PIC-LX9 Smart Phone Test Report appendix Huawei Technologies Co.,Ltd

Huawei Technologies Co.,Ltd Smart Phone

FCC ID Filing: QISPIC-LX9
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FCC
RF Test Report
Product Name: Smart Phone
Model Number: HWV31
Report No: SYBH(Z-RF)005112017-2003
FCC ID: QISPIC-LX9
Reliability Laboratory of Huawei Technologies Co., Ltd.
(Global Compliance and Testing Center of Huawei Technologies Co., Ltd)
Administration Building, Headquarters of Huawei Technologies Co., Ltd., Bantian, Longgang District,
Shenzhen, 518129, P.R.C
Tel: +86 755 28780808
Fax: +86 755 89652518
RF Test Report of HWV31
Notice
1. The laboratory has passed the accreditation by China National Accreditation Service for
Conformity Assessment (CNAS). The accreditation number is L0310.
2. The laboratory has passed the accreditation by The American Association for Laboratory
Accreditation (A2LA). The accreditation number is 2174.01 .
3. The laboratory has been recognized by the US Federal Communications Commission (FCC) to
perform compliance testing subject to the Commission's Certification rules. The Designation Number
is CN1173, and the Test Firm Registration Number is 294140.
4. The laboratory has been listed by Industry Canada to perform electromagnetic emission
measurements. The recognition numbers of test site are 6369A-1.
5. The laboratory (Reliability Lab of Huawei Technologies Co., Ltd) is also named “Global
Compliance and Testing Center of Huawei Technologies Co., Ltd”, the both names have coexisted
since 2009.
6. The test report is invalid if not marked with the signatures of the persons responsible for preparing
and approving the test report.
7. The test report is invalid if there is any evidence of erasure and/or falsification.
8. The test report is only valid for the test samples.
9. Content of the test report, in part or in full, cannot be used for publicity and/or promotional
purposes without prior written approval from the laboratory.
Report No:
SYBH(Z-RF)005112017-2003
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd.
Page 2 of 19
RF Test Report of HWV31
Applicant:
Huawei Technologies Co., Ltd.
Address:
Administration Building, Headquarters of Huawei Technologies Co., Ltd.,
Bantian, Longgang District, Shenzhen, 518129, P.R.C
Date of Receipt Sample:
2017-11-14
Start Date of Test:
2017-11-14
End Date of Test:
2017-12-23
Test Result:
Pass
Approved by Senior
2017-12-23
Engineer:
Date
Prepared by:
2017-12-23
Date
Report No:
SYBH(Z-RF)005112017-2003
Roger Zhang
Name
Signature
Zhang Shuangxia
Name
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd.
Signature
Page 3 of 19
RF Test Report of HWV31
CONTENT
General Information ................................................................................................................................................ 5
1.1
Applied Standard........................................................................................................................................ 5
1.2
Test Location ............................................................................................................................................. 5
1.3
Test Environment Condition ....................................................................................................................... 5
Test Summary ........................................................................................................................................................ 6
Description of the Equipment under Test (EUT) ..................................................................................................... 7
3.1
General Description ................................................................................................................................... 7
3.2
EUT Identity ............................................................................................................................................... 7
3.3
Technical Description ................................................................................................................................. 8
General Test Conditions / Configurations ............................................................................................................... 9
4.1
EUT Configurations .................................................................................................................................... 9
4.2
Test Environments ................................................................................................................................... 10
4.3
Antenna requirements .............................................................................................................................. 10
4.4
Description of tests................................................................................................................................... 11
4.5
Test Setups .............................................................................................................................................. 13
4.6
Test Conditions ........................................................................................................................................ 16
Main Test Instruments .......................................................................................................................................... 18
Appendixes ........................................................................................................................................................... 19
Report No:
SYBH(Z-RF)005112017-2003
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd.
Page 4 of 19
RF Test Report of HWV31
1.1
General Information
Applied Standard
Applied Rules:
47 CFR FCC Part 2, Subpart J
47 CFR FCC Part 15, Subpart C
Test Method:
FCC PUBLIC NOTICE DA 00-705 Filing and Measurement Guidelines for
Frequency Hopping Spread Spectrum Systems (Released March 30, 2000)
ANSI C63.4-2014, American National Standard for Methods of Measurement of
Radio-Noise Emissions from Low-Voltage Electrical and Electronic Equipment
in the Range of 9 kHz to 40 GHz.
ANSI C63.10-2013, American National Standard for Testing Unlicensed
Wireless Devices.
1.2
Test Location
Test Location 1:
Reliability Laboratory of Huawei Technologies Co., Ltd.
Address:
Administration Building, Headquarters of Huawei Technologies Co., Ltd.,
Bantian, Longgang District, Shenzhen, 518129, P.R.C
1.3
Test Environment Condition
Ambient Temperature:
19.5 to 25 °C
Ambient Relative Humidity:
45 to 55 %
Atmospheric Pressure:
Not applicable
Report No:
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Page 5 of 19
RF Test Report of HWV31
Test Summary
Test Item
FCC Part No.
Requirements
20dB Emission Bandwidth (EBW)
15.247(a)(1)
No limit.
Verdict
Test Result
(NOTE)
Appendix A
Pass
Appendix B
Pass
Appendix C
Pass
Appendix D
Pass
Appendix E
Pass
< -20 dBr/100 kHz if total peak
Appendix F
Pass
power ≤ power limit.
Appendix G
Pass
Appendix H
Pass
Appendix I
Pass
≥ MAX {25kHz, IIF{output
Carrier Frequency Separation
15.247(a)(1)
power ≤125mW, 2/3*20dB
EBW, 20dB EBW }}.
Number of Hopping Channel
Time of Occupancy (Dwell Time)
Maximum Peak Conducted Output
Power
Band edge spurious emission
Conducted RF Spurious Emission
15.247(a)(1)
(iii)
≥15 channels.
15.247(a)(1)
< 0.4s within a period of
(iii)
(0.4s*hopping number).
15.247(b)(1)
15.247(d)
< 1 W if using ≥75
non-overlapping channels.
Radiated Emissions in the Restricted
15.247(d)
FCC Part 15.209 field strength
Bands
15.209
limit;
AC Power Line Conducted
Emissions
15.207
FCC Part 15.207 conducted
limit;
NOTE: For the verdict, the “N/A” denotes “not applicable”, the “N/T” denotes “not tested”.
Report No:
SYBH(Z-RF)005112017-2003
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Copyright © Huawei Technologies Co., Ltd.
Page 6 of 19
RF Test Report of HWV31
Description of the Equipment under Test (EUT)
3.1
General Description
HWV31 is subscriber equipment in the GSM/WCDMA/LTE/CDMA system. The GSM frequency band is GSM850 and
GSM900 and DCS1800 and PCS1900. The UMTS frequency band is B1 and B5 and B6 and B8 and B19. The LTE
frequency band is B1 and B3 and B5 and B7 and B8 and B18 and B19 and B20 and B38 and B40 and B41. The Mobile
Phone implements such functions as RF signal receiving/transmitting, LTE/HSPA/UMTS and GSM/GPRS/EDGE
protocol processing, voice, video MMS service, GPS, AGPS and WIFI etc. Externally it provides one micro SD card (it
can also used as SIM card interface), earphone port (to provide voice service) and one SIM card interface. HWV31 is
single SIM smart phone. It also provides Bluetooth module to synchronize data between a PC and the phone, or to use
the built-in modem of the phone to access the Internet with a PC, or to exchange data with other Bluetooth devices.
Note: Only Bluetooth test data included in this report.
3.2
EUT Identity
NOTE:
Unless otherwise noted in the report, the functional boards installed in the units shall be selected from the
below list, but not means all the functional boards listed below shall be installed in one unit.
3.2.1
Board
Board
Description
Hardware Version
Software Version
Main Board
HL1PICL01M
HWV31C791B100
3.2.2
Sub- Assembly
Sub-Assembly
Sub-Assembly
Name
Adapter
Adapter
Rechargeable
Li-ion
Model
HW-059200JHQ
HW-059200UHQ
HB366179ECW
Manufacturer
Huawei Technologies
Co., Ltd.
Huawei Technologies
Co., Ltd.
Huawei Technologies
Co., Ltd.
Description
Input Voltage: ~100-240V 50/60Hz 0.5A
Output Voltage: 5V
2A
Input Voltage: ~100-240V 50/60Hz 0.5A
Output Voltage: 5V
2A OR 9V
2A
Rated capacity: 2850mAh
Nominal Voltage:
Charging Voltage:
Report No:
SYBH(Z-RF)005112017-2003
2A OR 9V
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+3.82V
+4.40V
Page 7 of 19
RF Test Report of HWV31
3.3
Technical Description
Characteristics
Description
TX/RX Operating
2400-2483.5
fc = 2402 MHz + N * 1 MHz, where:
Range
MHz band
fc = “Operating Frequency” in MHz,
N = “Channel Number” with the range from 0 to 78.
Modulation Type
Emission Designator
Carrier
Frequency Hopping Spread Spectrum (FHSS)
Digital
GFSK, π/4-DQPSK, 8DPSK
GFSK: 940KFXD
π/4-DQPSK: 1M27GXD
8DPSK: 1M27GXD
Bluetooth Power Class
Class 1
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RF Test Report of HWV31
General Test Conditions / Configurations
4.1
4.1.1
EUT Configurations
General Configurations
Configuration
Description
Test Antenna Ports
Until otherwise specified,
Multiple RF Sources
All TX tests are performed at all TX antenna ports of the EUT, and
All RX tests are performed at all RX antenna ports of the EUT.
Other than the tested RF source of the EUT, other RF source(s) are disabled or shutdown
during measurements.
4.1.2
Customized Configurations
# EUT Conf.
Signal Description
Operating Frequency
TM1_DH5_Hop
GFSK modulation, package type DH5, hopping on.
---
TM1_DH5_Ch0
GFSK modulation, package type DH5, hopping off.
Ch No. 0 / 2402 MHz
TM1_DH5_Ch39
GFSK modulation, package type DH5, hopping off.
Ch No. 39 / 2441 MHz
TM1_DH5_Ch78
GFSK modulation, package type DH5, hopping off.
Ch No. 78 / 2480 MHz
TM2_2DH5_Hop
π/4-DQPSK modulation, package type 2DH5, hopping on.
---
TM2_2DH5_Ch0
π/4-DQPSK modulation, package type 2DH5, hopping off.
Ch No. 0 / 2402 MHz
TM2_2DH5_Ch39
π/4-DQPSK modulation, package type 2DH5, hopping off.
Ch No. 39 / 2441 MHz
TM2_2DH5_Ch78
π/4-DQPSK modulation, package type 2DH5, hopping off.
Ch No. 78 / 2480 MHz
TM3_3DH5_Hop
8DPSK modulation, package type 3DH5, hopping on.
---
TM3_3DH5_Ch0
8DPSK modulation, package type 3DH5, hopping off.
Ch No. 0 / 2402 MHz
TM3_3DH5_Ch39
8DPSK modulation, package type 3DH5, hopping off.
Ch No. 39 / 2441 MHz
TM3_3DH5_Ch78
8DPSK modulation, package type 3DH5, hopping off.
Ch No. 78 / 2480 MHz
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Page 9 of 19
RF Test Report of HWV31
4.2
Test Environments
NOTE:
The values used in the test report may be stringent than the declared.
Environment Parameter
TN / VN
4.3
Selected Values During Tests
Temperature
Voltage
Relative Humidity
Ambient
3.8 VDC
Ambient
Antenna requirements
Excerpt from §15.203 of the FCC Rules/Regulations:
“An intentional radiator antenna shall be designed to ensure that no antenna other than that furnished by
the responsible party can 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 antennas of the HWV31 are permanently attached.
There are no provisions for connection to an external antenna.
Conclusion:
The Smart Phone FCC ID: QISPIC-LX9 unit complies with the requirement of §15.203.
Ch. Frequency (MHz)
Ch.
Frequency (MHz)
00
2402
39
2441
78
2480
Frequency/ Channel Operations
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RF Test Report of HWV31
4.4
Description of tests
4.4.1 Bandwidth measurement
(a) Connect EUT test port to universal communication tester.
(b) Set the EUT to transmit maximum output power at 2.4GHz and switch off frequency hopping
function, then set the measuring frequency number, finally test the bandwidth with universal
communication tester.
4.4.2 Carrier frequency separation measurement
(a) Connect EUT test port to spectrum analyzer and universal communication tester.
(b) Set the EUT to transmit maximum output power at 2.4GHz and switch off frequency hopping
function, then set the measured frequency number to two adjacent channels separately and test the
carrier frequency separation with spectrum analyzer.
4.4.3 Number of hopping channel
(a) Connect EUT test port to spectrum analyzer and universal communication tester.
(b) Set the EUT to transmit maximum output power at 2.4GHz and switch on frequency hopping
function, then set enough count time (larger than 5000 times) to get all the hopping frequency channel
displayed on the screen of spectrum analyzer.
(c) Count the quantity of peaks to get the number of hopping channels.
4.4.4
Time of occupancy
(a) Connect test port of EUT to spectrum analyzer and universal communication tester.
(b) Set the EUT to transmit maximum output power at 2.4GHz and switch on frequency hopping
function.
(c) Set the span of spectrum analyzer to 0 Hz, and set the resolution bandwidth to1 MHz and the vedio
bandwidth to 1 MHz, then get the time domain measured diagram. and set sweep time to 2 times of
one burst occupancy time, and measure the time of occupancy of one burst.
(d) Set the resolution bandwidth to1 MHz and the vedio bandwidth to 3 MHz ,and set the sweep time
to a period (0.4 seconds multiplied by the number of hopping channels employed), and count the
number of the bursts.
(e) Calculate the time of occupancy in a period with time occupancy of a burst and quantity of bursts
4.4.5 Peak output power
(a) Connect EUT test port to spectrum analyzer and universal communication tester.
(b) Set the EUT to transmit maximum output power at 2.4GHz and switch off frequency hopping
function.
(c) Then set the EUT to transmit at high, middle and low frequency and measure the conducted output
power separately.
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RF Test Report of HWV31
4.4.6 Band edge spurious emission
(a) Connect EUT test port to spectrum analyzer and universal communication tester
(b) Set the EUT to transmit maximum output power at 2.4GHz and switch off frequency hopping
function.
(c) Then set the EUT to transmit at high, low frequency and measure the conducted band edge
spurious separately.
(d) Switch on the frequency hopping function, and repeat above measurement.
4.4.7 Conducted RF Spurious
(a) Connect EUT test port to spectrum analyzer and universal communication tester
(b) Set the EUT to transmit maximum output power at 2.4GHz and switch off frequency hopping
function.
(c) Then set the EUT to transmit at high, middle and low frequency and measure the conducted
spurious separately.
(d) Switch on the frequency hopping function, and repeat the above measurement.
4.4.8 Radiated spurious emission & spurious in restricted band
The test site semi-anechoic chamber has met the requirement of NSA tolerance 4dB according to the
standards: ANSI C63.10 (2013). The EUT was set-up on insulator 80cm above the Ground Plane. The
set-up and test methods were according to ANSI C63.10:2013.The Radiated Disturbance
measurements were made using a Rohde and Schwarz Test Receiver and control software.
A preliminary scan and a final scan of the emissions were made by using test script of software; the
emissions were measured using a Quasi-Peak Detector below 1GHz, Peak Detector and AV detector
above 1GHz. The maximal emission value was acquired by adjusting the antenna height, polarisation
and turntable azimuth in accordance with the software setup. Normally, the height range of antenna
was 1m to 4m, and the azimuth range of turntable was 0°to 360°.The receive antenna has two
polarizations V and H.
A portable or small unlicensed wireless device shall be placed on a non-metallic test fixture or other
nonmetallic support during testing. The supporting fixture shall permit orientation of the EUT in each of
three orthogonal (x, y, z) axis positions such that emissions from the EUT are maximized.
The EUT communicates with the BTS simulator through Air interface. The EUT transmits maximum
output power at 2.4GHz and switch off frequency hopping function.
Measurement bandwidth: 30 MHz - 1000 MHz: 120 kHz
Measurement bandwidth: 1000 MHz - 10th Carrier Frequency: 1 MHz
4.4.9 Conducted Emission at Power Port
The Table-top EUT was placed upon a non-metallic table 0.8 m above the horizontal metal reference
ground plane. EUT was connected to LISN and LISN was connected to reference Ground Plane. EUT
was 80cm from LISN. The set-up and test methods were according to ANSI C63.10: 2013.
Report No:
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RF Test Report of HWV31
Conducted Disturbance at AC Port measurements were undertaken on the L and N Lines. The
emissions were measured using a Quasi-Peak Detector and Average Detector.
The EUT communicates with the BTS simulator through Air interface, the BTS simulator controls the
EUT to transmitter the maximum power which defined in specification of product. The EUT operated
on the typical channel.
Measurement bandwidth (RBW) for 150kHz to 30 MHz: 9 kHz;
4.5
Test Setups
4.5.1
Test Setup 1
The Bluetooth component’s antenna ports(s) of the EUT are connected to the measurement instrument per an
appropriate attenuator. The EUT is controlled by Bluetooth System Simulator and/or PC/software to emit the specified
signals for the purpose of measurements.
Jumper Cable for
connecting to RF Cables
(If applicable)
Attenuator
Measurement
Instrument
EUT
Bluetooth
Component
Power
Splitter
RF Cables
for testing
Bluetooth
component's
antenna port
Power
Supply
4.5.2
Bluetooth System
Simulator
Control
PC
Test Setup 2
The test site semi-anechoic chamber has met the requirement of NSA tolerance 4 dB according to the standards: ANSI
C63.4. The test distance is 3m.The setup is according to ANSI C63.4 and CAN/CSA-CEI/IEC CISPR 22.
The maximal emission value is acquired by adjusting the antenna height, polarisation and turntable azimuth. Normally,
the height range of antenna is 1 m to 4 m, the azimuth range of turntable is 0°to 360°, and the receive antenna has two
polarizations Vertical (V) and Horizontal (H).
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RF Test Report of HWV31
MAX:4 m
Semi-Anechoic Chamber
Antenna
EUT
AE
MIN:1 m
0.8 m
Preamplifier
GRP
Signal wire
Ferrite Clamp
Receiver
(Below 1 GHz)
(Above 1 GHz)
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RF Test Report of HWV31
4.5.3
Test Setup 3
The mains cable of the EUT (maybe per AC/DC Adapter) must be connected to LISN. The LISN shall be placed 0.8 m
from the boundary of EUT and bonded to a ground reference plane for LISN mounted on top of the ground reference
plane. This distance is between the closest points of the LISN and the EUT. All other units of the EUT and associated
equipment shall be at least 0.8m from the LISN.
Ground connections, where required for safety purposes, shall be connected to the reference ground point of the LISN
and, where not otherwise provided or specified by the manufacturer, shall be of same length as the mains cable and
run parallel to the mains connection at a separation distance of not more than 0.1 m.
Shielding room
0.4m
EUT
Po
Receive
Power input
LISN
we
ca
ble
ou
Gr
:1
din
gc
:1
ble
D≤10cm
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0.8m
Table
0.8
GRP
Page 15 of 19
RF Test Report of HWV31
4.6
Test Conditions
Test Case
Test Conditions
Configuration
Description
20dB Emission
Meas. Method
DA 00-705
Bandwidth (EBW)
Test Env.
TN / VN
Test Setup
Test Setup 1
EUT Conf.
TM1_DH5_Ch0, TM1_DH5_Ch39, TM1_DH5_Ch78
TM2_2DH5_Ch0, TM2_2DH5_Ch39, TM2_2DH5_Ch78
TM3_3DH5_Ch0, TM3_3DH5_Ch39, TM3_3DH5_Ch78
Carrier Frequency
Meas. Method
DA 00-705
Separation
Test Env.
TN / VN
Test Setup
Test Setup 1
EUT Conf.
TM1_DH5_Hop,
TM2_2DH5_Hop,
TM3_3DH5_Hop.
Number of Hopping
Meas. Method
DA 00-705
Channel
Test Env.
TN / VN
Test Setup
Test Setup 1
EUT Conf.
TM1_DH5_Hop,
TM2_2DH5_Hop,
TM3_3DH5_Hop.
Time of Occupancy
Meas. Method
DA 00-705
(Dwell Time)
Test Env.
TN / VN
Test Setup
Test Setup 1
EUT Conf.
TM1_DH5_Ch39,
TM2_2DH5_Ch39,
TM3_3DH5_Ch39.
Maximum Peak
Meas. Method
DA 00-705
Conducted Output
Test Env.
TN / VN
Power
Test Setup
Test Setup 1
EUT Conf.
TM1_DH5_Ch0, TM1_DH5_Ch39, TM1_DH5_Ch78
TM2_2DH5_Ch0, TM2_2DH5_Ch39, TM2_2DH5_Ch78
TM3_3DH5_Ch0, TM3_3DH5_Ch39, TM3_3DH5_Ch78
Band edge spurious
Meas. Method
DA 00-705
emission
Test Env.
TN / VN
Test Setup
Test Setup 1
EUT Conf.
TM1_DH5_Ch0, TM1_DH5_Ch78
TM2_2DH5_Ch0, TM2_2DH5_Ch78
TM3_3DH5_Ch0, TM3_3DH5_Ch78
Conducted RF
Meas. Method
DA 00-705
Spurious Emission
Test Env.
TN / VN
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RF Test Report of HWV31
Test Case
Test Conditions
Configuration
Description
Test Setup
Test Setup 1
EUT Conf.
TM1_DH5_Ch0, TM1_DH5_Ch39, TM1_DH5_Ch78
TM2_2DH5_Ch0, TM2_2DH5_Ch39, TM2_2DH5_Ch78
TM3_3DH5_Ch0, TM3_3DH5_Ch39, TM3_3DH5_Ch78
Radiated Emissions
Meas. Method
DA 00-705, C63.4, C63.10.
in the Restricted
(1) 30 MHz to 1 GHz:
Bands
Pre:
RBW = 100 kHz; VBW = 300 kHz; Det. = Peak.
Final:
RBW = 120 kHz; Det. = CISPR Quasi-Peak.
(2) 1 GHz to 26.5 GHz:
Average: RBW = 1 MHz; VBW = 10 Hz; Det. = Peak; Sweep-time = Auto;
Trace = Single.
Peak:
RBW = 1 MHz; VBW = 3 MHz; Det. = Peak; Sweep-time = Auto;
Trace ≥ Max Hold * 100.
Test Env.
TN / VN
Test Setup
Test Setup 2
EUT Conf.
30 MHz -1 GHz
TM1_DH5_Ch0 (Worst Conf.).
1-3 GHz
TM1_DH5_Ch0, TM1_DH5_Ch39, TM1_DH5_Ch78,
TM2_2DH5_Ch0, TM2_2DH5_Ch39,
TM2_2DH5_Ch78,
TM3_3DH5_Ch0, TM3_3DH5_Ch39,
TM3_3DH5_Ch78.
3-18 GHz
TM1_DH5_Ch0 (Worse Conf.),
TM1_DH5_Ch39 (Worse Conf.),
TM1_DH5_Ch78 (Worse Conf.).
18-26.5 GHz
AC Power Line
Meas. Method
TM1_DH5_Ch0 (Worst Conf.).
AC mains conducted.
Conducted
Pre:
RBW = 10 kHz; Det. = Peak.
Emissions
Final:
RBW = 9 kHz; Det. = CISPR Quasi-Peak & Average.
Test Env.
TN / VN
Test Setup
Test Setup 3
EUT Conf.
TM1_DH5_Ch39.
Report No:
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RF Test Report of HWV31
Main Test Instruments
Main Test Equipments
Equipment Name
Manufacturer
Model
Serial Number
Cal Date
Cal- Due
Power supply
KEITHLEY
2303
000500E
2017/5/31
2018/5/30
Agilent
N4010A
MY49081592
2017/7/31
2018/7/30
R&S
CMU200
110932
2017/5/2
2018/5/1
Agilent
N9020A
MY52090652
2017/7/10
2018/7/9
R&S
CMW500
126854
2017/10/19
2018/10/18
Signal Analyzer
R&S
FSQ31
200021
2017/7/31
2018/7/30
Spectrum Analyzer
Agilent
N9030A
MY49431698
2017/7/31
2018/7/30
Temperature Chamber
ESPEC
MW3030
06114003
2017/02/22
2018/02/21
Signal generator
Agilent
E8257D
MY49281095
2017/7/31
2018/7/30
Vector Signal Generator
R&S
SMU200A
104162
2017/7/31
2018/7/30
Test receiver
R&S
ESU26
100387
2017/2/21
2018/2/20
Test receiver
R&S
ESCI
101163
2017/2/21
2018/2/20
Spectrum analyzer
R&S
FSU3
200474
2017/2/21
2018/2/20
Spectrum analyzer
R&S
FSU43
100144
2017/2/21
2018/2/20
LOOP Antennas(9kHz-30MHz)
R&S
HFH2-Z2
100262
2017/4/25
2019/4/25
LOOP Antennas(9kHz-30MHz)
R&S
HFH2-Z2
100263
2017/4/25
2019/4/25
SCHWARZBECK
VULB 9163
9163-490
2017/3/29
2019/3/29
SCHWARZBECK
VULB 9163
9163-521
2017/4/9
2019/4/9
R&S
HF907
100304
2017/5/27
2019/5/27
ETS-Lindgren
3160-09
206665
2017/3/24
2018/3/23
R&S
ENV4200
100134
2017/5/15
2018/5/14
R&S
ENV216
100382
2017/5/15
2018/5/14
R&S
OSP-B157
100914
2017/7/31
2018/7/30
Wireless Communication Test
set
Universal Radio
Communication Tester
Spectrum Analyzer
Universal Radio
Communication Tester
Trilog Broadband Antenna
(30M~3GHz)
Trilog Broadband Antenna
(30M~3GHz)
Double-Ridged Waveguide
Horn Antenna (1G~18GHz)
Pyramidal Horn
Antenna(18GHz-26.5GHz)
Artificial Main Network
Line Impedance Stabilization
Network
Power Detecting & Sampling
Unit
Software Information
Test Item
Software Name
Manufacturer
Version
RE
EMC32
R&S
V9.25.0
CE
EMC32
R&S
V9.25.0
Report No:
SYBH(Z-RF)005112017-2003
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd.
Page 18 of 19
RF Test Report of HWV31
Appendixes
Appendix No.
Description
SYBH(Z-RF)005112017-2003-A
Appendix for Bluetooth
END
Report No:
SYBH(Z-RF)005112017-2003
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd.
Page 19 of 19
Download: PIC-LX9 Smart Phone Test Report appendix Huawei Technologies Co.,Ltd
Mirror Download [FCC.gov]PIC-LX9 Smart Phone Test Report appendix Huawei Technologies Co.,Ltd
Document ID3706844
Application ID/yQwQa+ydEuFrI+WjxO9KQ==
Document DescriptionTest Report appendix
Short Term ConfidentialNo
Permanent ConfidentialNo
SupercedeNo
Document TypeTest Report
Display FormatAdobe Acrobat PDF - pdf
Filesize38.48kB (481027 bits)
Date Submitted2018-01-09 00:00:00
Date Available2018-01-10 00:00:00
Creation Date2017-12-25 11:14:03
Producing SoftwareMicrosoft® Office Word 2007
Document Lastmod2017-12-25 11:14:03
Document TitleTest Report appendix
Document CreatorMicrosoft® Office Word 2007
Document Author: Zhang Weimin

Source Exif Data:
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File Type Extension             : pdf
MIME Type                       : application/pdf
PDF Version                     : 1.5
Linearized                      : No
Page Count                      : 19
Language                        : zh-CN
Tagged PDF                      : Yes
Author                          : Zhang Weimin
Subject                         : General RF Test Report
Creator                         : Microsoft® Office Word 2007
Create Date                     : 2017:12:25 11:14:03
Modify Date                     : 2017:12:25 11:14:03
Producer                        : Microsoft® Office Word 2007
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