submitted | available | document details (if available) | source link |
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October 28 2019 | October 30 2019 | TEST REPORT Williams, Sarah Adobe PDF Library 15.0 |
various | WLAN 5GHz Aux Part 1 | Test Report | 5.48 MiB | October 28 2019 / October 30 2019 |
TEST REPORT Test Report No. : UL-RPT-RP12718494JD10E V2.0
: Apple Inc.
: A1991
: BCGA1991
: WLAN
: FCC Parts 15.209(a) & 15.407
: UL VS LTD, Basingstoke, Hampshire, RG24 8AH, United Kingdom This test report shall not be reproduced except in full, without the written approval of UL VS LTD. The results in this report apply only to the sample(s) tested. The sample tested is in compliance with the above standard(s). The test results in this report are traceable to the national or international standards. Version 2.0 supersedes all previous versions. Date of Issue:
Checked by:
Company Signatory:
18 September 2019 Sarah Williams Senior Test Engineer, Radio Laboratory Senior Test Engineer, Radio Laboratory Ben Mercer UL VS LTD Customer Model No. FCC ID Technology Test Standard(s) Test Laboratory 1. 2. 3. 4. 5. UL VS LTD Unit 1-3 Horizon, Kingsland Business Park, Wade Road, Basingstoke, Hampshire, RG24 8AH, UK Telephone: +44 (0)1256 312000 Facsimile: +44 (0)1256 312001 TEST REPORT VERSION 2.0 SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 Customer Information Company Name:
Address:
Contact Name:
Apple Inc. One Apple Park Way Cupertino, California 95014 U.S.A. Stuart Thomas Report Revision History Version Number 1.0 2.0 Issue Date Revision Details 17/07/2019 18/09/2019 Initial Version Address TCB questions Revised By Sarah Williams Sarah Williams Page 2 of 128 UL VS LTD TEST REPORT VERSION 2.0 SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 4.1. Transmitter Duty Cycle 4.2. Transmitter 26 dB Emission Bandwidth 2.1. Facilities and Accreditation 2.2. Methods and Procedures 2.3. Calibration and Uncertainty 2.4. Test and Measurement Equipment 1.1. Description of EUT 1.2. General Information 1.3. Summary of Test Results 1.4. Deviations from the Test Specification 3.1. Identification of Equipment Under Test (EUT) 3.2. Modifications Incorporated in the EUT 3.3. Additional Information Related to Testing 3.4. Description of Available Antennas 3.5. Description of Test Setup Table of Contents Customer Information.................................................................................................................. 2 Report Revision History .............................................................................................................. 2 1. Attestation of Test Results ...................................................................................................... 5 5 5 6 6 2. Summary of Testing ................................................................................................................. 7 7 7 8 9 3. Equipment Under Test (EUT) ................................................................................................ 12 12 12 13 16 17 4. Antenna Port Test Results .................................................................................................... 23 23 25 26 30 34 38 42 46 47 49 53 53 58 63 68 72 77 77 79 81 83 85 5. Radiated Test Results ............................................................................................................ 87 87 89 89 92 95 98 100 105 5.2.1. 5.15-5.25 GHz band 5.2.2. 5.25-5.35 GHz band 5.2.3. 5.47-5.725 GHz band 5.2.4. Channels that straddle the U-NII-2C and U-NII-3 bands at 5725 MHz 5.2.5. 5.725-5.85 GHz band 4.5.1. 5.15-5.25 GHz band 4.5.2. 5.25-5.35 GHz band 4.5.3. 5.47-5.725 GHz band 4.5.4. Channels that straddle the U-NII-2C and U-NII-3 bands 4.5.5. 5.725-5.85 GHz band 4.2.1. 5.15-5.25 GHz band 4.2.2. 5.25-5.35 GHz band 4.2.3. 5.47-5.725 GHz band 4.2.4. Channels that straddle the U-NII-2C and U-NII-3 bands 4.2.5. 5.725-5.85 GHz band 4.4.1. 5.15-5.25 GHz band 4.4.2. 5.25-5.35 GHz band 4.4.3. 5.47-5.725 GHz band 4.4.4. Channels that straddle the U-NII-2C and U-NII-3 bands 4.4.5. 5.725-5.85 GHz band 4.3.1. Channels that straddle the U-NII-2C and the U-NII-3 bands at 5.725 GHz 4.3.2. 5.725-5.85 GHz band 5.1. Transmitter Out of Band Radiated Emissions <1 GHz 5.2. Transmitter Out of Band Radiated Emissions >1 GHz 4.3. Transmitter Minimum 6 dB Bandwidth (5.725-5.85 GHz band) 4.4. Transmitter Maximum Conducted Output Power 4.5. Transmitter Maximum Power Spectral Density 5.3. Transmitter Band Edge Radiated Emissions UL VS LTD Page 3 of 128 TEST REPORT VERSION 2.0 5.3.1. 5.15-5.25 GHz band 5.3.2. 5.25-5.35 GHz band 5.3.3. 5.47-5.725 GHz band 5.3.4. 5.725-5.85 GHz band SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 105 110 115 124 Page 4 of 128 UL VS LTD TEST REPORT VERSION 2.0 1. Attestation of Test Results 1.1. Description of EUT SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 The Equipment Under Test (EUT) was a Desktop computer with Bluetooth, Bluetooth Low Energy and 802.11 a/b/g/n/ac capabilities in the 2.4 GHz and 5.0 GHz bands. 1.2. General Information Specification Reference: 47CFR15.407 and 47CFR15.403 Specification Title:
Code of Federal Regulations Volume 47 (Telecommunications):
Part 15 Subpart E (Unlicensed National Information Infrastructure Devices) Sections 15.403 and 15.407 Specification Reference: 47CFR15.209 Specification Title:
Site Registration:
Location of Testing:
Test Dates:
Code of Federal Regulations Volume 47 (Telecommunications):
Part 15 Subpart C (Intentional Radiators) - Section 15.209 621311 UL VS LTD, Unit 3 Horizon, Wade Road, Kingsland Business Park, Basingstoke, Hampshire, RG24 8AH, United Kingdom 20 April 2019 to 04 July 2019 UL VS LTD Page 5 of 128 TEST REPORT VERSION 2.0 SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 1.3. Summary of Test Results FCC Reference
(47CFR) Part 15.35(c) Part 15.403(i) Part 15.407(e) Measurement Transmitter Duty Cycle Transmitter 26 dB Emission Bandwidth Transmitter Minimum 6 dB Bandwidth (5.725-5.85 GHz band) Transmitter Minimum 6 dB Bandwidth
(Channels that straddle the U-NII-2C and U-NII-3 bands at 5725 MHz) Transmitter Maximum Conducted Output Power
(5.15-5.25 GHz band) Transmitter Maximum Conducted Output Power
(5.25-5.35 GHz & 5.47-5.725 GHz bands) Transmitter Maximum Conducted Output Power
(Channels that straddle the U-NII-2C and U-NII-3 bands at 5725 MHz) Transmitter Maximum Conducted Output Power
(5.725-5.85 GHz band) Transmitter Maximum Power Spectral Density
(5.15-5.25 GHz band) Transmitter Maximum Power Spectral Density
(5.25-5.35 GHz & 5.47-5.725 GHz bands) Transmitter Maximum Power Spectral Density
(Channels that straddle the U-NII-2C and U-NII-3 bands at 5725 MHz) Transmitter Maximum Power Spectral Density
(5.725-5.85 GHz band) Transmitter Out of Band Radiated Emissions Transmitter Band Edge Radiated Emissions Transmitter Frequency Stability
(Temperature & Voltage Variation) Transmitter Power Control Part 15.407(e) Part 15.407(a)(1)(iv) Part 15.407(a)(2) Part 15.407(a)(2) Part 15.407(a)(3) Part 15.407(a)(1)(iv) Part 15.407(a)(2) Part 15.407(a)(2) Part 15.407(a)(3) Part 15.407(b)/
15.209(a) Part 15.407(b)/
15.209(a) Part 15.407(g) Part 15.407(h)(1) Note(s):
Result Note 1 Complied Complied Complied Complied Complied Complied Complied Complied Complied Complied Complied Complied Complied Note 2 Note 3 1. The measurement was performed to assist in the calculation of the level of average output power, power spectral density and emissions as the EUT employs pulsed operation. 2. Frequency stability is better than 20 ppm which ensures that the signal remains in the allocated bands under all operational conditions stated in the user manual. 3. Transmit Power Control was not tested as the maximum EIRP is less than 500 mW (27 dBm). 1.4. Deviations from the Test Specification For the measurements contained within this test report, there were no deviations from, additions to, or exclusions from the test specifications identified above. Page 6 of 128 UL VS LTD TEST REPORT VERSION 2.0 2. Summary of Testing 2.1. Facilities and Accreditation SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 The test site and measurement facilities used to collect data are located at Unit 3 Horizon, Wade Road, Kingsland Business Park, Basingstoke, Hampshire, RG24 8AH, United Kingdom. The following table identifies which facilities were utilised for radiated emission measurements documented in this report. Specific facilities are also identified in the test results sections. Site 1 Site 2 Site 17 X
-
X UL VS LTD is accredited by UKAS. The tests reported herein have been performed in accordance with its terms of accreditation. 2.2. Methods and Procedures Reference:
Title:
Reference:
Title:
ANSI C63.10-2013 American National Standard of Procedures for Compliance Testing of Unlicensed Wireless Devices KDB 789033 D02 General U-NII Test Procedures New Rules v02r01 December 14, 2017 Guidelines for Compliance Testing of Unlicensed National Information Infrastructure (U-NII) Devices (Part 15, Subpart E) UL VS LTD Page 7 of 128 TEST REPORT VERSION 2.0 2.3. Calibration and Uncertainty Measuring Instrument Calibration SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 In accordance with UKAS requirements all the measurement equipment is on a calibration schedule. All equipment was within the calibration period on the date of testing. Measurement Uncertainty No measurement or test can ever be perfect and the imperfections give rise to error of measurement in the results. Consequently the result of a measurement is only an approximation to the value measured (the specific quantity subject to measurement) and is only complete when accompanied by a statement of the uncertainty of the approximation. The expression of uncertainty of a measurement result allows realistic comparison of results with reference values and limits given in specifications and standards. The uncertainty of the result may need to be taken into account when interpreting the measurement results. The reported expanded uncertainties below are based on a standard uncertainty multiplied by an appropriate coverage factor such that a confidence level of approximately 95% is maintained. For the purposes of this document approximately is interpreted as meaning effectively or for most practical purposes. Measurement Type Range Confidence Level (%) Calculated Uncertainty Duty Cycle 26 dB Emission Bandwidth Minimum 6 dB Emission Bandwidth Maximum Conducted Output Power Maximum Power Spectral Density Radiated Spurious Emissions Radiated Spurious Emissions 5.15 GHz to 5.850 GHz 5.15 GHz to 5.850 GHz 5.15 GHz to 5.850 GHz 5.15 GHz to 5.850 GHz 5.15 GHz to 5.850 GHz 30 MHz to 1 GHz 1 GHz to 40 GHz 95%
95%
95%
95%
95%
95%
95%
1.14 %
4.59 %
4.59 %
1.13 dB 1.13 dB 4.65 dB 2.94 dB The methods used to calculate the above uncertainties are in line with those recommended within the various measurement specifications. Where measurement specifications do not include guidelines for the evaluation of measurement uncertainty the published guidance of the appropriate accreditation body is followed. Page 8 of 128 UL VS LTD TEST REPORT VERSION 2.0 SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 2.4. Test and Measurement Equipment Test Equipment Used for Transmitter Conducted Tests Asset No. Instrument Manufacturer Type No. Serial No. Date Calibration Due M2004 Thermohygrometer Testo M2033 Signal Analyser M2024 Power Sensor A3027 Attenuator A3004 RF Switch A3180 Attenuator G0615 Signal Generator 608-H1 Rohde & Schwarz FSV13 Boonton 55006 Broadwave Technologies Inc. Pickering Interfaces Pasternack Rohde & Schwarz SMBV100A 64-102-002 PE7047-3 45046425 101667 9824 06 Jan 2020 29 Jan 2020 11 Jan 2020 351-311-006 #1 Calibrated before use XZ363230 Calibrated before use Not stated Calibrated before use 260473 08 May 2020 Calibration not required A3005 Replay Test Rack N/A N/A N/A Cal. Interval
(Months) 12 12 12
-
-
-
36
-
Test Measurement Software/Firmware Used for Transmitter Conducted Tests Name UL VS LTD Replay Version 20190208 Release Date 08 February 2019 UL VS LTD Page 9 of 128 SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 TEST REPORT VERSION 2.0 Test and Measurement Equipment (continued) Test Equipment Used for Transmitter Radiated Emissions Asset No. Instrument Manufacturer Type No. 608-H1 N/A M2040 Thermohygrometer Testo K0001 3m RSE Chamber Rainford EMC M1630 Test Receiver M2044 Test Receiver A3154 Pre-Amplifier A3179 Pre-Amplifier A3141 Pre-Amplifier A2896 Pre-Amplifier A553 Antenna A3138 Antenna A3139 Antenna A2895 Antenna A3112 Attenuator A2523 Attenuator Rohde & Schwarz ESU40 Rohde & Schwarz ESU26 Com-Power Hewlett Packard Schwarzbeck Schwarzbeck Chase Schwarzbeck Schwarzbeck Schwarzbeck AtlanTecRF AtlanTecRF PAM-103 8449B BBV 9718 B BBV 9721 CBL6111A BBHA 9120 B HWRD 750 BBHA 9170 AN18-06 AN18W5-10 A3085 Low Pass Filter AtlanTecRF AFL-02000 A3095 High Pass Filter AtlanTecRF AFH-07000 Serial No. Date Calibration Due 06 Jan 2020 45124934 04 Oct 2019 N/A 20 Sep 2019 100233 01 Apr 2020 100122 18020012 14 Sep 2019 3008A00934 04 Apr 2020 00021 21 Nov 2019 08 Feb 2020 9721 - 023 08 Oct 2019 1593 00702 03 Oct 2019 04 Oct 2019 00027 08 Feb 2020 9170-728 219706#2 08 Oct 2019 832827#1 04 Mar 2020 180516000 14 180516000 12 09 Apr 2020 09 Apr 2020 Wainwright Instruments A2482 5.8 GHz Band Reject Filter K0017 3m RSE Chamber Rainford EMC M2003 Thermohygrometer Testo M1995 Test Receiver A2947 High Pass Filter A3142 Pre Amplifier A2980 Antenna WRCJV8-5665-5725-
5850-5910-50SS N/A 608-H1 Rohde & Schwarz ESU40 AtlanTecRF Schwarzbeck Schwarzbeck AFH-07000 BBV 9718 B HWRD 750 2 10 Apr 2020 16 Feb 2020 N/A 06 Jan 2020 45046641 08 May 2020 100428 1601900001 20 Feb 2020 12 Feb 2020 00020 014 12 Feb 2020 Page 10 of 128 UL VS LTD Cal. Interval
(Months) 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 TEST REPORT VERSION 2.0 SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 Test and Measurement Equipment (continued) Test Equipment Used for Transmitter Band Edge Radiated Emissions Asset No. Instrument Manufacturer Type No. Serial No. M2040 Thermohygrometer K0001 3m RSE Chamber M2044 Test Receiver A3179 Pre-Amplifier A3138 Antenna A2523 Attenuator M2003 Thermohygrometer K0017 3m RSE Chamber M1995 Test Receiver M1630 Test Receiver A2863 Pre-Amplifier A2889 Antenna A2916 Attenuator 608-H1 N/A 45124934 N/A 100122 3008A00934 Testo Rainford EMC Rohde & Schwarz ESU26 Hewlett Packard 8449B BBHA 9120B 00702 Schwarzbeck AN18W5-10 AtlanTecRF Testo 608-H1 Rainford N/A Rohde & Schwarz ESU40 Rohde & Schwarz ESU40 8449B Agilent BBHA 9120B BBHA 9120 B653 Schwarzbeck AtlanTecRF AN18W5-10 832827#1 45046641 N/A 100428 100233 3008A02100 832827#1 Test Measurement Software/Firmware Used Name UL VS LTD Replay Version 1 Date Calibration Due 06 Jan 2020 04 Oct 2019 01 Apr 2020 04 Apr 2020 03 Oct 2019 04 Mar 2020 06 Jan 2020 16 Feb 2020 08 May 2020 20 Sep 2019 12 Feb 2020 12 Feb 2020 20 Feb 2020 Cal. Interval
(Months) 12 12 12 12 12 12 12 12 12 12 12 12 12 Release Date 29 November 2018 UL VS LTD Page 11 of 128 TEST REPORT VERSION 2.0 SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 3. Equipment Under Test (EUT) 3.1. Identification of Equipment Under Test (EUT) Brand Name:
Model Name or Number:
Test Sample Serial Number:
Hardware Version:
Software Version:
FCC ID:
Apple A1991 C02YF007MFLF (Conducted sample) REV 1.0 18F98 BCGA1991 Brand Name:
Model Name or Number:
Test Sample Serial Number:
Hardware Version:
Software Version:
FCC ID:
Brand Name:
Model Name or Number:
Test Sample Serial Number:
Hardware Version:
Software Version:
FCC ID:
Apple A1991 C02YF00CMFLF (Radiated sample #1) REV 1.0 18F98 BCGA1991 Apple A1991 C02YD006MFLQ (Radiated sample #2) REV 1.0 18F98 BCGA1991 3.2. Modifications Incorporated in the EUT No modifications were applied to the EUT during testing. Page 12 of 128 UL VS LTD TEST REPORT VERSION 2.0 SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 3.3. Additional Information Related to Testing Technology Tested:
Type of Unit:
Modulation:
Data rates:
WLAN (IEEE 802.11a,n,ac) / U-NII Transceiver BPSK, QPSK, 16QAM, 64QAM & 256QAM 802.11a 802.11n HT20 802.11n HT40 802.11ac VHT20 802.11ac VHT40 802.11ac VHT80 6, 9, 12, 18, 24, 36, 48 & 54 Mbps MCS0 to MCS7 (SISO) MCS0 to MCS7 (SISO) MCS0 to MCS8 (SISO) MCS0 to MCS9 (SISO) MCS0 to MCS9 (SISO) Constant 3.8 VDC via 120 VAC 60 Hz AC/DC supply 22.1 dBm 22.3 dBm 21.8 dBm Power Supply Requirement(s):
Nominal Maximum Conducted Output Power:
20 MHz 40 MHz 80 MHz UL VS LTD Page 13 of 128 TEST REPORT VERSION 2.0 SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 Additional Information Related to Testing (continued) Channel Spacing:
Transmit Frequency Band:
Transmit Channels Tested:
20 MHz 5150 MHz to 5250 MHz Channel ID Channel Number Channel Frequency (MHz) Transmit Frequency Band:
Transmit Channels Tested:
Transmit Frequency Band:
Transmit Channels Tested:
Transmit Frequency Band:
Transmit Channel Tested:
Transmit Frequency Band:
Transmit Channels Tested:
Bottom Middle Top 36 40 48 5250 MHz to 5350 MHz Channel ID Channel Number Bottom Middle Top 52 56 64 5470 MHz to 5725 MHz Channel ID Channel Number Bottom Middle Top 100 116 140 5180 5200 5240 Channel Frequency
(MHz) 5260 5280 5320 Channel Frequency
(MHz) 5500 5580 5700 Channels that straddle the U-NII-2C and U-NII-3 bands at 5725 MHz Channel ID Channel Number Single 144 5725 MHz to 5850 MHz Channel ID Channel Number Bottom Middle Top 149 157 165 Channel Frequency
(MHz) 5720 Channel Frequency
(MHz) 5745 5785 5825 Page 14 of 128 UL VS LTD TEST REPORT VERSION 2.0 SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 Additional Information Related to Testing (continued) Channel Spacing:
Transmit Frequency Band:
Transmit Channels Tested:
40 MHz 5150 MHz to 5250 MHz Channel ID Channel Number Bottom Top 38 46 5250 MHz to 5350 MHz Channel ID Channel Number Bottom Top 54 62 5470 MHz to 5725 MHz Channel ID Channel Number Bottom Middle Top 102 118 134 Channel Frequency
(MHz) 5190 5230 Channel Frequency
(MHz) 5270 5310 Channel Frequency
(MHz) 5510 5590 5670 Channels that straddle the U-NII-2C and U-NII-3 bands at 5725 MHz Channel ID Channel Number Single 142 5725 MHz to 5850 MHz Channel ID Channel Number Bottom Top 151 159 Channel Frequency
(MHz) 5710 Channel Frequency
(MHz) 5755 5795 Transmit Frequency Band:
Transmit Channels Tested:
Transmit Frequency Band:
Transmit Channels Tested:
Transmit Frequency Band:
Transmit Channel Tested:
Transmit Frequency Band:
Transmit Channels Tested:
UL VS LTD Page 15 of 128 TEST REPORT VERSION 2.0 SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 Additional Information Related to Testing (continued) Channel Spacing:
Transmit Frequency Band:
Transmit Channels Tested:
80 MHz 5150 MHz to 5250 MHz Channel ID Channel Number Transmit Frequency Band:
Transmit Channels Tested:
Transmit Frequency Band:
Transmit Channels Tested:
Transmit Frequency Band:
Transmit Channel Tested:
Transmit Frequency Band:
Transmit Channels Tested:
Channel Frequency
(MHz) 5210 Channel Frequency
(MHz) 5290 Single 42 5250 MHz to 5350 MHz Channel ID Channel Number Single 58 5470 MHz to 5725 MHz Channel Frequency Channel ID Channel Number Bottom
(MHz) 5530 5610 Channels that straddle the U-NII-2C and U-NII-3 bands at 5725 MHz 106 122 Top Channel ID Channel Number Single 138 5725 MHz to 5850 MHz Channel ID Channel Number Single 155 Channel Frequency
(MHz) 5690 Channel Frequency
(MHz) 5775 3.4. Description of Available Antennas The radio utilizes an integrated antenna, with the following maximum gains:
Frequency Range (MHz) Antenna Gain (dBi) 5150 to 5250 5250 to 5350 5470 to 5725 5725 to 5850 4.5 4.2 4.9 4.6 Page 16 of 128 UL VS LTD TEST REPORT VERSION 2.0 SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 3.5. Description of Test Setup Support Equipment The following support equipment was used to exercise the EUT during testing:
Description:
Brand Name:
Model Name or Number:
Serial Number:
Description:
Brand Name:
Model Name or Number:
Serial Number:
Description:
Brand Name:
Model Name or Number:
Serial Number:
Description:
Brand Name:
Model Name or Number:
Serial Number:
Description:
Brand Name:
Model Name or Number:
Serial Number:
Description:
Brand Name:
Model Name or Number:
Serial Number:
Description:
Brand Name:
Model Name or Number:
Serial Number:
Test Laptop Apple MacBook Pro C02Q81PFG3QD USB Keyboard Apple A1243 C02T300BHXOX USB Mouse Apple A1152 Not marked or stated Personal Hands Free (PHF) Apple Apple EarPods Not marked or stated USB-C to USB Adapter. Quantity 4 Apple A1632 Not marked or stated HDMI Monitor Dell S2218H Not marked or stated USB Hub Hama 0078498 09825891600 UL VS LTD Page 17 of 128 SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 TEST REPORT VERSION 2.0 Support Equipment (continued) Description:
Brand Name:
Model Name or Number:
Serial Number:
Ethernet Router Netgear GS605v3 1YG194390218E Description:
Brand Name:
Model Name or Number:
Serial Number:
Description:
Brand Name:
Model Name or Number:
Serial Number:
Description:
Brand Name:
Model Name or Number:
Serial Number:
Description:
Brand Name:
Model Name or Number:
Serial Number:
Description:
Brand Name:
Model Name or Number:
Serial Number:
Ethernet Cable. Length 3.0 metres. Quantity 2 Not marked or stated Not marked or stated Not marked or stated HDMI Cable. Length 3.0 metres. Quantity 2 Not marked or stated Not marked or stated Not marked or stated USB Cable. Length 3.0 metres. Quantity 3 Not marked or stated Not marked or stated Not marked or stated Test Laptop Apple MacBook Pro C02VT0AUHX87 HDMI Hub Not marked or stated Not marked or stated Not marked or stated Page 18 of 128 UL VS LTD TEST REPORT VERSION 2.0 Operating Modes SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 The EUT was tested in the following operating mode(s):
Continuously transmitting with a modulated carrier at maximum power on the bottom, middle and top channels as required using the supported data rates/modulation types. Configuration and Peripherals The EUT was tested in the following configuration(s):
Controlled in test mode using a software application on the EUT supplied by the customer. The application was used to enable a continuous transmission and to select the test channels as required. The customer requested the following data rates to be used for all measurements. o 802.11a SISO - BPSK / 6 Mbps / Core 2 o 802.11n HT20 / SISO BPSK / MCS0 / Core 2 o 802.11n HT40 / SISO BPSK / MCS0 / Core 2 o 802.11ac VHT80 / SISO BPSK / MCS0 / Core 2 The customer supplied U.FL RF cables with the EUT in order to perform conducted measurements. The measured additional path loss was included in any path loss calculations. Transmitter spurious emissions were performed with the EUT transmitting with a data rate of 802.11n HT20 / MCS0 as this mode emits the highest power level and was deemed to be worst case. Transmitter radiated spurious emissions tests were performed with the USB Keyboard, USB Mouse and PHF connected to the EUT. The remaining USB ports were connected with a USB cable to a hub. The USB-C ports were connected via a USB C-A adaptor and USB cable to a hub. The ethernet ports were terminated into a router. The HDMI ports were terminated into a hub. The router and hubs were placed under the floor inside the chamber. The EUT was powered from a 120 VAC 60 Hz single phase mains supply. UL VS LTD Page 19 of 128 TEST REPORT VERSION 2.0 Test Setup Diagrams Conducted Tests:
Test Setup for Transmitter Conducted Tests SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 PC Single Phase AC Supply EUT RF Attenuator Power Meter &
Switching Unit RF Attenuator Signal Analyser Page 20 of 128 UL VS LTD SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 TEST REPORT VERSION 2.0 Test Setup Diagrams (continued) Radiated Tests:
Test Setup for Transmitter Radiated Emissions Mouse Single Phase AC Supply PHF Keyboard EUT Measurement Antenna &
Attenuator Low Pass Filter Amplifier Test Receiver
(X4)
(X2)
(X2) USB Hub Ethernet Router HDMI Termination Mouse Single Phase AC Supply PHF Keyboard EUT Measurement Antenna &
Attenuator RF Attenuator and/or RF Filter Amplifier Test Receiver
(X4)
(X2)
(X2) USB Hub Ethernet Router HDMI Termination UL VS LTD Page 21 of 128 TEST REPORT VERSION 2.0 SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 Test Setup Diagrams (continued) Test Setup for Transmitter Radiated Emissions (continued) Mouse Single Phase AC Supply PHF Keyboard EUT Measurement Antenna High Pass Filter Amplifier Test Receiver
(X4)
(X2)
(X2) USB Hub Ethernet Router HDMI Termination Mouse Single Phase AC Supply PHF Keyboard EUT Measurement Antenna High Pass Filter Amplifier Test Receiver
(X4)
(X2)
(X2) USB Hub Ethernet Router HDMI Termination Page 22 of 128 UL VS LTD TEST REPORT VERSION 2.0 4. Antenna Port Test Results 4.1. Transmitter Duty Cycle Test Summary:
Test Engineer:
Test Sample Serial Number:
Max Passell C02YF007MFLF SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 Test Date:
28 May 2019 FCC Reference:
Test Method Used:
Environmental Conditions:
Temperature (C):
Relative Humidity (%):
Note(s):
Part 15.35(c) KDB 789033 D02 Section II.B.2.b) 21 45 1. In order to assist with the determination of the average level of fundamental and spurious emissions field strength, measurements were made of duty cycle to determine the transmission duration and the silent period time of the transmitter. The transmitter duty cycle was measured using a spectrum analyser in the time domain and calculated by using the following calculation:
10 log 1 / (On Time / [Period or 100ms whichever is the lesser]). 802.11n HT40 / SISO / MCS0 duty cycle: 10 log (1 / (0.9422/0.9676)) = 0.1 802.11ac VHT80 / SISO / MCS0 duty cycle: 10 log (1 / (0.4589/0.4830)) = 0.2 2. Plots below are for data rates with a duty cycle less than 98%. Results for all other modes having a duty cycle >98% are archived on the UL VS LTD IT server and available for inspection if required. 3. The signal analyser was connected to the RF port on the EUT using an RF switch, suitable attenuation and RF cables. An RF level offset was entered on the signal analyser to compensate for the loss of the switch, attenuators and RF cables. UL VS LTD Page 23 of 128 TEST REPORT VERSION 2.0 Transmitter Duty Cycle (continued) Results: 802.11n / 40 MHz / MCS0 SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 Pulse Duration
(ms) 0.9422 Period
(ms) 0.9676 Duty Cyle
(%) 97.4 Duty Cycle Correction factor
(dB) 0.1 Results: 802.11ac / 80 MHz / MCS0 Pulse Duration
(ms) 0.4589 Period
(ms) 0.4830 Duty Cyle
(%) 95.0 Duty Cycle Correction factor
(dB) 0.2 Page 24 of 128 UL VS LTD TEST REPORT VERSION 2.0 SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 Test Dates:
28 May 2019 to 10 June 2019 4.2. Transmitter 26 dB Emission Bandwidth Test Summary:
Test Engineer:
Max Passell Test Sample Serial Number:
C02YF007MFLF FCC Reference:
Test Method Used:
Environmental Conditions:
Temperatures (C):
Relative Humidity (%):
Note(s):
Part 15.403(i) KDB 789033 D02 Section II.C.1. 21 to 23 36 to 50 1. Measurements were performed on data rates detailed in Section 3.5 on the relevant channels. 2. The signal analysers resolution bandwidth was set to approximately 1% of the measured 26 dB emission bandwidth. 3. The signal analyser was connected to the RF port on the EUT using an RF switch, suitable attenuation and RF cables. An RF level offset was entered on the signal analyser to compensate for the loss of the switch, attenuators and RF cables. 4. For channels that straddle the U-NII-2C and U-NII-3 bands at 5725 MHz, emission bandwidth measurements were performed twice. Measurements of the entire 26 dB emission bandwidth that is contained on both U-NII-2C and U-NII-3 bands, were used for power measurements. Measurements on the emissions portion that is contained only within the U-NII-2C band, were used to calculate the conducted power limit on U-NII-2C tests. These are labelled as Reference plots. UL VS LTD Page 25 of 128 TEST REPORT VERSION 2.0 SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 Transmitter 26 dB Emission Bandwidth (5.15-5.25 GHz band) (continued) 4.2.1. 5.15-5.25 GHz band Results: 802.11a / 20 MHz / SISO / BPSK / 6 Mbps / Core 2 Channel Bottom Middle Top Frequency
(MHz) 5180 5200 5240 26 dB Emission Bandwidth
(MHz) 21.518 21.818 21.878 Middle Channel Bottom Channel Top Channel Page 26 of 128 UL VS LTD TEST REPORT VERSION 2.0 SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 Transmitter 26 dB Emission Bandwidth (5.15-5.25 GHz band) (continued) Results: 802.11n / 20 MHz / SISO / BPSK / MCS0 / Core 2 Channel Bottom Middle Top Frequency
(MHz) 5180 5200 5240 26 dB Emission Bandwidth
(MHz) 22.058 29.610 29.431 Middle Channel Bottom Channel Top Channel UL VS LTD Page 27 of 128 TEST REPORT VERSION 2.0 SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 Transmitter 26 dB Emission Bandwidth (5.15-5.25 GHz band) (continued) Results: 802.11n / 40 MHz / SISO / BPSK / MCS0 / Core 2 Channel Bottom Top Frequency
(MHz) 5190 5230 26 dB Emission Bandwidth
(MHz) 40.870 60.250 Bottom Channel Top Channel Page 28 of 128 UL VS LTD TEST REPORT VERSION 2.0 SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 Transmitter 26 dB Emission Bandwidth (5.15-5.25 GHz band) (continued) Results: 802.11ac / 80 MHz / SISO / BPSK / MCS0 / Core 2 Channel Single Frequency
(MHz) 5210 26 dB Emission Bandwidth
(MHz) 82.670 Single Channel UL VS LTD Page 29 of 128 TEST REPORT VERSION 2.0 SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 Transmitter 26 dB Emission Bandwidth (5.25-5.35 GHz band) (continued) 4.2.2. 5.25-5.35 GHz band Results: 802.11a / 20 MHz / SISO / BPSK / 6 Mbps / Core 2 Channel Bottom Middle Top Frequency
(MHz) 5260 5280 5320 26 dB Emission Bandwidth
(MHz) 21.538 21.539 21.299 Middle Channel Bottom Channel Top Channel Page 30 of 128 UL VS LTD TEST REPORT VERSION 2.0 SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 Transmitter 26 dB Emission Bandwidth (5.25-5.35 GHz band) (continued) Results: 802.11n / 20 MHz / SISO / BPSK / MCS0 / Core 2 Channel Bottom Middle Top Frequency
(MHz) 5260 5280 5320 26 dB Emission Bandwidth
(MHz) 28.172 22.977 21.738 Middle Channel Bottom Channel Top Channel UL VS LTD Page 31 of 128 TEST REPORT VERSION 2.0 SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 Transmitter 26 dB Emission Bandwidth (5.25-5.35 GHz band) (continued) Results: 802.11n / 40 MHz / SISO / BPSK / MCS0 / Core 2 Channel Bottom Top Frequency
(MHz) 5270 5310 26 dB Emission Bandwidth
(MHz) 59.850 40.679 Bottom Channel Top Channel Page 32 of 128 UL VS LTD TEST REPORT VERSION 2.0 SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 Transmitter 26 dB Emission Bandwidth (5.25-5.35 GHz band) (continued) Results: 802.11ac / 80 MHz / SISO / BPSK / MCS0 / Core 2 Channel Single Frequency
(MHz) 5290 26 dB Emission Bandwidth
(MHz) 82.750 Single Channel UL VS LTD Page 33 of 128 TEST REPORT VERSION 2.0 SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 Transmitter 26 dB Emission Bandwidth (5.47-5.725 GHz band) (continued) 4.2.3. 5.47-5.725 GHz band Results: 802.11a / 20 MHz / SISO / BPSK / 6 Mbps / Core 2 Channel Bottom Middle Top Frequency
(MHz) 5500 5580 5700 26 dB Emission Bandwidth
(MHz) 21.379 23.297 21.299 Middle Channel Bottom Channel Top Channel Page 34 of 128 UL VS LTD TEST REPORT VERSION 2.0 SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 Transmitter 26 dB Emission Bandwidth (5.47-5.725 GHz band) (continued) Results: 802.11n / 20 MHz / SISO / BPSK / MCS0 / Core 2 Channel Bottom Middle Top Frequency
(MHz) 5500 5580 5700 26 dB Emission Bandwidth
(MHz) 21.658 33.207 21.498 Middle Channel Bottom Channel Top Channel UL VS LTD Page 35 of 128 TEST REPORT VERSION 2.0 SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 Transmitter 26 dB Emission Bandwidth (5.47-5.725 GHz band) (continued) Results: 802.11n / 40 MHz / SISO / BPSK / MCS0 / Core 2 Channel Bottom Middle Top Frequency
(MHz) 5510 5590 5670 26 dB Emission Bandwidth
(MHz) 40.839 94.940 40.999 Middle Channel Bottom Channel Top Channel Page 36 of 128 UL VS LTD TEST REPORT VERSION 2.0 SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 Transmitter 26 dB Emission Bandwidth (5.47-5.725 GHz band) (continued) Results: 802.11ac / 80 MHz / SISO / BPSK / MCS0 / Core 2 Channel Bottom Top Frequency
(MHz) 5530 5610 26 dB Emission Bandwidth
(MHz) 82.450 108.150 Bottom Channel Top Channel UL VS LTD Page 37 of 128 TEST REPORT VERSION 2.0 SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 Transmitter 26 dB Emission Bandwidth (Straddle Channels) (continued) 4.2.4. Channels that straddle the U-NII-2C and U-NII-3 bands Results: 802.11a / 20 MHz / SISO / BPSK / 6 Mbps / Core 2 Channel Single Frequency
(MHz) 5720 26 dB Emission Bandwidth
(MHz) 37.223 Results: Reference Plots / 802.11a / 20 MHz / SISO / BPSK / 6 Mbps / Core 2 Single Channel Channel Single Frequency
(MHz) 5720 26 dB Emission Bandwidth
(MHz) 23.342 Single Channel Page 38 of 128 UL VS LTD TEST REPORT VERSION 2.0 SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 Transmitter 26 dB Emission Bandwidth (Straddle Channels) (continued) Results: 802.11n / 20 MHz / SISO / BPSK / MCS0 / Core 2 Channel Single Frequency
(MHz) 5720 26 dB Emission Bandwidth
(MHz) 44.056 Single Channel Results: Reference Plots / 802.11n / 20 MHz / SISO / BPSK / MCS0 / Core 2 Channel Single Frequency
(MHz) 5720 26 dB Emission Bandwidth
(MHz) 26.399 Single Channel UL VS LTD Page 39 of 128 TEST REPORT VERSION 2.0 SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 Transmitter 26 dB Emission Bandwidth (Straddle Channels) (continued) Results: 802.11n / 40 MHz / SISO / BPSK / MCS0 / Core 2 Channel Single Frequency
(MHz) 5710 26 dB Emission Bandwidth
(MHz) 92.940 Single Channel Results: Reference Plots / 802.11n / 40 MHz / SISO / BPSK / MCS0 / Core 2 Channel Single Frequency
(MHz) 5710 26 dB Emission Bandwidth
(MHz) 62.170 Single Channel Page 40 of 128 UL VS LTD TEST REPORT VERSION 2.0 SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 Transmitter 26 dB Emission Bandwidth (Straddle Channels) (continued) Results: 802.11ac / 80 MHz / SISO / BPSK / MCS0 / Core 2 Channel Single Frequency
(MHz) 5690 26 dB Emission Bandwidth
(MHz) 196.640 Single Channel Results: Reference Plots / 802.11ac / 80 MHz / SISO / BPSK / MCS0 / Core 2 Channel Single Frequency
(MHz) 5690 26 dB Emission Bandwidth
(MHz) 131.670 Single Channel UL VS LTD Page 41 of 128 TEST REPORT VERSION 2.0 SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 Transmitter 26 dB Emission Bandwidth (5.725-5.85 GHz band) (continued) 4.2.5. 5.725-5.85 GHz band Results: 802.11a / 20 MHz / SISO / BPSK / 6 Mbps / Core 2 Channel Bottom Middle Top Frequency
(MHz) 5745 5785 5825 26 dB Emission Bandwidth
(MHz) 41.658 38.961 40.399 Middle Channel Bottom Channel Top Channel Page 42 of 128 UL VS LTD TEST REPORT VERSION 2.0 SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 Transmitter 26 dB Emission Bandwidth (5.725-5.85 GHz band) (continued) Results: 802.11n / 20 MHz / SISO / BPSK / MCS0 / Core 2 Channel Bottom Middle Top Frequency
(MHz) 5745 5785 5825 26 dB Emission Bandwidth
(MHz) 47.553 46.433 46.194 Middle Channel Bottom Channel Top Channel UL VS LTD Page 43 of 128 TEST REPORT VERSION 2.0 SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 Transmitter 26 dB Emission Bandwidth (5.725-5.85 GHz band) (continued) Results: 802.11n / 40 MHz / SISO / BPSK / MCS0 / Core 2 Channel Bottom Top Frequency
(MHz) 5755 5795 26 dB Emission Bandwidth
(MHz) 98.340 94.040 Bottom Channel Top Channel Page 44 of 128 UL VS LTD TEST REPORT VERSION 2.0 SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 Transmitter 26 dB Emission Bandwidth (5.725-5.85 GHz band) (continued) Results: 802. 11ac / 80 MHz / SISO / BPSK / MCS0 / Core 2 Channel Single Frequency
(MHz) 5775 26 dB Emission Bandwidth
(MHz) 85.150 Single Channel UL VS LTD Page 45 of 128 TEST REPORT VERSION 2.0 SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 4.3. Transmitter Minimum 6 dB Bandwidth (5.725-5.85 GHz band) Test Summary:
Test Engineer:
Test Dates:
Max Passell 28 May 2019 &
10 June 2019 Test Sample Serial Number:
C02YF007MFLF FCC Reference:
Test Method Used:
Environmental Conditions:
Temperature (C):
Relative Humidity (%):
Note(s):
Part 15.407(e) KDB 789033 D02 Section II.C.2. 21 45 to 50 1. Measurements were performed on data rates detailed in Section 3.5 on the relevant channels. 2. The signal analyser was connected to the RF port on the EUT using an RF switch, suitable attenuation and RF cables. An RF level offset was entered on the signal analyser to compensate for the loss of the switch, attenuators and RF cables. 3. For channels that straddle the U-NII-2C and U-NII-3 bands at 5725 MHz, measurements were performed on the portion of the emission that is contained within the U-NII-3 band. Page 46 of 128 UL VS LTD TEST REPORT VERSION 2.0 SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 Transmitter Minimum 6 dB Bandwidth (Straddle Channels) (continued) 4.3.1. Channels that straddle the U-NII-2C and the U-NII-3 bands at 5.725 GHz Results: 802.11a / 20 MHz / SISO / BPSK / MCS0 / Core 2 Channel Single 6 dB Bandwidth
(kHz) 3212 Limit
(kHz) 500 Margin
(kHz) 2712 Result Complied Results: 802.11n / 20 MHz / SISO / BPSK / MCS0 / Core 2 Single Channel Channel Single 6 dB Bandwidth
(kHz) 3811 Limit
(kHz) 500 Margin
(kHz) 3311 Result Complied Single Channel UL VS LTD Page 47 of 128 TEST REPORT VERSION 2.0 SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 Transmitter Minimum 6 dB Bandwidth (Straddle Channels) (continued) Results: 802.11n / 40 MHz / SISO / BPSK / MCS0 / Core 2 Channel Single 6 dB Bandwidth
(kHz) 3290 Limit
(kHz) 500 Margin
(kHz) 2790 Result Complied Results: 802.11ac / 80 MHz / SISO / BPSK / MCS0 / Core 2 Single Channel Channel Single 6 dB Bandwidth
(kHz) 3190 Limit
(kHz) 500 Margin
(kHz) 2690 Result Complied Single Channel Page 48 of 128 UL VS LTD TEST REPORT VERSION 2.0 SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 Transmitter Minimum 6 dB Bandwidth (5.725-5.85 GHz band) (continued) 4.3.2. 5.725-5.85 GHz band Results: 802.11a / 20 MHz / SISO / BPSK / 6 Mbps / Core 2 Channel Bottom Middle Top 6 dB Bandwidth
(kHz) 16424 16424 16424 Limit
(kHz) 500 500 500 Margin
(kHz) 15924 15924 15924 Result Complied Complied Complied Middle Channel Bottom Channel Top Channel UL VS LTD Page 49 of 128 TEST REPORT VERSION 2.0 SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 Transmitter Minimum 6 dB Bandwidth (5.725-5.85 GHz band) (continued) Results: 802.11n / 20 MHz / SISO / BPSK / MCS0 / Core 2 Channel Bottom Middle Top 6 dB Bandwidth
(kHz) 17742 17742 17742 Limit
(kHz) 500 500 500 Margin
(kHz) 17242 17242 17242 Result Complied Complied Complied Middle Channel Bottom Channel Top Channel Page 50 of 128 UL VS LTD TEST REPORT VERSION 2.0 SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 Transmitter Minimum 6 dB Bandwidth (5.725-5.85 GHz band) (continued) Results: 802.11n / 40 MHz / SISO / BPSK / MCS0 / Core 2 Channel Bottom Top 6 dB Bandwidth
(kHz) 36380 36480 Limit
(kHz) 500 500 Margin
(kHz) 35880 35980 Result Complied Complied Bottom Channel Top Channel UL VS LTD Page 51 of 128 TEST REPORT VERSION 2.0 SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 Transmitter Minimum 6 dB Bandwidth (5.725-5.85 GHz band) (continued) Results: 802.11ac / 80 MHz / SISO / BPSK / MCS0 / Core 2 Channel Single 6 dB Bandwidth
(kHz) 75850 Limit
(kHz) 500 Margin
(kHz) 75350 Result Complied Single Channel Page 52 of 128 UL VS LTD TEST REPORT VERSION 2.0 SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 4.4. Transmitter Maximum Conducted Output Power 4.4.1. 5.15-5.25 GHz band Test Summary:
Test Engineer:
Max Passell Test Sample Serial Number:
C02YF007MFLF Test Dates:
28 May 2019 &
10 June 2019 FCC Reference:
Test Method Used:
Environmental Conditions:
Temperature (C):
Relative Humidity (%):
Note(s):
Part 15.407(a)(1)(iv) KDB 789033 D02 Section II.E.2.b) and II.E.2.d) 21 45 to 50 1. For conducted power tests where the duty cycle is >98%, the measurements were performed using a signal analyser in accordance with FCC KDB 789033 II.E.2.b) Method SA-1. Where the duty cycle is
<98%, the measurements were performed in accordance with FCC KDB 789033 II.E.2.d) Method SA-
2. The signal analysers integration function was used to integrate across the 26 dB emission bandwidth. The resolution bandwidth was set to 1 MHz and video bandwidth 3 MHz. An RMS detector was used and sweep time was set to auto and 200 traces performed. The span was set to encompass the entire 26 dB emission bandwidth. The channel power results are recorded in the tables below. 2. Measurements were performed using configurations detailed in Section 3.5 of this test report on the relevant channels. 3. For data rates where the EUT was transmitting at <98% duty cycle, the calculated duty cycle in Section 4.1 was added to the measured power in order to compute the average power during the actual transmission time. 4. The Part 15.407(a)(1)(iv) limit shall not exceed 250 mW (24.0 dBm). 5. For all modes of operation, the antenna gain is < 6 dBi. 6. For details on antenna gains refer to Section 3.4 of this test report. 7. The signal analyser was connected to the RF port on the EUT using an RF switch, suitable attenuation and RF cable. An RF level offset was entered on the signal analyser to compensate for the loss of the attenuator and RF cable. UL VS LTD Page 53 of 128 TEST REPORT VERSION 2.0 SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 Channel Transmitter Maximum Conducted Output Power (5.15-5.25 GHz band) (continued) Results: 802.11a / 20 MHz / SISO / BPSK / 6 Mbps / Core 2 Limit
(dBm) 24.0 24.0 24.0 Margin
(dB) 7.4 3.2 3.1
(MHz) 5180 5200 5240 Bottom Middle Top Conducted Power (dBm) 16.6 20.8 20.9 Frequency Result Complied Complied Complied Middle Channel Bottom Channel Top Channel Page 54 of 128 UL VS LTD TEST REPORT VERSION 2.0 SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 Channel Transmitter Maximum Conducted Output Power (5.15-5.25 GHz band) (continued) Results: 802.11n / 20 MHz / SISO / BPSK / MCS0 / Core 2 Limit
(dBm) 24.0 24.0 24.0 Margin
(dB) 7.4 3.3 3.5
(MHz) 5180 5200 5240 Bottom Middle Top Conducted Power (dBm) 16.6 20.7 20.5 Frequency Result Complied Complied Complied Middle Channel Bottom Channel Top Channel UL VS LTD Page 55 of 128 Power
(dBm) 15.3 20.9 TEST REPORT VERSION 2.0 SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 Transmitter Maximum Conducted Output Power (5.15-5.25 GHz band) (continued) Results: 802.11n / 40 MHz / SISO / BPSK / MCS0 / Core 2 Corrected Conducted Conducted Frequency Channel
(MHz) Power
(dBm) Duty cycle correction factor (dB) Limit
(dBm) Margin
(dB) Result Bottom Top 5190 5230 15.2 20.8 0.1 0.1 24.0 24.0 8.7 3.1 Complied Complied Bottom Channel Top Channel Page 56 of 128 UL VS LTD Power
(dBm) 15.5 TEST REPORT VERSION 2.0 SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 Transmitter Maximum Conducted Output Power (5.15-5.25 GHz band) (continued) Results: 802.11ac / 80 MHz / SISO / BPSK / MCS0 / Core 2 Corrected Conducted Conducted Frequency Channel
(MHz) Power
(dBm) Duty cycle correction factor (dB) Limit
(dBm) Margin
(dB) Result Single 5210 15.3 0.2 24.0 8.5 Complied Single Channel UL VS LTD Page 57 of 128 TEST REPORT VERSION 2.0 SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 Transmitter Maximum Conducted Output Power (5.25-5.35 GHz band) 4.4.2. 5.25-5.35 GHz band Test Summary:
Test Engineer:
Max Passell Test Dates:
28 May 2019 &
10 June 2019 Test Sample Serial Number:
C02YF007MFLF FCC Reference:
Test Method Used:
Environmental Conditions:
Temperature (C):
Relative Humidity (%):
Note(s):
Part 15.407(a)(2) KDB 789033 D02 Section II.E.2.b) and II.E.2.d) 21 45 to 50 1. For conducted power tests where the duty cycle is >98%, the measurements were performed using a signal analyser in accordance with FCC KDB 789033 II.E.2.b) Method SA-1. Where the duty cycle is
<98%, the measurements were performed in accordance with FCC KDB 789033 II.E.2.d) Method SA-
2. The signal analysers integration function was used to integrate across the 26 dB emission bandwidth. The resolution bandwidth was set to 1 MHz and video bandwidth 3 MHz. An RMS detector was used and sweep time was set to auto and 200 traces performed. The span was set to encompass the entire 26 dB emission bandwidth. The channel power results are recorded in the tables below. 2. Measurements were performed using configurations detailed in Section 3.5 of this test report on the relevant channels. 3. For data rates where the EUT was transmitting at <98% duty cycle, the calculated duty cycle in Section 4.1 was added to the measured power in order to compute the average power during the actual transmission time. 4. The FCC Part 15.407(a)(2) limit is the lesser of 250 mW (24.0 dBm) or 11 dBm + 10 log10 B, where B is the previously measured 26 dB emission bandwidth in MHz. For U-NII-2A band, the 26 dB EBW is greater than 20 MHz. For B>20 MHz log10B>log1020 10log10B>10log1020 11+10log10B>11+10log1020 11+10log10B>24.0 dBm Therefore for measured emission bandwidths greater than 20 MHz, the lesser of the two limits is the fixed limit of 250 mW (24.0 dBm). This was applied to the results. 5. For all modes of operation, the antenna gain is < 6 dBi. 6. For details on antenna gains refer to Section 3.4 of this test report. 7. The signal analyser was connected to the RF port on the EUT using an RF switch, suitable attenuation and RF cable. An RF level offset was entered on the signal analyser to compensate for the loss of the attenuator and RF cable. Page 58 of 128 UL VS LTD TEST REPORT VERSION 2.0 SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 Channel Transmitter Maximum Conducted Output Power (5.25-5.35 GHz band) (continued) Results: 802.11a / 20 MHz / SISO / BPSK / 6 Mbps / Core 2 Limit
(dBm) 24.0 24.0 24.0 Margin
(dB) 3.1 3.3 7.2
(MHz) 5260 5280 5320 Bottom Middle Top Conducted Power (dBm) 20.9 20.7 16.8 Frequency Result Complied Complied Complied Middle Channel Bottom Channel Top Channel UL VS LTD Page 59 of 128 TEST REPORT VERSION 2.0 SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 Channel Transmitter Maximum Conducted Output Power (5.25-5.35 GHz band) (continued) Results: 802.11n / 20 MHz / SISO / BPSK / MCS0 / Core 2 Limit
(dBm) 24.0 24.0 24.0 Margin
(dB) 3.7 3.4 7.2
(MHz) 5260 5280 5320 Bottom Middle Top Conducted Power (dBm) 20.3 20.6 16.8 Frequency Result Complied Complied Complied Middle Channel Bottom Channel Top Channel Page 60 of 128 UL VS LTD Power
(dBm) 20.5 15.6 TEST REPORT VERSION 2.0 SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 Transmitter Maximum Conducted Output Power (5.25-5.35 GHz band) (continued) Results: 802.11n / 40 MHz / SISO / BPSK / MCS0 / Core 2 Corrected Conducted Conducted Frequency Channel
(MHz) Power
(dBm) Duty cycle correction factor (dB) Limit
(dBm) Margin
(dB) Result Bottom Top 5270 5310 20.4 15.5 0.1 0.1 24.0 24.0 3.5 8.4 Complied Complied Bottom Channel Top Channel UL VS LTD Page 61 of 128 Power
(dBm) 15.0 TEST REPORT VERSION 2.0 SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 Transmitter Maximum Conducted Output Power (5.25-5.35 GHz band) (continued) Results: 802.11ac / 80 MHz / SISO / BPSK / MCS0 / Core 2 Corrected Conducted Conducted Frequency Channel
(MHz) Power
(dBm) Duty cycle correction factor (dB) Limit
(dBm) Margin
(dB) Result Single 5290 14.8 0.2 24.0 9.0 Complied Single Channel Page 62 of 128 UL VS LTD TEST REPORT VERSION 2.0 SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 Transmitter Maximum Conducted Output Power (5.47-5.725 GHz band) 4.4.3. 5.47-5.725 GHz band Test Summary:
Test Engineer:
Test Dates:
Max Passell 28 May 2019 to 10 June 2019 Test Sample Serial Number:
C02YF007MFLF FCC Reference:
Test Method Used:
Environmental Conditions:
Temperature (C):
Relative Humidity (%):
Note(s):
Part 15.407(a)(2) KDB 789033 D02 Section II.E.2.b) and II.E.2.d) 21 to 23 36 to 50 1. For conducted power tests where the duty cycle is >98%, the measurements were performed using a signal analyser in accordance with FCC KDB 789033 II.E.2.b) Method SA-1. Where the duty cycle is
<98%, the measurements were performed in accordance with FCC KDB 789033 II.E.2.d) Method SA-
2. The signal analysers integration function was used to integrate across the 26 dB emission bandwidth. The resolution bandwidth was set to 1 MHz and video bandwidth 3 MHz. An RMS detector was used and sweep time was set to auto and 200 traces performed. The span was set to encompass the entire 26 dB emission bandwidth. The channel power results are recorded in the tables below. 2. Measurements were performed using configurations detailed in Section 3.5 of this test report on the relevant channels. 3. For data rates where the EUT was transmitting at <98% duty cycle, the calculated duty cycle in Section 4.1 was added to the measured power in order to compute the average power during the actual transmission time. 4. The FCC Part 15.407(a)(2) limit is the lesser of 250 mW (24.0 dBm) or 11 dBm + 10 log10 B, where B is the previously measured 26 dB emission bandwidth in MHz. For U-NII-2C band, the 26 dB EBW is greater than 20 MHz. For B>20 MHz log10B>log1020 10log10B>10log1020 11+10log10B>11+10log1020 11+10log10B>24.0 dBm Therefore for measured emission bandwidths greater than 20 MHz, the lesser of the two limits is the fixed limit of 250 mW (24.0 dBm). This was applied to the results. 5. For all modes of operation, the antenna gain is < 6 dBi. 6. For details on antenna gains refer to Section 3.4 of this test report. 7. The signal analyser was connected to the RF port on the EUT using an RF switch, suitable attenuation and RF cable. An RF level offset was entered on the signal analyser to compensate for the loss of the attenuator and RF cable. UL VS LTD Page 63 of 128 TEST REPORT VERSION 2.0 SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 Channel Transmitter Maximum Conducted Output Power (5.47-5.725 GHz band) (continued) Results: 802.11a / 20 MHz / SISO / BPSK / 6 Mbps / Core 2 Limit
(dBm) 24.0 24.0 24.0 Margin
(dB) 9.1 3.7 9.4
(MHz) 5500 5580 5700 Bottom Middle Top Conducted Power (dBm) 14.9 20.3 14.6 Frequency Result Complied Complied Complied Middle Channel Bottom Channel Top Channel Page 64 of 128 UL VS LTD TEST REPORT VERSION 2.0 SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 Channel Transmitter Maximum Conducted Output Power (5.47-5.725 GHz band) (continued) Results: 802.11n / 20 MHz / SISO / BPSK / MCS0 / Core 2 Limit
(dBm) 24.0 24.0 24.0 Margin
(dB) 9.3 3.7 9.6
(MHz) 5500 5580 5700 Bottom Middle Top Conducted Power (dBm) 14.7 20.3 14.4 Frequency Result Complied Complied Complied Middle Channel Bottom Channel Top Channel UL VS LTD Page 65 of 128 TEST REPORT VERSION 2.0 SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 Transmitter Maximum Conducted Output Power (5.47-5.725 GHz band) (continued) Results: 802.11n / 40 MHz / SISO / BPSK / MCS0 / Core 2 Corrected Conducted Conducted Frequency Channel
(MHz) Power
(dBm) Duty cycle correction factor (dB) Limit
(dBm) Margin
(dB) Result Power
(dBm) 14.8 21.9 16.4 24.0 24.0 24.0 9.2 2.1 7.6 Complied Complied Complied Middle Channel Bottom Middle Top 5510 5590 5670 14.7 21.8 16.3 0.1 0.1 0.1 Bottom Channel Top Channel Page 66 of 128 UL VS LTD Power
(dBm) 14.9 18.3 TEST REPORT VERSION 2.0 SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 Transmitter Maximum Conducted Output Power (5.47-5.725 GHz band) (continued) Results: 802.11ac / 80 MHz / SISO / BPSK / MCS0 / Core 2 Corrected Conducted Conducted Frequency Channel
(MHz) Power
(dBm) Duty cycle correction factor (dB) Limit
(dBm) Margin
(dB) Result Bottom Top 5530 5610 14.7 18.1 0.2 0.2 24.0 24.0 9.1 5.7 Complied Complied Bottom Channel Top Channel UL VS LTD Page 67 of 128 TEST REPORT VERSION 2.0 SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 Transmitter Maximum Conducted Output Power (Straddle Channels) 4.4.4. Channels that straddle the U-NII-2C and U-NII-3 bands Test Summary:
Test Engineer:
Max Passell Test Dates:
28 May 2019 &
10 June 2019 Test Sample Serial Number:
C02YF007MFLF FCC Reference:
Test Method Used:
Environmental Conditions:
Temperature (C):
Relative Humidity (%):
Note(s):
Part 15.407(a)(2) KDB 789033 D02 Section II.E.2.b) and II.E.2.d) 21 45 to 50 1. Channels that straddle the U-NII-2C and U-NII-3 bands at 5725 MHz need to meet requirements of both U-NII bands. Due to maximum conducted power limit being more stringent on U-NII-2C, compliance is shown against the limits of U-NII-2C. By default, the EUT also complies on U-NII-3. 2. For conducted power tests where the duty cycle is >98%, the measurements were performed using a signal analyser in accordance with FCC KDB 789033 II.E.2.b) Method SA-1. Where the duty cycle is
<98%, the measurements were performed in accordance with FCC KDB 789033 II.E.2.d) Method SA-
2. The signal analysers integration function was used to integrate across the 26 dB emission bandwidth. The resolution bandwidth was set to 1 MHz and video bandwidth 3 MHz. An RMS detector was used and sweep time was set to auto and 200 traces performed. The span was set to encompass the entire 26 dB emission bandwidth. The channel power results are recorded in the tables below. 3. Measurements were performed using configurations detailed in Section 3.5 of this test report on the relevant channels. 4. For data rates where the EUT was transmitting at <98% duty cycle, the calculated duty cycle in Section 4.1 was added to the measured power in order to compute the average power during the actual transmission time. 5. The FCC Part 15.407(a)(2) limit is the lesser of 250 mW (24.0 dBm) or 11 dBm + 10 log10 B, where B is the previously measured 26 dB emission bandwidth in MHz. The 26 dB EBW is greater than 20 MHz. For B>20 MHz log10B>log1020 10log10B>10log1020 11+10log10B>11+10log1020 11+10log10B>24.0 dBm Therefore for measured emission bandwidths greater than 20 MHz, the lesser of the two limits is the fixed limit of 250 mW (24.0 dBm). This was applied to the results. 6. For all modes of operation, the antenna gain is < 6 dBi. 7. For details on antenna gains refer to Section 3.4 of this test report. 8. The signal analyser was connected to the RF port on the EUT using an RF switch, suitable attenuation and RF cable. An RF level offset was entered on the signal analyser to compensate for the loss of the attenuator and RF cable. Page 68 of 128 UL VS LTD TEST REPORT VERSION 2.0 SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 Transmitter Maximum Conducted Output Power (Straddle Channels) (continued) Results: 802.11a / 20 MHz / SISO / BPSK / 6 Mbps / Core 2 Limit
(dBm) 24.0 Conducted Power (dBm) Margin
(dB) 3.2
(MHz) 5720 Frequency Channel Single 20.8 Result Complied Single Channel Results: 802.11n / 20 MHz / SISO / BPSK / MCS0 / Core 2 Limit
(dBm) 24.0 Conducted Power (dBm)
(MHz) 5720 Frequency Channel Single 20.3 Margin
(dB) 3.7 Result Complied Single Channel UL VS LTD Page 69 of 128 Power
(dBm) 21.5 TEST REPORT VERSION 2.0 SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 Transmitter Maximum Conducted Output Power (Straddle Channels) (continued) Results: 802.11n / 40 MHz / SISO / BPSK / MCS0 / Core 2 Corrected Conducted Conducted Frequency Channel
(MHz) Power
(dBm) Duty cycle correction factor (dB) Limit
(dBm) Margin
(dB) Result Single 5710 21.4 0.1 24.0 2.5 Complied Single Channel Page 70 of 128 UL VS LTD Power
(dBm) 21.8 TEST REPORT VERSION 2.0 SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 Transmitter Maximum Conducted Output Power (Straddle Channels) (continued) Results: 802.11ac / 80 MHz / SISO / BPSK / MCS0 / Core 2 Corrected Conducted Conducted Frequency Channel
(MHz) Power
(dBm) Duty cycle correction factor (dB) Limit
(dBm) Margin
(dB) Result Single 5690 21.6 0.2 24.0 2.2 Complied Single Channel UL VS LTD Page 71 of 128 TEST REPORT VERSION 2.0 SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 Transmitter Maximum Conducted Output Power (5.725-5.85 GHz band) 4.4.5. 5.725-5.85 GHz band Test Summary:
Test Engineer:
Test Sample Serial Number:
Max Passell C02YF007MFLF Test Date:
28 May 2019 FCC Reference:
Test Method Used:
Environmental Conditions:
Temperature (C):
Relative Humidity (%):
Note(s):
Part 15.407(a)(3) KDB 789033 D02 Section II.E.2.b) and II.E.2.d) 21 45 1. For conducted power tests where the duty cycle is >98%, the measurements were performed using a signal analyser in accordance with FCC KDB 789033 II.E.2.b) Method SA-1. Where the duty cycle is
<98%, the measurements were performed in accordance with FCC KDB 789033 II.E.2.d) Method SA-
2. The signal analysers integration function was used to integrate across the 26 dB emission bandwidth. The resolution bandwidth was set to 1 MHz and video bandwidth 3 MHz. An RMS detector was used and sweep time was set to auto and 200 traces performed. The span was set to encompass the entire 26 dB emission bandwidth. The channel power results are recorded in the tables below. 2. Measurements were performed using configurations detailed in Section 3.5 of this test report on the relevant channels. 3. For data rates where the EUT was transmitting at <98% duty cycle, the calculated duty cycle in Section 4.1 was added to the measured power in order to compute the average power during the actual transmission time. 4. The FCC Part 15.407(a)(3) limit shall not exceed 1 W (30.0 dBm). 5. For all modes of operation, the antenna gain is < 6 dBi. 6. For details on antenna gains refer to Section 3.4 of this test report. 7. The signal analyser was connected to the RF port on the EUT using an RF switch, suitable attenuation and RF cable. An RF level offset was entered on the signal analyser to compensate for the loss of the attenuator and RF cable. Page 72 of 128 UL VS LTD TEST REPORT VERSION 2.0 SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 Channel Transmitter Maximum Conducted Output Power (5.725-5.85 GHz band) (continued) Results: 802.11a / 20 MHz / SISO / BPSK / 6 Mbps / Core 2 Limit
(dBm) 30.0 30.0 30.0 Margin
(dB) 8.0 8.2 7.9
(MHz) 5745 5785 5825 Bottom Middle Top Conducted Power (dBm) 22.0 21.8 22.1 Frequency Result Complied Complied Complied Middle Channel Bottom Channel Top Channel UL VS LTD Page 73 of 128 TEST REPORT VERSION 2.0 SERIAL NO: UL-RPT-RP12718494JD10E ISSUE DATE: 18 SEPTEMBER 2019 Channel Transmitter Maximum Conducted Output Power (5.725-5.85 GHz band) (continued) Results: 802.11n / 20 MHz / SISO / BPSK / MCS0 / Core 2 Limit
(dBm) 30.0 30.0 30.0 Margin
(dB) 8.1 8.1 8.0
(MHz) 5745 5785 5825 Bottom Middle Top Conducted Power (dBm) 21.9 21.9 22.0 Frequency Result Complied Complied Complied Middle Channel Bottom Channel Top Channel Page 74 of 128 UL VS LTD
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