RAC2V1K DBDC ROUTER Test Report RF Askey Computer Corp

Askey Computer Corp DBDC ROUTER

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FCC Test Report
Report No. : FR711935-03AA
Table of Contents
GENERAL DESCRIPTION ....................................................................................................................5
1.1
1.2
1.3
1.4
Information..............................................................................................................................................5
Testing Applied Standards .....................................................................................................................7
Testing Location Information ..................................................................................................................7
Measurement Uncertainty ......................................................................................................................8
TEST CONFIGURATION OF EUT ........................................................................................................9
2.1
2.2
2.3
2.4
2.5
2.6
Test Channel Mode ................................................................................................................................9
The Worst Case Measurement Configuration......................................................................................10
EUT Operation during Test ..................................................................................................................10
Accessories ..........................................................................................................................................10
Support Equipment...............................................................................................................................10
Test Setup Diagram .............................................................................................................................11
TRANSMITTER TEST RESULT ..........................................................................................................12
3.1
3.2
3.3
Maximum Conducted Output Power ....................................................................................................12
Power Spectral Density ........................................................................................................................14
Emissions in Restricted Frequency Bands...........................................................................................16
TEST EQUIPMENT AND CALIBRATION DATA ................................................................................19
APPENDIX A. TEST RESULTS OF MAXIMUM CONDUCTED OUTPUT POWER
APPENDIX B. TEST RESULTS OF POWER SPECTRAL DENSITY
APPENDIX C. TEST RESULTS OF EMISSIONS IN RESTRICTED FREQUENCY BANDS
APPENDIX D. TEST PHOTOS
PHOTOGRAPHS OF EUT V01
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FCC Test Report
Report No. : FR711935-03AA
Summary of Test Result
Conformance Test Specifications
Report
Clause
Ref. Std.
Clause
1.1.2
15.203
Description
Antenna Requirement
Limit
Result
FCC 15.203
Complied
3.1
15.247(b) Maximum Conducted Output Power
Power [dBm]:30
Complied
3.2
15.247(e) Power Spectral Density
PSD [dBm/3kHz]:8
Complied
3.3
15.247(d) Emissions in Restricted Frequency Bands
Restricted Bands:
FCC 15.209
Complied
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FCC Test Report
Report No. : FR711935-03AA
Revision History
Report No.
Version
Description
Issued Date
FR711935-03AA
Rev. 01
Initial issue of report
May 17, 2017
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FCC Test Report
Report No. : FR711935-03AA
General Description
1.1
Information
1.1.1
RF General Information
Frequency Range (MHz)
IEEE Std. 802.11
Ch. Frequency (MHz)
Channel Number
2400-2483.5
b, g, n (HT20)
2412-2462
1-11 [11]
2400-2483.5
n (HT40)
2422-2452
3-9 [7]
Band
Mode
BWch (MHz)
Nant
2.4-2.4835GHz
802.11b
20
4TX
2.4-2.4835GHz
802.11g
20
4TX
2.4-2.4835GHz
802.11n HT20
20
4TX
2.4-2.4835GHz
802.11n HT20-BF
20
4TX
2.4-2.4835GHz
802.11n HT40
40
4TX
2.4-2.4835GHz
802.11n HT40-BF
40
4TX
Note:
 11b mode uses a combination of DSSS-DBPSK, DQPSK, CCK modulation.
 11g, HT20 and HT40 use a combination of OFDM-BPSK, QPSK, 16QAM, 64QAM 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
Ant.
Antenna Information
Brand
Part Number
Antenna Type
Gain (dBi)
Connector
2.4G
Remark
5G B1 5G B4
Airgain
N2420GS
PCB Antenna
I-PEX
2.4GHz TX/RX
Airgain
N2420GS
PCB Antenna
I-PEX
2.4GHz TX/RX
Airgain
N2420GS
PCB Antenna
I-PEX
2.4GHz TX/RX
Airgain
N2420GS
PCB Antenna
I-PEX
2.4GHz TX/RX
Airgain
M5x05C (Longer)
PCB Antenna
I-PEX
1.2
1.2
5GHz TX/RX
Airgain
M5x05C
PCB Antenna
I-PEX
1.2
1.2
5GHz TX/RX
Airgain
M5x05C
PCB Antenna
I-PEX
1.2
1.2
5GHz TX/RX
Airgain
M5x05C (Longer)
PCB Antenna
I-PEX
1.2
1.2
5GHz TX/RX
Note: The EUT has eight antennas.
For 2.4GHz function (4TX/4RX):
Ant. 1 (P1), Ant. 2 (P2), Ant. 3 (P3) and Ant. 4 (P4) could transmit/receive simultaneously.
For 5GHz function (4TX/4RX):
Ant. 5 (P1), Ant. 6 (P2), Ant. 7 (P3) and Ant. 8 (P4) could transmit/receive simultaneously.
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FCC Test Report
1.1.3
Report No. : FR711935-03AA
Mode Test Duty Cycle
For Non-beanforming mode
Mode
DC
DCF(dB)
802.11b
0.994
0.026
802.11g
0.972
0.123
802.11n HT20
0.987
0.057
802.11n HT40
0.973
0.119
Mode
DC
DCF(dB)
802.11n HT20-BF
0.929
0.32
802.11n HT40-BF
0.913
0.40
For beanforming mode
1.1.4
EUT Operational Condition
From power adapter
EUT Power Type
Beamforming Function
With beamforming
Without beamforming
The product has beamforming function for 802.11n/ac.
1.1.5
Table for Class II Change
This product is an extension of original one reported under Sporton project number: FR711935-01AA and
FR711935-01AC.
Below is the table for the change of the product with respect to the original one.
Modifications
Performance Checking
1. Maximum Conducted Output Power
2. Power Spectral Density
1. Revising the Ant. Gain of 2.4GHz to 1dBi.
2. Revising the Ant. Gain of 5GHz band 1/band 4 to 1.2dBi.
3. Removing Capacitor*3:(1000 pF: C1170 (bottom),
C1173, C1176 (Top).
3. Emissions in Restricted Frequency Bands
(Above 1GHz)
All items changing channel as below:
For Non-beanforming mode
11b/g/n HT20: CH1/ 2412MHz & CH11/ 2462MHz
11n HT40: CH3/ 2422MHz & CH9/ 2452MHz
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FCC Test Report
1.2
Report No. : FR711935-03AA
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 558074 D01 v04
 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
JHUBEI
ADD
No.8, Lane 724, Bo-ai St., Jhubei City, HsinChu County 302, Taiwan, R.O.C.
TEL
886-3-656-9065
FAX
FAX
886-3-318-0055
886-3-656-9085
Test Condition
Test Site No.
Test Engineer
Test Environment
Test Date
RF Conducted
TH01-CB
Serway Li
22°C / 55%
May 02, 2017 ~ May 11, 2017
Radiated
03CH01-CB
Joy Tseng
22°C / 54%
May 11, 2017
Test site Designation No. TW0006 with FCC.
Test site registered number IC 4086D with Industry Canada.
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FCC Test Report
1.4
Report No. : FR711935-03AA
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
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%
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FCC Test Report
Test Configuration of EUT
2.1
Test Channel Mode
Report No. : FR711935-03AA
Mode
Power Index
802.11b_(1Mbps)_4TX
2412MHz
22.5
2462MHz
22.5
802.11g_(6Mbps)_4TX
2412MHz
18.5
2462MHz
16.5
802.11an HT20_Nss1,(MCS0)_4TX
2412MHz
18.5
2462MHz
16.5
802.11an HT40_Nss1,(MCS0)_4TX
2422MHz
16
2452MHz
17.5
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FCC Test Report
2.2
Report No. : FR711935-03AA
The Worst Case Measurement Configuration
The Worst Case Mode for Following Conformance Tests
Maximum Conducted Output Power
Power Spectral Density
Tests Item
Conducted measurement at transmit chains
Test Condition
The Worst Case Mode for Following Conformance Tests
Tests Item
Test Condition
Emissions in Restricted Frequency Bands
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 CTX
Note: The EUT can only be used at Y axis position.
2.3
EUT Operation during Test
The EUT was programmed to be in continuously transmitting mode.
2.4
Accessories
Accessories
No. Equipment Name Brand Name
Model No.
Rating
INPUT: 100-240Vac, 50-60Hz, 1.0A MAX.
OUTPUT: 12Vdc, 2.5A
Adapter 1
Sunny
SYS1564-3012-W2
Adapter 2
Ktec
KSA-36W-120250HU
INPUT: 100-240Vac, 50/60Hz, 1.0A
OUTPUT: 12Vdc, 2.5A
Note: The power adapter does not affect the test result of RF tests, so only adapter 1 was tested and recorded
in this report.
2.5
Support Equipment
Support Equipment
No.
Equipment
Brand Name
Model Name
FCC ID
NB
DELL
E4300
DoC
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FCC Test Report
2.6
Report No. : FR711935-03AA
Test Setup Diagram
Test Setup Diagram - Radiated Test > 1GHz
Item
Connection
Shielded
Length
RJ-45 cable
No
10m
Power cable
No
1.5m
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FCC Test Report
Transmitter Test Result
3.1
Maximum Conducted Output Power
3.1.1
Maximum Conducted Output Power Limit
Report No. : FR711935-03AA
Maximum Conducted Output Power Limit

If GTX ≤ 6 dBi, then POut ≤ 30 dBm (1 W)

Point-to-multipoint systems (P2M): If GTX > 6 dBi, then POut = 30 – (GTX – 6) dBm

Point-to-point systems (P2P): If GTX > 6 dBi, then POut = 30 – (GTX – 6)/3 dBm

Smart antenna system (SAS):
Single beam: If GTX > 6 dBi, then POut = 30 – (GTX – 6)/3 dBm
Overlap beam: If GTX > 6 dBi, then POut = 30 – (GTX – 6)/3 dBm
Aggregate power on all beams: If GTX > 6 dBi, then POut = 30 – (GTX – 6)/3 + 8dB dBm
POut = maximum peak conducted output power or maximum conducted output power in dBm,
GTX = the maximum transmitting antenna directional gain in dBi.
3.1.2
Measuring Instruments
Refer a test equipment and calibration data table in this test report.
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FCC Test Report
3.1.3
Report No. : FR711935-03AA
Test Procedures
Test Method

Maximum Peak Conducted Output Power
Refer as FCC KDB 558074, clause 9.1.1 Option 1 (RBW ≥ EBW method).
Refer as FCC KDB 558074, clause 9.1.2 Option 2 (peak power meter for VBW ≥ DTS BW)

Maximum Conducted Output Power
[duty cycle ≥ 98% or external video / power trigger]
Refer as FCC KDB 558074, clause 9.2.2.2 Method AVGSA-1 (spectral trace averaging).
Refer as FCC KDB 558074, clause 9.2.2.3 Method AVGSA-1 Alt. (slow sweep speed)
duty cycle < 98% and average over on/off periods with duty factor
Refer as FCC KDB 558074, clause 9.2.2.4 Method AVGSA-2 (spectral trace averaging).
Refer as FCC KDB 558074, clause 9.2.2.5 Method AVGSA-2 Alt. (slow sweep speed)
RF power meter and average over on/off periods with duty factor or gated trigger
Refer as FCC KDB 558074, clause 9.2.3 Method AVGPM-G (using an RF average power meter).
Refer as FCC KDB 558074, clause 9.1.2 PKPM1 Peak power meter method.

For conducted measurement.
3.1.4

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
Test Setup
Maximum Conducted Output Power (Power Meter)
3.1.5
Test Result of Maximum Conducted Output Power
Refer as Appendix A
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FCC Test Report
Report No. : FR711935-03AA
3.2
Power Spectral Density
3.2.1
Power Spectral Density Limit
Power Spectral Density Limit

Power Spectral Density (PSD) ≤ 8 dBm/3kHz
3.2.2
Measuring Instruments
Refer a test equipment and calibration data table in this test report.
3.2.3
Test Procedures
Test Method

Peak power spectral density procedures that the same method as used to determine the conducted
output power. If maximum peak conducted output power was measured to demonstrate compliance to
the output power limit, then the peak PSD procedure below (Method PKPSD) shall be used. If maximum
conducted output power was measured to demonstrate compliance to the output power limit, then one
of the average PSD procedures shall be used, as applicable based on the following criteria (the peak
PSD procedure is also an acceptable option).
Refer as FCC KDB 558074, clause 10.2 Method PKPSD (RBW=3-100kHz; Detector=peak).
[duty cycle ≥ 98% or external video / power trigger]
Refer as FCC KDB 558074, clause 10.3 Method AVGPSD-1 (spectral trace averaging).
Refer as FCC KDB 558074, clause 10.4 Method AVGPSD-2 (slow sweep speed)
duty cycle < 98% and average over on/off periods with duty factor
Refer as FCC KDB 558074, clause 10.5 Method AVGPSD-1 Alt (spectral trace averaging).
Refer as FCC KDB 558074, clause 10.6 Method AVGPSD-2 Alt. (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.
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FCC Test Report
3.2.4
Report No. : FR711935-03AA
Test Setup
Power Spectral Density
3.2.5
Test Result of Power Spectral Density
Refer as Appendix B
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FCC Test Report
Report No. : FR711935-03AA
3.3
Emissions in Restricted Frequency Bands
3.3.1
Emissions in Restricted Frequency Bands Limit
Restricted Band Emissions 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
88~216
150
43.5
216~960
200
46
Above 960
500
54
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.
3.3.2
Measuring Instruments
Refer a test equipment and calibration data table in this test report.
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FCC Test Report
3.3.3
Report No. : FR711935-03AA
Test Procedures
Test Method

The average emission levels shall be measured in [duty cycle ≥ 98 or duty factor].

Refer as ANSI C63.10, clause 6.9.2.2 band-edge testing shall be performed at the lowest frequency
channel and highest frequency channel within the allowed operating band.

For the transmitter unwanted emissions shall be measured using following options below:

Refer as FCC KDB 558074, clause 12 for unwanted emissions into restricted bands.
Refer as FCC KDB 558074, clause 12.2.5.1 Option 1 (trace averaging for duty cycle ≥98%)
Refer as FCC KDB 558074, clause 12.2.5.2 Option 2 (trace averaging + duty factor).
Refer as FCC KDB 558074, clause 12.2.5.3 Option 3 (Reduced VBW≥1/T).
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 558074, clause 12.2.4 measurement procedure peak limit.


For the transmitter band-edge emissions shall be measured using following options below:

Refer as FCC KDB 558074 clause 13.1, When the performing peak or average radiated
measurements, emissions within 2 MHz of the authorized band edge may be measured using the
marker-delta method described below.

Refer as FCC KDB 558074, clause 13.2 (ANSI C63.10, clause 6.9.3) for marker-delta method for
band-edge measurements.

Refer as FCC KDB 558074, clause 13.3 for narrower resolution bandwidth (100kHz) using the
band power and summing the spectral levels (i.e., 1 MHz).
For conducted and cabinet radiation measurement, refer as FCC KDB 558074, clause 12.2.2.

For conducted unwanted emissions into restricted bands (absolute emission limits).
Devices with multiple transmit chains using options given below:
(1) Measure and sum the spectra across the outputs or
(2) Measure and add 10 log(N) dB

For FCC KDB 662911 The methodology described here may overestimate array gain, thereby
resulting in apparent failures to satisfy the out-of-band limits even if the device is actually
compliant. In such cases, compliance may be demonstrated by performing radiated tests around
the frequencies at which the apparent failures occurred.
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FCC Test Report
3.3.4
Report No. : FR711935-03AA
Test Setup
Transmitter Radiated Emissions
Above 1GHz
3.3.5
Test Result of Transmitter Radiated Unwanted Emissions
Refer as Appendix C
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FCC Test Report
Report No. : FR711935-03AA
Test Equipment and Calibration Data
Instrument
Manufacturer
Model No.
Serial No.
Characteristics
Calibration Date
Remark
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
8449B
3008A02310
1GHz ~ 26.5GHz
Jan. 16, 2017
Radiation
(03CH01-CB)
Pre-Amplifier
MITEQ
TTA1840-35-HG
1864479
18GHz ~ 40GHz
Jun. 28, 2016
Radiation
(03CH01-CB)
Spectrum Analyzer
R&S
FSP40
100056
9kHz ~ 40GHz
Nov. 22, 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)
Test Software
Audix
E3
6.2009-l0-7
N/A
N/A
Radiation
(03CH01-CB)
Spectrum analyzer
R&S
FSV40
100979
9kHz~40GHz
Dec. 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
1 GHz – 26.5 GHz
Oct. 24, 2016
Conducted
(TH01-CB)
RF Cable-high
Woken
RG402
High Cable-7
1 GHz –26.5 GHz
Oct. 24, 2016
Conducted
(TH01-CB)
RF Cable-high
Woken
RG402
High Cable-8
1 GHz –26.5 GHz
Oct. 24, 2016
Conducted
(TH01-CB)
RF Cable-high
Woken
RG402
High Cable-9
1 GHz –26.5 GHz
Oct. 24, 2016
Conducted
(TH01-CB)
RF Cable-high
Woken
RG402
High Cable-10
1 GHz –26.5 GHz
Oct. 24, 2016
Conducted
(TH01-CB)
Power Sensor
Agilent
U2021XA
MY53410001
50MHz~18GHz
Nov. 22, 2016
Conducted
(TH01-CB)
Note: Calibration Interval of instruments listed above is one year.
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Appendix A
AV Power Result
Summary
Mode
Total Power
Total Power
(dBm)
(W)
802.11b_(1Mbps)_4TX
2.4-2.4835GHz
29.52
0.89536
802.11g_(6Mbps)_4TX
2.4-2.4835GHz
25.14
0.32659
802.11n HT20_Nss1,(MCS0)_4TX
2.4-2.4835GHz
25.07
0.32137
802.11n HT40_Nss1,(MCS0)_4TX
2.4-2.4835GHz
24.28
0.26792
Result
Mode
Result
DG
Port 1
Port 2
Port 3
Port 4
Total Power
Power Limit
(dBi)
(dBm)
(dBm)
(dBm)
(dBm)
(dBm)
(dBm)
802.11b_(1Mbps)_4TX
2412MHz
Pass
1.00
23.17
23.02
23.16
23.25
29.17
30.00
2462MHz
Pass
1.00
23.50
23.41
23.71
23.37
29.52
30.00
802.11g_(6Mbps)_4TX
2412MHz
Pass
1.00
19.12
19.09
19.03
19.22
25.14
30.00
2462MHz
Pass
1.00
17.42
17.56
17.22
17.51
23.45
30.00
802.11n HT20_Nss1,(MCS0)_4TX
2412MHz
Pass
1.00
18.89
19.05
19.10
19.15
25.07
30.00
2462MHz
Pass
1.00
17.72
17.49
17.47
17.83
23.65
30.00
802.11n HT40_Nss1,(MCS0)_4TX
2422MHz
Pass
1.00
16.75
16.78
16.69
16.82
22.78
30.00
2452MHz
Pass
1.00
18.28
18.15
18.12
18.48
24.28
30.00
DG = Directional Gain; Port X = Port X output power
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Appendix B
PSD Result
Summary
Mode
PD
(dBm/RBW)
802.11b_(1Mbps)_4TX
2.4-2.4835GHz
0.59
802.11g_(6Mbps)_4TX
2.4-2.4835GHz
-3.72
802.11a HT20_Nss1,(MCS0)_4TX
2.4-2.4835GHz
-4.60
802.11a HT40_Nss1,(MCS0)_4TX
2.4-2.4835GHz
-6.38
RBW=3kHz.
Result
Mode
Result
DG
Port 1
Port 2
Port 3
Port 4
PD
PD Limit
(dBi)
(dBm/RBW)
(dBm/RBW)
(dBm/RBW)
(dBm/RBW)
(dBm/RBW)
(dBm/RBW)
802.11b_(1Mbps)_4TX
2412MHz
Pass
7.02
-5.71
-5.28
-5.12
-5.35
0.59
6.98
2462MHz
Pass
7.02
-5.16
-5.50
-5.03
-4.77
0.42
6.98
802.11g_(6Mbps)_4TX
2412MHz
Pass
7.02
-9.35
-8.25
-7.59
-7.73
-3.72
6.98
2462MHz
Pass
7.02
-9.11
-10.51
-10.19
-10.74
-5.37
6.98
802.11a HT20_Nss1,(MCS0)_4TX
2412MHz
Pass
7.02
-8.81
-9.26
-8.91
-8.90
-4.60
6.98
2462MHz
Pass
7.02
-10.65
-9.40
-10.96
-9.47
-6.41
6.98
802.11a HT40_Nss1,(MCS0)_4TX
2422MHz
Pass
7.02
-12.99
-13.60
-13.37
-12.79
-8.05
6.98
2452MHz
Pass
7.02
-9.79
-12.12
-10.58
-11.06
-6.38
6.98
DG = Directional Gain; RBW=3kHz;
PD = trace bin-by-bin of each transmits port summing can be performed maximum power density; Port X = Port X power density;
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Appendix B
PSD Result
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Appendix B
PSD Result
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Appendix B
PSD Result
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Appendix C
RSE TX above 1GHz Result
Summary
Mode
Result
Type
Freq
Level
Limit
Margin
Factor
Dist
Pol.
Azimuth
Height
(Hz)
(dBuV/m)
(dBuV/m)
(dB)
(dB)
(m)
(H/V)
(°)
(m)
Comments
802.11ac VHT40_Nss1,(MCS0)_4TX
2.4-2.4835GHz
Pass
AV
2.389G
53.99
54.00
-0.01
31.87
113
1.72
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Appendix C
RSE TX above 1GHz Result
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Appendix C
RSE TX above 1GHz Result
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Appendix C
RSE TX above 1GHz Result
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Appendix C
RSE TX above 1GHz Result
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Appendix C
RSE TX above 1GHz Result
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Appendix C
RSE TX above 1GHz Result
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Appendix C
RSE TX above 1GHz Result
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Appendix C
RSE TX above 1GHz Result
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Appendix C
RSE TX above 1GHz Result
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Appendix C
RSE TX above 1GHz Result
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Appendix C
RSE TX above 1GHz Result
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Appendix C
RSE TX above 1GHz Result
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Appendix C
RSE TX above 1GHz Result
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Appendix C
RSE TX above 1GHz Result
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Appendix C
RSE TX above 1GHz Result
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Appendix C
RSE TX above 1GHz Result
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Appendix C
RSE TX above 1GHz Result
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Appendix C
RSE TX above 1GHz Result
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Appendix C
RSE TX above 1GHz Result
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Appendix C
RSE TX above 1GHz Result
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Appendix C
RSE TX above 1GHz Result
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Appendix C
RSE TX above 1GHz Result
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Appendix C
RSE TX above 1GHz Result
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Appendix C
RSE TX above 1GHz Result
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Appendix C
RSE TX above 1GHz Result
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Appendix C
RSE TX above 1GHz Result
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Appendix C
RSE TX above 1GHz Result
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Appendix C
RSE TX above 1GHz Result
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Appendix C
RSE TX above 1GHz Result
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Appendix C
RSE TX above 1GHz Result
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Appendix C
RSE TX above 1GHz Result
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Appendix C
RSE TX above 1GHz Result
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