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Test Report

The test report certifies that the Starlink Router (Model UTR-251) from Space Exploration Technologies Corp. complies with FCC standards under 47 CFR Part 15, Subpart E. The report details various test results, all of which passed, including RF Output Power, Power Spectral Density, and Unwanted Emissions. The testing was conducted by Bureau Veritas Consumer Products Services, and the report includes comprehensive information on the test procedures and results.

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0% found this document useful (0 votes)

415 views54 pages

Test Report

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TEST REPORT

CERTIFICATE OF CONFORMITY
Standard: 47 CFR FCC Part 15, Subpart E (Section 15.407)
Report No.: RFBCKS-WTW-P25030148-2
FCC ID: 2AWHPR251
Product: Starlink Router
Brand:

Model No.: UTR-251

Received Date: 2025/2/13
Test Date: 2025/2/26 ~ 2025/3/24
Issued Date: 2025/4/2

Applicant: Space Exploration Technologies Corp. (SPACEX)

Address: 1 Rocket Rd., Hawthorne, CA 90250 USA
Issued By: Bureau Veritas Consumer Products Services (H.K.) Ltd., Taoyuan Branch
Lin Kou Laboratories
Lab Address: No. 47-2, 14th Ling, Chia Pau Vil., Lin Kou Dist., New Taipei City, Taiwan
Test Location(1): No. 19, Hwa Ya 2nd Rd., Wen Hwa Vil., Kwei Shan Dist., Taoyuan City 33383, Taiwan
Test Location(2): No. 70, Wenming Rd., Guishan Dist., Taoyuan City 333, Taiwan (R.O.C.)
FCC Registration / 788550 / TW0003
Designation Number: 281270 / TW0032

Approved by: , Date: 2025/4/2

Jeremy Lin / Project Engineer

This test report consists of 54 pages in total. It may be duplicated completely for legal use with the approval of the applicant.
It should not be reproduced except in full, without the written approval of our laboratory. The test results in the report only
apply to the tested sample. The test results in this report are traceable to the national or international standards.

Prepared by : Lena Wang / Specialist

This report is governed by, and incorporates by reference, the Conditions of Testing as posted at the date of issuance of this report at http://www.bureauveritas.com/home/about-us/our-
business/cps/about-us/terms-conditions/ and is intended 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. Measurement uncertainty is only provided upon request for
accredited tests. Statements of conformity are based on simple acceptance criteria without taking measurement uncertainty into account, unless otherwise requested in writing. You have
60 days from date of issuance of this report to notify us of any material error or omission caused by our negligence or if you require measurement uncertainty; 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.

Report No.: RFBCKS-WTW-P25030148-2 Page No. 1 / 54 Report Format Version: 7.1.2

Table of Contents
Release Control Record ....................................................................................................................................................... 4
1 Certificate .................................................................................................................................................................... 5
2 Summary of Test Results .......................................................................................................................................... 6
2.1 Measurement Uncertainty ........................................................................................................................................ 6
2.2 Supplementary Information ...................................................................................................................................... 6
3 General Information ................................................................................................................................................... 7
3.1 General Description of EUT ..................................................................................................................................... 7
3.2 Antenna Description of EUT ..................................................................................................................................... 8
3.3 Channel List .............................................................................................................................................................. 9
3.4 Test Mode Applicability and Tested Channel Detail ................................................................................................ 10
3.5 Duty Cycle of Test Signal........................................................................................................................................ 11
3.6 Test Program Used and Operation Descriptions .................................................................................................... 13
3.7 Connection Diagram of EUT and Peripheral Devices ............................................................................................ 13
3.8 Configuration of Peripheral Devices and Cable Connections ................................................................................ 13
4 Test Instruments ...................................................................................................................................................... 14
4.1 RF Output Power .................................................................................................................................................... 14
4.2 Power Spectral Density .......................................................................................................................................... 14
4.3 6 dB Bandwidth ...................................................................................................................................................... 14
4.4 AC Power Conducted Emissions ........................................................................................................................... 15
4.5 Unwanted Emissions below 1 GHz ........................................................................................................................ 16
4.6 Unwanted Emissions above 1 GHz ........................................................................................................................ 17
5 Limits of Test Items .................................................................................................................................................. 18
5.1 RF Output Power .................................................................................................................................................... 18
5.2 Power Spectral Density .......................................................................................................................................... 18
5.3 6 dB Bandwidth ...................................................................................................................................................... 18
5.4 AC Power Conducted Emissions ........................................................................................................................... 18
5.5 Unwanted Emissions below 1 GHz ........................................................................................................................ 19
5.6 Unwanted Emissions above 1 GHz ........................................................................................................................ 19
6 Test Arrangements ................................................................................................................................................... 20
6.1 RF Output Power .................................................................................................................................................... 20
6.1.1 Test Setup ............................................................................................................................................................ 20
6.1.2 Test Procedure ..................................................................................................................................................... 20
6.2 Power Spectral Density .......................................................................................................................................... 20
6.2.1 Test Setup ............................................................................................................................................................ 20
6.2.2 Test Procedure ..................................................................................................................................................... 20
6.3 6 dB Bandwidth ...................................................................................................................................................... 20
6.3.1 Test Setup ............................................................................................................................................................ 20
6.3.2 Test Procedure ..................................................................................................................................................... 20
6.4 AC Power Conducted Emissions ........................................................................................................................... 21
6.4.1 Test Setup ............................................................................................................................................................ 21
6.4.2 Test Procedure ..................................................................................................................................................... 21
6.5 Unwanted Emissions below 1 GHz ........................................................................................................................ 22
6.5.1 Test Setup ............................................................................................................................................................ 22
6.5.2 Test Procedure ..................................................................................................................................................... 23
6.6 Unwanted Emissions above 1 GHz ........................................................................................................................ 24
6.6.1 Test Setup ............................................................................................................................................................ 24
6.6.2 Test Procedure ..................................................................................................................................................... 24
7 Test Results of Test Item ......................................................................................................................................... 25
7.1 RF Output Power .................................................................................................................................................... 25
7.2 Power Spectral Density .......................................................................................................................................... 28
7.3 6 dB Bandwidth ...................................................................................................................................................... 31
7.4 AC Power Conducted Emissions ........................................................................................................................... 33
7.5 Unwanted Emissions below 1 GHz ........................................................................................................................ 35
Report No.: RFBCKS-WTW-P25030148-2 Page No. 2 / 54 Report Format Version: 7.1.2
7.6 Unwanted Emissions above 1 GHz ........................................................................................................................ 37
8 Pictures of Test Arrangements ............................................................................................................................... 53
9 Information of the Testing Laboratories ................................................................................................................ 54

Report No.: RFBCKS-WTW-P25030148-2 Page No. 3 / 54 Report Format Version: 7.1.2

Release Control Record

Issue No. Description Date Issued

RFBCKS-WTW-P25030148-2 Original release. 2025/4/2

Report No.: RFBCKS-WTW-P25030148-2 Page No. 4 / 54 Report Format Version: 7.1.2

1 Certificate

Product: Starlink Router

Brand:

Test Model: UTR-251

Sample Status: Engineering sample

Applicant: Space Exploration Technologies Corp. (SPACEX)

Test Date: 2025/2/26 ~ 2025/3/24

Standard: 47 CFR FCC Part 15, Subpart E (Section 15.407)

Measurement ANSI C63.10-2013

procedure:
KDB 291074 D02 EMC Measurement v01
KDB 789033 D02 General UNII Test Procedure New Rules v02r01
KDB 662911 D01 Multiple Transmitter Output v02r01

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 sample’s RF
characteristics under the conditions specified in this report.

Report No.: RFBCKS-WTW-P25030148-2 Page No. 5 / 54 Report Format Version: 7.1.2

2 Summary of Test Results
47 CFR FCC Part 15, Subpart E (Section 15.407)
Clause Test Item Result Remark
15.407(a)(3) RF Output Power Pass Meet the requirement of limit.
15.407(a)(3) Power Spectral Density Pass Meet the requirement of limit.
Minimum passing margin is -10.03 dB at
15.407(b)(9) AC Power Conducted Emissions Pass
0.65000 MHz MHz
Minimum passing margin is -1.9 dB at 50.43
15.407(b)(9) Unwanted Emissions below 1 GHz Pass
MHz
15.407(b)(5) Minimum passing margin is -0.6 dB at
Unwanted Emissions above 1 GHz Pass
15.407(b)(10) 5650.00 MHz
15.407(e) 6 dB Bandwidth Pass
Meet the requirement of limit.
Antenna connector is ipex(MHF) not a
15.203 Antenna Requirement Pass
standard connector.
Note: Determining compliance based on the results of the compliance measurement, not taking into account
measurement instrumentation uncertainty.

2.1 Measurement Uncertainty

Where relevant, the following measurement uncertainty levels have been estimated for tests performed on the EUT as
specified in CISPR 16-4-2:
Expanded Uncertainty (k=2)
Measurement Specification
(±)
RF Output Power - 1.371 dB
Power Spectral Density - 1.017 dB
6 dB Bandwidth - 206.5 Hz
AC Power Conducted Emissions 9 kHz ~ 30 MHz 2.90 dB
9 kHz ~ 30 MHz 3 dB
Unwanted Emissions below 1 GHz
30 MHz ~ 1 GHz 2.93 dB
1 GHz ~ 18 GHz 1.76 dB
Unwanted Emissions above 1 GHz
18 GHz ~ 40 GHz 1.77 dB

The other instruments specified are routine verified to remain within the calibrated levels, no measurement uncertainty is
required to be calculated.

2.2 Supplementary Information

There is not any deviation from the test standards for the test method, and no modifications required for compliance.

Report No.: RFBCKS-WTW-P25030148-2 Page No. 6 / 54 Report Format Version: 7.1.2

3 General Information
3.1 General Description of EUT

Product Starlink Router

Brand

Test Model UTR-251

Status of EUT Engineering sample
Power Supply Rating Refer to note
64QAM, 16QAM, QPSK, BPSK for OFDM
Modulation Type 256QAM for OFDM in 11ac mode
1024QAM for OFDMA in 11ax mode
Modulation Technology OFDM, OFDMA
Transfer Rate Up to 3602.9 Mbps
Operating Frequency 5.815 GHz ~ 5.885 GHz
802.11a, 802.11n (HT20), 802.11ac (VHT20), 802.11ax (HE20):3
802.11n (HT40), 802.11ac (VHT40), 802.11ax (HE40):2
Number of Channel 802.11ac (VHT80), 802.11ax (HE80):1
802.11ac (VHT160), 802.11ax (HE160):1
Output Power EIRP: 1418.98 mW (31.52 dBm)
EUT Category Indoor access point
Note:
1. The EUT uses following accessories.
Item Brand Model Part Number Specification
AC Input : 100-240V, 0.6A, 50/60Hz
AC Adapter Starlink UTP-251L 39005000-501/A DC Output : 9.0V, 1.6A
DC Output Cable : 1.55M
2. There are WLAN (2.4 GHz & 5 GHz& 5.9 GHz) technology used for the EUT.
3. The above EUT information is declared by manufacturer and for more detailed features description, please refers to
the manufacturer's specifications or user's manual.

Report No.: RFBCKS-WTW-P25030148-2 Page No. 7 / 54 Report Format Version: 7.1.2

3.2 Antenna Description of EUT
1. The antenna information is listed as below.
Antenna
Antenna
RF Chain NO. Net Frequency range Antenna Type Connector Type
NO.
Gain(dBi)
0 0 2.07 2.4 GHz ~ 2.4835 GHz PCB ipex(MHF)
1 1 2.02 2.4 GHz ~ 2.4835 GHz PCB ipex(MHF)
3.13 5.15 GHz ~ 5.25 GHz PCB ipex(MHF)
0 0 3.25 5.725 GHz ~ 5.85 GHz PCB ipex(MHF)
2.7 5.85 GHz ~ 5.895 GHz PCB ipex(MHF)
3.66 5.15 GHz ~ 5.25 GHz PCB ipex(MHF)
1 1 3.54 5.725 GHz ~ 5.85 GHz PCB ipex(MHF)
3.08 5.85 GHz ~ 5.895 GHz PCB ipex(MHF)
1.08 5.15 GHz ~ 5.25 GHz PCB ipex(MHF)
2 2 2.23 5.725 GHz ~ 5.85 GHz PCB ipex(MHF)
2.86 5.85 GHz ~ 5.895 GHz PCB ipex(MHF)
* Detail antenna specification please refer to antenna datasheet and/or antenna measurement report.

2. The EUT incorporates a MIMO function:

5 GHz Band
Modulation Mode TX & RX Configuration
802.11a 3TX 3RX
802.11n (HT20) 3TX 3RX
802.11n (HT40) 3TX 3RX
802.11ac (VHT20) 3TX 3RX
802.11ac (VHT40) 3TX 3RX
802.11ac (VHT80) 3TX 3RX
802.11ac (VHT160) 3TX 3RX
802.11ax (HE20) 3TX 3RX
802.11ax (HE40) 3TX 3RX
802.11ax (HE80) 3TX 3RX
802.11ax (HE160) 3TX 3RX
Note:
1. All of modulation mode support beamforming function except 802.11a modulation mode.
2. The EUT support Beamforming and CDD mode, therefore both mode were investigated and the worst case scenario
was identified. The worst case data were presented in test report.
The modulation and bandwidth are similar for 802.11n mode for 20 MHz (40 MHz), 802.11ac mode for 20 MHz (40
MHz, 80 MHz, 160 MHz) and 802.11ax mode for 20 MHz (40 MHz, 80 MHz, 160 MHz). Therefore the investigated
worst case is the representative mode in test report.

Report No.: RFBCKS-WTW-P25030148-2 Page No. 8 / 54 Report Format Version: 7.1.2

3.3 Channel List

3 channels are provided for 802.11a, 802.11n (HT20), 802.11ac (VHT20), 802.11ax (HE20):
Channel Frequency Channel Frequency Channel Frequency
*169 5845 MHz 173 5865 MHz 177 5885 MHz

2 channels are provided for 802.11n (HT40), 802.11ac (VHT40), 802.11ax (HE40):
Channel Frequency Channel Frequency
*167 5835 MHz 175 5875 MHz

1 channel is provided for 802.11ac (VHT80), 802.11ax (HE80):

Channel Frequency
*171 5855 MHz

1 channel is provided for 802.11ac (VHT160), 802.11ax (HE160):

Channel Frequency
*163 5815 MHz
Note: * U-NII-3 & -4 span channels.

Report No.: RFBCKS-WTW-P25030148-2 Page No. 9 / 54 Report Format Version: 7.1.2

3.4 Test Mode Applicability and Tested Channel Detail
1. Pre-Scan has been conducted to determine the worst-case mode from all possible combinations
Pre-Scan: between available modulations, data rates and antenna ports (if EUT with antenna diversity
architecture).
Worst Case: The EUT is designed to be positioned on the z-plane only.

Following channel(s) was (were) selected for the final test as listed below:
Data Rate
Test Item Mode Signal Mode Tested Channel Modulation
Parameter
802.11a CDD 169, 173, 177 BPSK 6Mb/s
CDD &
802.11ax (HE20) 169, 173, 177 BPSK MCS0
Beamforming
CDD &
802.11ax (HE40) 167, 175 BPSK MCS0
RF Output Power Beamforming
CDD &
802.11ax (HE80) 171 BPSK MCS0
Beamforming
802.11ax CDD &
163 BPSK MCS0
(HE160) Beamforming
802.11a CDD 169, 173, 177 BPSK 6Mb/s
802.11ax (HE20) CDD 169, 173, 177 BPSK MCS0
802.11ax (HE40) CDD 167, 175 BPSK MCS0
Power Spectral Density
802.11ax (HE80) CDD 171 BPSK MCS0
802.11ax
CDD 163 BPSK MCS0
(HE160)
802.11a CDD 169, 173, 177 BPSK 6Mb/s
802.11ax (HE20) CDD 169, 173, 177 BPSK MCS0
802.11ax (HE40) CDD 167, 175 BPSK MCS0
6 dB Bandwidth
802.11ax (HE80) CDD 171 BPSK MCS0
802.11ax
CDD 163 BPSK MCS0
(HE160)
AC Power Conducted Emissions 802.11ax (HE40) CDD 167 BPSK MCS0
Unwanted Emissions below 1
802.11ax (HE40) CDD 167 BPSK MCS0
GHz
802.11a CDD 169, 173, 177 BPSK 6Mb/s
802.11ax (HE20) CDD 169, 173, 177 BPSK MCS0
Unwanted Emissions above 1 802.11ax (HE40) CDD 167, 175 BPSK MCS0
GHz 802.11ax (HE80) CDD 171 BPSK MCS0
802.11ax
CDD 163 BPSK MCS0
(HE160)

Report No.: RFBCKS-WTW-P25030148-2 Page No. 10 / 54 Report Format Version: 7.1.2

3.5 Duty Cycle of Test Signal
802.11a: Duty cycle = 2.797 ms / 2.836 ms x 100% = 98.6%
802.11ax (HE20): Duty cycle = 3.899 ms / 3.938 ms x 100% = 99.0%
802.11ax (HE40): Duty cycle = 3.899 ms / 3.938 ms x 100% = 99.0%
802.11ax (HE80): Duty cycle = 3.704 ms / 3.745 ms x 100% = 98.9%
802.11ax (HE160): Duty cycle = 2.08 ms / 2.12 ms x 100% = 98.1%

802.11a

802.11ax (HE20)

Report No.: RFBCKS-WTW-P25030148-2 Page No. 11 / 54 Report Format Version: 7.1.2

802.11ax (HE40)

802.11ax (HE80)

802.11ax (HE160)

Report No.: RFBCKS-WTW-P25030148-2 Page No. 12 / 54 Report Format Version: 7.1.2

3.6 Test Program Used and Operation Descriptions
Controlling software MT7981 QA Tool V0.0.2.78 has been activated to set the EUT under transmission condition
continuously at specific channel frequency.
3.7 Connection Diagram of EUT and Peripheral Devices

(EUT) Adapter

EUT

1 2

Under Table
(A) Load

Remote Site
(B) Notebook

3.8 Configuration of Peripheral Devices and Cable Connections

ID Product Brand Model No. Serial No. FCC ID Remarks

A Load N/A N/A N/A N/A Provided by Lab
B Notebook Lenovo L440 R9-0GFJKK N/A Provided by Lab

Length Shielding Cores

ID Cable Descriptions Qty. Remarks
(m) (Yes/No) (Qty.)
1 RJ-45 Cable 1 1.5 N0 0 Provided by Lab
2 RJ-45 Cable 1 10 N0 0 Provided by Lab

Report No.: RFBCKS-WTW-P25030148-2 Page No. 13 / 54 Report Format Version: 7.1.2

4 Test Instruments
The calibration interval of the all test instruments are 12 months and the calibrations are traceable to NML/ROC and
NIST/USA.
4.1 RF Output Power

Description Calibrated Calibrated

Model No. Serial No.
Manufacturer Date Until
Peak Power Analyzer
8990B MY51000538 2024/4/29 2025/4/28
Keysight
Wideband Power Sensor
N1923A MY58200003 2024/6/17 2025/6/16
Keysight
Notes:
1. The test was performed in Oven room.
2. Tested Date: 2025/3/14 ~ 2025/3/24

4.2 Power Spectral Density

Description Calibrated Calibrated

Model No. Serial No.
Manufacturer Date Until
Signal & Spectrum Analyzer
FSV3044 101105 2025/2/25 2026/2/24
R&S
Software ADT_RF Test Software
N/A N/A N/A
BV V7.6.5.4
Notes:
1. The test was performed in Oven room.
2. Tested Date: 2025/3/14 ~ 2025/3/24

4.3 6 dB Bandwidth
Refer to section 4.2 to get the tested date and information of the instruments.

Report No.: RFBCKS-WTW-P25030148-2 Page No. 14 / 54 Report Format Version: 7.1.2

4.4 AC Power Conducted Emissions

Description Calibrated Calibrated

Model No. Serial No.
Manufacturer Date Until
E1-011279 04 2024/11/28 2025/11/27
50 ohm terminal resistance E1-011280 05 2024/11/28 2025/11/27
E1-011311 09 2024/11/28 2025/11/27
DC-LISN
NNBM 8126G 8126G-069 2024/11/5 2025/11/4
Schwarzbeck
EMI Test Receiver
ESCI 100613 2024/11/25 2025/11/24
R&S
Fixed Attenuator
HAT-10+ PAD-COND1-01 2025/1/5 2026/1/4
Mini-Circuits
LISN ENV216 101826 2024/3/25 2025/3/24
R&S ESH3-Z5 100311 2024/9/5 2025/9/4
RF Coaxial Cable
5D-FB Cable-cond1-01 2025/1/5 2026/1/4
Woken
Software BVADT_Cond_
N/A N/A N/A
BVADT V7.4.1.0
V-LISN
NNBL 8226-2 8226-142 2024/8/28 2025/8/27
Schwarzbeck
Notes:
1. The test was performed in HY - Conduction 1.
2. Tested Date: 2025/3/18

Report No.: RFBCKS-WTW-P25030148-2 Page No. 15 / 54 Report Format Version: 7.1.2

4.5 Unwanted Emissions below 1 GHz

Description Calibrated Calibrated

Model No. Serial No.
Manufacturer Date Until
Antenna Tower
MFT-151SS-0.5T N/A N/A N/A
Max-Full
Bi_Log Antenna
VULB 9168 9168-1213 2024/10/14 2025/10/13
Schwarzbeck
EXA Signal Analyzer
N9010A MY52220207 2024/12/30 2025/12/29
Agilent
Loop Antenna
HLA 6121 45745 2024/8/21 2025/8/20
TESEQ
MXE EMI Receiver
N9038B MY60180019 2025/1/15 2026/1/14
Keysight
Preamplifier
EMC330N 980782 2025/1/14 2026/1/13
EMCI
EMCCFD400-NM-NM-
201233 2025/1/14 2026/1/13
500
RF Coaxial Cable EMCCFD400-NM-NM-
201235 2025/1/14 2026/1/13
EMCI 3000
EMCCFD400-NM-NM-
201236(with PAD) 2025/1/14 2026/1/13
9000
Software ADT_Radiated_
N/A N/A N/A
BV ADT V7.6.15.9.5
Turn Table
MF-7802BS N/A N/A N/A
Max-Full
Turn Table Controller
MF-7802BS MF780208674 N/A N/A
Max-Full
Notes:
1. The test was performed in WM - 966 chamber 8.
2. Tested Date: 2025/3/20

Report No.: RFBCKS-WTW-P25030148-2 Page No. 16 / 54 Report Format Version: 7.1.2

4.6 Unwanted Emissions above 1 GHz

Description Calibrated Calibrated

Model No. Serial No.
Manufacturer Date Until
Antenna Tower
MFT-151SS-0.5T N/A N/A N/A
Max-Full
EXA Signal Analyzer
N9010A MY52220207 2024/12/30 2025/12/29
Agilent
Horn Antenna
DRH18-E 210103A18E 2024/11/10 2025/11/9
RFSPIN
Horn Antenna
BBHA 9170 9170-1049 2024/11/10 2025/11/9
Schwarzbeck
MXE EMI Receiver
N9038B MY60180019 2025/1/15 2026/1/14
Keysight
Preamplifier EMC118A45SE 980808 2024/12/26 2025/12/25
EMCI EMC184045SE 980788 2025/1/14 2026/1/13
EMC101G-KM-KM-2000 201254 2025/1/14 2026/1/13
EMC101G-KM-KM-3000 201258 2025/1/14 2026/1/13
RF Coaxial Cable EMC101G-KM-KM-5000 201261 2025/1/14 2026/1/13
EMCI EMC104-SM-SM-1000 210102 2025/1/14 2026/1/13
EMC104-SM-SM-3000 201231 2025/1/14 2026/1/13
EMC104-SM-SM-9000 201243 2025/1/14 2026/1/13
Software ADT_Radiated_
N/A N/A N/A
BV ADT V7.6.15.9.5
Turn Table
MF-7802BS N/A N/A N/A
Max-Full
Turn Table Controller
MF-7802BS MF780208674 N/A N/A
Max-Full
Notes:
1. The test was performed in WM - 966 chamber 8.
2. Tested Date: 2025/2/26 ~ 2025/3/15

Report No.: RFBCKS-WTW-P25030148-2 Page No. 17 / 54 Report Format Version: 7.1.2

5 Limits of Test Items
5.1 RF Output Power
Limit
Device Category
(Max Average Power)
Indoor access point EIRP 36 dBm
Subordinate device EIRP 36 dBm
Client device EIRP 30 dBm
Note: For all U-NII-4 and U-NII-3 & -4 span channels shall met above EIRP values.

Per KDB 662911 Method of conducted output power measurement on IEEE 802.11 devices,
Array Gain = 0 dB (i.e., no array gain) for NANT ≤ 4;
Array Gain = 0 dB (i.e., no array gain) for channel widths ≥ 40 MHz for any NANT;
Array Gain = 5 log(NANT/NSS) dB or 3 dB, whichever is less for 20-MHz channel widths with NANT ≥ 5.
For power measurements on all other devices: Array Gain = 10 log(NANT/NSS) dB.

5.2 Power Spectral Density

Device Category Limit

Indoor access point EIRP 20 dBm/MHz
Subordinate device EIRP 20 dBm/MHz
Client device EIRP 14 dBm/MHz
Note: For all U-NII-4 and U-NII-3 & -4 span channels shall met above EIRP values.

5.3 6 dB Bandwidth
Within the 5.725-5.850 GHz and 5.850-5.895 GHz bands, the minimum 6 dB bandwidth of U-NII devices shall be at least
500 kHz.

5.4 AC Power Conducted Emissions

Conducted Limit (dBuV)
Frequency (MHz)
Quasi-peak Average
0.15 - 0.5 66 - 56 56 - 46
0.50 - 5.0 56 46
5.0 - 30.0 60 50
Notes:
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.

Report No.: RFBCKS-WTW-P25030148-2 Page No. 18 / 54 Report Format Version: 7.1.2

5.5 Unwanted Emissions below 1 GHz
Radiated emissions which fall in the restricted bands must comply with the radiated emission limits specified as below
table.
Frequencies (MHz) Field Strength (microvolts/meter) Measurement Distance (meters)
0.009 ~ 0.490 2400/F(kHz) 300

0.490 ~ 1.705 24000/F(kHz) 30

1.705 ~ 30.0 30 30
30 ~ 88 100 3
88 ~ 216 150 3
216 ~ 960 200 3
Above 960 500 3
Notes:
1. The lower limit shall apply at the transition frequencies.
2. Emission level (dBuV/m) = 20 log Emission level (uV/m).

5.6 Unwanted Emissions above 1 GHz

(i) For an indoor access point or subordinate device, all emissions at or above 5.895 GHz shall not exceed an e.i.r.p. of
15 dBm/MHz and shall decrease linearly to an e.i.r.p. of −7 dBm/MHz at or above 5.925 GHz.
(ii) For a client device, all emissions at or above 5.895 GHz shall not exceed an e.i.r.p. of −5 dBm/MHz and shall
decrease linearly to an e.i.r.p. of −27 dBm/MHz at or above 5.925 GHz.
(iii) For a client device or indoor access point or subordinate device, all emissions below 5.725 GHz shall not exceed an
e.i.r.p. of −27 dBm/MHz at 5.65 GHz increasing linearly to 10 dBm/MHz at 5.7 GHz, and from 5.7 GHz increasing
linearly to a level of 15.6 dBm/MHz at 5.72 GHz, and from 5.72 GHz increasing linearly to a level of 27 dBm/MHz at
5.725 GHz.

Note:
The following formula is used to convert the equipment isotropic radiated power (eirp) to field strength:

1000000 30P
E= µV/m, where P is the eirp (Watts).
3

Report No.: RFBCKS-WTW-P25030148-2 Page No. 19 / 54 Report Format Version: 7.1.2

6 Test Arrangements
6.1 RF Output Power
6.1.1 Test Setup

EUT Power Sensor Power Meter

Attenuator

6.1.2 Test Procedure

Method PM is used to perform output power measurement, trigger and gating function of wide band power meter is enabled
to measure max output power of TX on burst and set the detector to average. Duty factor is not added to measured value.

6.2 Power Spectral Density

6.2.1 Test Setup

Spectrum
EUT
Attenuator Analyzer

6.2.2 Test Procedure

For specified measurement bandwidth 1 MHz:

Method SA-1
a. Set span to encompass the entire emission bandwidth (EBW) of the signal.
b. Set RBW = 1 MHz, Set VBW ≥ 3 MHz, Detector = RMS
c. Sweep points ≥ [2 × span / RBW]. (This gives bin-to-bin spacing ≤ RBW / 2, so that narrowband signals are not
lost between frequency bins.)
d. Sweep time = auto, trigger set to “free run”.
e. Trace average at least 100 traces in power averaging mode.
f. Record the max value

6.3 6 dB Bandwidth
6.3.1 Test Setup

Spectrum
EUT
Attenuator Analyzer

6.3.2 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.

Report No.: RFBCKS-WTW-P25030148-2 Page No. 20 / 54 Report Format Version: 7.1.2

6.4 AC Power Conducted Emissions
6.4.1 Test Setup

Vertical Ground
Reference Plane Test Receiver

EUT
40cm

80cm
LISN

Horizontal Ground
Reference Plane

Note: 1.Support units were connected to second LISN.

For the actual test configuration, please refer to the attached file (Test Setup Photo).

6.4.2 Test Procedure

a. The EUT was placed on a 0.8 meter to the top of table and 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: The resolution bandwidth and video bandwidth of test receiver is 9 kHz for quasi-peak detection (QP) and
average detection (AV) at frequency 0.15 MHz-30 MHz.

Report No.: RFBCKS-WTW-P25030148-2 Page No. 21 / 54 Report Format Version: 7.1.2

6.5 Unwanted Emissions below 1 GHz
6.5.1 Test Setup
For Radiated emission below 30 MHz

Ant. 1m

EUT& 3m
Support Units

Turn Table

80 cm

Ground Plane

Test Receiver

For Radiated emission above 30 MHz

Ant. Tower 1-4 m

Variable
EUT& 3m
Support Units

Turn Table

80 cm

Ground Plane
Test Receiver

For the actual test configuration, please refer to the attached file (Test Setup Photo).

Report No.: RFBCKS-WTW-P25030148-2 Page No. 22 / 54 Report Format Version: 7.1.2

6.5.2 Test Procedure
For Radiated emission below 30 MHz
a. The EUT was placed on the top of a rotating table 0.8 meters 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. Parallel, perpendicular, and ground-parallel orientations of the antenna are set to make the measurement.
d. For each suspected emission, the EUT was arranged to its worst case and the rotatable table was turned from 0
degrees to 360 degrees to find the maximum reading.
e. The test-receiver system was set to Quasi-Peak Detect Function and Specified Bandwidth with Maximum Hold
Mode, except for the frequency band (9 kHz to 90 kHz and 110 kHz to 490 kHz) set to average detect function
and peak detect function.
Notes:
1. The resolution bandwidth and video bandwidth of test receiver/spectrum analyzer is 200 Hz at frequency below
150 kHz.
2. The resolution bandwidth and video bandwidth of test receiver/spectrum analyzer is 9 kHz or 10 kHz at
frequency (150 kHz to 30 MHz).
3. All modes of operation were investigated and the worst-case emissions are reported.

For Radiated emission above 30 MHz

a. The EUT was placed on the top of a rotating table 0.8 meters 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.
Notes:
1. The resolution bandwidth and video bandwidth of test receiver/spectrum analyzer is 120 kHz for Quasi-peak
detection (QP) at frequency below 1 GHz.
2.
3. All modes of operation were investigated and the worst-case emissions are reported.

Report No.: RFBCKS-WTW-P25030148-2 Page No. 23 / 54 Report Format Version: 7.1.2

6.6 Unwanted Emissions above 1 GHz
6.6.1 Test Setup

Boresight Ant. Tower 1-4 m

Variable
EUT& 3m
Support Units

Turn Table
Absorber

150 cm

Ground Plane
Test Receiver

For the actual test configuration, please refer to the attached file (Test Setup Photo).

6.6.2 Test Procedure

a. The EUT was placed on the top of a rotating table 1.5 meters 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 peak and average detects function and specified bandwidth with maximum
hold mode when the test frequency is above 1 GHz. If the peak reading value also meets average limit,
measurement with the average detector is unnecessary.
Notes:
1. The resolution bandwidth of test receiver/spectrum analyzer is 1 MHz and the video bandwidth is 3 MHz for
Peak detection (PK) and Average detection (AV) at frequency above 1 GHz.
2. For fundamental and harmonic signal measurement, the resolution bandwidth of test receiver/spectrum analyzer
is 1 MHz and the video bandwidth is ≥ 1/T (Duty cycle < 98%) or 10 Hz (Duty cycle ≥ 98%) for Average detection
(AV) at frequency above 1 GHz.
3. All modes of operation were investigated and the worst-case emissions are reported.

Report No.: RFBCKS-WTW-P25030148-2 Page No. 24 / 54 Report Format Version: 7.1.2

7 Test Results of Test Item
7.1 RF Output Power

Environmental
Input Power: 120 Vac, 60 Hz 25°C, 60% RH Tested By: Wayne Lin
Conditions:

802.11a

Chan. Average Power (dBm) Total Total EIRP

Maximum EIRP EIRP Test
Chan. Freq. Power Power Limit
Gain (dBi) (mW) (dBm) Result
(MHz) Chain 0 Chain 1 Chain 2 (mW) (dBm) (dBm)

169 5845 22.48 22.19 22.04 502.544 27.01 3.54 1135.466 30.55 36 Pass
173 5865 22.50 22.17 22.11 505.199 27.03 3.08 1026.745 30.11 36 Pass
177 5885 22.45 22.26 22.05 504.384 27.03 3.08 1025.088 30.11 36 Pass
Notes:
1. Directional gain is the maximum gain of antennas.
2. For U-NII-3 & -4 span channel, The maximum gain is 3.54 dBi.
3. For U-NII-4, The maximum gain is 3.08 dBi.

802.11ax (HE20)

Chan. Average Power (dBm) Total Total EIRP

Maximum EIRP EIRP Test
Chan. Freq. Power Power Limit
Gain (dBi) (mW) (dBm) Result
(MHz) Chain 0 Chain 1 Chain 2 (mW) (dBm) (dBm)

169 5845 22.68 22.67 22.26 538.547 27.31 3.54 1216.812 30.85 36 Pass
173 5865 22.56 22.63 22.32 534.141 27.28 3.08 1085.565 30.36 36 Pass
177 5885 22.64 22.57 22.30 534.196 27.28 3.08 1085.677 30.36 36 Pass
Notes:
1. Directional gain is the maximum gain of antennas.
2. For U-NII-3 & -4 span channel, The maximum gain is 3.54 dBi.
3. For U-NII-4, The maximum gain is 3.08 dBi.

802.11ax (HE40)

Chan. Average Power (dBm) Total Total EIRP

Maximum EIRP EIRP Test
Chan. Freq. Power Power Limit
Gain (dBi) (mW) (dBm) Result
(MHz) Chain 0 Chain 1 Chain 2 (mW) (dBm) (dBm)

167 5835 23.26 23.33 23.03 628.024 27.98 3.54 1418.98 31.52 36 Pass
175 5875 23.11 23.15 22.92 607.067 27.83 3.08 1233.777 30.91 36 Pass
Notes:
1. Directional gain is the maximum gain of antennas.
2. For U-NII-3 & -4 span channel, The maximum gain is 3.54 dBi.
3. For U-NII-4, The maximum gain is 3.08 dBi.

Report No.: RFBCKS-WTW-P25030148-2 Page No. 25 / 54 Report Format Version: 7.1.2

802.11ax (HE80)

Chan. Average Power (dBm) Total Total EIRP

Maximum EIRP EIRP Test
Chan. Freq. Power Power Limit
Gain (dBi) (mW) (dBm) Result
(MHz) Chain 0 Chain 1 Chain 2 (mW) (dBm) (dBm)

171 5855 22.68 22.55 22.30 535.065 27.28 3.54 1208.945 30.82 36 Pass
Notes:
1. Directional gain is the maximum gain of antennas.
2. For U-NII-3 & -4 span channel, The maximum gain is 3.54 dBi.
3. For U-NII-4, The maximum gain is 3.08 dBi.

802.11ax (HE160)

Chan. Average Power (dBm) Total Total EIRP

Maximum EIRP EIRP Test
Chan. Freq. Power Power Limit
Gain (dBi) (mW) (dBm) Result
(MHz) Chain 0 Chain 1 Chain 2 (mW) (dBm) (dBm)

163 5815 15.95 16.26 15.69 118.69 20.74 3.54 268.172 24.28 36 Pass
Notes:
1. Directional gain is the maximum gain of antennas.
2. For U-NII-3 & -4 span channel, The maximum gain is 3.54 dBi.
3. For U-NII-4, The maximum gain is 3.08 dBi.

802.11ax (HE20) Beamforming

Chan. Average Power (dBm) Total Total EIRP

Directional EIRP EIRP Test
Chan. Freq. Power Power Limit
Gain (dBi) (mW) (dBm) Result
(MHz) Chain 0 Chain 1 Chain 2 (mW) (dBm) (dBm)

169 5845 19.67 19.66 19.27 269.681 24.31 6.52 1210.181 30.83 36 Pass
173 5865 19.08 19.15 18.85 239.87 23.80 6.36 1037.471 30.16 36 Pass
177 5885 19.18 19.09 19.00 243.323 23.86 6.36 1052.406 30.22 36 Pass
Notes:
1. Directional gain is the measured value according to KDB 662911 D03 Method of MIMO Antenna Gain
Measurement.
2. For U-NII-3 & -4 span channel, The directional gain is 6.52 dBi.
3. For U-NII-4, The directional gain is 6.36 dBi.

802.11ax (HE40) Beamforming

Chan. Average Power (dBm) Total Total EIRP

Directional EIRP EIRP Test
Chan. Freq. Power Power Limit
Gain (dBi) (mW) (dBm) Result
(MHz) Chain 0 Chain 1 Chain 2 (mW) (dBm) (dBm)

167 5835 20.27 20.32 20.04 314.986 24.98 6.52 1413.485 31.5 36 Pass
175 5875 19.65 19.69 19.46 273.676 24.37 6.36 1183.687 30.73 36 Pass
Notes:
1. Directional gain is the measured value according to KDB 662911 D03 Method of MIMO Antenna Gain
Measurement.
2. For U-NII-3 & -4 span channel, The directional gain is 6.52 dBi.
3. For U-NII-4, The directional gain is 6.36 dBi.

Report No.: RFBCKS-WTW-P25030148-2 Page No. 26 / 54 Report Format Version: 7.1.2

802.11ax (HE80) Beamforming

Chan. Average Power (dBm) Total Total EIRP

Directional EIRP EIRP Test
Chan. Freq. Power Power Limit
Gain (dBi) (mW) (dBm) Result
(MHz) Chain 0 Chain 1 Chain 2 (mW) (dBm) (dBm)

171 5855 19.67 19.54 19.30 267.747 24.28 6.52 1201.502 30.8 36 Pass
Notes:
1. Directional gain is the measured value according to KDB 662911 D03 Method of MIMO Antenna Gain
Measurement.
2. For U-NII-3 & -4 span channel, The directional gain is 6.52 dBi.
3. For U-NII-4, The directional gain is 6.36 dBi.

802.11ax (HE160) Beamforming

Chan. Average Power (dBm) Total Total EIRP

Directional EIRP EIRP Test
Chan. Freq. Power Power Limit
Gain (dBi) (mW) (dBm) Result
(MHz) Chain 0 Chain 1 Chain 2 (mW) (dBm) (dBm)

163 5815 12.95 13.28 12.52 58.87 17.70 6.52 264.176 24.22 36 Pass
Notes:
1. Directional gain is the measured value according to KDB 662911 D03 Method of MIMO Antenna Gain
Measurement.
2. For U-NII-3 & -4 span channel, The directional gain is 6.52 dBi.
3. For U-NII-4, The directional gain is 6.36 dBi.

Report No.: RFBCKS-WTW-P25030148-2 Page No. 27 / 54 Report Format Version: 7.1.2

7.2 Power Spectral Density

Environmental
Input Power: 120 Vac, 60 Hz 25°C, 60% RH Tested By: Wayne Lin
Conditions:

802.11a

Chan. PSD (dBm/MHz) EIRP PSD

Total PSD Directional EIRP PSD Test
Chan. Freq. Limit
(dBm/MHz) Gain (dBi) (dBm/MHz) Result
(MHz) (dBm/MHz)
Chain 0 Chain 1 Chain 2
169 5845 8.41 8.57 7.97 13.10 6.52 19.62 20 Pass
173 5865 8.54 8.46 8.06 13.13 6.36 19.49 20 Pass
177 5885 8.72 8.58 8.21 13.28 6.36 19.64 20 Pass
Notes:
1. Method E) 2) a) of power density measurement of KDB 662911 is using for calculating total power density. Total
power density is summing entire spectra across corresponding frequency bins on the various outputs by
computer.
2. Directional gain is the measured value according to KDB 662911 D03 Method of MIMO Antenna Gain
Measurement.
3. For U-NII-3 & -4 span channel, The directional gain is 6.52 dBi.
4. For U-NII-4, The directional gain is 6.36 dBi.

802.11ax (HE20)

Chan. PSD (dBm/MHz) EIRP PSD

Total PSD Directional EIRP PSD Test
Chan. Freq. Limit
(dBm/MHz) Gain (dBi) (dBm/MHz) Result
(MHz) (dBm/MHz)
Chain 0 Chain 1 Chain 2
169 5845 8.54 8.57 8.27 13.23 6.52 19.75 20 Pass
173 5865 8.49 8.67 8.35 13.28 6.36 19.64 20 Pass
177 5885 8.40 8.34 8.31 13.12 6.36 19.48 20 Pass
Notes:
1. Method E) 2) a) of power density measurement of KDB 662911 is using for calculating total power density. Total
power density is summing entire spectra across corresponding frequency bins on the various outputs by
computer.
2. Directional gain is the measured value according to KDB 662911 D03 Method of MIMO Antenna Gain
Measurement.
3. For U-NII-3 & -4 span channel, The directional gain is 6.52 dBi.
4. For U-NII-4, The directional gain is 6.36 dBi.

Report No.: RFBCKS-WTW-P25030148-2 Page No. 28 / 54 Report Format Version: 7.1.2

802.11ax (HE40)

Chan. PSD (dBm/MHz) EIRP PSD

Total PSD Directional EIRP PSD Test
Chan. Freq. Limit
(dBm/MHz) Gain (dBi) (dBm/MHz) Result
(MHz) (dBm/MHz)
Chain 0 Chain 1 Chain 2
167 5835 6.31 6.41 6.16 11.07 6.52 17.59 20 Pass
175 5875 6.25 6.29 6.02 10.96 6.36 17.32 20 Pass
Notes:
1. Method E) 2) a) of power density measurement of KDB 662911 is using for calculating total power density. Total
power density is summing entire spectra across corresponding frequency bins on the various outputs by
computer.
2. Directional gain is the measured value according to KDB 662911 D03 Method of MIMO Antenna Gain
Measurement.
3. For U-NII-3 & -4 span channel, The directional gain is 6.52 dBi.
4. For U-NII-4, The directional gain is 6.36 dBi.

802.11ax (HE80)

Chan. PSD (dBm/MHz) EIRP PSD

Total PSD Directional EIRP PSD Test
Chan. Freq. Limit
(dBm/MHz) Gain (dBi) (dBm/MHz) Result
(MHz) (dBm/MHz)
Chain 0 Chain 1 Chain 2
171 5855 2.77 2.59 2.45 7.38 6.52 13.9 20 Pass
Notes:
1. Method E) 2) a) of power density measurement of KDB 662911 is using for calculating total power density. Total
power density is summing entire spectra across corresponding frequency bins on the various outputs by
computer.
2. Directional gain is the measured value according to KDB 662911 D03 Method of MIMO Antenna Gain
Measurement.
3. For U-NII-3 & -4 span channel, The directional gain is 6.52 dBi.
4. For U-NII-4, The directional gain is 6.36 dBi.

802.11ax (HE160)

Chan. PSD (dBm/MHz) EIRP PSD

Total PSD Directional EIRP PSD Test
Chan. Freq. Limit
(dBm/MHz) Gain (dBi) (dBm/MHz) Result
(MHz) (dBm/MHz)
Chain 0 Chain 1 Chain 2
163 5815 -7.50 -7.11 -7.85 -2.70 6.52 3.82 20 Pass
Notes:
1. Method E) 2) a) of power density measurement of KDB 662911 is using for calculating total power density. Total
power density is summing entire spectra across corresponding frequency bins on the various outputs by
computer.
2. Directional gain is the measured value according to KDB 662911 D03 Method of MIMO Antenna Gain
Measurement.
3. For U-NII-3 & -4 span channel, The directional gain is 6.52 dBi.
4. For U-NII-4, The directional gain is 6.36 dBi.

Report No.: RFBCKS-WTW-P25030148-2 Page No. 29 / 54 Report Format Version: 7.1.2

Spectrum Plot of Maximum Value

802.11a / Chain 0 : CH 177 802.11ax (HE20) / Chain 1 : CH 173

802.11ax (HE40) / Chain 1 : CH 167 802.11ax (HE80) / Chain 0 : CH 171

802.11ax (HE160) / Chain 1 : CH 163

Report No.: RFBCKS-WTW-P25030148-2 Page No. 30 / 54 Report Format Version: 7.1.2

7.3 6 dB Bandwidth

Environmental
Input Power: 120 Vac, 60 Hz 25°C, 60% RH Tested By: Wayne Lin
Conditions:

802.11a

6dB Bandwidth (MHz) Minimum Limit

Channel Frequency (MHz) Test Result
(MHz)
Chain 0 Chain 1 Chain 2
169 5845 16.35 16.37 16.38 0.5 Pass
173 5865 16.36 16.36 16.38 0.5 Pass
177 5885 16.30 16.33 16.34 0.5 Pass

802.11ax (HE20)

6dB Bandwidth (MHz) Minimum Limit

Channel Frequency (MHz) Test Result
(MHz)
Chain 0 Chain 1 Chain 2
169 5845 18.97 18.95 18.85 0.5 Pass
173 5865 18.89 18.95 18.86 0.5 Pass
177 5885 18.66 18.77 18.80 0.5 Pass

802.11ax (HE40)

6dB Bandwidth (MHz) Minimum Limit

Channel Frequency (MHz) Test Result
(MHz)
Chain 0 Chain 1 Chain 2
167 5835 35.32 37.32 35.17 0.5 Pass
175 5875 35.29 36.51 35.71 0.5 Pass

802.11ax (HE80)

6dB Bandwidth (MHz) Minimum Limit

Channel Frequency (MHz) Test Result
(MHz)
Chain 0 Chain 1 Chain 2
171 5855 74.11 75.91 72.07 0.5 Pass

802.11ax (HE160)

6dB Bandwidth (MHz) Minimum Limit

Channel Frequency (MHz) Test Result
(MHz)
Chain 0 Chain 1 Chain 2
163 5815 146.74 151.95 124.72 0.5 Pass

Report No.: RFBCKS-WTW-P25030148-2 Page No. 31 / 54 Report Format Version: 7.1.2

Spectrum Plot of Minimum Value

802.11a / Chain 0 : CH 177 802.11ax (HE20) / Chain 0 : CH 177

802.11ax (HE40) / Chain 2 : CH 167 802.11ax (HE80) / Chain 2 : CH 171

802.11ax (HE160) / Chain 2 : CH 163

Report No.: RFBCKS-WTW-P25030148-2 Page No. 32 / 54 Report Format Version: 7.1.2

7.4 AC Power Conducted Emissions

RF Mode 802.11ax (HE40) Channel CH 167：5835 MHz

Detector Function & Quasi-Peak (QP) /
Frequency Range 150 kHz ~ 30 MHz
Resolution Bandwidth Average (AV), 9 kHz
Environmental
Input Power 120 Vac, 60 Hz 25 °C, 75 % RH
Conditions
Tested By Charles Hsiao

Phase Of Power : Line (L)

Frequency Correction Reading Value Emission Level Limit Margin
No Factor (dBuV) (dBuV) (dBuV) (dB)
(MHz) (dB) Q.P. AV. Q.P. AV. Q.P. AV. Q.P. AV.
1 0.15400 9.76 38.97 22.58 48.73 32.34 65.78 55.78 -17.05 -23.44
2 0.19000 9.76 40.07 31.30 49.83 41.06 64.04 54.04 -14.21 -12.98
3 0.24600 9.79 38.13 26.82 47.92 36.61 61.89 51.89 -13.97 -15.28
4 0.65000 9.92 35.47 26.05 45.39 35.97 56.00 46.00 -10.61 -10.03
5 2.61800 10.09 18.27 9.48 28.36 19.57 56.00 46.00 -27.64 -26.43
6 23.09000 10.87 9.91 5.04 20.78 15.91 60.00 50.00 -39.22 -34.09
Remarks:
1. Q.P. and AV. are abbreviations of quasi-peak and average individually.
2. The emission levels of other frequencies were very low against the limit.
3. Margin value = Emission level – Limit value
4. Correction factor = Insertion loss + Cable loss
5. Emission Level = Correction Factor + Reading Value

Report No.: RFBCKS-WTW-P25030148-2 Page No. 33 / 54 Report Format Version: 7.1.2

RF Mode 802.11ax (HE40) Channel CH 167：5835 MHz
Detector Function & Quasi-Peak (QP) /
Frequency Range 150 kHz ~ 30 MHz
Resolution Bandwidth Average (AV), 9 kHz
Environmental
Input Power 120 Vac, 60 Hz 25 °C, 75 % RH
Conditions
Tested By Charles Hsiao

Phase Of Power : Neutral (N)

Frequency Correction Reading Value Emission Level Limit Margin
No Factor (dBuV) (dBuV) (dBuV) (dB)
(MHz) (dB) Q.P. AV. Q.P. AV. Q.P. AV. Q.P. AV.
1 0.18200 9.72 40.88 31.77 50.60 41.49 64.39 54.39 -13.79 -12.90
2 0.25000 9.78 37.56 25.81 47.34 35.59 61.76 51.76 -14.42 -16.17
3 0.29400 9.81 35.94 25.46 45.75 35.27 60.41 50.41 -14.66 -15.14
4 0.66600 9.96 31.16 21.76 41.12 31.72 56.00 46.00 -14.88 -14.28
5 1.68200 10.12 14.51 7.66 24.63 17.78 56.00 46.00 -31.37 -28.22
6 17.41800 10.88 14.34 8.88 25.22 19.76 60.00 50.00 -34.78 -30.24
Remarks:
1. Q.P. and AV. are abbreviations of quasi-peak and average individually.
2. The emission levels of other frequencies were very low against the limit.
3. Margin value = Emission level – Limit value
4. Correction factor = Insertion loss + Cable loss
5. Emission Level = Correction Factor + Reading Value

Report No.: RFBCKS-WTW-P25030148-2 Page No. 34 / 54 Report Format Version: 7.1.2

7.5 Unwanted Emissions below 1 GHz

RF Mode 802.11ax (HE40) Channel CH 167：5835 MHz

Detector Function &
Frequency Range 30 MHz ~ 1 GHz QP: RB=120kHz, DET=Quasi-Peak
Bandwidth
Environmental
Input Power 120 Vac, 60 Hz 23 °C, 67 % RH
Conditions
Tested By Karl Lee

Antenna Polarity & Test Distance : Horizontal at 3 m

Emission Antenna Table Raw Correction
Frequency Limit Margin
No Level Height Angle Value Factor
(MHz) (dBuV/m) (dB)
(dBuV/m) (m) (Degree) (dBuV) (dB/m)
1 55.83 29.3 QP 40.0 -10.7 1.81 H 150 42.6 -13.3
2 103.62 23.5 QP 43.5 -20.0 1.42 H 105 40.3 -16.8
3 162.46 33.5 QP 43.5 -10.0 1.31 H 146 46.2 -12.7
4 251.26 39.5 QP 46.0 -6.5 1.88 H 94 53.4 -13.9
5 293.61 34.8 QP 46.0 -11.2 2.31 H 105 47.2 -12.4
6 764.16 33.0 QP 46.0 -13.0 1.05 H 81 34.6 -1.6
Remarks:
1. Emission Level(dBuV/m) = Raw Value(dBuV) + Correction Factor(dB/m)
2. Correction Factor(dB/m) = Antenna Factor(dB/m) + Cable Factor(dB) – Pre-Amplifier Factor(dB)
3. Margin value = Emission Level – Limit value
4. The other emission levels were very low against the limit of frequency range 30 MHz ~ 1 GHz.
5. The frequency range 9 kHz ~ 30 MHz: all emissions are more than 20 dB below the limit, therefore do not be
recorded in this report.

Report No.: RFBCKS-WTW-P25030148-2 Page No. 35 / 54 Report Format Version: 7.1.2

RF Mode 802.11ax (HE40) Channel CH 167：5835 MHz

Detector Function &

Frequency Range 30 MHz ~ 1 GHz QP: RB=120kHz, DET=Quasi-Peak
Bandwidth
Environmental
Input Power 120 Vac, 60 Hz 23 °C, 67 % RH
Conditions
Tested By Karl Lee

Antenna Polarity & Test Distance : Vertical at 3 m

Emission Antenna Table Raw Correction
Frequency Limit Margin
No Level Height Angle Value Factor
(MHz) (dBuV/m) (dB)
(dBuV/m) (m) (Degree) (dBuV) (dB/m)
1 50.43 38.1 QP 40.0 -1.9 1.00 V 186 51.1 -13.0
2 64.75 34.7 QP 40.0 -5.3 1.00 V 196 49.3 -14.6
3 163.62 33.9 QP 43.5 -9.6 1.88 V 63 46.7 -12.8
4 250.26 38.7 QP 46.0 -7.3 2.01 V 164 52.6 -13.9
5 296.16 37.2 QP 46.0 -8.8 2.26 V 8 49.5 -12.3
6 765.17 31.8 QP 46.0 -14.2 1.52 V 208 33.4 -1.6
Remarks:
1. Emission Level(dBuV/m) = Raw Value(dBuV) + Correction Factor(dB/m)
2. Correction Factor(dB/m) = Antenna Factor(dB/m) + Cable Factor(dB) – Pre-Amplifier Factor(dB)
3. Margin value = Emission Level – Limit value
4. The other emission levels were very low against the limit of frequency range 30 MHz ~ 1 GHz.
5. The frequency range 9 kHz ~ 30 MHz: all emissions are more than 20 dB below the limit, therefore do not be
recorded in this report.