Hewlett Packard Enterprise Company APIN0755A ACCESS POINT Q9DAPIN0755A Q9DAPIN0755A apin0755a
Hewlett Packard Enterprise Company APIN0755 ACCESS POINT Q9DAPIN0755 Q9DAPIN0755 apin0755
MRT Technology (Suzhou) Co., Ltd Phone: +86-512-66308358 Web: www.mrt-cert.com
Report No.: 2403RSU068-U5
Report Version:
V02
Issue Date:
2024-08-13
RF MEASUREMENT REPORT
FCC ID: Applicant: Product: Model No.: Trademark:
Q9DAPIN0755 Hewlett Packard Enterprise Company ACCESS POINT APIN0755
FCC Classification: Unlicensed National Information Infrastructure (NII)
FCC Rule Part(s): Part 15 Subpart E (Section 15.407)
Result:
Complies
Received Date:
2024-03-29
Test Date:
2024-04-15 ~ 2024-07-31
Reviewed By: Approved By:
Jame Yuan Robin Wu
The test results relate only to the samples tested.
This equipment has been shown to be capable of compliance with the applicable technical standards as
indicated in the measurement report and was tested in accordance with the measurement procedures specified
in KDB789033 and KDB 291074. Test results reported herein relate only to the item(s) tested.
The test report shall not be reproduced except in full without the written approval of MRT Technology (Suzhou)
Co., Ltd.
Template Version:0.0
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Report No. 2403RSU068-U5 2403RSU068-U5
Version V01 V02
Revision History
Description Initial Report Remove test data of channel puncturing mode
Report No.: 2403RSU068-U5
Issue Date 2024-07-27 2024-08-13
Note Invalid Valid
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Report No.: 2403RSU068-U5
CONTENTS
Description
Page
1. General Information ................................................................................................................................6
1.1. Applicant ...................................................................................................................................... 6 1.2. Manufacturer ................................................................................................................................ 6 1.3. Testing Facility ............................................................................................................................. 6 1.4. Product Information...................................................................................................................... 7 1.5. Radio Specification under Test .................................................................................................... 7 1.6. Working Frequencies ................................................................................................................... 8 1.7. Antenna Details............................................................................................................................ 8 1.8. Description of Antenna RF Port ................................................................................................... 9
2. Test Configuration .................................................................................................................................10
2.1. Test Mode................................................................................................................................... 10 2.2. Test System Connection Diagram...............................................................................................11 2.3. Test Software ..............................................................................................................................11 2.4. Applied Standards...................................................................................................................... 12 2.5. Test Environment Condition ....................................................................................................... 12
3. Antenna Requirements .........................................................................................................................13
4. Measuring Instrument ...........................................................................................................................14
5. Decision Rules and Measurement Uncertainty ..................................................................................16
5.1. Decision Rules ........................................................................................................................... 16 5.2. Measurement Uncertainty .......................................................................................................... 16
6. Test Result..............................................................................................................................................17
6.1. 6.2. 6.2.1. 6.2.2. 6.2.3. 6.2.4. 6.2.5. 6.3. 6.3.1. 6.3.2. 6.3.3. 6.3.4. 6.3.5. 6.4.
Summary .................................................................................................................................... 17 26dB & 99% Bandwidth Measurement ...................................................................................... 18 Test Limit .................................................................................................................................... 18 Test Procedure ........................................................................................................................... 18 Test Setting ................................................................................................................................ 18 Test Setup .................................................................................................................................. 19 Test Result ................................................................................................................................. 19 6dB Bandwidth Measurement.................................................................................................... 20 Test Limit .................................................................................................................................... 20 Test Procedure ........................................................................................................................... 20 Test Setting ................................................................................................................................ 20 Test Setup .................................................................................................................................. 20 Test Result ................................................................................................................................. 20 Output Power Measurement ...................................................................................................... 21
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6.4.1. 6.4.2. 6.4.3. 6.4.4. 6.4.5. 6.5. 6.5.1. 6.5.2. 6.5.3. 6.5.4. 6.5.5. 6.6. 6.6.1. 6.6.2. 6.6.3. 6.6.4. 6.7. 6.7.1. 6.7.2. 6.7.3. 6.7.4. 6.7.5. 6.8. 6.8.1. 6.8.2. 6.8.3. 6.8.4. 6.8.5. 6.9. 6.9.1. 6.9.2. 6.9.3.
Test Limit .................................................................................................................................... 21 Test Procedure ........................................................................................................................... 21 Test Setting ................................................................................................................................ 21 Test Setup .................................................................................................................................. 21 Test Result ................................................................................................................................. 21 Power Spectral Density Measurement ...................................................................................... 22 Test Limit .................................................................................................................................... 22 Test Procedure ........................................................................................................................... 22 Test Setting ................................................................................................................................ 22 Test Setup .................................................................................................................................. 22 Test Result ................................................................................................................................. 23 Frequency Stability Measurement ............................................................................................. 24 Test Limit .................................................................................................................................... 24 Test Procedure ........................................................................................................................... 24 Test Setup .................................................................................................................................. 24 Test Result ................................................................................................................................. 25 Radiated Spurious Emission Measurement............................................................................... 26 Test Limit .................................................................................................................................... 26 Test Procedure ........................................................................................................................... 26 Test Setting ................................................................................................................................ 27 Test Setup .................................................................................................................................. 29 Test Result ................................................................................................................................. 30 Radiated Band Edge Measurement........................................................................................... 31 Test Limit .................................................................................................................................... 31 Test Procedure ........................................................................................................................... 31 Test Setting ................................................................................................................................ 31 Test Setup .................................................................................................................................. 33 Test Result ................................................................................................................................. 33 AC Conducted Emissions Measurement ................................................................................... 34 Test Limit .................................................................................................................................... 34 Test Setup .................................................................................................................................. 34 Test Result ................................................................................................................................. 34
Appendix A Test Result............................................................................................................................35
A.1 Duty Cycle Test Result ............................................................................................................... 35 A.2 26dB & 99% Bandwidth Test Result .......................................................................................... 38 A.3 6dB Bandwidth Test Result ........................................................................................................ 46 A.4 Output Power Test Result .......................................................................................................... 54 A.5 Power Spectral Density Test Result ........................................................................................... 55 A.6 Frequency Stability Test Result.................................................................................................. 85
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Report No.: 2403RSU068-U5 A.7 Radiated Spurious Emission Test Result ................................................................................... 86 A.8 Radiated Band Edge Test Result ..............................................................................................118 A.9 AC Conducted Emissions Test Result ..................................................................................... 158 Appendix B Test Setup Photograph .....................................................................................................160 Appendix C EUT Photograph ................................................................................................................161
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1. General Information
1.1. Applicant Hewlett Packard Enterprise Company 6280 America Center Drive, San Jose CA 95002, United States
Report No.: 2403RSU068-U5
1.2. Manufacturer Hewlett Packard Enterprise Company 6280 America Center Drive, San Jose CA 95002, United States
1.3. Testing Facility
Test Site MRT Suzhou Laboratory
Laboratory Location (Suzhou - Wuzhong)
D8 Building, No.2 Tian'edang Rd., Wuzhong Economic Development Zone, Suzhou, China
Laboratory Location (Suzhou - SIP)
4b Building, Liando U Valley, No.200 Xingpu Rd., Shengpu Town, Suzhou Industrial Park, China
Laboratory Accreditations
A2LA: 3628.01
CNAS: L10551
FCC: CN1166
ISED: CN0001
VCCI:
R-20025 R-20141
G-20034 G-20134
C-20020 C-20103
T-20020 T-20104
Test Site MRT Shenzhen Laboratory
Laboratory Location (Shenzhen)
1G, Building A, Junxiangda Building, Zhongshanyuan Road West, Nanshan District, Shenzhen, China
Laboratory Accreditations
A2LA: 3628.02
CNAS: L10551
FCC: CN1284
ISED: CN0105
Test Site MRT Taiwan Laboratory
Laboratory Location (Taiwan)
No. 38, Fuxing 2nd Rd., Guishan Dist., Taoyuan City 333, Taiwan (R.O.C.)
Laboratory Accreditations
TAF: 3261
FCC: 291082, TW3261
ISED: TW3261
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1.4. Product Information
Product Name
ACCESS POINT
Model No.
APIN0755
Serial No.
Radiated Sample: CNRRM59015 Conducted Sample: CNRRM5901H
Software Version
v0.4.3t4
Wi-Fi Specification
802.11a/b/g/n/ac/ax/be
Bluetooth Specification
BLE only
ZigBee Specification
802.15.4
GNSS Specification
GPS, Galileo
Antenna Information
Refer to Section 1.8
Power Type
AC Adapter Input or PoE Input
Operating Environment
Indoor Use
Remark: The information of EUT was provided by the manufacturer, and the accuracy of the information shall
be the responsibility of the manufacturer.
1.5. Radio Specification under Test
Frequency Range
Type of Modulation Data Rate Support RU
For 802.11a/n-HT20/ac-VHT20/ax-HE20/be-EHT20:
5845MHz, 5865MHz, 5885MHz
For 802.11n-HT40/ac-VHT40/ax-HE40/be-EHT40:
5835MHz, 5875MHz
For 802.11ac-VHT80/ax-HE80/be-EHT80:
5855MHz
For 802.11ac-VHT160/ax-HE160/be-EHT160:
5815MHz
802.11a/n/ac: OFDM
802.11ax/be: OFDMA
802.11a: 6/9/12/18/24/36/48/54Mbps
802.11n: up to 300Mbps
802.11ac: up to 3564Mbps
802.11ax: up to 4804Mbps
802.11be: up to 5764Mbps
Full RU
Partial RU
Single RU Multi RU Channel Puncturing
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1.6. Working Frequencies
802.11a/n-HT20/ac-VHT20/ax-HE20/be-EHT20
Channel
Frequency
Channel
169
5845 MHz
173
802.11n-HT40/ac-VHT40/ax-HE40/be-EHT40
Channel
Frequency
Channel
167
5835 MHz
175
802.11ac-VHT80/ax-HE80/be-EHT80
Channel
Frequency
171
5855 MHz
Channel --
802.11ac-VHT160/ax-HE160/be-EHT160
Channel
Frequency
Channel
163
5815 MHz
--
Frequency 5865 MHz
Frequency 5875 MHz
Frequency --
Frequency --
Channel 177
Channel --
Channel --
Channel --
Frequency 5885 MHz
Frequency --
Frequency --
Frequency --
1.7. Antenna Details
Antenna Type PIFA PIFA
Alford Loop Alford Loop
Wi-Fi Antenna
Ant 1 Ant 2 Ant 3 Ant 4
Frequency Band (GHz)
5.15 ~ 5.9 5.15 ~ 5.9 5.15 ~ 5.9 5.15 ~ 5.9
TX Paths
4
Directional Gain (dBi)
Uncorrelated
Correlated
3.6
9.5
Note:
1, The EUT supports Cyclic Delay Diversity (CDD) mode, and CDD signals are correlated.
2, The EUT also supports Beam Forming mode, and the Beam Forming support 802.11n/ac/ax/be, not include
802.11a/b/g.
3, For beamforming operation, Aruba OS automatically backs power down based on CDD power.
4, The detail calculation method of directional gain refers to antenna specification provided by the applicant.
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1.8. Description of Antenna RF Port
Report No.: 2403RSU068-U5
Antenna Port
Ant 1 Ant 2 Ant 3 Ant 4 Ant 5 Ant 6 Ant 7 Ant 8 Ant 9 Ant 10 Ant 11 Ant 12 Ant 13 Ant 14
Wi-Fi 2.4G ---------
(Radio 2) (Radio 2) (Radio 2) (Radio 2)
--
RF Spec.
Wi-Fi 5G (Radio 1) (Radio 1) (Radio 1) (Radio 1)
---------
--
Wi-Fi 6G -----
(Radio 0) (Radio 0) (Radio 0) (Radio 0)
----GNSS --
BLE/ZigBee -------
(Core 0) (Core 1)
-----
(Core 1)
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2. Test Configuration
2.1. Test Mode Mode 1: Transmit by 802.11a (6Mbps) Mode 2: Transmit by 802.11ac-VHT20_NSS=1 (MCS0) Mode 3: Transmit by 802.11ac-VHT40_NSS=1 (MCS0) Mode 4: Transmit by 802.11ac-VHT80_NSS=1 (MCS0) Mode 5: Transmit by 802.11ac-VHT160_NSS=1 (MCS0) Mode 6: Transmit by 802.11ax-HE20_NSS=1 (MCS0) Mode 7: Transmit by 802.11ax-HE40_NSS=1 (MCS0) Mode 8: Transmit by 802.11ax-HE80_NSS=1 (MCS0) Mode 9: Transmit by 802.11ax-HE160_NSS=1 (MCS0) Mode 10: Transmit by 802.11be-EHT20_NSS=1 (MCS0) Mode 11: Transmit by 802.11be-EHT40_NSS=1 (MCS0) Mode 12: Transmit by 802.11be-EHT80_NSS=1 (MCS0) Mode 13: Transmit by 802.11be-EHT160_NSS=1 (MCS0) Note: 1. For Radiated emission, the modulation and the data rate picked for testing are determined by the Max.
RF conducted power. 2. 802.11n and 802.11ac have same modulation type and same power value, so we only show 802.11ac
test data in report. 3. For CDD mode, this device supports 2 NSS and power level is the same of spatial multiplexing. The worst
case is NSS=1. 4. For beamforming operation, manufacturer automatically backs power down based on CDD power.
Therefore, only the CDD mode was evaluated in this report.
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2.2. Test System Connection Diagram The device was tested per the guidance ANSI C63.10: 2013 was used to reference the appropriate EUT setup for radiated emissions testing and AC line conducted testing. Connection Diagram
No. Cable Type A Power Cable B LAN Cable No. Product 1 Notebook
Cable Spec. Non-Shielded Non-Shielded, Cat 6 Manufacturer DELL
Length 1.2m >10.0m Model No. Latitude 5491
2.3. Test Software The test utility software used during testing was "accessMTool", and the version was 3.3.0.6. Note: Final power setting please refer to operational description.
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2.4. Applied Standards
According to the specifications of the manufacturer, the EUT must comply with the requirements of the following standards: FCC Part 15.407 KDB 789033 D02v02r01 KDB 291074 D02v01 KDB 662911 D01v02r01 ANSI C63.10-2013
2.5. Test Environment Condition Ambient Temperature Relative Humidity
15 ~ 35°C 20 ~ 75%RH
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3. Antenna Requirements
KDB 291074 D01v01: An Indoor Access point in the U-NII-4 band (5.850-5.895 GHz) and U-NII -3 & -4 span channels must use an integrated antenna. The antenna of the device is built in and locked inside the enclosure.
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4. Measuring Instrument
Instrument Anechoic Chamber Thermohygrometer TRILOG Antenna TRILOG Antenna Loop Antenna Signal Analyzer Anechoic Chamber Preamplifier Thermohygrometer Anechoic Chamber Horn Antenna Signal Analyzer Preamplifier Horn Antenna Signal Analyzer Horn Antenna Horn Antenna Thermohygrometer Preamplifier Anechoic Chamber Horn Antenna Preamplifier Anechoic Chamber Anechoic Chamber Thermohygrometer Preamplifier Preamplifier Anechoic Chamber Anechoic Chamber Thermohygrometer Signal Analyzer Thermohygrometer Thermohygrometer Shielding Room
Signal Analyzer
Manufacturer RIKEN testo Schwarzbeck Schwarzbeck Schwarzbeck Keysight RIKEN EMCI testo RIKEN Schwarzbeck Keysight EMCI Schwarzbeck Keysight R&S R&S testo EMCI RIKEN Schwarzbeck Agilent TDK TDK testo Schwarzbeck Schwarzbeck RIKEN RIKEN testo Keysight testo testo HUAMING
Keysight
Model No. SIP-AC1 608-H1 VULB 9168 VULB 9168 FMZB 1519 B N9010B SIP-AC1 EMC051845SE 608-H1 SIP-AC2 BBHA 9120D N9020B EMC184045SE BBHA 9170 N9010B HF907 HF907 608-H1 EMC012645SE SIP-AC3 BBHA 9120D 83017A WZ-AC1 WZ-AC1 608-H1 BBV 9718 BBV 9718 WZ-AC2 WZ-AC2 608-H1 N9010B 608-H1 608-H1 WZ-SR5
Asset No.
Cali. Interval Cali. Due Date Test Site
MRTSUE06554 1 year
2024-12-21
SIP-AC1
MRTSUE06616 1 year
2024-10-28
SIP-AC1
MRTSUE06645 1 year
2024-07-13
SIP-AC1
MRTSUE06645 1 year
2025-07-05
SIP-AC1
MRTSUE06937 1 year
2025-01-27
SIP-AC1
MRTSUE07028 1 year
2024-10-23
SIP-AC1
MRTSUE06554 1 year
2024-12-21
SIP-AC1
MRTSUE06601 1 year
2024-11-02
SIP-AC2
MRTSUE06622 1 year
2024-11-03
SIP-AC2
MRTSUE06781 1 year
2024-12-21
SIP-AC2
MRTSUE06648 1 year
2024-10-21
SIP-AC2
MRTSUE06604 1 year
2025-02-03
SIP-AC2
MRTSUE06602 1 year
2024-10-09
SIP-AC2
MRTSUE06598 1 year
2024-11-04
SIP-AC2
MRTSUE06603 1 year
2024-09-27
SIP-AC3
MRTSUE06611 1 year
2024-07-14
SIP-AC3
MRTSUE06611 1 year
2025-07-07
SIP-AC3
MRTSUE06619 1 year
2024-10-28
SIP-AC3
MRTSUE06642 1 year
2025-01-11
SIP-AC3
MRTSUE06782 1 year
2024-12-21
SIP-AC3
MRTSUE06023 1 year
2024-08-09
WZ-AC1
MRTSUE06076 1 year
2024-11-09
WZ-AC1
MRTSUE06212 1 year
2024-04-20
WZ-AC1
MRTSUE06212 1 year
2025-04-19
WZ-AC1
MRTSUE11039 1 year
2024-10-25
WZ-AC1
MRTSUE06176 1 year
2024-05-07
WZ-AC2
MRTSUE06176 1 year
2025-05-06
WZ-AC2
MRTSUE06213 1 year
2024-04-20
WZ-AC2
MRTSUE06213 1 year
2025-04-18
WZ-AC2
MRTSUE11263 1 year
2024-11-07
WZ-AC2
MRTSUE06607 1 year
2024-10-23
WZ-AC2
MRTSUE06402 1 year
2024-05-31
WZ-SR5
MRTSUE06402 1 year
2025-05-12
WZ-SR5
MRTSUE06442 N/A
N/A
WZ-SR5
N9010B
MRTSUE06457 1 year
2024-05-23
WZ-SR5
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Signal Analyzer USB Power Sensor USB Power Sensor Attenuator Attenuator Attenuator Attenuator Signal Analyzer
Keysight Keysight Keysight MVE MVE MVE MVE Keysight
Signal Analyzer
Keysight
Temperature Chamber BAOYT
Thermohygrometer
testo
Shielding Room
MIX-BEP
Thermohygrometer
testo
Thermohygrometer
testo
Two-Line V-Network R&S
Two-Line V-Network R&S
EMI Test Receiver
R&S
Software EMI Software e3 Controller_MF 7802BS Controller_MF 7802 Controller_MF 7802 BenchVue Power Meter
N9010B U2021XA U2021XA MVE2213 MVE2213 MVE2213 MVE2213 N9010B
N9010B BYH-150CL 608-H1 WZ-SR2 608-H1 608-H1 ENV216 ENV216 ESR3
MRTSUE06457 1 year MRTSUE06446 1 year MRTSUE06446 1 year MRTSUE11092 1 year MRTSUE11092 1 year MRTSUE11087 1 year MRTSUE11087 1 year MRTSUE06457 1 year
MRTSUE06457 1 year MRTSUE06051 1 year MRTSUE11268 1 year MRTSUE06215 5 years MRTSUE06404 1 year MRTSUE06404 1 year MRTSUE06002 1 year MRTSUE06002 1 year MRTSUE06909 1 year
2025-05-08 2024-05-23 2025-05-08 2024-06-08 2025-06-05 2024-06-08 2025-06-05 2024-05-23
2025-05-08 2024-09-27 2024-12-14 2026-12-20 2025-05-12 2024-05-31 2025-05-08 2024-05-23 2024-09-27
WZ-SR5 WZ-SR5 WZ-SR5 WZ-SR5 WZ-SR5 WZ-SR5 WZ-SR5 WZ-SR5/WZ-TR3
WZ-SR5/WZ-TR3 WZ-TR3 WZ-TR3 WZ-SR2 WZ-SR2 WZ-SR2 WZ-SR2 WZ-SR2 WZ-SR2
Version V3.0.0 230711 1.02 2.03C 1.02 2018.1
Function EMI Test Software RE & CE RE Antenna & Turntable RE Antenna & Turntable RE Antenna & Turntable Power
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5. Decision Rules and Measurement Uncertainty
5.1. Decision Rules
The Decision Rule is based on Simple Acceptance in accordance with ISO Guide 98-4: 2012 Clause 8.2. (Measurement uncertainty is not taken into account when stating conformity with a specified requirement.)
5.2. Measurement Uncertainty
Where relevant, the following test uncertainty levels have been estimated for tests performed on the EUT as specified in CISPR 16-4-2. This uncertainty represents an expanded uncertainty expressed at approximately the 95% confidence level using a coverage factor of k = 2. AC Conducted Emission Measurement
The maximum measurement uncertainty is evaluated as: 9kHz~150kHz: 3.58dB 150kHz~30MHz: 3.20dB Radiated Emission Measurement The maximum measurement uncertainty is evaluated as: Coaxial: 9kHz~30MHz: 2.61dB Coplanar: 9kHz~30MHz: 2.62dB Horizontal: 30MHz~200MHz: 3.79dB
200MHz~1GHz: 3.91dB 1GHz~40GHz: 4.99dB Vertical: 30MHz~200MHz: 4.06dB 200MHz~1GHz: 5.21dB 1GHz~40GHz: 4.90dB Spurious Emissions, Conducted Measuring Uncertainty for a Level of Confidence of 95% (U=2Uc(y)): 2.2dB Output Power Measuring Uncertainty for a Level of Confidence of 95% (U=2Uc(y)): 1.4dB Power Spectrum Density Measuring Uncertainty for a Level of Confidence of 95% (U=2Uc(y)): 2.2dB Occupied Bandwidth Measuring Uncertainty for a Level of Confidence of 95% (U=2Uc(y)): 2.7%
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6. Test Result
6.1. Summary
FCC Section(s) 15.407(a)
Test Description 26dB Bandwidth
Test Condition Verdict Pass
15.407(e) 15.407(a)(3)(ii)
6dB Bandwidth Maximum Conducted Output Power
Conducted
Pass Pass
15.407(a)(3)(ii),(13)
Peak Power Spectral Density
Pass
15.407(b)(5)(i)
Undesirable Emissions
Pass
15.205, 15.209 15.407(b) (8), (9), (10)
General Field Strength Limits
Radiated
(Restricted Bands and Radiated Emission Limits)
Pass
15.207
AC Conducted Emissions 150kHz - 30MHz
Line Conducted Pass
Notes:
1. The analyzer plots shown in this section were all taken with a correction table loaded into the analyzer.
The correction table was used to account for the losses of the cables and attenuators used as part of the
system to connect the EUT to the analyzer at all frequencies of interest.
2. For radiated emission test, every axis (X, Y, Z) was also verified. The test results shown in the following
sections represent the worst-case emissions.
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6.2. 26dB & 99% Bandwidth Measurement 6.2.1. Test Limit N/A 6.2.2. Test Procedure KDB 789033 D02v02r01- Section II)C)1) (26dB Bandwidth) KDB 789033 D02v02r01- Section II)D) (99% Bandwidth) 6.2.3. Test Setting 26dB Bandwidth 1. The analyzers' automatic bandwidth measurement capability was used to perform the 26dB bandwidth 2. RBW = approximately 1% of the emission bandwidth. 3. VBW > RBW 4. Detector = Peak. 5. Trace mode = max hold. 6. Measure the maximum width of the emission that is 26 dB down from the maximum of the emission.
Compare this with the RBW setting of the analyzer. Readjust RBW and repeat measurement as needed until the RBW/EBW ratio is approximately 1%. 99% Bandwidth 1. Set center frequency to the nominal EUT channel center frequency. 2. RBW = 1% to 5% of the OBW 3. VBW 3 RBW 4. Span = 1.5 times to 5 times the OBW 5. Detector = peak 6. Trace mode = max hold 7. Allow the trace to stabilize 8. Use the 99% power bandwidth function of the instrument.
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6.2.4. Test Setup
6.2.5. Test Result Refer to Appendix A.2.
Report No.: 2403RSU068-U5
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6.3. 6dB Bandwidth Measurement 6.3.1. Test Limit The minimum 6dBbandwidth shall be at least 500 kHz. 6.3.2. Test Procedure KDB 789033 D02v02r01- Section II)C)2) 6.3.3. Test Setting 1. Set center frequency to the nominal EUT channel center frequency. 2. RBW = 100 kHz. 3. VBW 3 × RBW. 4. Detector = Peak. 5. Trace mode = max hold. 6. Sweep = auto couple. 7. Allow the trace to stabilize. 8. Measure the maximum width of the emission that is constrained by the frequencies associated with the
two outermost amplitude points (upper and lower frequencies) that are attenuated by 6 dB relative to the maximum level measured in the fundamental emission. 6.3.4. Test Setup
6.3.5. Test Result Refer to Appendix A.3.
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Report No.: 2403RSU068-U5 6.4. Output Power Measurement 6.4.1. Test Limit For an indoor access point operating in the 5.850-5.895 GHz band, the maximum e.i.r.p. over the frequency band of operation must not exceed 36 dBm. Indoor access points operating on a channel that spans the 5.725-5.850 GHz and 5.850-5.895 GHz bands must not exceed an e.i.r.p. of 36 dBm. 6.4.2. Test Procedure KDB 789033D02v02r01- Section II)E)3)b) Method PM-G 6.4.3. Test Setting Average Power Measurement Average power measurements were performed only when the EUT was transmitting at its maximum power control level using a broadband power meter with a pulse sensor. The power meter implemented triggering and gating capabilities which were set up such that power measurements were recorded only during the ON time of the transmitter. 6.4.4. Test Setup
6.4.5. Test Result Refer to Appendix A.4.
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6.5. Power Spectral Density Measurement 6.5.1. Test Limit For an indoor access point operating in the 5.850-5.895 GHz band, the maximum power spectral density must not exceed 20 dBm e.i.r.p. in any 1-megahertz band. 6.5.2. Test Procedure KDB 789033 D02v02r01-Section II)F) 6.5.3. Test Setting 1. Analyzer was set to the center frequency of the UNII channel under investigation 2. Span was set to encompass the entire 26dB EBW of the signal. 3. RBW = 1MHz 4. VBW = 3 × RBW 5. Number of sweep points 2 × (span / RBW) 6. Detector = power averaging (Average) 7. Sweep time = auto 8. Trigger = free run 9. Trace average at least 100 traces in power averaging (rms) mode; however, the number of traces to be
averaged shall be increased above 100 as needed to ensure that the average accurately represents the true average over the on and off periods of the transmitter. 10. Use the peak search function on the instrument to find the peak of the spectrum and record its value. 11. Add 10*log(1/x), where x is the duty cycle, to the measured power in order to compute the average power during the actual transmission times (because the measurement represents an average over both the on and off times of the transmission). For example, add 10*log(1/0.25) = 6 dB if the duty cycle is 25 percent.
6.5.4. Test Setup
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6.5.5. Test Result Refer to Appendix A.5.
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6.6. Frequency Stability Measurement 6.6.1. Test Limit Manufactures of U-NII devices are responsible for ensuring frequency stability such that an emission is maintained within the band of operation under all conditions of normal operation as specified in the user's manual. 6.6.2. Test Procedure Frequency Stability Under Temperature Variations: The equipment under test was connected to an external AC or DC power supply and input rated voltage. RF output was connected to a frequency counter or spectrum analyzer via feed through attenuators. The EUT was placed inside the temperature chamber. Set the spectrum analyzer RBW low enough to obtain the desired frequency resolution and measure EUT 20°C operating frequency as reference frequency. Turn EUT off and set the chamber temperature to highest. After the temperature stabilized for approximately 30 minutes recorded the frequency. Repeat step measure with 10°C decreased per stage until the lowest temperature reached. Frequency Stability Under Voltage Variations: Set chamber temperature to 20°C. Use a variable AC power supply / DC power source to power the EUT and set the voltage to rated voltage. Set the spectrum analyzer RBW low enough to obtain the desired frequency resolution and recorded the frequency. Reduce the input voltage to specify extreme voltage variation (±15%) and endpoint, record the maximum frequency change. 6.6.3. Test Setup
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6.6.4. Test Result Refer to Appendix A.6.
Report No.: 2403RSU068-U5
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6.7. Radiated Spurious Emission Measurement
6.7.1. Test Limit
All out of band emissions appearing in a restricted band as specified in Section 15.205 of the Title 47 CFR must not exceed the limits shown in Table per Section 15.209.
Frequency [MHz]
0.009 - 0.490 0.490 - 1.705
1.705 - 30 30 - 88 88 - 216
216 - 960 Above 960
FCC Part 15 Subpart C Paragraph 15.209 Field Strength [V/m] 2400/F (kHz) 24000/F (kHz) 30 100 150 200 500
Measured Distance [Meters] 300 30 30 3 3 3 3
6.7.2. Test Procedure KDB 789033 D02v02r01- Section II)G)
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6.7.3. Test Setting
Table 1 - RBW as a function of frequency
Frequency
RBW
9 ~ 150 kHz
200 ~ 300 Hz
0.15 ~ 30 MHz
9 ~ 10 kHz
30 ~ 1000 MHz
100 ~ 120 kHz
> 1000MHz
1MHz
Quasi-Peak Measurements below 1GHz 1. Analyzer center frequency was set to the frequency of the radiated spurious emission of interest 2. Span was set greater than 1MHz 3. RBW = as specified in Table 1 4. Detector = CISPR quasi-peak 5. Sweep time = auto couple 6. Trace was allowed to stabilize Peak Measurements above 1GHz 1. Analyzer center frequency was set to the frequency of the radiated spurious emission of interest 2. RBW = 1MHz 3. VBW = 3MHz 4. Detector = Peak 5. Sweep time = Auto couple 6. Trace mode = Max hold 7. Trace was allowed to stabilize
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Average Measurements above 1GHz (Method VB)
1. Analyzer center frequency was set to the frequency of the radiated spurious emission of interest
2. RBW = 1MHz
3. VBW; if the EUT is configured to transmit with duty cycle 98%, set VBW = 10Hz
If the EUT duty cycle is < 98%, set VBW 1/T. T is the minimum transmission duration.
802.11a
VBW = 510Hz
802.11ax-HE80
VBW = 2700Hz
802.11ac-VHT20
VBW = 560Hz
802.11ax-HE160
VBW = 4300Hz
802.11ac-VHT40
VBW = 1100Hz
802.11be-EHT20
VBW = 680Hz
802.11ac-VHT80
VBW = 2200Hz
802.11be-EHT40
VBW = 1300Hz
802.11ac-VHT160
VBW = 4300Hz
802.11be-EHT80
VBW = 2700Hz
802.11ax-HE20
VBW = 680Hz
802.11be-EHT160
VBW = 4300Hz
802.11ax-HE40
VBW = 1300Hz
--
--
4. As an alternative, the instrument may be set to linear detector mode. Ensure that video filtering is applied in linear voltage domain (rather than in a log or dB domain). Some instruments require linear display mode in order to accomplish this. Others have a setting for Average-VBW Type, which can be set to "Voltage" regardless of the display mode
5. Detector = Peak 6. Sweep time = Auto 7. Trace mode = Max hold 8. Trace was allowed to stabilize
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6.7.4. Test Setup Below 30MHz Test Setup:
Report No.: 2403RSU068-U5
Below 1GHz Test Setup:
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Above 1GHz Test Setup:
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6.7.5. Test Result Refer to Appendix A.7.
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6.8. Radiated Band Edge Measurement 6.8.1. Test Limit For 15.407(b) requirement: For transmitters operating solely in the 5.850-5.895 GHz band or operating on a channel that spans across 5.725-5.895 GHz: For an indoor access point, all emissions at or above 5.895GHz 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 5.925GHz. 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. E [dBµV/m] = EIRP [dBm] + 95.2, for example, -27 dBm/MHz = 68.2 dBµV/m
6.8.2. Test Procedure KDB 789033 D02v02r01- Section G
6.8.3. Test Setting Peak Measurements above 1GHz 1. Analyzer center frequency was set to the frequency of the radiated spurious emission of interest 2. RBW = 1MHz 3. VBW = 3MHz 4. Detector = Peak 5. Sweep time = Auto couple 6. Trace mode = Max hold 7. Trace was allowed to stabilize
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Average Measurements above 1GHz (Method VB)
1. Analyzer center frequency was set to the frequency of the radiated spurious emission of interest
2. RBW = 1MHz
3. VBW; if the EUT is configured to transmit with duty cycle 98%, set VBW = 10Hz
If the EUT duty cycle is < 98%, set VBW 1/T. T is the minimum transmission duration.
802.11a
VBW = 510Hz
802.11ax-HE80
VBW = 2700Hz
802.11ac-VHT20
VBW = 560Hz
802.11ax-HE160
VBW = 4300Hz
802.11ac-VHT40
VBW = 1100Hz
802.11be-EHT20
VBW = 680Hz
802.11ac-VHT80
VBW = 2200Hz
802.11be-EHT40
VBW = 1300Hz
802.11ac-VHT160
VBW = 4300Hz
802.11be-EHT80
VBW = 2700Hz
802.11ax-HE20
VBW = 680Hz
802.11be-EHT160
VBW = 4300Hz
802.11ax-HE40
VBW = 1300Hz
--
--
4. As an alternative, the instrument may be set to linear detector mode. Ensure that video filtering is applied in linear voltage domain (rather than in a log or dB domain). Some instruments require linear display mode in order to accomplish this. Others have a setting for Average-VBW Type, which can be set to "Voltage" regardless of the display mode
5. Detector = Peak 6. Sweep time = Auto 7. Trace mode = Max hold 8. Trace was allowed to stabilize
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6.8.4. Test Setup
Report No.: 2403RSU068-U5
6.8.5. Test Result Refer to Appendix A.8.
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6.9. AC Conducted Emissions Measurement 6.9.1. Test Limit
FCC Part 15.207 Limits
Frequency (MHz)
QP (dBV)
AV (dBV)
0.15 - 0.50
66 - 56
56 - 46
0.50 - 5.0
56
46
5.0 - 30
60
50
Note 1: The lower limit shall apply at the transition frequencies. Note 2: The limit decreases linearly with the logarithm of the frequency in the range 0.15MHz to 0.5MHz.
6.9.2. Test Setup
6.9.3. Test Result Refer to Appendix A.9.
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Appendix A Test Result
A.1 Duty Cycle Test Result
Test Site Test Date
WZ-SR5 2024-05-21
Test Engineer
Jeff Yang
Test Mode
Duty Cycle
Test Mode
Duty Cycle
802.11a
97.80%
802.11ax-HE80
95.44%
802.11ac-VHT20
97.70%
802.11ax-HE160
96.75%
802.11ac-VHT40
97.40%
802.11be-EHT20
97.64%
802.11ac-VHT80
95.67%
802.11be-EHT40
97.61%
802.11ac-VHT160
96.74%
802.11be-EHT80
97.59%
802.11ax-HE20
98.06%
802.11be-EHT160
97.93%
802.11ax-HE40
97.79%
--
--
Duty Cycle (T = Transmission Duration)
802.11a (T = 5.325ms)
802.11ac-VHT20 (T = 4.680ms)
802.11ac-VHT40 (T = 4.500ms)
802.11ac-VHT80 (T = 2.674ms)
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Duty Cycle (T = Transmission Duration)
802.11ac-VHT160 (T = 3.560ms)
802.11ax-HE20 (T = 1.520ms)
802.11ax-HE40 (T = 5.310ms)
802.11ax-HE80 (T = 2.682ms)
802.11ax-HE160 (T = 3.570ms)
802.11be-EHT20 (T = 1.445ms)
802.11be-EHT40 (T = 1.430ms)
802.11be-EHT80 (T = 1.415ms)
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Report No.: 2403RSU068-U5 Duty Cycle (T = Transmission Duration) 802.11be-EHT160 (T = 1.420ms)
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A.2 26dB & 99% Bandwidth Test Result
Test Site Test Date
WZ-SR5 2024-05-22
Test Mode
Data Rate/ Channel No. MCS
11a
6Mbps
169
11a
6Mbps
173
11a
6Mbps
177
11ac-VHT20
MCS0
169
11ac-VHT20
MCS0
173
11ac-VHT20
MCS0
177
11ac-VHT40
MCS0
167
11ac-VHT40
MCS0
175
11ac-VHT80
MCS0
171
11ac-VHT160 MCS0
163
11ax-HE20
MCS0
169
11ax-HE20
MCS0
173
11ax-HE20
MCS0
177
11ax-HE40
MCS0
167
11ax-HE40
MCS0
175
11ax-HE80
MCS0
171
11ax-HE160
MCS0
163
11be-EHT20
MCS0
169
11be-EHT20
MCS0
173
11be-EHT20
MCS0
177
11be-EHT40
MCS0
167
11be-EHT40
MCS0
175
11be-EHT80
MCS0
171
11be-EHT160 MCS0
163
Report No.: 2403RSU068-U5
Test Engineer
Jeff Yang
Frequency (MHz)
5845 5865 5885 5845 5865 5885 5835 5875 5855 5815 5845 5865 5885 5835 5875 5855 5815 5845 5865 5885 5835 5875 5855 5815
99% Bandwidth (MHz) 16.730 16.674 16.709 17.905 17.854 17.894 36.350 36.273 75.515 153.780 19.100 19.052 19.097 37.789 37.667 76.977 155.790 19.041 19.119 19.096 37.760 37.692 77.059 155.920
26dB Bandwidth (MHz)
21.57 20.89 21.15 21.72 21.33 21.30 39.81 39.82 81.20 163.10 21.83 21.51 21.60 40.31 40.32 81.11 163.50 21.59 21.65 21.38 40.59 41.00 81.17 163.50
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802.11a 26dB & 99% Bandwidth
Channel 169 (5845MHz)
Channel 173 (5865MHz)
Channel 177 (5885MHz)
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802.11ac-VHT20 26dB & 99% Bandwidth
Channel 169 (5845MHz)
Channel 173 (5865MHz)
Channel 177 (5885MHz)
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802.11ac-VHT40 26dB & 99% Bandwidth
Channel 167 (5835MHz)
Channel 175(5875MHz)
802.11ac-VHT80 26dB & 99% Bandwidth Channel 171 (5855MHz)
802.11ac-VHT160 26dB & 99% Bandwidth Channel 163 (5815MHz)
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802.11ax-HE20 26dB & 99% Bandwidth
Channel 169 (5845MHz)
Channel 173 (5865MHz)
Channel 177 (5885MHz)
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802.11ax-HE40 26dB & 99% Bandwidth
Channel 167 (5835MHz)
Channel 175(5875MHz)
802.11ax-HE80 26dB & 99% Bandwidth Channel 171 (5855MHz)
802.11ax-HE160 26dB & 99% Bandwidth Channel 163 (5815MHz)
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802.11be-EHT20 26dB & 99% Bandwidth
Channel 169 (5845MHz)
Channel 173 (5865MHz)
Channel 177 (5885MHz)
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802.11be-EHT40 26dB & 99% Bandwidth
Channel 167 (5835MHz)
Channel 175(5875MHz)
802.11be-EHT80 26dB & 99% Bandwidth Channel 171 (5855MHz)
802.11be-EHT160 26dB & 99% Bandwidth Channel 163 (5815MHz)
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A.3 6dB Bandwidth Test Result
Test Site Test Date
WZ-SR5 2024-05-22
Test Engineer
Jeff Yang
Test Mode
11a 11a 11a 11ac-VHT20 11ac-VHT20 11ac-VHT20 11ac-VHT40 11ac-VHT40 11ac-VHT80 11ac-VHT160 11ax-HE20 11ax-HE20 11ax-HE20 11ax-HE40 11ax-HE40 11ax-HE80 11ax-HE160 11be-EHT20 11be-EHT20 11be-EHT20 11be-EHT40 11be-EHT40 11be-EHT80 11be-EHT160
Data Rate/ MCS 6Mbps 6Mbps 6Mbps MCS0 MCS0 MCS0 MCS0 MCS0 MCS0 MCS0 MCS0 MCS0 MCS0 MCS0 MCS0 MCS0 MCS0 MCS0 MCS0 MCS0 MCS0 MCS0 MCS0 MCS0
Channel No.
169 173 177 169 173 177 167 175 171 163 169 173 177 167 175 171 163 169 173 177 167 175 171 163
Frequency (MHz) 5845 5865 5885 5845 5865 5885 5835 5875 5855 5815 5845 5865 5885 5835 5875 5855 5815 5845 5865 5885 5835 5875 5855 5815
6dB Bandwidth (MHz) 16.41 16.38 16.41 17.64 17.67 17.61 36.39 35.78 75.78 155.3 19.02 18.93 18.87 37.89 37.81 77.05 156.5 19.00 18.99 19.06 37.95 37.76 77.09 156.5
Limit (MHz) 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5
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802.11a 6dB Bandwidth
Channel 169 (5845MHz)
Channel 173 (5865MHz)
Channel 177 (5885MHz)
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802.11ac-VHT20 6dB Bandwidth
Channel 169 (5845MHz)
Channel 173 (5865MHz)
Channel 177 (5885MHz)
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802.11ac-VHT40 6dB Bandwidth
Channel 167 (5835MHz)
Channel 175(5875MHz)
802.11ac-VHT80 6dB Bandwidth Channel 171 (5855MHz)
802.11ac-VHT160 6dB Bandwidth Channel 163 (5815MHz)
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802.11ax-HE20 6dB Bandwidth
Channel 169 (5845MHz)
Channel 173 (5865MHz)
Channel 177 (5885MHz)
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802.11ax-HE40 6dB Bandwidth
Channel 167 (5835MHz)
Channel 175(5875MHz)
802.11ax-HE80 6dB Bandwidth Channel 171 (5855MHz)
802.11ax-HE160 6dB Bandwidth Channel 163 (5815MHz)
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802.11be-EHT20 6dB Bandwidth
Channel 169 (5845MHz)
Channel 173 (5865MHz)
Channel 177 (5885MHz)
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802.11be-EHT40 6dB Bandwidth
Channel 167 (5835MHz)
Channel 175(5875MHz)
802.11be-EHT80 6dB Bandwidth Channel 171 (5855MHz)
802.11be-EHT160 6dB Bandwidth Channel 163 (5815MHz)
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A.4 Output Power Test Result
Test Site Test Date
WZ-SR5 2024-06-26
Report No.: 2403RSU068-U5
Test Engineer
Lynn Yang
Test Mode
Data Channel Freq.
Average Power
Total Antenna EIRP EIRP Limit
Rate No. (MHz)
(dBm)
Average Gain (dBm) (dBm)
MCS
Ant 1 Ant 2 Ant 3 Ant 4 Power (dBi)
(dBm)
11a
6Mbps 169 5845 15.45 15.80 15.86 15.53 21.68 3.60 25.28 36.00
11a
6Mbps 173 5865 15.73 15.55 15.91 15.63 21.73 3.60 25.33 36.00
11a
6Mbps 177 5885 15.59 15.09 15.53 14.96 21.32 3.60 24.92 36.00
11ac-VHT20 MCS0 169 11ac-VHT20 MCS0 173 11ac-VHT20 MCS0 177
5845 5865 5885
16.06 16.21 16.46 16.25 15.93 16.15 16.21 16.00 15.65 15.28 15.83 15.53
22.27 22.09 21.60
3.60 25.87 36.00 3.60 25.69 36.00 3.60 25.20 36.00
11ac-VHT40 MCS0 167 11ac-VHT40 MCS0 175
5835 18.37 18.36 18.32 18.06 24.30 5875 18.29 17.89 18.02 17.66 23.99
3.60 27.90 36.00 3.60 27.59 36.00
11ac-VHT80 MCS0 171 5855 18.12 18.25 18.40 18.15 24.25 3.60 27.85 36.00
11ac-VHT160 MCS0 163 5815 15.13 15.05 15.16 14.87 21.07 3.60 24.67 36.00
11ax-HE20 MCS0 169 11ax-HE20 MCS0 173 11ax-HE20 MCS0 177 11ax-HE40 MCS0 167 11ax-HE40 MCS0 175
5845 5865 5885 5835 5875
16.37 16.62 16.75 16.29 15.85 15.88 16.05 15.95 15.95 15.62 15.95 15.45 18.18 18.23 18.30 18.36 18.48 18.10 18.26 17.76
22.53 21.95 21.77 24.29 24.18
3.60 26.13 36.00 3.60 25.55 36.00 3.60 25.37 36.00 3.60 27.89 36.00 3.60 27.78 36.00
11ax-HE80 MCS0 171 5855 18.16 18.24 18.27 17.95 24.18 3.60 27.78 36.00
11ax-HE160 MCS0 163 5815 18.08 18.16 18.12 17.78 24.06 3.60 27.66 36.00
11be-EHT20 MCS0 169 11be-EHT20 MCS0 173 11be-EHT20 MCS0 177 11be-EHT40 MCS0 167 11be-EHT40 MCS0 175
5845 5865 5885 5835 5875
16.18 16.46 16.58 16.35 16.23 16.05 16.30 15.93 15.98 15.68 15.88 15.76 18.43 18.47 18.35 18.08 18.48 18.05 18.29 17.88
22.42 22.15 21.85 24.36 24.20
3.60 26.02 36.00 3.60 25.75 36.00 3.60 25.45 36.00 3.60 27.96 36.00 3.60 27.80 36.00
11be-EHT80 MCS0 171 5855 18.06 18.22 18.43 18.01 24.20 3.60 27.80 36.00
11be-EHT160 MCS0 163 5815 17.59 17.33 17.30 17.16 23.37 3.60 26.97 36.00 Note 1: Total Average Power (dBm) = 10*log {10(Ant 1 Average Power /10) + 10(Ant 2 Average Power /10) + 10(Ant 3 Average Power /10) + 10(Ant 4 Average Power /10)} (dBm).
Note 2: EIRP (dBm) = Total Average Power (dBm) + Uncorrelated Gain (dBi).
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A.5 Power Spectral Density Test Result
Test Site
WZ-SR5
Test Engineer
Test Date
2024-05-22 ~ 2024-05-23
Report No.: 2403RSU068-U5 Jeff Yang
Test Mode Data Rate/ Channel Freq.
AVGPSD
Duty Total EIRP EIRP
MCS No. (MHz)
(dBm/MHz)
Cycle PSD PSD
PSD
Ant 1 Ant 2 Ant 3 Ant 4 (%) (dBm/ (dBm/
Limit
MHz) MHz) (dBm/MHz)
11a
6Mbps 169 5845 3.954 4.098 4.216 3.683 97.80 10.11 19.61 20.00
11a
6Mbps 173 5865 4.274 4.041 4.437 4.039 97.80 10.32 19.82 20.00
11a
6Mbps 177 5885 4.138 3.791 4.157 3.765 97.80 10.08 19.58 20.00
11ac-VHT20 MCS0 169 5845 3.992 4.101 4.266 3.993 97.70 10.21 19.71 20.00
11ac-VHT20 MCS0 173 5865 4.193 4.003 4.229 4.026 97.70 10.24 19.74 20.00
11ac-VHT20 MCS0 177 5885 4.446 4.097 4.190 4.186 97.70 10.35 19.85 20.00
11ac-VHT40 MCS0 167 5835 3.318 3.409 3.595 3.068 97.40 9.49 18.99 20.00
11ac-VHT40 MCS0 175 5875 3.928 3.511 3.570 3.422 97.40 9.75 19.25 20.00
11ac-VHT80 MCS0 171 5855 0.345 0.646 0.672 0.491 95.67 6.75 16.25 20.00
11ac-VHT160 MCS0 163 5815 -5.549 -5.656 -5.756 -5.980 96.74 0.43 9.93 20.00
11ax-HE20 MCS0 169 5845 4.082 4.138 4.436 4.112 98.06 10.21 19.71 20.00
11ax-HE20 MCS0 173 5865 4.024 3.991 3.921 3.708 98.06 9.93 19.43 20.00
11ax-HE20 MCS0 177 5885 4.253 3.862 4.297 3.977 98.06 10.12 19.62 20.00
11ax-HE40 MCS0 167 5835 2.729 2.871 2.886 2.734 97.79 8.92 18.42 20.00
11ax-HE40 MCS0 175 5875 3.897 3.655 3.594 3.631 97.79 9.81 19.31 20.00
11ax-HE80 MCS0 171 5855 0.645 0.505 0.856 0.485 95.44 6.85 16.35 20.00
11ax-HE160 MCS0 163 5815 -2.133 -2.209 -2.415 -1.914 96.75 4.00 13.50 20.00
11be-EHT20 MCS0 169 5845 4.174 4.187 4.262 3.995 97.64 10.28 19.78 20.00
11be-EHT20 MCS0 173 5865 4.162 4.173 4.098 4.133 97.64 10.27 19.77 20.00
11be-EHT20 MCS0 177 5885 4.324 3.877 4.049 4.062 97.64 10.21 19.71 20.00
11be-EHT40 MCS0 167 5835 3.245 3.196 3.217 2.756 97.61 9.23 18.73 20.00
11be-EHT40 MCS0 175 5875 3.926 3.558 3.554 3.447 97.61 9.75 19.25 20.00
11be-EHT80 MCS0 171 5855 0.583 0.346 0.688 0.260 97.59 6.60 16.10 20.00
11be-EHT160 MCS0 163 5815 -2.864 -2.938 -3.433 -3.191 97.93 3.01 12.51 20.00
Note 1: When EUT duty cycle < 98%, the total PSD (dBm/MHz) =10*log {10(Ant 1 AVGPSD/10) + 10(Ant 2 AVGPSD/10) +
10(Ant 3 AVGPSD/10) + 10(Ant 4 AVGPSD/10)} (dBm/MHz) +10*log (1/Duty cycle). When EUT duty cycle 98%, the total PSD (dBm/MHz) =10*log {10(Ant 1 AVGPSD/10) + 10(Ant 2 AVGPSD/10) + 10(Ant 3
AVGPSD/10) + 10(Ant 4 AVGPSD/10)} (dBm/MHz).
Note 2: EIRP PSD (dBm/MHz) = Total PSD (dBm/MHz) + Correlated Gain (dBi).
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Report No.: 2403RSU068-U5 Note 3: For Channels span the 5.725-5.850 GHz and 5.850-5.895 GHz bands, we record the maximum level of 5.725-5.850 GHz and 5.850-5.895 GHz with RBW=1MHz, and the level complied with the 5.850-5.895 GHz EIRP PSD Limit.
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