US-PR1 American gauge 10-16A round WiFi socket Test Report RF Shenzhen Yuandian Photoelectric Technology CO.,LTD.

Shenzhen Yuandian Photoelectric Technology CO.,LTD. American gauge 10-16A round WiFi socket

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Shenzhen Toby Technology Co., Ltd.
Report No.: TB-FCC159592
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1 of 77
FCC Radio Test Report
FCC ID: 2APQN-US-PR1
Original Grant
Report No.
TB-FCC159592
Applicant
Shenzhen Yuandian Photoelectric Technology CO.,LTD
Equipment Under Test (EUT)
EUT Name
American gauge 10-16A round WiFi socket
Model No.
US-PR1
Series Model No.
US-PR1, US-PR1+, US-P1, US-P2, US-P3, US-P1+, US-P2+,
US-P3+, US-P1L
Brand Name
campana
Receipt Date
2018-05-02
Test Date
2018-05-03 to 2018-05-09
Issue Date
2018-05-10
Standards
FCC Part 15, Subpart C (15.247: 2017)
Test Method
ANSI C63.10: 2013
Conclusions
PASS
In the configuration tested, the EUT complied with the standards specified above,
The EUT technically complies with the FCC and IC requirements
Test/Witness Engineer :
Engineer Supervisor
Engineer Manager
This report details the results of the testing carried out on one sample. The results contained in
this test report do not relate to other samples of the same product. The manufacturer should
ensure that all products in series production are in conformity with the product sample detailed in
the report.
TB-RF-074-1.0
1A/F., Bldg.6, Yusheng Industrial Zone, The National Road No.107 Xixiang Section 467, Xixiang,
Bao’an, Shenzhen, China
Tel: +86 75526509301
Fax: +86 75526509195
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Contents
CONTENTS............................................................................................................................................. 2
1.
GENERAL INFORMATION ABOUT EUT ............................................................................. 5
1.1 Client Information ................................................................................................................. 5
1.2 General Description of EUT (Equipment Under Test) ................................................... 5
1.3 Block Diagram Showing the Configuration of System Tested ...................................... 6
1.4 Description of Support Units .............................................................................................. 6
1.5 Description of Test Mode .................................................................................................... 6
1.6 Description of Test Software Setting ................................................................................ 8
1.7 Measurement Uncertainty .................................................................................................. 8
1.8 Test Facility ........................................................................................................................... 9
2.
TEST SUMMARY ..................................................................................................................... 10
3.
TEST EQUIPMENT .................................................................................................................. 11
4.
CONDUCTED EMISSION TEST ........................................................................................... 12
4.1 Test Standard and Limit .................................................................................................... 12
4.2 Test Setup ........................................................................................................................... 12
4.3 Test Procedure ................................................................................................................... 12
4.4 EUT Operating Mode ........................................................................................................ 13
4.5 Test Data ............................................................................................................................. 13
5.
RADIATED EMISSION TEST ................................................................................................ 14
5.1 Test Standard and Limit .................................................................................................... 14
5.2 Test Setup ........................................................................................................................... 15
5.3 Test Procedure ................................................................................................................... 16
5.4 EUT Operating Condition ................................................................................................. 17
5.5 Test Data ............................................................................................................................. 17
6.
RESTRICTED BANDS REQUIREMENT ............................................................................. 18
6.1 Test Standard and Limit .................................................................................................... 18
6.2 Test Setup ........................................................................................................................... 18
6.3 Test Procedure ................................................................................................................... 18
6.4 EUT Operating Condition ................................................................................................. 19
6.5 Test Data ............................................................................................................................. 19
7.
BANDWIDTH TEST ................................................................................................................. 20
7.1 Test Standard and Limit .................................................................................................... 20
7.2 Test Setup ........................................................................................................................... 20
7.3 Test Procedure ................................................................................................................... 20
7.4 EUT Operating Condition ................................................................................................. 20
7.5 Test Data ............................................................................................................................. 20
8.
PEAK OUTPUT POWER TEST............................................................................................. 21
8.1 Test Standard and Limit .................................................................................................... 21
TB-RF-074-1.0
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8.2 Test Setup ........................................................................................................................... 21
8.3 Test Procedure ................................................................................................................... 21
8.4 EUT Operating Condition ................................................................................................. 21
8.5 Test Data ............................................................................................................................. 21
9.
POWER SPECTRAL DENSITY TEST ................................................................................. 22
9.1 Test Standard and Limit .................................................................................................... 22
9.2 Test Setup ........................................................................................................................... 22
9.3 Test Procedure ................................................................................................................... 22
9.4 EUT Operating Condition ................................................................................................. 22
9.5 Test Data ............................................................................................................................. 22
10.
ANTENNA REQUIREMENT................................................................................................... 23
10.1 Standard Requirement .................................................................................................... 23
10.2 Antenna Connected Construction ................................................................................. 23
ATTACHMENT A-- CONDUCTED EMISSION TEST DATA ....................................................... 24
ATTACHMENT B-- RADIATED EMISSION TEST DATA ............................................................ 28
ATTACHMENT C-- RESTRICTED BANDS REQUIREMENT TEST DATA .............................. 48
ATTACHMENT D-- BANDWIDTH TEST DATA ............................................................................. 63
ATTACHMENT E-- PEAK OUTPUT POWER TEST DATA ......................................................... 69
ATTACHMENT F-- POWER SPECTRAL DENSITY TEST DATA .............................................. 72
TB-RF-074-1.0
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Revision History
Report No.
Version
Description
Issued Date
TB-FCC159592
Rev.01
Initial issue of report
2018-05-10
TB-RF-074-1.0
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1. General Information about EUT
1.1 Client Information
Applicant
: Shenzhen Yuandian Photoelectric Technology CO.,LTD
Address
Manufacturer
: Shenzhen Yuandian Photoelectric Technology CO.,LTD
Address
Room 423A and 426, 4th floor, China Electronics Factory, No.2, Fuan
Avenue, Pinghu street, Longgang District, Shenzhen, China
Room 423A and 426, 4th floor, China Electronics Factory, No.2, Fuan
Avenue, Pinghu street, Longgang District, Shenzhen, China
1.2 General Description of EUT (Equipment Under Test)
EUT Name
Models No.
Models
Difference
: American gauge 10-16A round WiFi socket
US-PR1, US-PR1, US-PR1+, US-P1, US-P2, US-P3, US-P1+,
US-P2+, US-P3+, US-P1L
All these models are identical in the same PCB layout and electrical
circuit, the only difference is the appearance and size.
Operation Frequency: 802.11b/g/n(HT20): 2412MHz~2462MHz
Product
Description
Number of Channel:
802.11b/g/n(HT20):11 channels see note(3)
RF Output Power:
802.11b: 17.52dBm
802.11g: 16.48dBm
802.11n (HT20): 16.35dBm
Antenna Gain:
2dBi PCB Antenna
Modulation Type:
802.11b: DSSS(CCK, DQPSK, DBPSK)
802.11g/n: OFDM(BPSK,QPSK,16QAM,
64QAM)
Power Supply
: AC Voltage supplied
Power Rating
: Input: AC 85~230V, 50/60Hz, 10A
Software
: oem_esp_switch V0.1.2
Version
Hardware
: V1.0.2
Version
Connecting
Please refer to the User's Manual
I/O Port(S)
Note:
(1) This Test Report is FCC Part 15.247 for 802.11b/g/n, the test procedure follows the FCC
KDB 558074 D01 DTS Meas Guidance v04.
(2) For a more detailed features description, please refer to the manufacturer’s specifications or
the User’s Manual.
TB-RF-074-1.0
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(3) Channel List:
Channel
01
02
03
04
Frequency
(MHz)
2412
2417
2422
2427
Channel
05
06
07
08
Frequency
(MHz)
2432
2437
2442
2447
Channel
09
10
11
Frequency
(MHz)
2452
2457
2462
Note: CH 01~CH 11 for 802.11b/g/n(HT20)
(4) The Antenna information about the equipment is provided by the applicant.
1.3 Block Diagram Showing the Configuration of System Tested
Normal Working Mode
AC Voltage supplied
EUT
TX Mode
AC Voltage supplied
EUT
1.4 Description of Support Units
The EUT has been tested as an independent unit.
1.5 Description of Test Mode
To investigate the maximum EMI emission characteristics generates from EUT, the test
system was pre-scanning tested base on the consideration of following EUT operation mode
or test configuration mode which possible have effect on EMI emission level. Each of these
EUT operation mode(s) or test configuration mode(s) mentioned follow was evaluated
respectively.
TB-RF-074-1.0
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For Conducted Test
Final Test Mode
Description
Mode 1
Normal Working with TX B Mode
For Radiated Test
Final Test Mode
Description
Mode 2
TX Mode B Mode Channel 01/06/11
Mode 3
TX Mode G Mode Channel 01/06/11
Mode 4
TX Mode N(HT20) Mode Channel 01/06/11
Note:
(1) For all test, we have verified the construction and function in typical operation. And all the
test modes were carried out with the EUT in transmitting operation in maximum power with
all kinds of data rate.
According to ANSI C63.10 standards, the measurements are performed at the highest,
Middle, lowest available channels, and the worst case data rate as follows:
802.11b Mode: CCK (1 Mbps)
802.11g Mode: OFDM (6 Mbps)
802.11n (HT20) Mode: MCS 0 (6.5 Mbps)
(2) During the testing procedure, the continuously transmitting with the maximum power
mode was programmed by the customer.
(3) The EUT is considered a portable unit; in normal use it was positioned on X-plane. The
worst case was found positioned on X-plane. Therefore only the test data of this X-plane
was used for radiated emission measurement test.
TB-RF-074-1.0
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1.6 Description of Test Software Setting
During testing channel & Power controlling software provided by the customer was used to
control the operating channel as well as the output power level. The RF output power
selection is for the setting of RF output power expected by the customer and is going to be
fixed on the firmware of the final end product power parameters of WLAN.
Test Software Version
SecureCRT.exe
Channel
CH 01
CH 06
CH 11
IEEE 802.11b DSSS
248
IEEE 802.11g OFDM
24
24
16
IEEE 802.11n (HT20)
25
45
45
1.7 Measurement Uncertainty
The reported uncertainty of measurement y ± U,where expended uncertainty U is based on
a standard uncertainty multiplied by a coverage factor of k=2 , providing a level of
confidence of approximately 95 %.
Test Item
Parameters
Expanded Uncertainty (ULab)
Conducted Emission
Level Accuracy:
9kHz~150kHz
150kHz to 30MHz
±3.42 dB
±3.42 dB
Radiated Emission
Level Accuracy:
9kHz to 30 MHz
±4.60 dB
Radiated Emission
Level Accuracy:
30MHz to 1000 MHz
±4.40 dB
Radiated Emission
Level Accuracy:
Above 1000MHz
±4.20 dB
TB-RF-074-1.0
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1.8 Test Facility
The testing report were performed by the Shenzhen Toby Technology Co., Ltd., in their
facilities located at 1A/F., Bldg.6, Yusheng Industrial Zone, The National Road No.107
Xixiang Section 467, Xixiang, Bao’an, Shenzhen, Guangdong, China. At the time of testing,
the following bodies accredited the Laboratory:
CNAS (L5813)
The Laboratory has been accredited by CNAS to ISO/IEC 17025: 2005 General
Requirements for the Competence of Testing and Calibration Laboratories for the
competence in the field of testing. And the Registration No.: CNAS L5813.
A2LA Certificate No.: 4750.01
The laboratory has been accredited by American Association for Laboratory
Accreditation(A2LA) to ISO/IEC 17025:2005 General Requirements for the Competence of
Testing and Calibration Laboratories for the technical competence in the field of Electrical
Testing. And the A2LA Certificate No.: 4750.01.
IC Registration No.: (11950A-1)
The Laboratory has been registered by Certification and Engineering Bureau of Industry
Canada for radio equipment testing. The site registration: Site# 11950A-1.
TB-RF-074-1.0
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2. Test Summary
FCC Part 15 Subpart C(15.247)/ RSS 247 Issue 2
Standard Section
FCC
IC
Test Item
Judgment
Remark
Antenna Requirement
PASS
N/A
15.203
15.207
RSS-GEN 7.2.4
Conducted Emission
PASS
N/A
15.205
RSS-GEN 7.2.2
Restricted Bands
PASS
N/A
15.247(a)(2)
RSS 247
5.2 (1)
6dB Bandwidth
PASS
N/A
15.247(b)
RSS 247
5.4 (4)
Peak Output Power
PASS
N/A
15.247(e)
RSS 247
5.2 (2)
Power Spectral Density
PASS
N/A
15.247(d)
RSS 247
5.5
Band Edge
PASS
N/A
15.247(d)&
15.209
RSS 247
5.5
Transmitter Radiated Spurious
Emission
PASS
N/A
Note: “/” for no requirement for this test item.
N/A is an abbreviation for Not Applicable.
TB-RF-074-1.0
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3. Test Equipment
Conducted Emission Test
Equipment
Manufacturer
Model No.
Serial No.
Last Cal.
Cal. Due
Date
EMI Test Receiver
Rohde & Schwarz
ESCI
100321
Jul. 20, 2017
Jul. 19, 2018
RF Switching Unit
Compliance
Direction Systems
Inc
RSU-A4
34403
Jul. 20, 2017
Jul. 19, 2018
AMN
SCHWARZBECK
NNBL 8226-2
8226-2/164
Jul. 20, 2017
Jul. 19, 2018
LISN
Rohde & Schwarz
ENV216
101131
Jul. 20, 2017
Jul. 19, 2018
Manufacturer
Model No.
Serial No.
Last Cal.
Cal. Due
Date
Agilent
E4407B
MY45106456
Jul. 20, 2017
Jul. 19, 2018
Rohde & Schwarz
ESPI
100010/007
Jul. 20, 2017
Jul. 19, 2018
Bilog Antenna
ETS-LINDGREN
3142E
00117537
Mar.16, 2018
Mar. 15, 2019
Bilog Antenna
ETS-LINDGREN
3142E
00117542
Mar.16, 2018
Mar. 15, 2019
Horn Antenna
ETS-LINDGREN
3117
00143207
Mar.16, 2018
Mar. 15, 2019
Horn Antenna
ETS-LINDGREN
3117
00143209
Mar.16, 2018
Mar. 15, 2019
Loop Antenna
SCHWARZBECK
FMZB 1519 B
1519B-059
Jul. 03, 2017
Jul. 02, 2018
Pre-amplifier
Sonoma
310N
185903
Mar.16, 2018
Mar. 15, 2019
Pre-amplifier
HP
8449B
3008A00849
Mar.16, 2018
Mar. 15, 2019
Cable
HUBER+SUHNER
100
SUCOFLEX
Mar.16, 2018
Mar. 15, 2019
Positioning Controller
ETS-LINDGREN
2090
N/A
N/A
N/A
Radiation Emission Test
Equipment
Spectrum
Analyzer
EMI Test
Receiver
Antenna Conducted Emission
Equipment
Manufacturer
Model No.
Serial No.
Last Cal.
Cal. Due
Date
Spectrum Analyzer
Agilent
E4407B
MY45106456
Jul. 20, 2017
Jul. 19, 2018
Spectrum Analyzer
Rohde & Schwarz
ESCI
100010/007
Jul. 20, 2017
Jul. 19, 2018
MXA Signal Analyzer
Agilent
N9020A
MY49100060
Oct. 26, 2017
Oct. 25, 2018
Agilent
N5182A
MY50141294
Oct. 26, 2017
Oct. 25, 2018
Agilent
N5181A
MY50141953
Oct. 26, 2017
Oct. 25, 2018
DARE!! Instruments
RadiPowerRPR3006W
17I00015SNO26
Oct. 26, 2017
Oct. 25, 2018
DARE!! Instruments
RadiPowerRPR3006W
17I00015SNO29
Oct. 26, 2017
Oct. 25, 2018
DARE!! Instruments
RadiPowerRPR3006W
17I00015SNO31
Oct. 26, 2017
Oct. 25, 2018
DARE!! Instruments
RadiPowerRPR3006W
17I00015SNO33
Oct. 26, 2017
Oct. 25, 2018
Vector Signal
Generator
Analog Signal
Generator
RF Power Sensor
TB-RF-074-1.0
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4. Conducted Emission Test
4.1 Test Standard and Limit
4.1.1Test Standard
FCC Part 15.207
4.1.2 Test Limit
Conducted Emission Test Limit
Maximum RF Line Voltage (dBV)
Frequency
Quasi-peak Level
Average Level
150kHz~500kHz
66 ~ 56 *
56 ~ 46 *
500kHz~5MHz
56
46
5MHz~30MHz
60
50
Notes:
(1) *Decreasing linearly with logarithm of the frequency.
(2) The lower limit shall apply at the transition frequencies.
(3) The limit decrease in line with the logarithm of the frequency in the range of 0.15 to
0.50MHz.
4.2 Test Setup
4.3 Test Procedure
The EUT was placed 0.8 meters from the horizontal ground plane with EUT being
connected to the power mains through a line impedance stabilization network (LISN). All
other support equipments powered from additional LISN(s). The LISN provide 50 Ohm/
50uH of coupling impedance for the measuring instrument.
Interconnecting cables that hang closer than 40 cm to the ground plane shall be folded back
and forth in the center forming a bundle 30 to 40 cm long.
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I/O cables that are not connected to a peripheral shall be bundled in the center. The end of
the cable may be terminated, if required, using the correct terminating impedance. The
overall length shall not exceed 1 m.
LISN at least 80 cm from nearest part of EUT chassis.
The bandwidth of EMI test receiver is set at 9kHz, and the test frequency band is from
0.15MHz to 30MHz.
4.4 EUT Operating Mode
Please refer to the description of test mode.
4.5 Test Data
Please refer to the Attachment A.
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5. Radiated Emission Test
5.1 Test Standard and Limit
5.1.1 Test Standard
FCC Part 15.209
5.1.2 Test Limit
Radiated Emission Limits ( 9 kHz~1000 MHz)
Frequency
(MHz
Field Strength
(microvolt/meter)
Measurement Distance
(meters)
0.009~0.490
2400/F(KHz)
300
0.490~1.705
24000/F(KHz)
30
1.705~30.0
30
30
30~88
100
88~216
150
216~960
200
Above 960
500
Radiated Emission Limit (Above 1000MHz)
Frequency
(MHz)
Above 1000
Distance of 3m (dBuV/m)
Peak
Average
74
54
Note:
(1) The tighter limit applies at the band edges.
(2) Emission Level(dBuV/m)=20log Emission Level(uV/m)
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5.2 Test Setup
Below 30MHz Test Setup
Below 1000MHz Test Setup
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Above 1GHz Test Setup
5.3 Test Procedure
(1) Measurements at frequency above 1GHz. The EUT was placed on a rotating 1.5m high
above the ground. RF absorbers covered the ground plane with a minimum area of 3.0m by
3.0m between the EUT and measurement receiver antenna. The RF absorber shall not
exceed 30cm in high above the conducting floor. The table was rotated 360 degrees to
determine the position of the highest radiation.
(2) Measurements at frequency below 1GHz. The EUT was placed on a rotating 1.5m high above
the ground. RF absorbers covered the ground plane with a minimum area of 3.0m by 3.0m
between the EUT and measurement receiver antenna. The RF absorber shall not exceed
30cm in high above the conducting floor. The table was rotated 360 degrees to determine the
position of the highest radiation.
(3) The Test antenna shall vary between 1m and 4m, Both Horizontal and Vertical antenna are
set to make measurement.
(4) The initial step in collecting conducted emission data is a spectrum analyzer peak detector
mode pre-scanning the measurement frequency range. Significant peaks are then marked
and then Quasi Peak detector mode re-measured.
(5) If the Peak Mode measured value compliance with and lower than Quasi Peak Mode Limit
Bellow 1 GHz, the EUT shall be deemed to meet QP Limits and then no additional QP Mode
measurement performed. But the Peak Value and average value both need to comply with
applicable limit above 1 GHz.
(6) Testing frequency range below 1GHz the measuring instrument use VBW=120 kHz with
Quasi-peak detection.
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(7) Testing frequency range above 1GHz the measuring instrument use RBW=1 MHz and
VBW=3 MHz with Peak Detector for Peak Values, and use RBW=1 MHz and VBW=10 Hz
with Peak Detector for Average Values.
(8) For the actual test configuration, please see the test setup photo.
5.4 EUT Operating Condition
The Equipment Under Test was set to Continual Transmitting in maximum power.
5.5 Test Data
Remark: During testing above 1GHz the measuring instrument use RBW=1 MHz and VBW=3
MHz with Peak Detector for Peak Values, and use RBW=1 MHz and VBW=10 Hz with
Peak Detector for Average Values.
Please refer to the Attachment B.
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6. Restricted Bands Requirement
6.1 Test Standard and Limit
6.1.1 Test Standard
FCC Part 15.247(d)
FCC Part 15.209
FCC Part 15.205
6.1.2 Test Limit
Restricted Frequency
Band
(MHz)
2310 ~2390
2483.5 ~2500
Distance of 3m (dBuV/m)
Peak
Average
74
54
74
54
6.2 Test Setup
6.3 Test Procedure
(1) The measuring distance of 3m shall be used for measurements at frequency up to 1GHz and
above 1 GHz. The EUT was placed on a rotating 0.8m high above ground, the table was
rotated 360 degrees to determine the position of the highest radiation.
(2) Measurements at frequency above 1GHz. The EUT was placed on a rotating 1.5m high
above the ground. RF absorbers covered the ground plane with a minimum area of 3.0m by
3.0m between the EUT and measurement receiver antenna. The RF absorber shall not
exceed 30cm in high above the conducting floor. The table was rotated 360 degrees to
determine the position of the highest radiation.
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(3) The Test antenna shall vary between 1m and 4m, Both Horizontal and Vertical antenna are
set to make measurement.
(4) The initial step in collecting conducted emission data is a spectrum analyzer peak detector
mode pre-scanning the measurement frequency range. Significant peaks are then marked
and then Quasi Peak detector mode re-measured.
(5) If the Peak Mode measured value compliance with and lower than Quasi Peak Mode Limit
Bellow 1 GHz, the EUT shall be deemed to meet QP Limits and then no additional QP Mode
measurement performed. But the Peak Value and average value both need to comply with
applicable limit above 1 GHz.
(6) Testing frequency range below 1GHz the measuring instrument use VBW=120 kHz with
Quasi-peak detection.
(7) Testing frequency range above 1GHz the measuring instrument use RBW=1 MHz and
VBW=3 MHz with Peak Detector for Peak Values, and use RBW=1 MHz and VBW=10 Hz
with Peak Detector for Average Values.
(8) For the actual test configuration, please see the test setup photo.
6.4 EUT Operating Condition
The Equipment Under Test was set to Continual Transmitting in maximum power.
6.5 Test Data
Please refer to the Attachment C.
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7. Bandwidth Test
7.1 Test Standard and Limit
7.1.1 Test Standard
FCC Part 15.247 (a)(2)
7.1.2 Test Limit
FCC Part 15 Subpart C(15.247)/RSS-210
Test Item
Limit
Frequency Range(MHz)
Bandwidth
>=500 KHz
(6dB bandwidth)
2400~2483.5
7.2 Test Setup
7.3 Test Procedure
(1) The EUT was directly connected to the spectrum analyzer and antenna output port as show
in the block diagram above.
(2) The bandwidth is measured at an amplitude level reduced 6dB from the reference level. The
reference level is the level of the highest amplitude signal observed from the transmitter at
the fundamental frequency. Once the reference level is established, the equipment is
conditioned with typical modulating signal to produce the worst –case (i.e the widest)
bandwidth.
(3)Measure the channel separation the spectrum analyzer was set to Resolution Bandwidth:100
kHz, and Video Bandwidth:300 kHz, Detector: Peak, Sweep Time set auto.
7.4 EUT Operating Condition
The EUT was set to continuously transmitting in each mode and low, Digital photo framesdle
and high channel for the test.
7.5 Test Data
Please refer to the Attachment D.
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8. Peak Output Power Test
8.1 Test Standard and Limit
8.1.1 Test Standard
FCC Part 15.247 (b)
8.1.2 Test Limit
FCC Part 15 Subpart C(15.247)/RSS-210
Test Item
Peak Output Power
Limit
1 Watt or 30 dBm
Frequency Range(MHz)
2400~2483.5
8.2 Test Setup
8.3 Test Procedure
The measurement is according to section 9.1.2 of KDB 558074 D01 DTS Meas Guidance v04.
The EUT was connected to RF power meter via a broadband power sensor as show the block
above. The power sensor video bandwidth is greater than or equal to the DTS bandwidth of the
equipment.
8.4 EUT Operating Condition
The EUT was set to continuously transmitting in the max power during the test.
8.5 Test Data
Please refer to the Attachment E.
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9. Power Spectral Density Test
9.1 Test Standard and Limit
9.1.1 Test Standard
FCC Part 15.247 (e)
9.1.2 Test Limit
FCC Part 15 Subpart C(15.247)
Test Item
Limit
Frequency Range(MHz)
Power Spectral Density
8dBm(in any 3 kHz)
2400~2483.5
9.2 Test Setup
9.3 Test Procedure
The EUT was directly connected to the Spectrum Analyzer and antenna output port as show in
the block diagram above. The measurement according to section 10.2 of KDB 558074 D01 DTS
Meas Guidance v04.
(1) The EUT was directly connected to the spectrum analyzer and antenna output port as show
in the block diagram above.
(2) Set analyser center frequency to DTS channel center frequency.
(3) Set the span to 1.5 times the DTS bandwidth.
(4) Set the RBW to: 3 kHz
(5) Set the VBW to: 10 kHz
(6) Detector: peak
(7) Sweep time: auto
(8) Allow trace to fully stabilize. Then use the peak marker function to determine the maximum
amplitude level.
9.4 EUT Operating Condition
The EUT was set to continuously transmitting in each mode and low, Digital photo framesdle and
high channel for the test.
9.5 Test Data
Please refer to the Attachment F.
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10. Antenna Requirement
10.1 Standard Requirement
10.1.1 Standard
FCC Part 15.203
10.1.2 Requirement
An intentional radiator shall be designed to ensure that no antenna other than that
furnished by the responsible party shall be used with the device. The use of a
permanently attached antenna or of an antenna that uses a unique coupling to the
intentional radiator shall be considered sufficient to comply with the provisions of this
Section. The manufacturer may design the unit so that a broken antenna can be
replaced by the user, but the use of a standard antenna jack or electrical connector is
prohibited.
10.2 Antenna Connected Construction
The gains of the antenna used for transmitting is 2dBi, and the antenna de-signed with
permanent attachment and no consideration of replacement. Please see the EUT photo for
details.
Result
The EUT antenna is a PCB Antenna. It complies with the standard requirement.
Antenna Type
Permanent attached antenna
Unique connector antenna
Professional installation antenna
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Attachment A-- Conducted Emission Test Data
Temperature:
25 ℃
Test Voltage:
AC 120V/60Hz
Terminal:
Line
Test Mode:
Normal working with TX B Mode
Remark:
Only worse case is reported
Relative Humidity:
55%
Emission Level= Read Level+ Correct Factor
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Temperature:
25 ℃
Test Voltage:
AC 120V/60Hz
Terminal:
Neutral
Test Mode:
Normal working with TX B Mode
Remark:
Only worse case is reported
Relative Humidity:
55%
Emission Level= Read Level+ Correct Factor
TB-RF-074-1.0
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Temperature:
25 ℃
Test Voltage:
AC 240V/50Hz
Terminal:
Line
Test Mode:
Normal working with TX B Mode
Remark:
Only worse case is reported
Relative Humidity:
55%
Emission Level= Read Level+ Correct Factor
TB-RF-074-1.0
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Temperature:
25 ℃
Test Voltage:
AC 240V/50Hz
Terminal:
Neutral
Test Mode:
Normal working with TX B Mode
Remark:
Only worse case is reported
Relative Humidity:
55%
Emission Level= Read Level+ Correct Factor
TB-RF-074-1.0
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Attachment B-- Radiated Emission Test Data
9KHz~30MHz
From 9KHz to 30MHz: Conclusion: PASS
Note: The amplitude of spurious emissions which are attenuated by more than 20dB
below the permissible value has no need to be reported.
30MHz~1GHz
Temperature:
25 ℃
Test Voltage:
AC 120V/60HZ
Ant. Pol.
Horizontal
Test Mode:
TX B Mode 2412MHz
Remark:
Only worse case is reported
Relative Humidity:
55%
Emission Level= Read Level+ Correct Factor
TB-RF-074-1.0
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Temperature:
25 ℃
Test Voltage:
AC 120V/60HZ
Ant. Pol.
Vertical
Test Mode:
TX B Mode 2412MHz
Remark:
Only worse case is reported
Relative Humidity:
55%
Emission Level= Read Level+ Correct Factor
TB-RF-074-1.0
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Above 1GHz
Temperature:
25 ℃
Test Voltage:
AC 120V/60HZ
Ant. Pol.
Horizontal
Test Mode:
TX B Mode 2412MHz
Remark:
No report for the emission which more than 10 dB below the prescribed
limit.
Relative Humidity:
55%
Emission Level= Read Level+ Correct Factor
TB-RF-074-1.0
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Temperature:
25 ℃
Test Voltage:
AC 120V/60HZ
Ant. Pol.
Vertical
Test Mode:
TX B Mode 2412MHz
Remark:
No report for the emission which more than 10 dB below the
prescribed limit.
Relative Humidity:
55%
Emission Level= Read Level+ Correct Factor
TB-RF-074-1.0
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Temperature:
25 ℃
Test Voltage:
AC 120V/60HZ
Ant. Pol.
Horizontal
Test Mode:
TX B Mode 2437MHz
Remark:
No report for the emission which more than 10 dB below the
prescribed limit.
Relative Humidity:
55%
Emission Level= Read Level+ Correct Factor
TB-RF-074-1.0
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Temperature:
25 ℃
Test Voltage:
AC 120V/60HZ
Ant. Pol.
Vertical
Test Mode:
TX B Mode 2437MHz
Remark:
No report for the emission which more than 10 dB below the
prescribed limit.
Relative Humidity:
55%
Emission Level= Read Level+ Correct Factor
TB-RF-074-1.0
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Temperature:
25 ℃
Test Voltage:
AC 120V/60HZ
Ant. Pol.
Horizontal
Test Mode:
TX B Mode 2462MHz
Remark:
No report for the emission which more than 10 dB below the
prescribed limit.
Relative Humidity:
55%
Emission Level= Read Level+ Correct Factor
TB-RF-074-1.0
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Temperature:
25 ℃
Test Voltage:
AC 120V/60HZ
Ant. Pol.
Vertical
Test Mode:
TX B Mode 2462MHz
Remark:
No report for the emission which more than 10 dB below the
prescribed limit.
Relative Humidity:
55%
Emission Level= Read Level+ Correct Factor
TB-RF-074-1.0
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Temperature:
25 ℃
Test Voltage:
AC 120V/60HZ
Ant. Pol.
Horizontal
Test Mode:
TX G Mode 2412MHz
Remark:
No report for the emission which more than 10 dB below the
prescribed limit.
Relative Humidity:
55%
Emission Level= Read Level+ Correct Factor
TB-RF-074-1.0
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Temperature:
25 ℃
Test Voltage:
AC 120V/60HZ
Ant. Pol.
Vertical
Test Mode:
TX G Mode 2412MHz
Remark:
No report for the emission which more than 10 dB below the
prescribed limit.
Relative Humidity:
55%
Emission Level= Read Level+ Correct Factor
TB-RF-074-1.0
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Temperature:
25 ℃
Test Voltage:
AC 120V/60HZ
Ant. Pol.
Horizontal
Test Mode:
TX G Mode 2437MHz
Remark:
No report for the emission which more than 10 dB below the
prescribed limit.
Relative Humidity:
55%
Emission Level= Read Level+ Correct Factor
TB-RF-074-1.0
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Temperature:
25 ℃
Test Voltage:
AC 120V/60HZ
Ant. Pol.
Vertical
Test Mode:
TX G Mode 2437MHz
Remark:
No report for the emission which more than 10 dB below the
prescribed limit.
Relative Humidity:
55%
Emission Level= Read Level+ Correct Factor
TB-RF-074-1.0
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Temperature:
25 ℃
Test Voltage:
AC 120V/60HZ
Ant. Pol.
Horizontal
Test Mode:
TX G Mode 2462MHz
Remark:
No report for the emission which more than 10 dB below the
prescribed limit.
Relative Humidity:
55%
Emission Level= Read Level+ Correct Factor
TB-RF-074-1.0
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Temperature:
25 ℃
Test Voltage:
AC 120V/60HZ
Ant. Pol.
Vertical
Test Mode:
TX G Mode 2462MHz
Remark:
No report for the emission which more than 10 dB below the
prescribed limit.
Relative Humidity:
55%
Emission Level= Read Level+ Correct Factor
TB-RF-074-1.0
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Temperature:
25 ℃
Test Voltage:
AC 120V/60HZ
Ant. Pol.
Horizontal
Test Mode:
TX N(HT20) Mode 2412MHz
Remark:
No report for the emission which more than 10 dB below the
prescribed limit.
Relative Humidity:
55%
Emission Level= Read Level+ Correct Factor
TB-RF-074-1.0
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Temperature:
25 ℃
Test Voltage:
AC 120V/60HZ
Ant. Pol.
Vertical
Test Mode:
TX N(HT20) Mode 2412MHz
Remark:
No report for the emission which more than 10 dB below the
prescribed limit.
Relative Humidity:
55%
Emission Level= Read Level+ Correct Factor
TB-RF-074-1.0
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Temperature:
25 ℃
Test Voltage:
AC 120V/60HZ
Ant. Pol.
Horizontal
Test Mode:
TX N(HT20) Mode 2437MHz
Remark:
No report for the emission which more than 10 dB below the
prescribed limit.
Relative Humidity:
55%
Emission Level= Read Level+ Correct Factor
TB-RF-074-1.0
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Temperature:
25 ℃
Test Voltage:
AC 120V/60HZ
Ant. Pol.
Vertical
Test Mode:
TX N(HT20) Mode 2437MHz
Remark:
No report for the emission which more than 10 dB below the
prescribed limit.
Relative Humidity:
55%
Emission Level= Read Level+ Correct Factor
TB-RF-074-1.0
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Temperature:
25 ℃
Test Voltage:
AC 120V/60HZ
Ant. Pol.
Horizontal
Test Mode:
TX N(HT20) Mode 2462MHz
Remark:
No report for the emission which more than 10 dB below the
prescribed limit.
Relative Humidity:
55%
Emission Level= Read Level+ Correct Factor
TB-RF-074-1.0
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Temperature:
25 ℃
Test Voltage:
AC 120V/60HZ
Ant. Pol.
Vertical
Test Mode:
TX N(HT20) Mode 2462MHz
Remark:
No report for the emission which more than 10 dB below the
prescribed limit.
Relative Humidity:
55%
Emission Level= Read Level+ Correct Factor
TB-RF-074-1.0
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Attachment C-- Restricted Bands Requirement Test Data
(1) Radiation Test
Temperature:
25 ℃
Test Voltage:
AC 120V/60HZ
Ant. Pol.
Horizontal
Test Mode:
TX B Mode 2412MHz
Remark:
N/A
Relative Humidity:
55%
Fundamental Frequency
Fundamental Frequency
Emission Level= Read Level+ Correct Factor
TB-RF-074-1.0
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Temperature:
25 ℃
Test Voltage:
AC 120V/60HZ
Ant. Pol.
Vertical
Test Mode:
TX B Mode 2412MHz
Remark:
N/A
Relative Humidity:
55%
Fundamental Frequency
Fundamental Frequency
Emission Level= Read Level+ Correct Factor
TB-RF-074-1.0
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Temperature:
25 ℃
Test Voltage:
AC 120V/60HZ
Ant. Pol.
Horizontal
Test Mode:
TX B Mode 2462MHz
Remark:
N/A
Relative Humidity:
55%
Fundamental Frequency
Fundamental Frequency
Emission Level= Read Level+ Correct Factor
TB-RF-074-1.0
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Temperature:
25 ℃
Test Voltage:
AC 120V/60HZ
Ant. Pol.
Vertical
Test Mode:
TX B Mode 2462MHz
Remark:
N/A
Relative Humidity:
55%
Fundamental Frequency
Fundamental Frequency
Emission Level= Read Level+ Correct Factor
TB-RF-074-1.0
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Temperature:
25 ℃
Test Voltage:
AC 120V/60HZ
Ant. Pol.
Horizontal
Test Mode:
TX G Mode 2412MHz
Remark:
N/A
Relative Humidity:
55%
Fundamental Frequency
Fundamental Frequency
Emission Level= Read Level+ Correct Factor
TB-RF-074-1.0
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Temperature:
25 ℃
Test Voltage:
AC 120V/60HZ
Ant. Pol.
Vertical
Test Mode:
TX G Mode 2412MHz
Remark:
N/A
Relative Humidity:
55%
Fundamental Frequency
Fundamental Frequency
Emission Level= Read Level+ Correct Factor
TB-RF-074-1.0
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Temperature:
25 ℃
Test Voltage:
AC 120V/60HZ
Ant. Pol.
Horizontal
Test Mode:
TX G Mode 2462MHz
Remark:
N/A
Relative Humidity:
55%
Fundamental Frequency
Fundamental Frequency
Emission Level= Read Level+ Correct Factor
TB-RF-074-1.0
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Temperature:
25 ℃
Test Voltage:
AC 120V/60HZ
Ant. Pol.
Vertical
Test Mode:
TX G Mode 2462MHz
Remark:
N/A
Relative Humidity:
55%
Fundamental Frequency
Fundamental Frequency
Emission Level= Read Level+ Correct Factor
TB-RF-074-1.0
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Temperature:
25 ℃
Test Voltage:
AC 120V/60HZ
Ant. Pol.
Horizontal
Test Mode:
TX N(HT20) Mode 2412MHz
Remark:
N/A
Relative Humidity:
55%
Fundamental Frequency
Fundamental Frequency
Emission Level= Read Level+ Correct Factor
TB-RF-074-1.0
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Temperature:
25 ℃
Test Voltage:
AC 120V/60HZ
Ant. Pol.
Vertical
Test Mode:
TX N(HT20) Mode 2412MHz
Remark:
N/A
Relative Humidity:
55%
Fundamental Frequency
Fundamental Frequency
Emission Level= Read Level+ Correct Factor
TB-RF-074-1.0
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Temperature:
25 ℃
Test Voltage:
AC 120V/60HZ
Ant. Pol.
Horizontal
Test Mode:
TX N(HT20) Mode 2462MHz
Remark:
N/A
Relative Humidity:
55%
Fundamental Frequency
Fundamental Frequency
Emission Level= Read Level+ Correct Factor
TB-RF-074-1.0
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Temperature:
25 ℃
Test Voltage:
AC 120V/60HZ
Ant. Pol.
Vertical
Test Mode:
TX N(HT20) Mode 2462MHz
Remark:
N/A
Relative Humidity:
55%
Fundamental Frequency
Fundamental Frequency
Emission Level= Read Level+ Correct Factor
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(2) Conducted Test
Temperature:
25 ℃
Test Voltage:
AC 120V/60HZ
Test Mode:
TX B Mode 2412MHz / TX B Mode 2462MHz
Remark:
The EUT is programed in continuously transmitting mode
Relative Humidity:
55%
TB-RF-074-1.0
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Temperature:
25 ℃
Test Voltage:
AC 120V/60HZ
Test Mode:
TX G Mode 2412MHz / TX G Mode 2462MHz
Remark:
The EUT is programed in continuously transmitting mode
Relative Humidity:
55%
TB-RF-074-1.0
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Temperature:
25 ℃
Test Voltage:
AC 120V/60HZ
Test Mode:
TX N(HT20) Mode 2412MHz / TX N(HT20) Mode 2462MHz
Remark:
The EUT is programed in continuously transmitting mode
Relative Humidity:
55%
TB-RF-074-1.0
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Attachment D-- Bandwidth Test Data
Temperature:
25 ℃
Test Voltage:
AC 120V/60HZ
Test Mode:
TX 802.11B Mode
Relative Humidity:
Channel frequency
(MHz)
6dB Bandwidth
(MHz)
99% Bandwidth
(MHz)
2412
9.033
11.842
2437
8.559
10.801
2462
9.031
11.179
55%
Limit
(MHz)
>=0.5
802.11B Mode
2412 MHz
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802.11B Mode
2437 MHz
802.11B Mode
2462 MHz
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Temperature:
25 ℃
Test Voltage:
AC 120V/60HZ
Test Mode:
TX 802.11G Mode
Relative Humidity:
Channel frequency
(MHz)
6dB Bandwidth
(MHz)
99% Bandwidth
(MHz)
2412
16.33
16.487
2437
16.34
16.485
2462
16.32
16.481
55%
Limit
(MHz)
>=0.5
802.11G Mode
2412 MHz
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802.11G Mode
2437 MHz
802.11G Mode
2462 MHz
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Temperature:
25 ℃
Test Voltage:
AC 120V/60HZ
Test Mode:
TX 802.11N(HT20) Mode
Relative Humidity:
Channel frequency
(MHz)
6dB Bandwidth
(MHz)
99% Bandwidth
(MHz)
2412
17.58
17.778
2437
17.59
17.790
2462
17.58
17.791
55%
Limit
(MHz)
>=0.5
802.11N(HT20) Mode
2412 MHz
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802.11N(HT20) Mode
2437 MHz
802.11N(HT20) Mode
2462 MHz
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Attachment E-- Peak Output Power Test Data
Test Conditions:
Temperature:
Continuous transmitting Mode
25 ℃
Relative Humidity:
Test Voltage:
AC 120V/60HZ
Mode
Channel frequency
(MHz)
Test Result (dBm)
2412
17.52
2437
16.05
2462
16.74
2412
16.48
2437
15.00
2462
15.58
2412
16.35
2437
15.08
2462
14.94
802.11b
802.11g
802.11n
(HT20)
55%
Limit (dBm)
30
Result: PASS
Duty Cycle
Mode
Channel frequency (MHz)
Test Result
2412
802.11b
2437
2462
2412
802.11g
2437
>98%
2462
802.11n
(HT20)
2412
2437
2462
Please see below plots
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802.11 B Mode 2437 MHz
802.11 G Mode 2437 MHz
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802.11 N(HT20) Mode 2437 MHz
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Attachment F-- Power Spectral Density Test Data
Temperature:
25 ℃
Test Voltage:
AC 120V/60HZ
Test Mode:
TX 802.11B Mode
Channel Frequency
(MHz)
Relative Humidity:
55%
Limit
(dBm/3 kHz)
2412
Power Density
(dBm/3 kHz)
-8.269
2437
-9.873
2462
-8.685
802.11B Mode
2412 MHz
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802.11B Mode
2437 MHz
802.11B Mode
2462 MHz
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Temperature:
25 ℃
Test Voltage:
AC 120V/60HZ
Test Mode:
TX 802.11G Mode
Channel Frequency
(MHz)
Temperature:
25 ℃
Limit
(dBm/3 kHz)
2412
Power Density
(dBm/3 kHz)
-14.083
2437
-15.524
2462
-14.857
802.11G Mode
2412 MHz
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802.11G Mode
2437 MHz
802.11G Mode
2462 MHz
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Temperature:
25 ℃
Test Voltage:
AC 120V/60HZ
Test Mode:
TX 802.11N(HT20) Mode
Channel Frequency
(MHz)
Temperature:
25 ℃
Limit
(dBm/3 kHz)
2412
Power Density
(dBm/3 kHz)
-15.526
2437
-16.667
2462
-16.828
802.11N(HT20) Mode
2412 MHz
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802.11N(HT20) Mode
2437 MHz
802.11N(HT20) Mode
2462 MHz
-----END OF REPORT-----
TB-RF-074-1.0
Download: US-PR1 American gauge 10-16A round WiFi socket Test Report RF Shenzhen Yuandian Photoelectric Technology CO.,LTD.
Mirror Download [FCC.gov]US-PR1 American gauge 10-16A round WiFi socket Test Report RF Shenzhen Yuandian Photoelectric Technology CO.,LTD.
Document ID3856143
Application IDEXtLoddXOmk6tK2WSh34fw==
Document DescriptionRF Test Report
Short Term ConfidentialNo
Permanent ConfidentialNo
SupercedeNo
Document TypeTest Report
Display FormatAdobe Acrobat PDF - pdf
Filesize189.72kB (2371548 bits)
Date Submitted2018-05-18 00:00:00
Date Available2018-05-18 00:00:00
Creation Date2018-05-15 13:13:32
Producing SoftwareAcrobat Distiller 11.0 (Windows)
Document Lastmod2018-05-15 13:16:04
Document TitleRF Test Report
Document CreatorPScript5.dll Version 5.2.2
Document Author: toby855

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Title                           : Microsoft Word - Test Report WIFI(2APQN-US-PR1).doc
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