.: RF181015C09-3 Page No. 13 / 47 Report Format Version: 6.1.1 4.1.4 Test Results Conducted Output Power (dBm) BW MCS Index RB Size RB Offset Channel Frequence (MHz) LTE Band 14 QPSK 10M 16QAM 64QAM 1 1 1 25 25 25 50 1 1 1 25 25 25 50 1 1 1 25 25 25 50 0 24 49 0 12 25 0 0 24 49 0 12 25 0 0 24 49 0 12 25 0 Mid 23330 793 23.31 22.76 23.09 22.36 22.32 22.23 22.31 22.30 21.71 21.99 21.35 21.31 21.23 21.28 21.29 20.75 21.05 20.32 20.28 20.14 20.29 Report No.: RF181015C09-3 Page No. 14 / 47 Report Format Version: 6.1.1 BW MCS Index QPSK 5M 16QAM 64QAM RB Size RB Offset Channel Frequence (MHz) 1 1 1 12 12 12 25 1 1 1 12 12 12 25 1 1 1 12 12 12 25 0 12 24 0 6 13 0 0 12 24 0 6 13 0 0 12 24 0 6 13 0 LTE Band 14 Low 23305 790.5 22.95 22.74 22.72 22.19 22.16 22.18 22.27 21.94 22.18 22.24 21.15 21.49 21.47 21.44 20.95 21.26 21.41 20.27 20.48 20.46 20.49 Mid 23330 793 23.04 22.83 22.81 22.28 22.25 22.27 22.36 21.97 21.81 21.78 21.21 21.22 21.18 21.34 21.03 20.77 20.73 20.22 20.22 20.25 20.30 High 23355 795.5 22.87 22.66 22.64 22.11 22.08 22.10 22.19 21.91 22.33 22.30 21.32 21.32 21.46 21.43 20.90 21.19 21.24 20.09 20.49 20.42 20.48 Report No.: RF181015C09-3 Page No. 15 / 47 Report Format Version: 6.1.1 ERP Power (dBm) Modulation Type: QPSK Channel Bandwidth: 5MHz MODE TX channel 23335 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 790.50 Reading
(dBm)
-9.6 S.G Power Value (dBm) Correction Factor (dB) 16.6 4.0 ERP (dBm) Limit (dBm) Margin (dB) 20.6 34.8
-14.2 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 790.50 Reading
(dBm)
-17.1 S.G Power Value (dBm) Correction Factor (dB) 10.7 4.0 ERP (dBm) Limit (dBm) Margin (dB) 14.7 34.8
-20.1 MODE TX channel 23330 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 793.00 Reading
(dBm)
-9.4 S.G Power Value (dBm) Correction Factor (dB) 16.9 4.0 ERP (dBm) Limit (dBm) Margin (dB) 20.9 34.8
-13.9 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 793.00 Reading
(dBm)
-16.6 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 11.1 4.0 15.1 34.8
-19.7 MODE TX channel 23355 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 795.50 1 Reading
(dBm)
-9.8 S.G Power Value (dBm) Correction Factor (dB) 16.6 4.0 ERP (dBm) Limit (dBm) Margin (dB) 20.6 34.8
-14.2 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 795.50 1 Reading
(dBm)
-17.1 S.G Power Value (dBm) Correction Factor (dB) 10.5 4.0 ERP (dBm) Limit (dBm) Margin (dB) 14.5 34.8
-20.3 Note: ERP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Channel Bandwidth: 10MHz MODE TX channel 23330 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 793.00 Reading
(dBm)
-8.6 S.G Power Value (dBm) Correction Factor (dB) 17.6 4.0 ERP (dBm) Limit (dBm) Margin (dB) 21.6 34.8
-13.2 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 793.00 1 Reading
(dBm)
-14.8 S.G Power Value (dBm) Correction Factor (dB) 13.0 4.0 ERP (dBm) Limit (dBm) Margin (dB) 17.0 34.8
-17.8 Note: ERP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-3 Page No. 16 / 47 Report Format Version: 6.1.1 Modulation Type: 16QAM Channel Bandwidth: 5MHz MODE TX channel 23335 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 790.50 1 Reading
(dBm)
-10.4 S.G Power Value (dBm) Correction Factor (dB) 15.8 4.0 ERP (dBm) Limit (dBm) Margin (dB) 19.8 34.8
-15.0 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 790.50 Reading
(dBm)
-17.9 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 9.9 4.0 13.9 34.8
-20.9 MODE TX channel 23330 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 793.00 1 Reading
(dBm)
-10.6 S.G Power Value (dBm) Correction Factor (dB) 15.6 4.0 ERP (dBm) Limit (dBm) Margin (dB) 19.6 34.8
-15.2 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 793.00 1 Reading
(dBm)
-18.6 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 9.1 4.0 13.1 34.8
-21.7 MODE TX channel 23355 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 795.50 Reading
(dBm)
-11.1 S.G Power Value (dBm) Correction Factor (dB) 15.3 4.0 ERP (dBm) Limit (dBm) Margin (dB) 19.3 34.8
-15.5 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 795.50 1 Reading
(dBm)
-19.2 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 8.4 4.0 12.4 34.8
-22.4 Note: ERP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Channel Bandwidth: 10MHz MODE TX channel 23330 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 793.00 Reading
(dBm)
-9.9 S.G Power Value (dBm) Correction Factor (dB) 16.3 4.0 ERP (dBm) Limit (dBm) Margin (dB) 20.3 34.8
-14.5 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 793.00 Reading
(dBm)
-15.8 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 11.9 4.0 15.9 34.8
-18.9 Note: ERP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-3 Page No. 17 / 47 Report Format Version: 6.1.1 Modulation Type: 64QAM Channel Bandwidth: 5MHz MODE TX channel 23335 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 790.50 1 Reading
(dBm)
-11.9 S.G Power Value (dBm) Correction Factor (dB) 14.3 4.0 ERP (dBm) Limit (dBm) Margin (dB) 18.3 34.8
-16.5 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 790.50 Reading
(dBm)
-19.6 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 8.1 4.0 12.1 34.8
-22.7 MODE TX channel 23330 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 793.00 1 Reading
(dBm)
-11.1 S.G Power Value (dBm) Correction Factor (dB) 15.1 4.0 ERP (dBm) Limit (dBm) Margin (dB) 19.1 34.8
-15.7 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 793.00 1 Reading
(dBm)
-18.1 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 9.6 4.0 13.6 34.8
-21.2 MODE TX channel 23355 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 795.50 Reading
(dBm)
-11.6 S.G Power Value (dBm) Correction Factor (dB) 14.8 4.0 ERP (dBm) Limit (dBm) Margin (dB) 18.8 34.8
-16.0 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 795.50 1 Reading
(dBm)
-19.8 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 7.8 4.0 11.8 34.8
-23.0 Note: ERP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Channel Bandwidth: 10MHz MODE TX channel 23330 Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 793.00 Reading
(dBm)
-10.4 S.G Power Value (dBm) Correction Factor (dB) 15.8 4.0 ERP (dBm) Limit (dBm) Margin (dB) 19.8 34.8
-15.0 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 793.00 Reading
(dBm)
-16.4 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB) 11.4 4.0 15.4 34.8
-19.4 Note: ERP (dBm) = S.G Power Value (dBm) + Correction Factor (dB). Report No.: RF181015C09-3 Page No. 18 / 47 Report Format Version: 6.1.1 4.2 Modulation Characteristics Measurement 4.2.1 Limits of Modulation Characteristics N/A 4.2.2 Test Procedure Connect the EUT to Communication Simulator via the antenna connector, the frequency band is set as EUT supported Modulation and Channels, the EUT output is matched with 50 ohm load, the waveform quality and constellation of the EUT was tested. 4.2.3 Test Setup Communication Simulator EUT Report No.: RF181015C09-3 Page No. 19 / 47 Report Format Version: 6.1.1 4.2.4 Test Results LTE Band 14 Spectrum Plot of Measurement Value Channel: 23330 / Frequency (MHz): 793.0MHz Channel Bandwidth: 10MHz / QPSK Channel Bandwidth: 10MHz / 16QAM Channel Bandwidth: 10MHz / 64QAM Report No.: RF181015C09-3 Page No. 20 / 47 Report Format Version: 6.1.1 4.3 Frequency Stability Measurement 4.3.1 Limits of Frequency Stabiliity Measurement The frequency stability of mobile, portable and control transmitters operating in the wideband segment must be 1.25 parts per million or better when AFC is locked to a base station, and 5 parts per million or better when AFC is not locked. 4.3.2 Test Procedure a. Device is placed at the oven room. The oven room could control the temperatures and humidity. Power warm up is at least 15 min and power applied should perform before recording frequency error. b. EUT is connected the external power supply to control the DC input power. The test voltage range is from minimum to maximum working voltage. Each step shall be record the frequency error rate. c. The temperature range step is 10 degrees in this test items. All temperature levels shall be hold the 0.5 during the measurement testing. The each temperature step shall be at least 0.5 hours, consider the EUT could be test under the stability condition. Simulator Communication Note: The frequency error was recorded frequency error from the communication simulator. 4.3.3 Test Setup 20dB ATTENUATION PAD External Power Source SPECTRUM ANALYZER POWER SPLITTER DC Power Supply Oven Room EUT Report No.: RF181015C09-3 Page No. 21 / 47 Report Format Version: 6.1.1 4.3.4 Test Results Frequency Error vs. Voltage LTE Band 14 Channel Bandwidth: 5 MHz Voltage
(Volts) 3.80 3.23 4.37 Low Channel High Channel Frequency (MHz) Frequency Error (ppm) Frequency (MHz) Frequency Error (ppm) 790.500000 790.499995 790.500004
-0.001
-0.006 0.005 795.500000 795.500000 795.500000
-0.001
-0.005 0.005 Note: The applicant defined the normal working voltage is from 3.23 Vdc to 4.37 Vdc. Frequency Error vs. Temperature LTE Band 14 Channel Bandwidth: 5 MHz Low Channel High Channel Frequency (MHz) Frequency Error (ppm) Frequency (MHz) Frequency Error (ppm) 790.500009 790.500006 790.500004 790.500002 790.499999 790.499998 790.499996 790.499993 790.499991 0.011 0.008 0.004 0.003
-0.001
-0.002
-0.005
-0.008
-0.011 795.500000 795.500000 795.500000 795.500000 795.500000 795.500000 795.500000 795.500000 795.500000 0.010 0.007 0.004 0.003 0.001
-0.004
-0.006
-0.007
-0.010 Temp. ()
-30
-20
-10 0 10 20 30 40 50 Report No.: RF181015C09-3 Page No. 22 / 47 Report Format Version: 6.1.1 Frequency Error vs. Voltage Voltage
(Volts) 3.80 3.23 4.37 LTE Band 14 Channel Bandwidth: 10 MHz Frequency (MHz) Frequency Error (ppm) 793.000000 792.999996 793.000005
-0.001
-0.006 0.006 Note: The applicant defined the normal working voltage is from 3.23 Vdc to 4.37 Vdc. Frequency Error vs. Temperature Temp. ()
-30
-20
-10 0 10 20 30 40 50 LTE Band 14 Channel Bandwidth: 10 MHz Frequency (MHz) Frequency Error (ppm) 793.000009 793.000007 793.000004 793.000002 793.000000 792.999999 792.999996 792.999993 792.999991 0.011 0.008 0.005 0.003 0.000
-0.001
-0.005
-0.008
-0.011 Report No.: RF181015C09-3 Page No. 23 / 47 Report Format Version: 6.1.1 4.4 Occupied Bandwidth Measurement 4.4.1 Limits of Occupied Bandwidth Measurement The width of a frequency band such that, below the lower and above the upper frequency limits, the mean powers emitted are each equal to a specified percentage 0.5 %of the total mean power of a given emission. 4.4.2 Test Procedure The EUT makes a call to the communication simulator. All measurements were done at low, middle and high operational frequency range, RB of the spectrum is 1% of occupied bnadwidth and VB of the spectrum is 3 times RBW. The communication simulator station system controlled a EUT to export maximum output power under transmission mode and specific channel frequency. Use OBW measurement function of Spectrum analyzer to measure 99 % occupied bandwidth. 4.4.3 Test Setup 20dB Attenuation PAD Spectrum Analyzer Communication Power Splitter Simulator EUT Report No.: RF181015C09-3 Page No. 24 / 47 Report Format Version: 6.1.1 4.4.4 Test Result Channel 23305 23330 23355 Frequency
(MHz) 790.5 793.0 795.5 Channel Frequency
(MHz) 23330 793.0 Channel Bandwidth: 5MHz Occupied Bandwidth (MHz) QPSK 4.48 4.49 4.49 Channel Bandwidth: 10MHz 16QAM 4.48 4.49 4.49 Occupied Bandwidth (MHz) QPSK 8.96 16QAM 8.96 64QAM 4.49 4.49 4.50 64QAM 8.97 5MHz / 64QAM Spectrum Plot of Worst Value 10MHz / 64QAM Report No.: RF181015C09-3 Page No. 25 / 47 Report Format Version: 6.1.1 4.5 Emission Mask Measurement 4.5.1 Limits of Emission Mask Measurement Per 90.210(n), Emission mask shall comply with 90.210(b)
(1) On any frequency removed from the assigned frequency by more than 50 percent, but not more than100 percent of the authorized bandwidth: At least 25 dB.
(2) On any frequency removed from the assigned frequency by more than 100 percent, but not more than 250 percent of the authorized bandwidth: At least 35 dB.
(3) On any frequency removed from the assigned frequency by more than 250 percent of the authorized bandwidth: At least 43 + 10 log (P) dB 4.5.2 Test Procedures a. The measurement used the power splitter via EUT RF power connector between signal generator and spectrum analyzer. Simulator Communication b. Record the test plot. 4.5.3 Test Setup Power Splitter Spectrum Analyzer EUT 20dB Attenuation PAD Report No.: RF181015C09-3 Page No. 26 / 47 Report Format Version: 6.1.1 4.5.4 Test Results Channel Bandwidth: 5MHz Channel 23330
(793.0MHz) QPSK 25 RB / 0 RB Offset Channel 23355
(795.5MHz) QPSK 25 RB / 0 RB Offset Channel Bandwidth: 5MHz Channel 23330 16QAM
(793.0MHz) 25 RB / 0 RB Offset Channel 23355
(795.5MHz) 16QAM 25 RB / 0 RB Offset Channel Bandwidth: 5MHz Channel 23330 64QAM
(793.0MHz) 25 RB / 0 RB Offset Channel 23355
(795.5MHz) 64QAM 25 RB / 0 RB Offset Report No.: RF181015C09-3 Page No. 27 / 47 Report Format Version: 6.1.1 Channel Bandwidth: 10MHz Channel 23330
(793.0MHz) QPSK 50 RB / 0 RB Offset Channel 23330
(793.0MHz) 16QAM 50 RB / 0 RB Offset Channel 23330
(793.0MHz) 64QAM 50 RB / 0 RB Offset Report No.: RF181015C09-3 Page No. 28 / 47 Report Format Version: 6.1.1 4.6 Band Edge Measurement 4.6.1 Limits of Band Edge Measurement
(1) On all frequencies between 769 - 775 MHz and 799 - 805 MHz, by a factor not less than 76 + 10 log (P) dB in a 6.25 kHz band segment, for base and fixed stations.
(2) On all frequencies between 769 - 775 MHz and 799 - 805 MHz, by a factor not less than 65 + 10 log (P) dB in a 6.25 kHz band segment, for mobile and portable stations.
(3) On any frequency between 775 - 788 MHz, above 805 MHz, and below 758 MHz, by at least 43 + 10 log
(P). Simulator Communication 4.6.2 Test Setup 4.6.3 Test Procedures Power Splitter Spectrum Analyzer EUT 20dB Attenuation PAD a. All measurements were done at low and high operational frequency range. b. The band edge measurement used the power splitter via EUT RF power connector between signal generator and spectrum analyzer. This splitter loss, attenuator loss and cable loss are the worst loss 21 dB in the transmitted path track. c. Record the max trace plot into the test report. Report No.: RF181015C09-3 Page No. 29 / 47 Report Format Version: 6.1.1 4.6.4 Test Results Channel Bandwidth: 5MHz Channel 23305
(790.5MHz) QPSK 1 RB / 0 RB Offset Channel 23355
(795.5MHz) QPSK 1 RB / 0 RB Offset Channel 23305
(790.5MHz) QPSK 25 RB / 0 RB Offset Channel 23355
(795.5MHz) QPSK 25 RB / 0 RB Offset Report No.: RF181015C09-3 Page No. 30 / 47 Report Format Version: 6.1.1 Channel Bandwidth: 10MHz Channel 23330
(793.0MHz) QPSK 1 RB / 0 RB Offset Channel 23330
(793.0MHz) QPSK 1 RB / 49 RB Offset Channel 23330
(793.0MHz) QPSK 50 RB / 0 RB Offset Report No.: RF181015C09-3 Page No. 31 / 47 Report Format Version: 6.1.1 4.7 Conducted Spurious Emissions 4.7.1 Limits of Conducted Spurious Emissions Measurement The power of any emission outside a licensee's frequency block shall be attenuated below the transmitter power (P) by at least 43 +10 log10(P) dB. The limit of emission equal to 13dBm. On all frequencies between 769775 MHz and 799805 MHz, by a factor not less than 65 + 10 log (P) dB in a 6.25 kHz band segment, for mobile and portable stations. 4.7.2 Test Setup 4.7.3 Test Procedure a. The EUT makes a phone call to the communication simulator. All measurements were done at low, middle 20dB Attenuation PAD Spectrum Analyzer Communication Power Splitter Simulator EUT and high operational frequency range. b. Measuring frequency range is from 9 kHz to 27 GHz. 10 dB attenuation pad is connected with spectrum. RBW = 100 kHz and VBW = 300 kHz for 9 kHz to 1 GHz and RBW = 1 MHz and VBW = 3 MHz for 1 GHz to 27 GHz are used for conducted emission measurement. Report No.: RF181015C09-3 Page No. 32 / 47 Report Format Version: 6.1.1 4.7.4 Test Results Channel Bandwidth: 5MHz Channel 23305 (790.5MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Report No.: RF181015C09-3 Page No. 33 / 47 Report Format Version: 6.1.1 Channel Bandwidth: 5MHz Channel 23330 (793.0MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Report No.: RF181015C09-3 Page No. 34 / 47 Report Format Version: 6.1.1 Channel Bandwidth: 5MHz Channel 23355 (795.5MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Report No.: RF181015C09-3 Page No. 35 / 47 Report Format Version: 6.1.1 Channel Bandwidth: 10MHz Channel 23330 (793.0MHz) Frequency Range : 9kHz~1GHz Frequency Range : 1GHz~10GHz Frequency Range : 10GHz~27GHz Report No.: RF181015C09-3 Page No. 36 / 47 Report Format Version: 6.1.1 4.8 Radiated Emission Measurement 4.8.1 Limits of Radiated Emission Measuremen
(1) The power of any emission outside a licensee's frequency block shall be attenuated below the transmitter power (P) by at least 43 +10 log10(P) dB. The limit of emission equal to 13dBm
(2) For operations in the 758-775 MHz and 788-805 MHz bands, all emissions including harmonics in the band 1559-1610 MHz shall be limited to 70 dBW/MHz equivalent isotropically radiated power (EIRP) for wideband signals, and 80 dBW EIRP for discrete emissions of less than 700 Hz bandwidth. 4.8.2 Test Procedure a. Substitution method is used for E.I.R.P measurement. In the semi-anechoic chamber, EUT placed on the 0.8m height of Turn Table, rotated the table around 360 degrees to search the maximum radiation power and receiver antenna shall be rotated vertical and horizontal polarization and moved height from 1m to 4m to find the maximum polar radiated power. The Read Value is the spectrum reading the maximum power value. b. The substitution horn antenna is substituted for EUT at the same position and signals generator export the CW signal to the substitution antenna via a TX cable. Rotated the Turn Table and moved receiving antenna to find the maximum radiation power. Adjust output power level of S.G to get a Value of spectrum reading equal to Read Value of step a. Record the power level of S.G c. EIRP = Output power level of S.G TX cable loss + Antenna gain of substitution horn. d. E.R.P power can be calculated form E.I.R.P power by subtracting the gain of dipole, E.R.P power = E.I.R.P power - 2.15dBi. Note: The resolution bandwidth and video bandwidth of test receiver/spectrum analyzer is 1MHz/3MHz. 4.8.3 Deviation from Test Standard No deviation. Report No.: RF181015C09-3 Page No. 37 / 47 Report Format Version: 6.1.1 4.8.4 Test Setup For Radiated Emission below or equal 1GHz Ant. Tower 1-4m Variable EUT&
Support Units 80cm 3m 10m Turn Table Ground Plane Test Receiver For Radiated Emission above 1GHz EUT&
Support Units 3m Ant. Tower 1-4m Variable Turn Table Absorber 150cm Ground Plane Test Receiver For the actual test configuration, please refer to the attached file (Test Setup Photo). Report No.: RF181015C09-3 Page No. 38 / 47 Report Format Version: 6.1.1 4.8.5 Test Results Below 1GHz Channel Bandwidth: 5MHz Mode TX channel 23305
(790.5MHz) Environmental Conditions 25deg. C, 66%RH Tested By Greg Lin Frequency Range Below 1000 MHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 2 3 4 5 6 30.97 63.95 177.44 247.28 663.41 940.83 Reading
(dBm)
-49.5
-41.5
-43.3
-56.0
-70.0
-70.9 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB)
-29.2
-47.8
-50.4
-63.5
-73.4
-68.5
-18.8
-2.0
-3.0
-1.5 3.6 3.8
-48.0
-49.8
-53.4
-65.0
-69.8
-64.7
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-35.0
-36.8
-40.4
-52.0
-56.8
-51.7 Remarks:
1. ERP (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09-3 Page No. 39 / 47 Report Format Version: 6.1.1 Mode TX channel 23305
(790.5MHz) Environmental Conditions 25deg. C, 66%RH Tested By Greg Lin Frequency Range Below 1000 MHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 2 3 4 5 6 30.97 138.64 174.53 264.74 635.28 941.80 Reading
(dBm)
-35.9
-48.0
-43.5
-63.6
-69.6
-70.5 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB)
-29.4
-49.9
-46.5
-63.1
-70.6
-67.3
-18.8
-3.2
-2.8
-1.6 3.7 3.8
-48.2
-53.1
-49.3
-64.7
-66.9
-63.5
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-35.2
-40.1
-36.3
-51.7
-53.9
-50.5 Remarks:
1. ERP (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09-3 Page No. 40 / 47 Report Format Version: 6.1.1 Channel Bandwidth: 10MHz Mode TX channel 23330
(793.0MHz) Environmental Conditions 25deg. C, 66%RH Tested By Greg Lin Frequency Range Below 1000 MHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1 2 3 4 5 6 34.85 75.59 143.49 296.75 731.31 818.61 Reading
(dBm)
-49.6
-40.5
-40.9
-62.5
-67.0
-66.9 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB)
-32.1
-48.6
-45.1
-65.6
-68.8
-66.6
-16.5 0.2
-3.1
-1.8 3.6 3.9
-48.6
-48.4
-48.2
-67.4
-65.2
-62.7
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-35.6
-35.4
-35.2
-54.4
-52.2
-49.7 Remarks:
1. ERP (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09-3 Page No. 41 / 47 Report Format Version: 6.1.1 Mode TX channel 23330
(793.0MHz) Environmental Conditions 25deg. C, 66%RH Tested By Greg Lin Frequency Range Below 1000 MHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 2 3 4 5 6 30.97 138.64 174.53 264.74 635.28 941.80 Reading
(dBm)
-35.9
-48.0
-43.5
-63.6
-69.6
-70.5 S.G Power Value (dBm) Correction Factor (dB) ERP (dBm) Limit (dBm) Margin (dB)
-29.4
-49.9
-46.5
-63.1
-70.6
-67.3
-18.8
-3.2
-2.8
-1.6 3.7 3.8
-48.2
-53.1
-49.3
-64.7
-66.9
-63.5
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-35.2
-40.1
-36.3
-51.7
-53.9
-50.5 Remarks:
1. ERP (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09-3 Page No. 42 / 47 Report Format Version: 6.1.1 Above 1GHz Channel Bandwidth: 5MHz Mode TX channel 23305
(790.5MHz) Environmental Conditions 25deg. C, 66%RH Tested By Tim Chen Frequency Range 1GHz ~ 18GHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1581.00 1 2 2371.50 Reading
(dBm)
-60.1
-75.6 S.G Power Value (dBm)
-52.3
-69.6 Correction Factor (dB) 1.2 0.0 ERP (dBm) Limit (dBm) Margin (dB)
-51.1
-69.6
-40.0
-13.0
-11.1
-56.6 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1 1581.00 2371.50 2 Reading
(dBm)
-68.3
-75.0 S.G Power Value (dBm) Correction Factor (dB)
-61.3
-71.0 1.2 0.0 ERP (dBm) Limit (dBm) Margin (dB)
-60.1
-71.0
-40.0
-13.0
-20.1
-58.0 Remarks:
1. ERP (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Mode TX channel 23330
(793.0MHz) Environmental Conditions 25deg. C, 66%RH Tested By Tim Chen Frequency Range 1GHz ~ 18GHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1586.00 1 2 2379.00 Reading
(dBm)
-62.1
-75.1 S.G Power Value (dBm) Correction Factor (dB)
-54.2
-69.1 1.1 0.0 ERP (dBm) Limit (dBm) Margin (dB)
-53.1
-69.1
-40.0
-13.0
-13.1
-56.1 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1586.00 1 2 2379.00 Reading
(dBm)
-67.8
-75.4 S.G Power Value (dBm) Correction Factor (dB)
-60.7
-71.2 1.1 0.0 ERP (dBm) Limit (dBm) Margin (dB)
-59.6
-71.2
-40.0
-13.0
-19.6
-58.2 Remarks:
1. ERP (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09-3 Page No. 43 / 47 Report Format Version: 6.1.1 Mode TX channel 23355
(795.5MHz) Environmental Conditions 25deg. C, 66%RH Tested By Tim Chen Frequency Range 1GHz ~ 18GHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1591.00 1 2 2386.50 Reading
(dBm)
-63.0
-75.3 S.G Power Value (dBm) Correction Factor (dB)
-55.1
-69.3 1.1 0.0 ERP (dBm) Limit (dBm) Margin (dB)
-54.0
-69.3
-40.0
-13.0
-14.0
-56.3 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1591.00 1 2 2386.50 Reading
(dBm)
-68.8
-75.3 S.G Power Value (dBm) Correction Factor (dB)
-61.6
-71.1 1.1 0.0 ERP (dBm) Limit (dBm) Margin (dB)
-60.5
-71.1
-40.0
-13.0
-20.5
-58.1 Remarks:
1. ERP (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09-3 Page No. 44 / 47 Report Format Version: 6.1.1 Channel Bandwidth: 10MHz Mode TX channel 23330
(793.0MHz) Environmental Conditions 25deg. C, 66%RH Tested By Tim Chen Frequency Range 1GHz ~ 18GHz Input Power 120Vac, 60Hz Antenna Polarity & Test Distance: Horizontal at 3 M No. Freq. (MHz) 1586.00 1 2 2379.00 Reading
(dBm)
-63.4
-75.0 S.G Power Value (dBm) Correction Factor (dB)
-55.5
-69.0 1.1 0.0 ERP (dBm) Limit (dBm) Margin (dB)
-54.4
-69.0
-40.0
-13.0
-14.4
-56.0 Antenna Polarity & Test Distance: Vertical at 3 M No. Freq. (MHz) 1586.00 1 2 2379.00 Reading
(dBm)
-67.5
-75.2 S.G Power Value (dBm) Correction Factor (dB)
-60.4
-71.0 1.1 0.0 ERP (dBm) Limit (dBm) Margin (dB)
-59.3
-71.0
-40.0
-13.0
-19.3
-58.0 Remarks:
1. ERP (dBm) = S.G Value (dBm) + Correction Factor (dB). 2. Correction Factor (dB) = Substitution Antenna Gain (dB) + Cable Loss (dB). Report No.: RF181015C09-3 Page No. 45 / 47 Report Format Version: 6.1.1 5 Pictures of Test Arrangements Please refer to the attached file (Test Setup Photo). Report No.: RF181015C09-3 Page No. 46 / 47 Report Format Version: 6.1.1 Appendix Information on the Testing Laboratories We, Bureau Veritas Consumer Products Services (H.K.) Ltd., Taoyuan Branch, were founded in 1988 to provide our best service in EMC, Radio, Telecom and Safety consultation. Our laboratories are FCC recognized accredited test firms and accredited and approved according to ISO/IEC 17025. If you have any comments, please feel free to contact us at the following:
Linko EMC/RF Lab Tel: 886-2-26052180 Fax: 886-2-26051924 Hwa Ya EMC/RF/Safety Lab Tel: 886-3-3183232 Fax: 886-3-3270892 Email: service.adt@tw.bureauveritas.com Web Site: www.bureauveritas-adt.com Hsin Chu EMC/RF/Telecom Lab Tel: 886-3-6668565 Fax: 886-3-6668323 The address and road map of all our labs can be found in our web site also.
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Report No.: RF181015C09-3 Page No. 47 / 47 Report Format Version: 6.1.1
1 2 3 4 | NII report | Test Report | 1.78 MiB | / June 06 2019 |
FCC Test Report (WLAN) Report No.: RF181004C17-1 FCC ID: PY318300428 Test Model: MR5000 Received Date: Oct. 04, 2018 Test Date: Nov. 07 to 14, 2018 Issued Date: Nov. 19, 2018 Applicant: NETGEAR INC. Address: 350 East Plumeria Drive, San Jose, CA 95134, USA Issued By: Bureau Veritas Consumer Products Services (H.K.) Ltd., Taoyuan Branch Hsin Chu Laboratory Lab Address: E-2, No.1, Li Hsin 1st Road, Hsinchu Science Park, Hsinchu City 300, Taiwan R.O.C. Test Location: E-2, No.1, Li Hsin 1st Road, Hsinchu Science Park, Hsinchu City 300, FCC Registration /
Designation Number: 723255 / TW2022 Taiwan R.O.C. This report is for your exclusive use. Any copying or replication of this report to or for any other person or entity, or use of our name or trademark, is permitted only with our prior written permission. This report sets forth our findings solely with respect to the test samples identified herein. The results set forth in this report are not indicative or representative of the quality or characteristics of the lot from which a test sample was taken or any similar or identical product unless specifically and expressly noted. Our report includes all of the tests requested by you and the results thereof based upon the information that you provided to us. You have 60 days from date of issuance of this report to notify us of any material error or omission caused by our negligence, provided, however, that such notice shall be in writing and shall specifically address the issue you wish to raise. A failure to raise such issue within the prescribed time shall constitute your unqualified acceptance of the completeness of this report, the tests conducted and the correctness of the report contents. Unless specific mention, the uncertainty of measurement has been explicitly taken into account to declare the compliance or non-compliance to the specification. The report must not be used by the client to claim product certification, approval, or endorsement by TAF or any government agencies. Report No.: RF181004C17-1 Page No. 1 / 72 Report Format Version:6.1.2 Table of Contents 4 3 Release Control Record .................................................................................................................................. 4 1 Certificate of Conformity ...................................................................................................................... 5 Summary of Test Results ..................................................................................................................... 6 2 2.1 Measurement Uncertainty ................................................................................................................... 6 2.2 Modification Record ............................................................................................................................ 6 General Information .............................................................................................................................. 7 3.1 General Description of EUT (WLAN) .................................................................................................. 7 3.2 Description of Test Modes ................................................................................................................... 9 3.2.1 Test Mode Applicability and Tested Channel Detail ........................................................................... 10 3.3 Duty Cycle of Test Signal .................................................................................................................. 12 3.4 Description of Support Units ............................................................................................................. 13 3.4.1 Configuration of System under Test .................................................................................................. 14 3.5 General Description of Applied Standard .......................................................................................... 15 Test Types and Results ...................................................................................................................... 16 4.1 Radiated Emission and Bandedge Measurement ............................................................................. 16 4.1.1 Limits of Radiated Emission and Bandedge Measurement .............................................................. 16 4.1.2 Test Instruments ................................................................................................................................ 17 4.1.3 Test Procedure .................................................................................................................................. 19 4.1.4 Deviation from Test Standard ............................................................................................................ 19 4.1.5 Test Setup .......................................................................................................................................... 20 4.1.6 EUT Operating Condition .................................................................................................................. 21 4.1.7 Test Results ....................................................................................................................................... 22 4.2 Conducted Emission Measurement .................................................................................................. 42 4.2.1 Limits of Conducted Emission Measurement .................................................................................... 42 4.2.2 Test Instruments ................................................................................................................................ 42 4.2.3 Test Procedure .................................................................................................................................. 43 4.2.4 Deviation from Test Standard ............................................................................................................ 43 4.2.5 Test Setup .......................................................................................................................................... 43 4.2.6 EUT Operating Condition .................................................................................................................. 43 4.2.7 Test Results (Mode 1)........................................................................................................................ 44 4.2.8 Test Results (Mode 2)........................................................................................................................ 46 4.3 Transmit Power Measurement .......................................................................................................... 48 4.3.1 Limits of Transmit Power Measurement ............................................................................................ 48 4.3.2 Test Setup .......................................................................................................................................... 48 4.3.3 Test Instruments ................................................................................................................................ 48 4.3.4 Test Procedure .................................................................................................................................. 48 4.3.5 Deviation from Test Standard ............................................................................................................ 48 4.3.6 EUT Operating Condition .................................................................................................................. 48 4.3.7 Test Results ....................................................................................................................................... 49 4.4 Occupied Bandwidth Measurement .................................................................................................. 50 4.4.1 Test Setup .......................................................................................................................................... 50 4.4.2 Test Instruments ................................................................................................................................ 50 4.4.3 Test Procedure .................................................................................................................................. 50 4.4.4 Test Results ....................................................................................................................................... 51 4.5 Peak Power Spectral Density Measurement .................................................................................... 55 4.5.1 Limits of Peak Power Spectral Density Measurement ...................................................................... 55 4.5.2 Test Setup .......................................................................................................................................... 55 4.5.3 Test Instruments ................................................................................................................................ 55 4.5.4 Test Procedure .................................................................................................................................. 56 4.5.5 Deviation from Test Standard ............................................................................................................ 56 4.5.6 EUT Operating Condition .................................................................................................................. 56 4.5.7 Test Results ....................................................................................................................................... 57 4.6 Frequency Stability Measurement..................................................................................................... 63 Report No.: RF181004C17-1 Page No. 2 / 72 Report Format Version:6.1.2 4.6.1 Limits of Frequency Stability Measurement ...................................................................................... 63 4.6.2 Test Setup .......................................................................................................................................... 63 4.6.3 Test Instruments ................................................................................................................................ 63 4.6.4 Test Procedure .................................................................................................................................. 63 4.6.5 Deviation from Test Standard ............................................................................................................ 63 4.6.6 EUT Operating Condition .................................................................................................................. 63 4.6.7 Test Results ....................................................................................................................................... 64 4.7 6dB Bandwidth Measurement ........................................................................................................... 65 4.7.1 Limits of 6dB Bandwidth Measurement ............................................................................................. 65 4.7.2 Test Setup .......................................................................................................................................... 65 4.7.3 Test Instruments ................................................................................................................................ 65 4.7.4 Test Procedure .................................................................................................................................. 65 4.7.5 Deviation from Test Standard ............................................................................................................ 65 4.7.6 EUT Operating Condition .................................................................................................................. 65 4.7.7 Test Results ....................................................................................................................................... 66 5 Pictures of Test Arrangements .......................................................................................................... 68 Annex A- Radiated Out of Band Emission (OOBE) Measurement (For U-NII-3 band) ............................ 69 Appendix Information on the Testing Laboratories ................................................................................ 72 Report No.: RF181004C17-1 Page No. 3 / 72 Report Format Version:6.1.2 Release Control Record Issue No. RF181004C17-1 Description Original release. Date Issued Nov. 19, 2018 Report No.: RF181004C17-1 Page No. 4 / 72 Report Format Version:6.1.2 1 Certificate of Conformity Product: 5G MHS Travel Router Brand: Netgear Test Model: MR5000 Sample Status: ENGINEERING SAMPLE Applicant: NETGEAR INC. Test Date: Nov. 07 to 14, 2018 Standard: 47 CFR FCC Part 15, Subpart E (Section 15.407) ANSI C63.10: 2013 The above equipment has been tested by Bureau Veritas Consumer Products Services (H.K.) Ltd., Taoyuan Branch, and found compliance with the requirement of the above standards. The test record, data evaluation & Equipment Under Test (EUT) configurations represented herein are true and accurate accounts of the measurements of the samples EMC characteristics under the conditions specified in this report. Prepared by :
:
Approved by Claire Kuan / Specialist
, Date:
Nov. 19, 2018
, Date:
Nov. 19, 2018 May Chen / Manager Report No.: RF181004C17-1 Page No. 5 / 72 Report Format Version:6.1.2 2 Summary of Test Results FCC Clause 47 CFR FCC Part 15, Subpart E (Section 15.407) Test Item Result Remarks 15.407(b)(6) AC Power Conducted Emissions Pass 15.407(b)
(1/2/3/4(i/ii)/6) Radiated Emissions & Band Edge Measurement*
Pass Meet the requirement of limit. Minimum passing margin is -13.30dB at 0.19687MHz. Meet the requirement of limit. Minimum passing margin is -4.1dB at 73.64MHz. Max Average Transmit Power Pass Meet the requirement of limit. Occupied Bandwidth Measurement
-
Reference only. Peak Power Spectral Density 15.407(e) 15.407(g) 15.203 6dB bandwidth Frequency Stability Antenna Requirement Pass Meet the requirement of limit. Pass Meet the requirement of limit. Pass Meet the requirement of limit. Pass There is no antenna connector
(U-NII-3 Band only)
*For U-NII-3 band compliance with rule part 15.407(b)(4)(i), the OOBE test plots were recorded in Annex A. 2.1 Measurement Uncertainty Where relevant, the following measurement uncertainty levels have been estimated for tests performed on the EUT as specified in CISPR 16-4-2:
Expanded Uncertainty 15.407(a)(1/2/
3)
---
15.407(a)(1/2/
3) Measurement Conducted Emissions at mains ports Radiated Emissions up to 1 GHz Radiated Emissions above 1 GHz Frequency 150kHz ~ 30MHz 30MHz ~ 1GHz 1GHz ~ 6GHz 6GHz ~ 18GHz 18GHz ~ 40GHz 2.2 Modification Record There were no modifications required for compliance.
(k=2) () 1.84 dB 5.53 dB 5.08 dB 4.98 dB 5.19 dB Report No.: RF181004C17-1 Page No. 6 / 72 Report Format Version:6.1.2 3 General Information 3.1 General Description of EUT (WLAN) Product Brand Test Model Status of EUT Power Supply Rating Modulation Type Modulation Technology Transfer Rate Operating Frequency Number of Channel Output Power 5G MHS Travel Router Netgear MR5000 ENGINEERING SAMPLE 5Vdc from power adapter or 5Vdc from USB interface or 3.8V dc from battery CCK, DQPSK, DBPSK for DSSS 64QAM, 16QAM, QPSK, BPSK for OFDM 256QAM for OFDM in 11ac mode and VHT (20/40) mode in 2.4GHz DSSS, OFDM 802.11b: up to 11Mbps 802.11a/g: up to 54Mbps 802.11n: up to 300Mbps 802.11ac: up to 866.7Mbps 2.4GHz: 2.412 ~ 2.462GHz 5GHz: 5.18~ 5.24GHz, 5.745 ~ 5.825GHz 2.4GHz:
802.11b, 802.11g, 802.11n (HT20), VHT20: 11 802.11n (HT40), VHT40: 7 5GHz:
802.11a, 802.11n (HT20), 802.11ac (VHT20): 9 802.11n (HT40), 802.11ac (VHT40): 4 802.11ac (VHT80): 2 2.412 ~ 2.462GHz: 58.084mW 5.18 ~ 5.24GHz: 19.455mW 5.745 ~ 5.825GHz: 19.455mW Refer to Note Refer to Note Adapter x1 , Battery x1 USB cable x 1 (Shielded, 0.95m) Antenna Type Antenna Connector Accessory Device Data Cable Supplied Note:
1. Simultaneously transmission condition. Condition 1 WLAN 2.4GHz 1Tx Technology WLAN 5GHz 1Tx WWAN or 5G NR Note: The emission of the simultaneous operation has been evaluated and no non-compliance was found. 2. The EUT must be supplied with a power adapter or battery as following table:
Items Adapter Battery 3. The antennas provided to the EUT, please refer to the following table:
P/N No. 332-11106-01 308-10084-01 3.85V dc 19.78Wh Spec. Input: 100-240V~50/60Hz 0.5A Output: 5V / 2.0A or 9V /1.8A Brand NETGEAR NETGEAR W-10a Model No. AD2122F20 Antenna Net Gain Frequency rang
(dBi) 2.03 2.59 2.03 2.59
(GHz) 2.4~2.4835 5.15~5.85 2.4~2.4835 5.15~5.85 Antenna type Connector type Internal IFA Internal IFA NA NA Ant No. 1 2 Report No.: RF181004C17-1 Page No. 7 / 72 Report Format Version:6.1.2 DATA RATE (MCS) TX & RX CONFIGURATION 2.4GHz Band 4. The EUT incorporates a MIMO function. MODULATION MODE 802.11b 802.11g 802.11n (HT20) 802.11n (HT40) VHT20 VHT40 MODULATION MODE 802.11a 802.11n (HT20) 802.11n (HT40) 802.11ac (VHT20) 802.11ac (VHT40) 802.11ac (VHT80) 1 ~ 11Mbps 6 ~ 54Mbps MCS 0~7 MCS 8~15 MCS 0~7 MCS 8~15 MCS0~8 Nss=1 MCS0~8 Nss=2 MCS0~9 Nss=1 MCS0~9 Nss=2 6 ~ 54Mbps MCS 0~7 MCS 8~15 MCS 0~7 MCS 8~15 MCS0~8 Nss=1 MCS0~8 Nss=2 MCS0~9 Nss=1 MCS0~9 Nss=2 MCS0~9 Nss=1 MCS0~9 Nss=2 2TX 2TX 2TX 2TX 2TX 2TX 2TX 2TX 2TX 2TX 2TX 2TX 2TX 2TX 2TX 2TX 2TX 2TX 2TX 2TX 2TX DATA RATE (MCS) TX & RX CONFIGURATION 5GHz Band 2RX 2RX 2RX 2RX 2RX 2RX 2RX 2RX 2RX 2RX 2RX 2RX 2RX 2RX 2RX 2RX 2RX 2RX 2RX 2RX 2RX 5. The EUT was pre-tested under the following modes:
Test Mode Mode A Mode B Mode C Note: From the above modes, radiated emission the worst case was found in Mode A. Therefore only the test Description With adapter mode With Laptop mode Power from battery data of the mode was recorded in this report. 6. The above EUT information is declared by manufacturer and for more detailed features description, please refers to the manufacturer's specifications or user's manual. Report No.: RF181004C17-1 Page No. 8 / 72 Report Format Version:6.1.2 3.2 Description of Test Modes FOR 5180 ~ 5240MHz 4 channels are provided for 802.11a, 802.11n (HT20), 802.11ac (VHT20):
Channel 36 40 Frequency 5180 MHz 5200 MHz Channel 44 48 2 channels are provided for 802.11n (HT40), 802.11ac (VHT40):
Channel Channel 38 Frequency 5190 MHz 46 1 channel is provided for 802.11ac (VHT80):
Channel 42 Frequency 5210 MHz FOR 5745 ~ 5825MHz:
5 channels are provided for 802.11a, 802.11n (HT20), 802.11ac (VHT20):
Channel 149 153 157 Frequency 5745 MHz 5765 MHz 5785 MHz Channel 161 165 2 channels are provided for 802.11n (HT40), 802.11ac (VHT40):
Channel Channel 151 Frequency 5755 MHz 159 Frequency 5220 MHz 5240 MHz Frequency 5230 MHz Frequency 5805 MHz 5825 MHz Frequency 5795 MHz 1 channel is provided for 802.11ac (VHT80):
Channel 155 Frequency 5775 MHz Report No.: RF181004C17-1 Page No. 9 / 72 Report Format Version:6.1.2 3.2.1 Test Mode Applicability and Tested Channel Detail EUT Configure Mode Applicable To RE1G RE<1G PLC APCM 1 2 Where
-
RE1G: Radiated Emission above 1GHz PLC: Power Line Conducted Emission
-
Radiated Emission Test (Above 1GHz):
-
Description With adapter mode With Laptop mode RE<1G: Radiated Emission below 1GHz APCM: Antenna Port Conducted Measurement Pre-Scan has been conducted to determine the worst-case mode from all possible combinations between available modulations, data rates and antenna ports (if EUT with antenna diversity architecture). Following channel(s) was (were) selected for the final test as listed below. Modulation Technology Modulation Type Tested Channel FREQ. Band
(MHz) Mode Data Rate
(Mbps) 802.11a 802.11ac (VHT20) 802.11ac (VHT40) 802.11ac (VHT80) 802.11a 802.11ac (VHT20) 802.11ac (VHT40) 802.11ac (VHT80) 5180-5240 5745-5825 Available Channel 36 to 48 36 to 48 38 to 46 42 149 to 165 149 to 165 151 to 159 155 36, 40, 48 36, 40, 48 38, 46 42 149, 157, 165 149, 157, 165 151, 159 155 OFDM OFDM OFDM OFDM OFDM OFDM OFDM OFDM BPSK BPSK BPSK BPSK BPSK BPSK BPSK BPSK 6 6.5 13.5 29.3 6 6.5 13.5 29.3 Radiated Emission Test (Below 1GHz):
Pre-Scan has been conducted to determine the worst-case mode from all possible combinations between available modulations, data rates and antenna ports (if EUT with antenna diversity architecture). Following channel(s) was (were) selected for the final test as listed below. Modulation Technology Modulation Type Available Channel Tested Channel FREQ. Band
(MHz) Mode Data Rate
(Mbps) 802.11ac (VHT80) 5180-5240, 5745-5825 42, 155 155 OFDM BPSK 29.3 Power Line Conducted Emission Test:
Pre-Scan has been conducted to determine the worst-case mode from all possible combinations between available modulations, data rates and antenna ports (if EUT with antenna diversity architecture). Following channel(s) was (were) selected for the final test as listed below. Modulation Technology Modulation Type Available Channel Tested Channel FREQ. Band
(MHz) Mode Data Rate
(Mbps) 802.11ac (VHT80) 5180-5240, 5745-5825 Report No.: RF181004C17-1 42, 155 155 OFDM BPSK 29.3 Page No. 10 / 72 Report Format Version:6.1.2 Antenna Port Conducted Measurement:
This item includes all test value of each mode, but only includes spectrum plot of worst value of each mode. Pre-Scan has been conducted to determine the worst-case mode from all possible combinations between available modulations, data rates and antenna ports (if EUT with antenna diversity architecture). Following channel(s) was (were) selected for the final test as listed below. Modulation Technology Modulation Type Tested Channel FREQ. Band
(MHz) Mode Data Rate
(Mbps) Available Channel 36 to 48 36 to 48 38 to 46 42 149 to 165 149 to 165 151 to 159 155 802.11a 802.11ac (VHT20) 802.11ac (VHT40) 802.11ac (VHT80) 802.11a 802.11ac (VHT20) 802.11ac (VHT40) 802.11ac (VHT80) Test Condition:
5180-5240 5745-5825 36, 40, 48 36, 40, 48 38, 46 42 149, 157, 165 149, 157, 165 151, 159 155 OFDM OFDM OFDM OFDM OFDM OFDM OFDM OFDM BPSK BPSK BPSK BPSK BPSK BPSK BPSK BPSK 6 6.5 13.5 29.3 6 6.5 13.5 29.3 Applicable To Environmental Conditions RE1G RE<1G PLC APCM 24deg. C, 63%RH 23deg. C, 68%RH 25deg. C, 75%RH 25deg. C, 60%RH Input Power 120Vac, 60Hz 120Vac, 60Hz 120Vac, 60Hz 120Vac, 60Hz Tested By Rey Chen Andy Ho Andy Ho Anderson Chen Report No.: RF181004C17-1 Page No. 11 / 72 Report Format Version:6.1.2 3.3 Duty Cycle of Test Signal If duty cycle of test signal is 98 %, duty factor is not required. If duty cycle of test signal is < 98%, duty factor shall be considered. 802.11a: Duty cycle = Duty cycle = 2.027 ms/2.097 ms = 0.967, Duty factor = 10 * log (1/Duty cycle) = 0.15 802.11ac (VHT20): Duty cycle = 4.97 ms/5.035 ms = 0.987 802.11ac (VHT40): Duty cycle = 2.412 ms/2.477 ms = 0.974, Duty factor = 10 * log (1/Duty cycle) = 0.12 802.11ac (VHT80): Duty cycle = 1.135 ms/1.199 ms = 0.947, Duty factor = 10 * log (1/Duty cycle) = 0.24 802.11a 802.11ac (VHT20) 802.11ac (VHT40) 802.11ac (VHT80) Report No.: RF181004C17-1 Page No. 12 / 72 Report Format Version:6.1.2 3.4 Description of Support Units The EUT has been tested as an independent unit together with other necessary accessories or support units. The following support units or accessories were used to form a representative test configuration during the tests. ID A. B. Product SIM Card Laptop Note:
1. All power cords of the above support units are non-shielded (1.8m). E6420 Model No. CMW-Z05 Brand R&S DELL Serial No. NA B92T3R1 FCC ID NA FCC DoC Remarks Provided by Lab Provided by Lab ID Descriptions Qty. Length (m) 1. USB type C Cable 0.95 Note: The core(s) is(are) originally attached to the cable(s). 1 Shielding
(Yes/No) Yes Cores (Qty.) Remarks 0 Supplied by client Report No.: RF181004C17-1 Page No. 13 / 72 Report Format Version:6.1.2 3.4.1 Configuration of System under Test Adapter mode:
Laptop mode:
Report No.: RF181004C17-1 Page No. 14 / 72 Report Format Version:6.1.2 3.5 General Description of Applied Standard The EUT is a RF Product. According to the specifications of the manufacturer, it must comply with the requirements of the following standards:
FCC Part 15, Subpart E (15.407) KDB 789033 D02 General UNII Test Procedure New Rules v02r01 KDB 662911 D01 Multiple Transmitter Output v02r01 ANSI C63.10-2013 All test items have been performed and recorded as per the above standards. Report No.: RF181004C17-1 Page No. 15 / 72 Report Format Version:6.1.2 Test Types and Results 4 4.1 Radiated Emission and Bandedge Measurement 4.1.1 Limits of Radiated Emission and Bandedge Measurement Radiated emissions which fall in the restricted bands must comply with the radiated emission limits specified as below table. Frequencies
(MHz) 0.009 ~ 0.490 0.490 ~ 1.705 1.705 ~ 30.0 30 ~ 88 88 ~ 216 216 ~ 960 Above 960 Field Strength
(microvolts/meter) 2400/F(kHz) 24000/F(kHz) 30 100 150 200 500 Measurement Distance
(meters) 300 30 30 3 3 3 3 NOTE:
1. 2. 3. The lower limit shall apply at the transition frequencies. Emission level (dBuV/m) = 20 log Emission level (uV/m). For frequencies above 1000MHz, the field strength limits are based on average detector, however, the peak field strength of any emission shall not exceed the maximum permitted average limits, specified above by more than 20dB under any condition of modulation. Limits of unwanted emission out of the restricted bands Applicable To 789033 D02 General UNII Test Procedure New Rules v02r01 Limit Field Strength at 3m PK:74 (dBV/m) AV:54 (dBV/m) Frequency Band Applicable To EIRP Limit Equivalent Field Strength at 3m 5150~5250 MHz 5250~5350 MHz 5470~5725 MHz 15.407(b)(1) 15.407(b)(2) 15.407(b)(3) PK:-27 (dBm/MHz) PK:68.2(dBV/m) 5725~5850 MHz 15.407(b)(4)(i) PK:-27 (dBm/MHz) *1 PK:10 (dBm/MHz) *2 PK:15.6 (dBm/MHz) *3 PK:27 (dBm/MHz) *4 PK: 68.2(dBV/m) *1 PK:105.2 (dBV/m) *2 PK: 110.8(dBV/m) *3 PK:122.2 (dBV/m) *4 15.407(b)(4)(ii) Emission limits in section 15.247(d)
*1 beyond 75 MHz or more above of the band edge.
*3 below the band edge increasing linearly to a level of 15.6 dBm/MHz at 5 MHz above.
*2 below the band edge increasing linearly to 10 dBm/MHz at 25 MHz above.
*4 from 5 MHz above or below the band edge increasing linearly to a level of 27 dBm/MHz at the band edge. Note:
The following formula is used to convert the equipment isotropic radiated power (eirp) to field strength:
E =
V/m, where P is the eirp (Watts). 30 P 1000000 3 Report No.: RF181004C17-1 Page No. 16 / 72 Report Format Version:6.1.2 4.1.2 Test Instruments DESCRIPTION &
MANUFACTURER Test Receiver Agilent Pre-Amplifier EMCI Loop Antenna(*) Electro-Metrics RF Cable RF Cable Pre-Amplifier Mini-Circuits Trilog Broadband Antenna SCHWARZBECK RF Cable RF Cable RF Cable Fixed attenuator Mini-Circuits Horn_Antenna SCHWARZBECK Pre-Amplifier EMCI RF Cable RF Cable RF Cable Spectrum Analyzer Keysight Pre-Amplifier EMCI Horn_Antenna SCHWARZBECK RF Cable Software Antenna Tower & Turn Table Max-Full Boresight Antenna Fixture Spectrum Analyzer Agilent Power meter Anritsu Power sensor Anritsu DC Power Supply Topward Temperature & Humidity Chamber Giant Force True RMS Clamp Meter FLUKE Report No.: RF181004C17-1 MODEL NO. SERIAL NO. N9038A MY50010156 CALIBRATED DATE July 12, 2018 CALIBRATED UNTIL July 11, 2019 EMC001340 980142 Feb. 09, 2018 Feb. 08, 2019 EM-6879 NA NA ZFL-1000VH2B VULB 9168 8D 8D 8D UNAT-5+
Dec. 16, 2016 Dec. 15, 2018 264 Jan. 14, 2019 LOOPCAB-001 Jan. 15, 2018 Jan. 14, 2019 LOOPCAB-002 Jan. 15, 2018 AMP-ZFL-05 May 05, 2018 May 04, 2019 9168-361 966-3-1 966-3-2 966-3-3 PAD-3m-3-01 Nov. 29, 2017 Nov. 28, 2018 Mar. 20, 2018 Mar. 19, 2019 Mar. 20, 2018 Mar. 19, 2019 Mar. 20, 2018 Mar. 19, 2019 Sep. 27, 2018 Sep. 26, 2019 BBHA9120-D 9120D-406 Dec. 12, 2017 Dec. 11, 2018 980384 EMC12630SE EMC104-SM-SM-1200 160922 EMC104-SM-SM-2000 150317 EMC104-SM-SM-5000 150322 N9030A MY54490679 Jan. 29, 2018 Jan. 29, 2018 Jan. 29, 2018 Jan. 29, 2018 July 23, 2018 Jan. 28, 2019 Jan. 28, 2019 Jan. 28, 2019 Jan. 28, 2019 July 22, 2019 EMC184045SE 980386 Jan. 29, 2018 Jan. 28, 2019 BBHA 9170 EMC102-KM-KM-1200 160924 ADT_Radiated_V8.7.08 NA MF-7802 FBA-01 E4446A BBHA9170608 Dec. 14, 2017 Dec. 13, 2018 Jan. 28, 2019 NA NA NA Jan. 29, 2018 NA MF780208406 NA FBA-SIP01 NA MY48250254 Nov. 21, 2017 Nov. 20, 2018 ML2495A MA2411B 6603D 1014008 0917122 May 09, 2018 May 08, 2019 May 09, 2018 May 08, 2019 795558 NA NA GTH-150-40-SP-AR MAA0812-008 Jan. 10, 2018 Jan. 09, 2019 31130711WS May 22, 2018 May 21, 2019 325 Page No. 17 / 72 Report Format Version:6.1.2 Note:
1. The calibration interval of the above test instruments is 12 months and the calibrations are traceable to NML/ROC and NIST/USA. 2. *The calibration interval of the above test instruments is 24 months and the calibrations are traceable to NML/ROC and NIST/USA. 3. The test was performed in 966 Chamber No. 3. 4. The CANADA Site Registration No. is 20331-1 5. Loop antenna was used for all emissions below 30 MHz. 6. Tested Date: Nov. 07 to 14, 2018 Report No.: RF181004C17-1 Page No. 18 / 72 Report Format Version:6.1.2 4.1.3 Test Procedure For Radiated emission below 30MHz a. The EUT was placed on the top of a rotating table 0.8 meters above the ground at a 3 meter chamber room. The table was rotated 360 degrees to determine the position of the highest radiation. b. The EUT was set 3 meters away from the interference-receiving antenna, which was mounted on the top of a variable-height antenna tower. c. Parallel, perpendicular, and ground-parallel orientations of the antenna are set to make the measurement. d. For each suspected emission, the EUT was arranged to its worst case and the rotatable table was turned from 0 degrees to 360 degrees to find the maximum reading. e. The test-receiver system was set to Quasi-Peak Detect Function and Specified Bandwidth with Maximum Hold Mode. Note:
1. The resolution bandwidth and video bandwidth of test receiver/spectrum analyzer is 9kHz at frequency below 30MHz. For Radiated emission above 30MHz a. The EUT was placed on the top of a rotating table 0.8 meters (for 30MHz ~ 1GHz) / 1.5 meters (for above 1GHz) above the ground at 3 meter chamber room for test. The table was rotated 360 degrees to determine the position of the highest radiation. b. The EUT was set 3 meters away from the interference-receiving antenna, which was mounted on the top of a variable-height antenna tower. c. The height of antenna is varied from one meter to four meters above the ground to determine the maximum value of the field strength. Both horizontal and vertical polarizations of the antenna are set to make the measurement. d. For each suspected emission, the EUT was arranged to its worst case and then the antenna was tuned to heights from 1 meter to 4 meters and the rotatable table was turned from 0 degrees to 360 degrees to find the maximum reading. e. The test-receiver system was set to quasi-peak detect function and specified bandwidth with maximum f. hold mode when the test frequency is below 1 GHz. The test-receiver system was set to peak and average detects function and specified bandwidth with maximum hold mode when the test frequency is above 1 GHz. If the peak reading value also meets average limit, measurement with the average detector is unnecessary. Note:
1. The resolution bandwidth and video bandwidth of test receiver/spectrum analyzer is 120kHz for Quasi-peak detection (QP) at frequency below 1GHz. 2. The resolution bandwidth of test receiver/spectrum analyzer is 1 MHz and the video bandwidth is 3 MHz for Peak detection (PK) at frequency above 1GHz. 3. The resolution bandwidth of test receiver/spectrum analyzer is 1MHz and the video bandwidth is 1/T
(Duty cycle < 98%) or 10Hz (Duty cycle 98%) for Average detection (AV) at frequency above 1GHz. 4. All modes of operation were investigated and the worst-case emissions are reported. 4.1.4 Deviation from Test Standard No deviation. Report No.: RF181004C17-1 Page No. 19 / 72 Report Format Version:6.1.2 4.1.5 Test Setup For Radiated emission below 30MHz 1 m EUT&
Support Units 80cm 3m Turn Table Ground Plane Test Receiver For Radiated emission 30MHz to 1GHz EUT&
Support Units 80cm 3m 10m Turn Table Ant. Tower 1-4m Variable Ground Plane Test Receiver Report No.: RF181004C17-1 Page No. 20 / 72 Report Format Version:6.1.2 For Radiated emission above 1GHz EUT&
Support Units 3m Ant. Tower 1-4m Variable Turn Table Absorber 150cm Ground Plane Test Receiver For the actual test configuration, please refer to the attached file (Test Setup Photo). 4.1.6 EUT Operating Condition a. Connected the EUT with the Laptop which is placed on remote site. b. Controlling software (QDART (4.8.00059)) has been activated to set the EUT on specific status. Report No.: RF181004C17-1 Page No. 21 / 72 Report Format Version:6.1.2 4.1.7 Test Results Above 1GHz Data:
802.11a CHANNEL TX Channel 36 FREQUENCY RANGE 1GHz ~ 40GHz DETECTOR FUNCTION Peak (PK) Average (AV) NO. FREQ.
(MHz) 1 2 3 4 5 6 7 5150.00 5150.00
*5180.00
*5180.00
#10360.00 15540.00 15540.00 NO. FREQ.
(MHz) 1 2 3 4 5 6 7 5150.00 5150.00
*5180.00
*5180.00
#10360.00 15540.00 15540.00 REMARKS:
(dB) LIMIT MARGIN 74.0 54.0
(dBuV/m)
-9.3
-14.4 68.2 74.0 54.0 ANTENNA HEIGHT TABLE ANGLE
(Degree) 344 344 344 344 212 90 90
(m) 1.40 H 1.40 H 1.40 H 1.40 H 1.62 H 3.00 H 3.00 H ANTENNA POLARITY & TEST DISTANCE: HORIZONTAL AT 3 M RAW EMISSION VALUE LEVEL
(dBuV)
(dBuV/m) 62.1 64.7 PK 37.0 39.6 AV 106.8 109.3 PK 94.5 97.0 AV 38.0 49.9 PK 40.0 52.4 PK 28.8 41.2 AV ANTENNA POLARITY & TEST DISTANCE: VERTICAL AT 3 M RAW EMISSION VALUE
(dBuV) 47.5 36.7 94.7 84.2 38.2 40.0 28.6 LEVEL
(dBuV/m) 50.1 PK 39.3 AV 97.2 PK 86.7 AV 50.1 PK 52.4 PK 41.0 AV
(m) 1.55 V 1.55 V 1.55 V 1.55 V 2.68 V 2.26 V 2.26 V 341 341 341 341 172 252 252 TABLE ANGLE
(Degree) ANTENNA HEIGHT
-18.3
-21.6
-12.8
-18.1
-21.6
-13.0 68.2 74.0 54.0
-23.9
-14.7
(dBuV/m) 74.0 54.0 MARGIN LIMIT
(dB) CORRECTION FACTOR
(dB/m) 2.6 2.6 2.5 2.5 11.9 12.4 12.4 CORRECTION FACTOR
(dB/m) 2.6 2.6 2.5 2.5 11.9 12.4 12.4 1. Emission Level(dBuV/m) = Raw Value(dBuV) + Correction Factor(dB/m) 2. Correction Factor(dB/m) = Antenna Factor(dB/m) + Cable Factor(dB) Pre-Amplifier Factor(dB) 3. The other emission levels were very low against the limit. 4. Margin value = Emission Level Limit value 5. " * ": Fundamental frequency. 6. " # ": The radiated frequency is out of the restricted band. Report No.: RF181004C17-1 Page No. 22 / 72 Report Format Version:6.1.2 CHANNEL TX Channel 40 FREQUENCY RANGE 1GHz ~ 40GHz DETECTOR FUNCTION Peak (PK) Average (AV)
(dB) LIMIT MARGIN
(dBuV/m) 68.2 74.0 54.0 ANTENNA HEIGHT TABLE ANGLE
(Degree)
(m) 1.38 H 1.38 H 1.70 H 2.99 H 2.99 H ANTENNA POLARITY & TEST DISTANCE: HORIZONTAL AT 3 M RAW EMISSION VALUE LEVEL
(dBuV)
(dBuV/m) 106.4 108.8 PK 94.3 96.7 AV 37.9 50.1 PK 39.4 52.3 PK 40.8 AV 27.9 ANTENNA POLARITY & TEST DISTANCE: VERTICAL AT 3 M EMISSION RAW VALUE
(dBuV) 94.3 84.0 38.0 39.2 28.1 LEVEL
(dBuV/m) 96.7 PK 86.4 AV 50.2 PK 52.1 PK 41.0 AV
(m) 1.51 V 1.51 V 2.66 V 2.29 V 2.29 V TABLE ANGLE
(Degree) ANTENNA HEIGHT 334 334 184 263 263 353 353 216 104 104
-18.0
-21.9
-13.0
-18.1
-21.7
-13.2 68.2 74.0 54.0
(dBuV/m) MARGIN LIMIT
(dB) CORRECTION FACTOR
(dB/m) 2.4 2.4 12.2 12.9 12.9 CORRECTION FACTOR
(dB/m) 2.4 2.4 12.2 12.9 12.9 NO. FREQ.
(MHz) 1 2 3 4 5
*5200.00
*5200.00
#10400.00 15600.00 15600.00 NO. FREQ.
(MHz) 1 2 3 4 5
*5200.00
*5200.00
#10400.00 15600.00 15600.00 REMARKS:
1. Emission Level(dBuV/m) = Raw Value(dBuV) + Correction Factor(dB/m) 2. Correction Factor(dB/m) = Antenna Factor(dB/m) + Cable Factor(dB) Pre-Amplifier Factor(dB) 3. The other emission levels were very low against the limit. 4. Margin value = Emission Level Limit value 5. " * ": Fundamental frequency. 6. " # ": The radiated frequency is out of the restricted band. Report No.: RF181004C17-1 Page No. 23 / 72 Report Format Version:6.1.2 CHANNEL TX Channel 48 FREQUENCY RANGE 1GHz ~ 40GHz DETECTOR FUNCTION Peak (PK) Average (AV)
(dB) LIMIT MARGIN
(dBuV/m) ANTENNA HEIGHT 74.0 54.0 68.2 74.0 54.0 TABLE ANGLE
(Degree)
-21.7
-14.9
-18.2
-22.2
-13.3 341 341 341 341 208 78 78
(m) 1.48 H 1.48 H 1.48 H 1.48 H 1.68 H 2.93 H 2.93 H ANTENNA POLARITY & TEST DISTANCE: HORIZONTAL AT 3 M RAW EMISSION VALUE LEVEL
(dBuV)
(dBuV/m) 106.1 108.3 PK 95.2 97.4 AV 50.0 52.3 PK 36.8 39.1 AV 37.6 50.0 PK 39.8 51.8 PK 28.7 40.7 AV ANTENNA POLARITY & TEST DISTANCE: VERTICAL AT 3 M RAW EMISSION VALUE
(dBuV) 94.4 84.1 47.2 35.9 37.7 40.6 29.2 LEVEL
(dBuV/m) 96.6 PK 86.3 AV 49.5 PK 38.2 AV 50.1 PK 52.6 PK 41.2 AV
(m) 1.58 V 1.58 V 1.58 V 1.58 V 2.74 V 2.24 V 2.24 V 339 339 339 339 183 238 238
-24.5
-15.8
-18.1
-21.4
-12.8 TABLE ANGLE
(Degree) 74.0 54.0 68.2 74.0 54.0 ANTENNA HEIGHT
(dBuV/m) MARGIN LIMIT
(dB) CORRECTION FACTOR
(dB/m) 2.2 2.2 2.3 2.3 12.4 12.0 12.0 CORRECTION FACTOR
(dB/m) 2.2 2.2 2.3 2.3 12.4 12.0 12.0 NO. FREQ.
(MHz) 1 2 3 4 5 6 7
*5240.00
*5240.00 5350.00 5350.00
#10480.00 15720.00 15720.00 NO. FREQ.
(MHz) 1 2 3 4 5 6 7
*5240.00
*5240.00 5350.00 5350.00
#10480.00 15720.00 15720.00 REMARKS:
1. Emission Level(dBuV/m) = Raw Value(dBuV) + Correction Factor(dB/m) 2. Correction Factor(dB/m) = Antenna Factor(dB/m) + Cable Factor(dB) Pre-Amplifier Factor(dB) 3. The other emission levels were very low against the limit. 4. Margin value = Emission Level Limit value 5. " * ": Fundamental frequency. 6. " # ": The radiated frequency is out of the restricted band. Report No.: RF181004C17-1 Page No. 24 / 72 Report Format Version:6.1.2 CHANNEL TX Channel 149 FREQUENCY RANGE 1GHz ~ 40GHz DETECTOR FUNCTION Peak (PK) Average (AV) 68.2
(dB)
-15.3 LIMIT MARGIN
(dBuV/m) 68.2 74.0 54.0 68.2 ANTENNA HEIGHT
-15.4
-23.9
-14.7
-15.7 TABLE ANGLE
(Degree) 334 334 334 334 208 208 90
(m) 1.41 H 1.41 H 1.41 H 1.41 H 1.69 H 1.69 H 3.00 H ANTENNA POLARITY & TEST DISTANCE: HORIZONTAL AT 3 M RAW EMISSION VALUE LEVEL
(dBuV)
(dBuV/m) 50.2 52.9 PK 105.5 108.4 PK 95.3 98.2 AV 49.6 52.8 PK 37.8 50.1 PK 27.0 39.3 AV 37.2 52.5 PK ANTENNA POLARITY & TEST DISTANCE: VERTICAL AT 3 M RAW EMISSION VALUE
(dBuV) 48.5 99.6 89.1 48.6 38.3 27.3 37.1 LEVEL
(dBuV/m) 51.3 PK 102.5 PK 92.0 AV 51.8 PK 50.6 PK 39.6 AV 52.4 PK
(m) 2.46 V 2.46 V 2.46 V 2.46 V 2.71 V 2.71 V 2.24 V 297 297 297 297 166 166 263 TABLE ANGLE
(Degree)
-16.4
-23.4
-14.4
-15.8 ANTENNA HEIGHT 68.2 74.0 54.0 68.2
(dBuV/m) MARGIN LIMIT
-16.9
(dB) 68.2 CORRECTION FACTOR
(dB/m) 2.7 2.9 2.9 3.2 12.3 12.3 15.3 CORRECTION FACTOR
(dB/m) 2.8 2.9 2.9 3.2 12.3 12.3 15.3 NO. FREQ.
(MHz) 1 2 3 4 5 6 7
#5636.45
*5745.00
*5745.00
#5972.75 11490.00 11490.00
#17235.00 NO. FREQ.
(MHz) 1 2 3 4 5 6 7
#5596.07
*5745.00
*5745.00
#5981.30 11490.00 11490.00
#17235.00 REMARKS:
1. Emission Level(dBuV/m) = Raw Value(dBuV) + Correction Factor(dB/m) 2. Correction Factor(dB/m) = Antenna Factor(dB/m) + Cable Factor(dB) Pre-Amplifier Factor(dB) 3. The other emission levels were very low against the limit. 4. Margin value = Emission Level Limit value 5. " * ": Fundamental frequency. 6. " # ": The radiated frequency is out of the restricted band. Report No.: RF181004C17-1 Page No. 25 / 72 Report Format Version:6.1.2 CHANNEL TX Channel 157 FREQUENCY RANGE 1GHz ~ 40GHz DETECTOR FUNCTION Peak (PK) Average (AV) 68.2
(dB)
-15.0 LIMIT MARGIN
(dBuV/m) 68.2 74.0 54.0 68.2 ANTENNA HEIGHT
-15.8
-23.8
-15.1
-15.7 TABLE ANGLE
(Degree) 336 336 336 336 215 215 95
(m) 1.46 H 1.46 H 1.46 H 1.46 H 1.69 H 1.69 H 2.99 H ANTENNA POLARITY & TEST DISTANCE: HORIZONTAL AT 3 M RAW EMISSION VALUE LEVEL
(dBuV)
(dBuV/m) 50.5 53.2 PK 105.0 108.1 PK 94.6 97.7 AV 49.2 52.4 PK 37.8 50.2 PK 26.5 38.9 AV 36.5 52.5 PK ANTENNA POLARITY & TEST DISTANCE: VERTICAL AT 3 M RAW EMISSION VALUE
(dBuV) 48.8 100.1 89.4 48.4 37.3 26.3 36.7 LEVEL
(dBuV/m) 51.6 PK 103.2 PK 92.5 AV 51.8 PK 49.7 PK 38.7 AV 52.7 PK
(m) 2.56 V 2.56 V 2.56 V 2.56 V 2.71 V 2.71 V 2.25 V 300 300 300 300 164 164 257 TABLE ANGLE
(Degree)
-16.4
-24.3
-15.3
-15.5 ANTENNA HEIGHT 68.2 74.0 54.0 68.2
(dBuV/m) MARGIN LIMIT
-16.6
(dB) 68.2 CORRECTION FACTOR
(dB/m) 2.7 3.1 3.1 3.2 12.4 12.4 16.0 CORRECTION FACTOR
(dB/m) 2.8 3.1 3.1 3.4 12.4 12.4 16.0 NO. FREQ.
(MHz) 1 2 3 4 5 6 7
#5642.15
*5785.00
*5785.00
#6012.18 11570.00 11570.00
#17355.00 NO. FREQ.
(MHz) 1 2 3 4 5 6 7
#5580.87
*5785.00
*5785.00
#5928.10 11570.00 11570.00
#17355.00 REMARKS:
1. Emission Level(dBuV/m) = Raw Value(dBuV) + Correction Factor(dB/m) 2. Correction Factor(dB/m) = Antenna Factor(dB/m) + Cable Factor(dB) Pre-Amplifier Factor(dB) 3. The other emission levels were very low against the limit. 4. Margin value = Emission Level Limit value 5. " * ": Fundamental frequency. 6. " # ": The radiated frequency is out of the restricted band. Report No.: RF181004C17-1 Page No. 26 / 72 Report Format Version:6.1.2 CHANNEL TX Channel 165 FREQUENCY RANGE 1GHz ~ 40GHz DETECTOR FUNCTION Peak (PK) Average (AV) 68.2
(dB)
-16.4 LIMIT MARGIN
(dBuV/m) 68.2 74.0 54.0 68.2 ANTENNA HEIGHT
-15.1
-23.6
-14.5
-15.7 TABLE ANGLE
(Degree) 337 337 337 337 206 206 102
(m) 1.42 H 1.42 H 1.42 H 1.42 H 1.62 H 1.62 H 3.00 H ANTENNA POLARITY & TEST DISTANCE: HORIZONTAL AT 3 M RAW EMISSION VALUE LEVEL
(dBuV)
(dBuV/m) 49.0 51.8 PK 104.6 107.8 PK 94.7 97.9 AV 49.9 53.1 PK 38.0 50.4 PK 27.1 39.5 AV 35.1 52.5 PK ANTENNA POLARITY & TEST DISTANCE: VERTICAL AT 3 M RAW EMISSION VALUE
(dBuV) 48.9 99.1 89.0 49.1 37.7 27.0 35.1 LEVEL
(dBuV/m) 51.6 PK 102.3 PK 92.2 AV 52.3 PK 50.1 PK 39.4 AV 52.5 PK
(m) 2.58 V 2.58 V 2.58 V 2.58 V 2.73 V 2.73 V 2.24 V 295 295 295 295 175 175 249 TABLE ANGLE
(Degree)
-15.9
-23.9
-14.6
-15.7 ANTENNA HEIGHT 68.2 74.0 54.0 68.2
(dBuV/m) MARGIN LIMIT
-16.6
(dB) 68.2 CORRECTION FACTOR
(dB/m) 2.8 3.2 3.2 3.2 12.4 12.4 17.4 CORRECTION FACTOR
(dB/m) 2.7 3.2 3.2 3.2 12.4 12.4 17.4 NO. FREQ.
(MHz) 1 2 3 4 5 6 7
#5587.52
*5825.00
*5825.00
#5952.80 11650.00 11650.00
#17475.00 NO. FREQ.
(MHz) 1 2 3 4 5 6 7
#5643.57
*5825.00
*5825.00
#6008.37 11650.00 11650.00
#17475.00 REMARKS:
1. Emission Level(dBuV/m) = Raw Value(dBuV) + Correction Factor(dB/m) 2. Correction Factor(dB/m) = Antenna Factor(dB/m) + Cable Factor(dB) Pre-Amplifier Factor(dB) 3. The other emission levels were very low against the limit. 4. Margin value = Emission Level Limit value 5. " * ": Fundamental frequency. 6. " # ": The radiated frequency is out of the restricted band. Report No.: RF181004C17-1 Page No. 27 / 72 Report Format Version:6.1.2 802.11ac (VHT20) CHANNEL TX Channel 36 FREQUENCY RANGE 1GHz ~ 40GHz DETECTOR FUNCTION Peak (PK) Average (AV) NO. FREQ.
(MHz) 1 2 3 4 5 6 7 5150.00 5150.00
*5180.00
*5180.00
#10360.00 15540.00 15540.00 NO. FREQ.
(MHz) 1 2 3 4 5 6 7 5150.00 5150.00
*5180.00
*5180.00
#10360.00 15540.00 15540.00 REMARKS:
(dB) LIMIT MARGIN 74.0 54.0
(dBuV/m)
-9.3
-14.1 68.2 74.0 54.0 ANTENNA HEIGHT TABLE ANGLE
(Degree) 339 339 339 339 201 90 90
(m) 1.41 H 1.41 H 1.41 H 1.41 H 1.65 H 2.98 H 2.98 H ANTENNA POLARITY & TEST DISTANCE: HORIZONTAL AT 3 M EMISSION RAW VALUE LEVEL
(dBuV)
(dBuV/m) 62.1 64.7 PK 37.3 39.9 AV 106.6 109.1 PK 94.5 97.0 AV 38.2 50.1 PK 40.1 52.5 PK 41.1 AV 28.7 ANTENNA POLARITY & TEST DISTANCE: VERTICAL AT 3 M RAW EMISSION VALUE
(dBuV) 47.7 36.0 94.8 84.2 38.2 39.7 28.5 LEVEL
(dBuV/m) 50.3 PK 38.6 AV 97.3 PK 86.7 AV 50.1 PK 52.1 PK 40.9 AV
(m) 1.50 V 1.50 V 1.50 V 1.50 V 2.64 V 2.32 V 2.32 V 350 350 350 350 170 252 252 TABLE ANGLE
(Degree) ANTENNA HEIGHT
-18.1
-21.5
-12.9
-18.1
-21.9
-13.1 68.2 74.0 54.0
-23.7
-15.4
(dBuV/m) 74.0 54.0 MARGIN LIMIT
(dB) CORRECTION FACTOR
(dB/m) 2.6 2.6 2.5 2.5 11.9 12.4 12.4 CORRECTION FACTOR
(dB/m) 2.6 2.6 2.5 2.5 11.9 12.4 12.4 1. Emission Level(dBuV/m) = Raw Value(dBuV) + Correction Factor(dB/m) 2. Correction Factor(dB/m) = Antenna Factor(dB/m) + Cable Factor(dB) Pre-Amplifier Factor(dB) 3. The other emission levels were very low against the limit. 4. Margin value = Emission Level Limit value 5. " * ": Fundamental frequency. 6. " # ": The radiated frequency is out of the restricted band. Report No.: RF181004C17-1 Page No. 28 / 72 Report Format Version:6.1.2 CHANNEL TX Channel 40 FREQUENCY RANGE 1GHz ~ 40GHz DETECTOR FUNCTION Peak (PK) Average (AV)
(dB) LIMIT MARGIN
(dBuV/m) 68.2 74.0 54.0 ANTENNA HEIGHT TABLE ANGLE
(Degree)
(m) 1.38 H 1.38 H 1.66 H 3.02 H 3.02 H ANTENNA POLARITY & TEST DISTANCE: HORIZONTAL AT 3 M RAW EMISSION VALUE LEVEL
(dBuV)
(dBuV/m) 107.0 109.4 PK 94.8 97.2 AV 37.6 49.8 PK 39.4 52.3 PK 41.1 AV 28.2 ANTENNA POLARITY & TEST DISTANCE: VERTICAL AT 3 M EMISSION RAW VALUE
(dBuV) 95.2 84.7 37.8 39.7 28.5 LEVEL
(dBuV/m) 97.6 PK 87.1 AV 50.0 PK 52.6 PK 41.4 AV
(m) 1.60 V 1.60 V 2.65 V 2.25 V 2.25 V TABLE ANGLE
(Degree) ANTENNA HEIGHT 343 343 170 240 240 360 360 220 107 107
-18.2
-21.4
-12.6
-18.4
-21.7
-12.9 68.2 74.0 54.0
(dBuV/m) MARGIN LIMIT
(dB) CORRECTION FACTOR
(dB/m) 2.4 2.4 12.2 12.9 12.9 CORRECTION FACTOR
(dB/m) 2.4 2.4 12.2 12.9 12.9 NO. FREQ.
(MHz) 1 2 3 4 5
*5200.00
*5200.00
#10400.00 15600.00 15600.00 NO. FREQ.
(MHz) 1 2 3 4 5
*5200.00
*5200.00
#10400.00 15600.00 15600.00 REMARKS:
1. Emission Level(dBuV/m) = Raw Value(dBuV) + Correction Factor(dB/m) 2. Correction Factor(dB/m) = Antenna Factor(dB/m) + Cable Factor(dB) Pre-Amplifier Factor(dB) 3. The other emission levels were very low against the limit. 4. Margin value = Emission Level Limit value 5. " * ": Fundamental frequency. 6. " # ": The radiated frequency is out of the restricted band. Report No.: RF181004C17-1 Page No. 29 / 72 Report Format Version:6.1.2 CHANNEL TX Channel 48 FREQUENCY RANGE 1GHz ~ 40GHz DETECTOR FUNCTION Peak (PK) Average (AV)
(dB) LIMIT MARGIN
(dBuV/m) ANTENNA HEIGHT 74.0 54.0 68.2 74.0 54.0 TABLE ANGLE
(Degree)
-21.5
-14.5
-18.5
-21.3
-12.6 343 343 343 343 208 86 86
(m) 1.48 H 1.48 H 1.48 H 1.48 H 1.69 H 2.98 H 2.98 H ANTENNA POLARITY & TEST DISTANCE: HORIZONTAL AT 3 M RAW EMISSION VALUE LEVEL
(dBuV)
(dBuV/m) 105.8 108.0 PK 94.9 97.1 AV 50.2 52.5 PK 37.2 39.5 AV 37.3 49.7 PK 40.7 52.7 PK 29.4 41.4 AV ANTENNA POLARITY & TEST DISTANCE: VERTICAL AT 3 M RAW EMISSION VALUE
(dBuV) 94.9 84.1 46.9 35.6 37.8 40.3 29.1 LEVEL
(dBuV/m) 97.1 PK 86.3 AV 49.2 PK 37.9 AV 50.2 PK 52.3 PK 41.1 AV
(m) 1.61 V 1.61 V 1.61 V 1.61 V 2.71 V 2.23 V 2.23 V 348 348 348 348 164 237 237
-24.8
-16.1
-18.0
-21.7
-12.9 TABLE ANGLE
(Degree) 74.0 54.0 68.2 74.0 54.0 ANTENNA HEIGHT
(dBuV/m) MARGIN LIMIT
(dB) CORRECTION FACTOR
(dB/m) 2.2 2.2 2.3 2.3 12.4 12.0 12.0 CORRECTION FACTOR
(dB/m) 2.2 2.2 2.3 2.3 12.4 12.0 12.0 NO. FREQ.
(MHz) 1 2 3 4 5 6 7
*5240.00
*5240.00 5350.00 5350.00
#10480.00 15720.00 15720.00 NO. FREQ.
(MHz) 1 2 3 4 5 6 7
*5240.00
*5240.00 5350.00 5350.00
#10480.00 15720.00 15720.00 REMARKS:
1. Emission Level(dBuV/m) = Raw Value(dBuV) + Correction Factor(dB/m) 2. Correction Factor(dB/m) = Antenna Factor(dB/m) + Cable Factor(dB) Pre-Amplifier Factor(dB) 3. The other emission levels were very low against the limit. 4. Margin value = Emission Level Limit value 5. " * ": Fundamental frequency. 6. " # ": The radiated frequency is out of the restricted band. Report No.: RF181004C17-1 Page No. 30 / 72 Report Format Version:6.1.2 CHANNEL TX Channel 149 FREQUENCY RANGE 1GHz ~ 40GHz DETECTOR FUNCTION Peak (PK) Average (AV) 68.2
(dB)
-16.5 LIMIT MARGIN
(dBuV/m) 68.2 74.0 54.0 68.2 ANTENNA HEIGHT
-16.4
-24.0
-14.9
-15.7 TABLE ANGLE
(Degree) 9 9 9 9 209 209 97
(m) 1.40 H 1.40 H 1.40 H 1.40 H 1.65 H 1.65 H 3.04 H ANTENNA POLARITY & TEST DISTANCE: HORIZONTAL AT 3 M RAW EMISSION VALUE LEVEL
(dBuV)
(dBuV/m) 48.9 51.7 PK 105.4 108.3 PK 93.8 96.7 AV 48.6 51.8 PK 37.7 50.0 PK 26.8 39.1 AV 37.2 52.5 PK ANTENNA POLARITY & TEST DISTANCE: VERTICAL AT 3 M RAW EMISSION VALUE
(dBuV) 50.1 99.3 89.3 49.0 38.0 27.3 37.2 LEVEL
(dBuV/m) 52.9 PK 102.2 PK 92.2 AV 52.2 PK 50.3 PK 39.6 AV 52.5 PK
(m) 2.60 V 2.60 V 2.60 V 2.60 V 2.77 V 2.77 V 2.28 V 302 302 302 302 172 172 232 TABLE ANGLE
(Degree)
-16.0
-23.7
-14.4
-15.7 ANTENNA HEIGHT 68.2 74.0 54.0 68.2
(dBuV/m) MARGIN LIMIT
-15.3
(dB) 68.2 CORRECTION FACTOR
(dB/m) 2.8 2.9 2.9 3.2 12.3 12.3 15.3 CORRECTION FACTOR
(dB/m) 2.8 2.9 2.9 3.2 12.3 12.3 15.3 NO. FREQ.
(MHz) 1 2 3 4 5 6 7
#5616.98
*5745.00
*5745.00
#6015.50 11490.00 11490.00
#17235.00 NO. FREQ.
(MHz) 1 2 3 4 5 6 7
#5583.73
*5745.00
*5745.00
#6006.48 11490.00 11490.00
#17235.00 REMARKS:
1. Emission Level(dBuV/m) = Raw Value(dBuV) + Correction Factor(dB/m) 2. Correction Factor(dB/m) = Antenna Factor(dB/m) + Cable Factor(dB) Pre-Amplifier Factor(dB) 3. The other emission levels were very low against the limit. 4. Margin value = Emission Level Limit value 5. " * ": Fundamental frequency. 6. " # ": The radiated frequency is out of the restricted band. Report No.: RF181004C17-1 Page No. 31 / 72 Report Format Version:6.1.2 CHANNEL TX Channel 157 FREQUENCY RANGE 1GHz ~ 40GHz DETECTOR FUNCTION Peak (PK) Average (AV) 68.2
(dB)
-17.0 LIMIT MARGIN
(dBuV/m) 68.2 74.0 54.0 68.2 ANTENNA HEIGHT
-16.2
-24.6
-15.7
-15.7 TABLE ANGLE
(Degree) 7 7 7 7 210 210 92
(m) 1.19 H 1.19 H 1.19 H 1.19 H 1.65 H 1.65 H 3.01 H ANTENNA POLARITY & TEST DISTANCE: HORIZONTAL AT 3 M RAW EMISSION VALUE LEVEL
(dBuV)
(dBuV/m) 48.4 51.2 PK 105.5 108.6 PK 93.7 96.8 AV 48.8 52.0 PK 37.0 49.4 PK 25.9 38.3 AV 36.5 52.5 PK ANTENNA POLARITY & TEST DISTANCE: VERTICAL AT 3 M RAW EMISSION VALUE
(dBuV) 49.6 99.7 90.3 50.7 37.7 27.0 36.7 LEVEL
(dBuV/m) 52.4 PK 102.8 PK 93.4 AV 53.9 PK 50.1 PK 39.4 AV 52.7 PK
(m) 2.57 V 2.57 V 2.57 V 2.57 V 2.73 V 2.73 V 2.30 V 303 303 303 303 171 171 246 TABLE ANGLE
(Degree)
-14.3
-23.9
-14.6
-15.5 ANTENNA HEIGHT 68.2 74.0 54.0 68.2
(dBuV/m) MARGIN LIMIT
-15.8
(dB) 68.2 CORRECTION FACTOR
(dB/m) 2.8 3.1 3.1 3.2 12.4 12.4 16.0 CORRECTION FACTOR
(dB/m) 2.8 3.1 3.1 3.2 12.4 12.4 16.0 NO. FREQ.
(MHz) 1 2 3 4 5 6 7
#5630.27
*5785.00
*5785.00
#5949.48 11570.00 11570.00
#17355.00 NO. FREQ.
(MHz) 1 2 3 4 5 6 7
#5598.93
*5785.00
*5785.00
#6004.57 11570.00 11570.00
#17355.00 REMARKS:
1. Emission Level(dBuV/m) = Raw Value(dBuV) + Correction Factor(dB/m) 2. Correction Factor(dB/m) = Antenna Factor(dB/m) + Cable Factor(dB) Pre-Amplifier Factor(dB) 3. The other emission levels were very low against the limit. 4. Margin value = Emission Level Limit value 5. " * ": Fundamental frequency. 6. " # ": The radiated frequency is out of the restricted band. Report No.: RF181004C17-1 Page No. 32 / 72 Report Format Version:6.1.2 CHANNEL TX Channel 165 FREQUENCY RANGE 1GHz ~ 40GHz DETECTOR FUNCTION Peak (PK) Average (AV) 68.2
(dB)
-16.5 LIMIT MARGIN
(dBuV/m) 68.2 74.0 54.0 68.2 ANTENNA HEIGHT
-15.8
-24.6
-15.4
-15.4 TABLE ANGLE
(Degree) 3 3 3 3 197 197 84
(m) 1.16 H 1.16 H 1.16 H 1.16 H 1.68 H 1.68 H 3.03 H ANTENNA POLARITY & TEST DISTANCE: HORIZONTAL AT 3 M RAW EMISSION VALUE LEVEL
(dBuV)
(dBuV/m) 48.9 51.7 PK 105.3 108.5 PK 93.4 96.6 AV 49.2 52.4 PK 37.0 49.4 PK 26.2 38.6 AV 35.4 52.8 PK ANTENNA POLARITY & TEST DISTANCE: VERTICAL AT 3 M RAW EMISSION VALUE
(dBuV) 48.4 100.0 89.1 48.8 37.9 27.0 35.5 LEVEL
(dBuV/m) 51.2 PK 103.2 PK 92.3 AV 52.0 PK 50.3 PK 39.4 AV 52.9 PK
(m) 2.64 V 2.64 V 2.64 V 2.64 V 2.64 V 2.64 V 2.31 V 304 304 304 304 167 167 257 TABLE ANGLE
(Degree)
-16.2
-23.7
-14.6
-15.3 ANTENNA HEIGHT 68.2 74.0 54.0 68.2
(dBuV/m) MARGIN LIMIT
-17.0
(dB) 68.2 CORRECTION FACTOR
(dB/m) 2.8 3.2 3.2 3.2 12.4 12.4 17.4 CORRECTION FACTOR
(dB/m) 2.8 3.2 3.2 3.2 12.4 12.4 17.4 NO. FREQ.
(MHz) 1 2 3 4 5 6 7
#5619.35
*5825.00
*5825.00
#5973.23 11650.00 11650.00
#17475.00 NO. FREQ.
(MHz) 1 2 3 4 5 6 7
#5621.25
*5825.00
*5825.00
#6002.20 11650.00 11650.00
#17475.00 REMARKS:
1. Emission Level(dBuV/m) = Raw Value(dBuV) + Correction Factor(dB/m) 2. Correction Factor(dB/m) = Antenna Factor(dB/m) + Cable Factor(dB) Pre-Amplifier Factor(dB) 3. The other emission levels were very low against the limit. 4. Margin value = Emission Level Limit value 5. " * ": Fundamental frequency. 6. " # ": The radiated frequency is out of the restricted band. Report No.: RF181004C17-1 Page No. 33 / 72 Report Format Version:6.1.2 802.11ac (VHT40) CHANNEL TX Channel 38 FREQUENCY RANGE 1GHz ~ 40GHz DETECTOR FUNCTION Peak (PK) Average (AV) NO. FREQ.
(MHz) 1 2 3 4 5 6 7 5150.00 5150.00
*5190.00
*5190.00
#10380.00 15570.00 15570.00 NO. FREQ.
(MHz) 1 2 3 4 5 6 7 5150.00 5150.00
*5190.00
*5190.00
#10380.00 15570.00 15570.00 REMARKS:
(dB) LIMIT MARGIN 74.0 54.0
(dBuV/m)
-10.4
-13.7 68.2 74.0 54.0 ANTENNA HEIGHT TABLE ANGLE
(Degree) 358 358 358 358 217 103 103
(m) 1.36 H 1.36 H 1.36 H 1.36 H 1.65 H 3.03 H 3.03 H ANTENNA POLARITY & TEST DISTANCE: HORIZONTAL AT 3 M EMISSION RAW VALUE LEVEL
(dBuV)
(dBuV/m) 61.0 63.6 PK 37.7 40.3 AV 101.4 103.9 PK 92.1 94.6 AV 37.7 49.7 PK 40.5 53.1 PK 41.8 AV 29.2 ANTENNA POLARITY & TEST DISTANCE: VERTICAL AT 3 M RAW EMISSION VALUE
(dBuV) 47.0 35.5 92.8 83.7 38.3 39.5 28.3 LEVEL
(dBuV/m) 49.6 PK 38.1 AV 95.3 PK 86.2 AV 50.3 PK 52.1 PK 40.9 AV
(m) 2.74 V 2.74 V 2.74 V 2.74 V 2.68 V 2.25 V 2.25 V 275 275 275 275 160 236 236 TABLE ANGLE
(Degree) ANTENNA HEIGHT
-18.5
-20.9
-12.2
-17.9
-21.9
-13.1 68.2 74.0 54.0
-24.4
-15.9
(dBuV/m) 74.0 54.0 MARGIN LIMIT
(dB) CORRECTION FACTOR
(dB/m) 2.6 2.6 2.5 2.5 12.0 12.6 12.6 CORRECTION FACTOR
(dB/m) 2.6 2.6 2.5 2.5 12.0 12.6 12.6 1. Emission Level(dBuV/m) = Raw Value(dBuV) + Correction Factor(dB/m) 2. Correction Factor(dB/m) = Antenna Factor(dB/m) + Cable Factor(dB) Pre-Amplifier Factor(dB) 3. The other emission levels were very low against the limit. 4. Margin value = Emission Level Limit value 5. " * ": Fundamental frequency. 6. " # ": The radiated frequency is out of the restricted band. Report No.: RF181004C17-1 Page No. 34 / 72 Report Format Version:6.1.2 CHANNEL TX Channel 46 FREQUENCY RANGE 1GHz ~ 40GHz DETECTOR FUNCTION Peak (PK) Average (AV)
(dB) LIMIT MARGIN
(dBuV/m) ANTENNA HEIGHT 74.0 54.0 68.2 74.0 54.0 TABLE ANGLE
(Degree)
-22.8
-14.1
-18.5
-21.6
-12.8 360 360 360 360 200 99 99
(m) 1.34 H 1.34 H 1.34 H 1.34 H 1.61 H 3.02 H 3.02 H ANTENNA POLARITY & TEST DISTANCE: HORIZONTAL AT 3 M RAW EMISSION VALUE LEVEL
(dBuV)
(dBuV/m) 101.1 103.3 PK 93.0 95.2 AV 48.9 51.2 PK 37.6 39.9 AV 37.3 49.7 PK 40.2 52.4 PK 29.0 41.2 AV ANTENNA POLARITY & TEST DISTANCE: VERTICAL AT 3 M RAW EMISSION VALUE
(dBuV) 93.6 84.6 47.5 35.8 37.6 40.7 29.2 LEVEL
(dBuV/m) 95.8 PK 86.8 AV 49.8 PK 38.1 AV 50.0 PK 52.9 PK 41.4 AV
(m) 2.77 V 2.77 V 2.77 V 2.77 V 2.64 V 2.21 V 2.21 V 278 278 278 278 177 247 247
-24.2
-15.9
-18.2
-21.1
-12.6 TABLE ANGLE
(Degree) 74.0 54.0 68.2 74.0 54.0 ANTENNA HEIGHT
(dBuV/m) MARGIN LIMIT
(dB) CORRECTION FACTOR
(dB/m) 2.2 2.2 2.3 2.3 12.4 12.2 12.2 CORRECTION FACTOR
(dB/m) 2.2 2.2 2.3 2.3 12.4 12.2 12.2 NO. FREQ.
(MHz) 1 2 3 4 5 6 7
*5230.00
*5230.00 5350.00 5350.00
#10460.00 15690.00 15690.00 NO. FREQ.
(MHz) 1 2 3 4 5 6 7
*5230.00
*5230.00 5350.00 5350.00
#10460.00 15690.00 15690.00 REMARKS:
1. Emission Level(dBuV/m) = Raw Value(dBuV) + Correction Factor(dB/m) 2. Correction Factor(dB/m) = Antenna Factor(dB/m) + Cable Factor(dB) Pre-Amplifier Factor(dB) 3. The other emission levels were very low against the limit. 4. Margin value = Emission Level Limit value 5. " * ": Fundamental frequency. 6. " # ": The radiated frequency is out of the restricted band. Report No.: RF181004C17-1 Page No. 35 / 72 Report Format Version:6.1.2 CHANNEL TX Channel 151 FREQUENCY RANGE 1GHz ~ 40GHz DETECTOR FUNCTION Peak (PK) Average (AV) 68.2
(dB)
-15.6 LIMIT MARGIN
(dBuV/m) 68.2 74.0 54.0 68.2 ANTENNA HEIGHT
-15.3
-24.2
-15.3
-15.4 TABLE ANGLE
(Degree) 337 337 337 337 196 196 105
(m) 1.57 H 1.57 H 1.57 H 1.57 H 1.67 H 1.67 H 3.00 H ANTENNA POLARITY & TEST DISTANCE: HORIZONTAL AT 3 M RAW EMISSION VALUE LEVEL
(dBuV)
(dBuV/m) 49.9 52.6 PK 102.7 105.7 PK 91.8 94.8 AV 49.7 52.9 PK 37.5 49.8 PK 26.4 38.7 AV 37.4 52.8 PK ANTENNA POLARITY & TEST DISTANCE: VERTICAL AT 3 M RAW EMISSION VALUE
(dBuV) 49.0 92.4 83.4 49.0 37.5 26.6 36.6 LEVEL
(dBuV/m) 51.8 PK 95.4 PK 86.4 AV 52.2 PK 49.8 PK 38.9 AV 52.0 PK
(m) 2.75 V 2.75 V 2.75 V 2.75 V 2.69 V 2.69 V 2.30 V 278 278 278 278 184 184 243 TABLE ANGLE
(Degree)
-16.0
-24.2
-15.1
-16.2 ANTENNA HEIGHT 68.2 74.0 54.0 68.2
(dBuV/m) MARGIN LIMIT
-16.4
(dB) 68.2 CORRECTION FACTOR
(dB/m) 2.7 3.0 3.0 3.2 12.3 12.3 15.4 CORRECTION FACTOR
(dB/m) 2.8 3.0 3.0 3.2 12.3 12.3 15.4 NO. FREQ.
(MHz) 1 2 3 4 5 6 7
#5643.57
*5755.00
*5755.00
#5986.05 11510.00 11510.00
#17265.00 NO. FREQ.
(MHz) 1 2 3 4 5 6 7
#5629.32
*5755.00
*5755.00
#5957.07 11510.00 11510.00
#17265.00 REMARKS:
1. Emission Level(dBuV/m) = Raw Value(dBuV) + Correction Factor(dB/m) 2. Correction Factor(dB/m) = Antenna Factor(dB/m) + Cable Factor(dB) Pre-Amplifier Factor(dB) 3. The other emission levels were very low against the limit. 4. Margin value = Emission Level Limit value 5. " * ": Fundamental frequency. 6. " # ": The radiated frequency is out of the restricted band. Report No.: RF181004C17-1 Page No. 36 / 72 Report Format Version:6.1.2 CHANNEL TX Channel 159 FREQUENCY RANGE 1GHz ~ 40GHz DETECTOR FUNCTION Peak (PK) Average (AV) 68.2
(dB)
-15.2 LIMIT MARGIN
(dBuV/m) 68.2 74.0 54.0 68.2 ANTENNA HEIGHT
-15.5
-24.7
-15.7
-15.8 TABLE ANGLE
(Degree) 338 338 338 338 216 216 89
(m) 1.55 H 1.55 H 1.55 H 1.55 H 1.69 H 1.69 H 3.06 H ANTENNA POLARITY & TEST DISTANCE: HORIZONTAL AT 3 M RAW EMISSION VALUE LEVEL
(dBuV)
(dBuV/m) 50.2 53.0 PK 103.0 106.0 PK 92.2 95.2 AV 49.5 52.7 PK 36.9 49.3 PK 25.9 38.3 AV 36.2 52.4 PK ANTENNA POLARITY & TEST DISTANCE: VERTICAL AT 3 M RAW EMISSION VALUE
(dBuV) 48.6 91.8 82.8 49.0 37.8 26.7 36.4 LEVEL
(dBuV/m) 51.4 PK 94.8 PK 85.8 AV 52.2 PK 50.2 PK 39.1 AV 52.6 PK
(m) 2.80 V 2.80 V 2.80 V 2.80 V 2.63 V 2.63 V 2.32 V 276 276 276 276 185 185 264 TABLE ANGLE
(Degree)
-16.0
-23.8
-14.9
-15.6 ANTENNA HEIGHT 68.2 74.0 54.0 68.2
(dBuV/m) MARGIN LIMIT
-16.8
(dB) 68.2 CORRECTION FACTOR
(dB/m) 2.8 3.0 3.0 3.2 12.4 12.4 16.2 CORRECTION FACTOR
(dB/m) 2.8 3.0 3.0 3.2 12.4 12.4 16.2 NO. FREQ.
(MHz) 1 2 3 4 5 6 7
#5608.43
*5795.00
*5795.00
#5949.00 11590.00 11590.00
#17385.00 NO. FREQ.
(MHz) 1 2 3 4 5 6 7
#5586.10
*5795.00
*5795.00
#5999.35 11590.00 11590.00
#17385.00 REMARKS:
1. Emission Level(dBuV/m) = Raw Value(dBuV) + Correction Factor(dB/m) 2. Correction Factor(dB/m) = Antenna Factor(dB/m) + Cable Factor(dB) Pre-Amplifier Factor(dB) 3. The other emission levels were very low against the limit. 4. Margin value = Emission Level Limit value 5. " * ": Fundamental frequency. 6. " # ": The radiated frequency is out of the restricted band. Report No.: RF181004C17-1 Page No. 37 / 72 Report Format Version:6.1.2 802.11ac (VHT80) CHANNEL TX Channel 42 FREQUENCY RANGE 1GHz ~ 40GHz DETECTOR FUNCTION Peak (PK) Average (AV) NO. FREQ.
(MHz) 1 2 3 4 5 6 7 8 9 5150.00 5150.00
*5210.00
*5210.00 5350.00 5350.00
#10420.00 15630.00 15630.00 NO. FREQ.
(MHz) 1 2 3 4 5 6 7 8 9 5150.00 5150.00
*5210.00
*5210.00 5350.00 5350.00
#10420.00 15630.00 15630.00 REMARKS:
(dB) LIMIT MARGIN 74.0 54.0
(dBuV/m)
-23.5
-14.3 ANTENNA HEIGHT 74.0 54.0 68.2 74.0 54.0 TABLE ANGLE
(Degree)
-23.1
-14.2
-18.1
-21.4
-12.8 350 350 350 350 350 350 225 94 94
(m) 1.30 H 1.30 H 1.30 H 1.30 H 1.30 H 1.30 H 1.70 H 3.04 H 3.04 H ANTENNA POLARITY & TEST DISTANCE: HORIZONTAL AT 3 M EMISSION RAW VALUE LEVEL
(dBuV)
(dBuV/m) 47.9 50.5 PK 37.1 39.7 AV 98.8 101.2 PK 88.8 91.2 AV 48.6 50.9 PK 37.5 39.8 AV 37.9 50.1 PK 39.9 52.6 PK 41.2 AV 28.5 ANTENNA POLARITY & TEST DISTANCE: VERTICAL AT 3 M RAW EMISSION VALUE
(dBuV) 46.9 35.5 88.9 81.3 48.2 37.0 37.9 39.4 28.0 LEVEL
(dBuV/m) 49.5 PK 38.1 AV 91.3 PK 83.7 AV 50.5 PK 39.3 AV 50.1 PK 52.1 PK 40.7 AV
(m) 3.08 V 3.08 V 3.08 V 3.08 V 3.08 V 3.08 V 2.70 V 2.20 V 2.20 V 270 270 270 270 270 270 168 264 264
-23.5
-14.7
-18.1
-21.9
-13.3 TABLE ANGLE
(Degree) 74.0 54.0 68.2 74.0 54.0 ANTENNA HEIGHT
-24.5
-15.9
(dBuV/m) 74.0 54.0 MARGIN LIMIT
(dB) CORRECTION FACTOR
(dB/m) 2.6 2.6 2.4 2.4 2.3 2.3 12.2 12.7 12.7 CORRECTION FACTOR
(dB/m) 2.6 2.6 2.4 2.4 2.3 2.3 12.2 12.7 12.7 1. Emission Level(dBuV/m) = Raw Value(dBuV) + Correction Factor(dB/m) 2. Correction Factor(dB/m) = Antenna Factor(dB/m) + Cable Factor(dB) Pre-Amplifier Factor(dB) 3. The other emission levels were very low against the limit. 4. Margin value = Emission Level Limit value 5. " * ": Fundamental frequency. 6. " # ": The radiated frequency is out of the restricted band. Report No.: RF181004C17-1 Page No. 38 / 72 Report Format Version:6.1.2 CHANNEL TX Channel 155 FREQUENCY RANGE 1GHz ~ 40GHz DETECTOR FUNCTION Peak (PK) Average (AV) 68.2
(dB)
-16.3 LIMIT MARGIN
(dBuV/m) 68.2 74.0 54.0 68.2 ANTENNA HEIGHT
-15.8
-24.2
-15.3
-15.5 TABLE ANGLE
(Degree) 340 340 340 340 211 211 99
(m) 1.27 H 1.27 H 1.27 H 1.27 H 1.65 H 1.65 H 3.02 H ANTENNA POLARITY & TEST DISTANCE: HORIZONTAL AT 3 M RAW EMISSION VALUE LEVEL
(dBuV)
(dBuV/m) 49.1 51.9 PK 98.7 101.7 PK 88.8 91.8 AV 49.2 52.4 PK 37.4 49.8 PK 26.3 38.7 AV 37.0 52.7 PK ANTENNA POLARITY & TEST DISTANCE: VERTICAL AT 3 M RAW EMISSION VALUE
(dBuV) 48.4 88.7 80.9 49.5 37.4 26.6 36.6 LEVEL
(dBuV/m) 51.2 PK 91.7 PK 83.9 AV 52.7 PK 49.8 PK 39.0 AV 52.3 PK
(m) 3.05 V 3.05 V 3.05 V 3.05 V 2.67 V 2.67 V 2.29 V 278 278 278 278 172 172 236 TABLE ANGLE
(Degree)
-15.5
-24.2
-15.0
-15.9 ANTENNA HEIGHT 68.2 74.0 54.0 68.2
(dBuV/m) MARGIN LIMIT
-17.0
(dB) 68.2 CORRECTION FACTOR
(dB/m) 2.8 3.0 3.0 3.2 12.4 12.4 15.7 CORRECTION FACTOR
(dB/m) 2.8 3.0 3.0 3.2 12.4 12.4 15.7 NO. FREQ.
(MHz) 1 2 3 4 5 6 7
#5583.73
*5775.00
*5775.00
#5981.77 11550.00 11550.00
#17325.00 NO. FREQ.
(MHz) 1 2 3 4 5 6 7
#5591.32
*5775.00
*5775.00
#6012.65 11550.00 11550.00
#17325.00 REMARKS:
1. Emission Level(dBuV/m) = Raw Value(dBuV) + Correction Factor(dB/m) 2. Correction Factor(dB/m) = Antenna Factor(dB/m) + Cable Factor(dB) Pre-Amplifier Factor(dB) 3. The other emission levels were very low against the limit. 4. Margin value = Emission Level Limit value 5. " * ": Fundamental frequency. 6. " # ": The radiated frequency is out of the restricted band. Report No.: RF181004C17-1 Page No. 39 / 72 Report Format Version:6.1.2 Below 1GHz Data:
802.11ac (VHT80) CHANNEL FREQUENCY RANGE 9kHz ~ 1GHz TX Channel 155 DETECTOR FUNCTION Quasi-Peak (QP) NO. FREQ.
(MHz) 1 2 3 4 5 6 42.17 164.49 222.93 322.38 540.73 800.45 REMARKS:
(dB) LIMIT MARGIN
(dBuV/m) ANTENNA HEIGHT ANTENNA POLARITY & TEST DISTANCE: HORIZONTAL AT 3 M RAW EMISSION VALUE
(dBuV) 37.7 44.7 39.6 32.5 30.2 30.1 LEVEL
(dBuV/m) 29.6 QP 36.6 QP 28.8 QP 26.4 QP 28.8 QP 33.8 QP
(m) 3.00 H 1.84 H 3.00 H 2.50 H 1.50 H 1.50 H
-10.4
-6.9
-17.2
-19.6
-17.2
-12.2 40.0 43.5 46.0 46.0 46.0 46.0 TABLE ANGLE
(Degree) 115 332 268 138 231 143 CORRECTION FACTOR
(dB/m)
-8.1
-8.1
-10.8
-6.1
-1.4 3.7 1. Emission Level(dBuV/m) = Raw Value(dBuV) + Correction Factor(dB/m) 2. Correction Factor(dB/m) = Antenna Factor(dB/m) + Cable Factor(dB) Pre-Amplifier Factor(dB) 3. Margin value = Emission Level Limit value 4. The emission levels were very low against the limit of frequency range 9kHz~30MHz: the amplitude of spurious emissions attenuated more than 20 dB below the permissible value to be report. Report No.: RF181004C17-1 Page No. 40 / 72 Report Format Version:6.1.2 CHANNEL FREQUENCY RANGE 9kHz ~ 1GHz TX Channel 155 DETECTOR FUNCTION Quasi-Peak (QP)
(dB) LIMIT MARGIN
(dBuV/m) ANTENNA HEIGHT ANTENNA POLARITY & TEST DISTANCE: VERTICAL AT 3 M RAW EMISSION VALUE
(dBuV) 46.8 45.7 32.2 30.6 31.0 29.1 LEVEL
(dBuV/m) 35.9 QP 37.4 QP 23.9 QP 27.5 QP 32.2 QP 32.6 QP
(m) 1.00 V 2.00 V 1.50 V 1.00 V 1.50 V 1.00 V
-4.1
-6.1
-22.1
-18.5
-13.8
-13.4 40.0 43.5 46.0 46.0 46.0 46.0 TABLE ANGLE
(Degree) 115 264 173 263 255 241 CORRECTION FACTOR
(dB/m)
-10.9
-8.3
-8.3
-3.1 1.2 3.5 NO. FREQ.
(MHz) 1 2 3 4 5 6 73.64 168.71 265.06 443.03 640.49 762.54 REMARKS:
1. Emission Level(dBuV/m) = Raw Value(dBuV) + Correction Factor(dB/m) 2. Correction Factor(dB/m) = Antenna Factor(dB/m) + Cable Factor(dB) Pre-Amplifier Factor(dB) 3. Margin value = Emission Level Limit value 4. The emission levels were very low against the limit of frequency range 9kHz~30MHz: the amplitude of spurious emissions attenuated more than 20 dB below the permissible value to be report. Report No.: RF181004C17-1 Page No. 41 / 72 Report Format Version:6.1.2 4.2 Conducted Emission Measurement 4.2.1 Limits of Conducted Emission Measurement Frequency (MHz) 0.15 - 0.5 0.50 - 5.0 5.0 - 30.0 Quasi-peak 66 - 56 56 60 Conducted Limit (dBuV) Average 56 - 46 46 50 Note: 1. The lower limit shall apply at the transition frequencies. 2. The limit decreases in line with the logarithm of the frequency in the range of 0.15 to 0.50MHz. 4.2.2 Test Instruments DESCRIPTION &
MANUFACTURER Test Receiver R&S Line-Impedance Stabilization Network (for EUT) R&S Line-Impedance Stabilization Network
(for Peripheral) R&S 50 ohms Terminator RF Cable Fixed attenuator EMCI Software BVADT Note:
MODEL NO. SERIAL NO. ESCS 30 847124/029 CALIBRATED DATE Oct. 24, 2018 CALIBRATED UNTIL Oct. 23, 2019 ESH3-Z5 848773/004 Nov. 15, 2017 Nov. 14, 2018 ENV216 100072 June 04, 2018 June 03, 2019 N/A 5D-FB 3 COCCAB-001 Oct. 22, 2018 Sep. 28, 2018 Oct. 21, 2019 Sep. 27, 2019 STI02-2200-10 003 BVADT_Cond_ V7.3.7.4 NA Mar. 16, 2018 Mar. 15, 2019 NA NA 1. The calibration interval of the above test instruments are 12 months and the calibrations are traceable to NML/ROC and NIST/USA. 2. The test was performed in Conduction 1. 3. Tested Date: Nov. 08, 2018 Report No.: RF181004C17-1 Page No. 42 / 72 Report Format Version:6.1.2 4.2.3 Test Procedure a. The EUT was placed 0.4 meters from the conducting wall of the shielded room with EUT being connected to the power mains through a line impedance stabilization network (LISN). Other support units were connected to the power mains through another LISN. The two LISNs provide 50 ohm/ 50uH of coupling impedance for the measuring instrument. b. Both lines of the power mains connected to the EUT were checked for maximum conducted interference. c. The frequency range from 150kHz to 30MHz was searched. Emission levels under (Limit - 20dB) was not recorded. Note: All modes of operation were investigated and the worst-case emissions are reported. 4.2.4 Deviation from Test Standard No deviation. 4.2.5 Test Setup Vertical Ground Reference Plane Test Receiver 40cm EUT LISN 80cm Horizontal Ground Reference Plane Note: 1.Support units were connected to second LISN. For the actual test configuration, please refer to the attached file (Test Setup Photo). 4.2.6 EUT Operating Condition Same as 4.1.6. Report No.: RF181004C17-1 Page No. 43 / 72 Report Format Version:6.1.2 4.2.7 Test Results (Mode 1) Phase Line (L) Detector Function Quasi-Peak (QP) /
Average (AV) Corr. Factor
(dB) 10.03 10.03 10.04 10.04 10.05 10.10 10.28 Reading Value Emission Level
[dB (uV)]
[dB (uV)]
Limit
[dB (uV)]
Margin
(dB) Q.P. 37.44 38.43 35.93 33.13 30.65 22.22 13.30 AV. 11.27 11.60 9.34 8.02 4.52 6.41
-3.22 Q.P. 47.47 48.46 45.97 43.17 40.70 32.32 23.58 AV. 21.30 21.63 19.38 18.06 14.57 16.51 7.06 Q.P. 66.00 65.38 64.79 64.43 62.81 56.00 56.00 AV. 56.00 55.38 54.79 54.43 52.81 46.00 46.00 Q.P.
-18.53
-16.92
-18.82
-21.26
-22.11
-23.68
-32.42 AV.
-34.70
-33.75
-35.41
-36.37
-38.24
-29.49
-38.94 No 1 2 3 4 5 6 7 Freq.
[MHz]
0.15000 0.16172 0.17344 0.18125 0.22031 0.66563 3.41406 Remarks:
1. Q.P. and AV. are abbreviations of quasi-peak and average individually. 2. The emission levels of other frequencies were very low against the limit. 3. Margin value = Emission level Limit value 4. Correction factor = Insertion loss + Cable loss 5. Emission Level = Correction Factor + Reading Value Report No.: RF181004C17-1 Page No. 44 / 72 Report Format Version:6.1.2 Phase No 1 2 3 4 5 6 Neutral (N) Detector Function Quasi-Peak (QP) /
Average (AV) Freq.
[MHz]
0.16172 0.17734 0.20078 0.24766 0.66953 5.64844 Corr. Factor
(dB) 9.94 9.95 9.95 9.96 9.99 10.27 Reading Value Emission Level
[dB (uV)]
[dB (uV)]
Limit
[dB (uV)]
Margin
(dB) Q.P. 38.69 36.11 33.80 27.23 22.78 12.38 AV. 13.15 10.68 9.69 3.98 5.63
-3.68 Q.P. 48.63 46.06 43.75 37.19 32.77 22.65 AV. 23.09 20.63 19.64 13.94 15.62 6.59 Q.P. 65.38 64.61 63.58 61.84 56.00 60.00 AV. 55.38 54.61 53.58 51.84 46.00 50.00 Q.P.
-16.75
-18.55
-19.83
-24.65
-23.23
-37.35 AV.
-32.29
-33.98
-33.94
-37.90
-30.38
-43.41 Remarks:
1. Q.P. and AV. are abbreviations of quasi-peak and average individually. 2. The emission levels of other frequencies were very low against the limit. 3. Margin value = Emission level Limit value 4. Correction factor = Insertion loss + Cable loss 5. Emission Level = Correction Factor + Reading Value Report No.: RF181004C17-1 Page No. 45 / 72 Report Format Version:6.1.2 4.2.8 Test Results (Mode 2) Phase Line (L) Detector Function Quasi-Peak (QP) /
Average (AV) Corr. Factor
(dB) 10.02 10.04 10.05 10.08 10.10 10.20 Reading Value Emission Level
[dB (uV)]
[dB (uV)]
Limit
[dB (uV)]
Margin
(dB) Q.P. 34.41 31.64 31.20 20.27 18.25 15.02 AV. 19.47 20.13 14.57 11.64 6.31 9.68 Q.P. 44.43 41.68 41.25 30.35 28.35 25.22 AV. 29.49 30.17 24.62 21.72 16.41 19.88 Q.P. 66.00 63.91 61.45 56.00 56.00 56.00 AV. 56.00 53.91 51.45 46.00 46.00 46.00 Q.P.
-21.57
-22.23
-20.20
-25.65
-27.65
-30.78 AV.
-26.51
-23.74
-26.83
-24.28
-29.59
-26.12 No 1 2 3 4 5 6 Freq.
[MHz]
0.15000 0.19297 0.25938 0.59141 0.80625 2.94531 Remarks:
1. Q.P. and AV. are abbreviations of quasi-peak and average individually. 2. The emission levels of other frequencies were very low against the limit. 3. Margin value = Emission level Limit value 4. Correction factor = Insertion loss + Cable loss 5. Emission Level = Correction Factor + Reading Value Report No.: RF181004C17-1 Page No. 46 / 72 Report Format Version:6.1.2 Phase No 1 2 3 4 5 6 Neutral (N) Detector Function Quasi-Peak (QP) /
Average (AV) Freq.
[MHz]
0.15000 0.17734 0.19687 0.25156 0.58359 0.79844 Corr. Factor
(dB) 9.93 9.94 9.94 9.95 9.97 9.98 Reading Value Emission Level
[dB (uV)]
[dB (uV)]
Limit
[dB (uV)]
Margin
(dB) Q.P. 35.15 32.94 40.50 31.93 20.67 19.24 AV. 20.18 23.41 20.79 15.06 11.60 6.98 Q.P. 45.08 42.88 50.44 41.88 30.64 29.22 AV. 30.11 33.35 30.73 25.01 21.57 16.96 Q.P. 66.00 64.61 63.74 61.71 56.00 56.00 AV. 56.00 54.61 53.74 51.71 46.00 46.00 Q.P.
-20.92
-21.73
-13.30
-19.83
-25.36
-26.78 AV.
-25.89
-21.26
-23.01
-26.70
-24.43
-29.04 Remarks:
1. Q.P. and AV. are abbreviations of quasi-peak and average individually. 2. The emission levels of other frequencies were very low against the limit. 3. Margin value = Emission level Limit value 4. Correction factor = Insertion loss + Cable loss 5. Emission Level = Correction Factor + Reading Value Report No.: RF181004C17-1 Page No. 47 / 72 Report Format Version:6.1.2 4.3 Transmit Power Measurement 4.3.1 Limits of Transmit Power Measurement Operation Band U-NII-1 U-NII-2A U-NII-2C U-NII-3 EUT Category Limit Outdoor Access Point 1 Watt (30 dBm)
(Max. e.i.r.p 125mW(21 dBm) at any elevation angle above 30 degrees as measured from the horizon) Fixed point-to-point Access Point Indoor Access Point Client device 1 Watt (30 dBm) 1 Watt (30 dBm) 250mW (24 dBm) 250mW (24 dBm) or 11 dBm+10 log B*
250mW (24 dBm) or 11 dBm+10 log B*
1 Watt (30 dBm)
*B is the 26 dB emission bandwidth in megahertz Per KDB 662911 Method of conducted output power measurement on IEEE 802.11 devices, Array Gain = 0 dB (i.e., no array gain) for NANT 4;
Array Gain = 0 dB (i.e., no array gain) for channel widths 40 MHz for any NANT;
Array Gain = 5 log(NANT/NSS) dB or 3 dB, whichever is less for 20-MHz channel widths with NANT 5. EUT Attenuator Power Meter Power Sensor For power measurements on all other devices: Array Gain = 10 log(NANT/NSS) dB. 4.3.2 Test Setup 4.3.3 Test Instruments Refer to section 4.1.2 to get information of above instrument. 4.3.4 Test Procedure Method PM is used to perform output power measurement, trigger and gating function of wide band power meter is enabled to measure max output power of TX on burst. Duty factor is not added to measured value. 4.3.5 Deviation from Test Standard No deviation. 4.3.6 EUT Operating Condition The software provided by client to enable the EUT under transmission condition continuously at lowest, middle and highest channel frequencies individually. Report No.: RF181004C17-1 Page No. 48 / 72 Report Format Version:6.1.2 4.3.7 Test Results 802.11a Chan. 36 40 48 149 157 165 Chan. Freq.
(MHz) 5180 5200 5240 5745 5785 5825 802.11ac (VHT20) Chan. 36 40 48 149 157 165 Chan. Freq.
(MHz) 5180 5200 5240 5745 5785 5825 802.11ac (VHT40) Chan. 38 46 151 159 Chan. Freq.
(MHz) 5190 5230 5755 5795 802.11ac (VHT80) Chan. Freq.
(MHz) 5210 5775 Chan. 42 155 Report No.: RF181004C17-1 Total Power
(mW) 19.056 19.343 19.255 18.816 18.86 18.795 Total Power
(mW) 19.122 19.1 19.1 19.012 18.946 18.859 Total Power
(mW) 19.255 19.388 18.947 18.881 Total Power
(mW) 19.455 19.455 Total Power
(dBm) 12.80 12.87 12.85 12.75 12.76 12.74 Total Power
(dBm) 12.82 12.81 12.81 12.79 12.78 12.76 Total Power
(dBm) 12.85 12.88 12.78 12.76 Total Power
(dBm) 12.89 12.89 Limit
(dBm) Pass / Fail 30 30 30 30 30 30 Pass Pass Pass Pass Pass Pass Limit
(dBm) Pass / Fail 30 30 30 30 30 30 Pass Pass Pass Pass Pass Pass Limit
(dBm) Pass / Fail 30 30 30 30 Pass Pass Pass Pass Limit
(dBm) Pass / Fail 30 30 Pass Pass Maximum Conducted (dBm) Chain 0 Chain 1 9.81 9.88 9.86 9.76 9.74 9.77 9.77 9.83 9.81 9.71 9.75 9.69 Maximum Conducted (dBm) Chain 0 Chain 1 9.83 9.77 9.79 9.79 9.77 9.73 9.78 9.83 9.81 9.77 9.76 9.76 Maximum Conducted (dBm) Chain 0 Chain 1 9.82 9.87 9.78 9.73 9.85 9.86 9.75 9.77 Maximum Conducted (dBm) Chain 1 9.89 9.89 Chain 0 9.87 9.87 Page No. 49 / 72 Report Format Version:6.1.2 4.4 Occupied Bandwidth Measurement 4.4.1 Test Setup 4.4.2 Test Instruments EUT Attenuator Spectrum Analyzer Refer to section 4.1.2 to get information of above instrument. 4.4.3 Test Procedure The transmitter output was connected to the spectrum analyzer through an attenuator. The bandwidth of the fundamental frequency was measured by spectrum analyzer with resolution bandwidth in the range of 1% to 5% of the anticipated emission bandwidth, and a video bandwidth at least 3x the resolution bandwidth and set the detector to SAMPLE. The width of a frequency band such that, below the lower and above the upper frequency limits, the mean powers emitted are each equal to a specified percentage 0.5 %of the total mean power of a given emission. Report No.: RF181004C17-1 Page No. 50 / 72 Report Format Version:6.1.2 4.4.4 Test Results 802.11a Channel Channel Frequency
(MHz) 36 40 48 149 157 165 5180 5200 5240 5745 5785 5825 802.11ac (VHT20) Channel Channel Frequency
(MHz) 36 40 48 149 157 165 5180 5200 5240 5745 5785 5825 802.11ac (VHT40) Channel Channel Frequency
(MHz) 38 46 151 159 5190 5230 5755 5795 802.11ac (VHT80) Channel 42 155 Channel Frequency
(MHz) 5210 5775 Occupied Bandwidth (MHz) Chain 0 16.56 16.56 16.44 16.44 16.56 16.56 Chain 1 16.56 16.56 16.56 16.44 16.44 16.44 Occupied Bandwidth (MHz) Chain 0 17.76 17.76 17.64 17.76 17.64 17.76 Chain 1 17.76 17.64 17.64 17.76 17.64 17.64 Occupied Bandwidth (MHz) Chain 0 36.00 36.00 35.76 36.24 Chain 1 36.00 36.00 35.76 36.00 Occupied Bandwidth (MHz) Chain 0 75.84 76.32 Chain 1 75.84 75.84 Report No.: RF181004C17-1 Page No. 51 / 72 Report Format Version:6.1.2 802.11a_Chain 0 / CH48 802.11ac (VHT20)_Chain 0 / CH48 Spectrum Plot of Max. Value 802.11ac (VHT80)_Chain 0 / CH42 802.11ac (VHT40)_Chain 0 / CH151 Report No.: RF181004C17-1 Page No. 52 / 72 Report Format Version:6.1.2 Spectrum Plot for near by DFS band
(DFS is required, if 99% OCP straddle into U-NII-2A band) 802.11a_Chain0 / CH48 802.11a_Chain1 / CH48 802.11ac (VHT20)_Chain0 / CH48 802.11ac (VHT40)_Chain0 / CH46 802.11ac (VHT80)_Chain0 / CH42 Report No.: RF181004C17-1 802.11ac (VHT20)_Chain1 / CH48 802.11ac (VHT40)_Chain1 / CH46 802.11ac (VHT80)_Chain1 / CH42 Page No. 53 / 72 Report Format Version:6.1.2 Spectrum Plot for near by DFS band
(DFS is required, if 99% OCP straddle into U-NII-2C band) 802.11a_Chain0 / CH149 802.11a_Chain1 / CH149 802.11ac (VHT20)_Chain0 / CH149 802.11ac (VHT20)_Chain1 / CH149 802.11ac (VHT40)_Chain0 / CH151 802.11ac (VHT40)_Chain1 / CH151 802.11ac (VHT80)_Chain1 / CH155 802.11ac (VHT80)_Chain0 / CH155 Report No.: RF181004C17-1 Page No. 54 / 72 Report Format Version:6.1.2 4.5 Peak Power Spectral Density Measurement 4.5.1 Limits of Peak Power Spectral Density Measurement Operation Band U-NII-1 EUT Category Outdoor Access Point Fixed point-to-point Access Point Indoor Access Point Client device U-NII-2A U-NII-2C U-NII-3 Limit 17dBm/ MHz 11dBm/ MHz 11dBm/ MHz 11dBm/ MHz 30dBm/ 500kHz EUT 4.5.2 Test Setup 4.5.3 Test Instruments Refer to section 4.1.2 to get information of above instrument. Attenuator Spectrum Analyzer Report No.: RF181004C17-1 Page No. 55 / 72 Report Format Version:6.1.2 4.5.4 Test Procedure For U-NII-1 band:
For 802.11ac (VHT20) Using method SA-1 1. Set span to encompass the entire emission bandwidth (EBW) of the signal. 2. Set RBW = 1 MHz, Set VBW 3 MHz, Detector = RMS 3. Sweep time = auto, trigger set to free run. 4. Trace average at least 100 traces in power averaging mode. 5. Record the max value For 802.11a, 802.11ac (VHT40) & 802.11ac (VHT80) Using method SA-2 1. Set span to encompass the entire emission bandwidth (EBW) of the signal. 2. Set RBW = 1 MHz, Set VBW 3 MHz, Detector = RMS 3. Sweep time = auto, trigger set to free run. 4. Trace average at least 100 traces in power averaging mode. 5. Record the max value and add 10 log (1/duty cycle) For U-NII-3:
For 802.11ac (VHT20) 1. Set span to encompass the entire emission bandwidth (EBW) of the signal. 2. Set RBW = 300 kHz, Set VBW 1 MHz, Detector = RMS 3. Use the peak marker function to determine the maximum power level in any 300 kHz band segment within the fundamental EBW. 4. Scale the observed power level to an equivalent value in 500 kHz by adjusting (reducing) the measured power by a bandwidth correction factor (BWCF) where BWCF = 10log(500kHz/300kHz) 5. Sweep time = auto, trigger set to free run. 6. Trace average at least 100 traces in power averaging mode. 7. Record the max value For 802.11a, 802.11ac (VHT40) & 802.11ac (VHT80) 1. Set span to encompass the entire emission bandwidth (EBW) of the signal. 2. Set RBW = 300 kHz, Set VBW 1 MHz, Detector = RMS 3. Use the peak marker function to determine the maximum power level in any 300 kHz band segment within the fundamental EBW. 4. Scale the observed power level to an equivalent value in 500 kHz by adjusting (reducing) the measured power by a bandwidth correction factor (BWCF) where BWCF = 10log(500kHz/300kHz) 5. Sweep time = auto, trigger set to free run. 6. Trace average at least 100 traces in power averaging mode. 7. Record the max value and add 10 log (1/duty cycle) 4.5.5 Deviation from Test Standard No deviation. 4.5.6 EUT Operating Condition Same as Item 4.3.6. Report No.: RF181004C17-1 Page No. 56 / 72 Report Format Version:6.1.2 4.5.7 Test Results For U-NII-1:
802.11a Chan. 36 40 48 Chan. Freq.
(MHz) 5180 5200 5240 PSD W/O Duty Factor (dBm/MHz) Chain 0 Chain 1
-3.73
-3.19
-2.83
-3.27
-3.11
-2.94 Duty Factor
(dB) 0.15 0.15 0.15 Total PSD With Duty Factor
(dBm/MHz) Max. Limit
(dBm/MHz) Pass /
Fail
-0.33 0.01 0.28 17 17 17 Pass Pass Pass Note: 1. Method a) of power density measurement of KDB 662911 is using for calculating total power density. Total power density is summing entire spectra across corresponding frequency bins on the various outputs by computer. 2. The Directional gain = 2.59dBi + 10log(2) = 5.6dBi < 6dBi , so the power density limit shall not be reduced. 3. Refer to section 3.3 for duty cycle spectrum plot. Chan. 802.11ac (VHT20) Chan. Freq.
(MHz) 5180 5200 5240 36 40 48 PSD (dBm/MHz) Chain 0
-3.40
-3.76
-3.30 Chain 1
-3.71
-3.19
-3.23 Total Power Density
(dBm/MHz)
-0.54
-0.46
-0.25 Max. Limit
(dBm/MHz) Pass /
Fail 17 17 17 Pass Pass Pass Note: 1. Method a) of power density measurement of KDB 662911 is using for calculating total power density. Total power density is summing entire spectra across corresponding frequency bins on the various outputs by computer. 2. The Directional gain = 2.59dBi + 10log(2) = 5.6dBi < 6dBi , so the power density limit shall not be reduced. 802.11ac (VHT40) Chan. 38 46 Chan. Freq.
(MHz) 5190 5230 PSD W/O Duty Factor (dBm/MHz) Chain 0
-5.78
-5.84 Chain 1
-6.19
-5.88 Duty Factor
(dB) 0.12 0.12 Total PSD With Duty Factor
(dBm/MHz) Max. Limit
(dBm/MHz) Pass /
Fail
-2.85
-2.73 17 17 Pass Pass Note: 1. Method a) of power density measurement of KDB 662911 is using for calculating total power density. Total power density is summing entire spectra across corresponding frequency bins on the various outputs by computer. 2. The Directional gain = 2.59dBi + 10log(2) = 5.6dBi < 6dBi , so the power density limit shall not be reduced. 3. Refer to section 3.3 for duty cycle spectrum plot. Report No.: RF181004C17-1 Page No. 57 / 72 Report Format Version:6.1.2 802.11ac (VHT80) Chan. 42 Chan. Freq.
(MHz) 5210 PSD W/O Duty Factor (dBm/MHz) Chain 0
-9.64 Chain 1
-9.61 Duty Factor
(dB) 0.24 Max. Limit
(dBm/MHz) Pass /
Fail Total PSD With Duty Factor
(dBm/MHz)
-6.38 17 Pass Note: 1. Method a) of power density measurement of KDB 662911 is using for calculating total power density. Total power density is summing entire spectra across corresponding frequency bins on the various outputs by computer. 2. The Directional gain = 2.59dBi + 10log(2) = 5.6dBi < 6dBi , so the power density limit shall not be reduced. 3. Refer to section 3.3 for duty cycle spectrum plot. Report No.: RF181004C17-1 Page No. 58 / 72 Report Format Version:6.1.2 802.11a_Chain 0 / CH48 802.11ac (VHT20)_Chain 1 / CH40 Spectrum Plot of Worst Value 802.11ac (VHT80)_Chain 1 / CH42 802.11ac (VHT40)_Chain 0 / CH38 Report No.: RF181004C17-1 Page No. 59 / 72 Report Format Version:6.1.2 For U-NII-3:
802.11a Chan. Freq.
(MHz) 149 157 165 5745 5785 5825 PSD W/O Duty Factor (dBm/300kHz) Chain 0
-11.64
-12.02
-11.39 Chain 1
-10.85
-11.08
-11.01 Duty Factor
(dB) 0.15 0.15 0.15 Total PSD With Duty Factor dBm/
mW/
300kHz
-8.07
-8.37
-8.04 300kHz 0.15598 0.14565 0.15711 Total PSD With Duty Factor
(dBm/500kHz)
-5.85
-6.15
-5.82 Limit
(dBm/
500kHz) Pass
/Fail 30.00 Pass 30.00 Pass 30.00 Pass Note: 1. Method b) Measure and sum spectral maxima across the outputs of KDB 662911 is using for calculating total 2. The Directional gain = 2.59dBi + 10log(2) = 5.6dBi < 6dBi , so the power density limit shall not be power density. reduced. 3. Refer to section 3.3 for duty cycle spectrum plot. 802.11ac (VHT20) Chan. 149 157 165 Freq.
(MHz) 5745 5785 5825 PSD (dBm/300kHz) Total PSD Chain 0
-12.00
-11.20
-11.84 Chain 1
-11.89
-11.46
-10.94 mW/
300kHz 0.12781 0.14731 0.146 dBm/
300kHz
-8.93
-8.32
-8.36 Total PSD
(dBm/500kHz)
-6.71
-6.10
-6.14 Pass
/Fail Limit
(dBm/
500kHz) 30.00 Pass 30.00 Pass 30.00 Pass Note: 1. Method b) Measure and sum spectral maxima across the outputs of KDB 662911 is using for calculating total 2. The Directional gain = 2.59dBi + 10log(2) = 5.6dBi < 6dBi , so the power density limit shall not be power density. reduced. Report No.: RF181004C17-1 Page No. 60 / 72 Report Format Version:6.1.2 802.11ac (VHT40) Chan. Freq.
(MHz) 151 159 5755 5795 PSD W/O Duty Factor
(dBm/300kHz) Chain 0
-14.59
-14.45 Chain 1
-14.61
-14.58 Duty Factor
(dB) 0.12 0.12 Total PSD With Duty Factor mW/
dBm/
300kHz
-11.47
-11.39 300kHz 0.07122 0.07263 Total PSD With Duty Factor
(dBm/500kHz) Limit
(dBm/
500kHz) Pass
/Fail
-9.25
-9.17 30.00 Pass 30.00 Pass Note: 1. Method b) Measure and sum spectral maxima across the outputs of KDB 662911 is using for calculating total 2. The Directional gain = 2.59dBi + 10log(2) = 5.6dBi < 6dBi , so the power density limit shall not be power density. reduced. 3. Refer to section 3.3 for duty cycle spectrum plot. 802.11ac (VHT80) Chan. Freq.
(MHz) PSD W/O Duty Factor
(dBm/300kHz) Chain 0 Chain 1 Duty Factor
(dB) 155 5775
-17.73
-17.74 0.24 Total PSD With Duty Factor mW/
dBm/
300kHz
-14.49 300kHz 0.03559 Total PSD With Duty Factor
(dBm/500kHz) Limit
(dBm/
500kHz) Pass
/Fail
-12.27 30.00 Pass Note: 1. Method b) Measure and sum spectral maxima across the outputs of KDB 662911 is using for calculating total 2. The Directional gain = 2.59dBi + 10log(2) = 5.6dBi < 6dBi , so the power density limit shall not be power density. reduced. 3. Refer to section 3.3 for duty cycle spectrum plot. Report No.: RF181004C17-1 Page No. 61 / 72 Report Format Version:6.1.2 802.11a_Chain 1 / CH149 802.11ac (VHT20)_Chain 1 / CH165 Spectrum Plot of Worst Value 802.11ac (VHT80)_Chain 0 / CH155 802.11ac (VHT40)_Chain 0 / CH159 Report No.: RF181004C17-1 Page No. 62 / 72 Report Format Version:6.1.2 4.6 Frequency Stability Measurement 4.6.1 Limits of Frequency Stability Measurement The frequency of the carrier signal shall be maintained within band of operation Spectrum Analyzer Temperature Chamber 4.6.2 Test Setup 4.6.3 Test Instruments Refer to section 4.1.2 to get information of above instrument. DC Power Supply 4.6.4 Test Procedure a. The EUT was placed inside the environmental test chamber and powered by nominal DC voltage. b. Turn the EUT on and couple its output to a spectrum analyzer. c. Turn the EUT off and set the chamber to the highest temperature specified. d. Allow sufficient time (approximately 30 min) for the temperature of the chamber to stabilize, turn the EUT on and measure the operating frequency after 2, 5, and 10 Minutes. e. Repeat step 2 and 3 with the temperature chamber set to the lowest temperature. f. The test chamber was allowed to stabilize at +20 degree C for a minimum of 30 Minutes. The supply voltage was then adjusted on the EUT from 85% to 115% and the frequency record. 4.6.5 Deviation from Test Standard No deviation. 4.6.6 EUT Operating Condition Set the EUT transmit at un-modulation mode to test frequency stability. Report No.: RF181004C17-1 Page No. 63 / 72 Report Format Version:6.1.2 4.6.7 Test Results Frequency Stability Versus Temp. Operating Frequency: 5180 MHz TEMP.
() Power Supply
(Vdc) 3.7 3.7 3.7 3.7 3.7 3.7 3.7 3.7 3.7 50 40 30 20 10 0
-10
-20
-30 0 Minute 2 Minutes 5 Minutes 10 Minutes Measured Frequency
(MHz) 5180.0118 5179.9983 5179.9778 5179.9905 5180.0027 5180.01 5180.0092 5180.0005 5180.0105 Pass/Fail PASS PASS PASS PASS PASS PASS PASS PASS PASS Measured Frequency
(MHz) 5180.0094 5179.999 5179.9799 5179.9862 5180.0018 5180.0118 5180.0057 5180.0042 5180.0133 Pass/Fail PASS PASS PASS PASS PASS PASS PASS PASS PASS Measured Frequency
(MHz) 5180.0111 5180.0017 5179.9809 5179.9891 5180.002 5180.0133 5180.01 5180.0021 5180.0128 Pass/Fail PASS PASS PASS PASS PASS PASS PASS PASS PASS Measured Frequency
(MHz) 5180.01 5179.9996 5179.9779 5179.9867 5180.0018 5180.0139 5180.0062 5180.0044 5180.01 Pass/Fail PASS PASS PASS PASS PASS PASS PASS PASS PASS Frequency Stability Versus Voltage Operating Frequency: 5180 MHz TEMP.
() Power Supply
(Vdc) 0 Minute 2 Minutes 5 Minutes 10 Minutes Measured Frequency
(MHz) Pass/Fail Measured Frequency
(MHz) Pass/Fail Measured Frequency
(MHz) Pass/Fail Measured Frequency
(MHz) Pass/Fail 4.255 5179.9896 PASS 5179.9853 PASS 5179.9893 PASS 5179.9858 PASS 20 3.7 5179.9905 PASS 5179.9862 PASS 5179.9891 PASS 5179.9867 PASS 3.145 5179.9904 PASS 5179.9861 PASS 5179.9888 PASS 5179.9871 PASS Report No.: RF181004C17-1 Page No. 64 / 72 Report Format Version:6.1.2 6dB Bandwidth Measurement 4.7 4.7.1 Limits of 6dB Bandwidth Measurement EUT The minimum of 6dB Bandwidth Measurement is 0.5MHz. 4.7.2 Test Setup 4.7.3 Test Instruments Refer to section 4.1.2 to get information of above instrument. 4.7.4 Test Procedure MEASUREMENT PROCEDURE REF Attenuator Spectrum Analyzer a. Set resolution bandwidth (RBW) = 100kHz b. Set the video bandwidth (VBW) 3 x RBW, Detector = Peak. c. Trace mode = max hold. d. Sweep = auto couple. e. Measure the maximum width of the emission that is constrained by the frequencies associated with the two amplitude points (upper and lower) that are attenuated by 6 dB relative to the maximum level measured in the fundamental emission 4.7.5 Deviation from Test Standard No deviation. 4.7.6 EUT Operating Condition The software provided by client to enable the EUT under transmission condition continuously at lowest, middle and highest channel frequencies individually. Report No.: RF181004C17-1 Page No. 65 / 72 Report Format Version:6.1.2 4.7.7 Test Results 802.11a Channel Frequency
(MHz) 149 157 165 5745 5785 5825 802.11ac (VHT20) Channel Frequency
(MHz) 149 157 165 5745 5785 5825 802.11ac (VHT40) Channel Frequency
(MHz) 151 159 5755 5795 802.11ac (VHT80) Channel Frequency
(MHz) 155 5775 6dB Bandwidth (MHz) Chain 0 15.77 16.34 16.34 Chain 1 15.93 16.32 16.38 Minimum Limit
(MHz) Pass / Fail 0.5 0.5 0.5 Pass Pass Pass 6dB Bandwidth (MHz) Chain 0 17.62 15.99 17.56 Chain 1 17.62 15.98 16.17 Minimum Limit
(MHz) Pass / Fail 0.5 0.5 0.5 Pass Pass Pass 6dB Bandwidth (MHz) Chain 0 35.22 35.13 Chain 1 35.28 35.26 Minimum Limit
(MHz) Pass / Fail 0.5 0.5 Pass Pass 6dB Bandwidth (MHz) Chain 0 75.98 Chain 1 75.98 Minimum Limit
(MHz) Pass / Fail 0.5 Pass Report No.: RF181004C17-1 Page No. 66 / 72 Report Format Version:6.1.2 802.11a_Chain 0 / CH149 802.11ac (VHT20)_Chain 1 / CH157 Spectrum Plot of Worst Value 802.11ac (VHT80)_Chain 0 / CH155 802.11ac (VHT40)_Chain 0 / CH159 Report No.: RF181004C17-1 Page No. 67 / 72 Report Format Version:6.1.2 5 Pictures of Test Arrangements Please refer to the attached file (Test Setup Photo). Report No.: RF181004C17-1 Page No. 68 / 72 Report Format Version:6.1.2 Annex A- Radiated Out of Band Emission (OOBE) Measurement (For U-NII-3 band) 802.11a CH 149 5745 MHz Horizontal Vertical CH 157 5785 MHz Horizontal CH 165 5825 MHz Horizontal Vertical Vertical Report No.: RF181004C17-1 Page No. 69 / 72 Report Format Version:6.1.2 802.11ac (VHT20) CH 149 5745 MHz Horizontal Vertical CH 157 5785 MHz Horizontal CH 165 5825 MHz Horizontal Vertical Vertical Report No.: RF181004C17-1 Page No. 70 / 72 Report Format Version:6.1.2 802.11ac (VHT40) CH 151 5755 MHz Horizontal Vertical CH 159 5795 MHz Horizontal 802.11ac (VHT80) CH 155 5775 MHz Horizontal Vertical Vertical Report No.: RF181004C17-1 Page No. 71 / 72 Report Format Version:6.1.2 Appendix Information on the Testing Laboratories We, Bureau Veritas Consumer Products Services (H.K.) Ltd., Taoyuan Branch, were founded in 1988 to provide our best service in EMC, Radio, Telecom and Safety consultation. Our laboratories are FCC recognized accredited test firms and accredited according to ISO/IEC 17025. If you have any comments, please feel free to contact us at the following:
Linkou EMC/RF Lab Tel: 886-2-26052180 Fax: 886-2-26051924 Hwa Ya EMC/RF/Safety Lab Tel: 886-3-3183232 Fax: 886-3-3270892 Email: service.adt@tw.bureauveritas.com Web Site: www.bureauveritas-adt.com Hsin Chu EMC/RF/Telecom Lab Tel: 886-3-6668565 Fax: 886-3-6668323 The address and road map of all our labs can be found in our web site also.
--- END ---
Report No.: RF181004C17-1 Page No. 72 / 72 Report Format Version:6.1.2
frequency | equipment class | purpose | ||
---|---|---|---|---|
1 | 2019-06-06 | 37649.52 ~ 39949.92 | 5GM - Part 30 Mobile Transmitter | Original Equipment |
2 | 2412 ~ 2462 | DTS - Digital Transmission System | ||
3 | 824.7 ~ 848.3 | PCB - PCS Licensed Transmitter | ||
4 | 5745 ~ 5825 | NII - Unlicensed National Information Infrastructure TX |
app s | Applicant Information | |||||
---|---|---|---|---|---|---|
1 2 3 4 | Effective |
2019-06-06
|
||||
1 2 3 4 | Applicant's complete, legal business name |
Netgear Incorporated
|
||||
1 2 3 4 | FCC Registration Number (FRN) |
0022158786
|
||||
1 2 3 4 | Physical Address |
350 East Plumeria Drive
|
||||
1 2 3 4 |
San Jose, California 95134
|
|||||
1 2 3 4 |
San Jose, 95134
|
|||||
1 2 3 4 |
San Jose, CA
|
|||||
1 2 3 4 |
United States
|
|||||
app s | TCB Information | |||||
1 2 3 4 | TCB Application Email Address |
T******@siemic.com
|
||||
1 2 3 4 | TCB Scope |
B4: Microwave, Millimeter Wave Band and Citizens Broadband Radio Services equipment in 47 CFR Parts 25, 30, 74, 90, 95, 96, 97, 101 (all above 3 GHz)
|
||||
1 2 3 4 |
A4: UNII devices & low power transmitters using spread spectrum techniques
|
|||||
1 2 3 4 |
B1: Commercial mobile radio services equipment in the following 47 CFR Parts 20, 22 (cellular), 24,25 (below 3 GHz) & 27
|
|||||
app s | FCC ID | |||||
1 2 3 4 | Grantee Code |
PY3
|
||||
1 2 3 4 | Equipment Product Code |
19100441
|
||||
app s | Person at the applicant's address to receive grant or for contact | |||||
1 2 3 4 | Name |
D****** K****
|
||||
1 2 3 4 | Telephone Number |
40889********
|
||||
1 2 3 4 | Fax Number |
40890********
|
||||
1 2 3 4 |
d******@netgear.com
|
|||||
app s | Technical Contact | |||||
n/a | ||||||
app s | Non Technical Contact | |||||
n/a | ||||||
app s | Confidentiality (long or short term) | |||||
1 2 3 4 | Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | Yes | ||||
1 2 3 4 | Long-Term Confidentiality Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | Yes | ||||
1 2 3 4 | If so, specify the short-term confidentiality release date (MM/DD/YYYY format) | 12/03/2019 | ||||
if no date is supplied, the release date will be set to 45 calendar days past the date of grant. | ||||||
app s | Cognitive Radio & Software Defined Radio, Class, etc | |||||
1 2 3 4 | Is this application for software defined/cognitive radio authorization? | No | ||||
1 2 3 4 | Equipment Class | 5GM - Part 30 Mobile Transmitter | ||||
1 2 3 4 | DTS - Digital Transmission System | |||||
1 2 3 4 | PCB - PCS Licensed Transmitter | |||||
1 2 3 4 | NII - Unlicensed National Information Infrastructure TX | |||||
1 2 3 4 | Description of product as it is marketed: (NOTE: This text will appear below the equipment class on the grant) | 5G MHS Travel Router | ||||
1 2 3 4 | Related OET KnowledgeDataBase Inquiry: Is there a KDB inquiry associated with this application? | Yes | ||||
1 2 3 4 | Modular Equipment Type | Does not apply | ||||
1 2 3 4 | Purpose / Application is for | Original Equipment | ||||
1 2 3 4 | Composite Equipment: Is the equipment in this application a composite device subject to an additional equipment authorization? | Yes | ||||
1 2 3 4 | Related Equipment: Is the equipment in this application part of a system that operates with, or is marketed with, another device that requires an equipment authorization? | No | ||||
1 2 3 4 | Grant Comments | Output power listed is EIRP. The highest averaged power density tested at 10mm for 5G NR is 7.43 W/m² and the highest total exposure ratio for simultaneous Tx (LTE+5G mmW NR+WLAN) is 0.82. | ||||
1 2 3 4 | Power output listed is conducted. Device contains 20/40MHz bandwidth. For hotspot operation, this device has been tested with a minimum of 10 mm from the body. Highest reported SAR for hotspot, and simultaneous transmission is: <0.10 W/kg and 1.21 W/kg respectively. | |||||
1 2 3 4 | Output power listed is ERP/EIRP. For hotspot operation, this device has been tested with a minimum of 10 mm from the body. Highest reported SAR for hotspot, and simultaneous transmission is: 1.16 W/kg and 1.28 W/kg respectively. | |||||
1 2 3 4 | Power output listed is conducted. Device contains 20/40/80MHz bandwidth. For hotspot operation, this device has been tested with a minimum of 10 mm from the body. Highest reported SAR for hotspot, and simultaneous transmission is: 0.13 W/kg and 1.28 W/kg respectively. | |||||
1 2 3 4 | Is there an equipment authorization waiver associated with this application? | No | ||||
1 2 3 4 | If there is an equipment authorization waiver associated with this application, has the associated waiver been approved and all information uploaded? | No | ||||
app s | Test Firm Name and Contact Information | |||||
1 2 3 4 | Firm Name |
Bureau Veritas CPS (H.K.) Ltd., Taoyuan Branch
|
||||
1 2 3 4 | Name |
K******** L******
|
||||
1 2 3 4 | Telephone Number |
+886-******** Extension:
|
||||
1 2 3 4 | Fax Number |
+886-********
|
||||
1 2 3 4 |
k******@tw.bureauveritas.com
|
|||||
Equipment Specifications | |||||||||||||||||||||||||||||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
1 | 1 | 3 | 37649.52 | 39949.92 | 0.166 | 0.001 ppm | 2M72G7D | ||||||||||||||||||||||||||||||||||
1 | 2 | 3 | 37649.52 | 39949.92 | 0.15 | 0.001 ppm | 94M5G7D | ||||||||||||||||||||||||||||||||||
1 | 3 | 3 | 37649.52 | 39949.92 | 0.145 | 0.001 ppm | 2M38D7W | ||||||||||||||||||||||||||||||||||
1 | 4 | 3 | 37649.52 | 39949.92 | 0.13 | 0.001 ppm | 94M6D7W | ||||||||||||||||||||||||||||||||||
1 | 5 | 3 | 37649.52 | 39949.92 | 0.095 | 0.001 ppm | 2M39D7W | ||||||||||||||||||||||||||||||||||
1 | 6 | 3 | 37649.52 | 39949.92 | 0.086 | 0.001 ppm | 95M0D7W | ||||||||||||||||||||||||||||||||||
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
2 | 1 | 15C | CC | 2412.00000000 | 2462.00000000 | 0.0580000 | |||||||||||||||||||||||||||||||||||
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
3 | 1 | 22H | 824.7 | 848.3 | 0.275 | 0.011 ppm | 1M09G7D | ||||||||||||||||||||||||||||||||||
3 | 2 | 22H | 824.7 | 848.3 | 0.229 | 0.011 ppm | 1M09D7W | ||||||||||||||||||||||||||||||||||
3 | 3 | 22H | 824.7 | 848.3 | 0.2 | 0.011 ppm | 1M09D7W | ||||||||||||||||||||||||||||||||||
3 | 4 | 22H | 825.5 | 847.5 | 0.263 | 0.011 ppm | 2M70G7D | ||||||||||||||||||||||||||||||||||
3 | 5 | 22H | 825.5 | 847.5 | 0.209 | 0.011 ppm | 2M79D7W | ||||||||||||||||||||||||||||||||||
3 | 6 | 22H | 825.5 | 847.5 | 0.186 | 0.011 ppm | 2M70D7W | ||||||||||||||||||||||||||||||||||
3 | 7 | 22H | 826.5 | 846.5 | 0.245 | 0.011 ppm | 4M50G7D | ||||||||||||||||||||||||||||||||||
3 | 8 | 22H | 826.5 | 846.5 | 0.234 | 0.011 ppm | 4M49D7W | ||||||||||||||||||||||||||||||||||
3 | 9 | 22H | 826.5 | 846.5 | 0.214 | 0.011 ppm | 4M49D7W | ||||||||||||||||||||||||||||||||||
3 | 1 | 22H | 829 | 844 | 0.257 | 0.01 ppm | 8M99G7D | ||||||||||||||||||||||||||||||||||
3 | 11 | 22H | 829 | 844 | 0.195 | 0.01 ppm | 8M99D7W | ||||||||||||||||||||||||||||||||||
3 | 12 | 22H | 829 | 844 | 0.174 | 0.01 ppm | 8M99D7W | ||||||||||||||||||||||||||||||||||
3 | 13 | 24E | 1850.7 | 1909.3 | 0.562 | 0.005 ppm | 1M09G7D | ||||||||||||||||||||||||||||||||||
3 | 14 | 24E | 1850.7 | 1909.3 | 0.457 | 0.005 ppm | 1M09D7W | ||||||||||||||||||||||||||||||||||
3 | 15 | 24E | 1850.7 | 1909.3 | 0.398 | 0.005 ppm | 1M09D7W | ||||||||||||||||||||||||||||||||||
3 | 16 | 24E | 1851.5 | 1908.5 | 0.617 | 0.005 ppm | 2M71G7D | ||||||||||||||||||||||||||||||||||
3 | 17 | 24E | 1851.5 | 1908.5 | 0.513 | 0.005 ppm | 2M70D7W | ||||||||||||||||||||||||||||||||||
3 | 18 | 24E | 1851.5 | 1908.5 | 0.447 | 0.005 ppm | 2M70D7W | ||||||||||||||||||||||||||||||||||
3 | 19 | 24E | 1852.5 | 1907.5 | 0.589 | 0.004 ppm | 4M49G7D | ||||||||||||||||||||||||||||||||||
3 | 2 | 24E | 1852.5 | 1907.5 | 0.457 | 0.004 ppm | 4M49D7W | ||||||||||||||||||||||||||||||||||
3 | 21 | 24E | 1852.5 | 1907.5 | 0.427 | 0.004 ppm | 4M49D7W | ||||||||||||||||||||||||||||||||||
3 | 22 | 24E | 1855 | 1905 | 0.55 | 0.005 ppm | 8M98G7D | ||||||||||||||||||||||||||||||||||
3 | 23 | 24E | 1855 | 1905 | 0.427 | 0.005 ppm | 8M98D7W | ||||||||||||||||||||||||||||||||||
3 | 24 | 24E | 1855 | 1905 | 0.38 | 0.005 ppm | 8M97D7W | ||||||||||||||||||||||||||||||||||
3 | 25 | 24E | 1857.5 | 1902.5 | 0.55 | 0.005 ppm | 13M5G7D | ||||||||||||||||||||||||||||||||||
3 | 26 | 24E | 1857.5 | 1902.5 | 0.447 | 0.005 ppm | 13M5D7W | ||||||||||||||||||||||||||||||||||
3 | 27 | 24E | 1857.5 | 1902.5 | 0.407 | 0.005 ppm | 13M5D7W | ||||||||||||||||||||||||||||||||||
3 | 28 | 24E | 1860 | 1900 | 0.589 | 0.005 ppm | 18M0G7D | ||||||||||||||||||||||||||||||||||
3 | 29 | 24E | 1860 | 1900 | 0.468 | 0.005 ppm | 18M0D7W | ||||||||||||||||||||||||||||||||||
3 | 3 | 24E | 1860 | 1900 | 0.407 | 0.005 ppm | 18M0D7W | ||||||||||||||||||||||||||||||||||
3 | 31 | 27 | 1710.7 | 1754.3 | 0.389 | 0.005 ppm | 1M09G7D | ||||||||||||||||||||||||||||||||||
3 | 32 | 27 | 1710.7 | 1754.3 | 0.309 | 0.005 ppm | 1M09D7W | ||||||||||||||||||||||||||||||||||
3 | 33 | 27 | 1710.7 | 1754.3 | 0.275 | 0.005 ppm | 1M09D7W | ||||||||||||||||||||||||||||||||||
3 | 34 | 27 | 1711.5 | 1753.5 | 0.363 | 0.005 ppm | 2M70G7D | ||||||||||||||||||||||||||||||||||
3 | 35 | 27 | 1711.5 | 1753.5 | 0.288 | 0.005 ppm | 2M70G7D | ||||||||||||||||||||||||||||||||||
3 | 36 | 27 | 1711.5 | 1752.5 | 0.263 | 0.005 ppm | 2M70D7W | ||||||||||||||||||||||||||||||||||
3 | 37 | 27 | 1712.5 | 1752.5 | 0.316 | 0.005 ppm | 4M49G7D | ||||||||||||||||||||||||||||||||||
3 | 38 | 27 | 1712.5 | 1752.5 | 0.251 | 0.005 ppm | 4M49D7W | ||||||||||||||||||||||||||||||||||
3 | 39 | 27 | 1712.5 | 1752.5 | 0.234 | 0.005 ppm | 4M49D7W | ||||||||||||||||||||||||||||||||||
3 | 4 | 27 | 1715 | 1750 | 0.372 | 0.005 ppm | 8M97G7D | ||||||||||||||||||||||||||||||||||
3 | 41 | 27 | 1715 | 1750 | 0.288 | 0.005 ppm | 8M97D7W | ||||||||||||||||||||||||||||||||||
3 | 42 | 27 | 1715 | 1750 | 0.263 | 0.005 ppm | 8M96D7W | ||||||||||||||||||||||||||||||||||
3 | 43 | 27 | 1717.5 | 1747.5 | 0.331 | 0.005 ppm | 13M5G7D | ||||||||||||||||||||||||||||||||||
3 | 44 | 27 | 1717.5 | 1747.5 | 0.257 | 0.005 ppm | 13M5D7W | ||||||||||||||||||||||||||||||||||
3 | 45 | 27 | 1717.5 | 1747.5 | 0.234 | 0.005 ppm | 13M5D7W | ||||||||||||||||||||||||||||||||||
3 | 46 | 27 | 1720 | 1745 | 0.38 | 0.005 ppm | 18M0G7D | ||||||||||||||||||||||||||||||||||
3 | 47 | 27 | 1720 | 1745 | 0.309 | 0.005 ppm | 18M0D7W | ||||||||||||||||||||||||||||||||||
3 | 48 | 27 | 1720 | 1745 | 0.275 | 0.005 ppm | 18M0D7W | ||||||||||||||||||||||||||||||||||
3 | 49 | 27 | 699.7 | 715.3 | 0.102 | 0.012 ppm | 1M09G7D | ||||||||||||||||||||||||||||||||||
3 | 5 | 27 | 699.7 | 715.3 | 0.087 | 0.012 ppm | 1M09D7W | ||||||||||||||||||||||||||||||||||
3 | 51 | 27 | 699.7 | 715.3 | 0.081 | 0.012 ppm | 1M09D7W | ||||||||||||||||||||||||||||||||||
3 | 52 | 27 | 700.5 | 714.5 | 0.091 | 0.012 ppm | 2M70D7W | ||||||||||||||||||||||||||||||||||
3 | 53 | 27 | 700.5 | 714.5 | 0.081 | 0.012 ppm | 2M70D7W | ||||||||||||||||||||||||||||||||||
3 | 54 | 27 | 700.5 | 714.5 | 0.074 | 0.012 ppm | 2M70D7W | ||||||||||||||||||||||||||||||||||
3 | 55 | 27 | 701.5 | 713.5 | 0.091 | 0.01 ppm | 4M49G7D | ||||||||||||||||||||||||||||||||||
3 | 56 | 27 | 701.5 | 713.5 | 0.081 | 0.01 ppm | 4M49D7W | ||||||||||||||||||||||||||||||||||
3 | 57 | 27 | 701.5 | 713.5 | 0.074 | 0.01 ppm | 4M49D7W | ||||||||||||||||||||||||||||||||||
3 | 58 | 27 | 704 | 711 | 0.093 | 0.012 ppm | 8M97G7D | ||||||||||||||||||||||||||||||||||
3 | 59 | 27 | 704 | 711 | 0.079 | 0.012 ppm | 8M97D7W | ||||||||||||||||||||||||||||||||||
3 | 6 | 27 | 704 | 711 | 0.074 | 0.012 ppm | 8M97D7W | ||||||||||||||||||||||||||||||||||
3 | 61 | 27 | 2307.5 | 2312.5 | 0.2 | 0.004 ppm | 4M49G7D | ||||||||||||||||||||||||||||||||||
3 | 62 | 27 | 2307.5 | 2312.5 | 0.174 | 0.004 ppm | 4M49D7W | ||||||||||||||||||||||||||||||||||
3 | 63 | 27 | 2307.5 | 2312.5 | 0.155 | 0.004 ppm | 4M50D7W | ||||||||||||||||||||||||||||||||||
3 | 64 | 27 | 2310 | 2310 | 0.219 | 0.004 ppm | 8M94G7D | ||||||||||||||||||||||||||||||||||
3 | 65 | 27 | 2310 | 2310 | 0.178 | 0.004 ppm | 8M94D7W | ||||||||||||||||||||||||||||||||||
3 | 66 | 27 | 2310 | 2310 | 0.155 | 0.004 ppm | 8M97D7W | ||||||||||||||||||||||||||||||||||
3 | 67 | 27 | 1710.7 | 1779.3 | 0.661 | 0.005 ppm | 1M09G7D | ||||||||||||||||||||||||||||||||||
3 | 68 | 27 | 1710.7 | 1779.3 | 0.537 | 0.005 ppm | 1M09D7W | ||||||||||||||||||||||||||||||||||
3 | 69 | 27 | 1710.7 | 1779.3 | 0.49 | 0.005 ppm | 1M09D7W | ||||||||||||||||||||||||||||||||||
3 | 7 | 27 | 1711.5 | 1778.5 | 0.661 | 0.005 ppm | 2M70G7D | ||||||||||||||||||||||||||||||||||
3 | 71 | 27 | 1711.5 | 1778.5 | 0.525 | 0.005 ppm | 2M70D7W | ||||||||||||||||||||||||||||||||||
3 | 72 | 27 | 1711.5 | 1778.5 | 0.468 | 0.005 ppm | 2M70D7W | ||||||||||||||||||||||||||||||||||
3 | 73 | 27 | 1712.5 | 1777.5 | 0.617 | 0.005 ppm | 4M49G7D | ||||||||||||||||||||||||||||||||||
3 | 74 | 27 | 1712.5 | 1777.5 | 0.479 | 0.005 ppm | 4M49D7W | ||||||||||||||||||||||||||||||||||
3 | 75 | 27 | 1712.5 | 1777.5 | 0.437 | 0.005 ppm | 4M50D7W | ||||||||||||||||||||||||||||||||||
3 | 76 | 27 | 1715 | 1775 | 0.661 | 0.005 ppm | 8M97G7D | ||||||||||||||||||||||||||||||||||
3 | 77 | 27 | 1715 | 1775 | 0.55 | 0.005 ppm | 8M98D7W | ||||||||||||||||||||||||||||||||||
3 | 78 | 27 | 1715 | 1775 | 0.479 | 0.005 ppm | 8M97D7W | ||||||||||||||||||||||||||||||||||
3 | 79 | 27 | 1717.5 | 1772.5 | 0.646 | 0.005 ppm | 13M5G7D | ||||||||||||||||||||||||||||||||||
3 | 8 | 27 | 1717.5 | 1772.5 | 0.537 | 0.005 ppm | 13M5D7W | ||||||||||||||||||||||||||||||||||
3 | 81 | 27 | 1717.5 | 1772.5 | 0.468 | 0.005 ppm | 13M5D7W | ||||||||||||||||||||||||||||||||||
3 | 82 | 27 | 1720 | 1770 | 0.617 | 0.005 ppm | 18M0G7D | ||||||||||||||||||||||||||||||||||
3 | 83 | 27 | 1720 | 1770 | 0.479 | 0.005 ppm | 18M0D7W | ||||||||||||||||||||||||||||||||||
3 | 84 | 27 | 1720 | 1770 | 0.417 | 0.005 ppm | 18M0D7W | ||||||||||||||||||||||||||||||||||
3 | 85 | 9 | PF | 790.5 | 795.5 | 0.123 | 0.011 ppm | 4M49G7D | |||||||||||||||||||||||||||||||||
3 | 86 | 9 | PF | 790.5 | 795.5 | 0.095 | 0.011 ppm | 4M49D7W | |||||||||||||||||||||||||||||||||
3 | 87 | 9 | PF | 790.5 | 795.5 | 0.081 | 0.011 ppm | 4M50D7W | |||||||||||||||||||||||||||||||||
3 | 88 | 9 | PF | 793 | 793 | 0.145 | 0.011 ppm | 8M96G7D | |||||||||||||||||||||||||||||||||
3 | 89 | 9 | PF | 793 | 793 | 0.107 | 0.011 ppm | 8M96D7W | |||||||||||||||||||||||||||||||||
3 | 9 | 9 | PF | 793 | 793 | 0.095 | 0.011 ppm | 8M97D7W | |||||||||||||||||||||||||||||||||
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
4 | 1 | 15E | CC | 5180 | 5240 | 0.019 | |||||||||||||||||||||||||||||||||||
4 | 2 | 15E | CC | 5745 | 5825 | 0.019 |
some individual PII (Personally Identifiable Information) available on the public forms may be redacted, original source may include additional details
This product uses the FCC Data API but is not endorsed or certified by the FCC