High Power AC2200 Tri-Band Wi-Fi Router Test Report Amped Wireless

Amped Wireless High Power AC2200 Tri-Band Wi-Fi Router

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Document DescriptionRF Report NII
Document TypeTest Report
Date Submitted2017-01-10 00:00:00
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FCC Test Report Report No. : FR6N0915-01AB
SPORTON INTERNATIONAL INC. Page No. : 2 of 33
TEL : 886-3-3273456 Report Version : Rev. 01
FAX : 886-3-3270973 Issued Date : Jan. 09, 2017
FCC ID: ZTT-RTA2200T
Table of Contents
1 GENERAL DESCRIPTION ....................................................................................................................5
1.1 Information..............................................................................................................................................5
1.2 Testing Applied Standards .....................................................................................................................8
1.3 Testing Location Information..................................................................................................................8
1.4 Measurement Uncertainty ......................................................................................................................8
2 TEST CONFIGURATION OF EUT ........................................................................................................9
2.1 Test Channel Mode ................................................................................................................................9
2.2 The Worst Case Measurement Configuration......................................................................................10
2.3 EUT Operation during Test ..................................................................................................................11
2.4 Accessories ..........................................................................................................................................12
2.5 Support Equipment...............................................................................................................................12
2.6 Test Setup Diagram .............................................................................................................................14
3 TRANSMITTER TEST RESULT..........................................................................................................18
3.1 AC Power-line Conducted Emissions ..................................................................................................18
3.2 Emission Bandwidth .............................................................................................................................20
3.3 Maximum Conducted Output Power ....................................................................................................21
3.4 Peak Power Spectral Density...............................................................................................................23
3.5 Unwanted Emissions............................................................................................................................26
3.6 Frequency Stability...............................................................................................................................30
4 TEST EQUIPMENT AND CALIBRATION DATA................................................................................32
APPENDIX A. TEST RESULTS OF AC POWER-LINE CONDUCTED EMISSIONS
APPENDIX B. TEST RESULTS OF EMISSION BANDWIDTH
APPENDIX C. TEST RESULTS OF MAXIMUM CONDUCTED OUTPUT POWER
APPENDIX D. TEST RESULTS OF PEAK POWER SPECTRAL DENSITY
APPENDIX E. TEST RESULTS OF UNWANTED EMISSIONS
APPENDIX F. TEST RESULTS OF FREQUENCY STABILITY
APPENDIX G. TEST RESULTS OF RADIATED EMISSION CO-LOCATION
APPENDIX H. TEST PHOTOS
FCC Test Report Report No. : FR6N0915-01AB
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Summary of Test Result
Conformance Test Specifications
Report
Clause
Ref. Std.
Clause Description Result
1.1.2 15.203 Antenna Requirement Complied
3.1 15.207 AC Power-line Conducted Emissions Complied
3.2 15.407(a) Emission Bandwidth Complied
3.3 15.407(a) Maximum Conducted Output Power Complied
3.4 15.407(a) Peak Power Spectral Density Complied
3.5 15.407(b) Unwanted Emissions Complied
3.6 15.407(g) Frequency Stability Complied
FCC Test Report Report No. : FR6N0915-01AB
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TEL : 886-3-3273456 Report Version : Rev. 01
FAX : 886-3-3270973 Issued Date : Jan. 09, 2017
FCC ID: ZTT-RTA2200T
Revision History
Report No. Version Description Issued Date
FR6N0915-01AB Rev. 01 Initial issue of report Jan. 09, 2017
FCC Test Report Report No. : FR6N0915-01AB
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TEL : 886-3-3273456 Report Version : Rev. 01
FAX : 886-3-3270973 Issued Date : Jan. 09, 2017
FCC ID: ZTT-RTA2200T
1 General Description
1.1 Information
1.1.1 RF General Information
Frequency Range (MHz) IEEE Std. 802.11 Ch. Frequency (MHz) Channel Number
5150-5250 a, n (HT20), ac (VHT20) 5180-5240 36-48 [4]
5725-5850 5745-5825 149-165 [5]
5150-5250 n (HT40), ac (VHT40) 5190-5230 38-46 [2]
5725-5850 5755-5795 151-159 [2]
5150-5250 ac (VHT80) 5210 42 [1]
5725-5850 5775 155 [1]
Band Mode BWch (MHz) Nant
5.2G 11a 20 2
5.2G HT20 20 2
5.2G HT20,BF 20 2
5.2G VHT20 20 2
5.2G VHT20,BF 20 2
5.2G HT40 40 2
5.2G HT40,BF 40 2
5.2G VHT40 40 2
5.2G VHT40,BF 40 2
5.2G VHT80 80 2
5.2G VHT80,BF 80 2
5.8G 11a 20 2
5.8G HT20 20 2
5.8G HT20,BF 20 2
5.8G VHT20 20 2
5.8G VHT20,BF 20 2
5.8G HT40 40 2
5.8G HT40,BF 40 2
5.8G VHT40 40 2
5.8G VHT40,BF 40 2
5.8G VHT80 80 2
5.8G VHT80,BF 80 2
FCC Test Report Report No. : FR6N0915-01AB
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Note:
 5.2G/5.2G-I(IC) is the 5.2GHz Band (5.15-5.25GHz).
 5.8G/5.8G-I(IC) is the 5.8GHz Band (5.725-5.850GHz).
 11a, HT20 and HT40 use a combination of OFDM-BPSK, QPSK, 16QAM, 64QAM modulation.
 VHT20, VHT40, VHT80 use a combination of OFDM-BPSK, QPSK, 16QAM, 64QAM, 256QAM,
modulation.
 BWch is the nominal channel bandwidth.
 Nss-Min is the minimum number of spatial streams.
 Nant is the number of outputs. e.g., 2(2,3) means have 2 outputs for port 2 and port 3. 2 means have 2
outputs for port 1 and port 2.
1.1.2 Antenna Information
Ant. Brand Model Name
(Product number)
Antenna
Type Connector Gain (dBi)
1 Cortec AN2450-5010BRS Dipole Antenna Reversed-SMA
2 Cortec AN2450-5010BRS Dipole Antenna Reversed-SMA
3 LYNwave
ALA110-091021-000000 PIFA Antenna I-PEX
4 Cortec AN2450-5010BRS Dipole Antenna Reversed-SMA
Note 1
Note1:
Gain (dBi) Cable loss True Gain (dBi)
Ant.
2.4GHz 5GHz
Band 1
5GHz
Band 4 2.4GHz 5GHz
Band 1
5GHz
Band 4 2.4GHz 5GHz
Band 1
5GHz
Band 4
1 5.03 5.59 - 0.8 1.3 - 4.23 4.29 -
2 5.03 5.59 - 0.8 1.3 - 4.23 4.29 -
3 - - 2 - - 1.3 - - 0.7
4 - - 5.59
- -
1.3 - - 4.29
Note2:
These two radios will be operated in different bands. Radio 1 supports WLAN 2.4GHz/5GHz Band 1 function
and Radio 2 supports WLAN 5GHz Band 4 function only.
Chain 1 connect Ant. 1, Chain 2 connect Ant. 2, Chain 3 connect Ant. 3 and Chain 4 connect Ant. 4.
For Radio 1:
<For 2.4GHz Function>
For IEEE 802.11b/g/n mode (2TX, 2RX):
Chain 1(Port 1) and Chain 2(Port 2) can be used as transmitting/receiving antenna.
Chain 1(Port 1) and Chain 2(Port 2) could transmit/receive simultaneously.
<For 5GHz Band 1 Function>
For IEEE 802.11a/n/ac mode (2TX/2RX):
Chain 1(Port 1) and Chain 2(Port 2) can be used as transmitting/receiving antenna.
Chain 1(Port 1) and Chain 2(Port 2) could transmit/receive simultaneously.
FCC Test Report Report No. : FR6N0915-01AB
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TEL : 886-3-3273456 Report Version : Rev. 01
FAX : 886-3-3270973 Issued Date : Jan. 09, 2017
FCC ID: ZTT-RTA2200T
For Radio 2:
<For 5GHz Band 4 Function>
For IEEE 802.11a/n/ac mode (2TX/2RX):
Chain 3(Port 1) and Chain 4(Port 2) can be used as transmitting/receiving antenna.
Chain 3(Port 1) and Chain 4(Port 2) could transmit/receive simultaneously.
1.1.3 Mode Test Duty Cycle
Mode DC T(s) VBW(Hz) 1/T
11a 0.994 n/a (DC>=0.98) n/a (DC>=0.98)
VHT20 1 n/a (DC>=0.98) n/a (DC>=0.98)
VHT20,BF 0.94 1.748m 1k
VHT40 0.969 2.433m 1k
VHT40,BF 0.867 1.665m 1k
VHT80 0.93 1.148m 1k
VHT80,BF 0.9 1.923m 1k
1.1.4 EUT Operational Condition
EUT Power Type From Power Adapter
Beamforming Function With beamforming for 802.11n/ac in 5GHz. Without beamforming
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1.2 Testing Applied Standards
According to the specifications of the manufacturer, the EUT must comply with the requirements of the
following standards:
 47 CFR FCC Part 15
 ANSI C63.10-2013
 FCC KDB 789033 D02 v01r03
 FCC KDB 644545 D03 v01
 FCC KDB 662911 D01 v02r01
1.3 Testing Location Information
Testing Location
HWA YA ADD : No. 52, Hwa Ya 1st Rd., Kwei-Shan Hsiang, Tao Yuan Hsien, Taiwan, R.O.C.
TEL : 886-3-327-3456 FAX : 886-3-318-0055
JHUBEI ADD : No.8, Lane 724, Bo-ai St., Jhubei City, HsinChu County 302, Taiwan, R.O.C.
TEL : 886-3-656-9065 FAX : 886-3-656-9085
Test Condition Test Site No. Test Engineer Test Environment Test Date
RF Conducted TH01-CB Serway Li 22°C / 54% Nov. 19, 2016~
Dec. 12, 2016
Radiated 03CH01-CB
Mars Lin & Zero Chen &
Stim Sung & Jay Luo 22°C / 54% Nov. 13, 2016~
Dec. 13, 2016
AC Conduction CO01-CB Edison Lin 23°C / 60% Nov. 15, 2016
Test site Designation No. TW0006 with FCC
Test site registered number IC 4086D with Industry Canada.
1.4 Measurement Uncertainty
ISO/IEC 17025 requires that an estimate of the measurement uncertainties associated with the emissions test
results be included in the report. The measurement uncertainties given below are based on a 95% confidence
level (based on a coverage factor (k=2)
Test Items Uncertainty Remark
Conducted Emission (150kHz ~ 30MHz) 3.2 dB Confidence levels of 95%
Radiated Emission (30MHz ~ 1,000MHz) 3.6 dB Confidence levels of 95%
Radiated Emission (1GHz ~ 18GHz) 3.7 dB Confidence levels of 95%
Radiated Emission (18GHz ~ 40GHz) 3.5 dB Confidence levels of 95%
Conducted Emission 1.7 dB Confidence levels of 95%
Output Power Measurement 1.33 dB Confidence levels of 95%
Power Density Measurement 1.27 dB Confidence levels of 95%
Bandwidth Measurement 9.74 x10-8 Confidence levels of 95%
Frequency Stability 6.06 x10-8 Confidence levels of 95%
FCC Test Report Report No. : FR6N0915-01AB
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FAX : 886-3-3270973 Issued Date : Jan. 09, 2017
FCC ID: ZTT-RTA2200T
2 Test Configuration of EUT
2.1 Test Channel Mode
Band Mode
BWch
(MHz) Nss-Min Nant Ch.
(MHz) Range Power
Setting
5.2G 11a 20 1 2 5180 L 24
5.2G 11a 20 1 2 5200 M 23.5
5.2G 11a 20 1 2 5240 H 23.5
5.8G 11a 20 1 2 5745 L 18
5.8G 11a 20 1 2 5785 M 18
5.8G 11a 20 1 2 5825 H 18
5.2G VHT20 20 1,(M0) 2 5180 L 23
5.2G VHT20 20 1,(M0) 2 5200 M 23
5.2G VHT20 20 1,(M0) 2 5240 H 23.5
5.8G VHT20 20 1,(M0) 2 5745 L 19
5.8G VHT20 20 1,(M0) 2 5785 M 19
5.8G VHT20 20 1,(M0) 2 5825 H 18
5.2G VHT40 40 1,(M0) 2 5190 L 18.5
5.2G VHT40 40 1,(M0) 2 5230 H 24
5.8G VHT40 40 1,(M0) 2 5755 L 20
5.8G VHT40 40 1,(M0) 2 5795 H 19
5.2G VHT80 80 1,(M0) 2 5210 S 18.5
5.8G VHT80 80 1,(M0) 2 5775 S 22
5.2G VHT20,BF 20 1,(M0) 2 5180 L 24
5.2G VHT20,BF 20 1,(M0) 2 5200 M 24
5.2G VHT20,BF 20 1,(M0) 2 5240 H 24
5.8G VHT20,BF 20 1,(M0) 2 5745 L 23
5.8G VHT20,BF 20 1,(M0) 2 5785 M 23
5.8G VHT20,BF 20 1,(M0) 2 5825 H 23
5.2G VHT40,BF 40 1,(M0) 2 5190 L 22
5.2G VHT40,BF 40 1,(M0) 2 5230 H 24
5.8G VHT40,BF 40 1,(M0) 2 5755 L 23
5.8G VHT40,BF 40 1,(M0) 2 5795 H 24
5.2G VHT80,BF 80 1,(M0) 2 5210 S 21
5.8G VHT80,BF 80 1,(M0) 2 5775 S 23
Note:
 Test range channel consist of L (Low Ch.), M (Middle Ch.), H (High Ch.), S (Single Ch.) and C (Straddle
Band Ch.).
 VHT20/VHT40 covers HT20/HT40, due to same modulation. The power setting for 802.11n HT20 and
HT40 are the same or lower than 802.11ac VHT20 and VHT40.
 There are two modes of EUT, one is beamforming mode, and the other is non-beamforming mode for
802.11n/ac in 5GHz, Beamforming mode and non-beamforming mode has been test and record in this
test report.
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2.2 The Worst Case Measurement Configuration
The Worst Case Mode for Following Conformance Tests
Tests Item AC power-line conducted emissions
Condition AC power-line conducted measurement for line and neutral
Operating Mode Normal Link
1 EUT + Adapter
The Worst Case Mode for Following Conformance Tests
Tests Item Emission Bandwidth
Maximum Conducted Output Power
Peak Power Spectral Density
Frequency Stability
Test Condition Conducted measurement at transmit chains
The Worst Case Mode for Following Conformance Tests
Tests Item Unwanted Emissions
Test Condition Radiated measurement
If EUT consist of multiple antenna assembly (multiple antenna are used in EUT
regardless of spatial multiplexing MIMO configuration), the radiated test should
be performed with highest antenna gain of each antenna type.
Operating Mode < 1GHz Normal Link
1 Place EUT in X axis + Adapter
2 Place EUT in Z axis + Adapter
For operating mode 2 is the worst case and it was record in this test report.
Operating Mode > 1GHz CTX
The EUT was performed at X axis and Z axis position, and the worst case was found at X axis. So the
measurement will follow this same test configuration.
1 Place EUT in X axis + Adapter
The Worst Case Mode for Following Conformance Tests
Tests Item Simultaneous Transmission Analysis
Test Condition Radiated measurement
Operating Mode Normal Link
1 Place EUT in X axis – Radio 1 (2.4GHz) + Radio 1 (5GHz band 1) + Radio 2
(5GHz band 4)
2 Place EUT in Z axis – Radio 1 (2.4GHz) + Radio 1 (5GHz band 1) + Radio 2
(5GHz band 4)
For operating mode 2 is the worst case and it was record in this test report.
Refer to Sporton Test Report No.: FA6N0915-01 for Co-location RF Exposure Evaluation and Appendix G for
Radiated Emission Co-location.
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2.3 EUT Operation during Test
For CTX Mode:
non-beamforming mode:
The EUT was programmed to be in continuously transmitting mode.
beamforming mode:
For Conducted Mode:
The EUT was programmed to be in continuously transmitting mode.
For Radiated Mode:
During the test, the following programs under WIN XP were executed.
The program was executed as follows:
1. During the test, the EUT operation to normal function.
2. Executed command fixed test channel under Telnet.
3. Executed "Lantest.exe" to link with the remote workstation to receive and transmit packet by RX Device
and transmit duty cycle no less 98%
For Normal Link:
During the test, the EUT operation to normal function.
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2.4 Accessories
Accessories
Equipment
Name
Brand
Name
Model
Name Rating
Adapter DVE DSA-36PFH-12 FUS 120300AN INPUT: 100-240V~50/60Hz 1A
OUTPUT: 12V, 3A
Other
Pedestal*1
2.5 Support Equipment
For Test Site No: CO01-CB
Support Equipment
No. Equipment Brand Name Model Name FCC ID
1 Notebook DELL E6430 DoC
2 Notebook DELL E6430 DoC
3 Notebook DELL E6430 DoC
4 Notebook DELL E6430 DoC
5 Flash disk3.0 Transcend 639205 7755 DoC
For Test Site No: 03CH01-CB (below 1GHz)
Support Equipment
No. Equipment Brand Name Model Name FCC ID
1 Notebook DELL E6430 DoC
2 Notebook DELL E6430 DoC
3 Notebook Apple Mac Book DoC
4 Notebook Apple Mac Book DoC
5 Flash disk3.0 Silicon Power B06 DoC
For Test Site No: 03CH01-CB (above 1GHz)
For non-beamforming mode
Support Equipment
No. Equipment Brand Name Model Name FCC ID
1 Notebook DELL E4300 DoC
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For beamforming mode
Support Equipment
No. Equipment Brand Name Model Name FCC ID
1 Notebook DELL E4300 DoC
2 Notebook DELL E4300 DoC
3 Router
(RX device) Amped Wireless AC2200 repeater
router DoC
For Test Site No: TH01-CB
Support Equipment
No. Equipment Brand Name Model Name FCC ID
1 Notebook DELL E6430 DoC
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2.6 Test Setup Diagram
Test Setup Diagram – AC Line Conducted Emission Test
Item Connection Shielded Length
1 Power cable No 1.5m
2 RJ-45 cable No 10m
3 RJ-45 cable*3 No 1.5m
4 RJ-45 cable No 10m
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Test Setup Diagram - Radiated Test < 1GHz
Item Connection Shielded Length
1 Power cable No 1.5m
2 RJ-45 cable No 10m
3 RJ-45 cable No 10m
4 RJ-45 cable*3 No 1.5m
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For non-beamforming mode
Test Setup Diagram - Radiated Test > 1GHz
Item Connection Shielded Length
1 RJ-45 cable No 10m
2 Power cable No 1.5m
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For beamforming mode
Test Setup Diagram - Radiated Test > 1GHz
Item Connection Shielded Length
1 RJ-45 cable No 10m
2 RJ-45 cable No 1.5m
3 Power cable No 1.5m
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3 Transmitter Test Result
3.1 AC Power-line Conducted Emissions
3.1.1 AC Power-line Conducted Emissions Limit
AC Power-line Conducted Emissions Limit
Frequency Emission (MHz) Quasi-Peak Average
0.15-0.5 66 - 56 * 56 - 46 *
0.5-5 56 46
5-30 60 50
Note 1: * Decreases with the logarithm of the frequency.
3.1.2 Measuring Instruments
Refer a test equipment and calibration data table in this test report.
3.1.3 Test Procedures
Test Method
Refer as ANSI C63.10-2013, clause 6.2 for AC power-line conducted emissions.
3.1.4 Test Setup
AC Power-line Conducted Emissions
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3.1.5 Test Result of AC Power-line Conducted Emissions
Refer as Appendix A
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3.2 Emission Bandwidth
3.2.1 Emission Bandwidth Limit
Emission Bandwidth Limit
UNII Devices
For the 5.15-5.25 GHz band, N/A
For the 5.25-5.35 GHz band, the maximum conducted output power shall not exceed the lesser of 250
mW or 11 dBm + 10 log B, where B is the 26 dB emission bandwidth in MHz.
For the 5.47-5.725 GHz band, the maximum conducted output power shall not exceed the lesser of 250
mW or 11 dBm + 10 log B, where B is the 26 dB emission bandwidth in MHz.
For the 5.725-5.85 GHz band, 6 dB emission bandwidth 500kHz.
LE-LAN Devices
For the band 5.15-5.25 GHz, the maximum e.i.r.p. shall not exceed 200 mW or 10 + 10 log B, dBm,
whichever power is less. B is the 99% emission bandwidth in MHz.
For the 5.25-5.35 GHz band, the maximum e.i.r.p. shall not exceed 1.0 W or 17 + 10 log B, dBm,
whichever power is less. B is the 99% emission bandwidth in MHz
For the 5.47-5.6 GHz band and 5.65-5.725 GHz band, the maximum e.i.r.p. shall not exceed 1.0 W or
17 + 10 log B, dBm, whichever power is less. B is the 99% emission bandwidth in MHz
For the 5.725-5.85 GHz band, 6 dB emission bandwidth 500kHz.
3.2.2 Measuring Instruments
Refer a test equipment and calibration data table in this test report.
3.2.3 Test Procedures
Test Method
For the emission bandwidth shall be measured using one of the options below:
Refer as FCC KDB 789033, clause C for EBW and clause D for OBW measurement.
Refer as ANSI C63.10, clause 6.9.1 for occupied bandwidth testing.
Refer as IC RSS-Gen, clause 4.6 for bandwidth testing.
3.2.4 Test Setup
Emission Bandwidth
3.2.5 Test Result of Emission Bandwidth
Refer as Appendix B
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3.3 Maximum Conducted Output Power
3.3.1 Maximum Conducted Output Power Limit
Maximum Conducted Output Power Limit
UNII Devices
For the 5.15-5.25 GHz band:
Outdoor AP: the maximum conducted output power (POut) shall not exceed the lesser of 1 W. If GTX
> 6 dBi, then POut = 30 – (GTX – 6). e.i.r.p. at any elevation angle above 30 degrees 125mW
[21dBm]
Indoor AP: the maximum conducted output power (POut) shall not exceed the lesser of 1 W. If GTX >
6 dBi, then POut = 30 – (GTX – 6)
Point-to-point AP: the maximum conducted output power (POut) shall not exceed the lesser of 1 W
If GTX > 23 dBi, then POut = 30 – (GTX – 23).
Mobile or Portable Client: the maximum conducted output power (POut) shall not exceed the lesser
of 250 mW. If GTX > 6 dBi, then POut = 24 – (GTX – 6).
For the 5.25-5.35 GHz band, the maximum conducted output power (POut) shall not exceed the lesser of
250 mW or 11 dBm + 10 log B, where B is the 26 dB emission bandwidth in MHz. If GTX > 6 dBi, then
POut = 24 – (GTX – 6).
For the 5.47-5.725 GHz band, the maximum conducted output power (POut) shall not exceed the lesser
of 250 mW or 11 dBm + 10 log B, where B is the 26 dB emission bandwidth in MHz. If GTX > 6 dBi, then
POut = 24 – (GTX – 6).
For the 5.725-5.85 GHz band:
Point-to-multipoint systems (P2M): the maximum conducted output power (POut) shall not exceed
the lesser of 1 W. If GTX > 6 dBi, then POut = 30 – (GTX – 6).
Point-to-point systems (P2P): the maximum conducted output power (POut) shall not exceed the
lesser of 1 W.
LE-LAN Devices
For the 5.15-5.25 GHz band, the maximum e.i.r.p. shall not exceed 200 mW or 10 + 10 log B, dBm,
whichever power is less. B is the 99% emission bandwidth in MHz.
For the 5.25-5.35 GHz band, the maximum e.i.r.p. shall not exceed 1.0 W or 17 + 10 log B, dBm,
whichever power is less. B is the 99% emission bandwidth in MHz
For the 5.47-5.6 GHz band and 5.65-5.725 GHz band, the maximum e.i.r.p. shall not exceed 1.0 W or
17 + 10 log B, dBm, whichever power is less. B is the 99% emission bandwidth in MHz
For the 5.725-5.85 GHz band:
Point-to-multipoint systems (P2M): the maximum conducted output power (POut) shall not exceed
the lesser of 1 W. If GTX > 6 dBi, then POut = 30 – (GTX – 6).
Point-to-point systems (P2P): the maximum conducted output power (POut) shall not exceed the
lesser of 1 W.
POut = maximum conducted output power in dBm,
GTX = the maximum transmitting antenna directional gain in dBi.
FCC Test Report Report No. : FR6N0915-01AB
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3.3.2 Measuring Instruments
Refer a test equipment and calibration data table in this test report.
3.3.3 Test Procedures
Test Method
Maximum Conducted Output Power
Average over on/off periods with duty factor
Refer as FCC KDB 789033, clause E Method SA-2 (spectral trace averaging).
Refer as FCC KDB 789033, clause E Method SA-2 Alt. (RMS detection with slow sweep speed)
Wideband RF power meter and average over on/off periods with duty factor
Refer as FCC KDB 789033, clause E Method PM-G (using an RF average power meter).
For conducted measurement.
If the EUT supports multiple transmit chains using options given below:
Refer as FCC KDB 662911, In-band power measurements. Using the measure-and-sum
approach, measured all transmit ports individually. Sum the power (in linear power units e.g., mW)
of all ports for each individual sample and save them.
If multiple transmit chains, EIRP calculation could be following as methods:
Ptotal = P1 + P2 +… + Pn
(calculated in linear unit [mW] and transfer to log unit [dBm])
EIRPtotal = Ptotal + DG
3.3.4 Test Setup
RF Output Power (Power Meter)
3.3.5 Test Result of Maximum Conducted Output Power
Refer as Appendix C
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3.4 Peak Power Spectral Density
3.4.1 Peak Power Spectral Density Limit
Peak Power Spectral Density Limit
UNII Devices
For the 5.15-5.25 GHz band:
Outdoor AP: the peak power spectral density (PPSD) shall not exceed the lesser of 17dBm/MHz. If
GTX > 6 dBi, then POut = 17 – (GTX – 6).
Indoor AP: the peak power spectral density (PPSD) shall not exceed the lesser of 17dBm/MHz. If
GTX > 6 dBi, then POut = 17 – (GTX – 6).
Point-to-point AP: the peak power spectral density (PPSD) shall not exceed the lesser of
17dBm/MHz. If GTX > 23 dBi, then POut = 17 – (GTX – 23).
Mobile or Portable Client: the peak power spectral density (PPSD) 11 dBm/MHz. If GTX > 6 dBi,
then PPSD= 11 – (GTX – 6)..
For the 5.25-5.35 GHz band, the peak power spectral density (PPSD) 11 dBm/MHz. If GTX > 6 dBi,
then PPSD= 11 – (GTX – 6).
For the 5.47-5.725 GHz band, the peak power spectral density (PPSD) 11 dBm/MHz. If GTX > 6 dBi,
then PPSD= 11 – (GTX – 6).
For the 5.725-5.85 GHz band:
Point-to-multipoint systems (P2M): the peak power spectral density (PPSD) 30 dBm/500kHz. If
GTX > 6 dBi, then PPSD= 30 – (GTX – 6).
Point-to-point systems (P2P): the peak power spectral density (PPSD) 30 dBm/500kHz.
LE-LAN Devices
For the 5.15-5.25 GHz band, the peak power spectral density (PPSD) 4 dBm/MHz and the e.i.r.p.
peak power spectral density (PPSD) 10 dBm/MHz.
For the 5.25-5.35 GHz band, the peak power spectral density (PPSD) 11 dBm/MHz and the e.i.r.p.
peak power spectral density (PPSD) 17 dBm/MHz.
e.i.r.p. greater than 200 mW shall comply with the following e.i.r.p. at different elevations, where θ
is the angle above the local horizontal plane (of the Earth) as shown below:
-13 dBW/MHz for 0° θ < 8° ; -13 0.716 (θ-8) dBW/MHz for 8° θ < 40°
-35.9 1.22 (θ-40) dBW/MHz for 40° θ 45° ; -42 dBW/MHz for θ > 45°
For the 5.47-5.6 GHz band and 5.65-5.725 GHz band, the peak power spectral density (PPSD) 11
dBm/MHz and the e.i.r.p. peak power spectral density (PPSD) 17 dBm/MHz.
For the 5.725-5.85 GHz band:
Point-to-multipoint systems (P2M): the peak power spectral density (PPSD) 30 dBm/500kHz. If
GTX > 6 dBi, then PPSD= 30 – (GTX – 6).
Point-to-point systems (P2P): the peak power spectral density (PPSD) 30 dBm/500kHz.
PPSD = peak power spectral density that he same method as used to determine the conducted output
power shall be used to determine the power spectral density. And power spectral density in dBm/MHz
GTX = the maximum transmitting antenna directional gain in dBi.
3.4.2 Measuring Instruments
Refer a test equipment and calibration data table in this test report.
FCC Test Report Report No. : FR6N0915-01AB
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3.4.3 Test Procedures
Test Method
Peak power spectral density procedures that the same method as used to determine the conducted
output power shall be used to determine the peak power spectral density and use the peak search
function on the spectrum analyzer to find the peak of the spectrum. For the peak power spectral density
shall be measured using below options:
Refer as FCC KDB 789033, F)5) power spectral density can be measured using resolution
bandwidths < 1 MHz provided that the results are integrated over 1 MHz bandwidth
[duty cycle 98% or external video / power trigger]
Refer as FCC KDB 789033, clause E Method SA-1 (spectral trace averaging).
Refer as FCC KDB 789033, clause E Method SA-1 Alt. (RMS detection with slow sweep speed)
duty cycle < 98% and average over on/off periods with duty factor
Refer as FCC KDB 789033, clause E Method SA-2 (spectral trace averaging).
Refer as FCC KDB 789033, clause E Method SA-2 Alt. (RMS detection with slow sweep speed)
For conducted measurement.
If the EUT supports multiple transmit chains using options given below:
Option 1: Measure and sum the spectra across the outputs. Refer as FCC KDB 662911,
In-band power spectral density (PSD). Sample all transmit ports simultaneously using a
spectrum analyzer for each transmit port. Where the trace bin-by-bin of each transmit port
summing can be performed. (i.e., in the first spectral bin of output 1 is summed with that in the
first spectral bin of output 2 and that from the first spectral bin of output 3, and so on up to the
NTX output to obtain the value for the first frequency bin of the summed spectrum.). Add up
the amplitude (power) values for the different transmit chains and use this as the new data
trace.
Option 2: Measure and sum spectral maxima across the outputs. With this technique, spectra
are measured at each output of the device at the required resolution bandwidth. The
maximum value (peak) of each spectrum is determined. These maximum values are then
summed mathematically in linear power units across the outputs. These operations shall be
performed separately over frequency spans that have different out-of-band or spurious
emission limits,
Option 3: Measure and add 10 log(N) dB, where N is the number of transmit chains. Refer as
FCC KDB 662911, In-band power spectral density (PSD). Performed at each transmit chains
and each transmit chains shall be compared with the limit have been reduced with 10 log(N).
Or each transmit chains shall be add 10 log(N) to compared with the limit.
If multiple transmit chains, EIRP PPSD calculation could be following as methods:
PPSDtotal = PPSD1 + PPSD2 +… + PPSDn
(calculated in linear unit [mW] and transfer to log unit [dBm])
EIRPtotal = PPSDtotal + DG
3.4.4 Test Setup
Power Spectral Density
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3.4.5 Test Result of Peak Power Spectral Density
Refer as Appendix D
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3.5 Unwanted Emissions
3.5.1 Transmitter Radiated Unwanted Emissions Limit
Unwanted emissions below 1 GHz and restricted band emissions above 1GHz limit
Frequency Range (MHz) Field Strength (uV/m) Field Strength (dBuV/m) Measure Distance (m)
0.009~0.490 2400/F(kHz) 48.5 - 13.8 300
0.490~1.705 24000/F(kHz) 33.8 - 23 30
1.705~30.0 30 29 30
30~88 100 40 3
88~216 150 43.5 3
216~960 200 46 3
Above 960 500 54 3
Note 1: Test distance for frequencies at or above 30 MHz, measurements may be performed at a distance
other than the limit distance provided they are not performed in the near field and the emissions to
be measured can be detected by the measurement equipment. When performing measurements at
a distance other than that specified, the results shall be extrapolated to the specified distance using
an extrapolation factor of 20 dB/decade (inverse of linear distance for field-strength measurements,
inverse of linear distance-squared for power-density measurements).
Note 2: Test distance for frequencies at below 30 MHz, measurements may be performed at a distance
closer than the EUT limit distance; however, an attempt should be made to avoid making
measurements in the near field. When performing measurements below 30 MHz at a closer distance
than the limit distance, the results shall be extrapolated to the specified distance by either making
measurements at a minimum of two or more distances on at least one radial to determine the proper
extrapolation factor or by using the square of an inverse linear distance extrapolation factor (40
dB/decade). The test report shall specify the extrapolation method used to determine compliance of
the EUT.
Un-restricted band emissions above 1GHz Limit
Operating Band Limit
5.15 - 5.25 GHz e.i.r.p. -27 dBm [68.2 [email protected]]
5.25 - 5.35 GHz e.i.r.p. -27 dBm [68.2 [email protected]]
5.47 - 5.725 GHz e.i.r.p. -27 dBm [68.2 [email protected]]
5.725 - 5.85 GHz all emissions shall be limited to a level of -27 dBm/MHz at 75 MHz or more above
or below the band edge increasing linearly to 10 dBm/MHz at 25 MHz above or
below the band edge, and from 25 MHz above or below the band edge
increasing linearly to a level of 15.6 dBm/MHz at 5 MHz above or below the band
edge, and from 5 MHz above or below the band edge increasing linearly to a
level of 27 dBm/MHz at the band edge.
Note 1: Measurements may be performed at a distance other than the limit distance provided they are not
performed in the near field and the emissions to be measured can be detected by the measurement
equipment. When performing measurements at a distance other than that specified, the results shall
be extrapolated to the specified distance using an extrapolation factor of 20 dB/decade (inverse of
linear distance for field-strength measurements, inverse of linear distance-squared for power-density
measurements).
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3.5.2 Measuring Instruments
Refer a test equipment and calibration data table in this test report.
3.5.3 Test Procedures
Test Method
Measurements may be performed at a distance other than the limit distance provided they are not
performed in the near field and the emissions to be measured can be detected by the measurement
equipment. Measurements shall not be performed at a distance greater than 30 m for frequencies
above 30 MHz, unless it can be further demonstrated that measurements at a distance of 30 m or less
are impractical. When performing measurements at a distance other than that specified, the results shall
be extrapolated to the specified distance using an extrapolation factor of 20 dB/decade (inverse of linear
distance for field-strength measurements, inverse of linear distance-squared for power-density
measurements).
The average emission levels shall be measured in [duty cycle 98 or duty factor].
For the transmitter unwanted emissions shall be measured using following options below:
Refer as FCC KDB 789033, clause H)2) for unwanted emissions into non-restricted bands.
Refer as FCC KDB 789033, clause H)1) for unwanted emissions into restricted bands.
Refer as FCC KDB 789033, H)6) Method AD (Trace Averaging).
Refer as FCC KDB 789033, H)6) Method VB (Reduced VBW).
Refer as ANSI C63.10, clause 4.2.3.2.3 (Reduced VBW). VBW 1/T, where T is pulse time.
Refer as ANSI C63.10, clause 4.2.3.2.4 average value of pulsed emissions.
Refer as FCC KDB 789033, clause H)5) measurement procedure peak limit.
Refer as ANSI C63.10, clause 4.2.3.2.2 measurement procedure peak limit.
For radiated measurement.
Refer as ANSI C63.10, clause 6.4 for radiated emissions below 30 MHz and test distance is 3m.
Refer as ANSI C63.10, clause 6.5 for radiated emissions 30 MHz to 1 GHz and test distance is 3m.
Refer as ANSI C63.10, clause 6.6 for radiated emissions above 1GHz.
The any unwanted emissions level shall not exceed the fundamental emission level.
All amplitude of spurious emissions that are attenuated by more than 20 dB below the permissible value
has no need to be reported.
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3.5.4 Test Setup
Transmitter Radiated Unwanted Emissions
9kHz ~30MHz
30MHz~1GHz
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Above 1GHz
3.5.5 Transmitter Unwanted Emissions (Below 30MHz)
All amplitude of spurious emissions that are attenuated by more than 20 dB below the permissible value has
no need to be reported.
3.5.6 Test Result of Transmitter Unwanted Emissions
Refer as Appendix E
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3.6 Frequency Stability
3.6.1 Frequency Stability Limit
Frequency Stability Limit
UNII Devices
In-band emission is maintained within the band of operation under all conditions of normal operation as
specified in the user’s manual.
LE-LAN Devices
N/A
IEEE Std. 802.11
The transmitter center frequency tolerance shall be ± 20 ppm maximum for the 5 GHz band and ± 25
ppm maximum for the 2.4 GHz band.
3.6.2 Measuring Instruments
Refer a test equipment and calibration data table in this test report.
3.6.3 Test Procedures
Test Method
Refer as ANSI C63.10, clause 6.8 for frequency stability tests
Frequency stability with respect to ambient temperature
Frequency stability when varying supply voltage
Extreme temperature is 0°C~40°C.
3.6.4 Test Setup
Frequency Stability
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3.6.5 Test Result of Frequency Stability
Refer as Appendix F
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4 Test Equipment and Calibration Data
Instrument Manufacturer Model No. Serial No. Characteristics Calibration Date Remark
EMI Receiver Agilent N9038A My52260123 9kHz ~ 8.45GHz Jan. 27, 2016 Conduction
(CO01-CB)
LISN F.C.C.
FCC-LISN-50-16-
2 04083 150kHz ~
100MHz Dec. 08, 2015 Conduction
(CO01-CB)
LISN Schwarzbeck NSLK 8127 8127647 9kHz ~ 30MHz Dec. 23, 2015 Conduction
(CO01-CB)
COND Cable Woken Cable 01 150kHz ~ 30MHz May 24, 2016 Conduction
(CO01-CB)
Software Audix E3 6.120210n - N.C.R.
Conduction
(CO01-CB)
BILOG
ANTENNA with
6dB Attenator
TESEQ & EMCI CBL6112D &
N-6-06
37880 &
AT-N0609 20MHz ~ 2GHz Aug. 30, 2016 Radiation
(03CH01-CB)
Horn Antenna EMCO 3115 00075790 750MHz ~
18GHz Nov. 10, 2016 Radiation
(03CH01-CB)
Horn Antenna Schwarzbeck BBHA 9170 BBHA9170252 15GHz ~ 40GHz Jul. 25, 2016 Radiation
(03CH01-CB)
Pre-Amplifier Agilent 8447D 2944A10991
0.1MHz ~
1.3GHz Mar. 15, 2016
Radiation
(03CH01-CB)
Pre-Amplifier Agilent 8449B 3008A02310 1GHz ~ 26.5GHz Jan. 18, 2016 Radiation
(03CH01-CB)
Pre-Amplifier MITEQ TTA1840-35-HG 1864479 18GHz ~ 40GHz Jun. 28, 2016 Radiation
(03CH01-CB)
Spectrum
Analyzer R&S FSP-40 100019 9kHz ~ 40GHz Apr. 21, 2016 Radiation
(03CH01-CB)
EMI Test R&S ESCS 100355 9kHz ~ 2.75GHz May 16, 2016 Radiation
(03CH01-CB)
RF Cable-low Woken Low Cable-16+17 N/A 30 MHz ~ 1 GHz Oct. 24, 2016 Radiation
(03CH01-CB)
RF Cable-high Woken High Cable-16 N/A 1 GHz ~ 18 GHz Oct. 24, 2016 Radiation
(03CH01-CB)
RF Cable-high Woken High
Cable-16+17 N/A 1 GHz ~ 18 GHz Oct. 24, 2016 Radiation
(03CH01-CB)
RF Cable-high Woken High
Cable-40G#1 N/A 18GHz ~ 40 GHz Oct. 24, 2016 Radiation
(03CH01-CB)
RF Cable-high Woken High
Cable-40G#2 N/A 18GHz ~ 40 GHz Oct. 24, 2016 Radiation
(03CH01-CB)
Loop Antenna Teseq HLA 6120 24155 9kHz - 30 MHz Mar. 16, 2016* Radiation
(03CH01-CB)
Test Software Audix E3 6.2009-l0-7 N/A N/A Radiation
(03CH01-CB)
FCC Test Report Report No. : FR6N0915-01AB
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Instrument Manufacturer Model No. Serial No. Characteristics Calibration Date Remark
Spectrum
analyzer R&S FSV40 101027 9kHz~40GHz Jul. 26, 2016 Conducted
(TH01-CB)
Temp. and
Humidity
Chamber
Ten Billion TTH-D3SP TBN-931011 -30~100 degree Jun. 03, 2016 Conducted
(TH01-CB)
RF Cable-high Woken RG402 High Cable-6 1GHz – 26.5GHz Oct. 24, 2016 Conducted
(TH01-CB)
RF Cable-high Woken RG402 High Cable-7 1GHz – 26.5GHz Oct. 24, 2016 Conducted
(TH01-CB)
RF Cable-high Woken RG402 High Cable-8 1GHz – 26.5GHz Oct. 24, 2016 Conducted
(TH01-CB)
RF Cable-high Woken RG402 High Cable-9 1GHz – 26.5GHz Oct. 24, 2016 Conducted
(TH01-CB)
RF Cable-high Woken RG402 High Cable-10 1GHz – 26.5GHz Oct. 24, 2016 Conducted
(TH01-CB)
Power Sensor Anritsu MA2411B 1126203 300MHz~40GHz Sep. 09, 2016 Conducted
(TH01-CB)
Power Meter Anritsu ML2495A 1210004 300MHz~40GHz Sep. 09, 2016 Conducted
(TH01-CB)
Note: Calibration Interval of instruments listed above is one year.
“*” Calibration Interval of instruments listed above is two years.
NCR means Non-Calibration required.
A
C Power-line Conducted Emissions Result Appendix A
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AC Power-line Conducted Emissions Result
Operating Mode 1 Power Phase Neutral
Operating Function Normal Link
Note 1: “>20dB” means emission levels that exceed the level of 20 dB below the applicable limit.
Note 2: “N/F” means Nothing Found emissions (No emissions were detected.)
AC Power-line Conducted Emissions Result
Operating Mode 1 Power Phase Line
Operating Function Normal Link
Note 1: “>20dB” means emission levels that exceed the level of 20 dB below the applicable limit.
Note 2: “N/F” means Nothing Found emissions (No emissions were detected.)
EBW Result Appendix B
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Summary
Mode Max-N dB Max-OBW ITU-Code Min-N dB Min-OBW
(Hz) (Hz) (Hz) (Hz)
5.2G;11a;Nss1;Ntx2 34.925M 16.692M 16M7D1D 21.525M 16.467M
5.8G;11a;Nss1;Ntx2 16.3M 16.442M 16M4D1D 16.05M 16.392M
5.2G;VHT20;Nss1,(M0);Ntx2 36.25M 17.866M 17M9D1D 20.9M 17.616M
5.8G;VHT20;Nss1,(M0);Ntx2 17.55M 17.641M 17M6D1D 16.525M 17.591M
5.2G;VHT40;Nss1,(M0);Ntx2 81M 37.681M 37M7D1D 39.45M 35.932M
5.8G;VHT40;Nss1,(M0);Ntx2 35.65M 36.032M 36M0D1D 33.85M 35.932M
5.2G;VHT80;Nss1,(M0);Ntx2 83.9M 75.862M 75M9D1D 83.6M 75.662M
5.8G;VHT80;Nss1,(M0);Ntx2 75.7M 75.862M 75M9D1D 75.5M 75.862M
5.2G;VHT20,BF;Nss1,(M0);Ntx2 22.25M 17.666M 17M7D1D 20.625M 17.616M
5.8G;VHT20,BF;Nss1,(M0);Ntx2 17.55M 17.641M 17M6D1D 17.125M 17.591M
5.2G;VHT40,BF;Nss1,(M0);Ntx2 41.9M 36.032M 36M0D1D 39.7M 35.932M
5.8G;VHT40,BF;Nss1,(M0);Ntx2 35.35M 36.032M 36M0D1D 34.9M 35.882M
5.2G;VHT80,BF;Nss1,(M0);Ntx2 83.7M 75.962M 76M0D1D 83.7M 75.662M
5.8G;VHT80,BF;Nss1,(M0);Ntx2 74.3M 75.862M 75M9D1D 74.1M 75.662M
EBW Result Appendix B
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Result
Mode Result Limit P1-N dB P1-OBW P2-N dB P2-OBW
(Hz) (Hz) (Hz) (Hz) (Hz)
5.2G;11a;Nss1;Ntx2;5180 Pass Inf 23.825M 16.467M 23.25M 16.467M
5.2G;11a;Nss1;Ntx2;5200 Pass Inf 21.525M 16.467M 25.925M 16.517M
5.2G;11a;Nss1;Ntx2;5240 Pass Inf 29.675M 16.517M 34.925M 16.692M
5.8G;11a;Nss1;Ntx2;5745 Pass 500
k
16.3M 16.442M 16.3M 16.392M
5.8G;11a;Nss1;Ntx2;5785 Pass 500
k
16.05M 16.417M 16.3M 16.417M
5.8G;11a;Nss1;Ntx2;5825 Pass 500
k
16.3M 16.392M 16.275M 16.417M
5.2G;VHT20;Nss1,(M0);Ntx2;5180 Pass Inf 20.9M 17.641M 21.1M 17.641M
5.2G;VHT20;Nss1,(M0);Ntx2;5200 Pass Inf 21.15M 17.616M 26M 17.666M
5.2G;VHT20;Nss1,(M0);Ntx2;5240 Pass Inf 28.125M 17.741M 36.25M 17.866M
5.8G;VHT20;Nss1,(M0);Ntx2;5745 Pass 500
k
16.8M 17.591M 17.175M 17.641M
5.8G;VHT20;Nss1,(M0);Ntx2;5785 Pass 500
k
16.525M 17.591M 17.55M 17.641M
5.8G;VHT20;Nss1,(M0);Ntx2;5825 Pass 500
k
16.925M 17.591M 17.25M 17.616M
5.2G;VHT40;Nss1,(M0);Ntx2;5190 Pass Inf 39.45M 35.932M 39.65M 35.982M
5.2G;VHT40;Nss1,(M0);Ntx2;5230 Pass Inf 70.45M 36.282M 81M 37.681M
5.8G;VHT40;Nss1,(M0);Ntx2;5755 Pass 500
k
33.85M 36.032M 34.45M 35.982M
5.8G;VHT40;Nss1,(M0);Ntx2;5795 Pass 500
k
35.3M 35.932M 35.65M 36.032M
5.2G;VHT80;Nss1,(M0);Ntx2;5210 Pass Inf 83.9M 75.862M 83.6M 75.662M
5.8G;VHT80;Nss1,(M0);Ntx2;5775 Pass 500
k
75.5M 75.862M 75.7M 75.862M
5.2G;VHT20,BF;Nss1,(M0);Ntx2;5180 Pass Inf 20.775M 17.641M 20.625M 17.641M
5.2G;VHT20,BF;Nss1,(M0);Ntx2;5200 Pass Inf 20.825M 17.641M 20.925M 17.641M
5.2G;VHT20,BF;Nss1,(M0);Ntx2;5240 Pass Inf 20.875M 17.666M 22.25M 17.616M
5.8G;VHT20,BF;Nss1,(M0);Ntx2;5745 Pass 500
k
17.55M 17.641M 17.525M 17.591M
5.8G;VHT20,BF;Nss1,(M0);Ntx2;5785 Pass 500
k
17.525M 17.641M 17.2M 17.616M
5.8G;VHT20,BF;Nss1,(M0);Ntx2;5825 Pass 500
k
17.125M 17.616M 17.15M 17.591M
5.2G;VHT40,BF;Nss1,(M0);Ntx2;5190 Pass Inf 39.7M 36.032M 39.7M 35.932M
5.2G;VHT40,BF;Nss1,(M0);Ntx2;5230 Pass Inf 39.95M 36.032M 41.9M 35.982M
5.8G;VHT40,BF;Nss1,(M0);Ntx2;5755 Pass 500
k
35.25M 35.882M 34.9M 36.032M
5.8G;VHT40,BF;Nss1,(M0);Ntx2;5795 Pass 500
k
35.3M 35.982M 35.35M 35.882M
5.2G;VHT80,BF;Nss1,(M0);Ntx2;5210 Pass Inf 83.7M 75.962M 83.7M 75.662M
5.8G;VHT80,BF;Nss1,(M0);Ntx2;5775 Pass 500
k
74.3M 75.862M 74.1M 75.662M
EBW Result Appendix B
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EBW Result Appendix B
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EBW Result Appendix B
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PowerAV Result Appendix C
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Summary
Mode Sum Sum EIRP EIRP
(dBm) (W) (dBm) (W)
5.2G;11a;Nss1;Ntx2 26.55 0.45186 30.84 1.21339
5.8G;11a;Nss1;Ntx2 20.44 0.11066 24.73 0.29717
5.2G;VHT20;Nss1,(M0);Ntx2 25.96 0.39446 30.25 1.05925
5.8G;VHT20;Nss1,(M0);Ntx2 21.04 0.12706 25.33 0.34119
5.2G;VHT40;Nss1,(M0);Ntx2 26.81 0.47973 31.10 1.28825
5.8G;VHT40;Nss1,(M0);Ntx2 22.50 0.17783 26.79 0.47753
5.2G;VHT80;Nss1,(M0);Ntx2 21.43 0.139 25.72 0.37325
5.8G;VHT80;Nss1,(M0);Ntx2 24.09 0.25645 28.38 0.68865
5.2G;VHT20,BF;Nss1,(M0);Ntx2 24.26 0.26669 31.56 1.43219
5.8G;VHT20,BF;Nss1,(M0);Ntx2 22.73 0.1875 28.42 0.69502
5.2G;VHT40,BF;Nss1,(M0);Ntx2 24.34 0.27164 31.64 1.45881
5.8G;VHT40,BF;Nss1,(M0);Ntx2 25.26 0.33574 30.95 1.24451
5.2G;VHT80,BF;Nss1,(M0);Ntx2 20.97 0.12503 28.27 0.67143
5.8G;VHT80,BF;Nss1,(M0);Ntx2 22.92 0.19588 28.61 0.72611
PowerAV Result Appendix C
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Result
Mode Result DG Sum Sum Lim. EIRP P1 P2
(dBi) (dBm) (dBm) (dBm) (dBm) (dBm)
5.2G;11a;Nss1;Ntx2;5180 Pass 4.29 26.55 30.00 30.84 23.67 23.41
5.2G;11a;Nss1;Ntx2;5200 Pass 4.29 26.25 30.00 30.54 23.21 23.26
5.2G;11a;Nss1;Ntx2;5240 Pass 4.29 25.97 30.00 30.26 22.89 23.02
5.8G;11a;Nss1;Ntx2;5745 Pass 4.29 19.73 30.00 24.02 16.41 17.01
5.8G;11a;Nss1;Ntx2;5785 Pass 4.29 20.14 30.00 24.43 16.94 17.32
5.8G;11a;Nss1;Ntx2;5825 Pass 4.29 20.44 30.00 24.73 17.43 17.43
5.2G;VHT20;Nss1,(M0);Ntx2;5180 Pass 4.29 25.72 30.00 30.01 22.78 22.63
5.2G;VHT20;Nss1,(M0);Ntx2;5200 Pass 4.29 25.79 30.00 30.08 22.72 22.84
5.2G;VHT20;Nss1,(M0);Ntx2;5240 Pass 4.29 25.96 30.00 30.25 22.87 23.03
5.8G;VHT20;Nss1,(M0);Ntx2;5745 Pass 4.29 20.57 30.00 24.86 17.35 17.76
5.8G;VHT20;Nss1,(M0);Ntx2;5785 Pass 4.29 21.04 30.00 25.33 17.89 18.17
5.8G;VHT20;Nss1,(M0);Ntx2;5825 Pass 4.29 20.28 30.00 24.57 17.12 17.42
5.2G;VHT40;Nss1,(M0);Ntx2;5190 Pass 4.29 21.78 30.00 26.07 18.75 18.79
5.2G;VHT40;Nss1,(M0);Ntx2;5230 Pass 4.29 26.81 30.00 31.10 23.61 23.98
5.8G;VHT40;Nss1,(M0);Ntx2;5755 Pass 4.29 22.50 30.00 26.79 19.32 19.65
5.8G;VHT40;Nss1,(M0);Ntx2;5795 Pass 4.29 21.96 30.00 26.25 18.85 19.04
5.2G;VHT80;Nss1,(M0);Ntx2;5210 Pass 4.29 21.43 30.00 25.72 18.23 18.61
5.8G;VHT80;Nss1,(M0);Ntx2;5775 Pass 4.29 24.09 30.00 28.38 21.52 20.58
5.2G;VHT20,BF;Nss1,(M0);Ntx2;5180 Pass 7.30 24.26 28.70 31.56 21.35 21.14
5.2G;VHT20,BF;Nss1,(M0);Ntx2;5200 Pass 7.30 23.69 28.70 30.99 20.84 20.51
5.2G;VHT20,BF;Nss1,(M0);Ntx2;5240 Pass 7.30 23.74 28.70 31.04 20.89 20.57
5.8G;VHT20,BF;Nss1,(M0);Ntx2;5745 Pass 5.69 22.71 30.00 28.40 19.12 20.21
5.8G;VHT20,BF;Nss1,(M0);Ntx2;5785 Pass 5.69 22.47 30.00 28.16 19.21 19.7
5.8G;VHT20,BF;Nss1,(M0);Ntx2;5825 Pass 5.69 22.73 30.00 28.42 19.02 20.32
5.2G;VHT40,BF;Nss1,(M0);Ntx2;5190 Pass 7.30 22.24 28.70 29.54 19.37 19.08
5.2G;VHT40,BF;Nss1,(M0);Ntx2;5230 Pass 7.30 24.34 28.70 31.64 21.53 21.11
5.8G;VHT40,BF;Nss1,(M0);Ntx2;5755 Pass 5.69 23.91 30.00 29.60 20.3 21.42
5.8G;VHT40,BF;Nss1,(M0);Ntx2;5795 Pass 5.69 25.26 30.00 30.95 21.61 22.81
5.2G;VHT80,BF;Nss1,(M0);Ntx2;5210 Pass 7.30 20.97 28.70 28.27 18.14 17.78
5.8G;VHT80,BF;Nss1,(M0);Ntx2;5775 Pass 5.69 22.92 30.00 28.61 19.59 20.21
PSD Result Appendix D
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Summary
Mode PD EIRP.PD
(dBm/RBW) (dBm/RBW)
5.2G;11a;Nss1;Ntx2 13.21 20.51
5.8G;11a;Nss1;Ntx2 6.71 12.40
5.2G;VHT20;Nss1,(M0);Ntx2 12.68 19.98
5.8G;VHT20;Nss1,(M0);Ntx2 6.78 12.47
5.2G;VHT40;Nss1,(M0);Ntx2 10.92 18.22
5.8G;VHT40;Nss1,(M0);Ntx2 5.67 11.36
5.2G;VHT80;Nss1,(M0);Ntx2 2.05 9.35
5.8G;VHT80;Nss1,(M0);Ntx2 3.21 8.90
5.2G;VHT20,BF;Nss1,(M0);Ntx2 11.00 18.30
5.8G;VHT20,BF;Nss1,(M0);Ntx2 5.47 11.16
5.2G;VHT40,BF;Nss1,(M0);Ntx2 8.52 15.82
5.8G;VHT40,BF;Nss1,(M0);Ntx2 4.61 10.30
5.2G;VHT80,BF;Nss1,(M0);Ntx2 2.06 9.36
5.8G;VHT80,BF;Nss1,(M0);Ntx2 -0.38 5.31
PSD Result Appendix D
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Result
Mode Result DG PD PD.Limit P1 P2
(dBi) (dBm/RBW) (dBm/RBW) (dBm/RBW) (dBm/RBW)
5.2G;11a;Nss1;Ntx2;5180 Pass 7.30 13.21 15.70 10.41 10.15
5.2G;11a;Nss1;Ntx2;5200 Pass 7.30 13.01 15.70 9.99 10.06
5.2G;11a;Nss1;Ntx2;5240 Pass 7.30 12.93 15.70 9.82 10.10
5.8G;11a;Nss1;Ntx2;5745 Pass 5.69 5.96 30.00 3.46 2.66
5.8G;11a;Nss1;Ntx2;5785 Pass 5.69 6.26 30.00 3.74 3.28
5.8G;11a;Nss1;Ntx2;5825 Pass 5.69 6.71 30.00 4.01 3.56
5.2G;VHT20;Nss1,(M0);Ntx2;5180 Pass 7.30 12.06 15.70 9.17 9.10
5.2G;VHT20;Nss1,(M0);Ntx2;5200 Pass 7.30 12.10 15.70 9.15 9.21
5.2G;VHT20;Nss1,(M0);Ntx2;5240 Pass 7.30 12.68 15.70 9.66 9.74
5.8G;VHT20;Nss1,(M0);Ntx2;5745 Pass 5.69 6.48 30.00 3.87 3.04
5.8G;VHT20;Nss1,(M0);Ntx2;5785 Pass 5.69 6.78 30.00 4.18 3.51
5.8G;VHT20;Nss1,(M0);Ntx2;5825 Pass 5.69 5.96 30.00 3.36 2.70
5.2G;VHT40;Nss1,(M0);Ntx2;5190 Pass 7.30 5.65 15.70 2.69 2.81
5.2G;VHT40;Nss1,(M0);Ntx2;5230 Pass 7.30 10.92 15.70 7.73 8.08
5.8G;VHT40;Nss1,(M0);Ntx2;5755 Pass 5.69 5.67 30.00 3.08 2.54
5.8G;VHT40;Nss1,(M0);Ntx2;5795 Pass 5.69 5.15 30.00 2.56 1.94
5.2G;VHT80;Nss1,(M0);Ntx2;5210 Pass 7.30 2.05 15.70 -1.15 -0.61
5.8G;VHT80;Nss1,(M0);Ntx2;5775 Pass 5.69 3.21 30.00 -1.05 1.30
5.2G;VHT20,BF;Nss1,(M0);Ntx2;5180 Pass 7.30 11.00 15.70 7.55 8.49
5.2G;VHT20,BF;Nss1,(M0);Ntx2;5200 Pass 7.30 10.68 15.70 7.30 8.12
5.2G;VHT20,BF;Nss1,(M0);Ntx2;5240 Pass 7.30 10.70 15.70 7.39 8.06
5.8G;VHT20,BF;Nss1,(M0);Ntx2;5745 Pass 5.69 4.46 30.00 1.84 1.42
5.8G;VHT20,BF;Nss1,(M0);Ntx2;5785 Pass 5.69 5.05 30.00 2.16 2.04
5.8G;VHT20,BF;Nss1,(M0);Ntx2;5825 Pass 5.69 5.47 30.00 2.74 2.32
5.2G;VHT40,BF;Nss1,(M0);Ntx2;5190 Pass 7.30 6.43 15.70 3.00 3.97
5.2G;VHT40,BF;Nss1,(M0);Ntx2;5230 Pass 7.30 8.52 15.70 5.04 5.96
5.8G;VHT40,BF;Nss1,(M0);Ntx2;5755 Pass 5.69 2.96 30.00 0.54 -0.30
5.8G;VHT40,BF;Nss1,(M0);Ntx2;5795 Pass 5.69 4.61 30.00 1.82 1.61
5.2G;VHT80,BF;Nss1,(M0);Ntx2;5210 Pass 7.30 2.06 15.70 -1.67 -0.25
5.8G;VHT80,BF;Nss1,(M0);Ntx2;5775 Pass 5.69 -0.38 30.00 -2.72 -3.66
PSD Result Appendix D
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PSD Result Appendix D
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PSD Result Appendix D
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RSE below 1GHz Result Appendix E.1
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RSE below 1GHz Result
Operating Mode 2 Polarization Horizontal
Operating Function Normal Link
Note 1: “>20dB” means emission levels that exceed the level of 20 dB below the applicable limit.
Note 2: “N/F” means Nothing Found emissions (No emissions were detected.)
RSE below 1GHz Result
Operating Mode 2 Power Phase Vertical
Operating Function Normal Link
Note 1: “>20dB” means emission levels that exceed the level of 20 dB below the applicable limit.
Note 2: “N/F” means Nothing Found emissions (No emissions were detected.)
RSE TX above 1GHz Result Appendix E.2
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Summary
Mode Result Type Freq Level Limit Margin Facto
r
Dist Pol. Azimuth Height Comments
(Hz) (dBuV/m) (dBuV/m) (dB) (dB) (m) (H/V) (°) (m)
5.8G;VHT20,BF;Nss1,(M0);Ntx2;5825 Pass
A
V 11.64694G 53.99 54.00 -0.01 17.65 3 H 288 2.12 -
RSE TX above 1GHz Result Appendix E.2
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RSE TX above 1GHz Result Appendix E.2
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RSE TX above 1GHz Result Appendix E.2
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RSE TX above 1GHz Result Appendix E.2
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RSE TX above 1GHz Result Appendix E.2
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RSE TX above 1GHz Result Appendix E.2
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RSE TX above 1GHz Result Appendix E.2
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RSE TX above 1GHz Result Appendix E.2
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RSE TX above 1GHz Result Appendix E.2
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RSE TX above 1GHz Result Appendix E.2
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RSE TX above 1GHz Result Appendix E.2
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RSE TX above 1GHz Result Appendix E.2
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RSE TX above 1GHz Result Appendix E.2
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RSE TX above 1GHz Result Appendix E.2
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RSE TX above 1GHz Result Appendix E.2
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RSE TX above 1GHz Result Appendix E.2
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RSE TX above 1GHz Result Appendix E.2
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RSE TX above 1GHz Result Appendix E.2
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RSE TX above 1GHz Result Appendix E.2
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RSE TX above 1GHz Result Appendix E.2
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RSE TX above 1GHz Result Appendix E.2
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RSE TX above 1GHz Result Appendix E.2
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RSE TX above 1GHz Result Appendix E.2
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RSE TX above 1GHz Result Appendix E.2
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RSE TX above 1GHz Result Appendix E.2
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FS Result Appendix F
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Mode: 20 MHz / Chain 2 for 5G Band 1 and Chain 4 for 5G Band 4
Voltage vs. Frequency Stability
Voltage Measurement Frequency (MHz)
(V) 5200 MHz
0 Minute 2 Minute 5 Minute 10 Minute
126.50 5199.9962 5199.9955 5199.9946 5199.9937
110.00 5199.9961 5199.9951 5199.9944 5199.9935
93.50 5199.9959 5199.9955 5199.9954 5199.9949
Max. Deviation
(MHz) 0.0041 0.0049 0.0056 0.0065
Max. Deviation
(ppm) 0.79 0.94 1.08 1.25
Result Pass
Temperature vs. Frequency Stability
Temperature Measurement Frequency (MHz)
() 5200 MHz
0 Minute 2 Minute 5 Minute 10 Minute
0 5199.9993 5199.9984 5199.9982 5199.9973
10 5199.9976 5199.9971 5199.9969 5199.9959
20 5199.9961 5199.9957 5199.9955 5199.9945
30 5199.9891 5199.9882 5199.9880 5199.9872
40 5199.9885 5199.9878 5199.9868 5199.9867
Max. Deviation (MHz) 0.0115 0.0122 0.0132 0.0133
Max. Deviation (ppm) 2.21 2.35 2.54 2.56
Result Pass
Mode: 40 MHz / Chain 2 for 5G Band 1 and Chain 4 for 5G Band 4
Voltage vs. Frequency Stability
Voltage Measurement Frequency (MHz)
(V) 5190 MHz
0 Minute 2 Minute 5 Minute 10 Minute
126.50 5189.9963 5189.9960 5189.9956 5189.9953
110.00 5189.9961 5189.9956 5189.9949 5189.9943
93.50 5189.9959 5189.9957 5189.9951 5189.9942
Max. Deviation
(MHz) 0.0041 0.0044 0.0051 0.0058
Max. Deviation
(ppm) 0.79 0.85 0.98 1.12
Result Pass
Temperature vs. Frequency Stability
Temperature Measurement Frequency (MHz)
() 5190 MHz
0 Minute 2 Minute 5 Minute 10 Minute
0 5189.9967 5189.9963 5189.9961 5189.9951
10 5189.9966 5189.9963 5189.9954 5189.9946
20 5189.9961 5189.9960 5189.9954 5189.9944
30 5189.9891 5189.9890 5189.9883 5189.9881
40 5189.9875 5189.9867 5189.9863 5189.9862
Max. Deviation (MHz) 0.0125 0.0133 0.0137 0.0138
Max. Deviation (ppm) 2.41 2.56 2.64 2.66
Result Pass
Voltage vs. Frequency Stability
Voltage Measurement Frequency (MHz)
(V) 5785 MHz
0 Minute 2 Minute 5 Minute 10 Minute
126.50 5784.9963 5784.9953 5784.9946 5784.9936
110.00 5784.9961 5784.9956 5784.9950 5784.9945
93.50 5784.9959 5784.9953 5784.9947 5784.9941
Max. Deviation
(MHz) 0.0041 0.0047 0.0054 0.0064
Max. Deviation
(ppm) 0.71 0.81 0.93 1.11
Result Pass
Temperature vs. Frequency Stability
Temperature Measurement Frequency (MHz)
() 5785 MHz
0 Minute 2 Minute 5 Minute 10 Minute
0 5784.9994 5784.9991 5784.9989 5784.9986
10 5784.9979 5784.9973 5784.9969 5784.9968
20 5784.9961 5784.9960 5784.9950 5784.9943
30 5784.9891 5784.9883 5784.9874 5784.9867
40 5784.9888 5784.9886 5784.9884 5784.9883
Max. Deviation (MHz) 0.0112 0.0117 0.0126 0.0133
Max. Deviation (ppm) 1.94 2.02 2.18 2.30
Result Pass
Voltage vs. Frequency Stability
Voltage Measurement Frequency (MHz)
(V) 5755 MHz
0 Minute 2 Minute 5 Minute 10 Minute
126.50 5754.9971 5754.9969 5754.9966 5754.9958
110.00 5754.9961 5754.9957 5754.9952 5754.9949
93.50 5754.9951 5754.9944 5754.9942 5754.9940
Max. Deviation
(MHz) 0.0049 0.0056 0.0058 0.0060
Max. Deviation
(ppm) 0.85 0.97 1.01 1.04
Result Pass
Temperature vs. Frequency Stability
Temperature Measurement Frequency (MHz)
() 5755 MHz
0 Minute 2 Minute 5 Minute 10 Minute
0 5754.9979 5754.9974 5754.9970 5754.9964
10 5754.9973 5754.9966 5754.9965 5754.9958
20 5754.9961 5754.9952 5754.9945 5754.9936
30 5754.9891 5754.9884 5754.9876 5754.9870
40 5754.9878 5754.9868 5754.9866 5754.9859
Max. Deviation (MHz) 0.0122 0.0132 0.0134 0.0141
Max. Deviation (ppm) 2.12 2.29 2.33 2.45
Result Pass
FS Result Appendix F
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Mode: 80 MHz / Chain 2 for 5G Band 1 and Chain 4 for 5G Band 4
Voltage vs. Frequency Stability
Voltage Measurement Frequency (MHz)
(V) 5210 MHz
0 Minute 2 Minute 5 Minute 10 Minute
126.50 5209.9962 5209.9957 5209.9951 5209.9941
110.00 5209.9961 5209.9960 5209.9956 5209.9953
93.50 5209.9958 5209.9956 5209.9947 5209.9941
Max. Deviation
(MHz) 0.0042 0.0044 0.0053 0.0059
Max. Deviation
(ppm) 0.81 0.84 1.02 1.13
Result Pass
Temperature vs. Frequency Stability
Temperature Measurement Frequency (MHz)
() 5210 MHz
0 Minute 2 Minute 5 Minute 10 Minute
0 5209.9976 5209.9970 5209.9964 5209.9956
10 5209.9973 5209.9969 5209.9966 5209.9958
20 5209.9961 5209.9959 5209.9954 5209.9945
30 5209.9891 5209.9887 5209.9883 5209.9880
40 5209.9871 5209.9868 5209.9859 5209.9852
Max. Deviation (MHz) 0.0129 0.0132 0.0141 0.0148
Max. Deviation (ppm) 2.48 2.53 2.71 2.84
Result Pass
Voltage vs. Frequency Stability
Voltage Measurement Frequency (MHz)
(V) 5775 MHz
0 Minute 2 Minute 5 Minute 10 Minute
126.50 5774.9966 5774.9958 5774.9948 5774.9944
110.00 5774.9961 5774.9952 5774.9942 5774.9935
93.50 5774.9951 5774.9941 5774.9933 5774.9928
Max. Deviation
(MHz) 0.0049 0.0059 0.0067 0.0072
Max. Deviation
(ppm) 0.85 1.02 1.16 1.25
Result Pass
Temperature vs. Frequency Stability
Temperature Measurement Frequency (MHz)
() 5775 MHz
0 Minute 2 Minute 5 Minute 10 Minute
0 5774.9995 5774.9987 5774.9982 5774.9976
10 5774.9977 5774.9973 5774.9970 5774.9964
20 5774.9961 5774.9952 5774.9951 5774.9941
30 5774.9891 5774.9882 5774.9875 5774.9869
40 5774.9886 5774.9878 5774.9873 5774.9863
Max. Deviation (MHz) 0.0114 0.0122 0.0127 0.0137
Max. Deviation (ppm) 1.97 2.11 2.20 2.37
Result Pass
Download: High Power AC2200 Tri-Band Wi-Fi Router Test Report  Amped Wireless

Document ID3253846
Application IdidflVZc1pahw7Duq0br1WQ==
Document DescriptionRF Report NII
Short Term ConfidentialNo
Permanent ConfidentialNo
SupercedeNo
Document TypeTest Report
Display FormatAdobe Acrobat PDF - pdf
Filesize3807729
Date Submitted2017-01-10 00:00:00
Date Available2017-01-11 00:00:00
Creation Date2017-01-10 14:57:04
Producing SoftwareAcrobat Distiller 15.0 (Windows)
Document Lastmod2017-01-10 15:02:15
Document CreatorPScript5.dll Version 5.2.2

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