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User Manual 20170628 v2 - Technical- User Manual (statements) | Users Manual | 1.55 MiB | July 07 2017 / May 01 2018 | |||
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Photo - Internal-1 R2 | Internal Photos | 4.74 MiB | July 07 2017 / May 01 2018 | |||
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Photo - Internal-2 R2 | Internal Photos | 4.67 MiB | July 07 2017 / May 01 2018 | |||
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Photo - External R2 | External Photos | 1.11 MiB | July 07 2017 / May 01 2018 | |||
| 1 2 | ID Label/Location Info | July 07 2017 / July 09 2017 | ||||||
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Technical- E-label sample R3 for FCC | ID Label/Location Info | 88.61 KiB | July 07 2017 / September 07 2017 | |||
| 1 2 | Block Diagrams 20170628 v1 - Technical- Block Diagram R1 | Block Diagram | July 07 2017 | confidential | ||||
| 1 2 |
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Cover Letters 20170628 v2 - Form- E-Labelling Declaration | Cover Letter(s) | 42.55 KiB | July 07 2017 / September 07 2017 | |||
| 1 2 |
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Cover Letters 20170628 v2 - Form- FCC Declaration Letter for BT and WLAN | Cover Letter(s) | 24.60 KiB | July 07 2017 / September 07 2017 | |||
| 1 2 |
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Power of Attorney Letter | Cover Letter(s) | 24.79 KiB | July 07 2017 / September 07 2017 | |||
| 1 2 |
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Form- FCC Confidentiality R2 | Cover Letter(s) | 40.01 KiB | July 07 2017 / September 07 2017 | |||
| 1 2 | Lab KDB inquiry for SAR evaluation | Operational Description | July 07 2017 | confidential | ||||
| 1 2 | Schematics 20170628 v2 - Technical- Schematics | Schematics | July 07 2017 | confidential | ||||
| 1 2 | Technical- Operational Description R2 | Operational Description | July 07 2017 | confidential | ||||
| 1 2 |
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Test Report - DTS(BLE) R2 | Test Report | 1.89 MiB | July 07 2017 / September 07 2017 | |||
| 1 2 |
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Test Report - DTS(WLAN) R2 | Test Report | 3.24 MiB | July 07 2017 / September 07 2017 | |||
| 1 2 |
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Test Report - SAR Reupload | RF Exposure Info | 1.08 MiB | July 07 2017 / September 07 2017 | |||
| 1 2 |
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Test Report - SAR Reupload(Appendix C) | RF Exposure Info | 5.02 MiB | July 07 2017 / September 07 2017 | |||
| 1 2 |
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Test Setup Photos 20170628 v1 - Photo - SAR R1 | Test Setup Photos | 937.89 KiB | July 07 2017 / May 01 2018 | |||
| 1 2 |
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Test Setup Photos 20170628 v2 - Photo - RF | Test Setup Photos | 2.11 MiB | July 07 2017 / May 01 2018 | |||
| 1 2 |
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Test Report - DSS R2 | Test Report | 2.33 MiB | July 07 2017 / September 07 2017 |
| 1 2 | User Manual 20170628 v2 - Technical- User Manual (statements) | Users Manual | 1.55 MiB | July 07 2017 / May 01 2018 |
| 1 2 | Photo - Internal-1 R2 | Internal Photos | 4.74 MiB | July 07 2017 / May 01 2018 |
<Sample A>
CONSTRUCTION PHOTOS OF EUT The case is WLAN/BT antenna Report No.: 170315C40 Page 1 Report No.: 170315C40 Page 2 Report No.: 170315C40 Page 3 Report No.: 170315C40 Page 4 Report No.: 170315C40 Page 5 Report No.: 170315C40 Page 6 Report No.: 170315C40 Page 7 Report No.: 170315C40 Page 8 Report No.: 170315C40 Page 9 Report No.: 170315C40 Page 10 Report No.: 170315C40 Page 11 Report No.: 170315C40 Page 12
<Sample B>
The case is WLAN/BT antenna Report No.: 170315C40 Page 13 Report No.: 170315C40 Page 14 Report No.: 170315C40 Page 15 Report No.: 170315C40 Page 16 Report No.: 170315C40 Page 17 Report No.: 170315C40 Page 18 Report No.: 170315C40 Page 19 Report No.: 170315C40 Page 20 Report No.: 170315C40 Page 21 Report No.: 170315C40 Page 22 Report No.: 170315C40 Page 23 Report No.: 170315C40 Page 24 Report No.: 170315C40 Page 25
| 1 2 | Photo - Internal-2 R2 | Internal Photos | 4.67 MiB | July 07 2017 / May 01 2018 |
<Sample C>
CONSTRUCTION PHOTOS OF EUT The case is WLAN/BT antenna Report No.: 170315C40 Page 1 Report No.: 170315C40 Page 2 Report No.: 170315C40 Page 3 Report No.: 170315C40 Page 4 Report No.: 170315C40 Page 5 Report No.: 170315C40 Page 6 Report No.: 170315C40 Page 7 Report No.: 170315C40 Page 8 Report No.: 170315C40 Page 9 Report No.: 170315C40 Page 10 Report No.: 170315C40 Page 11 Report No.: 170315C40 Page 12
<Sample D>
The case is WLAN/BT antenna Report No.: 170315C40 Page 13 Report No.: 170315C40 Page 14 Report No.: 170315C40 Page 15 Report No.: 170315C40 Page 16 Report No.: 170315C40 Page 17 Report No.: 170315C40 Page 18 Report No.: 170315C40 Page 19 Report No.: 170315C40 Page 20 Report No.: 170315C40 Page 21 Report No.: 170315C40 Page 22 Report No.: 170315C40 Page 23 Report No.: 170315C40 Page 24 Report No.: 170315C40 Page 25
| 1 2 | Photo - External R2 | External Photos | 1.11 MiB | July 07 2017 / May 01 2018 |
<Sample A>
CONSTRUCTION PHOTOS OF EUT Report No.: 170315C40 Page 1
<Sample B>
Report No.: 170315C40 Page 2 Report No.: 170315C40 Page 3
<Sample C>
Report No.: 170315C40 Page 4
<Sample D>
Report No.: 170315C40 Page 5 Report No.: 170315C40 Page 6
| 1 2 | Technical- E-label sample R3 for FCC | ID Label/Location Info | 88.61 KiB | July 07 2017 / September 07 2017 |
MODEL: DW4A CANADA IC: 6708A-DW4A MODEL: DW4C CANADA IC: 6708A-DW4A US FCC ID: UK7-DW4A MODEL: DW4B CANADA IC: 6708A-DW4A MODEL: DW4D CANADA IC: 6708A-DW4A
| 1 2 | Cover Letters 20170628 v2 - Form- E-Labelling Declaration | Cover Letter(s) | 42.55 KiB | July 07 2017 / September 07 2017 |
Date: 2017/6/12 FCC E-Label Information FCC ID: UK7-DW4A Information to be displayed 1. The information that will be displayed on the e-label and information that will remain in the user manual is shown below:
Information FCC ID number DoC logo 15.19 statement (This device complies with part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) This device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation.) Class A / B Digital Device user manual statements Caution to the user that changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate the equipment on E-label In Manual Yes No No No No No No Yes Yes Yes Images of the e-label screen are provided below:
Access to the required information on the e-label Users are able to access the information in no more than three steps in a devices menu. The actual steps are:
Step 1 Step 2 Step 3 Setting Menu Select System Select About Select Regulatory Information Labeling for importation and Purchasing Products utilizing e-labels are required to have a physical label on the product at the time of importation, marketing and sales. For devices imported in bulk and not packaged individually, a removable adhesive label or, for devices in protective bags, a label on the bags is acceptable for this purpose. Any removal label shall be of a type intended to survive normal shipping and handling, and must only be removed by the customer after purchase. For devices imported already in individual packages ready for sale, the information may alternatively be provided on the package. It shall contain:
1. FCC ID 2. Any other information required by specific rule to be provided on the surface of the product unless such information is permitted to be included in the Users manual or other packaging inserts. Other Considerations The above information must be programmed by the responsible party and the information must be secured in such a manner that third parties cannot modify it. Best regards, Christopher King Vice President, Chief Compliance & Risk Officer For and behalf of Fossil Group, Inc.
| 1 2 | Cover Letters 20170628 v2 - Form- FCC Declaration Letter for BT and WLAN | Cover Letter(s) | 24.60 KiB | July 07 2017 / September 07 2017 |
Date: May 31, 2017 Fossil Group, Inc. 901 S. Central Expy Richardson Texas 75080 United States Declaration To whom it may concern, This is a WLAN/Bluetooth combination antenna with FCC ID: UK7-DW4A. This WLAN/Bluetooth co-existence mechanism is to ensure that the WLAN and Bluetooth transmitters would not simultaneously operate. Therefore, WLAN and Bluetooth antenna in FCC ID: UK7-DW4A should not be considered to be able to transmit simultaneously. Though the users can use WLAN and Bluetooth simultaneously, but the real situation is that WLAN and Bluetooth are used by time sharing and no overlap transmission. Should you have any question, please have my best attention. Sincerely yours, _______________ Christopher King / Vice President, Chief Compliance & Risk Officer Fossil Group, Inc. Tel: 469-587-2628 Fax: 972-638-2708 E-mail: regulatorycompliance@fossil.com
| 1 2 | Power of Attorney Letter | Cover Letter(s) | 24.79 KiB | July 07 2017 / September 07 2017 |
Fossil Group, Inc. 901 S. Central Expy Richardson Texas 75080 United States Power of Attorney Date: May 31, 2017 To whom it may concern, Please be notified that I, Christopher King, have designated Miffy Tsao of Bureau Veritas Consumer Products Services (H.K.) Ltd., Taoyuan Branch (BV CPS Taoyuan Branch) of Taiwan as the person being responsible for this project and to sign the form 731 and other documentation. Any and all acts carried out by Miffy Tsao of Bureau Veritas Consumer Products Services (H.K.) Ltd., Taoyuan Branch (BV CPS Taoyuan Branch) of Taiwan on the matters relating to all processes required in the FCC approval and any communication needed with the national authority, shall have the same legal authority as acts on our own behalf. As defined in 47 CFR Ch. 1.2002 (b), we further certify that neither the applicant nor any party to this application is subject to a denial to Federal benefits, including FCC benefits, pursuant to section 5301 of the Anti-Drug Abuse Act. This authorization is limited to the product of as following:
FCC ID: UK7-DW4A If you have any acknowledgement and response, please send it to Miffy Tsao of Bureau Veritas Consumer Products Services (H.K.) Ltd., Taoyuan Branch (BV CPS Taoyuan Branch) of Taiwan directly. Should you have any question or comment regarding this matter, please have my best attention. Sincerely yours, Christopher King / Vice President, Chief Compliance & Risk Officer Fossil Group, Inc. Tel: 469-587-2628 Fax: 972-638-2708 E-mail: regulatorycompliance@fossil.com
| 1 2 | Form- FCC Confidentiality R2 | Cover Letter(s) | 40.01 KiB | July 07 2017 / September 07 2017 |
Fossil Group, Inc. 901 S. Central Expy Richardson Texas 75080 United States Date: May 31, 2017 Federal Communications Commission 7435 Oakland Mills Road - Gate A Columbia, Maryland 21046 Subject: Request for Confidentiality FCC ID: UK7-DW4A 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. z z z z Schematic Diagram Block Diagram Parts List Operational Description 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. External Photos Internal Photos Test Setup Photos Users Manual 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, Christopher King / Vice President, Chief Compliance & Risk Officer Fossil Group, Inc. Tel: 469-587-2628 Fax: 972-638-2708 E-mail: regulatorycompliance@fossil.com
| 1 2 | Test Report - DTS(BLE) R2 | Test Report | 1.89 MiB | July 07 2017 / September 07 2017 |
FCC Test Report Report No.: RF170315C40-1 FCC ID: UK7-DW4A Received Date: Mar. 15, 2017 Test Date: Mar. 28, 2017 ~ May 26, 2017 Issued Date: Jun. 14, 2017 Applicant: Fossil Group, Inc. Address: 901 S. Central Expwy., Richardson, TX 75080 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 (1): No. 19, Hwa Ya 2nd Rd, Wen Hwa Tsuen, Kwei Shan Hsiang, Taoyuan Hsien 333, 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. Report No.: RF170315C40-1 Page No. 1 / 63 Report Format Version: 6.1.1 Table of Contents Release Control Record .................................................................................................................................. 4 1 Certificate of Conformity ........................................................................................................................... 5 2 Summary of Test Results ........................................................................................................................... 6 2.1 Measurement Uncertainty ..................................................................................................................... 6 2.2 Modification Record .............................................................................................................................. 6 3 General Information ................................................................................................................................... 7 3.1 General Description of EUT .................................................................................................................. 7 3.2 Description of Test Modes ..................................................................................................................... 8 3.2.1 Test Mode Applicability and Tested Channel Detail .................................................................... 9 3.3 Duty Cycle of Test Signal .................................................................................................................... 10 3.4 Description of Support Units ................................................................................................................ 11 3.4.1 Configuration of System under Test .......................................................................................... 11 3.5 General Description of Applied Standards ........................................................................................... 11 4 Test Types and Results ............................................................................................................................ 12 4.1 Radiated Emission and Bandedge Measurement .............................................................................. 12 4.1.1 Limits of Radiated Emission and Bandedge Measurement ..................................................... 12 4.1.2 Test Instruments ....................................................................................................................... 13 4.1.3 Test Procedures ........................................................................................................................ 14 4.1.4 Deviation from Test Standard ................................................................................................... 14 4.1.5 Test Set Up ............................................................................................................................... 15 4.1.6 EUT Operating Conditions ........................................................................................................ 15 4.1.7 Test Results .............................................................................................................................. 16 4.2 Conducted Emission Measurement .................................................................................................... 44 4.2.1 Limits of Conducted Emission Measurement ........................................................................... 44 4.2.2 Test Instruments ....................................................................................................................... 44 4.2.3 Test Procedures ........................................................................................................................ 44 4.2.4 Deviation from Test Standard ................................................................................................... 44 4.2.5 TEST SETUP ............................................................................................................................ 45 4.2.6 EUT Operating Conditions ........................................................................................................ 45 4.2.7 Test Results .............................................................................................................................. 46 4.3 6 dB Bandwidth Measurement ............................................................................................................ 54 4.3.1 Limits of 6 dB Bandwidth Measurement ................................................................................... 54 4.3.2 Test Setup ................................................................................................................................. 54 4.3.3 Test Instruments ....................................................................................................................... 54 4.3.4 Test Procedure ......................................................................................................................... 54 4.3.5 Deviation fromTest Standard .................................................................................................... 54 4.3.6 EUT Operating Conditions ........................................................................................................ 54 4.3.7 Test Result ................................................................................................................................ 55 4.4 Conducted Output Power Measurement ............................................................................................ 56 4.4.1 Limits of Conducted Output Power Measurement.................................................................... 56 4.4.2 Test Setup ................................................................................................................................. 56 4.4.3 Test Instruments ....................................................................................................................... 56 4.4.4 Test Procedures ........................................................................................................................ 56 4.4.5 Deviation from Test Standard ................................................................................................... 56 4.4.6 EUT Operating Conditions ........................................................................................................ 56 4.4.7 Test Results .............................................................................................................................. 56 4.5 Power Spectral Density Measurement ............................................................................................... 57 4.5.1 Limits of Power Spectral Density Measurement ....................................................................... 57 4.5.2 Test Setup ................................................................................................................................. 57 4.5.3 Test Instruments ....................................................................................................................... 57 4.5.4 Test Procedure ......................................................................................................................... 57 4.5.5 Deviation from Test Standard ................................................................................................... 57 4.5.6 EUT Operating Condition ......................................................................................................... 57 Report No.: RF170315C40-1 Page No. 2 / 63 Report Format Version: 6.1.1 4.5.7 Test Results .............................................................................................................................. 58 4.6 Conducted Out of Band Emission Measurement ............................................................................... 59 4.6.1 Limits of Conducted Out of Band Emission Measurement ....................................................... 59 4.6.2 Test Setup ................................................................................................................................. 59 4.6.3 Test Instruments ....................................................................................................................... 59 4.6.4 Test Procedure ......................................................................................................................... 59 4.6.5 Deviation from Test Standard ................................................................................................... 59 4.6.6 EUT Operating Condition ......................................................................................................... 59 4.6.7 TEST RESULTS ....................................................................................................................... 60 5 Pictures of Test Arrangements................................................................................................................ 62 Appendix Information on the Testing Laboratories ................................................................................ 63 Report No.: RF170315C40-1 Page No. 3 / 63 Report Format Version: 6.1.1 Issue No. Description RF170315C40-1 Original Release Release Control Record Date Issued Jun. 14, 2017 Report No.: RF170315C40-1 Page No. 4 / 63 Report Format Version: 6.1.1 1 Certificate of Conformity Product: Smart Watch Sample Status: Production Unit Applicant: Fossil Group, Inc. Test Date: Mar. 28, 2017 ~ May 26, 2017 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 :
, Date:
Jun. 14, 2017 Ivonne Wu / Supervisor Approved by
:
David Huang / Project Engineer
, Date:
Jun. 14, 2017 Report No.: RF170315C40-1 Page No. 5 / 63 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 & 209 Radiated Emissions Pass Meet the requirement of limit. Minimum passing margin is -0.25 dB at 1.68600 MHz. Meet the requirement of limit. Minimum passing margin is -2.21 dB at 32.91 MHz. 15.247(d) Band Edge Measurement Pass Meet the requirement of limit. 15.247(d) Antenna Port Emission Pass Meet the requirement of limit. 15.247(a)(2) 6 dB Bandwidth Pass Meet the requirement of limit. 15.247(b) 15.247(e) Conducted power Pass Meet the requirement of limit. Power Spectral Density Pass Meet the requirement of limit. 15.203 Antenna Requirement Pass No antenna connector is used. 2.1 Measurement Uncertainty Where relevant, the following measurement uncertainty levels have been estimated for tests performed on the EUT:
The listed uncertainties are the worst case uncertainty for the entire range of measurement. Please note that the uncertainty values are provided for informational purposes only and are not used in determining the PASS/FAIL results. Measurement Frequency Conducted Emissions at mains ports 150 kHz ~ 30 MHz Radiated Emissions up to 1 GHz Radiated Emissions above 1 GHz 30 MHz ~ 200 MHz 200 MHz ~1000 MHz 1 GHz ~ 18 GHz 18 GHz ~ 40 GHz Expended Uncertainty
(k=2) () 2.44 dB 2.93 dB 2.95 dB 2.26 dB 1.94 dB 2.2 Modification Record There were no modifications required for compliance. Report No.: RF170315C40-1 Page No. 6 / 63 Report Format Version: 6.1.1 3 General Information 3.1 General Description of EUT Product Status of EUT Smart Watch Production Unit Power Supply Rating 5.0 Vdc (from wireless charger) 3.8 Vdc (from battery) Modulation Type Transfer Rate GFSK 1 Mbps Operating Frequency 2402 ~ 2480 MHz Number of Channel 40 Output Power Antenna Type 2.377 mW Loop antenna Antenna Connector N/A Accessory Device Refer to Note as below Data Cable Supplied Refer to Note as below Note:
1. Therere 4 configurations for the EUT listed as below. Sample A B C D Antenna Gain
(dBi)
-6.74
-5.77
-7.1
-6.52 Difference The samples are different in the appearance and antenna only. 2. The EUTs accessories list refers to Ext. Pho. Report No.: RF170315C40-1 Page No. 7 / 63 Report Format Version: 6.1.1 3.2 Description of Test Modes 40 channels are provided to this EUT:
Channel Freq. (MHz) Channel Freq. (MHz) Channel Freq. (MHz) Channel Freq. (MHz) 0 1 2 3 4 5 6 7 8 9 2402 2404 2406 2408 2410 2412 2414 2416 2418 2420 10 11 12 13 14 15 16 17 18 19 2422 2424 2426 2428 2430 2432 2434 2436 2438 2440 20 21 22 23 24 25 26 27 28 29 2442 2444 2446 2448 2450 2452 2454 2456 2458 2460 30 31 32 33 34 35 36 37 38 39 2462 2464 2466 2468 2470 2472 2474 2476 2478 2480 Report No.: RF170315C40-1 Page No. 8 / 63 Report Format Version: 6.1.1 3.2.1 Test Mode Applicability and Tested Channel Detail EUT Configure Mode Applicable To RE1G RE<1G PLC APCM Description A B C D
-
-
-
Sample B Sample A Sample C Sample D Where RE1G: Radiated Emission above 1 GHz RE<1G: Radiated Emission below 1 GHz PLC: Power Line Conducted Emission APCM: Antenna Port Conducted Measurement Note: The EUT had been pre-tested on the positioned of each 3 axis. The worst case was found when positioned on Z-plane. Note: -means no effect. Radiated Emission Test (Above 1 GHz):
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. EUT Configure Mode A B, C, D Available Channel Tested Channel Modulation Type Data Rate (Mbps) 0 to 39 0 to 39 0, 19, 39 39 GFSK GFSK 1 1 Radiated Emission Test (Below 1 GHz):
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. EUT Configure Mode A, B, C, D Available Channel Tested Channel Modulation Type Data Rate (Mbps) 0 to 39 39 GFSK 1 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. EUT Configure Mode A, B, C, D Available Channel Tested Channel Modulation Type Data Rate (Mbps) 0 to 39 39 GFSK 1 Report No.: RF170315C40-1 Page No. 9 / 63 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. EUT Configure Mode A Test Condition:
Available Channel Tested Channel Modulation Type Data Rate (Mbps) 0 to 39 0, 19, 39 GFSK 1 Applicable To Environmental Conditions Input Power RE1G RE<1G PLC APCM 25 deg. C, 65 % RH 25 deg. C, 65 % RH 25 deg. C, 65 % RH 25 deg. C, 65 % RH 5 Vdc 5 Vdc 5 Vdc 3.8 Vdc 3.3 Duty Cycle of Test Signal Duty cycle = 391.03/628.21 = 0.622, Duty factor = 10 * log(1/0.622) = 2.06 802.11b Tested by Getaz Yang Getaz Yang Getaz Yang Carlos Chen Report No.: RF170315C40-1 Page No. 10 / 63 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. No. 1. No. 1. N/A Note:
Product Adapter Brand XIAOMI Model No. MDY-08-EF Serial No. N/A FCC ID N/A Signal Cable Description Of The Above Support Units 1. All power cords of the above support units are non-shielded (1.8m). 3.4.1 Configuration of System under Test Wireless Charger EUT
(EUT)
(Power from wireless charger)
*Test Table 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) 558074 D01 DTS Meas Guidance v04 ANSI C63.10-2013 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
(Verification). The test report has been issued separately. Report No.: RF170315C40-1 Page No. 11 / 63 Report Format Version: 6.1.1 4 Test Types and Results 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 20 dB 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. 2. 3. The lower limit shall apply at the transition frequencies. Emission level (dBuV/m) = 20 log Emission level (uV/m). For frequencies above 1000 MHz, 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 20 dB under any condition of modulation. Report No.: RF170315C40-1 Page No. 12 / 63 Report Format Version: 6.1.1 4.1.2 Test Instruments Description &
Manufacturer Test Receiver Agilent Spectrum Analyzer Agilent Spectrum Analyzer ROHDE & SCHWARZ BILOG Antenna SCHWARZBECK HORN Antenna SCHWARZBECK HORN Antenna SCHWARZBECK Fixed Attenuator Mini-Circuits Model No. Serial No. Date of Calibration Due Date of Calibration N9038A MY51210203 Feb. 17, 2017 Feb. 16, 2018 N9010A MY52220314 Dec. 16, 2016 Dec. 15, 2017 FSU43 101261 Dec. 13, 2016 Dec. 12, 2017 VULB9168 9168-472 Dec. 26, 2016 Dec. 27, 2017 BBHA 9120 D 9120D-969 Dec. 12, 2016 Dec. 13, 2017 BBHA 9170 9170-480 Dec. 14, 2016 Dec. 13, 2017 Loop Antenna EM-6879 BW-N10W5+
NA 269 Jul. 08, 2016 Jul. 07, 2017 Aug. 11, 2016 Aug. 10, 2017 Bluetooth Tester CBT 100946 Jul. 29, 2016 Jul. 28, 2018 Preamplifier EMCI Preamplifier EMCI Preamplifier EMCI Power Meter Anritsu Power Sensor Anritsu RF signal cable HUBER+SUHNNER RF signal cable HUBER+SUHNNER RF Coaxial Cable Worken Software BV ADT Antenna Tower MF Turn Table MF Antenna Tower &Turn Table Controller MF EMC 012645 980115 Oct. 21, 2016 Oct. 20, 2017 EMC 184045 980116 Oct. 21, 2016 Oct. 20, 2017 EMC 330H 980112 Oct. 21, 2016 Oct. 20, 2017 ML2495A 1232002 Sep. 08, 2016 Sep. 07, 2017 MA2411B 1207325 Sep. 08, 2016 Sep. 07, 2017 SUCOFLEX 104 309219/4 2950114 Oct. 21, 2016 Oct. 20, 2017 SUCOFLEX 104 250130/4 Oct. 21, 2016 Oct. 20, 2017 8D-FB Cable-Ch10-01 Oct. 21, 2016 Oct. 20, 2017 E3 6.120103 MFA-440H MFT-201SS MF-7802 NA NA NA NA NA NA NA NA NA NA NA NA 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 test was performed in HwaYa Chamber 10. 3. The horn antenna and preamplifier (model: EMC 184045) are used only for the measurement of emission frequency above 1GHz if tested. 4. The FCC Site Registration No. is 690701. 5. The IC Site Registration No. is IC7450F-10. Report No.: RF170315C40-1 Page No. 13 / 63 Report Format Version: 6.1.1 4.1.3 Test Procedures a. The EUT was placed on the top of a rotating table 0.8 meters (for below 1 GHz) / 1.5 meters (for above 1 GHz) 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 hold mode when the test frequency is below 1 GHz. f. The test-receiver system was set to peak and average detected 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 120 kHz & 360 kHz for Quasi-peak detection (QP) at frequency below 1 GHz. 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 1 GHz. 3. The resolution bandwidth of test receiver/spectrum analyzer is 1 MHz and the video bandwidth is 1/T for Average (Duty cycle < 98 %) detection at frequency above 1 GHz. 4. The resolution bandwidth of test receiver/spectrum analyzer is 1 MHz and the video bandwidth is 10 Hz
(Duty cycle 98 %) for Average detection (AV) at frequency above 1 GHz. 5. All modes of operation were investigated and the worst-case emissions are reported. 4.1.4 Deviation from Test Standard No deviation. Report No.: RF170315C40-1 Page No. 14 / 63 Report Format Version: 6.1.1 4.1.5 Test Set Up
<Frequency Range below 1 GHz>
3m
<Frequency Range above 1 GHz>
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. Placed the EUT on the testing table. b. Set the EUT under transmission condition continuously at specific channel frequency. Report No.: RF170315C40-1 Page No. 15 / 63 Report Format Version: 6.1.1 10mAnt. Tower1-4m VariableTurn TableEUT& Support UnitsGround PlaneTest Receiver80cm 4.1.7 Test Results ABOVE 1 GHz DATA Mode A EUT Test Condition Measurement Detail Channel Channel 0 Frequency Range 1 GHz ~ 25 GHz Input Power 120 Vac, 60 Hz Detector Function Peak (PK) Average (AV) Environmental Conditions Horizontal 25 deg. C, 65 % RH Tested By Getaz Yang Vertical Report No.: RF170315C40-1 Page No. 16 / 63 Report Format Version: 6.1.1 Antennal Polarity & Test Distance: Horizontal at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 2322.42 2370.1 2402 2402 4804 4804 45.81 33.56 85.31 86.7 33.51 43.2 52.53 40.13 91.83 93.22 48.85 58.54 74 54 54 74
-28.19
-20.44
-20.49
-30.8 26.72 26.86 26.91 26.91 30.97 30.97 4.03 4.07 4.09 4.09 6.79 6.79 Preamp Antenna Table Factor Height Angle Remark
(dB) 37.47 37.5 37.52 37.52 53.1 53.1
(cm)
(Degree) 205 205 205 205 112 112 136 136 136 136 240 240 Peak Average Average Peak Average Peak Antennal Polarity & Test Distance: Vertical at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 2374.66 2387.54 2402 2402 4804 4804 45.89 34.32 76.29 77.53 33.41 43.45 Remarks:
52.46 40.83 82.81 84.05 48.75 58.79 74 54 54 74
-28.11
-19.68
-20.59
-30.55 26.86 26.91 26.91 26.91 30.97 30.97 4.07 4.08 4.09 4.09 6.79 6.79 Preamp Antenna Table Factor Height Angle Remark
(dB) 37.5 37.5 37.52 37.52 53.1 53.1
(cm)
(Degree) 179 179 179 179 105 105 28 28 28 28 84 84 Peak Average Average Peak Average Peak 1. Emission Level = Read Level + Antenna Factor + Cable Loss - Preamp Factor Margin value = Emission level Limit value 2. 2402 MHz: Fundamental frequency. Report No.: RF170315C40-1 Page No. 17 / 63 Report Format Version: 6.1.1 EUT Test Condition Measurement Detail Channel Channel 19 Frequency Range 1 GHz ~ 25 GHz Input Power 120 Vac, 60 Hz Detector Function Peak (PK) Average (AV) Environmental Conditions Horizontal 25 deg. C, 65 % RH Tested By Getaz Yang Vertical Report No.: RF170315C40-1 Page No. 18 / 63 Report Format Version: 6.1.1 Antennal Polarity & Test Distance: Horizontal at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 2360.22 2367.66 2440 2440 2488.19 2489.62 4880 4880 45.36 33.84 85.81 86.56 46.26 34.78 33.45 45.32 51.99 40.46 92.09 92.84 52.22 40.67 48.59 60.46 74 54 74 54 54 74
-28.64
-20.16
-27.74
-19.22
-20.55
-28.68 26.81 26.81 27.06 27.06 27.2 27.2 31.06 31.06 4.05 4.07 4.12 4.12 4.16 4.16 6.85 6.85 Preamp Antenna Table Factor Height Angle Remark
(dB) 37.49 37.5 37.46 37.46 37.32 37.25 53.05 53.05
(cm)
(Degree) 188 188 188 188 188 188 111 111 200 200 200 200 200 200 290 290 Peak Average Average Peak Peak Average Average Peak Antennal Polarity & Test Distance: Vertical at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 2365.32 2371.48 2440 2440 2485.36 2495.09 4880 4880 45.35 33.92 76.59 77.48 34.29 46.52 33.18 44.45 Remarks:
51.97 40.49 82.87 83.76 40.31 52.41 48.32 59.59 74 54 54 74 54 74
-28.65
-20.08
-19.71
-27.48
-20.82
-29.55 26.81 26.86 27.06 27.06 27.15 27.2 31.06 31.06 4.07 4.07 4.12 4.12 4.15 4.16 6.85 6.85 Preamp Antenna Table Factor Height Angle Remark
(dB) 37.5 37.5 37.46 37.46 37.32 37.25 53.05 53.05
(cm)
(Degree) 195 192 192 192 192 195 100 100 42 42 42 42 42 42 184 184 Peak Average Average Peak Average Peak Average Peak 1. Emission Level = Read Level + Antenna Factor + Cable Loss - Preamp Factor Margin value = Emission level Limit value 2. 2440 MHz: Fundamental frequency. Report No.: RF170315C40-1 Page No. 19 / 63 Report Format Version: 6.1.1 EUT Test Condition Measurement Detail Channel Channel 39 Frequency Range 1 GHz ~ 25 GHz Input Power 120 Vac, 60 Hz Detector Function Peak (PK) Average (AV) Environmental Conditions Horizontal 25 deg. C, 65 % RH Tested By Getaz Yang Vertical Report No.: RF170315C40-1 Page No. 20 / 63 Report Format Version: 6.1.1 Band Edge Peak Horizontal Vertical Report No.: RF170315C40-1 Page No. 21 / 63 Report Format Version: 6.1.1 Average Horizontal Vertical Report No.: RF170315C40-1 Page No. 22 / 63 Report Format Version: 6.1.1 Antennal Polarity & Test Distance: Horizontal at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 2480 2480 2483.68 2487.92 4960 4960 85.12 86.19 47.48 35.29 33.37 43.16 91.14 92.21 53.5 41.25 48.34 58.13 74 54 54 74
-26.52
-18.71
-20.63
-30.84 27.15 27.15 27.15 27.2 31.16 31.16 4.15 4.15 4.15 4.16 6.91 6.91 Preamp Antenna Table Factor Height Angle Remark
(dB) 37.32 37.32 37.32 37.32 53.04 53.04
(cm)
(Degree) 198 198 198 198 196 196 179 179 179 179 186 186 Average Peak Peak Average Average Peak Antennal Polarity & Test Distance: Horizontal at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) Preamp Antenna Table Factor Height Angle Remark
(dB)
(cm)
(Degree) 2480 2480 2487.16 2492.2 4960 4960 76.65 77.71 35.52 47.78 33.4 42.42 Remarks:
45.35 46.41 41.54 53.67 48.37 57.39 54 74 54 74
-18.48
-26.22
-20.6
-31.58 27.15 27.15 27.15 27.2 31.16 31.16 4.15 4.15 4.15 4.16 6.91 6.91 0 0 37.32 37.25 53.04 53.04 227 227 227 227 128 128 350 350 350 350 88 88 Average Peak Average Peak Average Peak 1. Emission Level = Read Level + Antenna Factor + Cable Loss - Preamp Factor Margin value = Emission level Limit value 2. 2480 MHz: Fundamental frequency. Report No.: RF170315C40-1 Page No. 23 / 63 Report Format Version: 6.1.1 Mode B EUT Test Condition Measurement Detail Channel Channel 39 Frequency Range 1 GHz ~ 25 GHz Input Power 120 Vac, 60 Hz Detector Function Peak (PK) Average (AV) Environmental Conditions Horizontal 25 deg. C, 65 % RH Tested By Getaz Yang Vertical Report No.: RF170315C40-1 Page No. 24 / 63 Report Format Version: 6.1.1 Band Edge Peak Horizontal Vertical Report No.: RF170315C40-1 Page No. 25 / 63 Report Format Version: 6.1.1 Average Horizontal Vertical Report No.: RF170315C40-1 Page No. 26 / 63 Report Format Version: 6.1.1 Antennal Polarity & Test Distance: Horizontal at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 2480 2480 2486.08 2491.6 4960 4960 81.43 82.18 47.31 35.19 33.26 44.57 87.45 88.2 53.33 41.15 48.23 59.54 74 54 54 74
-26.69
-18.81
-20.74
-29.43 27.15 27.15 27.15 27.2 31.16 31.16 4.15 4.15 4.15 4.16 6.91 6.91 Preamp Antenna Table Factor Height Angle Remark
(dB) 37.32 37.32 37.32 37.32 53.04 53.04
(cm)
(Degree) 200 200 200 200 110 110 180 180 180 180 250 250 Average Peak Peak Average Average Peak Antennal Polarity & Test Distance: Vertical at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 2480 2480 2499.28 2499.64 4960 4960 78.78 79.96 35.32 46.84 33.15 44.06 Remarks:
84.8 85.98 41.21 52.73 48.12 59.03 54 74 54 74
-18.68
-27.16
-20.85
-29.94 27.15 27.15 27.2 27.2 31.16 31.16 4.15 4.15 4.16 4.16 6.91 6.91 Preamp Antenna Table Factor Height Angle Remark
(dB) 37.32 37.32 37.25 37.25 53.04 53.04
(cm)
(Degree) 203 203 203 203 105 105 18 18 18 18 99 99 Average Peak Average Peak Average Peak 1. Emission Level = Read Level + Antenna Factor + Cable Loss - Preamp Factor Margin value = Emission level Limit value 2. 2480 MHz: Fundamental frequency. Report No.: RF170315C40-1 Page No. 27 / 63 Report Format Version: 6.1.1 Mode C EUT Test Condition Measurement Detail Channel Channel 39 Frequency Range 1 GHz ~ 25 GHz Input Power 120 Vac, 60 Hz Detector Function Peak (PK) Average (AV) Environmental Conditions Horizontal 25 deg. C, 65 % RH Tested By Getaz Yang Vertical Report No.: RF170315C40-1 Page No. 28 / 63 Report Format Version: 6.1.1 Band Edge Peak Horizontal Vertical Report No.: RF170315C40-1 Page No. 29 / 63 Report Format Version: 6.1.1 Average Horizontal Vertical Report No.: RF170315C40-1 Page No. 30 / 63 Report Format Version: 6.1.1 Antennal Polarity & Test Distance: Horizontal at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 2480 2480 2484.6 2499.08 4960 4960 81.12 81.85 34.99 46.9 33.78 43.94 87.14 87.87 41.01 52.79 48.75 58.91 54 74 54 74
-19.01
-27.1
-20.22
-30.06 27.15 27.15 27.15 27.2 31.16 31.16 4.15 4.15 4.15 4.16 6.91 6.91 Preamp Antenna Table Factor Height Angle Remark
(dB) 37.32 37.32 37.32 37.25 53.04 53.04
(cm)
(Degree) 246 246 246 246 103 103 246 246 246 246 16 16 Average Peak Average Peak Average Peak Antennal Polarity & Test Distance: Vertical at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 2480 2480 77.22 78.14 2486.12 35 2488.8 4960 4960 46.78 33.67 43.68 Remarks:
83.24 84.16 41.02 52.74 48.64 58.65 54 74 54 74
-19
-27.22
-20.33
-30.32 27.15 27.15 27.15 27.2 31.16 31.16 4.15 4.15 4.15 4.16 6.91 6.91 Preamp Antenna Table Factor Height Angle Remark
(dB) 37.32 37.32 37.32 37.32 53.04 53.04
(cm)
(Degree) 201 201 201 201 116 116 280 280 280 280 211 211 Average Peak Average Peak Average Peak 1. Emission Level = Read Level + Antenna Factor + Cable Loss - Preamp Factor Margin value = Emission level Limit value 2. 2480 MHz: Fundamental frequency. Report No.: RF170315C40-1 Page No. 31 / 63 Report Format Version: 6.1.1 Mode D EUT Test Condition Measurement Detail Channel Channel 39 Frequency Range 1 GHz ~ 25 GHz Input Power 120 Vac, 60 Hz Detector Function Peak (PK) Average (AV) Environmental Conditions Horizontal 25 deg. C, 65 % RH Tested By Getaz Yang Vertical Report No.: RF170315C40-1 Page No. 32 / 63 Report Format Version: 6.1.1 Band Edge Peak Horizontal Vertical Report No.: RF170315C40-1 Page No. 33 / 63 Report Format Version: 6.1.1 Average Horizontal Vertical Report No.: RF170315C40-1 Page No. 34 / 63 Report Format Version: 6.1.1 Antennal Polarity & Test Distance: Horizontal at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 2480 2480 2496.08 2496.72 4960 4960 80.19 81.08 34.97 46.82 32.91 44.18 86.21 87.1 40.86 52.71 47.88 59.15 54 74 54 74
-19.03
-27.18
-21.09
-29.82 27.15 27.15 27.2 27.2 31.16 31.16 4.15 4.15 4.16 4.16 6.91 6.91 Preamp Antenna Table Factor Height Angle Remark
(dB) 37.32 37.32 37.25 37.25 53.04 53.04
(cm)
(Degree) 102 102 102 102 100 100 46 46 46 46 156 156 Average Peak Average Peak Average Peak Antennal Polarity & Test Distance: Vertical at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 2480 2480 2485.44 2498.04 4960 4960 77.64 78.57 46.92 34.97 32.39 44.79 Remarks:
83.66 84.59 52.94 40.86 47.36 59.76 74 54 54 74
-27.08
-19.03
-21.61
-29.21 27.15 27.15 27.15 27.2 31.16 31.16 4.15 4.15 4.15 4.16 6.91 6.91 Preamp Antenna Table Factor Height Angle Remark
(dB) 37.32 37.32 37.32 37.25 53.04 53.04
(cm)
(Degree) 208 208 208 208 100 100 181 181 181 181 162 162 Average Peak Peak Average Average Peak 1. Emission Level = Read Level + Antenna Factor + Cable Loss - Preamp Factor Margin value = Emission level Limit value 2. 2480 MHz: Fundamental frequency. Report No.: RF170315C40-1 Page No. 35 / 63 Report Format Version: 6.1.1 9 kHz ~ 30 MHz DATA:
The amplitude of spurious emissions attenuated more than 20 dB below the permissible value is not required to be report. 30 MHz ~ 1 GHz WORST-CASE DATA:
Mode A EUT Test Condition Measurement Detail Channel Channel 39 Frequency Range 30 MHz ~ 1 GHz Input Power 120 Vac, 60 Hz Detector Function Peak (PK) Quasi-peak (QP) Environmental Conditions Horizontal 25 deg. C, 65 % RH Tested By Getaz Yang Vertical Report No.: RF170315C40-1 Page No. 36 / 63 Report Format Version: 6.1.1 Antennal Polarity & Test Distance: Horizontal at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 32.91 109.54 155.13 191.02 209.45 330.7 25.29 23.85 22.35 25.78 22.8 20.49 43.31 44.6 40.26 46.21 43.31 36.9 40 43.5 43.5 43.5 43.5 46
-14.71
-19.65
-21.15
-17.72
-20.7 12.47 9.99 12.72 9.98 9.77
-25.51 13.68 0.6 1.1 1.11 1.27 1.33 1.72 Preamp Antenna Table Factor Height Angle Remark
(dB) 31.09 31.84 31.74 31.68 31.61 31.81
(cm)
(Degree) 131 100 111 119 122 137 322 344 178 218 338 252 Peak Peak Peak Peak Peak Peak Antennal Polarity & Test Distance: Vertical at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 32.91 39.7 66.86 86.26 152.22 191.99 37.79 33.88 30.52 25.44 20.89 20.29 Remarks:
55.81 50.69 50.23 48.05 38.72 40.8 40 40 40 40 43.5 43.5
-2.21
-6.12
-9.48
-14.56
-22.61
-23.21 12.47 13.54 11.12 8.23 12.71 9.91 0.6 0.64 0.85 0.94 1.12 1.27 Preamp Antenna Table Factor Height Angle Remark
(dB) 31.09 30.99 31.68 31.78 31.66 31.69
(cm)
(Degree) 140 107 125 106 125 128 145 180 201 334 319 289 Peak Peak Peak Peak Peak Peak 1. Emission Level = Read Level + Antenna Factor + Cable Loss - Preamp Factor Margin value = Emission level Limit value Report No.: RF170315C40-1 Page No. 37 / 63 Report Format Version: 6.1.1 Mode B EUT Test Condition Measurement Detail Channel Channel 39 Frequency Range 30 MHz ~ 1 GHz Input Power 120 Vac, 60 Hz Detector Function Peak (PK) Quasi-peak (QP) Environmental Conditions Horizontal 25 deg. C, 65 % RH Tested By Getaz Yang Vertical Report No.: RF170315C40-1 Page No. 38 / 63 Report Format Version: 6.1.1 Antennal Polarity & Test Distance: Horizontal at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 110.51 191.02 213.33 287.05 333.61 538.28 27.82 23.32 22.98 22.41 22.16 21.34 48.47 43.75 43.33 39.96 38.5 32.71 43.5 43.5 43.5 46 46 46
-15.68
-20.18
-20.52
-23.59
-23.84
-24.66 10.09 9.98 9.93 12.57 13.75 18.19 1.11 1.27 1.35 1.6 1.72 2.16 Preamp Antenna Table Factor Height Angle Remark
(dB) 31.85 31.68 31.63 31.72 31.81 31.72
(cm)
(Degree) 132 136 122 115 114 110 337 213 30 269 63 119 Peak Peak Peak Peak Peak Peak Antennal Polarity & Test Distance: Vertical at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) 33.88 67.83 87.23 191.02 319.06 540.22 37.56 30.93 26.37 20.56 19.46 21.4 Remarks:
55.41 50.81 48.99 40.99 36.28 32.73 40 40 40 43.5 46 46
-2.44
-9.07
-13.63
-22.94
-26.54
-24.6 Antenna Factor
(dB/m) 12.63 11 8.25 9.98 13.4 18.24 Cable Loss (dB) 0.6 0.85 0.95 1.27 1.68 2.16 Preamp Antenna Table Factor Height Angle Remark
(dB) 31.08 31.73 31.82 31.68 31.9 31.73
(cm)
(Degree) 108 107 138 119 136 115 209 68 333 205 350 219 Peak Peak Peak Peak Peak Peak 1. Emission Level = Read Level + Antenna Factor + Cable Loss - Preamp Factor Margin value = Emission level Limit value Report No.: RF170315C40-1 Page No. 39 / 63 Report Format Version: 6.1.1 Mode C EUT Test Condition Measurement Detail Channel Channel 39 Frequency Range 30 MHz ~ 1 GHz Input Power 120 Vac, 60 Hz Detector Function Peak (PK) Quasi-peak (QP) Environmental Conditions Horizontal 25 deg. C, 65 % RH Tested By Getaz Yang Vertical Report No.: RF170315C40-1 Page No. 40 / 63 Report Format Version: 6.1.1 Antennal Polarity & Test Distance: Horizontal at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 91.11 108.57 191.02 211.39 287.05 482.02 25.09 24.21 26.26 23.05 20.95 20.12 47.7 45.06 46.69 43.46 38.5 32.94 43.5 43.5 43.5 43.5 46 46
-18.41
-19.29
-17.24
-20.45
-25.05
-25.88 8.38 9.9 9.98 9.85 12.57 16.96 0.97 1.1 1.27 1.34 1.6 2.05 Preamp Antenna Table Factor Height Angle Remark
(dB) 31.96 31.85 31.68 31.6 31.72 31.83
(cm)
(Degree) 121 132 138 122 135 107 332 24 218 176 265 43 Peak Peak Peak Peak Peak Peak Antennal Polarity & Test Distance: Vertical at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 31.94 39.7 66.86 158.04 191.99 382.11 37.62 33.72 30.69 21.61 20.22 18.13 Remarks:
55.84 50.53 50.4 39.58 40.73 33.33 40 40 40 43.5 43.5 46
-2.38
-6.28
-9.31
-21.89
-23.28
-27.87 12.3 13.54 11.12 12.73 9.91 14.91 0.59 0.64 0.85 1.13 1.27 1.86 Preamp Antenna Table Factor Height Angle Remark
(dB) 31.11 30.99 31.68 31.83 31.69 31.97
(cm)
(Degree) 124 112 125 110 103 128 60 69 211 16 326 155 Peak Peak Peak Peak Peak Peak 1. Emission Level = Read Level + Antenna Factor + Cable Loss - Preamp Factor Margin value = Emission level Limit value Report No.: RF170315C40-1 Page No. 41 / 63 Report Format Version: 6.1.1 Mode D EUT Test Condition Measurement Detail Channel Channel 39 Frequency Range 30 MHz ~ 1 GHz Input Power 120 Vac, 60 Hz Detector Function Peak (PK) Quasi-peak (QP) Environmental Conditions Horizontal 25 deg. C, 65 % RH Tested By Getaz Yang Vertical Report No.: RF170315C40-1 Page No. 42 / 63 Report Format Version: 6.1.1 Antennal Polarity & Test Distance: Horizontal at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) 32.91 92.08 109.54 191.99 289.96 476.2 25.58 24.23 24.33 25.99 21.33 20.76 43.6 46.75 45.08 46.5 38.74 33.74 40 43.5 43.5 43.5 46 46
-14.42
-19.27
-19.17
-17.51
-24.67
-25.24 Antenna Factor
(dB/m) 12.47 8.45 9.99 9.91 12.65 16.85 Cable Loss (dB) 0.6 0.99 1.1 1.27 1.61 2.04 Preamp Antenna Table Factor Height Angle Remark
(dB) 31.09 31.96 31.84 31.69 31.67 31.87
(cm)
(Degree) 104 108 129 135 131 115 123 243 109 338 206 183 Peak Peak Peak Peak Peak Peak Antennal Polarity & Test Distance: Vertical at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 32.91 39.7 65.89 90.14 191.02 288.02 37.3 33.19 30.48 25.56 20.91 18.13 Remarks:
55.32 50 50.03 48.25 41.34 35.63 40 40 40 43.5 43.5 46
-2.7
-6.81
-9.52
-17.94
-22.59
-27.87 12.47 13.54 11.24 8.3 9.98 12.6 0.6 0.64 0.85 0.97 1.27 1.6 Preamp Antenna Table Factor Height Angle Remark
(dB) 31.09 30.99 31.64 31.96 31.68 31.7
(cm)
(Degree) 121 136 129 108 140 136 297 64 334 202 75 284 Peak Peak Peak Peak Peak Peak 1. Emission Level = Read Level + Antenna Factor + Cable Loss - Preamp Factor Margin value = Emission level Limit value Report No.: RF170315C40-1 Page No. 43 / 63 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 4.2.2 Test Instruments Conducted Limit (dBuV) Quasi-peak 66 - 56 56 60 Average 56 - 46 46 50 Description &
Manufacturer Model No. Serial No. Date Of Calibration Due Date Of Calibration ESCI 5D-FB 100613 Nov. 20, 2017 Nov. 21, 2016 Cable-cond1-01 Dec. 22, 2016 Test Receiver ROHDE & SCHWARZ RF signal cable (with 10dB PAD) Woken LISN ROHDE & SCHWARZ
(EUT) LISN ROHDE & SCHWARZ
(Peripheral) Software ADT Note: 1. The calibration interval of the above test instruments is 12 months and the calibrations are traceable BV ADT_Cond_ Dec. 21, 2017 Mar. 10, 2017 Mar. 09, 2018 Jul. 28, 2016 Jul. 27, 2017 835239/001 ESH3-Z5 ESH3-Z5 V7.3.7.3 100311 NA NA NA to NML/ROC and NIST/USA. 2. The test was performed in HwaYa Shielded Room 1. 3. The VCCI Site Registration No. is C-2040. 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/50 uH 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 150 kHz to 30 MHz was searched. Emission levels under (Limit 20 dB) 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. Report No.: RF170315C40-1 Page No. 44 / 63 Report Format Version: 6.1.1 4.2.5 TEST SETUP 4.2.6 EUT Operating Conditions a. Placed the EUT on the testing table. b. Set the EUT under transmission condition continuously at specific channel frequency. Report No.: RF170315C40-1 Page No. 45 / 63 Report Format Version: 6.1.1 Note: 1.Support units were connected to second LISN. 2.Both of LISNs (AMN) are 80 cm from EUT and at least 80cm from other units and other metal planessupport. units.Vertical GroundReference Plane40cm80cmTest ReceiverHorizontal GroundReference PlaneEUT LISN 4.2.7 Test Results CONDUCTED WORST-CASE DATA Mode A Frequency Range 150kHz ~ 30MHz Input Power 120Vac, 60Hz Detector Function &
Resolution Bandwidth Environmental Conditions Quasi-Peak (QP) /
Average (AV), 9kHz 25, 65%RH Tested by Getaz Yang Test Date 2017/5/26 Frequency Correction Reading Value Emission Level No Factor
(dBuV)
(dBuV) Limit
(dBuV) Margin
(dB) Phase Of Power : Line (L) 1 2 3 4 5 6
(MHz) 0.17000 0.47309 1.10200 1.41400 2.42200 4.49000 Remarks:
(dB) 10.35 10.40 10.41 10.42 10.48 10.59 Q.P. 33.79 AV. 18.78 Q.P. 44.14 AV. 29.13 Q.P. 64.96 AV. Q.P. AV. 54.96
-20.82
-25.83 36.54 31.95 46.94 42.35 56.46 46.46
-9.52
-4.11 25.70 20.03 36.11 30.44 56.00 46.00
-19.89
-15.56 36.42 29.06 46.84 39.48 56.00 46.00
-9.16
-6.52 10.13 11.80 4.20 5.66 20.61 14.68 56.00 46.00
-35.39
-31.32 22.39 16.25 56.00 46.00
-33.61
-29.75 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.: RF170315C40-1 Page No. 46 / 63 Report Format Version: 6.1.1 Frequency Range 150kHz ~ 30MHz Input Power 120Vac, 60Hz Detector Function &
Resolution Bandwidth Environmental Conditions Quasi-Peak (QP) /
Average (AV), 9kHz 25, 65%RH Tested by Getaz Yang Test Date 2017/5/26 Frequency Correction Phase Of Power : Neutral (N) Emission Level Reading Value No Factor
(dBuV)
(dBuV) Limit
(dBuV) Margin
(dB) 1 2 3 4 5 6
(MHz) 0.46600 0.77429 1.07800 1.38602 1.71400 4.74600 Remarks:
(dB) 10.16 10.17 10.17 10.19 10.21 10.37 Q.P. 39.15 AV. 34.36 Q.P. 49.31 AV. 44.52 Q.P. 56.58 AV. 46.58 Q.P.
-7.27 AV.
-2.06 26.57 18.05 36.74 28.22 56.00 46.00
-19.26
-17.78 12.58 12.14 15.63 13.91 2.83 3.23 6.04 5.53 22.75 13.00 56.00 46.00
-33.25
-33.00 22.33 13.42 56.00 46.00
-33.67
-32.58 25.84 16.25 56.00 46.00
-30.16
-29.75 24.28 15.90 56.00 46.00
-31.72
-30.10 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.: RF170315C40-1 Page No. 47 / 63 Report Format Version: 6.1.1 Mode B Frequency Range 150kHz ~ 30MHz Input Power 120Vac, 60Hz Detector Function &
Resolution Bandwidth Environmental Conditions Quasi-Peak (QP) /
Average (AV), 9kHz 25, 65%RH Tested by Getaz Yang Test Date 2017/5/26 Frequency Correction Reading Value Emission Level No Factor
(dBuV)
(dBuV) Limit
(dBuV) Margin
(dB) Phase Of Power : Line (L) 1 2 3 4 5 6
(MHz) 0.46200 0.77000 1.07400 1.68600 2.29800 3.52200 Remarks:
(dB) 10.40 10.40 10.40 10.44 10.48 10.54 Q.P. 33.23 AV. 28.87 Q.P. 43.63 AV. 39.27 Q.P. 56.66 AV. Q.P. 46.66
-13.03 AV.
-7.39 30.95 26.52 41.35 36.92 56.00 46.00
-14.65
-9.08 35.31 31.26 45.71 41.66 56.00 46.00
-10.29
-4.34 35.93 31.92 46.37 42.36 56.00 46.00 36.40 32.49 46.88 42.97 56.00 46.00
-9.63
-9.12
-3.64
-3.03 35.42 31.52 45.96 42.06 56.00 46.00
-10.04
-3.94 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.: RF170315C40-1 Page No. 48 / 63 Report Format Version: 6.1.1 Frequency Range 150kHz ~ 30MHz Input Power 120Vac, 60Hz Detector Function &
Resolution Bandwidth Environmental Conditions Quasi-Peak (QP) /
Average (AV), 9kHz 25, 65%RH Tested by Getaz Yang Test Date 2017/5/26 Frequency Correction Phase Of Power : Neutral (N) Emission Level Reading Value No Factor
(dBuV)
(dBuV) Limit
(dBuV) Margin
(dB) 1 2 3 4 5 6
(MHz) 0.45800 0.76618 1.38200 1.68600 2.29800 2.91000 Remarks:
(dB) 10.16 10.17 10.19 10.21 10.25 10.28 Q.P. 39.51 AV. 35.35 Q.P. 49.67 AV. 45.51 Q.P. 56.73 AV. 46.73 40.44 34.46 50.61 44.63 56.00 46.00 36.39 32.53 46.58 42.72 56.00 46.00 40.46 35.54 50.67 45.75 56.00 46.00 40.85 33.95 51.10 44.20 56.00 46.00 40.54 34.54 50.82 44.82 56.00 46.00 Q.P.
-7.06
-5.39
-9.42
-5.33
-4.90
-5.18 AV.
-1.22
-1.37
-3.28
-0.25
-1.80
-1.18 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.: RF170315C40-1 Page No. 49 / 63 Report Format Version: 6.1.1 Mode C Frequency Range 150kHz ~ 30MHz Input Power 120Vac, 60Hz Detector Function &
Resolution Bandwidth Environmental Conditions Quasi-Peak (QP) /
Average (AV), 9kHz 25, 65%RH Tested by Getaz Yang Test Date 2017/5/26 Frequency Correction Reading Value Emission Level No Factor
(dBuV)
(dBuV) Limit
(dBuV) Margin
(dB) Phase Of Power : Line (L) 1 2 3 4 5 6
(MHz) 0.47000 0.77800 1.09000 1.70200 2.33000 2.63800 Remarks:
(dB) 10.40 10.40 10.41 10.44 10.48 10.50 Q.P. 29.67 AV. 25.08 Q.P. 40.07 AV. 35.48 Q.P. 56.51 AV. Q.P. AV. 46.51
-16.44
-11.03 34.91 30.57 45.31 40.97 56.00 46.00
-10.69
-5.03 32.22 28.05 42.63 38.46 56.00 46.00
-13.37
-7.54 32.84 27.59 43.28 38.03 56.00 46.00
-12.72
-7.97 34.59 30.52 45.07 41.00 56.00 46.00
-10.93
-5.00 36.09 31.98 46.59 42.48 56.00 46.00
-9.41
-3.52 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.: RF170315C40-1 Page No. 50 / 63 Report Format Version: 6.1.1 Frequency Range 150kHz ~ 30MHz Input Power 120Vac, 60Hz Detector Function &
Resolution Bandwidth Environmental Conditions Quasi-Peak (QP) /
Average (AV), 9kHz 25, 65%RH Tested by Getaz Yang Test Date 2017/5/26 Frequency Correction Phase Of Power : Neutral (N) Emission Level Reading Value No Factor
(dBuV)
(dBuV) Limit
(dBuV) Margin
(dB) 1 2 3 4 5 6
(MHz) 0.47000 0.79000 1.08198 1.39000 1.70200 2.95800 Remarks:
(dB) 10.16 10.17 10.17 10.19 10.21 10.28 Q.P. 39.46 AV. 35.44 Q.P. 49.62 AV. 45.60 Q.P. 56.51 AV. 46.51 Q.P.
-6.89 AV.
-0.91 27.47 20.52 37.64 30.69 56.00 46.00
-18.36
-15.31 14.19 12.90 17.00 15.58 6.17 4.05 8.86 6.47 24.36 16.34 56.00 46.00
-31.64
-29.66 23.09 14.24 56.00 46.00
-32.91
-31.76 27.21 19.07 56.00 46.00
-28.79
-26.93 25.86 16.75 56.00 46.00
-30.14
-29.25 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.: RF170315C40-1 Page No. 51 / 63 Report Format Version: 6.1.1 Mode D Frequency Range 150kHz ~ 30MHz Input Power 120Vac, 60Hz Detector Function &
Resolution Bandwidth Environmental Conditions Quasi-Peak (QP) /
Average (AV), 9kHz 25, 65%RH Tested by Getaz Yang Test Date 2017/5/26 Frequency Correction Reading Value Emission Level No Factor
(dBuV)
(dBuV) Limit
(dBuV) Margin
(dB) Phase Of Power : Line (L) 1 2 3 4 5 6
(MHz) 0.50600 0.83000 1.16600 2.51400 3.65000 4.89400 Remarks:
(dB) 10.40 10.40 10.41 10.49 10.55 10.61 Q.P. 14.66 AV. 6.37 Q.P. 25.06 AV. 16.77 Q.P. 56.00 AV. Q.P. AV. 46.00
-30.94
-29.23 16.92 12.45 27.32 22.85 56.00 46.00
-28.68
-23.15 32.69 27.40 43.10 37.81 56.00 46.00
-12.90
-8.19 36.17 32.19 46.66 42.68 56.00 46.00
-9.34
-3.32 10.75 4.59 21.30 15.14 56.00 46.00
-34.70
-30.86 27.33 23.43 37.94 34.04 56.00 46.00
-18.06
-11.96 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.: RF170315C40-1 Page No. 52 / 63 Report Format Version: 6.1.1 Frequency Range 150kHz ~ 30MHz Input Power 120Vac, 60Hz Detector Function &
Resolution Bandwidth Environmental Conditions Quasi-Peak (QP) /
Average (AV), 9kHz 25, 65%RH Tested by Getaz Yang Test Date 2017/5/26 Frequency Correction Phase Of Power : Neutral (N) Emission Level Reading Value No Factor
(dBuV)
(dBuV) Limit
(dBuV) Margin
(dB) 1 2 3 4 5 6
(MHz) 0.51000 0.84200 1.20600 1.88200 2.53390 4.35800 Remarks:
(dB) 10.16 10.17 10.18 10.22 10.26 10.35 Q.P. 27.15 AV. 23.49 Q.P. 37.31 AV. 33.65 Q.P. 56.00 AV. Q.P. AV. 46.00
-18.69
-12.35 33.27 29.28 43.44 39.45 56.00 46.00
-12.56
-6.55 16.36 7.76 26.54 17.94 56.00 46.00
-29.46
-28.06 19.33 12.62 29.55 22.84 56.00 46.00
-26.45
-23.16 40.78 34.97 51.04 45.23 56.00 46.00
-4.96
-0.77 31.57 17.14 41.92 27.49 56.00 46.00
-14.08
-18.51 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.: RF170315C40-1 Page No. 53 / 63 Report Format Version: 6.1.1 4.3 6 dB Bandwidth Measurement 4.3.1 Limits of 6 dB Bandwidth Measurement The minimum of 6 dB Bandwidth Measurement is 0.5 MHz. 4.3.2 Test Setup EUT SPECTRUM ANALYZER 10 dB ATTENUATION PAD 4.3.3 Test Instruments Refer to section 4.1.2 to get information of above instrument. 4.3.4 Test Procedure a. Set resolution bandwidth (RBW) = 100 kHz 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 fromTest 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.: RF170315C40-1 Page No. 54 / 63 Report Format Version: 6.1.1 4.3.7 Test Result Channel Frequency (MHz) 0 19 39 2402 2440 2480 6 dB Bandwidth Minimum Limit
(MHz) 0.68 0.68 0.68
(MHz) 0.5 0.5 0.5 Pass / Fail Pass Pass Pass Spectrum Plot of Worst Value Report No.: RF170315C40-1 Page No. 55 / 63 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 (30 dBm) 4.4.2 Test Setup EUT Power Sensor ATTENUATION PAD Power Meter 4.4.3 Test Instruments Refer to section 4.1.2 to get information of above instrument. 4.4.4 Test Procedures A peak / average power sensor was used on the output port of the EUT. A power meter was used to read the response of the peak / average power sensor. Record the power level. 4.4.5 Deviation from Test Standard No deviation. 4.4.6 EUT Operating Conditions The software provided by client to enable the EUT under transmission condition continuously at lowest, middle and highest channel frequencies individually. 4.4.7 Test Results Channel 0 19 39 Frequency Peak Power Peak Power
(MHz) 2402 2440 2480
(mW) 2.371 2.377 2.328
(dBm) 3.75 3.76 3.67 Limit
(dBm) Pass / Fail 30 30 30 Pass Pass Pass Report No.: RF170315C40-1 Page No. 56 / 63 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 8 dBm. 4.5.2 Test Setup EUT SPECTRUM ANALYZER 10dB ATTENUATION PAD 4.5.3 Test Instruments Refer to section 4.1.2 to get information of above instrument. 4.5.4 Test Procedure a. Set the RBW = 3 kHz, VBW =10 kHz, Detector = peak. b. Sweep time = auto couple, Trace mode = max hold, allow trace to fully stabilize. c. Use the peak marker function to determine the maximum power level in any 100 kHz band segment within the fundamental EBW. 4.5.5 Deviation from Test Standard No deviation. 4.5.6 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.: RF170315C40-1 Page No. 57 / 63 Report Format Version: 6.1.1 4.5.7 Test Results Channel Frequency
(MHz) PSD Limit
(dBm/3 kHz)
(dBm/3 kHz) Pass / Fail 0 19 39 2402 2440 2480
-12.38
-12.30
-12.33 8 8 8 Pass Pass Pass Spectrum Plot of Worst Value Report No.: RF170315C40-1 Page No. 58 / 63 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 Below 20 dB of the highest emission level of operating band (in 100 kHz Resolution Bandwidth). 4.6.2 Test Setup EUT SPECTRUM ANALYZER 10dB ATTENUATION PAD 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 The software provided by client to enable the EUT under transmission condition continuously at lowest, middle and highest channel frequencies individually. Report No.: RF170315C40-1 Page No. 59 / 63 Report Format Version: 6.1.1 4.6.7 TEST RESULTS Ch 0 Ch 19 Ch 39 Report No.: RF170315C40-1 Page No. 60 / 63 Report Format Version: 6.1.1 Ch 0 Band Edge Ch 39 Band Edge Report No.: RF170315C40-1 Page No. 61 / 63 Report Format Version: 6.1.1 5 Pictures of Test Arrangements Please refer to the attached file (Test Setup Photo). Report No.: RF170315C40-1 Page No. 62 / 63 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 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 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.: RF170315C40-1 Page No. 63 / 63 Report Format Version: 6.1.1
| 1 2 | Test Report - DTS(WLAN) R2 | Test Report | 3.24 MiB | July 07 2017 / September 07 2017 |
FCC Test Report Report No.: RF170315C40-2 FCC ID: UK7-DW4A Received Date: Mar. 15, 2017 Test Date: Mar. 28, 2017 ~ May 26, 2017 Issued Date: Jun. 14, 2017 Applicant: Fossil Group, Inc. Address: 901 S. Central Expwy., Richardson, TX 75080 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 (1): No. 19, Hwa Ya 2nd Rd, Wen Hwa Tsuen, Kwei Shan Hsiang, Taoyuan Hsien 333, 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. Report No.: RF170315C40-2 Page No. 1 / 98 Report Format Version: 6.1.1 Table of Contents Release Control Record .................................................................................................................................. 4 1 Certificate of Conformity ........................................................................................................................... 5 2 Summary of Test Results ........................................................................................................................... 6 2.1 Measurement Uncertainty ..................................................................................................................... 6 2.2 Modification Record .............................................................................................................................. 6 3 General Information ................................................................................................................................... 7 3.1 General Description of EUT .................................................................................................................. 7 3.2 Description of Test Modes ..................................................................................................................... 8 3.2.1 Test Mode Applicability and Tested Channel Detail .................................................................... 9 3.3 Duty Cycle of Test Signal ..................................................................................................................... 11 3.4 Description of Support Units ............................................................................................................... 12 3.4.1 Configuration of System under Test ......................................................................................... 12 3.5 General Description of Applied Standards .......................................................................................... 12 4 Test Types and Results ............................................................................................................................ 13 4.1 Radiated Emission and Bandedge Measurement .............................................................................. 13 4.1.1 Limits of Radiated Emission and Bandedge Measurement ..................................................... 13 4.1.2 Test Instruments ....................................................................................................................... 14 4.1.3 Test Procedures ........................................................................................................................ 15 4.1.4 Deviation from Test Standard ................................................................................................... 15 4.1.5 Test Set Up ............................................................................................................................... 16 4.1.6 EUT Operating Conditions ........................................................................................................ 16 4.1.7 Test Results .............................................................................................................................. 17 4.2 Conducted Emission Measurement .................................................................................................... 69 4.2.1 Limits of Conducted Emission Measurement ........................................................................... 69 4.2.2 Test Instruments ....................................................................................................................... 69 4.2.3 Test Procedures ........................................................................................................................ 70 4.2.4 Deviation from Test Standard ................................................................................................... 70 4.2.5 Test Setup ................................................................................................................................. 70 4.2.6 EUT Operating Conditions ........................................................................................................ 70 4.2.7 Test Results .............................................................................................................................. 71 4.3 6dB Bandwidth Measurement ............................................................................................................. 79 4.3.1 Limits of 6dB Bandwidth Measurement .................................................................................... 79 4.3.2 Test Setup ................................................................................................................................. 79 4.3.3 Test Instruments ....................................................................................................................... 79 4.3.4 Test Procedure ......................................................................................................................... 79 4.3.5 Deviation fromTest Standard .................................................................................................... 79 4.3.6 EUT Operating Conditions ........................................................................................................ 79 4.3.7 Test Result ................................................................................................................................ 80 4.4 Conducted Output Power Measurement ............................................................................................ 82 4.4.1 Limits of Conducted Output Power Measurement.................................................................... 82 4.4.2 Test Setup ................................................................................................................................. 82 4.4.3 Test Instruments ....................................................................................................................... 82 4.4.4 Test Procedures ........................................................................................................................ 82 4.4.5 Deviation from Test Standard ................................................................................................... 82 4.4.6 EUT Operating Conditions ........................................................................................................ 82 4.4.7 Test Results .............................................................................................................................. 83 4.5 Power Spectral Density Measurement ............................................................................................... 84 4.5.1 Limits of Power Spectral Density Measurement ....................................................................... 84 4.5.2 Test Setup ................................................................................................................................. 84 4.5.3 Test Instruments ....................................................................................................................... 84 4.5.4 Test Procedure ......................................................................................................................... 84 4.5.5 Deviation from Test Standard ................................................................................................... 84 4.5.6 EUT Operating Condition ......................................................................................................... 84 Report No.: RF170315C40-2 Page No. 2 / 98 Report Format Version: 6.1.1 4.5.7 Test Results .............................................................................................................................. 85 4.6 Conducted Out of Band Emission Measurement ............................................................................... 87 4.6.1 Limits of Conducted Out of Band Emission Measurement ....................................................... 87 4.6.2 Test Setup ................................................................................................................................. 87 4.6.3 Test Instruments ....................................................................................................................... 87 4.6.4 Test Procedure ......................................................................................................................... 87 4.6.5 Deviation from Test Standard ................................................................................................... 87 4.6.6 EUT Operating Condition ......................................................................................................... 87 4.6.7 Test Results .............................................................................................................................. 88 5 Pictures of Test Arrangements................................................................................................................ 97 Appendix Information on the Testing Laboratories ................................................................................ 98 Report No.: RF170315C40-2 Page No. 3 / 98 Report Format Version: 6.1.1 Issue No. Description RF170315C40-2 Original Release Release Control Record Date Issued Jun. 14, 2017 Report No.: RF170315C40-2 Page No. 4 / 98 Report Format Version: 6.1.1 1 Certificate of Conformity Product: Smart Watch Sample Status: Production Unit Applicant: Fossil Group, Inc. Test Date: Mar. 28, 2017 ~ May 26, 2017 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 :
, Date:
Jun. 14, 2017 Ivonne Wu / Supervisor Approved by
:
David Huang / Project Engineer
, Date:
Jun. 14, 2017 Report No.: RF170315C40-2 Page No. 5 / 98 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 Meet the requirement of limit. Minimum passing margin is -0.33 dB at 0.76600 MHz. 15.205 /
15.209 /
15.247(d) 15.247(d) Radiated Emissions and Band Edge Measurement Meet the requirement of limit. Pass Minimum passing margin is -2.37 dB at 32.91 MHz. Antenna Port Emission Pass Meet the requirement of limit. 15.247(a)(2) 6 dB Bandwidth Pass Meet the requirement of limit. 15.247(b) Conducted power Pass Meet the requirement of limit. 15.247(e) Power Spectral Density Pass Meet the requirement of limit. 15.203 Antenna Requirement Pass No antenna connector is used. 2.1 Measurement Uncertainty Where relevant, the following measurement uncertainty levels have been estimated for tests performed on the EUT:
The listed uncertainties are the worst case uncertainty for the entire range of measurement. Please note that the uncertainty values are provided for informational purposes only and are not used in determining the PASS/FAIL results. Measurement Frequency Conducted Emissions at mains ports 150 kHz ~ 30 MHz Radiated Emissions up to 1 GHz Radiated Emissions above 1 GHz 30 MHz ~ 200 MHz 200 MHz ~1000 MHz 1 GHz ~ 18 GHz 18 GHz ~ 40 GHz Expended Uncertainty
(k=2) () 2.44 dB 2.93 dB 2.95 dB 2.26 dB 1.94 dB 2.2 Modification Record There were no modifications required for compliance. Report No.: RF170315C40-2 Page No. 6 / 98 Report Format Version: 6.1.1 3 General Information 3.1 General Description of EUT Product Status of EUT Smart Watch Production Unit Power Supply Rating Modulation Type 5.0 Vdc (from wireless charger) 3.8 Vdc (from battery) CCK, DQPSK, DBPSK for DSSS 64QAM, 16QAM, QPSK, BPSK for OFDM Modulation Technology DSSS, OFDM 802.11b: 11.0 / 5.5 / 2.0 / 1.0 Mbps Transfer Rate 802.11g: 54.0 / 48.0 / 36.0 / 24.0 / 18.0 / 12.0 / 9.0 / 6.0 Mbps Operating Frequency 2412 ~ 2472 MHz 802.11n: up to MCS7 Number of Channel 13 for 802.11b, 802.11g, 802.11n (HT20) Output Power Antenna Type Antenna Connector 81.283 mW Loop antenna N/A Accessory Device Refer to Note as below Data Cable Supplied Refer to Note as below Note:
1. Therere 4 configurations for the EUT listed as below. Sample A B C D Antenna Gain
(dBi)
-6.74
-5.77
-7.1
-6.52 Difference The samples are different in the appearance and antenna only. 2. The EUTs accessories list refers to Ext. Pho. Report No.: RF170315C40-2 Page No. 7 / 98 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):
Channel Frequency (MHz) Channel Frequency (MHz) 1 2 3 4 5 6 7 2412 2417 2422 2427 2432 2437 2442 8 9 10 11 12 13 2447 2452 2457 2462 2467 2472 Report No.: RF170315C40-2 Page No. 8 / 98 Report Format Version: 6.1.1 3.2.1 Test Mode Applicability and Tested Channel Detail EUT Configure Mode Applicable To RE1G RE<1G PLC APCM Description A B C D
-
-
-
Sample B Sample A Sample C Sample D Where RE1G: Radiated Emission above 1 GHz RE<1G: Radiated Emission below 1 GHz PLC: Power Line Conducted Emission APCM: Antenna Port Conducted Measurement NOTE: The EUT had been pre-tested on the positioned of each 3 axis. The worst case was found when positioned on Z-plane for sample C and Y-plane for sample A&B& D. NOTE: -means no effect. Radiated Emission Test (Above 1 GHz):
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. EUT Configure Mode A Mode 802.11b 802.11g Available Channel Tested Channel Modulation Technology Modulation Type Data Rate
(Mbps) 1 to 13 1, 6, 11, 12, 13 1 to 13 1, 6, 11, 12, 13 DSSS OFDM OFDM OFDM DBPSK BPSK BPSK BPSK 1.0 6.0 MCS0 MCS0 802.11n (HT20) 1 to 13 1, 6, 11, 12, 13 B, C, D 802.11n (HT20) 1 to 13 13 Radiated Emission Test (Below 1 GHz):
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. EUT Configure Mode Mode Available Channel Tested Channel Modulation Technology Modulation Type A, B, C, D 802.11n (HT20) 1 to 13 13 OFDM BPSK Data Rate
(Mbps) MCS0 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. EUT Configure Mode Mode Available Channel Tested Channel Modulation Technology Modulation Type A, B, C, D 802.11n (HT20) 1 to 13 13 OFDM BPSK Data Rate
(Mbps) MCS0 Report No.: RF170315C40-2 Page No. 9 / 98 Report Format Version: 6.1.1 Bandedge 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. EUT Configure Mode A Mode 802.11b 802.11g 802.11n (HT20) Available Channel Tested Channel Modulation Technology Modulation Type Data Rate
(Mbps) 1 to 13 1, 11, 12, 13 1 to 13 1 to 13 1, 11, 12, 13 1, 11, 12, 13 DSSS OFDM OFDM DBPSK BPSK BPSK 1.0 6.0 MCS0 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. EUT Configure Mode A Mode 802.11b 802.11g Available Channel Tested Channel Modulation Technology Modulation Type Data Rate
(Mbps) 1 to 13 1, 6, 11, 12, 13 1 to 13 1, 6, 11, 12, 13 DSSS OFDM OFDM DBPSK BPSK BPSK 1.0 6.0 MCS0 802.11n (HT20) 1 to 13 1, 6, 11, 12, 13 Test Condition:
Applicable To Environmental Conditions Input Power RE1G RE<1G PLC APCM 25 deg. C, 65 % RH 25 deg. C, 65 % RH 25 deg. C, 65 % RH 25 deg. C, 65 % RH 5 Vdc 5 Vdc 5 Vdc 3.8 Vdc Tested by Getaz Yang Getaz Yang Getaz Yang Carlos Chen Report No.: RF170315C40-2 Page No. 10 / 98 Report Format Version: 6.1.1 3.3 Duty Cycle of Test Signal 802.11b: Duty cycle of test signal is 100 %
802.11g: Duty cycle = 1.362/1.563 = 0.871, Duty factor = 10 * log(1/0.871) = 0.60 802.11n (HT20): Duty cycle = 1.282/1.483 = 0.864, Duty factor = 10 * log(1/0.864) = 0.63 802.11b 802.11g 802.11n (HT20) Report No.: RF170315C40-2 Page No. 11 / 98 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. No. 1. No. 1. N/A Note:
Product Adapter Brand XIAOMI Model No. MDY-08-EF Serial No. N/A FCC ID N/A Signal Cable Description Of The Above Support Units 1. All power cords of the above support units are non-shielded (1.8m). 3.4.1 Configuration of System under Test Wireless Charger EUT
(EUT)
(Power from wireless charger)
*Test Table 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) 558074 D01 DTS Meas Guidance v04 ANSI C63.10-2013 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
(Verification). The test report has been issued separately. Report No.: RF170315C40-2 Page No. 12 / 98 Report Format Version: 6.1.1 4 Test Types and Results 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 20 dB 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 Measurement Distance
(microvolts/meter)
(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 1000 MHz, 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 20 dB under any condition of modulation. Report No.: RF170315C40-2 Page No. 13 / 98 Report Format Version: 6.1.1 4.1.2 Test Instruments Description &
Manaufacturer Test Receiver Agilent Spectrum Analyzer Agilent Spectrum Analyzer ROHDE & SCHWARZ BILOG Antenna SCHWARZBECK HORN Antenna SCHWARZBECK HORN Antenna SCHWARZBECK Fixed Attenuator Mini-Circuits Model No. Serial No. Date of Calibration Due Date of Calibration N9038A MY51210203 Feb. 17, 2017 Feb. 16, 2018 N9010A MY52220314 Dec. 16, 2016 Dec. 15, 2017 FSU43 101261 Dec. 13, 2016 Dec. 12, 2017 VULB9168 9168-472 Dec. 26, 2016 Dec. 27, 2017 BBHA 9120 D 9120D-969 Dec. 12, 2016 Dec. 13, 2017 BBHA 9170 9170-480 Dec. 14, 2016 Dec. 13, 2017 Loop Antenna EM-6879 BW-N10W5+
NA 269 Jul. 08, 2016 Jul. 07, 2017 Aug. 11, 2016 Aug. 10, 2017 Bluetooth Tester CBT 100946 Jul. 29, 2016 Jul. 28, 2018 Preamplifier EMCI Preamplifier EMCI Preamplifier EMCI Power Meter Anritsu Power Sensor Anritsu RF signal cable HUBER+SUHNNER RF signal cable HUBER+SUHNNER RF Coaxial Cable Worken Software BV ADT Antenna Tower MF Turn Table MF Antenna Tower &Turn Table Controller MF EMC 012645 980115 Oct. 21, 2016 Oct. 20, 2017 EMC 184045 980116 Oct. 21, 2016 Oct. 20, 2017 EMC 330H 980112 Oct. 21, 2016 Oct. 20, 2017 ML2495A 1232002 Sep. 08, 2016 Sep. 07, 2017 MA2411B 1207325 Sep. 08, 2016 Sep. 07, 2017 SUCOFLEX 104 309219/4 2950114 Oct. 21, 2016 Oct. 20, 2017 SUCOFLEX 104 250130/4 Oct. 21, 2016 Oct. 20, 2017 8D-FB Cable-Ch10-01 Oct. 21, 2016 Oct. 20, 2017 E3 6.120103 MFA-440H MFT-201SS MF-7802 NA NA NA NA NA NA NA NA NA NA NA NA 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 test was performed in HwaYa Chamber 10. 3. The horn antenna and preamplifier (model: EMC 184045) are used only for the measurement of emission frequency above 1 GHz if tested. 4. The FCC Site Registration No. is 690701. 5. The IC Site Registration No. is IC7450F-10. Report No.: RF170315C40-2 Page No. 14 / 98 Report Format Version: 6.1.1 4.1.3 Test Procedures a. The EUT was placed on the top of a rotating table 0.8 meters (for below 1 GHz) / 1.5 meters (for above 1 GHz) 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 hold mode when the test frequency is below 1 GHz. f. The test-receiver system was set to peak and average detected 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 120 kHz & 360 KHz for Quasi-peak detection (QP) at frequency below 1 GHz. 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 1 GHz. 3. The resolution bandwidth of test receiver/spectrum analyzer is 1 MHz and the video bandwidth is 1/T for Average (Duty cycle < 98 %) detection at frequency above 1 GHz. 4. The resolution bandwidth of test receiver/spectrum analyzer is 1 MHz and the video bandwidth is 10 Hz
(Duty cycle 98 %) for Average detection (AV) at frequency above 1 GHz. 5. All modes of operation were investigated and the worst-case emissions are reported. 4.1.4 Deviation from Test Standard No deviation. Report No.: RF170315C40-2 Page No. 15 / 98 Report Format Version: 6.1.1 4.1.5 Test Set Up
<Frequency Range below 1 GHz>
3m
<Frequency Range above 1 GHz>
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. Placed the EUT on a testing table. b. Use the software to control the EUT under transmission condition continuously at specific channel frequency. Report No.: RF170315C40-2 Page No. 16 / 98 Report Format Version: 6.1.1 10mAnt. Tower1-4m VariableTurn TableEUT& Support UnitsGround PlaneTest Receiver80cm 4.1.7 Test Results Above 1 GHz Data Mode A 802.11b EUT Test Condition Measurement Detail Channel Channel 1 Frequency Range 1 GHz ~ 25 GHz Input Power 120 Vac, 60 Hz Detector Function Peak (PK) Average (AV) Environmental Conditions Horizontal 25 deg. C, 65 % RH Tested By Getaz Yang Vertical Report No.: RF170315C40-2 Page No. 17 / 98 Report Format Version: 6.1.1 Antennal Polarity & Test Distance: Horizontal at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 2349.25 2371.88 2412 2412 4824 4824 45.16 33.24 84.12 88.32 34.22 44.92 51.83 39.81 90.59 94.79 49.52 60.22 74 54 54 74
-28.84
-20.76
-19.78
-29.08 26.77 26.86 26.96 26.96 30.99 30.99 4.05 4.07 4.09 4.09 6.79 6.79 Preamp Antenna Table Factor Height Angle Remark
(dB) 37.49 37.5 37.52 37.52 53.08 53.08
(cm)
(Degree) 200 200 200 200 115 115 12 12 12 12 90 90 Peak Average Average Peak Average Peak Antennal Polarity & Test Distance: Vertical at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 2370.99 2381.19 2412 2412 4824 4824 45.36 32.15 78.56 81.57 33.25 44.11 Remarks:
51.99 38.71 85.03 88.04 48.55 59.41 74 54 54 74
-28.64
-21.85
-20.75
-29.89 26.81 26.86 26.96 26.96 30.99 30.99 4.05 4.08 4.09 4.09 6.79 6.79 Preamp Antenna Table Factor Height Angle Remark
(dB) 37.49 37.5 37.52 37.52 53.08 53.08
(cm)
(Degree) 155 155 155 155 110 110 192 192 192 192 294 294 Peak Average Average Peak Average Peak 1. Emission Level = Read Level + Antenna Factor + Cable Loss - Preamp Factor Margin value = Emission level Limit value 2. 2412 MHz: Fundamental frequency. Report No.: RF170315C40-2 Page No. 18 / 98 Report Format Version: 6.1.1 EUT Test Condition Measurement Detail Channel Channel 6 Frequency Range 1 GHz ~ 25 GHz Input Power 120 Vac, 60 Hz Detector Function Peak (PK) Average (AV) Environmental Conditions Horizontal 25 deg. C, 65 % RH Tested By Getaz Yang Vertical Report No.: RF170315C40-2 Page No. 19 / 98 Report Format Version: 6.1.1 Antennal Polarity & Test Distance: Horizontal at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 2377.15 2388.09 2437 2437 2488.19 2492.36 4874 4874 45.22 33.54 83.21 88.44 46.44 34.71 34.25 44.79 51.79 40.05 89.49 94.72 52.4 40.6 49.39 59.93 74 54 74 54 54 74
-28.78
-20.46
-27.56
-19.29
-19.75
-29.21 26.86 26.91 27.06 27.06 27.2 27.2 31.06 31.06 4.07 4.08 4.12 4.12 4.16 4.16 6.85 6.85 Preamp Antenna Table Factor Height Angle Remark
(dB) 37.5 37.5 37.46 37.46 37.32 37.25 53.05 53.05
(cm)
(Degree) 199 199 199 199 199 199 120 120 31 31 31 31 31 31 99 99 Peak Average Average Peak Peak Average Average Peak Antennal Polarity & Test Distance: Vertical at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 2366.17 2377.1 2437 2437 2485 2492.16 4874 4874 33.45 45.22 77.33 81.49 46.22 34.26 34.15 44.22 Remarks:
40.07 51.79 83.61 87.77 52.24 40.15 49.29 59.36 54 74 74 54 54 74
-20.55
-28.78
-27.78
-19.74
-19.85
-29.78 26.81 26.86 27.06 27.06 27.15 27.2 31.06 31.06 4.07 4.07 4.12 4.12 4.15 4.16 6.85 6.85 Preamp Antenna Table Factor Height Angle Remark
(dB) 37.5 37.5 37.46 37.46 37.32 37.25 53.05 53.05
(cm)
(Degree) 114 114 114 114 114 114 107 107 166 166 166 166 166 166 346 346 Average Peak Average Peak Peak Average Average Peak 1. Emission Level = Read Level + Antenna Factor + Cable Loss - Preamp Factor Margin value = Emission level Limit value 2. 2437 MHz: Fundamental frequency. Report No.: RF170315C40-2 Page No. 20 / 98 Report Format Version: 6.1.1 EUT Test Condition Measurement Detail Channel Channel 11 Frequency Range 1 GHz ~ 25 GHz Input Power 120 Vac, 60 Hz Detector Function Peak (PK) Average (AV) Environmental Conditions Horizontal 25 deg. C, 65 % RH Tested By Getaz Yang Vertical Report No.: RF170315C40-2 Page No. 21 / 98 Report Format Version: 6.1.1 Antennal Polarity & Test Distance: Horizontal at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 2462 2462 2497.55 2497.58 4924 4924 84.26 88.09 46.79 34.02 33.44 44.99 90.42 94.25 52.68 40.04 48.47 60.02 74 54 54 74
-27.21
-19.98
-20.56
-29.01 27.1 27.1 27.2 27.15 31.12 31.12 4.13 4.13 4.16 4.15 6.88 6.88 Preamp Antenna Table Factor Height Angle Remark
(dB) 37.39 37.39 37.25 37.32 53.03 53.03
(cm)
(Degree) 114 114 114 114 110 110 88 88 88 88 45 45 Average Peak Peak Average Average Peak Antennal Polarity & Test Distance: Vertical at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 2462 2462 2483.33 2494.66 4924 4924 77.39 81.39 33.78 45.88 33.32 44.26 Remarks:
83.55 87.55 39.8 51.77 48.35 59.29 54 74 54 74
-20.22
-28.12
-20.68
-29.74 27.1 27.1 27.15 27.2 31.12 31.12 4.13 4.13 4.15 4.16 6.88 6.88 Preamp Antenna Table Factor Height Angle Remark
(dB) 37.39 37.39 37.32 37.25 53.03 53.03
(cm)
(Degree) 125 125 125 125 108 108 191 191 191 191 315 315 Average Peak Average Peak Average Peak 1. Emission Level = Read Level + Antenna Factor + Cable Loss - Preamp Factor Margin value = Emission level Limit value 2. 2462 MHz: Fundamental frequency. Report No.: RF170315C40-2 Page No. 22 / 98 Report Format Version: 6.1.1 EUT Test Condition Measurement Detail Channel Channel 12 Frequency Range 1 GHz ~ 25 GHz Input Power 120 Vac, 60 Hz Detector Function Peak (PK) Average (AV) Environmental Conditions Horizontal 25 deg. C, 65 % RH Tested By Getaz Yang Vertical Report No.: RF170315C40-2 Page No. 23 / 98 Report Format Version: 6.1.1 Antennal Polarity & Test Distance: Horizontal at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 2467 2467 2483.19 2483.48 4934 4934 85.02 88.65 36.58 47.26 33.94 45.36 91.11 94.74 42.6 53.28 48.97 60.39 54 74 54 74
-17.42
-26.74
-20.06
-28.64 27.1 27.1 27.15 27.15 31.12 31.12 4.13 4.13 4.15 4.15 6.88 6.88 Preamp Antenna Table Factor Height Angle Remark
(dB) 37.32 37.32 37.32 37.32 53.03 53.03
(cm)
(Degree) 139 139 139 139 110 110 72 72 72 72 51 51 Average Peak Average Peak Average Peak Antennal Polarity & Test Distance: Vertical at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 2467 2467 2483.87 2484.1 4934 4934 77.21 81.29 35.45 46.47 33.68 45.03 Remarks:
83.3 87.38 41.47 52.49 48.71 60.06 54 74 54 74
-18.55
-27.53
-20.32
-28.97 27.1 27.1 27.15 27.15 31.12 31.12 4.13 4.13 4.15 4.15 6.88 6.88 Preamp Antenna Table Factor Height Angle Remark
(dB) 37.32 37.32 37.32 37.32 53.03 53.03
(cm)
(Degree) 155 155 155 155 112 112 199 199 199 199 339 339 Average Peak Average Peak Average Peak 1. Emission Level = Read Level + Antenna Factor + Cable Loss - Preamp Factor Margin value = Emission level Limit value 2. 2467 MHz: Fundamental frequency. Report No.: RF170315C40-2 Page No. 24 / 98 Report Format Version: 6.1.1 EUT Test Condition Measurement Detail Channel Channel 13 Frequency Range 1 GHz ~ 25 GHz Input Power 120 Vac, 60 Hz Detector Function Peak (PK) Average (AV) Environmental Conditions Horizontal 25 deg. C, 65 % RH Tested By Getaz Yang Vertical Report No.: RF170315C40-2 Page No. 25 / 98 Report Format Version: 6.1.1 Antennal Polarity & Test Distance: Horizontal at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 2472 2472 2485.56 2485.77 4944 4944 84.22 88.32 41.56 50.68 33.92 43.93 90.24 94.34 47.58 56.7 48.91 58.92 54 74 54 74
-12.44
-23.32
-20.08
-30.07 27.15 27.15 27.15 27.15 31.14 31.14 4.15 4.15 4.15 4.15 6.91 6.91 Preamp Antenna Table Factor Height Angle Remark
(dB) 37.32 37.32 37.32 37.32 53.04 53.04
(cm)
(Degree) 120 120 120 120 112 112 66 66 66 66 115 115 Average Peak Average Peak Average Peak Antennal Polarity & Test Distance: Vertical at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 2472 2472 2485.36 2485.95 4944 4944 77.25 81.62 48.36 38.71 33.74 43.19 Remarks:
83.27 87.64 54.38 44.73 48.73 58.18 74 54 54 74
-25.64
-15.29
-20.26
-30.81 27.15 27.15 27.15 27.15 31.14 31.14 4.15 4.15 4.15 4.15 6.91 6.91 Preamp Antenna Table Factor Height Angle Remark
(dB) 37.32 37.32 37.32 37.32 53.04 53.04
(cm)
(Degree) 177 177 177 177 112 112 155 155 155 155 300 300 Average Peak Peak Average Average Peak 1. Emission Level = Read Level + Antenna Factor + Cable Loss - Preamp Factor Margin value = Emission level Limit value 2. 2472 MHz: Fundamental frequency. Report No.: RF170315C40-2 Page No. 26 / 98 Report Format Version: 6.1.1 802.11g EUT Test Condition Measurement Detail Channel Channel 1 Frequency Range 1 GHz ~ 25 GHz Input Power 120 Vac, 60 Hz Detector Function Peak (PK) Average (AV) Environmental Conditions Horizontal 25 deg. C, 65 % RH Tested By Getaz Yang Vertical Report No.: RF170315C40-2 Page No. 27 / 98 Report Format Version: 6.1.1 Antennal Polarity & Test Distance: Horizontal at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 2367.15 2386.18 2412 2412 4824 4824 46.55 34.31 76.42 86.39 33.12 44.45 53.17 40.87 82.89 92.86 48.42 59.75 74 54 54 74
-27.45
-19.69
-20.88
-29.55 26.81 26.86 26.96 26.96 30.99 30.99 4.07 4.08 4.09 4.09 6.79 6.79 Preamp Antenna Table Factor Height Angle Remark
(dB) 37.5 37.5 37.52 37.52 53.08 53.08
(cm)
(Degree) 131 131 131 131 119 119 55 55 55 55 77 77 Peak Average Average Peak Average Peak Antennal Polarity & Test Distance: Vertical at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 2334 2349.22 2412 2412 4824 4824 44.36 33.47 69.55 79.24 32.89 44.06 Remarks:
51.07 40.14 76.02 85.71 48.19 59.36 74 54 54 74
-29.64
-20.53
-21.11
-29.94 26.72 26.77 26.96 26.96 30.99 30.99 4.04 4.05 4.09 4.09 6.79 6.79 Preamp Antenna Table Factor Height Angle Remark
(dB) 37.47 37.49 37.52 37.52 53.08 53.08
(cm)
(Degree) 112 112 112 112 115 115 45 45 45 45 331 331 Peak Average Average Peak Average Peak 1. Emission Level = Read Level + Antenna Factor + Cable Loss - Preamp Factor Margin value = Emission level Limit value 2. 2412 MHz: Fundamental frequency. Report No.: RF170315C40-2 Page No. 28 / 98 Report Format Version: 6.1.1 EUT Test Condition Measurement Detail Channel Channel 6 Frequency Range 1 GHz ~ 25 GHz Input Power 120 Vac, 60 Hz Detector Function Peak (PK) Average (AV) Environmental Conditions Horizontal 25 deg. C, 65 % RH Tested By Getaz Yang Vertical Report No.: RF170315C40-2 Page No. 29 / 98 Report Format Version: 6.1.1 Antennal Polarity & Test Distance: Horizontal at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 2330.02 2373.51 2437 2437 2488.65 2491.1 4874 4874 46.21 33.53 76.25 86.72 46.87 33.32 33.12 44.27 52.92 40.1 82.53 93 52.83 39.28 48.26 59.41 74 54 74 54 54 74
-27.79
-20.47
-27.13
-20.68
-20.88
-29.73 26.72 26.86 27.06 27.06 27.2 27.2 31.06 31.06 4.04 4.07 4.12 4.12 4.16 4.16 6.85 6.85 Preamp Antenna Table Factor Height Angle Remark
(dB) 37.47 37.5 37.46 37.46 37.32 37.32 53.05 53.05
(cm)
(Degree) 130 130 130 130 130 130 109 109 110 110 110 110 110 110 21 21 Peak Average Average Peak Peak Average Average Peak Antennal Polarity & Test Distance: Vertical at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 2367.41 2384.59 2437 2437 2485.23 2491 4874 4874 45.22 33.09 69.15 79.36 46.07 33.62 32.51 44.09 Remarks:
51.84 39.65 75.43 85.64 52.09 39.58 47.65 59.23 74 54 74 54 54 74
-28.78
-20.91
-27.93
-20.38
-21.49
-29.91 26.81 26.86 27.06 27.06 27.15 27.2 31.06 31.06 4.07 4.08 4.12 4.12 4.15 4.16 6.85 6.85 Preamp Antenna Table Factor Height Angle Remark
(dB) 37.5 37.5 37.46 37.46 37.32 37.32 53.05 53.05
(cm)
(Degree) 127 127 127 127 127 127 115 115 33 33 33 33 33 33 328 328 Peak Average Average Peak Peak Average Average Peak 1. Emission Level = Read Level + Antenna Factor + Cable Loss - Preamp Factor Margin value = Emission level Limit value 2. 2437 MHz: Fundamental frequency. Report No.: RF170315C40-2 Page No. 30 / 98 Report Format Version: 6.1.1 EUT Test Condition Measurement Detail Channel Channel 11 Frequency Range 1 GHz ~ 25 GHz Input Power 120 Vac, 60 Hz Detector Function Peak (PK) Average (AV) Environmental Conditions Horizontal 25 deg. C, 65 % RH Tested By Getaz Yang Vertical Report No.: RF170315C40-2 Page No. 31 / 98 Report Format Version: 6.1.1 Antennal Polarity & Test Distance: Horizontal at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 2462 2462 2483.52 2498.88 4924 4924 76.25 86.06 34.28 45.74 34.15 45.21 82.41 92.22 40.3 51.63 49.18 60.24 54 74 54 74
-19.72
-28.26
-19.85
-28.79 27.1 27.1 27.15 27.2 31.12 31.12 4.13 4.13 4.15 4.16 6.88 6.88 Preamp Antenna Table Factor Height Angle Remark
(dB) 37.39 37.39 37.32 37.25 53.03 53.03
(cm)
(Degree) 132 132 132 132 115 115 71 71 71 71 99 99 Average Peak Average Peak Average Peak Antennal Polarity & Test Distance: Vertical at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 2462 2462 2488.96 2491.64 4924 4924 69.34 79.49 34.21 45.39 33.38 44.18 Remarks:
75.5 85.65 40.17 51.35 48.41 59.21 54 74 54 74
-19.79
-28.61
-20.62
-29.82 27.1 27.1 27.2 27.2 31.12 31.12 4.13 4.13 4.16 4.16 6.88 6.88 Preamp Antenna Table Factor Height Angle Remark
(dB) 37.39 37.39 37.32 37.32 53.03 53.03
(cm)
(Degree) 162 162 162 162 115 115 39 39 39 39 309 309 Average Peak Average Peak Average Peak 1. Emission Level = Read Level + Antenna Factor + Cable Loss - Preamp Factor Margin value = Emission level Limit value 2. 2462 MHz: Fundamental frequency. Report No.: RF170315C40-2 Page No. 32 / 98 Report Format Version: 6.1.1 EUT Test Condition Measurement Detail Channel Channel 12 Frequency Range 1 GHz ~ 25 GHz Input Power 120 Vac, 60 Hz Detector Function Peak (PK) Average (AV) Environmental Conditions Horizontal 25 deg. C, 65 % RH Tested By Getaz Yang Vertical Report No.: RF170315C40-2 Page No. 33 / 98 Report Format Version: 6.1.1 Antennal Polarity & Test Distance: Horizontal at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 2467 2467 2483.22 2483.98 4934 4934 76.26 86.65 35.45 51.29 33.87 45.4 82.35 92.74 41.47 57.31 48.9 60.43 54 74 54 74
-18.55
-22.71
-20.13
-28.6 27.1 27.1 27.15 27.15 31.12 31.12 4.13 4.13 4.15 4.15 6.88 6.88 Preamp Antenna Table Factor Height Angle Remark
(dB) 37.32 37.32 37.32 37.32 53.03 53.03
(cm)
(Degree) 144 144 144 144 150 150 60 60 60 60 87 87 Average Peak Average Peak Average Peak Antennal Polarity & Test Distance: Vertical at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 2467 2467 2486.26 2486.32 4934 4934 69.31 79.58 35.18 50.26 33.54 44.31 Remarks:
75.59 85.86 41.2 56.28 48.57 59.34 54 74 54 74
-18.82
-23.74
-20.46
-29.69 27.06 27.06 27.15 27.15 31.12 31.12 4.12 4.12 4.15 4.15 6.88 6.88 Preamp Antenna Table Factor Height Angle Remark
(dB) 37.46 37.46 37.32 37.32 53.03 53.03
(cm)
(Degree) 152 152 152 152 110 110 22 22 22 22 311 311 Average Peak Average Peak Average Peak 1. Emission Level = Read Level + Antenna Factor + Cable Loss - Preamp Factor Margin value = Emission level Limit value 2. 2467 MHz: Fundamental frequency. Report No.: RF170315C40-2 Page No. 34 / 98 Report Format Version: 6.1.1 EUT Test Condition Measurement Detail Channel Channel 13 Frequency Range 1 GHz ~ 25 GHz Input Power 120 Vac, 60 Hz Detector Function Peak (PK) Average (AV) Environmental Conditions Horizontal 25 deg. C, 65 % RH Tested By Getaz Yang Vertical Report No.: RF170315C40-2 Page No. 35 / 98 Report Format Version: 6.1.1 Antennal Polarity & Test Distance: Horizontal at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 2472 2472 2483.32 2483.65 4944 4944 76.39 86.74 60.26 40.32 33.47 45.26 82.41 92.76 66.28 46.34 48.46 60.25 74 54 54 74
-13.74
-13.68
-20.53
-28.74 27.15 27.15 27.15 27.15 31.14 31.14 4.15 4.15 4.15 4.15 6.91 6.91 Preamp Antenna Table Factor Height Angle Remark
(dB) 37.32 37.32 37.32 37.32 53.04 53.04
(cm)
(Degree) 144 144 144 144 131 131 92 92 92 92 68 68 Average Peak Peak Average Average Peak Antennal Polarity & Test Distance: Vertical at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 2472 2472 2483.17 2483.51 4944 4944 69.38 79.26 58.23 38.56 33.17 44.21 Remarks:
75.4 85.28 64.25 44.58 48.16 59.2 74 54 54 74
-15.77
-15.44
-20.83
-29.79 27.15 27.15 27.15 27.15 31.14 31.14 4.15 4.15 4.15 4.15 6.91 6.91 Preamp Antenna Table Factor Height Angle Remark
(dB) 37.32 37.32 37.32 37.32 53.04 53.04
(cm)
(Degree) 120 120 120 120 119 119 118 118 118 118 320 320 Average Peak Peak Average Average Peak 1. Emission Level = Read Level + Antenna Factor + Cable Loss - Preamp Factor Margin value = Emission level Limit value 2. 2472 MHz: Fundamental frequency. Report No.: RF170315C40-2 Page No. 36 / 98 Report Format Version: 6.1.1 802.11n (HT20) EUT Test Condition Measurement Detail Channel Channel 1 Frequency Range 1 GHz ~ 25 GHz Input Power 120 Vac, 60 Hz Detector Function Peak (PK) Average (AV) Environmental Conditions Horizontal 25 deg. C, 65 % RH Tested By Getaz Yang Vertical Report No.: RF170315C40-2 Page No. 37 / 98 Report Format Version: 6.1.1 Antennal Polarity & Test Distance: Horizontal at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 2344.28 2351.86 2412 2412 4824 4824 45.36 33.85 76.39 86.27 33.26 44.12 52.03 40.48 82.86 92.74 48.56 59.42 74 54 54 74
-28.64
-20.15
-20.74
-29.88 26.77 26.81 26.96 26.96 30.99 30.99 4.05 4.05 4.09 4.09 6.79 6.79 Preamp Antenna Table Factor Height Angle Remark
(dB) 37.49 37.49 37.52 37.52 53.08 53.08
(cm)
(Degree) 171 171 171 171 120 120 5 5 5 5 66 66 Peak Average Average Peak Average Peak Antennal Polarity & Test Distance: Vertical at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 2361.1 2386.25 2412 2412 4824 4824 44.86 32.17 69.54 79.3 32.95 43.76 Remarks:
51.49 38.68 76.01 85.77 48.25 59.06 74 54 54 74
-29.14
-21.83
-21.05
-30.24 26.81 26.91 26.96 26.96 30.99 30.99 4.05 4.08 4.09 4.09 6.79 6.79 Preamp Antenna Table Factor Height Angle Remark
(dB) 37.49 37.5 37.52 37.52 53.08 53.08
(cm)
(Degree) 165 165 165 165 117 117 123 123 123 123 316 316 Peak Average Average Peak Average Peak 1. Emission Level = Read Level + Antenna Factor + Cable Loss - Preamp Factor Margin value = Emission level Limit value 2. 2412 MHz: Fundamental frequency. Report No.: RF170315C40-2 Page No. 38 / 98 Report Format Version: 6.1.1 EUT Test Condition Measurement Detail Channel Channel 6 Frequency Range 1 GHz ~ 25 GHz Input Power 120 Vac, 60 Hz Detector Function Peak (PK) Average (AV) Environmental Conditions Horizontal 25 deg. C, 65 % RH Tested By Getaz Yang Vertical Report No.: RF170315C40-2 Page No. 39 / 98 Report Format Version: 6.1.1 Antennal Polarity & Test Distance: Horizontal at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 2381.51 2387.29 2437 2437 2488.62 2497 4874 4874 46.12 32.84 76.78 86.96 33.29 46.41 33.98 45.2 52.68 39.35 83.06 93.24 39.25 52.3 49.12 60.34 74 54 54 74 54 74
-27.88
-21.16
-20.71
-27.59
-20.02
-28.8 26.86 26.91 27.06 27.06 27.2 27.2 31.06 31.06 4.08 4.08 4.12 4.12 4.16 4.16 6.85 6.85 Preamp Antenna Table Factor Height Angle Remark
(dB) 37.5 37.5 37.46 37.46 37.32 37.25 53.05 53.05
(cm)
(Degree) 149 149 149 149 149 149 142 142 53 53 53 53 53 53 66 66 Peak Average Average Peak Average Peak Average Peak Antennal Polarity & Test Distance: Vertical at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 2388.15 2389.45 2437 2437 2491 2496 4874 4874 33.41 45.36 69.41 79.82 33.84 45.69 33.44 44.92 Remarks:
39.92 51.87 75.69 86.1 39.8 51.58 48.58 60.06 54 74 54 74 54 74
-20.59
-28.64
-20.16
-28.31
-20.56
-29.08 26.91 26.91 27.06 27.06 27.2 27.2 31.06 31.06 4.08 4.08 4.12 4.12 4.16 4.16 6.85 6.85 Preamp Antenna Table Factor Height Angle Remark
(dB) 37.5 37.5 37.46 37.46 37.32 37.25 53.05 53.05
(cm)
(Degree) 127 127 127 127 127 127 132 132 69 69 69 69 69 69 350 350 Average Peak Average Peak Average Peak Average Peak 1. Emission Level = Read Level + Antenna Factor + Cable Loss - Preamp Factor Margin value = Emission level Limit value 2. 2437 MHz: Fundamental frequency. Report No.: RF170315C40-2 Page No. 40 / 98 Report Format Version: 6.1.1 EUT Test Condition Measurement Detail Channel Channel 11 Frequency Range 1 GHz ~ 25 GHz Input Power 120 Vac, 60 Hz Detector Function Peak (PK) Average (AV) Environmental Conditions Horizontal 25 deg. C, 65 % RH Tested By Getaz Yang Vertical Report No.: RF170315C40-2 Page No. 41 / 98 Report Format Version: 6.1.1 Antennal Polarity & Test Distance: Horizontal at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 2462 2462 2483.77 2484.36 4924 4924 76.49 86.62 34.22 47.25 33.65 44.8 82.65 92.78 40.24 53.27 48.68 59.83 54 74 54 74
-19.78
-26.75
-20.35
-29.2 27.1 27.1 27.15 27.15 31.12 31.12 4.13 4.13 4.15 4.15 6.88 6.88 Preamp Antenna Table Factor Height Angle Remark
(dB) 37.39 37.39 37.32 37.32 53.03 53.03
(cm)
(Degree) 133 133 133 133 103 103 75 75 75 75 110 110 Average Peak Average Peak Average Peak Antennal Polarity & Test Distance: Vertical at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 2462 2462 2483.22 2483.78 4924 4924 69.06 79.28 34.55 48.23 33.05 43.36 Remarks:
75.22 85.44 40.57 54.25 48.08 58.39 54 74 54 74
-19.45
-25.77
-20.95
-30.64 27.1 27.1 27.15 27.15 31.12 31.12 4.13 4.13 4.15 4.15 6.88 6.88 Preamp Antenna Table Factor Height Angle Remark
(dB) 37.39 37.39 37.32 37.32 53.03 53.03
(cm)
(Degree) 149 149 149 149 107 107 12 12 12 12 254 254 Average Peak Average Peak Average Peak 1. Emission Level = Read Level + Antenna Factor + Cable Loss - Preamp Factor Margin value = Emission level Limit value 2. 2462 MHz: Fundamental frequency. Report No.: RF170315C40-2 Page No. 42 / 98 Report Format Version: 6.1.1 EUT Test Condition Measurement Detail Channel Channel 12 Frequency Range 1 GHz ~ 25 GHz Input Power 120 Vac, 60 Hz Detector Function Peak (PK) Average (AV) Environmental Conditions Horizontal 25 deg. C, 65 % RH Tested By Getaz Yang Vertical Report No.: RF170315C40-2 Page No. 43 / 98 Report Format Version: 6.1.1 Antennal Polarity & Test Distance: Horizontal at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 2467 2467 2483.28 2484 4934 4934 76.88 86.55 34.41 51.36 33.39 44.82 82.97 92.64 40.43 57.38 48.42 59.85 54 74 54 74
-19.59
-22.64
-20.61
-29.18 27.1 27.1 27.15 27.15 31.12 31.12 4.13 4.13 4.15 4.15 6.88 6.88 Preamp Antenna Table Factor Height Angle Remark
(dB) 37.32 37.32 37.32 37.32 53.03 53.03
(cm)
(Degree) 170 170 170 170 126 126 23 23 23 23 85 85 Average Peak Average Peak Average Peak Antennal Polarity & Test Distance: Vertical at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 2467 2467 2483.42 2484.83 4934 4934 69.2 79.68 34.86 51.29 33.11 43.73 Remarks:
75.29 85.77 40.88 57.31 48.14 58.76 54 74 54 74
-19.14
-22.71
-20.89
-30.27 27.1 27.1 27.15 27.15 31.12 31.12 4.13 4.13 4.15 4.15 6.88 6.88 Preamp Antenna Table Factor Height Angle Remark
(dB) 37.32 37.32 37.32 37.32 53.03 53.03
(cm)
(Degree) 110 110 110 110 116 116 199 199 199 199 294 294 Average Peak Average Peak Average Peak 1. Emission Level = Read Level + Antenna Factor + Cable Loss - Preamp Factor Margin value = Emission level Limit value 2. 2467 MHz: Fundamental frequency. Report No.: RF170315C40-2 Page No. 44 / 98 Report Format Version: 6.1.1 EUT Test Condition Measurement Detail Channel Channel 13 Frequency Range 1 GHz ~ 25 GHz Input Power 120 Vac, 60 Hz Detector Function Peak (PK) Average (AV) Environmental Conditions Horizontal 25 deg. C, 65 % RH Tested By Getaz Yang Vertical Report No.: RF170315C40-2 Page No. 45 / 98 Report Format Version: 6.1.1 Band Edge Peak Horizontal Vertical Report No.: RF170315C40-2 Page No. 46 / 98 Report Format Version: 6.1.1 Average Horizontal Vertical Report No.: RF170315C40-2 Page No. 47 / 98 Report Format Version: 6.1.1 Antennal Polarity & Test Distance: Horizontal at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 2472 2472 2483.52 2483.52 4944 4944 76.92 86.6 43.49 64.05 33.21 43.49 82.94 92.62 49.51 70.07 48.2 58.48 54 74 54 74
-10.51
-9.95
-20.79
-30.51 27.15 27.15 27.15 27.15 31.14 31.14 4.15 4.15 4.15 4.15 6.91 6.91 Preamp Antenna Table Factor Height Angle Remark
(dB) 37.32 37.32 37.32 37.32 53.04 53.04
(cm)
(Degree) 220 220 220 220 194 194 191 191 191 191 186 186 Average Peak Average Peak Average Peak Antennal Polarity & Test Distance: Vertical at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 2472 2472 2483.52 2483.88 4944 4944 69.28 79.14 39 58.03 33.14 44.04 Remarks:
75.3 85.16 45.02 64.05 48.13 59.03 54 74 54 74
-15
-15.97
-20.86
-29.96 27.15 27.15 27.15 27.15 31.14 31.14 4.15 4.15 4.15 4.15 6.91 6.91 Preamp Antenna Table Factor Height Angle Remark
(dB) 37.32 37.32 37.32 37.32 53.04 53.04
(cm)
(Degree) 211 211 211 211 125 125 95 95 95 95 246 246 Average Peak Average Peak Average Peak 1. Emission Level = Read Level + Antenna Factor + Cable Loss - Preamp Factor Margin value = Emission level Limit value 2. 2472 MHz: Fundamental frequency. Report No.: RF170315C40-2 Page No. 48 / 98 Report Format Version: 6.1.1 Mode B 802.11n (HT20) EUT Test Condition Measurement Detail Channel Channel 13 Frequency Range 1 GHz ~ 25 GHz Input Power 120 Vac, 60 Hz Detector Function Peak (PK) Average (AV) Environmental Conditions Horizontal 25 deg. C, 65 % RH Tested By Getaz Yang Vertical Report No.: RF170315C40-2 Page No. 49 / 98 Report Format Version: 6.1.1 Band Edge Peak Horizontal Vertical Report No.: RF170315C40-2 Page No. 50 / 98 Report Format Version: 6.1.1 Average Horizontal Vertical Report No.: RF170315C40-2 Page No. 51 / 98 Report Format Version: 6.1.1 Antennal Polarity & Test Distance: Horizontal at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 2472 2472 2483.56 2483.64 4944 4944 75.35 85.17 40.36 61.8 33.34 44.28 81.37 91.19 46.38 67.82 48.33 59.27 54 74 54 74
-13.64
-12.2
-20.66
-29.72 27.15 27.15 27.15 27.15 31.14 31.14 4.15 4.15 4.15 4.15 6.91 6.91 Preamp Antenna Table Factor Height Angle Remark
(dB) 37.32 37.32 37.32 37.32 53.04 53.04
(cm)
(Degree) 188 188 188 188 128 128 22 22 22 22 76 76 Average Peak Average Peak Average Peak Antennal Polarity & Test Distance: Vertical at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 2472 2472 2483.52 2483.6 4944 4944 74.97 84.73 39.54 60.14 33.12 43.86 Remarks:
80.99 90.75 45.56 66.16 48.11 58.85 54 74 54 74
-14.46
-13.86
-20.88
-30.14 27.15 27.15 27.15 27.15 31.14 31.14 4.15 4.15 4.15 4.15 6.91 6.91 Preamp Antenna Table Factor Height Angle Remark
(dB) 37.32 37.32 37.32 37.32 53.04 53.04
(cm)
(Degree) 119 119 119 119 101 101 172 172 172 172 352 352 Average Peak Average Peak Average Peak 1. Emission Level = Read Level + Antenna Factor + Cable Loss - Preamp Factor Margin value = Emission level Limit value 2. 2472 MHz: Fundamental frequency. Report No.: RF170315C40-2 Page No. 52 / 98 Report Format Version: 6.1.1 Mode C 802.11n (HT20) EUT Test Condition Measurement Detail Channel Channel 13 Frequency Range 1 GHz ~ 25 GHz Input Power 120 Vac, 60 Hz Detector Function Peak (PK) Average (AV) Environmental Conditions Horizontal 25 deg. C, 65 % RH Tested By Getaz Yang Vertical Report No.: RF170315C40-2 Page No. 53 / 98 Report Format Version: 6.1.1 Band Edge Peak Horizontal Vertical Report No.: RF170315C40-2 Page No. 54 / 98 Report Format Version: 6.1.1 Average Horizontal Vertical Report No.: RF170315C40-2 Page No. 55 / 98 Report Format Version: 6.1.1 Antennal Polarity & Test Distance: Horizontal at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 2472 2472 2483.54 2483.56 4944 4944 76.82 86.72 41.03 60.59 33.73 44.99 82.84 92.74 47.05 66.61 48.72 59.98 54 74 54 74
-12.97
-13.41
-20.27
-29.01 27.15 27.15 27.15 27.15 31.14 31.14 4.15 4.15 4.15 4.15 6.91 6.91 Preamp Antenna Table Factor Height Angle Remark
(dB) 37.32 37.32 37.32 37.32 53.04 53.04
(cm)
(Degree) 202 202 202 202 118 118 237 237 237 237 67 67 Average Peak Average Peak Average Peak Antennal Polarity & Test Distance: Vertical at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 2472 2472 2483.52 2483.54 4944 4944 74.93 84.03 59.6 39.65 33.25 44.55 Remarks:
80.95 90.05 65.62 45.67 48.24 59.54 74 54 54 74
-14.4
-14.35
-20.75
-29.45 27.15 27.15 27.15 27.15 31.14 31.14 4.15 4.15 4.15 4.15 6.91 6.91 Preamp Antenna Table Factor Height Angle Remark
(dB) 37.32 37.32 37.32 37.32 53.04 53.04
(cm)
(Degree) 200 200 200 200 105 105 276 276 276 276 322 322 Average Peak Peak Average Average Peak 1. Emission Level = Read Level + Antenna Factor + Cable Loss - Preamp Factor Margin value = Emission level Limit value 2. 2472 MHz: Fundamental frequency. Report No.: RF170315C40-2 Page No. 56 / 98 Report Format Version: 6.1.1 Mode D 802.11n (HT20) EUT Test Condition Measurement Detail Channel Channel 13 Frequency Range 1 GHz ~ 25 GHz Input Power 120 Vac, 60 Hz Detector Function Peak (PK) Average (AV) Environmental Conditions Horizontal 25 deg. C, 65 % RH Tested By Getaz Yang Vertical Report No.: RF170315C40-2 Page No. 57 / 98 Report Format Version: 6.1.1 Band Edge Peak Horizontal Vertical Report No.: RF170315C40-2 Page No. 58 / 98 Report Format Version: 6.1.1 Average Horizontal Vertical Report No.: RF170315C40-2 Page No. 59 / 98 Report Format Version: 6.1.1 Antennal Polarity & Test Distance: Horizontal at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 2472 2472 2483.52 2483.56 4944 4944 76.92 86.7 60.62 41.13 32.39 44.28 82.94 92.72 66.64 47.15 47.38 59.27 74 54 54 74
-13.38
-12.87
-21.61
-29.72 27.15 27.15 27.15 27.15 31.14 31.14 4.15 4.15 4.15 4.15 6.91 6.91 Preamp Antenna Table Factor Height Angle Remark
(dB) 37.32 37.32 37.32 37.32 53.04 53.04
(cm)
(Degree) 110 110 110 110 100 100 146 146 146 146 184 184 Average Peak Peak Average Average Peak Antennal Polarity & Test Distance: Vertical at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 2472 2472 2483.52 2483.64 4944 4944 78.74 88.18 60 39.85 32.28 44 Remarks:
84.76 94.2 66.02 45.87 47.27 58.99 74 54 54 74
-14
-14.15
-21.72
-30 27.15 27.15 27.15 27.15 31.14 31.14 4.15 4.15 4.15 4.15 6.91 6.91 Preamp Antenna Table Factor Height Angle Remark
(dB) 37.32 37.32 37.32 37.32 53.04 53.04
(cm)
(Degree) 100 100 100 100 100 100 187 187 187 187 133 133 Average Peak Peak Average Average Peak 1. Emission Level = Read Level + Antenna Factor + Cable Loss - Preamp Factor Margin value = Emission level Limit value 2. 2472 MHz: Fundamental frequency. Report No.: RF170315C40-2 Page No. 60 / 98 Report Format Version: 6.1.1 9 kHz ~ 30 MHz DATA:
The amplitude of spurious emissions attenuated more than 20 dB below the permissible value is not required to be report. 30 MHz ~ 1 GHz WORST-CASE DATA:
Mode A 802.11n (HT20) EUT Test Condition Measurement Detail Channel Channel 13 Frequency Range 30 MHz ~ 1 GHz Input Power 120 Vac, 60 Hz Detector Function Peak (PK) Quasi-peak (QP) Environmental Conditions Horizontal 25 deg. C, 65 % RH Tested By Getaz Yang Vertical Report No.: RF170315C40-2 Page No. 61 / 98 Report Format Version: 6.1.1 Antennal Polarity & Test Distance: Horizontal at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 31.94 91.11 156.1 191.99 287.05 349.13 26.41 24.23 22.84 25.63 21.4 20.61 44.63 46.84 40.77 46.14 38.95 36.57 40 43.5 43.5 43.5 46 46
-13.59
-19.27
-20.66
-17.87
-24.6
-25.39 12.3 8.38 12.72 9.91 12.57 14.12 0.59 0.97 1.12 1.27 1.6 1.76 Preamp Antenna Table Factor Height Angle Remark
(dB) 31.11 31.96 31.77 31.69 31.72 31.84
(cm)
(Degree) 104 120 127 129 114 131 257 182 140 205 324 13 Peak Peak Peak Peak Peak Peak Antennal Polarity & Test Distance: Vertical at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 32.91 39.7 66.86 90.14 152.22 191.02 37.26 33.37 30.46 25.32 21.66 19.86 Remarks:
55.28 50.18 50.17 48.01 39.49 40.29 40 40 40 43.5 43.5 43.5
-2.74
-6.63
-9.54
-18.18
-21.84
-23.64 12.47 13.54 11.12 8.3 12.71 9.98 0.6 0.64 0.85 0.97 1.12 1.27 Preamp Antenna Table Factor Height Angle Remark
(dB) 31.09 30.99 31.68 31.96 31.66 31.68
(cm)
(Degree) 105 139 140 111 132 110 245 205 356 223 146 102 Peak Peak Peak Peak Peak Peak 1. Emission Level = Read Level + Antenna Factor + Cable Loss - Preamp Factor Margin value = Emission level Limit value Report No.: RF170315C40-2 Page No. 62 / 98 Report Format Version: 6.1.1 Mode B 802.11n (HT20) EUT Test Condition Measurement Detail Channel Channel 13 Frequency Range 30 MHz ~ 1 GHz Input Power 120 Vac, 60 Hz Detector Function Peak (PK) Quasi-peak (QP) Environmental Conditions Horizontal 25 deg. C, 65 % RH Tested By Getaz Yang Vertical Report No.: RF170315C40-2 Page No. 63 / 98 Report Format Version: 6.1.1 Antennal Polarity & Test Distance: Horizontal at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 109.54 191.99 211.39 329.73 518.88 614.91 27.36 24.36 21.99 21.86 21.18 23.56 48.11 44.87 42.4 38.29 32.88 33.6 43.5 43.5 43.5 46 46 46
-16.14
-19.14
-21.51
-24.14
-24.82
-22.44 9.99 9.91 9.85 13.66 17.75 19.79 1.1 1.27 1.34 1.72 2.12 2.29 Preamp Antenna Table Factor Height Angle Remark
(dB) 31.84 31.69 31.6 31.81 31.57 32.12
(cm)
(Degree) 111 132 106 135 102 100 24 31 53 133 78 145 Peak Peak Peak Peak Peak Peak Antennal Polarity & Test Distance: Vertical at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 32.91 66.86 89.17 109.54 191.02 319.06 36.77 31 25.68 22.17 20.26 20.01 Remarks:
54.79 50.71 48.35 42.92 40.69 36.83 40 40 43.5 43.5 43.5 46
-3.23
-9
-17.82
-21.33
-23.24
-25.99 12.47 11.12 8.28 9.99 9.98 13.4 0.6 0.85 0.96 1.1 1.27 1.68 Preamp Antenna Table Factor Height Angle Remark
(dB) 31.09 31.68 31.91 31.84 31.68 31.9
(cm)
(Degree) 129 101 136 101 120 103 194 311 208 305 144 157 Peak Peak Peak Peak Peak Peak 1. Emission Level = Read Level + Antenna Factor + Cable Loss - Preamp Factor Margin value = Emission level Limit value Report No.: RF170315C40-2 Page No. 64 / 98 Report Format Version: 6.1.1 Mode C 802.11n (HT20) EUT Test Condition Measurement Detail Channel Channel 13 Frequency Range 30 MHz ~ 1 GHz Input Power 120 Vac, 60 Hz Detector Function Peak (PK) Quasi-peak (QP) Environmental Conditions Horizontal 25 deg. C, 65 % RH Tested By Getaz Yang Vertical Report No.: RF170315C40-2 Page No. 65 / 98 Report Format Version: 6.1.1 Antennal Polarity & Test Distance: Horizontal at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) 32.91 108.57 191.99 213.33 341.37 508.21 26.52 24.35 25.82 23.04 20.93 21.58 44.54 45.2 46.33 43.39 37.07 33.56 40 43.5 43.5 43.5 46 46
-13.48
-19.15
-17.68
-20.46
-25.07
-24.42 Antenna Factor
(dB/m) 12.47 9.9 9.91 9.93 13.94 17.51 Cable Loss (dB) 0.6 1.1 1.27 1.35 1.74 2.11 Preamp Antenna Table Factor Height Angle Remark
(dB) 31.09 31.85 31.69 31.63 31.82 31.6
(cm)
(Degree) 200 200 200 200 200 200 0 0 0 0 0 0 Peak Peak Peak Peak Peak Peak Antennal Polarity & Test Distance: Vertical at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 32.91 39.7 66.86 150.28 191.02 283.17 37.63 33.13 30.54 21.62 20.21 18.56 Remarks:
55.65 49.94 50.25 39.4 40.64 36.29 40 40 40 43.5 43.5 46
-2.37
-6.87
-9.46
-21.88
-23.29
-27.44 12.47 13.54 11.12 12.71 9.98 12.45 0.6 0.64 0.85 1.12 1.27 1.59 Preamp Antenna Table Factor Height Angle Remark
(dB) 31.09 30.99 31.68 31.61 31.68 31.77
(cm)
(Degree) 122 128 105 115 117 137 353 179 188 289 129 170 Peak Peak Peak Peak Peak Peak 1. Emission Level = Read Level + Antenna Factor + Cable Loss - Preamp Factor Margin value = Emission level Limit value Report No.: RF170315C40-2 Page No. 66 / 98 Report Format Version: 6.1.1 Mode D 802.11n (HT20) EUT Test Condition Measurement Detail Channel Channel 13 Frequency Range 30 MHz ~ 1 GHz Input Power 120 Vac, 60 Hz Detector Function Peak (PK) Quasi-peak (QP) Environmental Conditions Horizontal 25 deg. C, 65 % RH Tested By Getaz Yang Vertical Report No.: RF170315C40-2 Page No. 67 / 98 Report Format Version: 6.1.1 Antennal Polarity & Test Distance: Horizontal at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) 32.91 91.11 108.57 191.02 288.99 491.72 25.86 23.67 23.58 25.87 21.2 21.17 43.88 46.28 44.43 46.3 38.64 33.67 40 43.5 43.5 43.5 46 46
-14.14
-19.83
-19.92
-17.63
-24.8
-24.83 Antenna Factor
(dB/m) 12.47 8.38 9.9 9.98 12.63 17.16 Cable Loss (dB) 0.6 0.97 1.1 1.27 1.61 2.08 Preamp Antenna Table Factor Height Angle Remark
(dB) 31.09 31.96 31.85 31.68 31.68 31.74
(cm)
(Degree) 132 136 112 122 125 126 183 170 122 232 186 75 Peak Peak Peak Peak Peak Peak Antennal Polarity & Test Distance: Vertical at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 32.91 39.7 65.89 90.14 158.04 389.87 37.27 33.03 30.46 26.45 21.6 18.72 Remarks:
55.29 49.84 50.01 49.14 39.57 33.78 40 40 40 43.5 43.5 46
-2.73
-6.97
-9.54
-17.05
-21.9
-27.28 12.47 13.54 11.24 8.3 12.73 15.1 0.6 0.64 0.85 0.97 1.13 1.88 Preamp Antenna Table Factor Height Angle Remark
(dB) 31.09 30.99 31.64 31.96 31.83 32.04
(cm)
(Degree) 127 134 110 101 105 114 75 340 16 257 70 336 Peak Peak Peak Peak Peak Peak 1. Emission Level = Read Level + Antenna Factor + Cable Loss - Preamp Factor Margin value = Emission level Limit value Report No.: RF170315C40-2 Page No. 68 / 98 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 Conducted Limit (dBuV) Quasi-peak 66 - 56 56 60 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 0.50 MHz. 4.2.2 Test Instruments Description &
Manaufacturer Model No. Serial No. Date of Calibration Due Date of Calibration ESCI 5D-FB 100613 Nov. 21, 2016 Cable-cond1-01 Dec. 22, 2016 Test Receiver ROHDE & SCHWARZ RF signal cable (with 10dB PAD) Woken LISN ROHDE & SCHWARZ
(EUT) LISN ROHDE & SCHWARZ
(Peripheral) Software ADT Note: 1. The calibration interval of the above test instruments is 12 months and the calibrations are BV ADT_Cond_ Mar. 10, 2017 Jul. 28, 2016 835239/001 ESH3-Z5 ESH3-Z5 V7.3.7.3 100311 NA NA NA Nov. 20, 2017 Dec. 21, 2017 Mar. 09, 2018 Jul. 27, 2017 traceable to NML/ROC and NIST/USA. 2. The test was performed in HwaYa Shielded Room 1. 3. The VCCI Site Registration No. is C-2040. Report No.: RF170315C40-2 Page No. 69 / 98 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/50 uH 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 150 kHz to 30 MHz was searched. Emission levels under (Limit 20 dB) 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 For the actual test configuration, please refer to the attached file (Test Setup Photo). 4.2.6 EUT Operating Conditions a. Placed the EUT on a testing table. b. Use the software to control the EUT under transmission condition continuously at specific channel frequency. Report No.: RF170315C40-2 Page No. 70 / 98 Report Format Version: 6.1.1 Note: 1.Support units were connected to second LISN. Vertical Ground Reference Plane 40cm 80cm Test Receiver Horizontal Ground Reference Plane EUT LISN 4.2.7 Test Results Mode A Frequency Range 150kHz ~ 30MHz Input Power 120Vac, 60Hz Detector Function &
Resolution Bandwidth Environmental Conditions Quasi-Peak (QP) /
Average (AV), 9kHz 25, 65%RH Tested by Getaz Yang Test Date 2017/5/26 Frequency Correction Reading Value Emission Level No Factor
(dBuV)
(dBuV) Limit
(dBuV) Margin
(dB) Phase Of Power : Line (L) 1 2 3 4 5 6
(MHz) 0.15400 0.79000 1.72600 2.04200 2.67400 4.07400 Remarks:
(dB) 10.35 10.40 10.44 10.46 10.50 10.57 Q.P. 35.54 AV. 26.67 Q.P. 45.89 AV. 37.02 Q.P. 65.78 AV. Q.P. AV. 55.78
-19.89
-18.76 33.03 26.23 43.43 36.63 56.00 46.00
-12.57
-9.37 27.49 17.40 37.93 27.84 56.00 46.00
-18.07
-18.16 37.06 32.72 47.52 43.18 56.00 46.00
-8.48
-2.82 35.42 30.49 45.92 40.99 56.00 46.00
-10.08
-5.01 30.88 24.41 41.45 34.98 56.00 46.00
-14.55
-11.02 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.: RF170315C40-2 Page No. 71 / 98 Report Format Version: 6.1.1 Frequency Range 150kHz ~ 30MHz Input Power 120Vac, 60Hz Detector Function &
Resolution Bandwidth Environmental Conditions Quasi-Peak (QP) /
Average (AV), 9kHz 25, 65%RH Tested by Getaz Yang Test Date 2017/5/26 Frequency Correction Phase Of Power : Neutral (N) Emission Level Reading Value No Factor
(dBuV)
(dBuV) Limit
(dBuV) Q.P. 37.36 AV. 33.31 Q.P. 47.52 AV. 43.47 Q.P. 56.51 AV. 46.51 39.60 34.25 49.78 44.43 56.00 46.00 13.79 16.99 6.20 9.12 23.98 16.39 56.00 46.00
-32.02
-29.61 27.20 19.33 56.00 46.00
-28.80
-26.67 25.23 20.04 35.46 30.27 56.00 46.00
-20.54
-15.73 37.32 26.11 47.59 36.38 56.00 46.00
-8.41
-9.62 Margin
(dB) Q.P.
-8.99
-6.22 AV.
-3.04
-1.57 1 2 3 4 5 6
(MHz) 0.47000 1.09400 1.40600 1.71000 2.03000 2.66200 Remarks:
(dB) 10.16 10.18 10.19 10.21 10.23 10.27 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.: RF170315C40-2 Page No. 72 / 98 Report Format Version: 6.1.1 Mode B Frequency Range 150kHz ~ 30MHz Input Power 120Vac, 60Hz Detector Function &
Resolution Bandwidth Environmental Conditions Quasi-Peak (QP) /
Average (AV), 9kHz 25, 65%RH Tested by Getaz Yang Test Date 2017/5/26 Frequency Correction Reading Value Emission Level No Factor
(dBuV)
(dBuV) Limit
(dBuV) Margin
(dB) Phase Of Power : Line (L) 1 2 3 4 5 6
(MHz) 0.46200 0.76618 1.37800 1.68600 2.29800 2.91000 Remarks:
(dB) 10.40 10.40 10.42 10.44 10.48 10.51 Q.P. 33.37 AV. 28.97 Q.P. 43.77 AV. 39.37 Q.P. 56.66 AV. Q.P. 46.66
-12.89 36.37 32.05 46.77 42.45 56.00 46.00 36.61 32.61 47.03 43.03 56.00 46.00 35.98 31.93 46.42 42.37 56.00 46.00 36.27 32.27 46.75 42.75 56.00 46.00 36.21 32.28 46.72 42.79 56.00 46.00
-9.23
-8.97
-9.58
-9.25
-9.28 AV.
-7.29
-3.55
-2.97
-3.63
-3.25
-3.21 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.: RF170315C40-2 Page No. 73 / 98 Report Format Version: 6.1.1 Frequency Range 150kHz ~ 30MHz Input Power 120Vac, 60Hz Detector Function &
Resolution Bandwidth Environmental Conditions Quasi-Peak (QP) /
Average (AV), 9kHz 25, 65%RH Tested by Getaz Yang Test Date 2017/5/26 Frequency Correction Phase Of Power : Neutral (N) Emission Level Reading Value No Factor
(dBuV)
(dBuV) Limit
(dBuV) Margin
(dB) 1 2 3 4 5 6
(MHz) 0.45837 0.76600 1.07063 1.37800 1.68200 2.60200 Remarks:
(dB) 10.16 10.17 10.17 10.19 10.21 10.26 Q.P. 39.88 AV. 35.64 Q.P. 50.04 AV. 45.80 Q.P. 56.72 AV. 46.72 40.48 35.50 50.65 45.67 56.00 46.00 40.19 34.38 50.36 44.55 56.00 46.00 40.98 34.15 51.17 44.34 56.00 46.00 39.33 33.38 49.54 43.59 56.00 46.00 40.58 34.55 50.84 44.81 56.00 46.00 Q.P.
-6.68
-5.35
-5.64
-4.83
-6.46
-5.16 AV.
-0.92
-0.33
-1.45
-1.66
-2.41
-1.19 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.: RF170315C40-2 Page No. 74 / 98 Report Format Version: 6.1.1 Mode C Frequency Range 150kHz ~ 30MHz Input Power 120Vac, 60Hz Detector Function &
Resolution Bandwidth Environmental Conditions Quasi-Peak (QP) /
Average (AV), 9kHz 25, 65%RH Tested by Getaz Yang Test Date 2017/5/26 Frequency Correction Reading Value Emission Level No Factor
(dBuV)
(dBuV) Limit
(dBuV) Margin
(dB) Phase Of Power : Line (L) 1 2 3 4 5 6
(MHz) 0.46600 0.77800 1.09000 1.72200 2.03800 3.75000 Remarks:
(dB) 10.40 10.40 10.41 10.44 10.46 10.56 Q.P. 35.27 AV. 30.82 Q.P. 45.67 AV. 41.22 Q.P. 56.58 AV. Q.P. 46.58
-10.91 35.72 31.42 46.12 41.82 56.00 46.00 36.32 32.16 46.73 42.57 56.00 46.00
-9.88
-9.27 AV.
-5.36
-4.18
-3.43 18.45 10.07 28.89 20.51 56.00 46.00
-27.11
-25.49 20.38 12.75 30.84 23.21 56.00 46.00
-25.16
-22.79 33.58 29.73 44.14 40.29 56.00 46.00
-11.86
-5.71 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.: RF170315C40-2 Page No. 75 / 98 Report Format Version: 6.1.1 Frequency Range 150kHz ~ 30MHz Input Power 120Vac, 60Hz Detector Function &
Resolution Bandwidth Environmental Conditions Quasi-Peak (QP) /
Average (AV), 9kHz 25, 65%RH Tested by Getaz Yang Test Date 2017/5/26 Frequency Correction Phase Of Power : Neutral (N) Emission Level Reading Value No Factor
(dBuV)
(dBuV) Limit
(dBuV) Margin
(dB) 1 2 3 4 5 6
(MHz) 0.47810 1.09400 1.40600 1.74200 2.03000 4.06200 Remarks:
(dB) 10.16 10.18 10.19 10.21 10.23 10.34 Q.P. 16.23 AV. 11.06 Q.P. 26.39 AV. 21.22 Q.P. 56.37 AV. Q.P. AV. 46.37
-29.98
-25.15 39.32 34.50 49.50 44.68 56.00 46.00 40.07 34.97 50.26 45.16 56.00 46.00
-6.50
-5.74
-1.32
-0.84 16.39 8.47 26.60 18.68 56.00 46.00
-29.40
-27.32 27.57 23.28 37.80 33.51 56.00 46.00
-18.20
-12.49 38.89 32.87 49.23 43.21 56.00 46.00
-6.77
-2.79 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.: RF170315C40-2 Page No. 76 / 98 Report Format Version: 6.1.1 Mode D Frequency Range 150kHz ~ 30MHz Input Power 120Vac, 60Hz Detector Function &
Resolution Bandwidth Environmental Conditions Quasi-Peak (QP) /
Average (AV), 9kHz 25, 65%RH Tested by Getaz Yang Test Date 2017/5/26 Frequency Correction Reading Value Emission Level No Factor
(dBuV)
(dBuV) Limit
(dBuV) Phase Of Power : Line (L) Q.P. 35.78 AV. 31.49 Q.P. 46.18 AV. 41.89 Q.P. 56.00 AV. 46.00 35.75 31.42 46.15 41.82 56.00 46.00 9.79 13.16 10.98 10.02 4.07 7.11 4.82 3.51 20.20 14.48 56.00 46.00
-35.80
-31.52 23.63 17.58 56.00 46.00
-32.37
-28.42 21.53 15.37 56.00 46.00
-34.47
-30.63 20.63 14.12 56.00 46.00
-35.37
-31.88 Margin
(dB) Q.P.
-9.82
-9.85 AV.
-4.11
-4.18 1 2 3 4 5 6
(MHz) 0.50600 0.84600 1.15400 2.12600 3.62600 4.96200 Remarks:
(dB) 10.40 10.40 10.41 10.47 10.55 10.61 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.: RF170315C40-2 Page No. 77 / 98 Report Format Version: 6.1.1 Frequency Range 150kHz ~ 30MHz Input Power 120Vac, 60Hz Detector Function &
Resolution Bandwidth Environmental Conditions Quasi-Peak (QP) /
Average (AV), 9kHz 25, 65%RH Tested by Getaz Yang Test Date 2017/5/26 Frequency Correction Phase Of Power : Neutral (N) Emission Level Reading Value No Factor
(dBuV)
(dBuV) Limit
(dBuV) Margin
(dB) 1 2 3 4 5 6
(MHz) 0.50663 0.84600 1.17800 1.52600 2.19800 4.02200 Remarks:
(dB) 10.16 10.17 10.18 10.20 10.24 10.34 Q.P. 36.94 AV. 33.02 Q.P. 47.10 AV. 43.18 Q.P. 56.00 AV. 46.00 Q.P.
-8.90 AV.
-2.82 34.78 30.79 44.95 40.96 56.00 46.00
-11.05
-5.04 36.66 30.21 46.84 40.39 56.00 46.00
-9.16
-5.61 29.13 24.52 39.33 34.72 56.00 46.00
-16.67
-11.28 17.72 8.63 27.96 18.87 56.00 46.00
-28.04
-27.13 38.98 34.94 49.32 45.28 56.00 46.00
-6.68
-0.72 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.: RF170315C40-2 Page No. 78 / 98 Report Format Version: 6.1.1 4.3 6 dB Bandwidth Measurement 4.3.1 Limits of 6 dB Bandwidth Measurement The minimum of 6 dB Bandwidth Measurement is 0.5 MHz. 4.3.2 Test Setup EUT Attenuator SPECTRUM ANALYZER 4.3.3 Test Instruments Refer to section 4.1.2 to get information of above instrument. 4.3.4 Test Procedure a. Set resolution bandwidth (RBW) = 100 kHz 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 fromTest 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.: RF170315C40-2 Page No. 79 / 98 Report Format Version: 6.1.1 4.3.7 Test Result 802.11b Channel Frequency (MHz) 6 dB Bandwidth Minimum Limit
(MHz)
(MHz) Pass / Fail 1 6 11 12 13 802.11g 2412 2437 2462 2467 2472 8.59 8.10 8.08 8.11 8.57 0.5 0.5 0.5 0.5 0.5 6 dB Bandwidth Minimum Limit
(MHz) 16.39 16.42 16.41 16.42 16.42
(MHz) 0.5 0.5 0.5 0.5 0.5 6 dB Bandwidth Minimum Limit
(MHz) 17.61 17.64 17.64 17.65 17.66
(MHz) 0.5 0.5 0.5 0.5 0.5 Channel Frequency (MHz) 1 6 11 12 13 2412 2437 2462 2467 2472 802.11n (HT20) Channel Frequency (MHz) 1 6 11 12 13 2412 2437 2462 2467 2472 Pass Pass Pass Pass Pass Pass / Fail Pass Pass Pass Pass Pass Pass / Fail Pass Pass Pass Pass Pass Report No.: RF170315C40-2 Page No. 80 / 98 Report Format Version: 6.1.1 Spectrum Plot of Worst Value 802.11b 802.11g 802.11n (HT20) Report No.: RF170315C40-2 Page No. 81 / 98 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 (30 dBm) 4.4.2 Test Setup EUT Attenuator Power Sensor Power Meter 4.4.3 Test Instruments 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. 4.4.5 Deviation from Test Standard No deviation. 4.4.6 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.: RF170315C40-2 Page No. 82 / 98 Report Format Version: 6.1.1 4.4.7 Test Results 802.11b Channel 1 6 11 12 13 802.11g Channel 1 6 11 12 13 802.11n (HT20) Channel 1 6 11 12 13 Frequency Peak Power Peak Power
(MHz) 2412 2437 2462 2467 2472
(mW) 57.016 53.211 59.841 52.602 56.494
(dBm) 17.56 17.26 17.77 17.21 17.52 Frequency Peak Power Peak Power
(MHz) 2412 2437 2462 2467 2472
(mW) 65.615 76.033 71.614 74.989 72.611
(dBm) 18.17 18.81 18.55 18.75 18.61 Frequency Peak Power Peak Power
(MHz) 2412 2437 2462 2467 2472
(mW) 79.25 81.283 79.433 77.983 76.736
(dBm) 18.99 19.10 19.00 18.92 18.85 Limit
(dBm) Pass / Fail 30 30 30 30 30 Pass Pass Pass Pass Pass Limit
(dBm) Pass / Fail 30 30 30 30 30 Pass Pass Pass Pass Pass Limit
(dBm) Pass / Fail 30 30 30 30 30 Pass Pass Pass Pass Pass Report No.: RF170315C40-2 Page No. 83 / 98 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 8 dBm. 4.5.2 Test Setup EUT SPECTRUM ANALYZER 10 dB ATTENUATION PAD 4.5.3 Test Instruments Refer to section 4.1.2 to get information of above instrument. 4.5.4 Test Procedure a. Set analyzer center frequency to DTS channel center frequency. b. Set the span to 1.5 times the DTS bandwidth. c. Set the RBW to: 3 kHz RBW 100 kHz. d. Set the VBW 3 RBW. e. Detector = peak. f. Sweep time = auto couple. g. Trace mode = max hold. h. Allow trace to fully stabilize. i. Use the peak marker function to determine the maximum amplitude level within the RBW. 4.5.5 Deviation from Test Standard No deviation. 4.5.6 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.: RF170315C40-2 Page No. 84 / 98 Report Format Version: 6.1.1 4.5.7 Test Results 802.11b Channel 1 6 11 12 13 802.11g Frequency
(MHz) PSD Limit
(dBm/3 kHz)
(dBm/3 kHz) Pass / Fail 2412 2437 2462 2467 2472
-7.28
-6.91
-6.59
-6.97
-7.19 8 8 8 8 8 Pass Pass Pass Pass Pass Channel Frequency
(MHz) PSD Limit
(dBm/3 kHz)
(dBm/3 kHz) Pass / Fail 1 6 11 12 13 802.11n (HT20) Channel 1 6 11 12 13 2412 2437 2462 2467 2472
-13.43
-13.95
-13.82
-13.10
-13.72 8 8 8 8 8 Pass Pass Pass Pass Pass Frequency
(MHz) PSD Limit
(dBm/3 kHz)
(dBm/3 kHz) Pass / Fail 2412 2437 2462 2467 2472
-14.23
-14.58
-14.83
-13.35
-13.73 8 8 8 8 8 Pass Pass Pass Pass Pass Report No.: RF170315C40-2 Page No. 85 / 98 Report Format Version: 6.1.1 Spectrum Plot of Worst Value 802.11b 802.11g 802.11n (HT20) Report No.: RF170315C40-2 Page No. 86 / 98 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 Below 20 dB of the highest emission level of operating band (in 100 kHz Resolution Bandwidth). 4.6.2 Test Setup EUT 4.6.3 Test Instruments Attenuator SPECTRUM ANALYZER 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 The software provided by client to enable the EUT under transmission condition continuously at lowest, middle and highest channel frequencies individually. Report No.: RF170315C40-2 Page No. 87 / 98 Report Format Version: 6.1.1 4.6.7 Test Results The spectrum plots are attached on the following images. D1 line indicates the highest level, and D2 line indicates the 20 dB offset below D1. It shows compliance with the requirement. 802.11b Ch 1 Ch 6 Ch 11 Report No.: RF170315C40-2 Page No. 88 / 98 Report Format Version: 6.1.1 Ch 12 Ch 13 Report No.: RF170315C40-2 Page No. 89 / 98 Report Format Version: 6.1.1 Ch 1 Band Edge Ch 11 Band Edge Ch 13 Band Edge Ch 12 Band Edge Report No.: RF170315C40-2 Page No. 90 / 98 Report Format Version: 6.1.1 802.11g Ch 1 Ch 6 Ch 11 Report No.: RF170315C40-2 Page No. 91 / 98 Report Format Version: 6.1.1 Ch 12 Ch 13 Report No.: RF170315C40-2 Page No. 92 / 98 Report Format Version: 6.1.1 Ch 1 Band Edge Ch 11 Band Edge Ch 13 Band Edge Ch 12 Band Edge Report No.: RF170315C40-2 Page No. 93 / 98 Report Format Version: 6.1.1 802.11n (HT20) Ch 1 Ch 6 Ch 11 Report No.: RF170315C40-2 Page No. 94 / 98 Report Format Version: 6.1.1 Ch 12 Ch 13 Report No.: RF170315C40-2 Page No. 95 / 98 Report Format Version: 6.1.1 Ch 1 Band Edge Ch 11 Band Edge Ch 13 Band Edge Ch 12 Band Edge Report No.: RF170315C40-2 Page No. 96 / 98 Report Format Version: 6.1.1 5 Pictures of Test Arrangements Please refer to the attached file (Test Setup Photo). Report No.: RF170315C40-2 Page No. 97 / 98 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 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.: RF170315C40-2 Page No. 98 / 98 Report Format Version: 6.1.1
| 1 2 | Test Report - SAR Reupload | RF Exposure Info | 1.08 MiB | July 07 2017 / September 07 2017 |
FCC SAR Test Report FCC SAR Test Report Report No.
: SA170315C40 Applicant
: Fossil Group, Inc. Address Product FCC ID
: 901 S. Central Expressway Richardson, Texas 75080, USA
: Smart Watch
: UK7-DW4A Standards
: FCC 47 CFR Part 2 (2.1093) / IEEE C95.1:1992 / IEEE Std 1528:2013 KDB 865664 D01 v01r04 / KDB 865664 D02 v01r02 IEC 62209-2:2010 / KDB 248227 D01 v02r02 / KDB 447498 D01 v06 Sample Received Date
: Mar. 15, 2017 Date of Testing
: Mar. 31, 2017 ~ Apr. 06, 2017 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 agencies. Prepared By :
Approved By :
Evonne Liu / Specialist Gordon Lin / Assistant Manager 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. Report Format Version 5.0.0 Report No. : SA170315C40 Page No.
: 1 of 29 Issued Date
: Apr. 19, 2017 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 System ................................................................................................................................................... 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) .................................................................................................................... 9 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 .................................................................................................................................................. 18 4.2.1 SAR Test Exclusion Evaluations ...................................................................................................................... 19 Tissue Verification ...................................................................................................................................................... 20 4.3 System Validation ....................................................................................................................................................... 20 4.4 4.5 System Verification ..................................................................................................................................................... 21 4.6 Maximum Output Power ............................................................................................................................................. 22 4.6.1 Maximum Conducted Power ............................................................................................................................ 22 4.6.2 Measured Conducted Power Result ................................................................................................................. 22 SAR Testing Results .................................................................................................................................................. 23 4.7.1 SAR Test Reduction Considerations ................................................................................................................ 23 4.7.2 SAR Results for Extremity Exposure Condition (Separation Distance is 0 cm Gap) ........................................ 24 4.7.3 SAR Results for Face Exposure Condition (Separation Distance is 1.0 cm Gap) ............................................ 25 4.7.4 SAR Measurement Variability ........................................................................................................................... 26 5. Calibration of Test Equipment ............................................................................................................................................ 27 6. Measurement Uncertainty ................................................................................................................................................... 28 7. Information on the Testing Laboratories ........................................................................................................................... 29 Appendix A. SAR Plots of System Verification Appendix B. SAR Plots of SAR Measurement 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. : SA170315C40 Page No.
: 2 of 29 Issued Date
: Apr. 19, 2017 FCC SAR Test Report Release Control Record Report No. Reason for Change SA170315C40 Initial release Date Issued Apr. 19, 2017 Report Format Version 5.0.0 Report No. : SA170315C40 Page No.
: 3 of 29 Issued Date
: Apr. 19, 2017 FCC SAR Test Report 1. Summary of Maximum SAR Value Equipment Class DTS DSS Note:
Mode 2.4G WLAN Bluetooth Highest Reported Face SAR1g
(1.0 cm Gap)
(W/kg) 0.05 N/A Highest Reported Extremity SAR10g
(0 cm Gap)
(W/kg) 0.22 0.04 1. The SAR limit (Head & Body: SAR1g 1.6 W/kg, Extremity: SAR10g 4.0 W/kg) for general population /
uncontrolled exposure is specified in IC RSS-102 Issue 5:2015. Report Format Version 5.0.0 Report No. : SA170315C40 Page No.
: 4 of 29 Issued Date
: Apr. 19, 2017 FCC SAR Test Report 2. Description of Equipment Under Test EUT Type FCC ID Tx Frequency Bands
(Unit: MHz) Uplink Modulations Maximum Tune-up Conducted Power
(Unit: dBm) Antenna Type EUT Stage Note:
Smart Watch UK7-DW4A WLAN : 2412 ~ 2472 Bluetooth : 2402 ~ 2480 802.11b : DSSS 802.11g/n : OFDM Bluetooth : GFSK, /4-DQPSK, 8-DPSK Bluetooth LE: GFSK WLAN 2.4G : 15.5 Bluetooth : 12.5 Loop Antenna
(Peak Antenna Gain : -5.77 dBi for 2.4GHz) Production Unit 1. The detail information of model names and the differences of four samples are as below. EUT Config. Sample Antenna Gain (dBi) Difference 1 2 3 4 A B C D
-6.74
-5.77
-7.1
-6.52 The EUT Config.1~4 are different in the appearance and antenna only. Report Format Version 5.0.0 Report No. : SA170315C40 Page No.
: 5 of 29 Issued Date
: Apr. 19, 2017 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. : SA170315C40 Page No.
: 6 of 29 Issued Date
: Apr. 19, 2017 FCC SAR Test Report Fig-3.1 SPEAG DASY52 System Setup 3.2.1 Robot The DASY52 system uses 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. : SA170315C40 Fig-3.2 SPEAG DASY52 System Page No.
: 7 of 29 Issued Date
: Apr. 19, 2017 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 Report Format Version 5.0.0 Report No. : SA170315C40 Page No.
: 8 of 29 Issued Date
: Apr. 19, 2017 FCC SAR Test Report 3.2.3 Data Acquisition Electronics (DAE) Model Construction Measurement Range Input Offset Voltage Input Bias Current Dimensions 3.2.4 Phantoms 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, 400mV)
< 5V (with auto zero)
< 50 fA 60 x 60 x 68 mm Model Twin SAM Construction 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. Material Vinylester, glass fiber reinforced (VE-GF) Shell Thickness 2 0.2 mm (6 0.2 mm at ear point) Dimensions Length: 1000 mm Width: 500 mm Height: adjustable feet Filling Volume approx. 25 liters Model ELI Construction 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. Material Vinylester, glass fiber reinforced (VE-GF) Shell Thickness 2.0 0.2 mm (bottom plate) Dimensions Major axis: 600 mm Minor axis: 400 mm Filling Volume approx. 30 liters Report Format Version 5.0.0 Report No. : SA170315C40 Page No.
: 9 of 29 Issued Date
: Apr. 19, 2017 FCC SAR Test Report 3.2.5 Device Holder 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). Material POM Model Construction 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. : SA170315C40 Page No.
: 10 of 29 Issued Date
: Apr. 19, 2017 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. : SA170315C40 Page No.
: 11 of 29 Issued Date
: Apr. 19, 2017 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. : SA170315C40 Page No.
: 12 of 29 Issued Date
: Apr. 19, 2017 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
-
-
-
-
-
-
-
-
-
-
-
-
-
-
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
-
0.2 0.2 0.2
-
-
-
-
-
-
-
-
-
-
-
0.2 0.2 0.2
-
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-
-
-
-
-
-
-
-
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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-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
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-
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-
20.0 17.2
-
-
-
-
-
-
-
-
-
-
-
-
-
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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-
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-
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-
17.3
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10.7 Report Format Version 5.0.0 Report No. : SA170315C40 Page No.
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: Apr. 19, 2017 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. : SA170315C40 Page No.
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: Apr. 19, 2017 FCC SAR Test Report 3.4 SAR Measurement Procedure According to the SAR test standard, the recommended procedure for assessing the peak spatial-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 local 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 Scan 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 multiband SAR. Report Format Version 5.0.0 Report No. : SA170315C40 Page No.
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: Apr. 19, 2017 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. : SA170315C40 Page No.
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: Apr. 19, 2017 FCC SAR Test Report 4. SAR Measurement Evaluation 4.1 EUT Configuration and Setting
<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 configurations 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. : SA170315C40 Page No.
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: Apr. 19, 2017 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.
<Considerations Related to Bluetooth for Setup and Testing>
This device has installed Bluetooth engineering testing software which can provide continuous transmitting RF signal. During Bluetooth 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. 4.2 EUT Testing Position Transmitters that are built-in within a wrist watch or similar wrist-worn devices typically operate in speaker mode for voice communication, with the device worn on the wrist and positioned next to the mouth. Next to the mouth exposure requires 1-g SAR, and the wrist-worn condition requires 10-g extremity SAR. The 10-g extremity and 1-g SAR test exclusions may be applied to the wrist and face exposure conditions. When SAR evaluation is required, next to the mouth use is evaluated with the front of the device positioned at 10 mm from a flat phantom filled with head tissue-equivalent medium. The wrist bands should be strapped together to represent normal use conditions. SAR for wrist exposure is evaluated with the back of the devices positioned in direct contact against a flat phantom fill with body tissue-equivalent medium. The wrist bands should be unstrapped and touching the phantom. The space introduced by the watch or wrist bands and the phantom must be representative of actual use conditions. Report Format Version 5.0.0 Report No. : SA170315C40 Page No.
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: Apr. 19, 2017 FCC SAR Test Report 4.2.1 SAR Test Exclusion Evaluations According to KDB 447498 D01, the SAR test exclusion condition is based on source-based time-averaged maximum conducted output power, adjusted for tune-up tolerance, and the minimum test separation distance required for the exposure conditions. The SAR exclusion threshold is determined by the following formula. 1. For the test separation distance <= 50 mm When the minimum test separation distance is < 5 mm, a distance of 5 mm is applied to determine SAR test exclusion. 2. For the test separation distance > 50 mm, and the frequency at 100 MHz to 1500 MHz 3. For the test separation distance > 50 mm, and the frequency at > 1500 MHz to 6 GHz Mode Max. Tune-up Power
(dBm) Max. Tune-up Power
(mW) Ant. to Surface
(mm) BT 12.5 17.78 10 Front Face Calculated Result 2.8 Require SAR Testing?
No Note:
1. When separation distance <= 50 mm and the calculated result shown in above table is <= 3.0 for SAR-1g exposure condition, or <= 7.5 for SAR-10g exposure condition, the SAR testing exclusion is applied. 2. When separation distance > 50 mm and the device output power is less than the calculated result (power threshold, mW) shown in above table, the SAR testing exclusion is applied. Report Format Version 5.0.0 Report No. : SA170315C40 Page No.
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: Apr. 19, 2017 FCC SAR Test Report 4.3 Tissue Verification The measuring results for tissue simulating liquid are shown as below. Test Date Mar. 31, 2017 Apr. 02, 2017 Mar. 31, 2017 Apr. 06, 2017 Note:
Tissue Type Head Head Body Body Frequency
(MHz) 2450 2450 2450 2450 Liquid Temp.
() 23.3 23.5 23.5 23.2 Measured Measured Target Target Conductivity Permittivity Conductivity Permittivity Conductivity Permittivity Deviation Deviation
() 1.872 1.871 2.044 2.021
(r) 39.899 38.915 53.606 50.593
() 1.80 1.80 1.95 1.95
(r) 39.2 39.2 52.7 52.7
(%) 4.00 3.94 4.82 3.64
(%) 1.78
-0.73 1.72
-4.00 1. 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 . 2. Since the maximum deviation of dielectric properties of the tissue simulating liquid is within 5%, SAR correction is evaluated in the measurement uncertainty shown on section 6 of this report. 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 Mar. 31, 2017 Apr. 02, 2017 Mar. 31, 2017 Apr. 06, 2017 Probe S/N 3661 3661 3661 3661
() 1.872 1.871 2.044 2.021 Head Head Body Body 2450 2450 2450 2450 Calibration Point Conductivity Permittivity Sensitivity Probe Probe Modulation Measured Measured Validation for CW Validation for Modulation
(r) Range Linearity Isotropy Type Duty Factor PAR 39.899 38.915 53.606 50.593 Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass OFDM OFDM OFDM OFDM N/A N/A N/A N/A Pass Pass Pass Pass Report Format Version 5.0.0 Report No. : SA170315C40 Page No.
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: Apr. 19, 2017 FCC SAR Test Report 4.5 System Verification The measuring result for system verification is tabulated as below. Test Date Mode Frequency
(MHz) Mar. 31, 2017 Apr. 02, 2017 Head Head 2450 2450 1W Target Measured SAR-1g
(W/kg) 52.60 52.60 SAR-1g
(W/kg) 13.60 12.90 Normalized to 1W SAR-1g
(W/kg) 54.40 51.60 Deviation
(%) Dipole S/N 3.42
-1.90 737 737 Test Date Mode Frequency
(MHz) 1W Target Measured SAR-10g SAR-10g
(W/kg)
(W/kg) Mar. 31, 2017 Apr. 06, 2017 Body Body 2450 2450 24.10 24.10 5.82 5.65 Normalized to 1W Deviation SAR-10g
(W/kg) 23.28 22.60
(%)
-3.40
-6.22 Dipole S/N 737 737 Note:
Probe S/N 3661 3661 Probe S/N 3661 3661 DAE S/N 1277 1277 DAE S/N 1277 1277 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. : SA170315C40 Page No.
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: Apr. 19, 2017 FCC SAR Test Report 4.6 Maximum Output Power 4.6.1 Maximum Conducted Power The maximum conducted average power (Unit: dBm) including tune-up tolerance is shown as below. Mode 802.11b 802.11g 802.11n HT20 Mode Bluetooth 2.4G WLAN 15.5 10.5 10.5 2.4G Bluetooth 12.5 4.6.2 Measured Conducted Power Result The measuring conducted average power (Unit: dBm) is shown as below.
<WLAN 2.4G>
Mode Channel / Frequency (MHz) Average Power Mode 1 (2412) 14.98 Channel / Frequency (MHz) 1 (2412) Average Power 9.76 Mode Channel / Frequency (MHz) 1 (2412) Average Power 9.76 6 (2437) 14.69 6 (2437) 10.34 6 (2437) 10.39 802.11b 11 (2462) 15.17 802.11g 11 (2462) 9.81 12 (2467) 13 (2472) 14.56 14.85 12 (2467) 13 (2472) 10.17 9.84 802.11n (HT20) 11 (2462) 12 (2467) 13 (2472) 9.89 10.17 10.06
<Bluetooth>
Mode Channel / Frequency (MHz) Average Power 0 (2402) 12.47 Bluetooth 39 (2441) 12.43 78 (2480) 12.32 Report Format Version 5.0.0 Report No. : SA170315C40 Page No.
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: Apr. 19, 2017 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
<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. Report Format Version 5.0.0 Report No. : SA170315C40 Page No.
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: Apr. 19, 2017 FCC SAR Test Report 4.7.2 SAR Results for Extremity Exposure Condition (Separation Distance is 0 cm Gap) Plot No. Band Mode Test Position Ch. EUT Config. Phantom 2.4G WLAN 802.11b Rear Face 2.4G WLAN 802.11b Rear Face 2.4G WLAN 802.11b Rear Face 2.4G WLAN 802.11b Rear Face 2.4G WLAN 802.11b Rear Face 2.4G WLAN 802.11b Rear Face 2.4G WLAN 802.11b Rear Face 01 2.4G WLAN 802.11b Rear Face 2.4G WLAN 802.11b Rear Face 2.4G WLAN 802.11b Rear Face 2.4G WLAN 802.11b Rear Face 2.4G WLAN 802.11b Rear Face 2.4G WLAN 802.11b Rear Face 2.4G WLAN 802.11b Rear Face 2.4G WLAN 802.11b Rear Face 11 1 6 11 1 6 11 1 6 11 1 6 11 1 6 02 2.4G WLAN 802.11b Rear Face 11 2.4G WLAN 802.11b Rear Face 2.4G WLAN 802.11b Rear Face 2.4G WLAN 802.11b Rear Face 2.4G WLAN 802.11b Rear Face 2.4G WLAN 802.11b Rear Face 1 6 11 1 6 1 1 1 2 2 2 3 3 3 4 4 4 1 1 1 2 2 2 4 4 4 SAM Phantom-Flat SAM Phantom-Flat SAM Phantom-Flat SAM Phantom-Flat SAM Phantom-Flat SAM Phantom-Flat SAM Phantom-Flat SAM Phantom-Flat SAM Phantom-Flat SAM Phantom-Flat SAM Phantom-Flat SAM Phantom-Flat SAM Phantom-Neck SAM Phantom-Neck SAM Phantom-Neck SAM Phantom-Neck SAM Phantom-Neck SAM Phantom-Neck SAM Phantom-Neck SAM Phantom-Neck SAM Phantom-Neck Max. Tune-up Power
(dBm) Measured Conducted Power
(dBm) Scaling Factor Power Drift
(dB) Measured SAR-10g
(W/kg) Scaled SAR-10g
(W/kg) 15.5 15.17 1.08
-0.1 0.042 0.05 15.5 14.98 1.13
-0.05 0.038 0.04 15.5 14.69 1.21 0.05 0.031 0.04 15.5 15.17 1.08 0.19 0.016 0.02 15.5 14.98 1.13
-0.09 0.011 0.01 15.5 14.69 1.21 0.02 0.00804 0.01 15.5 15.17 1.08
-0.14 0.142 0.15 15.5 14.98 1.13 0.08 0.197 0.22 15.5 14.69 1.21
-0.03 0.177 0.21 15.5 15.17 1.08
-0.15 0.0377 0.04 15.5 14.98 1.13
-0.07 0.058 0.07 15.5 14.69 1.21
-0.09 0.074 0.09 15.5 15.17 1.08
-0.16 0.052 0.06 15.5 14.98 1.13 0.06 0.1 0.11 15.5 14.69 1.21 0.01 0.039 0.05 15.5 15.17 1.08 0 0.128 0.14 15.5 14.98 1.13 0.1 0.063 0.07 15.5 14.69 1.21
-0.08 0.052 0.06 15.5 15.17 1.08 0.08 0.09 0.10 15.5 14.98 1.13
-0.03 0.099 0.11 15.5 14.69 1.21
-0.1 0.094 0.11 Report Format Version 5.0.0 Report No. : SA170315C40 Page No.
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: Apr. 19, 2017 FCC SAR Test Report Plot No. Band Test Position Ch. EUT Config. Phantom Bluetooth Rear Face Bluetooth Rear Face 03 Bluetooth Rear Face Bluetooth Rear Face Bluetooth Rear Face 04 Bluetooth Rear Face Bluetooth Rear Face 0 0 0 0 0 0 0 1 2 3 4 1 2 4 SAM Phantom-Flat SAM Phantom-Flat SAM Phantom-Flat SAM Phantom-Flat SAM Phantom-Neck SAM Phantom-Neck SAM Phantom-Neck Max. Tune-up Power
(dBm) Measured Conducted Power
(dBm) Scaling Factor Power Drift
(dB) Measured SAR-10g
(W/kg) Scaled SAR-10g
(W/kg) 12.5 12.47 1.01 0.07 0.00298 0.00 12.5 12.5 12.47 12.47 1.01 1.01 0.01 0.000641 0.00
-0.09 0.037 0.04 12.5 12.47 1.01
-0.1 0.00203 0.00 12.5 12.47 12.5 12.47 1.01 1.01 0.01 0.009 0 0.01 0.01 0.01 12.5 12.47 1.01
-0.04 0.00702 0.01 4.7.3 SAR Results for Face Exposure Condition (Separation Distance is 1.0 cm Gap) Plot No. Band Mode Test Position Ch. EUT Config. 2.4G WLAN 2.4G WLAN 2.4G WLAN 2.4G WLAN 2.4G WLAN 2.4G WLAN 2.4G WLAN 2.4G WLAN 2.4G WLAN 2.4G WLAN 2.4G WLAN 2.4G WLAN 05 802.11b Front Face 802.11b Front Face 1 6 802.11b Front Face 11 802.11b Front Face 802.11b Front Face 1 6 802.11b Front Face 11 802.11b Front Face 802.11b Front Face 1 6 802.11b Front Face 11 802.11b Front Face 802.11b Front Face 1 6 802.11b Front Face 11 1 1 1 2 2 2 3 3 3 4 4 4 Plot No. Band Test Position Ch. EUT Config. Phantom Bluetooth Front Face Bluetooth Front Face Bluetooth Front Face 0 0 0 Bluetooth Front Face 0 SAM Phantom-Flat SAM Phantom-Flat SAM Phantom-Flat SAM Phantom-Flat 1 2 3 4 Max. Tune-up Power
(dBm) Measured Conducted Power
(dBm) Scaling Factor Power Drift
(dB) Measured SAR-1g
(W/kg) Scaled SAR-1g
(W/kg) 15.5 14.98 1.13 0 0.014 0.02 15.5 14.69 1.21
-0.17 0.024 0.03 15.5 15.17 1.08
-0.18 0.016 0.02 15.5 14.98 1.13 0.01 0.000285 0.00 15.5 14.69 1.21 0.04 0.00222 0.00 15.5 15.17 1.08 0.12 0.01 0.01 15.5 14.98 1.13 0.03 0.035 0.04 15.5 14.69 1.21 0.06 0.034 0.04 15.5 15.17 1.08
-0.16 0.043 0.05 15.5 14.98 1.13
-0.08 0.021 0.02 15.5 14.69 1.21 0.01 0.029 0.03 15.5 15.17 1.08 0.19 0.037 0.04 Max. Tune-up Power
(dBm) Measured Conducted Power
(dBm) Scaling Factor Power Drift
(dB) Measured SAR-10g
(W/kg) Scaled SAR-10g
(W/kg) 12.5 12.47 1.01 12.5 12.47 1.01 12.5 12.5 12.47 12.47 1.01 1.01 0 0 0 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 Report Format Version 5.0.0 Report No. : SA170315C40 Page No.
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: Apr. 19, 2017 FCC SAR Test Report 4.7.4 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. Since all the measured SAR are less than 0.8 W/kg, the repeated measurement is not required. Test EngineerAustin Lin, and Willy Chang Report Format Version 5.0.0 Report No. : SA170315C40 Page No.
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: Apr. 19, 2017 SN 737 3661 1277 FCC SAR Test Report 5. Calibration of Test Equipment Equipment Manufacturer Model Cal. Date Cal. Interval System Validation Dipole Dosimetric E-Field Probe Data Acquisition Electronics ENA Series Network Analyzer MXG Analong Signal Generator Power Meter Power Sensor Thermometer Power Amplifier Attenuator Directional Coupler Dielectric Assessment Kit SPEAG SPEAG SPEAG Agilent Agilent Anritsu Anritsu YFE AR Woken Woken SPEAG D2450V2 EX3DV4 DAE4 E5071C N5181A ML2495A MA2411B YF-160A 5S1G4 Aug. 26, 2016 May. 11, 2016 Jul. 22, 2016 MY46214281 Jun. 13, 2016 MY50143868 Jul. 07, 2016 1218009 1207252 Jul. 06, 2016 Jul. 06, 2016 150601220 May. 04, 2016 0339656 Sep. 21, 2016 00800A1G01L-10 N/A Sep. 21, 2016 0110A05602O-10 11122702 Sep. 21, 2016 DAK-3.5 1151 Aug. 25, 2016 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. : SA170315C40 Page No.
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: Apr. 19, 2017 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 Uncertainty Power Drift of Measurement Power Scaling Phantom and Setup Phantom Uncertainty (Shape and Thickness Tolerances) Liquid Conductivity ( Temperature Uncertainty) Liquid Conductivity (Measured) Liquid Permittivity (Temperature Uncertainty) 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. : SA170315C40 Page No.
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: Apr. 19, 2017 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/Telecom Lab:
Add: No. 19, Hwa Ya 2nd Rd, Wen Hwa Vil., Kwei Shan Hsiang, Taoyuan Hsien 333, 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 Lab:
Add: No. 81-1, Lu Liao Keng, 9th Ling, Wu Lung Vil., Chiung Lin Township, Hsinchu County 307, Taiwan, R.O.C. Tel: 886-3-593-5343 Fax: 886-3-593-5342 Email: service.adt@tw.bureauveritas.com Web Site: www.adt.com.tw 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. : SA170315C40 Page No.
: 29 of 29 Issued Date
: Apr. 19, 2017 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. : SA170315C40 Issued Date
: Apr. 19, 2017 Test Laboratory: Bureau Veritas ADT SAR/HAC Testing Lab Date: 2017/03/31 System Check_H2450_170331 DUT: Dipole 2450 MHz; Type: D2450V2; SN: 737 Communication System: CW; Frequency: 2450 MHz;Duty Cycle: 1:1 Medium: H19T27N2_0331 Medium parameters used: f = 2450 MHz; = 1.872 S/m; r = 39.899; =
1000 kg/m3 Ambient Temperature23.6 ; Liquid Temperature23.3 DASY5 Configuration:
- Probe: EX3DV4 - SN3661; ConvF(7.32, 7.32, 7.32); Calibrated: 2016/05/11;
- Sensor-Surface: 1.4mm (Mechanical Surface Detection)
- Electronics: DAE4 Sn1277; Calibrated: 2016/07/22
- Phantom: Twin SAM Phantom_1822; Type: QD000P40;
- Measurement SW: DASY52, Version 52.8 (8); SEMCAD X Version 14.6.10 (7373) Pin=250mW/Area Scan (81x81x1): Interpolated grid: dx=1.200 mm, dy=1.200 mm Maximum value of SAR (interpolated) = 23.1 W/kg Pin=250mW/Zoom Scan (7x7x7)/Cube 0: Measurement grid: dx=5mm, dy=5mm, dz=5mm Reference Value = 107.1 V/m; Power Drift = 0.01 dB Peak SAR (extrapolated) = 29.0 W/kg SAR(1 g) = 13.6 W/kg; SAR(10 g) = 6.19 W/kg Maximum value of SAR (measured) = 23.3 W/kg Test Laboratory: Bureau Veritas ADT SAR/HAC Testing Lab Date: 2017/04/06 System Check_B2450_170406 DUT: Dipole 2450 MHz; Type: D2450V2; SN: 737 Communication System: CW; Frequency: 2450 MHz;Duty Cycle: 1:1 Medium: B19T27N5_0406 Medium parameters used: f = 2450 MHz; = 2.021 S/m; r = 50.593; =
1000 kg/m3 Ambient Temperature23.4 ; Liquid Temperature23.2 DASY5 Configuration:
- Probe: EX3DV4 - SN3661; ConvF(7.44, 7.44, 7.44); Calibrated: 2016/05/11;
- Sensor-Surface: 1.4mm (Mechanical Surface Detection)
- Electronics: DAE4 Sn1277; Calibrated: 2016/07/22
- Phantom: Twin SAM Phantom_1485; Type: QD000P40;
- Measurement SW: DASY52, Version 52.8 (8); SEMCAD X Version 14.6.10 (7373) Pin=250mW/Area Scan (81x81x1): Interpolated grid: dx=1.200 mm, dy=1.200 mm Maximum value of SAR (interpolated) = 18.8 W/kg Pin=250mW/Zoom Scan (7x7x7)/Cube 0: Measurement grid: dx=5mm, dy=5mm, dz=5mm Reference Value = 97.97 V/m; Power Drift = -0.11 dB Peak SAR (extrapolated) = 25.1 W/kg SAR(1 g) = 12.2 W/kg; SAR(10 g) = 5.65 W/kg Maximum value of SAR (measured) = 18.7 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. : SA170315C40 Issued Date
: Apr. 19, 2017 Test Laboratory: Bureau Veritas ADT SAR/HAC Testing Lab Date: 2017/03/31 P01 2.4G WLAN_802.11b_Rear Face_0cm_Ch6_EUT 3 DUT: 170315C45 Communication System: WLAN_2.4G; Frequency: 2437 MHz;Duty Cycle: 1:1 Medium: B19T27N5_0331 Medium parameters used: f = 2437 MHz; = 2.029 S/m; r = 53.643; =
1000 kg/m3 Ambient Temperature23.6 ; Liquid Temperature23.3 DASY5 Configuration:
- Probe: EX3DV4 - SN3661; ConvF(7.44, 7.44, 7.44); Calibrated: 2016/05/11;
- Sensor-Surface: 1.4mm (Mechanical Surface Detection)
- Electronics: DAE4 Sn1277; Calibrated: 2016/07/22
- Phantom: Twin SAM Phantom_1654; Type: QD000P40;
- Measurement SW: DASY52, Version 52.8 (8); SEMCAD X Version 14.6.10 (7373)
- Area Scan (71x181x1): Interpolated grid: dx=1.200 mm, dy=1.200 mm Maximum value of SAR (interpolated) = 0.621 W/kg
- Zoom Scan (5x5x7)/Cube 0: Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 15.64 V/m; Power Drift = 0.08 dB Peak SAR (extrapolated) = 0.979 W/kg SAR(1 g) = 0.490 W/kg; SAR(10 g) = 0.197 W/kg Maximum value of SAR (measured) = 0.611 W/kg Test Laboratory: Bureau Veritas ADT SAR/HAC Testing Lab Date: 2017/04/06 P02 2.4G WLAN_802.11b_Rear Face_0cm_Ch11_EUT 2_SAM Phantom-Neck DUT: 170315C45 Communication System: WLAN_2.4G; Frequency: 2462 MHz;Duty Cycle: 1:1 Medium: B19T27N5_0406 Medium parameters used: f = 2462 MHz; = 2.035 S/m; r = 50.562; =
1000 kg/m3 Ambient Temperature23.4 ; Liquid Temperature23.2 DASY5 Configuration:
- Probe: EX3DV4 - SN3661; ConvF(7.44, 7.44, 7.44); Calibrated: 2016/05/11;
- Sensor-Surface: 1.4mm (Mechanical Surface Detection)
- Electronics: DAE4 Sn1277; Calibrated: 2016/07/22
- Phantom: Twin SAM Phantom_1485; Type: QD000P40;
- Measurement SW: DASY52, Version 52.8 (8); SEMCAD X Version 14.6.10 (7373)
- Area Scan (91x71x1): Interpolated grid: dx=1.200 mm, dy=1.200 mm Maximum value of SAR (interpolated) = 0.588 W/kg
- Zoom Scan (5x5x7)/Cube 0: Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 0 V/m; Power Drift = 0.00 dB Peak SAR (extrapolated) = 1.05 W/kg SAR(1 g) = 0.395 W/kg; SAR(10 g) = 0.128 W/kg Maximum value of SAR (measured) = 0.512 W/kg Test Laboratory: Bureau Veritas ADT SAR/HAC Testing Lab Date: 2017/03/31 P03 Bluetooth_Rear Face_0cm_Ch0_EUT 3_SAM Phantom-Flat DUT: 170315C45 Communication System: Bluetooth; Frequency: 2402 MHz;Duty Cycle: 1:1 Medium: B19T27N5_0331 Medium parameters used: f = 2402 MHz; = 1.99 S/m; r = 53.755; =
1000 kg/m3 Ambient Temperature23.6 ; Liquid Temperature23.3 DASY5 Configuration:
- Probe: EX3DV4 - SN3661; ConvF(7.44, 7.44, 7.44); Calibrated: 2016/05/11;
- Sensor-Surface: 1.4mm (Mechanical Surface Detection)
- Electronics: DAE4 Sn1277; Calibrated: 2016/07/22
- Phantom: Twin SAM Phantom_1654; Type: QD000P40;
- Measurement SW: DASY52, Version 52.8 (8); SEMCAD X Version 14.6.10 (7373)
- Area Scan (71x181x1): Interpolated grid: dx=1.200 mm, dy=1.200 mm Maximum value of SAR (interpolated) = 0.105 W/kg
- Zoom Scan (5x5x7)/Cube 0: Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 6.390 V/m; Power Drift = -0.09 dB Peak SAR (extrapolated) = 0.231 W/kg SAR(1 g) = 0.118 W/kg; SAR(10 g) = 0.037 W/kg Maximum value of SAR (measured) = 0.122 W/kg Test Laboratory: Bureau Veritas ADT SAR/HAC Testing Lab Date: 2017/04/06 P04 Bluetooth_Rear Face_0cm_Ch0_EUT 2_SAM Phantom-Neck DUT: 170315C45 Communication System: BT; Frequency: 2402 MHz;Duty Cycle: 1:1 Medium: B19T27N5_0406 Medium parameters used: f = 2402 MHz; = 1.966 S/m; r = 50.717; =
1000 kg/m3 Ambient Temperature23.4 ; Liquid Temperature23.2 DASY5 Configuration:
- Probe: EX3DV4 - SN3661; ConvF(7.44, 7.44, 7.44); Calibrated: 2016/05/11;
- Sensor-Surface: 1.4mm (Mechanical Surface Detection)
- Electronics: DAE4 Sn1277; Calibrated: 2016/07/22
- Phantom: Twin SAM Phantom_1485; Type: QD000P40;
- Measurement SW: DASY52, Version 52.8 (8); SEMCAD X Version 14.6.10 (7373)
- Area Scan (91x71x1): Interpolated grid: dx=1.200 mm, dy=1.200 mm Maximum value of SAR (interpolated) = 0.0555 W/kg
- Zoom Scan (5x5x7)/Cube 0: Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 0 V/m; Power Drift = 0.00 dB Peak SAR (extrapolated) = 0.0690 W/kg SAR(1 g) = 0.032 W/kg; SAR(10 g) = 0.010 W/kg Maximum value of SAR (measured) = 0.0534 W/kg Test Laboratory: Bureau Veritas ADT SAR/HAC Testing Lab Date: 2017/03/31 P05 2.4G WLAN_802.11b_Front Face_1cm_Ch11_EUT 3 DUT: 170315C45 Communication System: WLAN_2.4G; Frequency: 2462 MHz;Duty Cycle: 1:1 Medium: H19T27N2_0331 Medium parameters used: f = 2462 MHz; = 1.885 S/m; r = 39.869; =
1000 kg/m3 Ambient Temperature23.6 ; Liquid Temperature23.3 DASY5 Configuration:
- Probe: EX3DV4 - SN3661; ConvF(7.32, 7.32, 7.32); Calibrated: 2016/05/11;
- Sensor-Surface: 1.4mm (Mechanical Surface Detection)
- Electronics: DAE4 Sn1277; Calibrated: 2016/07/22
- Phantom: Twin SAM Phantom_1822; Type: QD000P40;
- Measurement SW: DASY52, Version 52.8 (8); SEMCAD X Version 14.6.10 (7373)
- Area Scan (71x191x1): Interpolated grid: dx=1.200 mm, dy=1.200 mm Maximum value of SAR (interpolated) = 0.0387 W/kg
- Zoom Scan (5x5x7)/Cube 0: Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 3.400 V/m; Power Drift = -0.16 dB Peak SAR (extrapolated) = 0.0850 W/kg SAR(1 g) = 0.043 W/kg; SAR(10 g) = 0.014 W/kg Maximum value of SAR (measured) = 0.0582 W/kg
| 1 2 | Test Report - SAR Reupload(Appendix C) | RF Exposure Info | 5.02 MiB | July 07 2017 / September 07 2017 |
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. : SA170315C40 Issued Date
: Apr. 19, 2017
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Add: No.51 Xueyuan Road, Haidian District, Beijing, 100191, China Tel: +86-10-62304633-2218 E-mail: cttl@chinattl.com Fax: +86-10-62304633-2209 Http://www.chmattl.cn
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~lIBRAnON C AS LOS70 Client AudeD Certificate No: Z1697055 CALIBRATION CERTIFICATE Object EX3DV4 - SN:3661 Calibration Procedure(s) FD-Z11-2-004-01 Calibration Procedures for Dosimetric E-field Probes Calibration date:
May 11,2016 This calibration Certificate documents the traceability to national standards, which realize the physical units of measurements(SI). The measurements and the uncertainties with confidence probability are given on the following pages and are part of the certificate. All calibrations have been conducted in the closed laboratory facility: environment temperature(223)OC and humidity<70%. Calibration Equipment used (M&TE critical for calibration) Cal Date(Calibrated by, Certificate No.) ID #
101919 101547 101548 Primary Standards 01-Jul-15 (CTIL, No.J15X04256) Power Meter NRP2 01-Jul-15 (CTTL, No.J15X04256) Power sensor NRP-Z91 Power sensor NRP-Z91 01-Jul-15 (CTTL, No.J15X04256) Reference10dBAttenuator 18N50W-10dB 13-Mar-16(CTTL,No.J16X01547) Reference20dBAttenuator 18N50W-20dB 13-Mar-16(CTTL, No.J16X01548) Reference Probe EX3DV4 SN 3617 DAE4 SN 1331 26-Aug-15(SPEAG,I\lo.EX3-3617_Aug15) 21-Jan-16(SPEAG, No.DAE4-1331_Jan16) Scheduled Calibration Jun-16 Jun-16 Jun-16 l\I1ar-18 Mar-18 Aug-16 Jan -17 Secondary Standards SignaiGeneratorMG3700A 6201052605 Network Analyzer E5071 C MY46110673 ID #
Cal Date(Calibrated by, Certificate No.) 01-Jul-15 (CTIL, No.J15X04255) 26-Jan-16 (CTTL, No.J16X00894) Name Function Yu Zongying SAR Test Engineer Calibrated by:
Reviewed by:
Approved by:
Qi Dianyuan SAR Project Leader ~ ~
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Lu Bingsong Deputy Director of the laboratory This calibration certificate shall not be reproduced except in full without written approval of the laboratory. Issued: May t" 12016 Certificate No: Z16-97055 Page 1 of II Scheduled Calibration Jun-16 Jan -17 Signature
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-TTL L...P e a 9__ In C Rabor8'0 wi CAUBRATION LABORATORY Add: No.51 Xueyuan Road, Haidian District, Beijing, 100191, China Tel: +86-10-62304633-2218 E-mail: ctl1@chinatl1.com Fax: +86-10-62304633-2209 Htlp://www.chinall1.cn Glossary:
TSL NORMx,y,z ConvF DCP CF A,B,C,D Polarization <t>
Polarization 8 tissue simulating liquid sensitivity in free space sensitivity in TSL / NORMx,y,z diode compression point crest factor (1 /duty-cycle) of the RF signal modulation dependent linearization parameters
<t> rotation around probe axis 8 rotation around an axis that is in the plane normal to probe axis (at measurement center), i 8=0 is normal to probe axis information used in DASY system to align probe sensor X to the robot coordinate system Connector Angle Calibration is Performed According to the Following Standards:
a) IEEE Std 1528-2013, "IEEE Recommended Practice for Determining the Peak Spatial-Averaged Specific Absorption Rate (SAR) in the Human Head from Wireless Communications Devices:
Measurement Techniques", June 2013 b) IEC 62209-1, "Procedure to measure the Specific Absorption Rate (SAR) for hand-held devices used in close proximity to the ear (frequency range of 300MHz to 3GHz)", February 2005 c) IEC 62209-2, "Procedure to determine the Specific Absorption Rate (SAR) for wireless communication devices used in close proximity to the human body (frequency range of 30 MHz to 6 GHz)", March 2010 d) KDB 865664, "SAR Measurement Requirements for 100 MHz to 6 GHz"
Methods Applied and Interpretation of Parameters:
NORMx,y,z: Assessed for E-field polarization 8=0 (f~900IVlHz in TEM-cell; f>1800IVlHz: waveguide). NORMx,y,z are only intermediate values, i.e., the uncertainties of NORMx,y,z does not effect the E 2 -field uncertainty inside TSL (see below ConvF). NORM(f)x,y,z = NORMx,y,z* frequency-response (see Frequency Response Chart). This linearization is implemented in DASY4 software versions later than 4.2. The uncertainty of the frequency response is included in the stated uncertainty of ConvF. DCPx,Y,z: DCP are numerical linearization parameters assessed based on the data of power sweep
(no uncertainty required). DCP does not depend on frequency nor media. PAR: PAR is the Peak to Average Ratio that is not calibrated but determined based on the signal characteristics. Ax,y,z; Bx,y,z; Cx,y,z;VRx,y,z:A,B,C are numerical linearization parameters assessed based on the data of power sweep for specific modulation signal. The parameters do not depend on frequency nor media. VR is the maximum calibration range expressed in RMS voltage across the diode. ConvF and Boundary Effect Parameters: Assessed in flat phantom using E-field (or Temperature Transfer Standard for f~800MHz) and inside waveguide using analytical field distributions based on power measurements for f >800MHz. The same setups are used for assessment of the parameters applied for boundary compensation (alpha, depth) of which typical uncertainty valued are given. These parameters are used in DASY4 software to improve probe accuracy close to the boundary. The sensitivity in TSL corresponds to NORMx,y,z* ConvF whereby the uncertainty corresponds to that given for ConvF. A frequency dependent ConvF is used in DASY version 4.4 and higher which allows extending the validity from50MHz to1 OOMHz. Spherical isotropy (3D deviation from isotropy): in a field of low gradients realized using a flat phantom exposed by a patch antenna. Sensor Offset: The sensor offset corresponds to the offset of virtual measurement center from the probe tip (on probe aXis). No tolerance required. Connector Angle: The angle is assessed using the information gained by determining the NORMx
(no uncertainty required). Certificate No: Z16-97055 Page 2 of II Add: No.51 Xueyuan Road, Haidian District, Beijing, 100191, China Tel: +86-10-62304633-2218 E-mail: cttl@chinattl.com Fax: +86-10-62304633-2209 Http://www.chinattl.cn Probe EX3DV4 SN: 3661 Calibrated: May 11, 2016 Calibrated for DASYIEASY Systems
(Note: non-compatible with DASY2 system!) Certificate No: Z16-970SS Page 3 of 11 TTL!......p e a 9__ In Co laborao wi . CAUBRATION LABORATORY Add: NO.51 Xueyuan Road, Haidian District, Beijing, 100191, China Tel: +86-10-62304633-2218 E-mail: cttl@chinattl.com Fax: +86-10-62304633-2209 Hltp://www.chinatll.cn DASY/EASY - Parameters of Probe: EX3DV4 - SN: 3661 Basic Calibration Parameters Norm(jN/(V/m)2) A DCP(mV)B Sensor X 0.47 101.9 SensorY 0.52 99.6 Sensor Z 0.48 102.1 Unc (k=2) 10.8%
Modulation Calibration Parameters UID Communication System Name CW 0 A dB 0.0 0.0 0.0 B dB-'IN 0.0 0.0 0.0 C 1.0 1.0 1.0 0 dB 0.00 Unc E
(k=2) 2.4%
VR mV 203.4 213.1 201.7 X Y z The reported uncertainty of measurement is stated as the standard uncertainty of Measurement multiplied by the coverage factor k=2, which for a normal distribution Corresponds to a coverage probability of approximately 95%. A The uncertainties of Norm X, Y, Z do not affect the E2-field uncertainty inside TSL (see Page 5 and Page 6). B Numerical linearization parameter: uncertainty not required. E Uncertainly is determined using the max. deviation from linear response applying rectangular distribution and is expressed for the square of the field value. Certificate No: Z16-97055 Page 4 of II
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CAUBRAT10N LABORATORY Add: No.51 Xueyuan Road, Haidian District, Beijing, 100191, China Tel: +86-10-62304633-2218 E-mail: cttl@chinattl.com Fax: +86-10-62304633-2209 Http://WW\.... chinattl.cn DASY/EASY - Parameters of Probe: EX3DV4 - SN: 3661 Calibration Parameter Determined in Head Tissue Simulating Media f [MHzf 750 835 900 1450 1750 1900 2000 2300 2450 2600 3500 5300 5600 5800 Relative Conductivity Permittivity F 41.9 41.5 41.5 40.5 40.1 40.0 40.0 39.5 39.2 39.0 37.9 35.9 35.5 35.3
(81m) F 0.89 0.90 0.97 1.20 1.37 1.40 1.40 1.67 1.80 1.96 2.91 4.76 5.07 5.27 ConvF X ConvF Y ConvF Z Alpha G DepthG
(mm) 0.80 1.69 1.79 1.45 1.58 1.58 1.58 0.91 1.05 0.93 1.08 1.38 1.30 1.33 0.30 0.10 0.20 0.10 0.15 0.17 0.16 0.34 0.31 0.38 0.39 0.40 0.40 0.45 9.62 9.35 9.57 8.54 8.37 8.10 8.11 7.83 7.32 7.17 7.14 5.29 4.95 4.90 9.62 9.35 9.57 8.54 8.37 8.10 8.11 7.83 7.32 7.17 7.14 5.29 4.95 4.90 9.62 9.35 9.57 8.54 8.37 8.10 8.11 7.83 7.32 7.17 7.14 5.29 4.95 4.90 Unct.
(k=2) 12%
12%
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C Frequency validity of 100MHz only applies for DASY v4.4 and higher (Page 2), else it is restricted to 50MHz. The uncertainty is the RSS of ConvF uncertainty at calibration frequency and the uncertainty for the indicated frequency band. F At frequency below 3 GHz, the validity of tissue parameters (E and 0) can be relaxed to 10% if liquid compensation formula is applied to measured SAR values. At frequencies above 3 GHz, the validity of tissue parameters (E and 0) is restricted to 5%. The uncertainty is the RSS of the ConvF uncertainty for indicated target tissue parameters. G Alpha/Depth are determined during calibration. SPEAG warrants that the remaining deviation due to the boundary effect after compensation is always less than 1% for frequencies below 3 GHz and below 2% for the frequencies between 3-6 GHz at any distance larger than half the probe tip diameter from the boundary. Certificate No: Z16-97055 Page 5 of 11 _TTL!.....p e In Collaboratio wi a 9__
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CAUBRATION LABORATORY Add: No.51 Xueyuan Road, Haidian District, Beijing, 100191, China Tel: +86-10-62304633-2218 E-mail: cttl@chinattl.com Fax: +86-} 0-62304633-2209 llltp:l/www.chinattl.cn DASY/EASY - Parameters of Probe: EX3DV4 - SN: 3661 Calibration Parameter Determined in Body Tissue Simulating Media f [MHz]c 750 835 900 1450 1750 1900 2000 2300 2450 2600 3500 5300 5600 5800 Relative Conductivity Permittivity F 55.5 55.2 55.0 54.0 53.4 53.3 53.3 52.9 52.7 52.5 51.3 48.9 48.5 48.2
(81m) F 0.96 0.97 1.05 1.30 1.49 1.52 1.52 1.81 1.95 2.16 3.31 5.42 5.77 6.00 ConvF X ConvF Y ConvF Z AlphaG DepthG
(mm) 0.83 1.79 1.31 1.71 1.73 1.84 2.36 0.84 1.06 0.82 1.00 1.68 1.52 1.55 9.83 9.65 9.52 8.33 8.11 7.79 7.88 7.72 7.44 7.29 6.52 4.69 4.28 4.37 9.83 9.65 9.52 8.33 8.11 7.79 7.88 7.72 7.44 7.29 6.52 4.69 4.28 4.37 9.83 9.65 9.52 8.33 8.11 7.79 7.88 7.72 7.44 7.29 6.52 4.69 4.28 4.37 0.40 0.12 0.18 0.11 0.17 0.16 0.16 0.48 0.37 0.50 0.55 0.45 0.50 0.50 Unct.
(k=2) 12%
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c Frequency validity of 100MHz only applies for DASY v4.4 and higher (Page 2), else it is restricted to 50MHz. The uncertainty is the RSS of ConvF uncertainty at calibration frequency and the uncertainty for the indicated frequency band. F At frequency below 3 GHz, the validity of tissue parameters ( and 0) can be relaxed to 1 0% if liquid compensation formula is applied to measured SAR values. At frequencies above 3 GHz, the validity of tissue parameters (E and 0) is restricted to 5%. The uncertainty is the RSS of the ConvF uncertainty for indicated target tissue parameters. G Alpha/Depth are determined during calibration. SPEAG warrants that the remaining deviation due to the boundary effect after compensation is always less than 1% for frequencies below 3 GHz and below 2% for the frequencies between 3-6 GHz at any distance larger than half the probe tip diameter from the boundary. Certificate No: Z16-97055 Page 6 of 11 e a Add: No.51 Xueyuan Road, Haidian District, Beijing, 100191, China Tel: +86-10-62304633-2218 E-mail: cttl@chinattl.com Fax: +86-10-623046332209 Http://www.chinattl.cn Frequency Response of E-Field
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CALIBRATiON LABORATORY Add: No.51 Xueyuan Road, Haidian District, Beijing, 100191, China Tel: +86-10-62304633-2218 E-mail: cttl@chinattl.com Fax: +86-10-62304633-2209 Htlp://www.chinattl.cn DASY/EASY - Parameters of Probe: EX3DV4 - SN: 3661 Other Probe Parameters Sensor Arrangement Connector Angle (0) Mechanical Surface Detection Mode Optical Surface Detection Mode Probe Overall Length Probe Body Diameter Tip Length Tip Diameter Probe Tip to Sensor X Calibration Point Probe Tip to Sensor Y Calibration Point Probe Tip to Sensor Z Calibration Point Recommended Measurement Distance from Surface Triangular 130 enabled disable 337mm 10mm 9mm 2.5mm 1mm 1mm 1mm 1.4mm Certificate No: Z16-97055 Page 11 of 11
| 1 2 | Test Setup Photos 20170628 v1 - Photo - SAR R1 | Test Setup Photos | 937.89 KiB | July 07 2017 / May 01 2018 |
FCC SAR Test Report
<Photographs of EUT>
EUT 1 - Rear View EUT 1 - Front View EUT 2 - Front View EUT 2 - Rear View Report Format Version 5.0.0 Report No. : SA170315C40 FCC SAR Test Report EUT 3 - Rear View EUT 3 - Front View EUT 4 - Front View EUT 4 - Rear View Report Format Version 5.0.0 Report No. : SA170315C40 FCC SAR Test Report
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<Photographs of SAR Setup>
Front Face of EUT with 1 cm Gap for EUT 1 Front Face of EUT with 1 cm Gap for EUT 2 Front Face of EUT with 1 cm Gap for EUT 3 Front Face of EUT with 1 cm Gap for EUT 4 Rear Face of EUT with 0 cm Gap for EUT 1 Rear Face of EUT with 0 cm Gap for EUT 1_Neck Report Format Version 5.0.0 Report No. : SA170315C40 FCC SAR Test Report Rear Face of EUT with 0 cm Gap for EUT 2 Rear Face of EUT with 0 cm Gap for EUT 2_Neck Rear Face of EUT with 0 cm Gap for EUT 4 Rear Face of EUT with 0 cm Gap for EUT 4_Neck Rear Face of EUT with 0 cm Gap for EUT 3 Report Format Version 5.0.0 Report No. : SA170315C40
| 1 2 | Test Setup Photos 20170628 v2 - Photo - RF | Test Setup Photos | 2.11 MiB | July 07 2017 / May 01 2018 |
PHOTOGRAPHS OF THE TEST CONFIGURATION CONDUCTED EMISSION TEST
(Sample A) FCC ID: UK7-DW4A 1 CONDUCTED EMISSION TEST
(Sample B) 2 FCC ID: UK7-DW4A CONDUCTED EMISSION TEST
(Sample C) 3 FCC ID: UK7-DW4A CONDUCTED EMISSION TEST
(Sample D) 4 FCC ID: UK7-DW4A RADIATED EMISSION TEST BT & BT LE & Wireless Charger
(Below 1GHz) Sample A FCC ID: UK7-DW4A 5 RADIATED EMISSION TEST
(Above 1GHz) Sample A FCC ID: UK7-DW4A 6 RADIATED EMISSION TEST BT & BT LE & Wireless Charger
(Below 1GHz) Sample B FCC ID: UK7-DW4A 7 RADIATED EMISSION TEST
(Above 1GHz) Sample B FCC ID: UK7-DW4A 8 RADIATED EMISSION TEST BT & BT LE & Wireless Charger
(Below 1GHz) Sample C FCC ID: UK7-DW4A 9 RADIATED EMISSION TEST
(Above 1GHz) Sample C FCC ID: UK7-DW4A 10 RADIATED EMISSION TEST BT & BT LE & Wireless Charger
(Below 1GHz) Sample D FCC ID: UK7-DW4A 11 RADIATED EMISSION TEST
(Above 1GHz) Sample D FCC ID: UK7-DW4A 12 RADIATED EMISSION TEST WLAN
(Below 1GHz) Sample A FCC ID: UK7-DW4A 13 RADIATED EMISSION TEST WLAN
(Above 1GHz) Sample A FCC ID: UK7-DW4A 14 RADIATED EMISSION TEST WLAN
(Below 1GHz) Sample B FCC ID: UK7-DW4A 15 RADIATED EMISSION TEST WLAN
(Above 1GHz) Sample B FCC ID: UK7-DW4A 16 RADIATED EMISSION TEST WLAN
(Below 1GHz) Sample C FCC ID: UK7-DW4A 17 RADIATED EMISSION TEST WLAN
(Above 1GHz) Sample C FCC ID: UK7-DW4A 18 RADIATED EMISSION TEST WLAN
(Below 1GHz) Sample D FCC ID: UK7-DW4A 19 RADIATED EMISSION TEST WLAN
(Above 1GHz) Sample D FCC ID: UK7-DW4A 20
| 1 2 | Test Report - DSS R2 | Test Report | 2.33 MiB | July 07 2017 / September 07 2017 |
FCC Test Report Report No.: RF170315C40 FCC ID: UK7-DW4A Received Date: Mar. 15, 2017 Test Date: Mar. 28, 2017 ~ May 26, 2017 Issued Date: Jun. 14, 2017 Applicant: Fossil Group, Inc. Address: 901 S. Central Expwy., Richardson, TX 75080 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 (1): No. 19, Hwa Ya 2nd Rd, Wen Hwa Tsuen, Kwei Shan Hsiang, Taoyuan Hsien 333, 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. Report No.: RF170315C40 Page No. 1 / 75 Report Format Version: 6.1.1 Table of Contents Release Control Record .................................................................................................................................. 4 1 Certificate of Conformity ........................................................................................................................... 5 2 Summary of Test Results ........................................................................................................................... 6 2.1 Measurement Uncertainty ..................................................................................................................... 6 2.2 Modification Record .............................................................................................................................. 6 3 General Information ................................................................................................................................... 7 3.1 General Description of EUT .................................................................................................................. 7 3.2 Description of Test Modes ..................................................................................................................... 8 3.2.1 Test Mode Applicability and Tested Channel Detail .................................................................... 9 3.3 Description of Support Units ................................................................................................................ 11 3.3.1 Configuration of System under Test .......................................................................................... 11 3.4 General Description of Applied Standards .......................................................................................... 12 4 Test Types and Results ............................................................................................................................ 13 4.1 Radiated Emission and Bandedge Measurement .............................................................................. 13 4.1.1 Limits of Radiated Emission and Bandedge Measurement ..................................................... 13 4.1.2 Test Instruments ....................................................................................................................... 14 4.1.3 Test Procedures ........................................................................................................................ 15 4.1.4 Deviation from Test Standard ................................................................................................... 15 4.1.5 Test Set Up ............................................................................................................................... 16 4.1.6 EUT Operating Conditions ........................................................................................................ 16 4.1.7 Test Results .............................................................................................................................. 17 4.2 Conducted Emission Measurement .................................................................................................... 45 4.2.1 Limits of Conducted Emission Measurement ........................................................................... 45 4.2.2 Test Instruments ....................................................................................................................... 45 4.2.3 Test Procedures ........................................................................................................................ 46 4.2.4 Deviation from Test Standard ................................................................................................... 46 4.2.5 Test Setup ................................................................................................................................. 46 4.2.6 EUT Operating Condition ......................................................................................................... 46 4.2.7 Test Results .............................................................................................................................. 47 4.3 Number of Hopping Frequency Used ................................................................................................. 55 4.3.1 Limits of Hopping Frequency Used Measurement ................................................................... 55 4.3.2 Test Setup ................................................................................................................................. 55 4.3.3 Test Instruments ....................................................................................................................... 55 4.3.4 Test Procedure ......................................................................................................................... 55 4.3.5 Deviation fromTest Standard .................................................................................................... 55 4.3.6 Test Results .............................................................................................................................. 55 4.4 Dwell Time on Each Channel .............................................................................................................. 57 4.4.1 Limits of Dwell Time on Each Channel Measurement .............................................................. 57 4.4.2 Test Setup ................................................................................................................................. 57 4.4.3 Test Instruments ....................................................................................................................... 57 4.4.4 Test Procedures ........................................................................................................................ 57 4.4.5 Deviation from Test Standard ................................................................................................... 57 4.4.6 Test Results .............................................................................................................................. 58 4.5 Channel Bandwidth ............................................................................................................................. 61 4.5.1 Limits of Channel Bandwidth Measurement ............................................................................. 61 4.5.2 Test Setup ................................................................................................................................. 61 4.5.3 Test Instruments ....................................................................................................................... 61 4.5.4 Test Procedure ......................................................................................................................... 61 4.5.5 Deviation from Test Standard ................................................................................................... 61 4.5.6 EUT Operating Condition ......................................................................................................... 61 4.5.7 Test Results .............................................................................................................................. 62 4.6 Hopping Channel Separation .............................................................................................................. 63 4.6.1 Limits of Hopping Channel Separation Measurement .............................................................. 63 Report No.: RF170315C40 Page No. 2 / 75 Report Format Version: 6.1.1 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 Test Results .............................................................................................................................. 64 4.7 Maximum Output Power ..................................................................................................................... 65 4.7.1 Limits of Maximum Output Power Measurement ..................................................................... 65 4.7.2 Test Setup ................................................................................................................................. 65 4.7.3 Test Instruments ....................................................................................................................... 65 4.7.4 Test Procedure ......................................................................................................................... 65 4.7.5 Deviation fromTest Standard .................................................................................................... 65 4.7.6 EUT Operating Condition ......................................................................................................... 65 4.7.7 Test Results .............................................................................................................................. 66 4.8 Conducted Out of Band Emission Measurement ............................................................................... 67 4.8.1 Limits Of Conducted Out Of Band Emission Measurement ..................................................... 67 4.8.2 Test Instruments ....................................................................................................................... 67 4.8.3 Test Procedure ......................................................................................................................... 67 4.8.4 Deviation from Test Standard ................................................................................................... 67 4.8.5 EUT Operating Condition ......................................................................................................... 67 4.8.6 Test Results .............................................................................................................................. 67 5 Pictures of Test Arrangements................................................................................................................ 74 Appendix Information on the Testing Laboratories ................................................................................ 75 Report No.: RF170315C40 Page No. 3 / 75 Report Format Version: 6.1.1 Issue No. Description RF170315C40 Original Release Release Control Record Date Issued Jun. 14, 2017 Report No.: RF170315C40 Page No. 4 / 75 Report Format Version: 6.1.1 1 Certificate of Conformity Product: Smart Watch Sample Status: Production Unit Applicant: Fossil Group, Inc. Test Date: Mar. 28, 2017 ~ May 26, 2017 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 :
, Date:
Jun. 14, 2017 Ivonne Wu / Supervisor Approved by
:
David Huang / Project Engineer
, Date:
Jun. 14, 2017 Report No.: RF170315C40 Page No. 5 / 75 Report Format Version: 6.1.1 2 Summary of Test Results FCC Clause Test Item Result Remarks 47 CFR FCC Part 15, Subpart C (Section 15.247) 15.207 AC Power Conducted Emission Pass Meet the requirement of limit. Minimum passing margin is -0.65 dB at 1.37800 MHz. 15.247(a)(1)
(iii) 15.247(a)(1)
(iii) Number of Hopping Frequency Used Pass Meet the requirement of limit. Dwell Time on Each Channel Pass Meet the requirement of limit. 1. Hopping Channel Separation 15.247(a)(1) 2. Spectrum Bandwidth of a Frequency Hopping Sequence Spread Spectrum System Pass Meet the requirement of limit. 15.247(b) Maximum Peak Output Power Pass Meet the requirement of limit. 15.205 & 209 Radiated Emissions Pass Meet the requirement of limit. Minimum passing margin is -2.42 dB at 32.91 MHz. 15.247(d) 15.247(d) 15.203 Band Edge Measurement Pass Meet the requirement of limit. Antenna Port Emission Pass Meet the requirement of limit. Antenna Requirement Pass No antenna connector is used. Note: If The Frequency Hopping System operating in 2400-2483.5 MHz band and the output power less than 125 mW. The hopping channel carrier frequencies separated by a minimum of 25 kHz or two-thirds of the 20 dB bandwidth of hopping channel whichever is greater. 2.1 Measurement Uncertainty Where relevant, the following measurement uncertainty levels have been estimated for tests performed on the EUT:
The listed uncertainties are the worst case uncertainty for the entire range of measurement. Please note that the uncertainty values are provided for informational purposes only and are not used in determining the PASS/FAIL results. Measurement Frequency Conducted Emissions at mains ports 150 kHz ~ 30 MHz Radiated Emissions up to 1 GHz Radiated Emissions above 1 GHz 30 MHz ~ 200 MHz 200 MHz ~1000 MHz 1 GHz ~ 18 GHz 18 GHz ~ 40 GHz Expended Uncertainty
(k=2) () 2.44 dB 2.93 dB 2.95 dB 2.26 dB 1.94 dB 2.2 Modification Record There were no modifications required for compliance. Report No.: RF170315C40 Page No. 6 / 75 Report Format Version: 6.1.1 3 General Information 3.1 General Description of EUT Product Status of EUT Smart Watch Production Unit Power Supply Rating 5.0 Vdc (from wireless charger) 3.8 Vdc (from battery) Modulation Type GFSK, /4-DQPSK, 8DPSK Transfer Rate 1/2/3 Mbps Operating Frequency 2402 ~ 2480 MHz Number of Channel 79 Output Power Antenna Type 18.880 mW Loop antenna Antenna Connector N/A Accessory Device Refer to Note as below Data Cable Supplied Refer to Note as below Note:
1. Therere 4 configurations for the EUT listed as below. Sample A B C D Antenna Gain
(dBi)
-6.74
-5.77
-7.1
-6.52 Difference The samples are different in the appearance and antenna only. 2. The EUTs accessories list refers to Ext. Pho. Report No.: RF170315C40 Page No. 7 / 75 Report Format Version: 6.1.1 3.2 Description of Test Modes 79 channels are provided to this EUT:
Channel Freq. (MHz) Channel Freq. (MHz) Channel Freq. (MHz) Channel Freq. (MHz) 2402 2403 2404 2405 2406 2407 2408 2409 2410 2411 2412 2413 2414 2415 2416 2417 2418 2419 2420 2421 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 28 29 30 31 32 33 34 35 36 37 38 39 2422 2423 2424 2425 2426 2427 2428 2429 2430 2431 2432 2433 2434 2435 2436 2437 2438 2439 2440 2441 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 2442 2443 2444 2445 2446 2447 2448 2449 2450 2451 2452 2453 2454 2455 2456 2457 2458 2459 2460 2461 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 2462 2463 2464 2465 2466 2467 2468 2469 2470 2471 2472 2473 2474 2475 2476 2477 2478 2479 2480 Report No.: RF170315C40 Page No. 8 / 75 Report Format Version: 6.1.1 3.2.1 Test Mode Applicability and Tested Channel Detail EUT Configure Mode Applicable To RE1G RE<1G PLC APCM Description A B C D
-
-
-
Sample B Sample A Sample C Sample D Where RE1G: Radiated Emission above 1 GHz RE<1G: Radiated Emission below 1 GHz PLC: Power Line Conducted Emission Note:
1. For Radiated emission test, pre-tested GFSK, /4-DQPSK, 8DPSK modulation type and found 8DPSK was the worse, therefore APCM: Antenna Port Conducted Measurement chosen for the final test and presented in the test report. 2. The EUT had been pre-tested on the positioned of each 3 axis. The worst case was found when positioned on Z-plane. 3. - means no effect. Radiated Emission Test (Above 1 GHz):
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. EUT Configure Available Channel Tested Channel Modulation Technology Modulation Type Packet Type Mode A B, C, D 0 to 78 0 to 78 0, 39, 78 78 FHSS FHSS 8DPSK 8DPSK DH5 DH5 Radiated Emission Test (Below 1 GHz):
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. EUT Configure Available Channel Tested Channel Mode Modulation Technology Modulation Type Packet Type A, B, C, D 0 to 78 78 FHSS 8DPSK DH5 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. EUT Configure Available Channel Tested Channel Mode Modulation Technology Modulation Type Packet Type A, B, C, D 0 to 78 78 FHSS 8DPSK DH5 Report No.: RF170315C40 Page No. 9 / 75 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. EUT Configure Available Channel Tested Channel Mode A 0 to 78 0 to 78 0 to 78 0, 39, 78 0, 39, 78 0, 39, 78 Modulation Technology FHSS FHSS FHSS Modulation Type Packet Type GFSK
/4-DQPSK 8DPSK DH5 DH5 DH5 Test Condition:
Applicable To Environmental Conditions Input Power Tested by RE1G RE<1G PLC APCM 25 deg. C, 65 % RH 25 deg. C, 65 % RH 25 deg. C, 65 % RH 25 deg. C, 65 % RH 5 Vdc 5 Vdc 5 Vdc 3.8 Vdc Getaz Yang Getaz Yang Getaz Yang Carlos Chen Report No.: RF170315C40 Page No. 10 / 75 Report Format Version: 6.1.1 3.3 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. No. 1. No. 1. N/A Note:
Product Adapter Brand XIAOMI Model No. MDY-08-EF Serial No. N/A FCC ID N/A Signal Cable Description Of The Above Support Units 1. All power cords of the above support units are non-shielded (1.8m). 3.3.1 Configuration of System under Test Wireless Charger EUT
(EUT)
(Power from wireless charger)
*Test Table Bluetooth Tester
*Kept in remote area Report No.: RF170315C40 Page No. 11 / 75 Report Format Version: 6.1.1 3.4 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) FCC Public Notice DA 00-705 ANSI C63.10-2013 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
(Verification). The test report has been issued separately. Report No.: RF170315C40 Page No. 12 / 75 Report Format Version: 6.1.1 4 Test Types and Results 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 20 dB 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) 2400/F (kHz) 24000/F (kHz) 30 100 150 200 500 Measurement Distance (meters) 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 1000 MHz, 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 20 dB under any condition of modulation. Report No.: RF170315C40 Page No. 13 / 75 Report Format Version: 6.1.1 4.1.2 Test Instruments Description &
Manufacturer Test Receiver Agilent Spectrum Analyzer Agilent Spectrum Analyzer ROHDE & SCHWARZ BILOG Antenna SCHWARZBECK HORN Antenna SCHWARZBECK HORN Antenna SCHWARZBECK Fixed Attenuator Mini-Circuits Model No. Serial No. Date of Calibration Due Date of Calibration N9038A MY51210203 Feb. 17, 2017 Feb. 16, 2018 N9010A MY52220314 Dec. 16, 2016 Dec. 15, 2017 FSU43 101261 Dec. 13, 2016 Dec. 12, 2017 VULB9168 9168-472 Dec. 26, 2016 Dec. 27, 2017 BBHA 9120 D 9120D-969 Dec. 12, 2016 Dec. 13, 2017 BBHA 9170 9170-480 Dec. 14, 2016 Dec. 13, 2017 Loop Antenna EM-6879 BW-N10W5+
NA 269 Jul. 08, 2016 Jul. 07, 2017 Aug. 11, 2016 Aug. 10, 2017 Bluetooth Tester CBT 100946 Jul. 29, 2016 Jul. 28, 2018 Preamplifier EMCI Preamplifier EMCI Preamplifier EMCI Power Meter Anritsu Power Sensor Anritsu RF signal cable HUBER+SUHNNER RF signal cable HUBER+SUHNNER RF Coaxial Cable Worken Software BV ADT Antenna Tower MF Turn Table MF Antenna Tower &Turn Table Controller MF EMC 012645 980115 Oct. 21, 2016 Oct. 20, 2017 EMC 184045 980116 Oct. 21, 2016 Oct. 20, 2017 EMC 330H 980112 Oct. 21, 2016 Oct. 20, 2017 ML2495A 1232002 Sep. 08, 2016 Sep. 07, 2017 MA2411B 1207325 Sep. 08, 2016 Sep. 07, 2017 SUCOFLEX 104 309219/4 2950114 Oct. 21, 2016 Oct. 20, 2017 SUCOFLEX 104 250130/4 Oct. 21, 2016 Oct. 20, 2017 8D-FB Cable-Ch10-01 Oct. 21, 2016 Oct. 20, 2017 E3 6.120103 MFA-440H MFT-201SS MF-7802 NA NA NA NA NA NA NA NA NA NA NA NA 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 test was performed in HwaYa Chamber 10. 3. The horn antenna and preamplifier (model: EMC 184045) are used only for the measurement of emission frequency above 1 GHz if tested. 4. The FCC Site Registration No. is 690701. 5. The IC Site Registration No. is IC7450F-10. Report No.: RF170315C40 Page No. 14 / 75 Report Format Version: 6.1.1 4.1.3 Test Procedures a. The EUT was placed on the top of a rotating table 0.8 meters (for below 1 GHz) / 1.5 meters (for above 1 GHz) 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 hold mode when the test frequency is below 1 GHz. f. The test-receiver system was set to peak and average detected 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 120 kHz & 360 kHz for Quasi-peak detection (QP) at frequency below 1 GHz. 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 1 GHz. 3. The resolution bandwidth of test receiver/spectrum analyzer is 1 MHz and the video bandwidth is 1/T for Average (Duty cycle < 98 %) detection at frequency above 1 GHz. Please see page 60 for plotted duty. 4. The resolution bandwidth of test receiver/spectrum analyzer is 1 MHz and the video bandwidth is 10 Hz
(Duty cycle 98 %) for Average detection (AV) at frequency above 1 GHz. 5. All modes of operation were investigated and the worst-case emissions are reported. 4.1.4 Deviation from Test Standard No deviation. Report No.: RF170315C40 Page No. 15 / 75 Report Format Version: 6.1.1 4.1.5 Test Set Up
<Frequency Range below 1 GHz>
3m
<Frequency Range above 1 GHz>
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 Set the EUT under transmission condition continuously at specific channel frequency. Report No.: RF170315C40 Page No. 16 / 75 Report Format Version: 6.1.1 10mAnt. Tower1-4m VariableTurn TableEUT& Support UnitsGround PlaneTest Receiver80cm 4.1.7 Test Results ABOVE 1 GHz DATA 8DPSK Mode A EUT Test Condition Measurement Detail Channel Channel 0 Frequency Range 1 GHz ~ 25 GHz Input Power 120 Vac, 60 Hz Detector Function Peak (PK) Average (AV) Environmental Conditions Horizontal 25 deg. C, 65 % RH Tested By Getaz Yang Vertical Report No.: RF170315C40 Page No. 17 / 75 Report Format Version: 6.1.1 Antenna Polarity & Test Distance: Horizontal at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 2384.26 2387.69 2402 2402 4804 4804 34.06 46.45 88.46 93.87 33.59 43.71 40.57 52.96 94.98 100.39 48.93 59.05 54 74 54 74
-19.94
-27.55
-20.41
-30.29 26.91 26.91 26.91 26.91 30.97 30.97 4.08 4.08 4.09 4.09 6.79 6.79 Preamp Antenna Table Factor Height Angle Remark
(dB) 37.5 37.5 37.52 37.52 53.1 53.1
(cm)
(Degree) 220 220 220 220 177 177 184 184 184 184 146 146 Average Peak Average Peak Average Peak Antenna Polarity & Test Distance: Vertical at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 2375.06 46.2 2380.02 33.96 2402 2402 4804 4804 84.3 88.61 33.07 42.95 Remarks:
52.77 40.53 90.82 95.13 48.41 58.29 74 54 54 74
-27.8
-20.04
-20.93
-31.05 26.86 26.86 26.91 26.91 30.97 30.97 4.07 4.07 4.09 4.09 6.79 6.79 Preamp Antenna Table Factor Height Angle Remark
(dB) 37.5 37.5 37.52 37.52 53.1 53.1
(cm)
(Degree) 192 192 192 192 186 186 19 19 19 19 310 310 Peak Average Average Peak Average Peak 1. Emission Level = Read Level + Antenna Factor + Cable Loss - Preamp Factor Margin value = Emission level Limit value 2. 2402 MHz: Fundamental frequency. Report No.: RF170315C40 Page No. 18 / 75 Report Format Version: 6.1.1 EUT Test Condition Measurement Detail Channel Channel 39 Frequency Range 1 GHz ~ 25 GHz Input Power 120 Vac, 60 Hz Detector Function Peak (PK) Average (AV) Environmental Conditions Horizontal 25 deg. C, 65 % RH Tested By Getaz Yang Vertical Report No.: RF170315C40 Page No. 19 / 75 Report Format Version: 6.1.1 Antenna Polarity & Test Distance: Horizontal at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 2374.06 2378.28 2441 2441 2496.3 2497.66 4882 4882 33.39 46.59 90.36 94.28 46.47 34.36 33.09 44.89 39.96 53.16 96.57 100.49 52.36 40.25 48.23 60.03 54 74 74 54 54 74
-20.61
-27.41
-27.53
-19.64
-20.91
-29.11 26.86 26.86 27.06 27.06 27.2 27.2 31.06 31.06 4.07 4.07 4.12 4.12 4.16 4.16 6.85 6.85 Preamp Antenna Table Factor Height Angle Remark
(dB) 37.5 37.5 37.39 37.39 37.25 37.25 53.05 53.05
(cm)
(Degree) 196 196 196 196 196 196 185 185 162 162 162 162 162 162 112 112 Average Peak Average Peak Peak Average Average Peak Antenna Polarity & Test Distance: Vertical at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 2385.23 2389.1 2441 2441 2491.32 2494 4882 4882 33.84 45.62 84.52 88.61 45.71 33.99 32.93 43.74 Remarks:
40.35 52.13 90.73 94.82 51.6 39.88 48.07 58.88 54 74 74 54 54 74
-20.16
-28.38
-28.29
-20.01
-21.07
-30.26 26.91 26.91 27.06 27.06 27.2 27.2 31.06 31.06 4.08 4.08 4.12 4.12 4.16 4.16 6.85 6.85 Preamp Antenna Table Factor Height Angle Remark
(dB) 37.5 37.5 37.39 37.39 37.25 37.25 53.05 53.05
(cm)
(Degree) 182 182 182 182 182 182 170 170 16 16 16 16 16 16 293 293 Average Peak Average Peak Peak Average Average Peak 1. Emission Level = Read Level + Antenna Factor + Cable Loss - Preamp Factor Margin value = Emission level Limit value 2. 2441 MHz: Fundamental frequency. Report No.: RF170315C40 Page No. 20 / 75 Report Format Version: 6.1.1 EUT Test Condition Measurement Detail Channel Channel 78 Frequency Range 1 GHz ~ 25 GHz Input Power 120 Vac, 60 Hz Detector Function Peak (PK) Average (AV) Environmental Conditions Horizontal 25 deg. C, 65 % RH Tested By Getaz Yang Vertical Report No.: RF170315C40 Page No. 21 / 75 Report Format Version: 6.1.1 Band Edge Peak Horizontal Vertical Report No.: RF170315C40 Page No. 22 / 75 Report Format Version: 6.1.1 Average Horizontal Vertical Report No.: RF170315C40 Page No. 23 / 75 Report Format Version: 6.1.1 Antenna Polarity & Test Distance: Horizontal at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 2480 2480 90.22 94.1 2486.68 34.83 2489.84 4960 4960 47.1 32.86 43.15 96.24 100.12 40.85 53.06 47.83 58.12 54 74 54 74
-19.17
-26.9
-21.14
-30.85 27.15 27.15 27.15 27.2 31.16 31.16 4.15 4.15 4.15 4.16 6.91 6.91 Preamp Antenna Table Factor Height Angle Remark
(dB) 37.32 37.32 37.32 37.32 53.04 53.04
(cm)
(Degree) 219 219 219 219 200 200 214 214 214 214 134 134 Average Peak Average Peak Average Peak Antenna Polarity & Test Distance: Vertical at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 2480 2480 2486.76 2496.04 4960 4960 84.88 88.49 34.66 47.53 32.81 42.89 Remarks:
90.9 94.51 40.68 53.42 47.78 57.86 54 74 54 74
-19.34
-26.47
-21.19
-31.11 27.15 27.15 27.15 27.2 31.16 31.16 4.15 4.15 4.15 4.16 6.91 6.91 Preamp Antenna Table Factor Height Angle Remark
(dB) 37.32 37.32 37.32 37.25 53.04 53.04
(cm)
(Degree) 216 216 216 216 110 110 18 18 18 18 301 301 Average Peak Average Peak Average Peak 1. Emission Level = Read Level + Antenna Factor + Cable Loss - Preamp Factor Margin value = Emission level Limit value 2. 2480 MHz: Fundamental frequency. Report No.: RF170315C40 Page No. 24 / 75 Report Format Version: 6.1.1 Mode B EUT Test Condition Measurement Detail Channel Channel 78 Frequency Range 1 GHz ~ 25 GHz Input Power 120 Vac, 60 Hz Detector Function Peak (PK) Average (AV) Environmental Conditions Horizontal 25 deg. C, 65 % RH Tested By Getaz Yang Vertical Report No.: RF170315C40 Page No. 25 / 75 Report Format Version: 6.1.1 Band Edge Peak Horizontal Vertical Report No.: RF170315C40 Page No. 26 / 75 Report Format Version: 6.1.1 Average Horizontal Vertical Report No.: RF170315C40 Page No. 27 / 75 Report Format Version: 6.1.1 Antenna Polarity & Test Distance: Horizontal at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 2480 2480 2486.6 2493.76 4960 4960 87.64 91.6 34.44 47.05 32.61 42.76 93.66 97.62 40.46 52.94 47.58 57.73 54 74 54 74
-19.56
-26.95
-21.39
-31.24 27.15 27.15 27.15 27.2 31.16 31.16 4.15 4.15 4.15 4.16 6.91 6.91 Preamp Antenna Table Factor Height Angle Remark
(dB) 37.32 37.32 37.32 37.25 53.04 53.04
(cm)
(Degree) 202 202 202 202 200 200 180 180 180 180 136 136 Average Peak Average Peak Average Peak Antenna Polarity & Test Distance: Vertical at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 2480 2480 2491.36 2494.92 4960 4960 82.37 86.03 47.35 34.3 32.48 43.83 Remarks:
88.39 92.05 53.31 40.19 47.45 58.8 74 54 54 74
-26.65
-19.7
-21.52
-30.17 27.15 27.15 27.2 27.2 31.16 31.16 4.15 4.15 4.16 4.16 6.91 6.91 Preamp Antenna Table Factor Height Angle Remark
(dB) 37.32 37.32 37.32 37.25 53.04 53.04
(cm)
(Degree) 198 198 198 198 172 172 2 2 2 2 309 309 Average Peak Peak Average Average Peak 1. Emission Level = Read Level + Antenna Factor + Cable Loss - Preamp Factor Margin value = Emission level Limit value 2. 2480 MHz: Fundamental frequency. Report No.: RF170315C40 Page No. 28 / 75 Report Format Version: 6.1.1 Mode C EUT Test Condition Measurement Detail Channel Channel 78 Frequency Range 1 GHz ~ 25 GHz Input Power 120 Vac, 60 Hz Detector Function Peak (PK) Average (AV) Environmental Conditions Horizontal 25 deg. C, 65 % RH Tested By Getaz Yang Vertical Report No.: RF170315C40 Page No. 29 / 75 Report Format Version: 6.1.1 Band Edge Peak Horizontal Vertical Report No.: RF170315C40 Page No. 30 / 75 Report Format Version: 6.1.1 Average Horizontal Vertical Report No.: RF170315C40 Page No. 31 / 75 Report Format Version: 6.1.1 Antenna Polarity & Test Distance: Horizontal at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 2480 2480 2494.88 2497.60 4960 4960 82.87 86.92 34.32 47.54 33.35 44.27 88.89 92.94 40.21 53.43 48.32 59.24 54 74 54 74
-19.68
-26.46
-20.65
-29.73 27.15 27.15 27.20 27.20 31.16 31.16 4.15 4.15 4.16 4.16 6.91 6.91 Preamp Antenna Table Factor Height Angle Remark
(dB) 37.32 37.32 37.25 37.25 53.04 53.04
(cm)
(Degree) 263 263 263 263 201 201 198 198 198 198 335 335 Average Peak Average Peak Average Peak Antenna Polarity & Test Distance: Vertical at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 2480 2480 2486.80 2494.36 4960 4960 79.91 84.02 34.29 47.99 33.15 44.40 Remarks:
85.93 90.04 40.31 53.88 48.12 59.37 54 74 54 74
-19.71
-26.01
-20.85
-29.60 27.15 27.15 27.15 27.20 31.16 31.16 4.15 4.15 4.15 4.16 6.91 6.91 Preamp Antenna Table Factor Height Angle Remark
(dB) 37.32 37.32 37.32 37.25 53.04 53.04
(cm)
(Degree) 200 200 200 200 123 123 61 61 61 61 85 85 Average Peak Average Peak Average Peak 1. Emission Level = Read Level + Antenna Factor + Cable Loss - Preamp Factor Margin value = Emission level Limit value 2. 2480 MHz: Fundamental frequency. Report No.: RF170315C40 Page No. 32 / 75 Report Format Version: 6.1.1 Mode D EUT Test Condition Measurement Detail Channel Channel 78 Frequency Range 1 GHz ~ 25 GHz Input Power 120 Vac, 60 Hz Detector Function Peak (PK) Average (AV) Environmental Conditions Horizontal 25 deg. C, 65 % RH Tested By Getaz Yang Vertical Report No.: RF170315C40 Page No. 33 / 75 Report Format Version: 6.1.1 Band Edge Peak Horizontal Vertical Report No.: RF170315C40 Page No. 34 / 75 Report Format Version: 6.1.1 Average Horizontal Vertical Report No.: RF170315C40 Page No. 35 / 75 Report Format Version: 6.1.1 Antenna Polarity & Test Distance: Horizontal at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 2480 2480 2483.52 2485 4960 4960 83.93 87.58 34.34 48.35 32.98 43.8 89.95 93.6 40.36 54.37 47.95 58.77 54 74 54 74
-19.66
-25.65
-21.02
-30.2 27.15 27.15 27.15 27.15 31.16 31.16 4.15 4.15 4.15 4.15 6.91 6.91 Preamp Antenna Table Factor Height Angle Remark
(dB) 37.32 37.32 37.32 37.32 53.04 53.04
(cm)
(Degree) 222 222 222 222 195 195 192 192 192 192 200 200 Average Peak Average Peak Average Peak Antenna Polarity & Test Distance: Vertical at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 2480 2480 2493.16 2498.68 4960 4960 83.33 86.45 47.5 34.22 32.68 43.68 Remarks:
89.35 92.47 53.39 40.11 47.65 58.65 74 54 54 74
-26.5
-19.78
-21.32
-30.32 27.15 27.15 27.2 27.2 31.16 31.16 4.15 4.15 4.16 4.16 6.91 6.91 Preamp Antenna Table Factor Height Angle Remark
(dB) 37.32 37.32 37.25 37.25 53.04 53.04
(cm)
(Degree) 205 205 204 204 105 105 181 181 181 181 88 88 Average Peak Peak Average Average Peak 1. Emission Level = Read Level + Antenna Factor + Cable Loss - Preamp Factor Margin value = Emission level Limit value 2. 2480 MHz: Fundamental frequency. Report No.: RF170315C40 Page No. 36 / 75 Report Format Version: 6.1.1 9 kHz ~ 30 MHz DATA:
The amplitude of spurious emissions attenuated more than 20 dB below the permissible value is not required to be report. 30 MHz ~ 1 GHz WORST-CASE DATA:
Mode A EUT Test Condition Measurement Detail Channel Channel 78 Frequency Range 30 MHz ~ 1 GHz Input Power 120 Vac, 60 Hz Detector Function Peak (PK) Quasi-peak (QP) Environmental Conditions Horizontal 25 deg. C, 65 % RH Tested By Getaz Yang Vertical Report No.: RF170315C40 Page No. 37 / 75 Report Format Version: 6.1.1 Antenna Polarity & Test Distance: Horizontal at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 31.94 107.6 153.19 191.99 212.36 346.22 25.89 23.58 22.46 26.03 22.91 20.74 44.11 44.54 40.32 46.54 43.28 36.77 40 43.5 43.5 43.5 43.5 46
-14.11
-19.92
-21.04
-17.47
-20.59
-25.26 12.3 9.81 12.72 9.91 9.89 14.05 0.59 1.09 1.11 1.27 1.35 1.75 Preamp Antenna Table Factor Height Angle Remark
(dB) 31.11 31.86 31.69 31.69 31.61 31.83
(cm)
(Degree) 133 112 115 129 112 139 116 268 339 286 211 358 Peak Peak Peak Peak Peak Peak Antenna Polarity & Test Distance: Vertical at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 31.94 39.7 67.83 91.11 157.07 191.99 37.47 33.17 30.34 25.5 21.47 20.08 Remarks:
55.69 49.98 50.22 48.11 39.42 40.59 40 40 40 43.5 43.5 43.5
-2.53
-6.83
-9.66
-18
-22.03
-23.42 12.3 13.54 11 8.38 12.72 9.91 0.59 0.64 0.85 0.97 1.13 1.27 Preamp Antenna Table Factor Height Angle Remark
(dB) 31.11 30.99 31.73 31.96 31.8 31.69
(cm)
(Degree) 121 120 139 115 117 111 248 355 143 308 300 130 Peak Peak Peak Peak Peak Peak 1. Emission Level = Read Level + Antenna Factor + Cable Loss - Preamp Factor Margin value = Emission level Limit value Report No.: RF170315C40 Page No. 38 / 75 Report Format Version: 6.1.1 Mode B EUT Test Condition Measurement Detail Channel Channel 78 Frequency Range 30 MHz ~ 1 GHz Input Power 120 Vac, 60 Hz Detector Function Peak (PK) Quasi-peak (QP) Environmental Conditions Horizontal 25 deg. C, 65 % RH Tested By Getaz Yang Vertical Report No.: RF170315C40 Page No. 39 / 75 Report Format Version: 6.1.1 Antenna Polarity & Test Distance: Horizontal at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 111.48 191.02 212.36 289.96 482.99 627.52 27.55 24.05 23.85 22.62 20.76 23.27 48.11 44.48 44.22 40.03 33.56 33.17 43.5 43.5 43.5 46 46 46
-15.95
-19.45
-19.65
-23.38
-25.24
-22.73 10.18 9.98 9.89 12.65 16.98 19.94 1.11 1.27 1.35 1.61 2.05 2.31 Preamp Antenna Table Factor Height Angle Remark
(dB) 31.85 31.68 31.61 31.67 31.83 32.15
(cm)
(Degree) 100 130 103 131 120 126 132 131 318 42 284 179 Peak Peak Peak Peak Peak Peak Antenna Polarity & Test Distance: Vertical at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 32.91 67.83 91.11 111.48 191.02 316.15 36.8 30.36 25.62 21.8 20.99 20.26 Remarks:
54.82 50.24 48.23 42.36 41.42 37.16 40 40 43.5 43.5 43.5 46
-3.2
-9.64
-17.88
-21.7
-22.51
-25.74 12.47 11 8.38 10.18 9.98 13.33 0.6 0.85 0.97 1.11 1.27 1.68 Preamp Antenna Table Factor Height Angle Remark
(dB) 31.09 31.73 31.96 31.85 31.68 31.91
(cm)
(Degree) 111 119 127 108 128 118 16 214 90 264 175 52 Peak Peak Peak Peak Peak Peak 1. Emission Level = Read Level + Antenna Factor + Cable Loss - Preamp Factor Margin value = Emission level Limit value Report No.: RF170315C40 Page No. 40 / 75 Report Format Version: 6.1.1 Mode C EUT Test Condition Measurement Detail Channel Channel 78 Frequency Range 30 MHz ~ 1 GHz Input Power 120 Vac, 60 Hz Detector Function Peak (PK) Quasi-peak (QP) Environmental Conditions Horizontal 25 deg. C, 65 % RH Tested By Getaz Yang Vertical Report No.: RF170315C40 Page No. 41 / 75 Report Format Version: 6.1.1 Antenna Polarity & Test Distance: Horizontal at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 31.94 108.57 191.99 209.45 286.08 510.15 26.41 23.83 25.34 23.02 21.08 21 44.63 44.68 45.85 43.53 38.68 32.93 40 43.5 43.5 43.5 46 46
-13.59
-19.67
-18.16
-20.48
-24.92
-25 12.3 9.9 9.91 9.77 12.54 17.55 0.59 1.1 1.27 1.33 1.59 2.11 Preamp Antenna Table Factor Height Angle Remark
(dB) 31.11 31.85 31.69 31.61 31.73 31.59
(cm)
(Degree) 135 111 104 127 116 113 2 275 41 211 44 237 Peak Peak Peak Peak Peak Peak Antenna Polarity & Test Distance: Vertical at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 32.91 41.64 66.86 86.26 159.98 480.08 37.58 33.2 30.62 25.8 21.15 20.23 Remarks:
55.6 50.03 50.33 48.41 39.15 33.1 40 40 40 40 43.5 46
-2.42
-6.8
-9.38
-14.2
-22.35
-25.77 12.47 13.56 11.12 8.23 12.73 16.93 0.6 0.66 0.85 0.94 1.15 2.05 Preamp Antenna Table Factor Height Angle Remark
(dB) 31.09 31.05 31.68 31.78 31.88 31.85
(cm)
(Degree) 105 132 140 115 130 113 91 86 306 149 126 195 Peak Peak Peak Peak Peak Peak 1. Emission Level = Read Level + Antenna Factor + Cable Loss - Preamp Factor Margin value = Emission level Limit value Report No.: RF170315C40 Page No. 42 / 75 Report Format Version: 6.1.1 Mode D EUT Test Condition Measurement Detail Channel Channel 78 Frequency Range 30 MHz ~ 1 GHz Input Power 120 Vac, 60 Hz Detector Function Peak (PK) Quasi-peak (QP) Environmental Conditions Horizontal 25 deg. C, 65 % RH Tested By Getaz Yang Vertical Report No.: RF170315C40 Page No. 43 / 75 Report Format Version: 6.1.1 Antenna Polarity & Test Distance: Horizontal at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 32.91 108.57 157.07 191.99 212.36 298.69 25.9 23.96 23.01 26.24 23.39 20.59 43.92 44.81 40.96 46.75 43.76 37.87 40 43.5 43.5 43.5 43.5 46
-14.1
-19.54
-20.49
-17.26
-20.11
-25.41 12.47 9.9 12.72 9.91 9.89 12.91 0.6 1.1 1.13 1.27 1.35 1.63 Preamp Antenna Table Factor Height Angle Remark
(dB) 31.09 31.85 31.8 31.69 31.61 31.82
(cm)
(Degree) 130 112 138 118 103 127 243 118 297 347 105 152 Peak Peak Peak Peak Peak Peak Antenna Polarity & Test Distance: Vertical at 3 m Frequency
(MHz) Emission Read Level Level
(dBuV/m)
(dBuV) Limit Margin
(dBuV/m)
(dB) Antenna Factor
(dB/m) Cable Loss (dB) 32.91 40.67 66.86 158.04 191.99 308.39 37.06 33.49 30.75 21.44 20.88 19.03 Remarks:
55.08 50.31 50.46 39.41 41.39 36.15 40 40 40 43.5 43.5 46
-2.94
-6.51
-9.25
-22.06
-22.62
-26.97 12.47 13.55 11.12 12.73 9.91 13.15 0.6 0.65 0.85 1.13 1.27 1.66 Preamp Antenna Table Factor Height Angle Remark
(dB) 31.09 31.02 31.68 31.83 31.69 31.93
(cm)
(Degree) 112 113 139 127 140 110 99 17 11 31 12 275 Peak Peak Peak Peak Peak Peak 1. Emission Level = Read Level + Antenna Factor + Cable Loss - Preamp Factor Margin value = Emission level Limit value Report No.: RF170315C40 Page No. 44 / 75 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 Conducted Limit (dBuV) Quasi-peak 66 - 56 56 60 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 0.50 MHz. 3. All emanations from a class A/B digital device or system, including any network of conductors and apparatus connected thereto, shall not exceed the level of field strengths specified above. 4.2.2 Test Instruments Description &
Manufacturer Model No. Serial No. Date Of Calibration Due Date Of Calibration ESCI 5D-FB 100613 Nov. 20, 2017 Nov. 21, 2016 Cable-cond1-01 Test Receiver ROHDE & SCHWARZ RF signal cable (with 10dB PAD) Woken LISN ROHDE & SCHWARZ
(EUT) LISN ROHDE & SCHWARZ
(Peripheral) Software ADT Note: 1. The calibration interval of the above test instruments is 12 months and the calibrations are traceable BV ADT_Cond_ Dec. 22, 2016 Dec. 21, 2017 Mar. 10, 2017 Mar. 09, 2018 Jul. 28, 2016 Jul. 27, 2017 835239/001 ESH3-Z5 ESH3-Z5 V7.3.7.3 100311 NA NA NA to NML/ROC and NIST/USA. 2. The test was performed in HwaYa Shielded Room 1. 3. The VCCI Site Registration No. is C-2040. Report No.: RF170315C40 Page No. 45 / 75 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/ 50 uH 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 150 kHz to 30 MHz was searched. Emission levels under (Limit 20 dB) 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 For the actual test configuration, please refer to the attached file (Test Setup Photo). 4.2.6 EUT Operating Condition Set the EUT under transmission condition continuously at specific channel frequency. Report No.: RF170315C40 Page No. 46 / 75 Report Format Version: 6.1.1 Note: 1.Support units were connected to second LISN. 2.Both of LISNs (AMN) are 80 cm from EUT and at least 80cm from other units and other metal planessupport. units.Vertical GroundReference Plane40cm80cmTest ReceiverHorizontal GroundReference PlaneEUT LISN 4.2.7 Test Results CONDUCTED WORST-CASE DATA8DPSK Mode A Frequency Range 150kHz ~ 30MHz Input Power 120Vac, 60Hz Detector Function &
Resolution Bandwidth Environmental Conditions Quasi-Peak (QP) /
Average (AV), 9kHz 25, 65%RH Tested by Getaz Yang Test Date 2017/5/26 Frequency Correction Reading Value Emission Level No Factor
(dBuV)
(dBuV) Limit
(dBuV) Margin
(dB) Phase Of Power : Line (L) 1 2 3 4 5 6
(MHz) 0.16200 0.49000 0.81800 1.14600 2.12600 4.27000 Remarks:
(dB) 10.35 10.40 10.40 10.41 10.47 10.58 Q.P. 35.86 AV. 27.88 Q.P. 46.21 AV. 38.23 Q.P. 65.36 AV. Q.P. AV. 55.36
-19.15
-17.13 35.41 30.84 45.81 41.24 56.17 46.17
-10.36
-4.93 37.37 32.80 47.77 43.20 56.00 46.00
-8.23
-2.80 11.73 11.71 3.84 4.11 22.14 14.25 56.00 46.00
-33.86
-31.75 22.18 14.58 56.00 46.00
-33.82
-31.42 35.70 30.81 46.28 41.39 56.00 46.00
-9.72
-4.61 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.: RF170315C40 Page No. 47 / 75 Report Format Version: 6.1.1 Frequency Range 150kHz ~ 30MHz Input Power 120Vac, 60Hz Detector Function &
Resolution Bandwidth Environmental Conditions Quasi-Peak (QP) /
Average (AV), 9kHz 25, 65%RH Tested by Getaz Yang Test Date 2017/5/26 Frequency Correction Phase Of Power : Neutral (N) Emission Level Reading Value No Factor
(dBuV)
(dBuV) Limit
(dBuV) Q.P. 40.47 AV. 35.29 Q.P. 50.63 AV. 45.45 Q.P. 56.37 AV. 46.37 40.86 34.01 51.03 44.18 56.00 46.00 28.43 20.89 38.61 31.07 56.00 46.00
-17.39
-14.93 22.44 17.59 32.67 27.82 56.00 46.00
-23.33
-18.18 23.08 12.22 33.35 22.49 56.00 46.00
-22.65
-23.51 16.80 7.79 27.17 18.16 56.00 46.00
-28.83
-27.84 Margin
(dB) Q.P.
-5.74
-4.97 AV.
-0.92
-1.82 1 2 3 4 5 6
(MHz) 0.47810 0.79000 1.11800 2.06200 2.69000 4.73000 Remarks:
(dB) 10.16 10.17 10.18 10.23 10.27 10.37 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.: RF170315C40 Page No. 48 / 75 Report Format Version: 6.1.1 Mode B Frequency Range 150kHz ~ 30MHz Input Power 120Vac, 60Hz Detector Function &
Resolution Bandwidth Environmental Conditions Quasi-Peak (QP) /
Average (AV), 9kHz 25, 65%RH Tested by Getaz Yang Test Date 2017/5/26 Frequency Correction Reading Value Emission Level No Factor
(dBuV)
(dBuV) Limit
(dBuV) Margin
(dB) Phase Of Power : Line (L) 1 2 3 4 5
(MHz) 0.45800 0.76600 1.07000 1.37800 2.29400 Remarks:
(dB) 10.40 10.40 10.40 10.42 10.48 Q.P. 34.68 AV. 30.26 Q.P. 45.08 AV. 40.66 Q.P. 56.73 AV. 46.73 Q.P.
-11.65 36.45 32.16 46.85 42.56 56.00 46.00
-9.15 AV.
-6.07
-3.44 35.44 31.36 45.84 41.76 56.00 46.00
-10.16
-4.24 34.61 26.73 45.03 37.15 56.00 46.00
-10.97
-8.85 34.13 30.08 44.61 40.56 56.00 46.00
-11.39
-5.44 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.: RF170315C40 Page No. 49 / 75 Report Format Version: 6.1.1 Frequency Range 150kHz ~ 30MHz Input Power 120Vac, 60Hz Detector Function &
Resolution Bandwidth Environmental Conditions Quasi-Peak (QP) /
Average (AV), 9kHz 25, 65%RH Tested by Getaz Yang Test Date 2017/5/26 Frequency Correction Phase Of Power : Neutral (N) Emission Level Reading Value No Factor
(dBuV)
(dBuV) Limit
(dBuV) Margin
(dB) 1 2 3 4 5 6
(MHz) 0.45837 0.76618 1.07400 1.37800 1.68600 2.29800 Remarks:
(dB) 10.16 10.17 10.17 10.19 10.21 10.25 Q.P. 39.89 AV. 35.67 Q.P. 50.05 AV. 45.83 Q.P. 56.72 AV. 46.72 40.41 34.42 50.58 44.59 56.00 46.00 39.27 34.39 49.44 44.56 56.00 46.00 40.94 35.16 51.13 45.35 56.00 46.00 40.58 34.63 50.79 44.84 56.00 46.00 40.93 33.98 51.18 44.23 56.00 46.00 Q.P.
-6.67
-5.42
-6.56
-4.87
-5.21
-4.82 AV.
-0.89
-1.41
-1.44
-0.65
-1.16
-1.77 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.: RF170315C40 Page No. 50 / 75 Report Format Version: 6.1.1 Mode C Frequency Range 150kHz ~ 30MHz Input Power 120Vac, 60Hz Detector Function &
Resolution Bandwidth Environmental Conditions Quasi-Peak (QP) /
Average (AV), 9kHz 25, 65%RH Tested by Getaz Yang Test Date 2017/5/26 Frequency Correction Reading Value Emission Level No Factor
(dBuV)
(dBuV) Limit
(dBuV) Margin
(dB) Phase Of Power : Line (L) 1 2 3 4 5 6
(MHz) 0.15000 0.76618 1.38200 1.68600 2.29800 3.21800 Remarks:
(dB) 10.34 10.40 10.42 10.44 10.48 10.53 Q.P. 37.08 AV. 27.44 Q.P. 47.42 AV. 37.78 Q.P. 66.00 AV. Q.P. AV. 56.00
-18.58
-18.22 35.91 31.47 46.31 41.87 56.00 46.00
-9.69
-4.13 35.47 31.27 45.89 41.69 56.00 46.00
-10.11
-4.31 36.16 31.67 46.60 42.11 56.00 46.00
-9.40
-3.89 29.27 25.19 39.75 35.67 56.00 46.00
-16.25
-10.33 12.25 5.01 22.78 15.54 56.00 46.00
-33.22
-30.46 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.: RF170315C40 Page No. 51 / 75 Report Format Version: 6.1.1 Frequency Range 150kHz ~ 30MHz Input Power 120Vac, 60Hz Detector Function &
Resolution Bandwidth Environmental Conditions Quasi-Peak (QP) /
Average (AV), 9kHz 25, 65%RH Tested by Getaz Yang Test Date 2017/5/26 Frequency Correction Phase Of Power : Neutral (N) Emission Level Reading Value No Factor
(dBuV)
(dBuV) Limit
(dBuV) Q.P. 37.85 AV. 33.68 Q.P. 48.01 AV. 43.84 Q.P. 56.58 AV. 46.58 40.42 34.62 50.59 44.79 56.00 46.00 24.21 14.13 34.42 24.34 56.00 46.00
-21.58
-21.66 17.77 10.90 28.00 21.13 56.00 46.00
-28.00
-24.87 16.55 9.59 26.82 19.86 56.00 46.00
-29.18
-26.14 37.22 32.72 47.54 43.04 56.00 46.00
-8.46
-2.96 Margin
(dB) Q.P.
-8.57
-5.41 AV.
-2.74
-1.21 1 2 3 4 5 6
(MHz) 0.46600 0.78600 1.71800 2.03400 2.66200 3.60600 Remarks:
(dB) 10.16 10.17 10.21 10.23 10.27 10.32 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.: RF170315C40 Page No. 52 / 75 Report Format Version: 6.1.1 Mode D Frequency Range 150kHz ~ 30MHz Input Power 120Vac, 60Hz Detector Function &
Resolution Bandwidth Environmental Conditions Quasi-Peak (QP) /
Average (AV), 9kHz 25, 65%RH Tested by Getaz Yang Test Date 2017/5/26 Frequency Correction Reading Value Emission Level No Factor
(dBuV)
(dBuV) Limit
(dBuV) Margin
(dB) Phase Of Power : Line (L) 1 2 3 4 5 6
(MHz) 0.49869 0.83000 1.17000 1.83400 3.15400 4.67800 Remarks:
(dB) 10.40 10.40 10.41 10.45 10.52 10.60 Q.P. 25.21 AV. 21.10 Q.P. 35.61 AV. 31.50 Q.P. 56.02 AV. Q.P. AV. 46.02
-20.41
-14.52 33.44 28.78 43.84 39.18 56.00 46.00
-12.16
-6.82 27.00 22.91 37.41 33.32 56.00 46.00
-18.59
-12.68 31.46 27.23 41.91 37.68 56.00 46.00
-14.09
-8.32 31.68 22.25 42.20 32.77 56.00 46.00
-13.80
-13.23 31.43 20.02 42.03 30.62 56.00 46.00
-13.97
-15.38 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.: RF170315C40 Page No. 53 / 75 Report Format Version: 6.1.1 Frequency Range 150kHz ~ 30MHz Input Power 120Vac, 60Hz Detector Function &
Resolution Bandwidth Environmental Conditions Quasi-Peak (QP) /
Average (AV), 9kHz 25, 65%RH Tested by Getaz Yang Test Date 2017/5/26 Frequency Correction Phase Of Power : Neutral (N) Emission Level Reading Value No Factor
(dBuV)
(dBuV) Limit
(dBuV) Q.P. 39.53 AV. 33.44 Q.P. 49.69 AV. 43.60 Q.P. 56.00 AV. 46.00 36.60 30.51 46.77 40.68 56.00 46.00 16.54 7.66 26.74 17.86 56.00 46.00
-29.26
-28.14 32.09 27.69 42.33 37.93 56.00 46.00
-13.67
-8.07 39.81 34.96 50.11 45.26 56.00 46.00 39.45 34.16 49.80 44.51 56.00 46.00
-5.89
-6.20
-0.74
-1.49 Margin
(dB) Q.P.
-6.31
-9.23 AV.
-2.40
-5.32 1 2 3 4 5 6
(MHz) 0.50600 0.84200 1.52200 2.18600 3.19800 4.37400 Remarks:
(dB) 10.16 10.17 10.20 10.24 10.30 10.35 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.: RF170315C40 Page No. 54 / 75 Report Format Version: 6.1.1 4.3 Number of Hopping Frequency Used 4.3.1 Limits of Hopping Frequency Used Measurement At least 15 channels frequencies, and should be equally spaced. 4.3.2 Test Setup EUT SPECTRUM ANALYZER 10dB ATTENUATION PAD 4.3.3 Test Instruments Refer to section 4.1.2 to get information of above instrument. 4.3.4 Test Procedure a. Check the calibration of the measuring instrument (SA) using either an internal calibrator or a known signal from an external generator. b. Turn on the EUT and connect its antenna terminal to measurement via a low loss cable. Then set it to any one measured frequency within its operating range and make sure the instrument is operated in its linear range. c. Set the SA on MaxHold Mode, and then keep the EUT in hopping mode. Record all the signals from each channel until each one has been recorded. d. Set the SA on View mode and then plot the result on SA screen. e. Repeat above procedures until all frequencies measured were complete. 4.3.5 Deviation fromTest Standard No deviation. 4.3.6 Test Results There are 79 hopping frequencies in the hopping mode. Please refer to next page for the test result. On the plots, it shows that the hopping frequencies are equally spaced. Report No.: RF170315C40 Page No. 55 / 75 Report Format Version: 6.1.1 8DPSK Report No.: RF170315C40 Page No. 56 / 75 Report Format Version: 6.1.1 4.4 Dwell Time on Each Channel 4.4.1 Limits of Dwell Time on Each Channel Measurement The average time of occupancy on any channel shall not be greater than 0.4 seconds within a period of 0.4 seconds multiplied by the number of hopping channels employed. 4.4.2 Test Setup EUT SPECTRUM ANALYZER 4.4.3 Test Instruments Refer to section 4.1.2 to get information of above instrument. 4.4.4 Test Procedures a. Check the calibration of the measuring instrument (SA) using either an internal calibrator or a known signal from an external generator. b. Turn on the EUT and connect its antenna terminal to measurement via a low loss cable. Then set it to any one measured frequency within its operating range and make sure the instrument is operated in its linear range. c. Adjust the center frequency of SA on any frequency be measured and set SA to zero span mode. And then, set RBW and VBW of spectrum analyzer to proper value. d. Measure the time duration of one transmission on the measured frequency. And then plot the result with time difference of this time duration. e. Repeat above procedures until all different time-slot modes have been completed. 4.4.5 Deviation from Test Standard No deviation. Report No.: RF170315C40 Page No. 57 / 75 Report Format Version: 6.1.1 4.4.6 Test Results GFSK Mode Number of transmission in a 31.6 (79 Hopping*0.4) DH1 50 (times / 5 sec) * 6.32 = 316 times DH3 25 (times / 5 sec) * 6.32 = 158 times DH5 18 (times / 5 sec) * 6.32 = 113.76 times Length of transmission time
(msec) 0.409 1.682 2.932 Result
(msec) 129.24 265.76 333.54 Limit
(sec) 0.4 0.4 0.4 Note: Test plots of the transmitting time slot are shown as below. Report No.: RF170315C40 DH1 DH3 DH5 Page No. 58 / 75 Report Format Version: 6.1.1
/4-DQPSK Mode Number of transmission in a 31.6 (79 Hopping*0.4) 2DH1 50 (times / 5 sec) * 6.32 = 316 times 2DH3 27 (times / 5 sec) * 6.32 = 170.64 times 2DH5 17 (times / 5 sec) * 6.32 = 107.44 times Length of transmission time
(msec) 0.413 1.706 2.924 Result
(msec) 130.51 291.11 314.15 Note: Test plots of the transmitting time slot are shown as below. Limit
(sec) 0.4 0.4 0.4 2DH1 2DH3 2DH5 Report No.: RF170315C40 Page No. 59 / 75 Report Format Version: 6.1.1 8DPSK Mode Number of transmission in a 31.6 (79 Hopping*0.4) 3DH1 50 (times / 5 sec) * 6.32 = 316 times 3DH3 26 (times / 5 sec) * 6.32 = 164.32 times 3DH5 18 (times / 5 sec) * 6.32 = 113.76 times Length of transmission time
(msec) 0.438 1.714 2.956 Result
(msec) 138.41 281.64 336.27 Limit
(sec) 0.4 0.4 0.4 Note: Test plots of the transmitting time slot are shown as below. 3DH1 3DH3 3DH5 Report No.: RF170315C40 Page No. 60 / 75 Report Format Version: 6.1.1 4.5 Channel Bandwidth 4.5.1 Limits of Channel Bandwidth Measurement For frequency hopping system operating in the 2400-2483.5 MHz, if the 20 dB bandwidth of hopping channel is greater than 25 kHz, two-thirds 20 dB bandwidth of hopping channel shell be a minimum limit for the hopping channel separation. 4.5.2 Test Setup EUT SPECTRUM ANALYZER 4.5.3 Test Instruments Refer to section 4.1.2 to get information of above instrument. 4.5.4 Test Procedure a. Check the calibration of the measuring instrument using either an internal calibrator or a known signal from an external generator. b. Turn on the EUT and connect it to measurement instrument. Then set it to any one convenient frequency within its operating range. Set a reference level on the measuring instrument equal to the highest peak value. c. Measure the frequency difference of two frequencies that were attenuated 20 dB from the reference level. Record the frequency difference as the emission bandwidth. d. Repeat above procedures until all frequencies measured were complete. 4.5.5 Deviation from Test Standard No deviation. 4.5.6 EUT Operating Condition The software provided by client enabled the EUT to transmit and receive data at lowest, middle and highest channel frequencies individually. Report No.: RF170315C40 Page No. 61 / 75 Report Format Version: 6.1.1 4.5.7 Test Results Channel Frequency
(MHz) 20 dB Bandwidth (MHz) GFSK
/4-DQPSK 8DPSK 0 39 78 2402 2441 2480 0.89 0.94 0.94 1.24 1.28 1.28 1.25 1.25 1.25 Spectrum Plot of Worst Value GFSK
/4-DQPSK 8DPSK Report No.: RF170315C40 Page No. 62 / 75 Report Format Version: 6.1.1 4.6 Hopping Channel Separation 4.6.1 Limits of Hopping Channel Separation Measurement At least 25 kHz or two-third of 20 dB hopping channel bandwidth (whichever is greater). 4.6.2 Test Setup EUT SPECTRUM ANALYZER 10dB ATTENUATION PAD 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 a. Check the calibration of the measuring instrument using either an internal calibrator or a known signal from an external generator. b. Turn on the EUT and connect it to measurement instrument. Then set it to any one convenient frequency within its operating range. c. By using the MaxHold function record the separation of two adjacent channels. d. Measure the frequency difference of these two adjacent channels by SA MARK function. And then plot the result on SA screen. e. Repeat above procedures until all frequencies measured were complete. 4.6.5 Deviation from Test Standard No deviation. Report No.: RF170315C40 Page No. 63 / 75 Report Format Version: 6.1.1 4.6.6 Test Results Channel Freq.
(MHz) Adjacent Channel Separation
(MHz) 20 dB Bandwidth (MHz) Minimum Limit (MHz) Pass /
Fail GFSK /4-DQPSK 8DPSK GFSK /4-DQPSK 8DPSK GFSK /4-DQPSK 8DPSK 0 2402 1.00 1.00 1.00 0.89 1.24 1.25 0.6 0.83 0.84 Pass 2441 1.00 1.00 1.00 0.94 1.28 1.25 0.63 0.86 0.84 Pass 2480 1.00 1.00 1.00 0.94 1.28 1.25 0.63 0.86 0.84 Pass 39 78 Note:
The minimum limit is two-third 20 dB bandwidth. 1. Spectrum Plot of Worst Value GFSK
/4-DQPSK 8DPSK Report No.: RF170315C40 Page No. 64 / 75 Report Format Version: 6.1.1 4.7 Maximum Output Power 4.7.1 Limits of Maximum Output Power Measurement The Maximum Output Power Measurement is 125 mW. 4.7.2 Test Setup EUT SPECTRUM ANALYZER 4.7.3 Test Instruments Refer to section 4.1.2 to get information of above instrument. 4.7.4 Test Procedure a. Check the calibration of the measuring instrument using either an internal calibrator or a known signal from an external generator. b. Turn on the EUT and connect it to measurement instrument. Then set it to any one convenient frequency within its operating range. Set a reference level on the measuring instrument equal to the highest peak value. c. The center frequency of the spectrum analyzer is set to the fundamental frequency and using 3 MHz RBW and 10 MHz VBW. d. Measure the captured power within the band and recording the plot. e. Repeat above procedures until all frequencies required were complete. 4.7.5 Deviation fromTest Standard No deviation. 4.7.6 EUT Operating Condition The software provided by client enabled the EUT to transmit and receive data at lowest, middle and highest channel frequencies individually. Report No.: RF170315C40 Page No. 65 / 75 Report Format Version: 6.1.1 4.7.7 Test Results Channel Freq.
(MHz) Output Power
(mW) Output Power
(dBm) GFSK
/4-DQPSK 8DPSK GFSK
/4-DQPSK 8DPSK Power Limit
(mW) Pass /
Fail 0 39 78 2402 18.323 17.539 18.880 12.63 12.44 12.76 125 Pass 2441 18.155 17.418 18.836 12.59 12.41 12.75 125 Pass 2480 17.865 17.061 18.365 12.52 12.32 12.64 125 Pass Spectrum Plot of Worst Value GFSK
/4-DQPSK 8DPSK Report No.: RF170315C40 Page No. 66 / 75 Report Format Version: 6.1.1 4.8 Conducted Out of Band Emission Measurement 4.8.1 Limits Of Conducted Out Of Band Emission Measurement Below 20 dB of the highest emission level of operating band (in 100 kHz RBW). 4.8.2 Test Instruments Refer to section 4.1.2 to get information of above instrument. 4.8.3 Test Procedure The transmitter output was connected to the spectrum analyzer via a low lose cable. Set both RBW and VBW of spectrum analyzer to 100 kHz and 300 kHz with suitable frequency span including 100 MHz bandwidth from band edge. The band edges was measured and recorded. 4.8.4 Deviation from Test Standard No deviation. 4.8.5 EUT Operating Condition The software provided by client enabled the EUT to transmit and receive data at lowest, middle and highest channel frequencies individually. 4.8.6 Test Results The spectrum plots are attached on the following images. D1 line indicates the highest level, D2 line indicates the 20 dB offset below D1. It shows compliance with the requirement. Report No.: RF170315C40 Page No. 67 / 75 Report Format Version: 6.1.1 GFSK Hopping Disabled_Low Channel Hopping Disabled_High Channel Hopping Disabled_Middle Channel Report No.: RF170315C40 Page No. 68 / 75 Report Format Version: 6.1.1 Hopping Enabled_Low Channel Hopping Enabled_High Channel Report No.: RF170315C40 Page No. 69 / 75 Report Format Version: 6.1.1
/4-DQPSK Hopping Disabled_Low Channel Hopping Disabled_High Channel Hopping Disabled_Middle Channel Report No.: RF170315C40 Page No. 70 / 75 Report Format Version: 6.1.1 Hopping Enabled_Low Channel Hopping Enabled_Low Channel Report No.: RF170315C40 Page No. 71 / 75 Report Format Version: 6.1.1 8DPSK Hopping Disabled_Low Channel Hopping Disabled_High Channel Hopping Disabled_Middle Channel Report No.: RF170315C40 Page No. 72 / 75 Report Format Version: 6.1.1 Hopping Enabled_Low Channel Hopping Enabled_Low Channel Report No.: RF170315C40 Page No. 73 / 75 Report Format Version: 6.1.1 5 Pictures of Test Arrangements Please refer to the attached file (Test Setup Photo). Report No.: RF170315C40 Page No. 74 / 75 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 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 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.: RF170315C40 Page No. 75 / 75 Report Format Version: 6.1.1
| frequency | equipment class | purpose | ||
|---|---|---|---|---|
| 1 | 2017-07-09 | 2412 ~ 2472 | DTS - Digital Transmission System | Original Equipment |
| 2 | 2402 ~ 2480 | DSS - Part 15 Spread Spectrum Transmitter |
| app s | Applicant Information | |||||
|---|---|---|---|---|---|---|
| 1 2 | Effective |
2017-07-09
|
||||
| 1 2 | Applicant's complete, legal business name |
Fossil Group, Inc.
|
||||
| 1 2 | FCC Registration Number (FRN) |
0015477946
|
||||
| 1 2 | Physical Address |
901 S. Central Expy
|
||||
| 1 2 |
Richardson, TX
|
|||||
| 1 2 |
United States
|
|||||
| app s | TCB Information | |||||
| 1 2 | TCB Application Email Address |
L******@ul.com
|
||||
| 1 2 |
L******@ul.com
|
|||||
| 1 2 | TCB Scope |
A4: UNII devices & low power transmitters using spread spectrum techniques
|
||||
| app s | FCC ID | |||||
| 1 2 | Grantee Code |
UK7
|
||||
| 1 2 | Equipment Product Code |
DW4A
|
||||
| app s | Person at the applicant's address to receive grant or for contact | |||||
| 1 2 | Name |
C**** K******
|
||||
| 1 2 | Title |
Vice President, Chief Compliance & Risk Officer
|
||||
| 1 2 | Telephone Number |
469-5********
|
||||
| 1 2 | Fax Number |
972-6********
|
||||
| 1 2 |
r******@fossil.com
|
|||||
| app s | Technical Contact | |||||
| n/a | ||||||
| app s | Non Technical Contact | |||||
| n/a | ||||||
| app s | Confidentiality (long or short term) | |||||
| 1 2 | 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 | 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 | If so, specify the short-term confidentiality release date (MM/DD/YYYY format) | 01/05/2018 | ||||
| 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 | Is this application for software defined/cognitive radio authorization? | No | ||||
| 1 2 | Equipment Class | DTS - Digital Transmission System | ||||
| 1 2 | DSS - Part 15 Spread Spectrum Transmitter | |||||
| 1 2 | Description of product as it is marketed: (NOTE: This text will appear below the equipment class on the grant) | Smart Watch | ||||
| 1 2 | Related OET KnowledgeDataBase Inquiry: Is there a KDB inquiry associated with this application? | Yes | ||||
| 1 2 | Modular Equipment Type | Does not apply | ||||
| 1 2 | Purpose / Application is for | Original Equipment | ||||
| 1 2 | Composite Equipment: Is the equipment in this application a composite device subject to an additional equipment authorization? | Yes | ||||
| 1 2 | 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 | Grant Comments | Output power listed is conducted. This device supports 20 MHz WLAN operations in the 2.4 GHz band. The highest reported SAR for held to face and extremity (wrist) exposure conditions are <0.1 W/kg and 0.22W/kg respectively. | ||||
| 1 2 | Output power listed is conducted. The highest reported SAR for held to face and extremity (wrist) exposure conditions are <0.1 W/kg and <0.1 W/kg respectively. | |||||
| 1 2 | Is there an equipment authorization waiver associated with this application? | No | ||||
| 1 2 | 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 | Firm Name |
Bureau Veritas CPS (H.K.) Ltd., Taoyuan Branch
|
||||
| 1 2 | Name |
K**** L****
|
||||
| 1 2 | Telephone Number |
+886-******** Extension:
|
||||
| 1 2 | Fax Number |
+886-********
|
||||
| 1 2 |
k******@tw.bureauveritas.com
|
|||||
| Equipment Specifications | |||||||||||||||||||||||||||||||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
| 1 | 1 | 15C | CC | 2402 | 2480 | 0.002 | |||||||||||||||||||||||||||||||||||
| 1 | 2 | 15C | CC | 2412 | 2472 | 0.081 | |||||||||||||||||||||||||||||||||||
| Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
| 2 | 1 | 15C | CC | 2402.00000000 | 2480.00000000 | 0.0190000 | |||||||||||||||||||||||||||||||||||
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