MHA-L09 Smart Phone RF Exposure Info RF Exposure Report Huawei Technologies Co.,Ltd

Huawei Technologies Co.,Ltd Smart Phone

FCC ID Filing: QISMHA-L09
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FCC SAR Compliance Test Report
Product Name:
Smart Phone
Model:
MHA-L09
Report No.:
SYBH(Z-SAR)030052017-2
FCC ID:
QISMHA-L09
APPROVED
(Lab Manager)
PREPARED
(Test Engineer)
2017-09-12
2017-09-12
BY
DATE
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
※ ※
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 & 2174.02 & 2174.03
3. 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.
4. The test report is invalid if not marked with the signatures of the persons responsible for preparing and
approving the test report.
5. The test report is invalid if there is any evidence of erasure and/or falsification.
6. The test report is only valid for the test samples.
7. 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-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Page 2 of 219
Table of Contents
General Information ............................................................................................................................................... 7
1.1
Statement of Compliance ...................................................................................................................... 7
1.2
RF exposure limits ................................................................................................................................. 8
1.3
EUT Description ..................................................................................................................................... 9
1.3.1
General Description ............................................................................................................................. 12
1.3.2
Dynamic antenna switching specification ............................................................................................ 13
1.3.3
TDD LTE specification ......................................................................................................................... 14
1.3.4
Power reduction specification .............................................................................................................. 14
1.3.5
Downlink LTE CA specification ............................................................................................................ 15
1.4
Test specification(s) ............................................................................................................................ 20
1.5
Testing laboratory ................................................................................................................................ 20
1.6
Applicant and Manufacturer ................................................................................................................. 20
1.7
Application details ................................................................................................................................ 20
1.8
Ambient Condition............................................................................................................................... 20
SAR Measurement System ................................................................................................................................. 21
2.1
SAR Measurement Set-up ................................................................................................................... 21
2.2
Test environment ................................................................................................................................. 22
2.3
Data Acquisition Electronics description ............................................................................................. 22
2.4
Probe description ................................................................................................................................. 23
2.5
Phantom description ............................................................................................................................ 24
2.6
Device holder description .................................................................................................................... 25
2.7
Test Equipment List ............................................................................................................................. 26
SAR Measurement Procedure ............................................................................................................................ 27
3.1
Scanning procedure ............................................................................................................................. 27
3.2
Spatial Peak SAR Evaluation .............................................................................................................. 28
3.3
Data Storage and Evaluation ............................................................................................................... 29
System Verification Procedure ............................................................................................................................ 31
4.1
Tissue Verification................................................................................................................................ 31
4.2
System Check ...................................................................................................................................... 35
4.3
System check Procedure ..................................................................................................................... 36
SAR measurement variability and uncertainty .................................................................................................... 37
5.1
SAR measurement variability .............................................................................................................. 37
5.2
SAR measurement uncertainty ............................................................................................................ 37
SAR Test Configuration ....................................................................................................................................... 38
6.1
Test Positions Configuration ................................................................................................................ 38
6.1.1
General considerations ........................................................................................................................ 38
6.1.2
Head Exposure Condition .................................................................................................................... 38
6.1.3
Body-worn Exposure Condition ........................................................................................................... 39
6.1.4
Hotspot Exposure Condition ................................................................................................................ 40
6.1.5
Product Specific 10-g Exposure Condition .......................................................................................... 40
6.2
3G SAR Test Reduction Procedure ..................................................................................................... 40
6.3
GSM Test Configuration ...................................................................................................................... 41
6.4
UMTS Test Configuration .................................................................................................................... 41
6.5
LTE Test Configuration ........................................................................................................................ 47
6.6
WiFi Test Configuration ....................................................................................................................... 50
6.6.1
Initial Test Position Procedure ............................................................................................................. 50
6.6.2
Initial Test Configuration Procedure .................................................................................................... 50
6.6.3
Sub Test Configuration Procedure ...................................................................................................... 50
6.6.4
WiFi 2.4G SAR Test Procedures ......................................................................................................... 51
6.6.5
WiFi 5G SAR Test Procedures ............................................................................................................ 52
SAR Measurement Results ................................................................................................................................. 54
7.1
Conducted power measurements ........................................................................................................ 54
7.1.1
Conducted power measurements of GSM850(Second Antenna) ....................................................... 55
7.1.2
Conducted power measurements of GSM1900(Second Antenna) ..................................................... 56
7.1.3
Conducted power measurements of UMTS Band II(Second Antenna) ............................................... 57
7.1.4
Conducted power measurements of UMTS Band IV(Second Antenna) ............................................. 58
7.1.5
Conducted power measurements of UMTS Band V(Second Antenna) .............................................. 59
Report No.: SYBH(Z-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Page 3 of 219
7.1.6
7.1.7
7.1.8
7.1.9
7.1.10
7.1.11
7.1.12
7.1.13
7.1.14
7.1.15
7.1.16
7.1.17
7.1.18
7.1.19
7.1.20
7.1.21
7.1.22
7.1.23
7.1.24
7.1.25
7.1.26
7.1.27
7.1.28
7.1.29
7.1.30
7.1.31
7.1.32
7.2
7.2.1
7.2.2
7.2.3
7.2.4
7.2.5
7.2.6
7.2.7
7.2.8
7.2.9
7.2.10
7.2.11
7.2.12
7.2.13
7.2.14
7.2.15
7.2.16
7.2.17
7.2.18
7.2.19
7.2.20
7.2.21
7.2.22
7.2.23
7.2.24
7.2.25
7.2.26
7.2.27
7.2.28
7.2.29
7.2.30
7.3
7.3.1
7.3.2
7.3.3
Conducted power measurements of LTE Band II(Second Antenna) .................................................. 60
Conducted power measurements of LTE Band IV(Second Antenna) ................................................. 63
Conducted power measurements of LTE Band V(Second Antenna) .................................................. 66
Conducted power measurements of LTE Band VII(Second Antenna) ................................................ 68
Conducted power measurements of LTE Band XII(Second Antenna) ................................................ 70
Conducted power measurements of LTE Band XVII(Second Antenna) .............................................. 72
Conducted power measurements of LTE Band XXVI(Second Antenna) ............................................ 73
Conducted power measurements of LTE Band XXXVIII(Second Antenna) ........................................ 76
Conducted power measurements of LTE Band XLI(Second Antenna) ............................................... 78
Conducted power measurements of GSM850(Main Antenna) ............................................................ 80
Conducted power measurements of GSM1900(Main Antenna) .......................................................... 81
Conducted power measurements of UMTS Band II(Main Antenna) ................................................... 82
Conducted power measurements of UMTS Band IV(Main Antenna) .................................................. 84
Conducted power measurements of UMTS Band V(Main Antenna) ................................................... 85
Conducted power measurements of LTE Band II(Main Antenna) ....................................................... 86
Conducted power measurements of LTE Band IV(Main Antenna) ..................................................... 92
Conducted power measurements of LTE Band V(Main Antenna) ...................................................... 95
Conducted power measurements of LTE Band VII(Main Antenna) .................................................... 97
Conducted power measurements of LTE Band XII(Main Antenna) .................................................... 99
Conducted power measurements of LTE Band XVII(Main Antenna) ................................................ 101
Conducted power measurements of LTE Band XXVI(Main Antenna) ............................................... 102
Conducted power measurements of LTE Band XXXVIII(Main Antenna) .......................................... 105
Conducted power measurements of LTE Band XLI(Main Antenna) ................................................. 107
Conducted power measurements of Downlink LTE CA .................................................................... 109
Conducted power measurements of WiFi 2.4G ................................................................................. 111
Conducted power measurements of WiFi 5G .................................................................................... 112
Conducted power measurements of BT ............................................................................................ 118
SAR measurement Results ............................................................................................................... 119
SAR measurement Result of GSM850(Second Antenna) ................................................................. 121
SAR measurement Result of GSM1900(Second Antenna) ............................................................... 123
SAR measurement Result of UMTS Band II(Second Antenna) ........................................................ 125
SAR measurement Result of UMTS Band IV(Second Antenna) ....................................................... 127
SAR measurement Result of UMTS Band V(Second Antenna) ........................................................ 129
SAR measurement Result of LTE Band II(Second Antenna) ............................................................ 131
SAR measurement Result of LTE Band IV(Second Antenna) .......................................................... 134
SAR measurement Result of LTE Band V(Second Antenna) ........................................................... 136
SAR measurement Result of LTE Band VII(Second Antenna) ......................................................... 139
SAR measurement Result of LTE Band XII(Second Antenna) ......................................................... 141
SAR measurement Result of LTE Band XVII(Second Antenna) ....................................................... 144
SAR measurement Result of LTE Band XXVI(Second Antenna) ...................................................... 147
SAR measurement Result of LTE Band XXXVIII(Second Antenna) ................................................. 150
SAR measurement Result of LTE Band XLI(Second Antenna) ........................................................ 153
SAR measurement Result of GSM850(Main Antenna) ..................................................................... 156
SAR measurement Result of GSM1900(Main Antenna) ................................................................... 158
SAR measurement Result of UMTS Band II(Main Antenna) ............................................................. 162
SAR measurement Result of UMTS Band IV(Main Antenna) ........................................................... 166
SAR measurement Result of UMTS Band V(Main Antenna) ............................................................ 168
SAR measurement Result of LTE Band II(Main Antenna) ................................................................ 170
SAR measurement Result of LTE Band IV(Main Antenna) ............................................................... 175
SAR measurement Result of LTE Band V(Main Antenna) ................................................................ 177
SAR measurement Result of LTE Band VII(Main Antenna) .............................................................. 180
SAR measurement Result of LTE Band XII(Main Antenna) .............................................................. 183
SAR measurement Result of LTE Band XVII(Main Antenna) ........................................................... 186
SAR measurement Result of LTE Band XXVI(Main Antenna) .......................................................... 189
SAR measurement Result of LTE Band XXXVIII(Main Antenna) ...................................................... 192
SAR measurement Result of LTE Band XLI(Main Antenna) ............................................................. 194
SAR measurement Result of WiFi 2.4G ............................................................................................ 197
SAR measurement Result of WiFi 5G ............................................................................................... 201
Multiple Transmitter Evaluation ......................................................................................................... 212
Stand-alone SAR test exclusion ........................................................................................................ 213
Simultaneous Transmission Possibilities ........................................................................................... 214
SAR Summation Scenario ................................................................................................................. 215
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7.3.4
SPLSR Evaluation Analysis ............................................................................................................... 217
7.3.5
Simultaneous Transmission Conlcusion ............................................................................................ 218
Appendix A. System Check Plots ...................................................................................................................... 219
Appendix B. SAR Measurement Plots.............................................................................................................. 219
Appendix C. Calibration Certificate ................................................................................................................... 219
Appendix D. Photo documentation .................................................................................................................... 219
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※ ※
Modified History
※ ※
REV.
DESCRIPTION
ISSUED
DATE
REMARK
Rev.1.0
Initial Test Report Release
2017-09-12
Li Wei
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1 General Information
1.1 Statement of Compliance
The maximum results of Specific Absorption Rate (SAR) found during testing for MHA-L09 is as below
Table 1.
Max Reported SAR(W/kg)
Band
1-g Body-worn
1-g Hotspot
Product Specific
SAR(15mm) *
SAR(10mm) 10-g SAR (0mm)**
GSM850
1.38
0.43
0.90
1.39
GSM1900
1.21
0.35
0.26
0.60
2.69
UMTS Band II
1.35
1.29
UMTS Band IV
1.35
0.38
0.69
UMTS Band V
1.29
0.45
0.76
LTE Band II
1.37
0.57
1.23
0.33
LTE Band IV
1.29
0.37
0.63
LTE Band V
1.20
0.36
0.54
LTE Band VII
0.89
0.34
0.70
LTE Band XII
1.26
0.22
0.29
LTE Band XVII
0.92
0.31
0.45
1.42
LTE Band XXVI
0.28
0.58
LTE Band XXXVIII
1.25
0.39
1.12
LTE Band XLI
1.30
0.18
0.63
WiFi 2.4G
1.31
0.10
0.21
WiFi 5G
1.35
0.11
0.21
0.91
BT
The highest reported SAR for head, body-worn, hotspot, simultaneous transmission and
product specific 10-g SAR exposure conditions are 1.42W/kg, 0.60W/kg, 1.39W/kg, 1.59W/kg
and 2.69 W/kg respectively per KDB690783 D01.
Table 1:Summary of test result
Note:
1)* For body worn operation, this device has been tested and meets FCC RF exposure guidelines when
used with any accessory that contains no metal and that positions the handset a minimum of 15mm from
the body. Use of other accessories may not ensure compliance with FCC RF exposure guidelines.
2)** For Product Specific 10-g operation, this device has been tested and meets the 10-g SAR limits of
4.0 W/kg for general population/ uncontraolled exposure according to ANSI C95.1:1992/IEEE
C95.1:1991 and Industry Canada Radio Standards Specification RSS-102.
1-g Head SAR
The device is in compliance with Specific Absorption Rate(SAR) for general population/uncontraolled
exposure limits according to the FCC rule §2.1093, the ANSI C95.1:1992/IEEE C95.1:1991, the NCRP
Report Number 86 for uncontrolled environment, according to the Industry Canada Radio Standards
Specification RSS-102 for General Population/Uncontrolled exposure, and had been tested in
accordance with the measurement methods and procedures specified in IEEE Std 1528-2013.
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1.2 RF exposure limits
Human Exposure
Uncontrolled Environment
General Population
Controlled Environment
Occupational
Spatial Peak SAR*
1.60 W/kg
8.00 W/kg
(Brain/Body/Arms/Legs)
Spatial Average SAR**
0.08 W/kg
0.40 W/kg
(Whole Body)
Spatial Peak SAR***
4.00 W/kg
20.00 W/kg
(Hands/Feet/Ankle/Wrist)
Table 2: RF exposure limits
The limit applied in this test report is shown in bold letters
Notes:
The Spatial Peak value of the SAR averaged over any 1 gram of tissue (defined as a tissue
volume in the shape of a cube) and over the appropriate averaging time.
**
The Spatial Average value of the SAR averaged over the whole body.
***
The Spatial Peak value of the SAR averaged over any 10 grams of tissue (defined as a tissue
volume in the shape of a cube) and over the appropriate averaging time.
Uncontrolled Environments are defined as locations where there is the exposure of individuals
who have no knowledge or control of their exposure.
Controlled Environments are defined as locations where there is exposure that may be incurred
by persons who are aware of the potential for exposure, (i.e. as a result of employment or
occupation.
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1.3 EUT Description
Device Information:
Product Name:
Model:
FCC ID :
Smart Phone
MHA-L09
QISMHA-L09
1#: AHK5T17519000002
SN.:
2#: AHK5T17519000001
3#: AHK5T17519000005
Device Type :
Portable device
Device Phase:
Identical Prototype
Exposure Category:
Uncontrolled environment / general population
Hardware Version :
HL1AMHAM
Software Version :
MHA-L09C900B186
Antenna Type :
Internal antenna
Others Accessories
Headset
Device Operating Configurations:
GSM850/1900, UMTS Band II/IV/V,
Supporting Mode(s)
LTE Band II/IV/V/VII/XII/XVII/XXVI/XXXVIII/XLI, WiFi 2.4G/5G, BT,NFC
GSM(GMSK/8PSK),UMTS(QPSK),LTE(QPSK/16QAM),
Test Modulation
WiFi(DSSS/OFDM),BT(GFSK)
Device Class
Band
Tx (MHz)
Rx (MHz)
GSM850
824-849
869-894
GSM1900
1850-1910
1930-1990
UMTS Band II
1850-1910
1930-1990
UMTS Band IV
1710-1755
2110-2155
UMTS Band V
824-849
869-894
LTE Band II
1850-1910
1930-1990
LTE Band IV
1710-1755
2110-2155
LTE Band V
824-849
869-894
LTE Band VII
2500-2570
2620-2690
Operating Frequency
LTE Band XII
699-716
729-746
Range(s)
LTE Band XVII
704-716
734-746
LTE Band XXVI
814-849
859-894
LTE Band XXIX
NA
717-728
LTE Band XXXVIII
2570-2620
2570-2620
LTE Band XLI
2555-2655
2555-2655
BT
2400-2483.5
WiFi 2.4G
2400-2483.5
5150-5350
WiFi 5G
5470-5850
13.56
NFC
Max Number of Timeslots in Uplink:
GPRS Multislot Class(12)
Max Number of Timeslots in Downlink:
Max Total Timeslot:
Max Number of Timeslots in Uplink:
EGPRS Multislot Class(12)
Max Number of Timeslots in Downlink:
Max Total Timeslot:
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HSDPA UE Category
HSUPA UE Category
DC-HSDPA UE Category
LTE CA
14
24
Downlink LTE CA only
4,tested with power level 5(GSM850)
1,tested with power level 0(GSM1900)
3, tested with power control “all 1”(UMTS Band II)
3, tested with power control “all 1”(UMTS Band IV)
3, tested with power control “all 1”(UMTS Band V)
3, tested with power control all Max.(LTE Band II)
3, tested with power control all Max.(LTE Band IV)
Power Class:
3, tested with power control all Max.(LTE Band V)
3, tested with power control all Max.(LTE Band VII)
3, tested with power control all Max.(LTE Band XII)
3, tested with power control all Max.(LTE Band XVII)
3, tested with power control all Max.(LTE Band XXVI)
3, tested with power control all Max.(LTE Band XXXVIII)
3, tested with power control all Max.(LTE Band XLI)
128-190-251(GSM850)
512-661-810(GSM1900)
9262-9400-9538(UMTS Band II)
1312-1413-1513(UMTS Band IV)
4132-4182-4233(UMTS Band V)
18607-18900-19193(LTE Band II BW=1.4MHz)
18615-18900-19185(LTE Band II BW=3MHz)
18625-18900-19175(LTE Band II BW=5MHz)
18650-18900-19150(LTE Band II BW=10MHz)
18675-18900-19125(LTE Band II BW=15MHz)
18700-18900-19100(LTE Band II BW=20MHz)
19957-20175-20393(LTE Band IV BW=1.4MHz)
19965-20175-20385(LTE Band IV BW=3MHz)
19975-20175-20375(LTE Band IV BW=5MHz)
20000-20175-20350(LTE Band IV BW=10MHz)
Test Channels (low-mid-high): 20025-20175-20325(LTE Band IV BW=15MHz)
20050-20175-20300(LTE Band IV BW=20MHz)
20407-20525-20643(LTE Band V BW=1.4MHz)
20415-20525-20635(LTE Band V BW=3MHz)
20425-20525-20625(LTE Band V BW=5MHz)
20450-20525-20600(LTE Band V BW=10MHz)
20775-21100-21425(LTE Band VII BW=5MHz)
20800-21100-21400(LTE Band VII BW=10MHz)
20825-21100-21375(LTE Band VII BW=15MHz)
20850-21100-21350(LTE Band VII BW=20MHz)
23017-23095-23173(LTE Band XII BW=1.4MHz)
23025-23095-23165(LTE Band XII BW=3MHz)
23035-23095-23155(LTE Band XII BW=5MHz)
23060-23095-23130(LTE Band XII BW=10MHz)
23755-23790-23825(LTE Band XVII BW=5MHz)
23780-23790-23800(LTE Band XVII BW=10MHz)
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26697-26865-27033(LTE Band XXVI BW=1.4MHz)
26705-26865-27025(LTE Band XXVI BW=3MHz)
26715-26865-27015(LTE Band XXVI BW=5MHz)
26750-26865-26990(LTE Band XXVI BW=10MHz)
26775-26865-26965(LTE Band XXVI BW=15MHz)
37775-38000-38225(LTE Band XXXVIII BW=5MHz)
37800-38000-38200(LTE Band XXXVIII BW=10MHz)
37825-38000-38175(LTE Band XXXVIII BW=15MHz)
37850-38000-38150(LTE Band XXXVIII BW=20MHz)
Test Channels (low-mid-high): 40265-40740-41215(LTE Band XLI BW=5MHz)
40290-40740-41190(LTE Band XLI BW=10MHz)
40315-40740-41165(LTE Band XLI BW=15MHz)
40340-40740-41140(LTE Band XLI BW=20MHz)
802.11b/g/n 20M:1-6-11
802.11n 40M:3-6-9 (WiFi 2.4G)
802.11a/n/ac 20M: 36-40-44-48-52-56-60-64-100-104-108-112-116120-124-128-132-136-140-144-149-153-157-161-165
802.11 n/ac 40M: 38-46-54-62-102-110-118-126-134-151-159
802.11ac 80M: 42-58-106-122-138-155(WiFi 5G)
Table 3:Device information and operating configuration
Note: LTE B29 supports downlink only.
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1.3.1 General Description
MHA-L09 is subscriber equipment in the LTE/ WCDMA/GSM system. The LTE frequency band is Band I,
Band II, Band III, Band IV, Band V, Band VII, Band VIII, Band IX, Band XII, BandXVII, Band XVIII, Band
XIX, Band XX, Band XXVI, Band XXVIII, Band XXIX, Band XXXVIII, Band XXXIX, Band XL and Band
XLI. But only Band II, Band IV, Band V, Band VII, Band XII, Band XVII, Band XXVI, Band XXXVIII, and
Band XLI test data included in this report. The HSUPA/HSDPA/UMTS frequency band is Band I, Band II,
Band IV, Band V, Band VI, Band VIII and Band XIX, But only Band II, Band IV and Band V test data can
be used in this report. The GSM/GPRS/EDGE frequency band includes GSM850 and GSM900 and
DCS1800 and PCS1900, but only GSM850 and DCS1900 bands test data included in this report. The
Mobile Phone implements such functions as RF signal receiving/transmitting, LTE/ WCDMA /GSM
protocol processing, voice, video, MMS service, GPS, AGPS,NFC and WIFI etc. Externally it provides
earphone port (to provide
voice service) and dual USIM card interfaces. 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.
Battery information:
Name
Rechargeable
Li-ion
Manufacture
Serials number
SCUD
NA
Sunwoda
NA
Description
Battery Model: HB396689ECW
Rated capacity: 3900mAh
Nominal Voltage:
+3.82V
Charging Voltage:
+4.4V
Difference description:
1) PA models changed, new models modified the power Bias, the overall performance of the product
does not affect.
Before
After
Model: SKY78117-14
Model: SKY78117-14A
Description: RF Multi-functional Component,
Description: RF Multi-functional Component, HB PAMID
HB PAMID(w/ B7 DUP), 2300~2690MHz,
(w/ B7 DUP) w/ B7 Gain improvement, 2300~2690MHz,
LGA
LGA
Model: SKY78114-14
Model: SKY78114-21
Description: RF Multi-functional
Description: RF Multi-functional Component,MB
Component,MB PAMID(w/ B1/2/3/4
PAMID(w/ B1/2/3/4 Dup),1710~2025
Dup),1710~2025 MHz,LGA,Terminal
MHz,LGA,Terminal Dedicated, but this change only
Dedicated
affects B3/4.
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2) Other change or adjustment details are as follows:
Change point
Influencing Bands
Adjust a capacitor of antenna, PCB and other components
LTE Band 2/41, WCDMA Band II,
do not change
GSM 1900
Adjust a capacitor of antenna, PCB and other components
do not change
LTE Band 38
Reduce power of LTE Band 7 second antenna 2.5dB.
LTE Band 7(second antenna)
Reduce power of LTE Band 38 second antenna 0.5dB.
LTE Band 38(second antenna)
3) Delete one kind of optional battery (Manufacture: Desay) because this manufacture’s battery has not
been built-in mass product for sale. Only two kinds of optional battery(Manufacture: SCUD and Sunwoda)
are available.
The differences between MHA-L09 and MHA-L29 as beow:
Model
MHA-L29
MHA-L09
Trade mark
HUAWEI
HUAWEI
FCC ID
QISMHA-L29
QISMHA-L09
Frequency-GSM
the same
the same
Frequency-WCDMA
the same
the same
Frequency-LTE
the same
the same
SIM Card
double
Single change nano-tray to SD-tray
Hardware Version
the same
the same
Software Version
different
different
Dimensions
the same
the same
Appearance
the same
the same
main antenna
the same
the same
BT/Wi-Fi antenna
the same
the same
DIV antenna
the same
the same
Others
the same
the same
According to the difference description above, MHA-L09 shares the same test data of MHA-L29 (report
no.: SYBH(Z-SAR)028052017-2) for 2G&3G&4G(with SIM1) and WiFi/BT bands.
1.3.2 Dynamic antenna switching specification
The device has two 2G/3G/4G Tx antennas (Main Antenna and Second Antenna). It can transmit from
either Main Antenna or Second Antenna, but they can not transmit simultaneously.
SAR test procedure for dynamic antenna switching is as below:
The Main Antenna and Second Antenna are set to the MAX transmit power level respectively and test
the SAR respectively in all applicable RF exposure conditions. Some AT commands are supplied to fix
the operation state and choose the antenna so that only one TX antenna is chosen and tested at a time.
All independent antennas will be completely covered by the appropriate SAR measurements and all
simultaneous transmission possibilities will be fully considered to ensure SAR compliance.
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1.3.3 TDD LTE specification
The device supports TDD LTE bands. According to KDB 941225 D05 SAR for LTE Devices, for TimeDivision Duplex (TDD) systems, SAR must be tested using a fixed periodic duty factor according to the
highest transmission duty factor implemented for the device and supported by the defined 3GPP LTE
TDD configurations.
For this device, TDD LTE SAR should be tested with the highest transmission duty factor (63.33%) ,
which using Uplink-downlink configuration 0.The detailed TDD LTE test configuration description are
provided in Section 6 of this report.
1.3.4 Power reduction specification
This device uses a single fixed level of power reduction through static table look-up for SAR compliance
and it is triggered by a single event or operation:
1) A fixed level power reduction is applied for some frequency bands when hotspot mode becomes
active. When the hotspot is disabled, the power value will be recovered.
2) A fixed level power reduction is applied for some frequency bands when simultaneously transmitting
with the other antennas in certain simultaneous transmission conditions. The standalone SAR
compliance still uses the standalone SAR results tested at the maximum output power level without any
power reduction.
The following tables summerize the key power reduction information.The detailed full power and reduced
tune-up specifications and conducted power measurement results are provided in Section 7 of this report.
Power Reduction Level Amount (dB)
Main Antenna
Band
Hotspot is active
Hotspot is disabled
UMTS Band II
2.0
0.0
LTE Band II
2.0
0.0
2G&3G&4G antenna + WiFi antenna simultaneous transmission
Power Reduction Amount (dB)
Band
Main Antenna + WiFi
Second Antenna + WiFi
WIFI 2.4G 802.11b
2.5
2.5
WIFI 2.4G 802.11g
2.0
2.0
WIFI 2.4G 802.11n 20M
1.5
1.5
WIFI 2.4G 802.11n 40M
0.0
0.0
WIFI 5G 802.11a
1.5
1.5
WIFI 5G 802.11n 20M
2.3
2.3
WIFI 5G 802.11n 40M
2.3
2.3
WIFI 5G 802.11ac 20M
2.0
2.0
WIFI 5G 802.11ac 40M
1.5
1.5
WIFI 5G 802.11ac 80M
0.5
0.5
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1.3.5 Downlink LTE CA specification
The device supports downlink LTE Carrier Aggregation (CA) only. Other Release 10 features are not
supported, including Uplink Carrier Aggregation, Enhanced SC-FDMA and Uplink MIMO or other
antenna diversity configurations etc. All uplink communications are identical to the Release 8
Specifications.
The possible downlink LTE CA combinations supported by this device are as below tables per 3GPP TS
36.101 V13.2.1. The conducted power measurement results of downlink LTE CA are provided in Section
7 of this report per 3GPP TS 36.521-1 V13.0.1. According to KDB 941225 D05A, the downlink LTE CA
SAR test is not required and PAG requirements can be excluded.
intra-band contiguous CA(per 3GPP TS 36.101 V13.2.1 Table 5.6A.1-1)
E-UTRA CA configuration / Bandwidth combination set
Component carriers in order of increasing carrier
Maximum
frequency
Bandwidth
E-UTRA CA
aggregated
combination
Channel
Channel
Channel
configuration
bandwidth
set
bandwidths for
bandwidths for
bandwidths for
[MHz]
carrier [MHz]
carrier [MHz]
carrier [MHz]
15
15
40
20
20
10
20
CA_7C
15
15, 20
40
20
10, 15, 20
15
15
CA_38C
40
20
20
10
20
40
15
15, 20
20
10, 15, 20
CA_41C
5, 10
20
40
15
15, 20
20
5, 10, 15, 20
NOTE 1:The CA configuration refers to an operating band and a CA bandwidth class specified in Table
5.6A-1 (the indexing letter). Absence of a CA bandwidth class for an operating band implies
support of all classes.
NOTE 2:For the supported CC bandwidth combinations, the CC downlink and uplink bandwidths are
equal.
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Table: Test frequencies for CA_7C
CC-Combo /
NRB_agg
Range
[RB]
CC1
Note1
BW
fUL
[RB]
NUL
[MHz]
Low
50+100
50
20805 2505.5
100 20850 2510
75+75
75
20825 2507.5
75+100
75
20828 2507.8
100 20850 2510
100+100
100 20850 2510
Mid
50+100
50
21006 2525.6
100 21051 2530.1
75+75
75
21025 2527.5
75+100
75
21003 2525.3
100 21026 2527.6
100+100
100 21001 2525.1
High
50+100
50
21206 2545.6
100 21251 2550.1
75+75
75
21225 2547.5
75+100
75
21179 2542.9
100 21201 2545.1
100+100
100 21152 2540.2
Note 1: Carriers in increasing frequency order.
NDL
2805
2850
2825
2828
2850
2850
3006
3051
3025
3003
3026
3001
3206
3251
3225
3179
3201
3152
fDL
BW
[MHz] [RB]
NUL
2625.5 100 20949
2630
50 20994
2627.5 75 20975
2627.8 100 20999
2630
75 21021
2630
100 21048
2645.6 100 21150
2650.1 50 21195
2647.5 75 21175
2645.3 100 21174
2647.6 75 21197
2645.1 100 21199
2665.6 100 21350
2670.1 50 21395
2667.5 75 21375
2662.9 100 21350
2665.1 75 21372
2660.2 100 21350
CC2
Note1
fUL
[MHz]
2519.9
2524.4
2522.5
2524.9
2527.1
2529.8
2540
2544.5
2542.5
2542.4
2544.7
2544.9
2560
2564.5
2562.5
2560
2562.2
2560
NDL
2949
2994
2975
2999
3021
3048
3150
3195
3175
3174
3197
3199
3350
3395
3375
3350
3372
3350
fDL
[MHz]
2639.9
2644.4
2642.5
2644.9
2647.1
2649.8
2660
2664.5
2662.5
2662.4
2664.7
2664.9
2680
2684.5
2682.5
2680
2682.2
2680
Table: Test frequencies for CA_38C
Range
Low
Mid
High
Note 1:
CCCombo /
NRB_agg
[RB]
CC1
Note1
BW
[RB]
NUL/DL
75+75
75
37825
100+100
100
37850
75+75
75
37925
100+100
100
37900
75+75
75
38025
100+100
100
37952
Carriers in increasing frequency order.
Report No.: SYBH(Z-SAR)030052017-2
CC2
Note1
fUL/DL
[MHz]
2577.5
2580
2587.5
2585
2597.5
2590.2
BW
[RB]
75
100
75
100
75
100
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NUL/DL
37975
38048
38075
38098
38175
38150
fUL/DL
[MHz]
2592.5
2599.8
2602.5
2604.8
2612.5
2610
Page 16 of 219
Table: Test frequencies for CA_41C
Range
Low
Mid
High
Note 1:
CC-Combo /
NRB_agg
[RB]
CC1
Note1
BW
[RB]
NUL/DL
25+100
25
40265
100
40340
50+100
50
40290
100
40340
75+75
75
40315
75+100
75
40315
100
40340
100+100
100
40340
25+100
25
40528
100
40595
50+100
50
40526
100
40571
75+75
75
40545
75+100
75
40523
100
40546
100+100
100
40521
25+100
25
41023
100
41098
50+100
50
40996
100
41046
75+75
75
41014
75+100
75
40969
100
40994
100+100
100
40942
Carriers in increasing frequency order.
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CC2
Note1
fUL/DL
[MHz]
2557.5
2565
2560
2565
2562.5
2562.5
2565
2565
2583.8
2590.5
2583.6
2588.1
2585.5
2583.3
2585.6
2583.1
2633.3
2640.8
2630.6
2635.6
2632.5
2627.9
2630.4
2625.2
BW
[RB]
100
25
100
50
75
100
75
100
100
25
100
50
75
100
75
100
100
25
100
50
75
100
75
100
NUL/DL
40382
40457
40434
40484
40465
40486
40511
40538
40645
40712
40670
40715
40695
40694
40717
40719
41140
41215
41140
41190
41165
41140
41165
41140
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fUL/DL
[MHz]
2569.2
2576.7
2574.4
2579.4
2577.5
2592.1
2582.1
2584.8
2595.5
2602.2
2598.0
2602.5
2600.5
2600.4
2602.7
2602.9
2645
2652.5
2645
2650
2647.5
2645
2647.5
2645
Page 17 of 219
inter-band CA (per 3GPP TS 36.101 V13.2.1 Table 5.6A.1-2)
E-UTRA CA configuration / Bandwidth combination set
Maximum
E-UTRA CA
E-UTRA 1.4
10
15
aggregated
Bandwidth
20 MHz
Configuration
Bands
MHz MHz
MHz
MHz MHz
bandwidth combination set
[MHz]
Yes
20
Yes
CA_1A-5A
Yes
Yes
Yes
Yes
30
Yes
Yes
Yes
Yes
Yes
Yes
35
26
Yes
Yes
Yes
CA_1A-26A
Yes
Yes
20
26
Yes
Yes
Yes
Yes
Yes
30
Yes
Yes
Yes
CA_3A-5A
20
Yes
Yes
Yes
Yes
Yes
Yes
30
Yes
Yes
Yes
Yes
Yes
Yes
CA_3A-7A
40
Yes
Yes
Yes
Yes
Yes
Yes
Yes
CA_3A-7C
60
See CA_7C Bandwidth Combination Set 0 in
table 5.4.2A.1-1
See CA_3C Bandwidth Combination Set 0 in
table 5.4.2A.1-1
CA_3C-7A
60
Yes
Yes
Yes
Yes
Yes
Yes
CA_4A-17A
20
17
Yes
Yes
Yes
Yes
Yes
Yes
CA_4A-28A
40
28
Yes
Yes
Yes
Yes
Yes
Yes
20
29
Yes
Yes
Yes
Yes
Yes
CA_4A-29A
20
29
Yes
Yes
Yes
Yes
Yes
Yes
30
29
Yes
Yes
Yes
Yes
Yes
Yes
CA_5A-7A
30
Yes
Yes
Yes
Yes
Yes
Yes
30
20
Yes
Yes
CA_7A-20A
Yes
Yes
Yes
40
20
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
CA_7A-28A
35
28
Yes
Yes
Yes
39
Yes
Yes
Yes
CA_39A-41A
40
41
Yes
NOTE 1:The CA Configuration refers to a combination of an operating band and a CA bandwidth class
specified in Table 5.4.2A-1 (the indexing letter). Absence of a CA bandwidth class for an operating
band implies support of all classes.
NOTE 2:For each band combination, all combinations of indicated bandwidths belong to the set
NOTE 3:For the supported CC bandwidth combinations, the CC downlink and uplink bandwidths are equal
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Table 5.5A-2: Inter-band CA operating bands(three bands)
E-UTRA CA configuration / Bandwidth combination set
E-UTRA CA
Configuration
E-UTRA
Bands
1.4
MHz
26
20
28
MHz
MHz
10
MHz
15
MHz
20
MHz
Maximum
aggregated
bandwidth[MHz]
Bandwidth
combination
set
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes Yes Yes
Yes Yes Yes
50
Yes
CA_1A-3A-5A
Yes
Yes Yes Yes
40
Yes
Yes Yes Yes
CA_1A-3A-26A
Yes Yes Yes
50
Yes
Yes Yes Yes
CA_3A-7A-20A
Yes Yes Yes
60
Yes
Yes Yes Yes
Yes
Yes Yes Yes
CA_3A-7A-28A
Yes
Yes Yes Yes
60
Yes
Yes Yes Yes
Yes Yes Yes
See CA_7C Bandwidth Combination Set
CA_3A-7C-28A
80
2 in Table 5.6A.1-1
28
Yes Yes Yes
NOTE 1:The CA Configuration refers to a combination of an operating band and a CA bandwidth class
specified in Table 5.4.2A-1 (the indexing letter). Absence of a CA bandwidth class for an operating
band implies support of all classes.
NOTE 2:For each band combination, all combinations of indicated bandwidths belong to the set.
NOTE 3:For the supported CC bandwidth combinations, the CC downlink and uplink bandwidths are equal.
NOTE 4:A terminal which supports a DL CA configuration shall support all the lower order fallback DL CA
combinations and it shall support at least one bandwidth combination set for each of the constituent
lower order DL combinations containing all the bandwidths specified within each specific
combination set of the upper order DL combination.
Note:
1) For the inter-band CA combinations, Except CA_4A-28A,CA_4A-17A, B17/B28 can not be PCC, other
the listed bands above can be used as PCC or SCC.
2) The channel spacing and aggregated channel bandwidth for CA are identical to the associated
specification in 3GPP TS 36.101 V13.2.1.
3) The reference test frequencies for CA refers to 3GPP TS 36.508 V12.5.0.
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1.4
Test specification(s)
Safety Levels with Respect to Human Exposure to Radio Frequency
ANSI C95.1:1992
Electromagnetic Fields, 3 kHz – 300 GHz.( IEEE Std C95.1-1991)
Recommended Practice for Determining the Peak Spatial-Average Specific
IEEE Std 1528-2013
Absorption Rate (SAR) in the Human Head from Wireless Communications
Devices: Measurement Techniques
Radio Frequency Exposure Compliance of Radiocommunication Apparatus
RSS-102
(All Frequency Bands (Issue 5 of March 2015)
KDB941225 D01
3G SAR Procedures v03r01
KDB941225 D05
SAR for LTE Devices v02r05
KDB941225 D05A
LTE Rel.10 KDB Inquiry Sheet v01r02
KDB941225 D06
Hotspot SAR v02r01
KDB447498 D01
General RF Exposure Guidance v06
KDB616217 D04
SAR for laptop and tablets v01r02
KDB648474 D04
Handsets SAR v01r03
KDB248227 D01
SAR Guidance for IEEE 802 11 Wi-Fi SAR v02r02
KDB865664 D01
SAR measurement 100 MHz to 6 GHz v01r04
KDB865664 D02
SAR Reporting v01r02
KDB690783 D01
SAR Listings on Grants v01r03
1.5
Testing laboratory
Test Site
Test Location
Telephone
Fax
State of accreditation
1.6
The Reliability Laboratory of Huawei Technologies Co., Ltd.
Section G1,Huawei Base Bantian, Longgang District, Shenzhen 518129, P.R.
China
+86 755 28780808
+86 755 89652518
The Test laboratory (area of testing) is accredited according to
ISO/IEC 17025.
CNAS Registration number: L0310
A2LA TESTING CERT #2174.01 & 2174.02 & 2174.03
Applicant and Manufacturer
Company Name
Address
HUAWEI TECHNOLOGIES CO., LTD
Administration Building, Headquarters of Huawei Technologies Co., Ltd.,
Bantian, Longgang District, Shenzhen, 518129, P.R.C
1.7 Application details
Start Date of test
2017-06-06
End Date of test
2017-09-07
1.8
Ambient Condition
Ambient temperature
Relative Humidity
20°C – 24°C
30% – 70%
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2 SAR Measurement System
2.1
SAR Measurement Set-up
The DASY5 system for performing compliance tests consists of the following items:

A standard high precision 6-axis robot (Stäubli RX family) with controller and software. An arm
extension for accommodating the data acquisition electronics (DAE).

A dosimetric probe, i.e. an isotropic E-field probe optimized and calibrated for usage in tissue
simulating liquid. The probe is equipped with an optical surface detector system.

A data acquisition electronic (DAE) which performs the signal amplification, signal multiplexing, ADconversion, offset measurements, mechanical surface detection, collision detection, etc. The unit is
battery powered with standard or rechargeable batteries. The signal is optically transmitted to the
EOC.
A unit to operate the optical surface detector which is connected to the EOC.
The Electro-Optical Coupler (EOC) performs the conversion from the optical into a digital electric
signal of the DAE. The EOC is connected to the DASY5 measurement server.
The DASY5 measurement server, which performs all real-time data evaluation for field
measurements and surface detection, controls robot movements and handles safety operation. A
computer operating Windows 7.
DASY5 software and SEMCAD data evaluation software.
Remote control with teach panel and additional circuitry for robot safety such as warning lamps, etc.
The generic twin phantom enabling the testing of left-hand and right-hand usage.
The device holder for handheld mobile phones.
Tissue simulating liquid mixed according to the given recipes.
System check dipoles allowing to validate the proper functioning of the system.









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2.2 Test environment
The DASY5 measurement system is placed at the head end of a room with dimensions:
5 x 2.5 x 3 m³, the SAM phantom is placed in a distance of 75 cm from the side walls and 1.1m from the
rear wall. Above the test system a 1.5 x 1.5 m² array of pyramid absorbers is installed to reduce
reflections from the ceiling.
Picture 1 of the photo documentation shows a complete view of the test environment.
The system allows the measurement of SAR values larger than 0.005 mW/g.
2.3 Data Acquisition Electronics description
The data acquisition electronics (DAE) consist of a highly sensitive electrometer-grade preamplifier with
auto-zeroing, a channel and gain-switching multiplexer, a fast 16 bit AD-converte and a command
decoder with a control logic unit. Transmission to the measurement server is accomplished through an
optical downlink for data and status information, as well as an optical uplink for commands and the clock.
The mechanical probe mounting device includes two different sensor systems for frontal and sideways
probe contacts. They are used for mechanical surface detection and probe collision detection.
DAE4
Input Impedance
200MOhm
The Inputs
symmetrical and floating
Common mode rejection
above 80 dB
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2.4 Probe description
These probes are specially designed and calibrated for use in liquids with high permittivities. They
should not be used in air, since the spherical isotropy in air is poor (±2 dB). The dosimetric probes have
special calibrations in various liquids at different frequencies.
Isotropic E-Field Probe ES3DV3 for Dosimetric Measurements
Symmetrical design with triangular core
Interleaved sensors
Construction
Built-in shielding against static charges
PEEK enclosure material (resistant to organic
solvents, e.g., DGBE)
Calibration
ISO/IEC 17025 calibration service available.
10 MHz to 4 GHz; Linearity: ± 0.2 dB (30 MHz to 4
Frequency
GHz)
± 0.2 dB in HSL (rotation around probe axis)
Directivity
± 0.3 dB in tissue material (rotation normal to
probe axis)
Dynamic range
5 µW/g to > 100 mW/g; Linearity: ± 0.2 dB
Overall length: 337 mm (Tip: 20 mm)
Dimensions
Tip diameter: 3.9 mm (Body: 12 mm)
Distance from probe tip to dipole centers: 2.0 mm
General dosimetry up to 4 GHz
Dosimetry in strong gradient fields
Application
Compliance tests of mobile phones
Isotropic E-Field Probe EX3DV4 for Dosimetric Measurements
Construction
Calibration
Frequency
Directivity
Dynamic range
Dimensions
Application
Symmetrical design with triangular core
Built-in shielding against static charges
PEEK enclosure material (resistant to organic
solvents, e.g., DGBE)
ISO/IEC 17025 calibration service available.
10 MHz to >6 GHz; Linearity: ± 0.2 dB (30 MHz to
6 GHz)
± 0.3 dB in HSL (rotation around probe axis)
± 0.5 dB in tissue material (rotation normal to
probe axis)
10 µW/g to > 100 mW/g;
Linearity: ± 0.2 dB(noise:typically<1µW/g)
Overall length: 337 mm (Tip:20 mm)
Tip diameter:2.5 mm (Body:12 mm)
Typical distance from probe tip to dipole centers:
1mm
High precision dosimetric measurements in any
exposure scenario(e.g.,very strong gradient fields).
Only probe which enables compliance testing for
frequencies up to 6 GHz with precision of better
30%
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2.5 Phantom description
SAM Twin Phantom
Shell Thickness
2mm±0.2mm;The ear region:6.0±0.2mm
Filling Volume
Approximately 25 liters
Length:1000mm; Width:500mm;
Height: adjustable feet
Left hand
Right hand
Flat phantom
Dimensions
Measurement Areas
The bottom plate contains three pairs of bolts for locking the device holder. The device holder
positions are adjusted to the standard measurement positions in the three sections.
A white cover is provided to cover the phantom during off-periods to prevent water evaporation
and changes in the liquid parameters. Free space scans of devices on top of this phantom cover are
possible. Three reference marks are provided on the phantom counter. These reference marks are
used to teach the absolute phantom position relative to the robot.
The following figure shows the definition of reference point:
ELI4 Phantom
Shell Thickness
2mm±0.2mm
Filling Volume
Dimensions
Approximately 30 liters
Major axis:600mm; Minor axis:400mm;
Measurement Areas
Flat phantom
The ELI4 phantom is intended for compliance testing of handheld and body-mounted wireless
devices in the frequency range of 30MHz to 6GHz. ELI4 is fully compatible with the latest draft
of the standard IEC 62209-2 and all known tissue simulating liquids.
The phantom shell material is resistant to all ingredients used in the tissue-equivalent liquid recipes. The
shell of the phantom including ear spacers is constructed from low permittivity and low loss material, with
a relative permittivity 2≤εr≤5 at ≤3 GHz,3≤ εr≤4 at >3 GHz and and a loss tangent ≤0.05.
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2.6 Device holder description
The DASY5 device holder has two scales for device rotation (with respect to the body axis) and the
device inclination (with respect to the line between the ear openings). The plane between the ear
openings and the mouth tip has a rotation angle of 65°. The bottom plate contains three pair of bolts for
locking the device holder. The device holder positions are adjusted to the standard measurement
positions in the three sections. This device holder is used for standard mobile phones or PDA’s only. If
necessary an additional support of polystyrene material is used.
The DASY device holder is constructed of low-loss POM material having the
following dielectric parameters: relative permittivity ε=3 and loss tangent σ
=0.02. The amount of dielectric material has been reduced in the closest
vicinity of the device, since measurements have suggested that the influence
of the clamp on the test results could thus be lowered.
The device holder permits the device to be positioned with a tolerance of ±1°
in the tilt angle.
Larger DUT’s (e.g. notebooks) cannot be tested using this device holder.
Instead a support of bigger polystyrene cubes and thin polystyrene plates is
used to position the DUT in all relevant positions to find and measure spots
with maximum SAR values.
Therefore those devices are normally only tested at the flat part of the SAM.
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2.7 Test Equipment List
This table gives a complete overview of the SAR measurement equipment.
Devices used during the test described are marked
Manufacturer
Device
Type
Serial number
Date of last
calibration*
Valid period
SPEAG
Dosimetric E-Field Probe
EX3DV4
3736
2017-04-27
One year
SPEAG
Dosimetric E-Field Probe
EX3DV4
3578
2017-05-05
One year
SPEAG
Dosimetric E-Field Probe
ES3DV3
3168
2016-09-27
One year
SPEAG
750MHz Dipole
D750V3
1044
2016-09-28 Three years
SPEAG
835MHz Dipole
D835V2
4d059
2016-04-20 Three years
SPEAG
1750MHz Dipole
D1750V2
1145
2016-02-02 Three years
SPEAG
1900MHz Dipole
D1900V2
5d091
2015-09-21 Three years
SPEAG
2450MHz Dipole
D2450V2
860
2016-11-23 Three years
SPEAG
2600MHz Dipole
D2600V2
1021
2017-07-21 Three years
SPEAG
2600MHz Dipole
D2600V2
1058
2017-06-17 Three years
SPEAG
5GHz Dipole
D5GHzV2
1155
2017-04-26 Three years
SPEAG
Data acquisition electronics
DAE4
851
2016-07-22
One year
SPEAG
Data acquisition electronics
DAE4
852
2017-04-27
One year
SPEAG
Data acquisition electronics
DAE4
1236
2017-07-21
One year
SPEAG
Data acquisition electronics
DAE4
918
2017-06-26
One year
SPEAG
Software
DASY 5
N/A
NCR
NCR
SPEAG
Twin Phantom
SAM1
TP-1475
NCR
NCR
SPEAG
Twin Phantom
SAM2
TP-1474
NCR
NCR
SPEAG
Twin Phantom
SAM3
TP-1597
NCR
NCR
SPEAG
Twin Phantom
SAM4
TP-1620
NCR
NCR
R&S
Universal Radio Communication Tester CMU 200
111379
2016-12-29
One year
R&S
Universal Radio Communication Tester CMW 500
158850
2017-06-13
One year
Anritsu
Radio Communication Analyzer
MT8821C 6201588598 2017-05-22
One year
Agilent
Network Analyser
E5071C
MY46213349 2016-12-30
One year
Agilent
Dielectric Probe Kit
85070E
2484
NCR
NCR
Agilent
Signal Generator
N5181A
MY50145341 2016-11-14
One year
MINIAmplifier
ZHL-42W
QA1402001
NCR
NCR
CIRCUITS
MINIAmplifier
ZVE-8G+ N523101139
NCR
NCR
CIRCUITS
One year
AR
Directional Coupler
DC7144M1
0423264
2017-04-12
Agilent
Dual Directional Coupler
772D
MY52180173 2017-01-03
One year
R&S
Power Meter Sensor
E9321A
MY54130007 2017-04-10
One year
R&S
Power Meter Sensor
E9321A
MY54130001 2017-04-10
One year
Agilent
Power Meter
E4417A
MY45101339 2016-12-30
One year
Agilent
Power Meter Sensor
E9321A
MY44420359 2016-12-30
One year
Note: 1) Per KDB865664D01 requirements for dipole calibration, the test laboratory has adopted threeyear extended calibration interval. Each measured dipole is expected to evaluate with the following
criteria at least on annual interval in Appendix C.
a) There is no physical damage on the dipole;
b) System check with specific dipole is within 10% of calibrated value;
c) The most recent return-loss result, measured at least annually, deviates by no more than 20% from
the previous measurement.
d) The most recent measurement of the real or imaginary parts of the impedance, measured at least
annually is within 5Ω from the previous measurement.
2) Network analyzer probe calibration against air, distilled water and a shorting block performed before
measuring liquid parameters.
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3) *All the equipments are within the valid period when the tests are performed.
3 SAR Measurement Procedure
3.1 Scanning procedure
The DASY5 installation includes predefined files with recommended procedures for measurements and
system check. They are read-only document files and destined as fully defined but unmeasured masks.
All test positions (head or body-worn) are tested with the same configuration of test steps differing only in
the grid definition for the different test positions.

The “reference” and “drift” measurements are located at the beginning and end of the batch process.
They measure the field drift at one single point in the liquid over the complete procedure. The
indicated drift is mainly the variation of the DUT’s output power and should vary max. +/- 5 %.

The “surface check” measurement tests the optical surface detection system of the DASY5 system
by repeatedly detecting the surface with the optical and mechanical surface detector and comparing
the results. The output gives the detecting heights of both systems, the difference between the two
systems and the standard deviation of the detection repeatability. Air bubbles or refraction in the
liquid due to separation of the sugar-water mixture gives poor repeatability (above ± 0.1mm). To
prevent wrong results tests are only executed when the liquid is free of air bubbles. The difference
between the optical surface detection and the actual surface depends on the probe and is specified
with each probe. (It does not depend on the surface reflectivity or the probe angle to the surface
within ± 30°.)

The “area scan” measures the SAR above the DUT or verification dipole on a parallel plane to the
surface. It is used to locate the approximate location of the peak SAR with 2D spline interpolation.
The robot performs a stepped movement along one grid axis while the local electrical field strength is
measured by the probe. The probe is touching the surface of the SAM during acquisition of
measurement values. The standard scan uses large grid spacing for faster measurement. Standard
grid spacing for head measurements is 15 mm in x- and y- dimension(≤2GHz),12 mm in x- and ydimension(2-4 GHz) and 10mm in x- and y- dimension(4-6GHz). If a finer resolution is needed, the
grid spacing can be reduced. Grid spacing and orientation have no influence on the SAR result. For
special applications where the standard scan method does not find the peak SAR within the grid, e.g.
mobile phones with flip cover, the grid can be adapted in orientation.
Results of this coarse scan are shown in Appendix B.

A “zoom scan” measures the field in a volume around the 2D peak SAR value acquired in the
previous “coarse” scan. This is a fine grid with maximum scan spatial resolution: Δxzoom, Δyzoom≤
2GHz - ≤8mm, 2-4GHz - ≤5 mm and 4-6 GHz-≤4mm; Δzzoom ≤3GHz - ≤5 mm, 3-4 GHz- ≤4mm
and 4-6GHz-≤2mm where the robot additionally moves the probe along the z-axis away from the
bottom of the Phantom. DASY is also able to perform repeated zoom scans if more than 1 peak is
found during area scan. In this document, the evaluated peak 1g and 10g averaged SAR values are
shown in the 2D-graphics in Appendix B. Test results relevant for the specified standard (see chapter
1.4.)are shown in table form form in chapter 7.2.

A Z-axis scan measures the total SAR value at the x-and y-position of the maximum SAR value
found during the cube scan. The probe is moved away in z-direction from the bottom of the SAM
phantom in 2 mm steps. This measurement shows the continuity of the liquid and can - depending in
the field strength – also show the liquid depth. A z-axis scan of the measurement with maximum SAR
value is shown in Appendix B.
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The following table summarizes the area scan and zoom scan resolutions per FCC KDB 865664D01:
Maximun
Maximun Zoom Maximun Zoom Scan spatial resolution
Minimum
Area
Scan Scan
spatial Uniform Grid Graded Grad
zoom scan
Frequency
resolution
resolution
volume
ΔzZoom(n)
ΔzZoom(1)* ΔzZoom(n>1)*
(Δxarea, Δyarea ) (ΔxZoom, ΔyZoom )
(x,y,z)
≤2GHz
≤15mm
≤8mm
≤5mm
≤4mm
≤1.5*ΔzZoom(n-1) ≥30mm
2-3GHz
≤12mm
≤5mm
≤5mm
≤4mm
≤1.5*ΔzZoom(n-1) ≥30mm
3-4GHz
≤12mm
≤5mm
≤4mm
≤3mm
≤1.5*ΔzZoom(n-1) ≥28mm
4-5GHz
≤10mm
≤4mm
≤3mm
≤2.5mm
≤1.5*ΔzZoom(n-1) ≥25mm
5-6GHz
≤10mm
≤4mm
≤2mm
≤2mm
≤1.5*ΔzZoom(n-1) ≥22mm
3.2 Spatial Peak SAR Evaluation
The spatial peak SAR - value for 1 and 10 g is evaluated after the Cube measurements have been done.
The basis of the evaluation are the SAR values measured at the points of the fine cube grid consisting of
5 x 5 x 7 points( with 8mm horizontal resolution) or 7 x 7 x 7 points( with 5mm horizontal resolution) or 8
x 8 x 7 points( with 4mm horizontal resolution). The algorithm that finds the maximal averaged volume is
separated into three different stages.

The data between the dipole center of the probe and the surface of the phantom are extrapolated.
This data cannot be measured since the center of the dipole is 2.7 mm away from the tip of the probe
and the distance between the surface and the lowest measuring point is about 1 mm (see probe
calibration sheet). The extrapolated data from a cube measurement can be visualized by selecting
‘Graph Evaluated’.

The maximum interpolated value is searched with a straight-forward algorithm. Around this maximum
the SAR - values averaged over the spatial volumes (1g or 10 g) are computed using the 3d-spline
interpolation algorithm. If the volume cannot be evaluated (i.e., if a part of the grid was cut off by the
boundary of the measurement area) the evaluation will be started on the corners of the bottom plane
of the cube.

All neighboring volumes are evaluated until no neighboring volume with a higher average value is
found.
Extrapolation
The extrapolation is based on a least square algorithm [W. Gander, Computermathematik, p.168-180].
Through the points in the first 3 cm along the z-axis, polynomials of order four are calculated. These
polynomials are then used to evaluate the points between the surface and the probe tip. The points,
calculated from the surface, have a distance of 1 mm from each other.
Interpolation
The interpolation of the points is done with a 3d-Spline. The 3d-Spline is composed of three onedimensional splines with the "Not a knot"-condition [W. Gander, Computermathematik, p.141-150] (x, y
and z -direction) [Numerical Recipes in C, Second Edition, p.123ff ].
Volume Averaging
At First the size of the cube is calculated. Then the volume is integrated with the trapezoidal algorithm.
8000 points (20x20x20) are interpolated to calculate the average.
Advanced Extrapolation
DASY5 uses the advanced extrapolation option which is able to compansate boundary effects on E-field
probes.
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3.3
Data Storage and Evaluation
Data Storage
The DASY5 software stores the acquired data from the data acquisition electronics as raw data (in
microvolt readings from the probe sensors), together with all necessary software parameters for the data
evaluation (probe calibration data, liquid parameters and device frequency and modulation data) in
measurement files with the extension "DAE4". The software evaluates the desired unit and format for
output each time the data is visualized or exported. This allows verification of the complete software
setup even after the measurement and allows correction of incorrect parameter settings. For example, if
a measurement has been performed with a wrong crest factor parameter in the device setup, the
parameter can be corrected afterwards and the data can be re-evaluated.
The measured data can be visualized or exported in different units or formats, depending on the selected
probe type ([V/m], [A/m], [°C], [mW/g], [mW/cm²], [dBrel], etc.). Some of these units are not available in
certain situations or show meaningless results, e.g., a SAR output in a lossless media will always be
zero. Raw data can also be exported to perform the evaluation with other software packages.
Data Evaluation by SEMCAD
The SEMCAD software automatically executes the following procedures to calculate the field units from
the microvolt readings at the probe connector. The parameters used in the evaluation are stored in the
configuration modules of the software:
Probe parameters:
- Sensitivity
- Conversion factor
- Diode compression point
Device parameters: - Frequency
- Crest factor
Media parameters: - Conductivity
- Density
Normi, ai0, ai1, ai2
ConvFi
Dcpi
cf


These parameters must be set correctly in the software. They can be found in the component documents
or they can be imported into the software from the configuration files issued for the DASY5 components.
In the direct measuring mode of the multimeter option, the parameters of the actual system setup are
used. In the scan visualization and export modes, the parameters stored in the corresponding document
files are used.
The first step of the evaluation is a linearization of the filtered input signal to account for the compression
characteristics of the detector diode. The compensation depends on the input signal, the diode type and
the DC-transmission factor from the diode to the evaluation electronics.
If the exciting field is pulsed, the crest factor of the signal must be known to correctly compensate for
peak power. The formula for each channel can be given as:
Vi = Ui + Ui2  cf/dcpi
with
Vi
Ui
cf
dcpi
= compensated signal of channel i (i = x, y, z)
= input signal of channel i
(i = x, y, z)
= crest factor of exciting field (DASY parameter)
= diode compression point
(DASY parameter)
From the compensated input signals the primary field data for each channel can be
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evaluated:
Ei = (Vi / Normi  ConvF)1/2
Hi = (Vi)1/2  (ai0 + ai1f + ai2f2)/f
E-field probes:
H-field probes:
with
Vi
Normi
= compensated signal of channel i
(i = x, y, z)
= sensor sensitivity of channel i
(i = x, y, z)
[mV/(V/m)2] for E-field Probes
ConvF = sensitivity enhancement in solution
aij
= sensor sensitivity factors for H-field probes
= carrier frequency [GHz]
Ei
= electric field strength of channel i in V/m
Hi
= magnetic field strength of channel i in A/m
The RSS value of the field components gives the total field strength (Hermitian magnitude):
Etot = (Ex2 + EY2 + Ez2)1/2
The primary field data are used to calculate the derived field units.
SAR = (Etot2  ) / (  1000)
with
SAR
Etot


= local specific absorption rate in mW/g
= total field strength in V/m
= conductivity in [mho/m] or [Siemens/m]
= equivalent tissue density in g/cm3
Note that the density is normally set to 1 (or 1.06), to account for actual brain density rather than the
density of the simulation liquid.The power flow density is calculated assuming the excitation field to be a
free space field.
Ppwe = Etot2 / 3770
with
Ppwe
Etot
Htot
or
Ppwe = Htot2

37.7
= equivalent power density of a plane wave in mW/cm2
= total electric field strength in V/m
= total magnetic field strength in A/m
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4 System Verification Procedure
4.1 Tissue Verification
The simulating liquids should be checked at the beginning of a series of SAR measurements to
determine of the dielectic parameter are within the tolerances of the specified target values. The
measured conductivity and relative permittivity should be within ± 5% of the target values.
The following materials are used for producing the tissue-equivalent materials.
Ingredients (% of weight)
Head Tissue
750
835
1750
1900
2300
2450
2600
Frequency Band (MHz)
Water
39.2
41.45
52.64
55.242
62.82
62.7
55.242
Salt (NaCl)
2.7
1.45
0.36
0.306
0.51
0.5
0.306
Sugar
57.0
56.0
0.0
0.0
0.0
0.0
0.0
HEC
0.0
1.0
0.0
0.0
0.0
0.0
0.0
Bactericide
0.0
0.1
0.0
0.0
0.0
0.0
0.0
Triton X-100
0.0
0.0
0.0
0.0
0.0
0.0
0.0
DGBE
0.0
0.0
47.0
44.542
36.67
36.8
44.452
Ingredients (% of weight)
Body Tissue
750
835
1750
1900
2300
2450
2600
Frequency Band (MHz)
Water
50.3
52.4
69.91
69.91
73.32
73.2
64.493
Salt (NaCl)
1.60
1.40
0.13
0.13
0.06
0.04
0.024
Sugar
47.0
45.0
0.0
0.0
0.0
0.0
0.0
HEC
0.0
1.0
0.0
0.0
0.0
0.0
0.0
Bactericide
0.0
0.1
0.0
0.0
0.0
0.0
0.0
Triton X-100
0.0
0.0
0.0
0.0
0.0
0.0
0.0
DGBE
0.0
0.0
29.96
29.96
26.62
26.7
32.252
Table 4: Tissue Dielectric Properties
Salt: 99+% Pure Sodium Chloride; Sugar: 98+% Pure Sucrose; Water: De-ionized, 16M+ resistivity
HEC: Hydroxyethyl Cellulose; DGBE: 99+% Di(ethylene glycol) butyl ether, [2-(2-butoxyethoxy)ethanol]
Triton X-100(ultra pure): Polyethylene glycol mono [4-(1,1,3,3-tetramethylbutyl)phenyl]ether
Simulating Head Liquid (HBBL600-6000MHz), Manufactured by SPEAG:
Ingredients
(% by weight)
Water
50-65%
Mineral oil
10-30%
Emulsifiers
8-25%
Sodium salt
0-1.5%
Simulating Body Liquid (MBBL600-6000MHz),Manufactured by SPEAG:
Ingredients
(% by weight)
Water
60-80%
Esters,Emulsifiers,Inhibitors
20-40%
Sodium salt
0-1.5%
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Tissue
Type
750H
750B
835H
835B
835B
1750H
1750H
1750B
1750B
1750B
1900H
Deviation
(Within +/-5% )
Δεr
Δσ
0.93%
2.03%
0.95%
2.26%
1.15%
3.87%
0.84%
-0.67%
0.83%
-0.46%
1.03%
1.13%
0.82%
-0.30%
0.89%
0.00%
0.46%
-1.36%
-1.63%
-2.36%
-1.70%
-1.95%
-1.81%
-3.23%
-3.82%
1.15%
-3.88%
1.49%
-3.99%
0.21%
-1.10%
-2.15%
-1.22%
-1.91%
-1.17%
-1.75%
-1.35%
-1.79%
0.07%
-0.15%
0.02%
-0.07%
-0.02%
0.00%
0.05%
0.21%
-3.38%
-3.63%
-3.31%
-4.53%
-3.22%
-3.96%
-3.02%
-3.49%
-3.23%
-4.38%
-3.25%
-4.73%
-3.05%
-4.63%
-3.10%
-4.08%
-2.21%
1.44%
-2.13%
0.68%
-2.08%
0.87%
-1.91%
1.51%
-1.37%
-2.14%
Measured
Frequency
(MHz)
705
710
750
705
710
750
825
835
850
825
835
850
825
835
850
1710
1730
1750
1800
1710
1730
1750
1800
1710
1730
1750
1800
1710
1730
1750
1800
1710
1730
1750
1800
1850
εr
42.14
42.11
41.90
55.70
55.70
55.50
41.60
41.50
41.50
55.20
55.20
55.20
55.20
55.20
55.20
40.1
40.1
40.1
40.0
40.1
40.1
40.1
40.0
53.50
53.50
53.40
53.30
53.50
53.50
53.40
53.30
53.50
53.50
53.40
53.30
40.00
σ (S/m)
0.89
0.89
0.89
0.96
0.96
0.96
0.90
0.90
0.92
0.97
0.97
0.99
0.97
0.97
0.99
1.35
1.36
1.37
1.40
1.35
1.36
1.37
1.40
1.46
1.48
1.49
1.52
1.46
1.48
1.49
1.52
1.46
1.48
1.49
1.52
1.40
εr
42.53
42.51
42.38
56.17
56.16
56.07
41.94
41.87
41.69
54.30
54.26
54.20
53.09
53.06
53.00
39.66
39.61
39.63
39.46
40.13
40.11
40.09
40.02
51.69
51.73
51.68
51.69
51.77
51.76
51.77
51.65
52.32
52.36
52.29
52.28
39.45
σ (S/m)
0.908
0.910
0.924
0.954
0.956
0.971
0.897
0.900
0.908
0.947
0.951
0.958
0.981
0.985
0.992
1.321
1.334
1.346
1.375
1.348
1.359
1.370
1.403
1.407
1.413
1.431
1.467
1.396
1.410
1.421
1.458
1.481
1.490
1.503
1.543
1.370
1880
40.00
1.40
39.42
1.388
-1.45%
-0.86%
1900
40.00
1.40
39.37
1.397
-1.58%
-0.21%
1910
40.00
1.40
39.43
1.404
-1.43%
0.29%
Target Tissue
Report No.: SYBH(Z-SAR)030052017-2
Measured Tissue
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Liquid
Temp.
Test Date
21.6°C
2017/06/25
21.5°C
2017/06/25
21.6°C
2017/06/24
21.7°C
2017/06/26
21.4°C
2017/08/25
21.3°C
2017/06/25
21.7°C
2017/08/23
21.5°C
2017/06/06
21.3°C
2017/06/26
21.6°C
2017/06/28
21.3°C
2017/06/24
Page 32 of 219
1900B
1900B
2450H
2450B
2600H
2600H
2600B
2600B
1850
40.00
1.40
52.53
1.520
-1.44%
0.00%
1880
40.00
1.40
52.49
1.540
-1.52%
1.32%
1900
40.00
1.40
52.47
1.553
-1.56%
2.17%
1910
40.00
1.40
52.47
1.560
-1.56%
2.63%
1850
53.30
1.52
52.33
1.476
-1.82%
-2.89%
1880
53.30
1.52
52.27
1.496
-1.93%
-1.58%
1900
53.30
1.52
52.23
1.508
-2.01%
-0.79%
1910
53.30
1.52
52.20
1.515
-2.06%
-0.33%
2410
39.30
1.76
38.29
1.783
-2.57%
1.31%
2435
39.20
1.79
38.26
1.800
-2.40%
0.56%
2450
39.20
1.80
38.23
1.811
-2.47%
0.61%
2460
39.20
1.81
38.21
1.819
-2.53%
0.50%
2410
52.80
1.91
50.69
1.971
-4.00%
3.19%
2435
52.70
1.94
50.66
1.992
-3.87%
2.68%
2450
52.70
1.95
50.65
2.006
-3.89%
2.87%
2460
52.70
1.96
50.64
2.015
-3.91%
2.81%
2510
39.12
1.86
38.75
1.889
-0.95%
1.56%
2535
39.10
1.89
38.73
1.909
-0.95%
1.01%
2560
39.00
1.92
38.69
1.932
-0.79%
0.78%
2600
39.00
1.96
38.62
1.969
-0.97%
0.46%
2610
38.99
1.97
38.60
1.976
-1.00%
0.30%
2645
38.94
2.01
38.53
2.007
-1.05%
-0.15%
2510
39.12
1.86
38.40
1.893
-1.84%
1.77%
2535
39.10
1.89
38.34
1.915
-1.94%
1.32%
2560
39.00
1.92
38.32
1.943
-1.74%
1.36%
2600
39.00
1.96
38.23
1.976
-1.97%
0.82%
2610
38.99
1.97
38.20
1.979
-2.03%
0.46%
2645
38.94
2.01
38.16
2.016
-2.00%
0.30%
2510
52.62
2.03
50.73
2.095
-3.59%
3.20%
2535
52.59
2.07
50.69
2.119
-3.61%
2.37%
2560
52.57
2.09
50.65
2.144
-3.65%
2.58%
2600
52.50
2.16
50.58
2.182
-3.66%
1.02%
2610
52.49
2.17
50.57
2.191
-3.66%
0.97%
2645
52.44
2.22
50.51
2.227
-3.68%
0.32%
2510
52.62
2.03
51.29
2.127
-2.53%
4.78%
2535
52.59
2.07
51.89
2.152
-1.33%
3.96%
2560
52.57
2.09
51.85
2.182
-1.37%
4.40%
2600
52.50
2.16
51.78
2.224
-1.37%
2.96%
2610
52.49
2.17
51.75
2.234
-1.41%
2.95%
2645
52.44
2.22
51.68
2.272
-1.45%
2.34%
Report No.: SYBH(Z-SAR)030052017-2
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Copyright © Huawei Technologies Co., Ltd
21.6°C
2017/06/26
21.7°C
2017/09/07
21.5°C
2017/08/28
21.4°C
2017/08/28
21.2°C
2017/06/28
21.1°C
2017/08/01
21.6°C
2017/06/26
21.7°C
2017/06/28
Page 33 of 219
2600B
2600B
5G H
5G B
2510
52.62
2.03
50.60
2.043
-3.84%
0.64%
2535
52.59
2.07
50.61
2.066
-3.76%
-0.19%
2560
52.57
2.09
50.51
2.094
-3.92%
0.19%
2600
52.50
2.16
50.45
2.133
-3.91%
-1.25%
2610
52.49
2.17
50.47
2.134
-3.85%
-1.66%
2645
52.44
2.22
50.40
2.174
-3.89%
-2.07%
2510
52.62
2.03
50.43
2.126
-4.16%
4.73%
2535
52.59
2.07
50.39
2.150
-4.18%
3.86%
2560
52.57
2.09
50.34
2.176
-4.24%
4.11%
2600
52.50
2.16
50.27
2.215
-4.25%
2.55%
2610
52.49
2.17
50.25
2.225
-4.27%
2.53%
2645
52.44
2.22
50.19
2.260
-4.29%
1.80%
5600
35.50
5.07
34.61
4.949
-2.51%
5750
35.40
5.22
34.10
5.100
5600
48.50
5.77
48.02
5.744
21.8°C
2017/07/31
21.5°C
2017/08/25
-2.39%
21.6°C
2017/08/28
-3.67%
-2.30%
21.6°C
2017/08/28
-0.99%
-0.45%
21.6°C
2017/08/28
5750
48.30
5.94
47.45
6.024
-1.76%
1.41%
21.6°C 2017/08/28
Table 5:Measured Tissue Parameter
Note: 1)The dielectric parameters of the tissue-equivalent liquid should be measured under similar
ambient conditions and within 2°C of the conditions expected during the SAR evaluation to satisfy
protocol requirements.
2) KDB 865664 was ensured to be applied for probe calibration frequencies greater than or equal
to 50MHz of the EUT frequencies.
3) The above measured tissue parameters were used in the DASY software to perform
interpolation via the DASY software to determine actual dielectric parameters at the test frequencies.
The SAR test plots may slightly differ from the table above since the DASY rounds to three significant
digits.
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4.2 System Check
The system check is performed for verifying the accuracy of the complete measurement system and
performance of the software. The system check is performed with tissue equivalent material according to
IEEE 1528 (described above). The following table shows system check results for all frequency bands
and tissue liquids used during the tests(Graphic Plot(s) see Appendix A).
Measured SAR
Deviation
Target SAR (1W)
(Normalized to 1W) (Within +/-10% )
Liquid
System Check
Test Date
Temp.
1-g
10-g
1-g
10-g
1-g
10-g
(W/kg)
(W/kg)
(W/kg)
(W/kg)
(W/kg) (W/kg)
750MHz Head
8.22
5.39
8.32
5.44
1.22%
0.93% 21.6°C
2017/06/25
835MHz Head
9.30
6.05
9.64
6.28
3.66%
3.80% 21.6°C
2017/06/24
1750MHz Head
36.10
19.10
34.08
18.04
-5.60% -5.55% 21.3°C
2017/06/25
1750MHz Head
36.10
19.10
39.32
20.72
8.92%
8.48% 21.7°C
2017/08/23
1900MHz Head
40.20
21.10
39.40
20.28
-1.99% -3.89% 21.3°C
2017/06/24
2450MHz Head
51.90
24.40
52.00
24.12
0.19% -1.15% 21.5°C
2017/08/28
2600MHz Head
57.00
25.50
54.80
24.88
-3.86% -2.43% 21.2°C
2017/06/28
2600MHz Head
58.70
26.10
56.80
25.88
-3.24% -0.84% 21.1°C
2017/08/01
5600MHz Head
81.10
23.00
76.20
21.80
-6.04% -5.22% 21.6°C
2017/08/28
5750MHz Head
77.20
21.90
77.10
22.10
-0.13%
0.91% 21.6°C
2017/08/28
750MHz Body
8.64
5.72
835MHz Body
9.41
6.20
835MHz Body
9.41
6.20
1750MHz Body
36.50
19.40
1750MHz Body
36.50
19.40
1750MHz Body
36.50
19.40
1900MHz Body
39.90
21.00
1900MHz Body
39.90
21.00
2450MHz Body
50.60
23.80
2600MHz Body
54.30
24.30
2600MHz Body
54.30
24.30
2600MHz Body
54.30
24.30
2600MHz Body
55.90
24.90
5600MHz Body
78.70
22.10
5750MHz Body
75.90
21.20
Table 6:System Check Results
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9.00
9.84
10.12
34.92
36.52
36.68
43.20
40.40
48.40
57.20
54.80
51.60
56.40
77.20
69.80
5.92
6.48
6.60
18.56
19.40
19.48
22.36
21.32
22.36
25.32
24.76
23.32
25.08
21.40
19.60
4.17%
4.57%
7.55%
-4.33%
0.05%
0.49%
8.27%
1.25%
-4.35%
5.34%
0.92%
-4.97%
0.89%
-1.91%
-8.04%
3.50%
4.52%
6.45%
-4.33%
0.00%
0.41%
6.48%
1.52%
-6.05%
4.20%
1.89%
-4.03%
0.72%
-3.17%
-7.55%
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21.5°C
21.7°C
21.4°C
21.5°C
21.3°C
21.6°C
21.6°C
21.7°C
21.4°C
21.6°C
21.7°C
21.8°C
21.5°C
21.6°C
21.6°C
2017/06/25
2017/06/26
2017/08/25
2017/06/06
2017/06/26
2017/06/28
2017/06/26
2017/09/07
2017/08/28
2017/06/26
2017/06/28
2017/07/31
2017/08/25
2017/08/28
2017/08/28
Page 35 of 219
4.3 System check Procedure
The system check is performed by using a system check dipole which is positioned parallel to the planar
part of the SAM phantom at the reference point. The distance of the dipole to the SAM phantom is
determined by a plexiglass spacer. The dipole is connected to the signal source consisting of signal
generator and amplifier via a directional coupler, N-connector cable and adaption to SMA. It is fed with a
power of 250 mW(below 3GHz) or 100mW(3-6GHz). To adjust this power a power meter is used. The
power sensor is connected to the cable before the system check to measure the power at this point and
do adjustments at the signal generator. At the outputs of the directional coupler both return loss as well
as forward power are controlled during the system check to make sure that emitted power at the dipole is
kept constant. This can also be checked by the power drift measurement after the test (result on plot).
System check results have to be equal or near the values determined during dipole calibration (target
SAR in table above) with the relevant liquids and test system.
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5 SAR measurement variability and uncertainty
5.1 SAR measurement variability
Per KDB865664 D01 SAR measurement 100 MHz to 6 GHz v01r04, SAR measurement variability must
be assessed for each frequency band, which is determined by the SAR probe calibration point and
tissue-equivalent medium used for the device measurements. The additional measurements are
repeated after the completion of all measurements requiring the same head or body tissue-equivalent
medium in a frequency band. The test device should be returned to ambient conditions (normal room
temperature) with the battery fully charged before it is re-mounted on the device holder for the repeated
measurement(s) to minimize any unexpected variations in the repeated results.
1) Repeated measurement is not required when the original highest measured SAR is < 0.80 W/kg;
steps 2) through 4) do not apply.
2) When the original highest measured SAR is ≥ 0.80 W/kg, repeat that measurement once.
3) Perform a second repeated measurement only if the ratio of largest to smallest SAR for the original
and first repeated measurements is > 1.20 or when the original or repeated measurement is ≥ 1.45
W/kg (~ 10% from the 1-g SAR limit).
4) Perform a third repeated measurement only if the original, first or second repeated measurement is ≥
1.5 W/kg and the ratio of largest to smallest SAR for the original, first and second repeated
measurements is > 1.20.
The same procedures should be adapted for measurements according to extremity and occupational
exposure limits by applying a factor of 2.5 for extremity exposure and a factor of 5 for occupational
exposure to the corresponding SAR thresholds.
The detailed repeated measurement results are shown in Section 7.2.
5.2 SAR measurement uncertainty
Per KDB865664 D01 SAR Measurement 100 MHz to 6 GHz v01r04,when the highest measured 1-g
SAR within a frequency band is < 1.5 W/kg, the extensive SAR measurement uncertainty analysis
described in IEEE Std 1528-2013 is not required in SAR reports submitted for equipment approval. The
equivalent ratio (1.5/1.6) is applied to extremity and occupational exposure conditions.
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6 SAR Test Configuration
6.1
6.1.1
Test Positions Configuration
General considerations
Per IEEE 1528-2013,two imaginary lines on the handset were established: the vertical centerline and
the horizontal line (See Figure 1).
Figure 1 Hand Vertical Center & Horizontal Line Reference Points
6.1.2
Head Exposure Condition
Per IEEE 1528-2013, Head SAR measurements were made in the “cheek” position (See Figure 2) and
the “tilt” position (See Figure 3). The device should be tested in both positions on left and right sides of
the SAM phantom.
Figure 2 Front, Side and Top View of Cheek Position
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Figure 3 Front, Side and Top View of Tilt 15°Position
Note:
M Mouth reference point
LE Left ear reference point (ERP)
RE Right ear reference point(ERP)
6.1.3
Body-worn Exposure Condition
Body-worn operating configurations are tested with the holder attached to the device and positioned
against a flat phantom with test separation distance of 15mm in a normal use configuration (See Figure
4). Per FCC KDB648474 D04, Body-worn accessory exposure is typically related to voice mode
operations when handsets are carried in body-worn accessories. The body-worn accessory procedures
in FCC KDB 447498 should be used to test for body-worn accessory SAR compliance, without a headset
connected to it. When the reported SAR for a body-worn accessory, measured without a headset
connected to the handset, is > 1.2 W/kg, the highest reported SAR configuration for that wireless mode
and frequency band should be repeated for that body-worn accessory with a headset attached to the
handset.
Figure 4 Test position for Body-Worn device
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6.1.4
Hotspot Exposure Condition
Per FCC KDB 941225D06, The SAR test separation distance for hotspot mode is determined according
to device form factor. When the overall length and width of a device is > 9 cm x 5 cm, a test separation
distance of 10 mm is required for hotspot mode SAR measurements. A test separation distance of 5 mm
or less is required for smaller devices. Hotspot mode SAR is measured for all edges and surfaces of the
device with a transmitting antenna located within 25 mm from that surface or edge; for the data modes,
wireless technologies and frequency bands supporting hotspot mode. The SAR results are used to
determine simultaneous transmission SAR test exclusion for hotspot mode; otherwise, simultaneous
transmission SAR measurement is required.
6.1.5
Product Specific 10-g Exposure Condition
Per FCC KDB 648474D04, for smart phones with a display diagonal dimension > 15.0 cm or an overall
diagonal dimension > 16.0 cm that provide similar mobile web access and multimedia support found in
mini-tablets or UMPC mini-tablets that support voice calls next to the ear, the device is marketed as
“Phablet”.
The UMPC mini-tablet procedures must also be applied to test the SAR of all surfaces and edges with
an antenna located at ≤ 25 mm from that surface or edge, in direct contact with a flat phantom, for
Product Specific 10-g SAR according to the body-equivalent tissue dielectric parameters in KDB 865664
to address interactive hand use exposure conditions. The UMPC mini-tablet 1-g SAR at 5 mm is not
required. When hotspot mode applies, Product Specific 10-g SAR is required only for the surfaces and
edges with hotspot mode 1-g reported SAR > 1.2 W/kg; however, when power reduction applies to
hotspot mode the measured SAR must be scaled to the maximum output power, including tolerance,
allowed for phablet modes to compare with the 1.2 W/kg SAR test reduction threshold.
6.2
3G SAR Test Reduction Procedure
Per KDB941225 D01, in the following procedures, the mode tested for SAR is referred to as the primary
mode. The equivalent modes considered for SAR test reduction are denoted as secondary modes. Both
primary and secondary modes must be in the same frequency band. When the maximum output power
and tune-up tolerance specified for production units in a secondary mode is ≤ ¼ dB higher than the
primary mode or when the highest reported SAR of the primary mode is scaled by the ratio of specified
maximum output power and tune-up tolerance of secondary to primary mode and the adjusted SAR is ≤
1.2 W/kg, SAR measurement is not required for the secondary mode. This is referred to as the 3G SAR
test reduction procedure in the following SAR test guidance, where the primary mode is identified in the
applicable wireless mode test procedures and the secondary mode is wireless mode being considered
for SAR test reduction by that procedure. When the 3G SAR test reduction procedure is not satisfied, it is
identified as “otherwise” in the applicable procedures; SAR measurement is required for the secondary
mode.
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6.3
GSM Test Configuration
SAR tests for GSM850 and GSM1900, a communication link is set up with a base station by air link.
Using CMU200 the power lever is set to “5”and “0” in SAR of GSM850 and GSM1900. The tests in the
band of GSM850 and GSM1900 are performed in the mode of GPRS/EGPRS function. Since the GPRS
class is 12 for this EUT, it has at most 4 timeslots in uplink and at most 4 timeslots in downlink, the
maximum total timeslot is 5. The EGPRS class is 12 for this EUT, it has at most 4 timeslots in uplink, and
at most 4 timeslots in downlink, the maximum total timeslot is 5.
When SAR tests for EGPRS mode is necessary, GMSK modulation should be used to minimize SAR
measurement error due to higher peak-to-average power (PAR) ratios inherent in 8-PSK.
6.4
UMTS Test Configuration
1) Output Power Verification
Maximum output power is verified on the high, middle and low channels according to procedures
described in section 5.2 of 3GPP TS 34.121, using the appropriate RMC or AMR with TPC (transmit
power control) set to all “1’s” for WCDMA/HSDPA or by applying the required inner loop power control
procedures to maintain maximum output power while HSUPA is active. Results for all applicable physical
channel configurations (DPCCH, DPDCHn and spreading codes, HSDPA, HSPA) are requied in the
SAR report. All configurations that are not supported by the handset or cannot be measured due to
technical or equipment limitations must be clearly identified.
2) WCDMA
a. Head SAR Measurements
SAR for next to the ear head exposure is measured using a 12.2 kbps RMC with TPC bits configured to
all “1’s”. The 3G SAR test reduction procedure is applied to AMR configurations with 12.2 kbps RMC as
the primary mode. Otherwise, SAR is measured for 12.2 kbps AMR in 3.4 kbps SRB (signaling radio
bearer) using the highest reported SAR configuration in 12.2 kbps RMC for head exposure.
b. Body SAR Measurements
SAR for body-worn accessory configurations is measured using a 12.2 kbps RMC with TPC bits
configured to all “1’s”. The 3G SAR test reduction procedure is applied to other spreading codes and
multiple DPDCHn configurations supported by the handset with 12.2 kbps RMC as the primary mode
3) HSDPA
SAR for body exposure configurations is measured according to the “Body SAR Measurements’’
procedures of 3G device. When the maximum output power and tune-up tolerance specified for
production units in a secondary mode is ≤ ¼ dB higher than the primary mode or when the highest
reported SAR of the primary mode is scaled by the ratio of specified maximum output power and tune-up
tolerance of secondary to primary mode and the adjusted SAR is ≤ 1.2 W/kg, SAR measurement is not
required for the secondary mode. This is referred to as the 3G SAR test reduction procedure in the
following SAR test guidance, where the primary mode is identified in the applicable wireless mode test
procedures and the secondary mode is wireless mode being considered for SAR test reduction by that
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procedure. When the 3G SAR test reduction procedure is not satisfied, it is identified as “otherwise” in
the applicable procedures; SAR measurement is required for the secondary mode.
Per KDB941225 D01, the 3G SAR test reduction procedure is applied to HSDPA body configurations
with 12.2 kbps RMC as the primary mode. Otherwise, SAR is measured for HSDPA using the HSDPA
body SAR procedures for the highest reported SAR body exposure configuration in 12.2 kbps RMC.
HSDPA should be configured according to UE category of a test device. The number of HS-DSCH/HSPDSCHs, HAPRQ processes, minimum inter-TTI interval, transport block sizes and RV coding sequence
are defined by the H-set. To maintain a consistent test configuration and stable transmission condition,
QPSK is used in the H-set for SAR testing. HS-DPCCH should be configured with a CQI feedback cycle
of 4ms with a CQI repetition factor of 2 to maintain a constant rate of active CQI slots. The c and d gain
factors for DPCCH and DPDCH were set according to the values in the below table, hs for HS-DPCCH
is set automatically to the correct value when ΔACK, ΔNACK, ΔCQI = 8. The variation of the c /d ratio
causes a power reduction at sub-tests 2 - 4.
Table 7: Sub-tests for UMTS Release 5 HSDPA
The measurements were performed with a Fixed Reference Channel (FRC) and H-Set 1 QPSK.
Parameter
Value
Nominal average inf. bit rate
534 kbit/s
Inter-TTI Distance
3 TTI’s
Number of HARQ Processes
2 Processes
Information Bit Payload
3202 Bits
MAC-d PDU size
336 Bits
Number Code Blocks
1 Block
Binary Channel Bits Per TTI
4800 Bits
Total Available SMLs in UE
19200 SMLs
Number of SMLs per HARQ Process
9600 SMLs
Coding Rate
0.67
Number of Physical Channel Codes
Table 8:settings of required H-Set 1 QPSK acc. to 3GPP 34.121
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1
Maximum
HS-DSCH
Codes
Received
7298
28800
7298
28800
7298
38400
7298
57600
7298
67200
10
14411
115200
10
14411
134400
15
25251
172800
10
15
27952
172800
11
3630
14400
12
3630
28800
13
15
34800
259200
14
15
42196
259200
15
15
23370
345600
16
15
27952
345600
HS-DSCH
Category
Minimum
Inter-TTI
Interval
Maximum
HS-DSCH
Transport Block Bits/HS- Total Soft Channel Bits
DSCH TTI
7298
19200
Table 9:HSDPA UE category
4) HSUPA
SAR for body exposure configurations is measured according to the “Body SAR Measurements’’
procedures of 3G device. When the maximum output power and tune-up tolerance specified for
production units in a secondary mode is ≤ ¼ dB higher than the primary mode or when the highest
reported SAR of the primary mode is scaled by the ratio of specified maximum output power and tune-up
tolerance of secondary to primary mode and the adjusted SAR is ≤ 1.2 W/kg, SAR measurement is not
required for the secondary mode.
Per KDB941225 D01v03, the 3G SAR test reduction procedure is applied to HSPA (HSUPA/HSDPA with
RMC) body configurations with 12.2 kbps RMC as the primary mode. Otherwise, SAR is measured for
HSPA using the HSPA body SAR procedures for the highest reported body exposure SAR configuration
in 12.2 kbps RMC.
Due to inner loop power control requirements in HSDPA, a commercial communication test set should
be used for the output power and SAR tests. The 12.2 kbps RMC, FRC H-set 1 and E-DCH
configurations for HSDPA should be configured according to the values indicated below as well as other
applicable procedures described in the ‘WCDMA Handset’ and ‘Release 5 HSDPA Data Device’ sections
of 3G device.
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Table 10:Subtests for UMTS Release 6 HSUPA
Maximum
Max
E-DCH
E-DCH
Rate
TTI(ms)
Transport
(Mbps)
Block Bits
10
7110
0.7296
2798
1.4592
10
14484
10
14484
1.4592
5772
2.9185
10
20000
2.00
10
20000
2.00
10
5.76
2SF2&2SF 11484
(No DPDCH) 4
20000
2.00
2SF2&2SF 22996
(No DPDCH) 4
10
20000
NOTE: When 4 codes are transmitted in parallel, two codes shall be transmitted with SF2 and two with
SF4.UE categories 1 to 6 support QPSK only. UE category 7 supports QPSK and 16QAM.(TS25.3067.3.0).
Table 11:HSUPA UE category
Number
UE
E-DCH Maximum E-DCH
HARQ
Category
Codes Transmitted
Processes
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Minimum
Speading
Factor
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5) DC-HSDPA
SAR is required for Rel. 8 DC-HSDPA when SAR is required for Rel. 5 HSDPA; otherwise, the 3G SAR
test reduction procedure is applied to DC-HSDPA with 12.2 kbps RMC as the primary mode. Power is
measured for DC-HSDPA according to the H-Set 12, FRC configuration in Table C.8.1.12 of 3GPP TS
34.121-1 to determine SAR test reduction. A primary and a Second serving HS-DSCH Cell are required
to perform the power measurement and for the results to be acceptable.
The following tests were completed according to procedures in section 7.3.13 of 3GPP TS 34.108 v9.5.0.
A summary of these settings are illustrated below:
Downlink Physical Channels are set as per 3GPP TS34.121-1 v9.0.0 E.5.0
Call is set up as per 3GPP TS34.108 v9.5.0 sub clause 7.3.13
The configurations of the fixed reference channels for HSDPA RF tests are described in 3GPP TS
34.121, annex C for FDD and 3GPP TS 34.122.
The measurements were performed with a Fixed Reference Channel (FRC) H-Set 12 with QPSK
Parameter
Value
Nominal average inf. bit rate
60 kbit/s
Inter-TTI Distance
1 TTI’s
Number of HARQ Processes
6 Processes
Information Bit Payload
120 Bits
Number Code Blocks
1 Block
Binary Channel Bits Per TTI
960 Bits
Total Available SMLs in UE
19200 SMLs
Number of SMLs per HARQ Process
3200 SMLs
Coding Rate
0.15
Number of Physical Channel Codes
Table 12:settings of required H-Set 12 QPSK acc. to 3GPP 34.121
Note:
1.The RMC is intended to be used for DC-HSDPA mode and both cells shall transmit with identical
parameters as listed in the table above.
2.Maximum number of transmission is limited to 1,i.e.,retransmission is not allowed. The
redundancy and constellation version 0 shall be used.
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The following 4 Sub-tests for HSDPA were completed according to Release 5 procedures. A summary of
subtest settings are illustrated below:
Up commands are set continuously to set the UE to Max power.
Note:
1.The Dual Carriers transmission only applies to HSDPA physical channels
2.The Dual Carriers belong to the same Node and are on adjacent carriers.
3.The Dual Carriers do not support MIMO to serve UEs configured for dual cell operation
4.The Dual Carriers operate in the same frequency band .
5.The device doesn't support the modulation of 16QAM in uplink but 64QAM in downlink for DC-HSDPA
mode.
6.The device doesn’t support carrier aggregation for it just can operate in Release 8.
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6.5
LTE Test Configuration
SAR for LTE band exposure configurations is measured according to the procedures of KDB 941225
D05 SAR for LTE Devices. The CMW500 WideBand Radio Communication Tester was used for LTE
output power measurements and SAR testing. Closed loop power control was used so the UE transmits
with maximum output power during SAR testing.SAR test were performed with the same number of RB
and RB offsets transmitting on all TTI frames(Maximum TTI)
1) Spectrum Plots for RB configurations
A properly configured base station simulator was used for LTE output power measurements and SAR
testing.Therefore, spectrum plots for RB configurations were not required to be included in this report.
2) MPR
When MPR is implemented permanently within the UE, regardless of network requirements, only those
RB configurations allowed by 3GPP for the channel bandwidth and modulation combinations may be
tested with MPR active. Configurations with RB allocations less than the RB thresholds required by
3GPP must be tested without MPR.
The allowed Maximum Power Reduction (MPR) for the maximum output power due to higher order
modulation and transmit bandwidth configuration (resource blocks) is specified in Table 6.2.3-1 of the
3GPP TS36.101.
3) A-MPR
A-MPR(Additional MPR) has been disabled for all SAR tests by using Network Signalling Value of
“NS_01”on the base station simulator.
4) LTE procedures for SAR testing
A) Largest channel bandwidth standalone SAR test requirements
i) QPSK with 1 RB allocation
Start with the largest channel bandwidth and measure SAR for QPSK with 1 RB allocation, using the RB
offset and required test channel combination with the highest maximum output power for RB offsets at
the upper edge, middle and lower edge of each required test channel. When the reported SAR is ≤ 0.8
W/kg, testing of the remaining RB offset configurations and required test channels is not required for 1
RB allocation; otherwise, SAR is required for the remaining required test channels and only for the RB
offset configuration with the highest output power for that channel. When the reported SAR of a required
test channel is > 1.45 W/kg, SAR is required for all three RB offset configurations for that required test
channel.
ii) QPSK with 50% RB allocation
The procedures required for 1 RB allocation in i) are applied to measure the SAR for QPSK with 50% RB
allocation.
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iii) QPSK with 100% RB allocation
For QPSK with 100% RB allocation, SAR is not required when the highest maximum output power for
100 % RB allocation is less than the highest maximum output power in 50% and 1 RB allocations and
the highest reported SAR for 1 RB and 50% RB allocation in i) and ii) are ≤ 0.8 W/kg. Otherwise, SAR is
measured for the highest output power channel and if the reported SAR is > 1.45 W/kg, the remaining
required test channels must also be tested.
iv) Higher order modulations
For each modulation besides QPSK; e.g., 16-QAM, 64-QAM, apply the QPSK procedures in above
sections to determine the QAM configurations that may need SAR measurement. For each configuration
identified as required for testing, SAR is required only when the highest maximum output power for the
configuration in the higher order modulation is > ½ dB higher than the same configuration in QPSK or
when the reported SAR for the QPSK configuration is > 1.45 W/kg.
B) Other channel bandwidth standalone SAR test requirements
For the other channel bandwidths used by the device in a frequency band, apply all the procedures
required for the largest channel bandwidth in section A) to determine the channels and RB configurations
that need SAR testing and only measure SAR when the highest maximum output power of a
configuration requiring testing in the smaller channel bandwidth is > ½ dB higher than the equivalent
channel configurations in the largest channel bandwidth configuration or the reported SAR of a
configuration for the largest channel bandwidth is > 1.45 W/kg.
5) TDD LTE test configuration
According to KDB 941225 D05 SAR for LTE Devices v02r04, for Time-Division Duplex (TDD) systems,
SAR must be tested using a fixed periodic duty factor according to the highest transmission duty factor
implemented for the device and supported by the defined 3GPP LTE TDD configurations.
TDD LTE Band 38/41 supports 3GPP TS 36.211 section 4.2 for Type 2 Frame Structure and Table 4.2-2
for uplink-downlink configurations and Table 4.2-1 for Special subframe configurations.
Figure 4.2-1: Frame structure type 2
One radio frame, Tf = 307200Ts = 10 ms
One half-frame, 153600Ts = 5 ms
One slot,
30720Ts
Tslot=15360Ts
Subframe #0
Subframe #2
Subframe #3
Subframe #4
Subframe #5
Subframe #7
One
subframe,
30720Ts
DwPTS
GP
UpPT
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Subframe #9
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Table 4.2-1: Configuration of special subframe (lengths of DwPTS/GP/UpPTS)
Normal cyclic prefix in downlink
DwPTS
UpPTS
Special
subframe
configuration
Normal cyclic
prefix
in uplink
Extended cyclic prefix in downlink
DwPTS
UpPTS
Extended cyclic
prefix
in uplink
6592  Ts
7680  Ts
19760  Ts
20480  Ts
21952  Ts
24144  Ts
25600  Ts
26336  Ts
7680  Ts
6592  Ts
20480  Ts
19760  Ts
23040  Ts
21952  Ts
2192  Ts
2560  Ts
4384  Ts
5120  Ts
23040  Ts
Normal
cyclic
prefix in uplink
Extended
cyclic
prefix in uplink
2192  Ts
2560  Ts
4384  Ts
5120  Ts
12800  Ts
24144  Ts
13168  Ts
Table 4.2-2: Uplink-downlink configurations
Uplink-downlink
configuration
Downlink-to-Uplink
Switch-point periodicity
5 ms
5 ms
5 ms
10 ms
10 ms
10 ms
5 ms
Subframe number
According to Figure 4.2-1, one radio frame is configured by 10 subframes, which consist of Uplinksubframe, Downlink-subframe and Special subframe. For TDD-LTE, the Duty Cycle should be calculated
on Uplink-subframes and Special subframes, due to Special subframe containing both Uplink
transmissions. So for one radio frame, Duty Cycle can be calculated with formula as below. The count of
Uplink subframes are according to Table 4.2-2:
Duty cycle =(30720Ts*Ups+Uplink Component*Specials)/(307200Ts)
About the uplink component of Special subframes, we can figure out by Table 4.2-1:
Uplink Component=UpPTS
In conclusion, for the TDD LTE Band, Duty Cycle can be calculated with formula as below .all these sets
are ok when we test, or we can set as below.
Duty cycle =[(30720Ts*Ups)+ UpPTS *Specials]/(307200Ts)
And we can get different Duty cycles under different configurations:
For TDD LTE, SAR should be tested with the highest transmission duty factor (63.33%) using Uplinkdownlink configuration 0 and Special subframe configuration 7 for Frame structure type 2.
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6.6
WiFi Test Configuration
For WiFi SAR testing, a communication link is set up with the testing software for WiFi mode test. During
the test,at the each test frequency channel, the EUT is operated at the RF continuous emission mode.
The test procedures in KDB 248227D01 are applied.
6.6.1
Initial Test Position Procedure
For exposure condition with multiple test position, such as handsets operating next to the ear, devices
with hotspot mode or UMPC mini-tablet , procedures for initial test position can be applied. Using the
transmission mode determined by the DSSS procedure or initial test configuration, area scans are
measured for all position in an exposure condition. The test position with the highest extrapolated(peak)
SAR is used as the initial test position. When reported SAR for the initial test position is ≤ 0.4W/kg, no
additional testing for the remaining test position is required. Otherwise, SAR is evaluated at the
subsequent highest peak SAR position until the reported SAR result is ≤ 0.8W/kg or all test position are
measured. For all positions/configurations tested using the initial test position and subsequent test
positions, when the reported SAR is > 0.8 W/kg, SAR is measured for these test positions/configurations
on the subsequent next highest measured output power channel(s) until the reported SAR is ≤ 1.2 W/kg
or all required channels are tested.
6.6.2
Initial Test Configuration Procedure
An initial test configuration is determined for OFDM transmission modes according to the channel
bandwidth, modulation and data rate combination(s) with the highest maximum output power specified
for production units in each standalone and aggregated frequency band. SAR is measured using the
highest measured maximum output power channel. For configurations with the same specified or
measured maximum output power, additional transmission mode and test channel selection procedures
are required (see section 5.3.2 of KDB 248227D01). SAR test reduction of subsequent highest output
test channels is based on the reported SAR of the initial test configuration.
For next to the ear, hotspot mode and UMC mini-tablet exposure configurations where multiple test
positions are required, the initial test position procedure is applied to minimize the number of test
positions required for SAR measurement using the initial test configuration transmission mode. For fixed
exposure conditions that do not have multiple SAR test positions, SAR is measured in the transmission
mode determined by the initial test configuration.
When the reported SAR of the initial test configuration is > 0.8 W/kg, SAR measurement is required for
the subsequent next highest measured output power channel(s) in the initial test configuration until the
reported SAR is ≤ 1.2 W/kg or all required channels are tested.
6.6.3 Sub Test Configuration Procedure
SAR measurement requirements for the remaining 802.11 transmission mode configurations that have
not been tested in the initial test configuration are determined separately for each standalone and
aggregated frequency band, in each exposure condition, according to the maximum output power
specified for production units.
When the highest reported SAR for the initial test configuration, according to the initial test position or
fixed exposure position requirements, is adjusted by the ratio of the subsequent test configuration to
initial test configuration specified maximum output power and the adjusted SAR is ≤ 1.2 W/kg, SAR is
not required for that subsequent test configuration.
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6.6.4
WiFi 2.4G SAR Test Procedures
Separate SAR procedures are applied to DSSS and OFDM configurations in the 2.4 GHz band to
simplify DSSS test requirements. For 802.11b DSSS SAR measurements, DSSS SAR procedure applies
to fixed exposure test position and initial test position procedure applies to multiple exposure test
positions.
A) 802.11b DSSS SAR Test Requirements
SAR is measured for 2.4 GHz 802.11b DSSS using either a fixed test position or, when applicable, the
initial test position procedure. SAR test reduction is determined according to the following:
1) When the reported SAR of the highest measured maximum output power channel (section 3.1 of of
KDB 248227D01) for the exposure configuration is ≤ 0.8 W/kg, no further SAR testing is required for
802.11b DSSS in that exposure configuration.
2) When the reported SAR is > 0.8 W/kg, SAR is required for that exposure configuration using the next
highest measured output power channel. When any reported SAR is > 1.2 W/kg, SAR is required for the
third channel; i.e., all channels require testing.
B) 2.4GHz 802.11g/n OFDM SAR Test Exclusion Requirements
When SAR measurement is required for 2.4 GHz 802.11g/n OFDM configurations, the measurement
and test reduction procedures for OFDM are applied (section 5.3 of of KDB 248227D01). SAR is not
required for the following 2.4 GHz OFDM conditions.
1) When KDB Publication 447498 SAR test exclusion applies to the OFDM configuration.
2) When the highest reported SAR for DSSS is adjusted by the ratio of OFDM to DSSS specified
maximum output power and the adjusted SAR is ≤ 1.2 W/kg.
C) SAR Test Requirements for OFDM configurations
When SAR measurement is required for 802.11 g/n OFDM configurations, each standalone and
frequency aggregated band is considered separately for SAR test reduction. In applying the initial test
configuration and subsequent test configuration procedures, the 802.11 transmission configuration with
the highest specified maximum output power and the channel within a test configuration with the highest
measured maximum output power should be clearly distinguished to apply the procedures.
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6.6.5
WiFi 5G SAR Test Procedures
A) U-NII-1 and U-NII-2A Bands
For devices that operate in only one of the U-NII-1 and U-NII-2A bands, the normally required SAR
procedures for OFDM configurations are applied. For devices that operate in both U-NII bands using the
same transmitter and antenna(s), SAR test reduction is determined according to the following:
1) When the same maximum output power is specified for both bands, begin SAR measurement in UNII-2A band by applying the OFDM SAR requirements. If the highest reported SAR for a test
configuration is ≤ 1.2 W/kg, SAR is not required for U-NII-1 band for that configuration (802.11 mode and
exposure condition); otherwise, both bands are tested independently for SAR.
2) When different maximum output power is specified for the bands, begin SAR measurement in the
band with higher specified maximum output power. The highest reported SAR for the tested
configuration is adjusted by the ratio of lower to higher specified maximum output power for the two
bands. When the adjusted SAR is ≤ 1.2 W/kg, SAR is not required for the band with lower maximum
output power in that test configuration; otherwise, both bands are tested independently for SAR.
3) The two U-NII bands may be aggregated to support a 160 MHz channel on channel number 50.
Without additional testing, the maximum output power for this is limited to the lower of the maximum
output power certified for the two bands. When SAR measurement is required for at least one of the
bands and the highest reported SAR adjusted by the ratio of specified maximum output power of
aggregated to standalone band is > 1.2 W/kg, SAR is required for the 160 MHz channel. This procedure
does not apply to an aggregated band with maximum output higher than the standalone band(s); the
aggregated band must be tested independently for SAR. SAR is not required when the 160 MHz channel
is operating at a reduced maximum power and also qualifies for SAR test exclusion.
B) U-NII-2C and U-NII-3 Bands
The frequency range covered by these bands is 380 MHz (5.47 – 5.85 GHz), which requires a minimum
of at least two SAR probe calibration frequency points to support SAR measurements. when Terminal
Doppler Weather Radar (TDWR) restriction applies, all channels that operate at 5.60 – 5.65 GHz must
be included to apply the SAR test reduction and measurement procedures.
When the same transmitter and antenna(s) are used for U-NII-2C band and U-NII-3 band or 5.8 GHz
band of §15.247, the bands may be aggregated to enable additional channels with 20, 40 or 80 MHz
bandwidth to span across the band gap, as illustrated in Appendix B. The maximum output power for the
additional band gap channels is limited to the lower of those certified for the bands. Unless band gap
channels are permanently disabled, they must be considered for SAR testing. The frequency range
covered by these bands is 380 MHz (5.47 – 5.85 GHz), which requires a minimum of at least two SAR
probe calibration frequency points to support SAR measurements. To maintain SAR measurement
accuracy and to facilitate test reduction, the channels in U-NII-2C band above 5.65 GHz may be grouped
with the 5.8 GHz channels in U-NII-3 or §15.247 band to enable two SAR probe calibration frequency
points to cover the bands, including the band gap channels. When band gap channels are supported and
the bands are not aggregated for SAR testing, band gap channels must be considered independently in
each band according to the normally required OFDM SAR measurement and probe calibration frequency
points requirements.
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C) OFDM Transmission Mode SAR Test Configuration and Channel Selection Requirements
The initial test configuration for 5 GHz OFDM transmission modes is determined by the 802.11
configuration with the highest maximum output power specified for production units, including tune-up
tolerance, in each standalone and aggregated frequency band. SAR for the initial test configuration is
measured using the highest maximum output power channel determined by the default power
measurement procedures. When multiple configurations in a frequency band have the same specified
maximum output power, the initial test configuration is determined according to the following steps
applied sequentially.
1) The largest channel bandwidth configuration is selected among the multiple configurations with the
same specified maximum output power.
2) If multiple configurations have the same specified maximum output power and largest channel
bandwidth, the lowest order modulation among the largest channel bandwidth configurations is selected.
3) If multiple configurations have the same specified maximum output power, largest channel bandwidth
and lowest order modulation, the lowest data rate configuration among these configurations is selected.
4) When multiple transmission modes (802.11a/g/n/ac) have the same specified maximum output power,
largest channel bandwidth, lowest order modulation and lowest data rate, the lowest order 802.11 mode
is selected; i.e., 802.11a is chosen over 802.11n then 802.11ac or 802.11g is chosen over 802.11n.
After an initial test configuration is determined, if multiple test channels have the same measured
maximum output power, the channel chosen for SAR measurement is determined according to the
following. These channel selection procedures apply to both the initial test configuration and subsequent
test configuration(s), with respect to the default power measurement procedures or additional power
measurements required for further SAR test reduction. The same procedures also apply to subsequent
highest output power channel(s) selection.
1) The channel closest to mid-band frequency is selected for SAR measurement.
2) For channels with equal separation from mid-band frequency; for example, high and low channels or
two mid-band channels, the higher frequency (number) channel is selected for SAR measurement.
D) SAR Test Requirements for OFDM configurations
When SAR measurement is required for 802.11 a/n/ac OFDM configurations, each standalone and
frequency aggregated band is considered separately for SAR test reduction. When the same transmitter
and antenna(s) are used for U-NII-1 and U-NII-2A bands, additional SAR test reduction applies. When
band gap channels between U-NII-2C band and 5.8 GHz U-NII-3 or §15.247 band are supported, the
highest maximum output power transmission mode configuration and maximum output power channel
across the bands must be used to determine SAR test reduction, according to the initial test
configuration and subsequent test configuration requirements. In applying the initial test configuration
and subsequent test configuration procedures, the 802.11 transmission configuration with the highest
specified maximum output power and the channel within a test configuration with the highest measured
maximum output power should be clearly distinguished to apply the procedures.
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7 SAR Measurement Results
7.1 Conducted power measurements
For the measurements ,the Rohde & Schwarz Radio Communication Tester CMU 200&CMW500 and
Anritsu Radio Communication Analyzer MT8821C were used.
SAR drift measured at the same position in liquid before and after each SAR test as below 7.2 chapter.
Note: CMU200 measures GSM peak and average output power for active timeslots.For SAR the
timebased average power is relevant. The difference in between depends on the duty cycle of the TDMA
signal :
No. of timeslots
Duty Cycle
1:8.3
1:4.1
1:2.77
1:2.08
timebased avg. power compared
-9.19dB
-6.13dB
-4.42dB
-3.18dB
to slotted avg. power
The signalling modes differ as follows:
mode
coding scheme
modulation
GPRS
CS1 to CS4
GMSK
EDGE
MCS1 to MCS4
GMSK
EDGE
MCS5 to MCS9
8PSK
Apart from modulation change (GMSK/8PSK) coding schemes differ in code rate without influence on
the RF signal. Therefore one coding scheme per mode was selected for conducted power
measurements.
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7.1.1
Conducted power measurements of GSM850(Second Antenna)
Burst-Averaged output Power (dBm)
GSM850
GSM (CS)
GPRS/
EDGE
(GMSK)
EDGE
(8PSK)
Tuneup
31.50
Division
Factors
Frame-Averaged
output Power (dBm)
128CH
190CH
251CH
30.91
30.98
31.02
-9.19
Tuneup
22.31
128CH
190CH
251CH
21.72
21.79
21.83
1 Tx Slot
31.50
30.89
30.97
30.99
-9.19
22.31
21.70
21.78
21.80
2 Tx Slots
30.50
29.65
29.77
29.72
-6.13
24.37
23.52
23.64
23.59
3 Tx Slots
29.50
28.37
28.45
28.52
-4.42
25.08
23.95
24.03
24.10
4 Tx Slots
27.00
26.04
26.06
26.13
-3.18
23.82
22.86
22.88
22.95
1 Tx Slot
27.50
26.97
27.14
27.22
-9.19
18.31
17.78
17.95
18.03
2 Tx Slots
25.50
24.74
24.79
24.77
-6.13
19.37
18.61
18.66
18.64
3 Tx Slots
23.50
22.58
22.85
22.79
-4.42
19.08
18.16
18.43
18.37
4 Tx Slots
22.50
21.24
21.31
21.32
-3.18
19.32
18.06
18.13
18.14
Table 13:Conducted power measurement results of GSM850
Note:
1) The conducted power of GSM850 is measured with RMS detector.
2) Frame-averaged output power was calculated from the measured burst-averaged output power by
converting the slot powers into linear units and calculating the energy over 8 timesolts.
3) Per KDB941225 D01v03, SAR test reduction for GPRS and EDGE modes is determined by the
source-based time-averaged output power specified for production units, including tune-up tolerance.
The data mode with highest specified time-averaged output power should be tested for SAR compliance
in the applicable exposure conditions. For modes with the same specified maximum output power and
tolerance, the higher number time-slot configuration should be tested.
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7.1.2
Conducted power measurements of GSM1900(Second Antenna)
512CH
661CH
810CH
28.43
28.14
28.09
-9.19
Frame-Averaged output Power
(dBm)
Tune512CH 661CH 810CH
up
19.31
19.24
18.95
18.9
Burst-Averaged output Power (dBm)
GSM1900
GSM (CS)
GPRS/
EDGE
(GMSK)
EDGE
(8PSK)
Tuneup
28.50
Division
Factors
1 Tx Slot
28.50
28.42
28.15
28.08
-9.19
19.31
19.23
18.96
18.89
2 Tx Slots
27.50
26.18
26.14
25.98
-6.13
21.37
20.05
20.01
19.85
3 Tx Slots
25.50
24.01
23.79
23.67
-4.42
21.08
19.59
19.37
19.25
4 Tx Slots
24.00
23.74
23.61
23.59
-3.18
20.82
20.56
20.43
20.41
1 Tx Slot
27.00
26.37
26.35
26.18
-9.19
17.81
17.18
17.16
16.99
2 Tx Slots
24.50
23.97
23.92
23.79
-6.13
18.37
17.84
17.79
17.66
3 Tx Slots
22.50
21.98
21.96
21.64
-4.42
18.08
17.56
17.54
17.22
4 Tx Slots
21.50
20.72
20.68
20.45
-3.18
18.32
17.54
17.5
17.27
Table 14: Conducted power measurement results of GSM1900
Note:
1) The conducted power of GSM1900 is measured with RMS detector.
2) Frame-averaged output power was calculated from the measured burst-averaged output power by
converting the slot powers into linear units and calculating the energy over 8 timesolts.
3) Per KDB941225 D01v03, SAR test reduction for GPRS and EDGE modes is determined by the
source-based time-averaged output power specified for production units, including tune-up tolerance.
The data mode with highest specified time-averaged output power should be tested for SAR compliance
in the applicable exposure conditions. For modes with the same specified maximum output power and
tolerance, the higher number time-slot configuration should be tested.
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7.1.3
Conducted power measurements of UMTS Band II(Second Antenna)
UMTS Band II
WCDMA
HSDPA
HSUPA
DC-HSDPA
Tune-up
Conducted Power (dBm)
9262CH
9400CH
9538CH
12.2kbps RMC
18.50
17.75
17.85
17.72
12.2kbps AMR
18.50
17.72
17.83
17.71
Subtest 1
18.50
17.25
17.26
17.27
Subtest 2
17.50
16.97
17.02
16.99
Subtest 3
17.00
16.08
16.07
16.08
Subtest 4
17.00
16.09
16.09
16.13
Subtest 1
15.00
14.05
13.97
13.88
Subtest 2
15.00
13.45
13.66
13.42
Subtest 3
15.00
13.21
13.18
13.15
Subtest 4
15.00
14.09
13.79
14.01
Subtest 5
15.00
14.32
14.35
14.02
Subtest 1
18.50
17.22
17.24
17.27
Subtest 2
17.50
16.95
17.00
16.99
Subtest 3
17.00
16.01
16.04
16.08
Subtest 4
17.00
16.01
16.02
16.13
Table 15: Conducted power measurement results of UMTS Band II
Note:
1) The conducted power of UMTS Band II is measured with RMS detector.
2) The bolded 12.2kbps RMC mode was selected for SAR testing(the primary mode).
3) Per KDB941225 D01v03, When the maximum output power and tune-up tolerance specified for
production units in a Second mode is ≤ ¼ dB higher than the primary mode or when the highest reported
SAR of the primary mode is scaled by the ratio of specified maximum output power and tune-up
tolerance of Second to primary mode and the adjusted SAR is ≤ 1.2 W/kg, SAR measurement is not
required for the Second mode.
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7.1.4
Conducted power measurements of UMTS Band IV(Second Antenna)
UMTS Band IV
WCDMA
HSDPA
HSUPA
DC-HSDPA
Tune-up
Conducted Power (dBm)
1312CH
1413CH
1513CH
12.2kbps RMC
19.50
19.40
19.21
19.23
12.2kbps AMR
19.50
19.37
19.23
19.21
Subtest 1
19.50
18.83
18.76
18.75
Subtest 2
19.00
18.61
18.53
18.54
Subtest 3
18.50
17.82
17.73
17.75
Subtest 4
18.50
17.81
17.73
17.75
Subtest 1
17.00
16.56
15.83
15.98
Subtest 2
16.50
15.57
15.31
15.53
Subtest 3
16.50
16.14
15.25
15.89
Subtest 4
17.00
16.01
15.89
15.94
Subtest 5
17.00
16.53
15.91
16.15
Subtest 1
19.50
18.80
18.73
18.71
Subtest 2
19.00
18.62
18.52
18.50
Subtest 3
18.50
17.79
17.70
17.72
Subtest 4
18.50
17.78
17.71
17.74
Table 16: Conducted power measurement results of UMTS Band IV
Note:
1) The conducted power of UMTS Band IV is measured with RMS detector.
2) The bolded 12.2kbps RMC mode was selected for SAR testing(the primary mode).
3) Per KDB941225 D01v03, When the maximum output power and tune-up tolerance specified for
production units in a Second mode is ≤ ¼ dB higher than the primary mode or when the highest reported
SAR of the primary mode is scaled by the ratio of specified maximum output power and tune-up
tolerance of Second to primary mode and the adjusted SAR is ≤ 1.2 W/kg, SAR measurement is not
required for the Second mode.
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7.1.5
Conducted power measurements of UMTS Band V(Second Antenna)
UMTS Band V
WCDMA
HSDPA
HSUPA
DC-HSDPA
Tune-up
Conducted Power (dBm)
4132CH
4182CH
4233CH
12.2kbps RMC
21.50
20.31
20.34
20.22
12.2kbps AMR
21.50
20.29
20.33
20.20
Subtest 1
21.00
19.87
19.83
19.74
Subtest 2
20.50
19.65
19.61
19.52
Subtest 3
20.00
18.85
18.83
18.75
Subtest 4
20.00
18.83
18.81
18.73
Subtest 1
19.00
17.04
16.97
17.04
Subtest 2
18.00
16.54
16.45
16.58
Subtest 3
18.00
16.37
16.38
16.32
Subtest 4
18.00
17.06
16.99
16.92
Subtest 5
18.50
17.36
17.26
17.24
Subtest 1
21.00
19.81
19.79
19.71
Subtest 2
20.50
19.60
19.58
19.50
Subtest 3
20.00
18.82
18.82
18.73
Subtest 4
20.00
18.81
18.80
18.70
Table 17: Conducted power measurement results of UMTS Band V
Note:
1) The conducted power of UMTS Band V is measured with RMS detector.
2) The bolded 12.2kbps RMC mode was selected for SAR testing(the primary mode).
3) Per KDB941225 D01v03, When the maximum output power and tune-up tolerance specified for
production units in a Second mode is ≤ ¼ dB higher than the primary mode or when the highest reported
SAR of the primary mode is scaled by the ratio of specified maximum output power and tune-up
tolerance of Second to primary mode and the adjusted SAR is ≤ 1.2 W/kg, SAR measurement is not
required for the Second mode.
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7.1.6
Conducted power measurements of LTE Band II(Second Antenna)
Bandwidth Modulation
QPSK
1.4MHz
16QAM
Bandwidth Modulation
QPSK
3MHz
16QAM
RB size
RB offset
Tune-up
Channel
Channel
Channel
18607CH
18900CH
19193CH
18.50
17.80
17.93
17.81
18.50
17.78
17.93
17.78
18.50
17.69
17.89
17.48
18.50
17.76
17.98
17.79
18.50
17.77
17.92
17.72
18.50
17.77
17.89
17.60
18.00
16.79
16.91
16.75
17.50
16.97
17.03
17.10
17.50
17.08
17.11
17.00
17.50
16.91
17.02
16.72
17.50
16.82
17.06
16.98
17.50
16.86
16.95
16.91
17.50
16.81
16.77
16.67
16.50
15.78
15.84
15.60
RB offset
Tune-up
Channel
Channel
RB size
Channel
18615CH
18900CH
19185CH
18.50
17.62
17.79
17.85
18.50
17.92
17.99
17.91
14
18.50
17.57
17.79
17.29
18.00
16.80
16.87
16.86
18.00
16.83
16.89
16.81
18.00
16.80
16.87
16.69
15
18.00
16.84
16.84
16.72
17.50
16.74
16.61
16.81
17.50
17.08
17.03
16.92
14
17.50
16.46
16.56
16.16
16.50
15.61
15.77
15.85
16.50
15.65
15.83
15.74
16.50
15.61
15.79
15.59
15
16.50
15.80
15.69
15.66
Report No.: SYBH(Z-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Page 60 of 219
Bandwidth Modulation
QPSK
5MHz
16QAM
Bandwidth Modulation
QPSK
10MHz
16QAM
RB size
RB offset
Tune-up
Channel
Channel
Channel
18625CH
18900CH
19175CH
18.50
17.73
17.75
17.66
13
18.50
18.04
18.08
18.00
24
18.50
17.47
17.78
17.29
12
18.00
16.97
16.95
16.92
12
18.00
16.99
17.06
16.96
12
13
18.00
16.78
16.90
16.72
25
18.00
16.86
16.87
16.63
17.50
16.62
16.97
16.59
13
17.50
16.98
17.30
17.02
24
17.50
16.31
16.97
16.32
12
16.50
15.58
15.83
15.66
12
16.50
15.60
15.96
15.77
12
13
16.50
15.40
15.81
15.45
25
16.50
15.44
15.73
15.30
Channel
Channel
RB size
RB offset
Tune-up
Channel
18650CH
18900CH
19150CH
18.50
17.81
17.14
17.44
25
18.50
17.71
18.11
17.83
49
18.50
17.13
17.90
17.44
25
18.00
16.80
16.74
16.68
25
13
18.00
16.54
16.98
16.73
25
25
18.00
16.27
16.99
16.54
50
18.00
16.53
16.78
16.54
17.50
16.78
16.59
16.58
25
17.50
16.86
17.32
17.06
49
17.50
16.04
17.12
16.70
25
16.50
15.45
15.59
15.64
25
13
16.50
15.23
15.87
15.71
25
25
16.50
15.15
15.87
15.43
50
16.50
15.20
15.60
15.42
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Page 61 of 219
Bandwidth Modulation
QPSK
15MHz
16QAM
Bandwidth Modulation
QPSK
20MHz
16QAM
RB size
RB offset
Tune-up
Channel
Channel
Channel
18675CH
18900CH
19125CH
18.50
17.53
17.14
17.09
38
18.50
17.35
18.09
17.74
74
18.50
16.84
17.50
17.28
36
18.00
16.75
16.58
16.49
36
18
18.00
16.47
16.87
16.75
36
39
18.00
16.07
16.85
16.56
75
18.00
16.38
16.78
16.44
17.50
16.82
16.39
16.10
38
17.50
16.55
17.29
16.93
74
17.50
16.02
16.74
16.47
36
16.50
15.59
15.45
15.37
36
18
16.50
15.30
15.75
15.67
36
39
16.50
15.03
15.80
15.53
75
16.50
15.20
15.63
15.34
Channel
Channel
RB size
RB offset
Tune-up
Channel
18700CH
18900CH
19100CH
18.50
17.39
16.88
17.41
50
18.50
17.52
17.95
17.53
99
18.50
16.53
17.41
17.28
50
18.00
16.55
16.34
16.37
50
25
18.00
16.62
16.87
16.41
50
50
18.00
16.04
16.61
16.12
100
18.00
16.34
16.55
16.24
17.50
16.35
16.33
16.24
50
17.50
16.26
17.31
16.79
99
17.50
16.01
16.46
16.38
50
16.50
15.06
15.15
15.20
50
25
16.50
15.38
15.60
15.56
50
50
16.50
15.04
15.55
15.13
100
16.50
15.26
15.41
15.15
Table 18: Conducted power measurement results of LTE Band II
Report No.: SYBH(Z-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Page 62 of 219
7.1.7
Conducted power measurements of LTE Band IV(Second Antenna)
Bandwidth Modulation
QPSK
1.4MHz
16QAM
Bandwidth Modulation
QPSK
3MHz
16QAM
RB size
RB offset
Tune-up
Channel
Channel
Channel
19957CH
20175CH
20393CH
19.30
17.74
18.35
17.65
19.30
17.78
18.31
18.01
19.30
17.57
18.04
17.57
19.20
17.75
18.32
17.66
19.20
17.76
18.22
17.71
19.20
17.67
18.12
17.50
19.20
17.73
18.22
17.55
19.20
17.97
18.58
17.88
19.20
17.98
18.60
18.21
19.20
17.66
18.33
17.74
19.20
17.82
18.35
18.28
19.20
17.82
18.24
18.38
19.20
17.73
18.15
18.26
19.20
17.71
18.23
17.23
RB offset
Tune-up
Channel
Channel
RB size
Channel
19965CH
20175CH
20385CH
19.30
17.32
18.20
17.75
19.30
18.47
18.01
18.05
14
19.30
17.68
17.31
17.77
19.20
18.11
18.39
17.41
19.20
18.66
18.05
17.66
19.20
18.44
17.67
17.50
15
19.20
18.29
17.91
17.69
19.20
17.37
18.60
17.88
19.20
19.05
18.62
18.26
14
19.20
18.05
17.39
17.83
19.20
18.17
18.34
17.59
19.20
18.58
18.15
17.69
19.20
18.37
17.70
17.55
15
19.20
18.23
17.91
17.60
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Page 63 of 219
Bandwidth Modulation
QPSK
5MHz
16QAM
Bandwidth Modulation
QPSK
10MHz
16QAM
RB size
RB offset
Tune-up
Channel
Channel
Channel
19975CH
20175CH
20375CH
19.30
17.45
18.21
17.65
13
19.30
18.71
18.20
18.02
24
19.30
17.68
17.46
17.59
12
18.50
18.23
18.30
17.66
12
19.20
18.66
18.17
17.53
12
13
19.20
18.42
17.87
17.50
25
19.20
18.27
18.05
17.61
19.20
17.30
18.65
17.89
13
19.20
19.07
18.60
18.31
24
19.20
18.07
17.52
17.70
12
19.20
18.19
18.31
17.51
12
19.20
18.66
18.08
17.66
12
13
19.20
18.36
17.77
17.51
25
19.20
18.27
17.90
17.60
Channel
Channel
RB size
RB offset
Tune-up
Channel
20000CH
20175CH
20350CH
19.30
17.77
18.41
18.11
25
19.30
18.51
18.42
18.12
49
19.30
18.40
18.00
17.99
25
19.20
18.07
18.37
17.79
25
13
19.20
18.42
18.25
17.67
25
25
19.20
18.71
17.89
17.69
50
19.20
18.23
18.22
17.82
19.20
18.32
19.19
18.20
25
19.20
19.11
18.60
18.31
49
19.20
18.80
18.05
18.05
25
19.20
18.11
18.25
17.79
25
13
19.20
18.41
18.12
17.82
25
25
19.20
18.51
18.04
17.72
50
19.20
18.39
18.17
17.79
Report No.: SYBH(Z-SAR)030052017-2
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Copyright © Huawei Technologies Co., Ltd
Page 64 of 219
Bandwidth Modulation
QPSK
15MHz
16QAM
Bandwidth Modulation
QPSK
20MHz
16QAM
RB size
RB offset
Tune-up
Channel
Channel
Channel
20025CH
20175CH
20325CH
19.30
17.71
18.49
18.00
38
19.30
18.46
18.40
18.10
74
19.30
18.43
17.75
17.75
36
19.20
18.00
18.27
17.75
36
18
19.20
18.45
18.20
17.77
36
39
19.20
18.66
17.88
17.63
75
19.20
18.30
18.14
17.77
19.20
18.13
19.18
18.27
38
19.20
19.15
18.66
18.34
74
19.20
18.85
18.02
18.00
36
19.20
18.04
18.24
17.73
36
18
19.20
18.47
18.11
17.69
36
39
19.20
18.65
17.84
17.56
75
19.20
18.33
18.10
17.75
Channel
Channel
RB size
RB offset
Tune-up
Channel
20050CH
20175CH
20300CH
19.30
17.33
18.28
17.50
50
19.30
18.18
18.26
17.50
99
19.30
17.80
17.31
17.52
50
19.20
18.21
18.37
17.62
50
25
19.20
18.36
18.04
17.67
50
50
19.20
18.31
17.70
17.57
100
19.20
18.22
17.99
17.67
19.20
17.32
18.62
17.82
50
19.20
19.01
18.66
18.22
99
19.20
18.00
17.49
17.78
50
19.20
18.16
18.38
17.57
50
25
19.20
18.53
18.05
17.63
50
50
19.20
18.31
17.72
17.52
100
19.20
18.20
17.98
17.62
Table 19: Conducted power measurement results of LTE Band IV
Report No.: SYBH(Z-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Page 65 of 219
7.1.8
Conducted power measurements of LTE Band V(Second Antenna)
Bandwidth Modulation
QPSK
1.4MHz
16QAM
Bandwidth Modulation
QPSK
3MHz
16QAM
RB size
RB offset
Tune-up
Channel
Channel
Channel
20407CH
20525CH
20643CH
22.00
20.96
21.06
21.20
22.00
21.22
21.13
21.22
22.00
21.19
21.07
21.04
22.00
21.01
21.05
21.14
22.00
21.16
21.04
21.14
22.00
21.17
21.01
21.12
21.50
20.04
20.02
20.14
21.50
20.20
20.24
20.42
21.50
20.28
20.27
20.66
21.50
20.23
20.22
20.46
21.50
19.93
20.07
20.15
21.50
20.20
20.06
20.23
21.50
20.20
20.05
20.21
20.50
18.94
18.94
19.13
RB offset
Tune-up
Channel
Channel
RB size
Channel
20415CH
20525CH
20635CH
22.00
20.73
20.92
21.14
22.00
21.44
21.10
21.30
14
22.00
20.98
20.85
20.91
21.50
20.07
19.99
20.16
21.50
20.28
20.08
20.25
21.50
20.15
20.00
20.11
15
21.50
20.13
20.05
20.28
21.50
19.94
20.01
20.01
21.50
20.69
20.21
20.33
14
21.50
19.92
20.07
19.83
20.50
19.05
18.94
19.04
20.50
19.19
18.99
19.19
20.50
19.08
18.94
19.06
15
20.50
19.09
18.91
19.19
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Copyright © Huawei Technologies Co., Ltd
Page 66 of 219
Bandwidth Modulation
QPSK
5MHz
16QAM
Bandwidth Modulation
QPSK
10MHz
16QAM
RB size
RB offset
Tune-up
Channel
Channel
Channel
20425CH
20525CH
20625CH
22.00
20.77
21.01
21.23
13
22.00
21.34
21.13
21.36
24
22.00
20.98
20.76
20.76
12
21.50
20.11
20.05
20.30
12
21.50
20.33
20.09
20.42
12
13
21.50
20.11
19.93
20.06
25
21.50
20.11
19.97
20.23
21.50
19.88
20.13
20.52
13
21.50
20.47
20.23
20.67
24
21.50
20.08
19.88
20.14
12
20.50
19.08
18.93
19.34
12
20.50
19.23
18.96
19.41
12
13
20.50
19.09
18.80
18.96
25
20.50
19.05
18.83
19.06
Channel
Channel
RB size
RB offset
Tune-up
Channel
20450CH
20525CH
20600CH
22.00
21.25
21.29
21.32
25
22.00
21.88
21.55
21.95
49
22.00
21.14
21.13
21.22
25
21.50
20.66
20.49
20.41
25
13
21.50
20.80
20.48
20.72
25
25
21.50
20.52
20.29
20.66
50
21.50
20.53
20.29
20.64
21.50
20.43
20.36
20.41
25
21.50
20.98
20.71
21.17
49
21.50
20.33
20.32
20.30
25
20.50
19.56
19.51
19.35
25
13
20.50
19.69
19.49
19.72
25
25
20.50
19.37
19.21
19.68
50
20.50
19.39
19.17
19.67
Table 20: Conducted power measurement results of LTE Band V
Report No.: SYBH(Z-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Page 67 of 219
7.1.9
Conducted power measurements of LTE Band VII(Second Antenna)
Bandwidth Modulation
QPSK
5MHz
16QAM
Bandwidth Modulation
QPSK
10MHz
16QAM
RB size
RB offset
Tune-up
Channel
Channel
Channel
20775CH
21100CH
21425CH
15.00
13.51
13.31
13.30
13
15.00
13.83
13.34
13.44
24
15.00
13.51
13.19
13.02
12
14.50
13.59
13.30
13.22
12
14.50
13.72
13.41
13.35
12
13
14.50
13.59
13.22
13.16
25
14.50
13.11
13.21
12.94
14.50
13.24
12.93
13.25
13
14.50
13.05
13.64
13.11
24
14.50
13.14
13.06
13.11
12
13.50
13.11
12.97
12.85
12
13.50
12.94
13.21
12.71
12
13
13.50
12.59
13.22
12.87
25
13.50
12.28
12.79
12.55
Channel
Channel
RB size
RB offset
Tune-up
Channel
20800CH
21100CH
21400CH
15.00
13.33
13.05
13.05
25
15.00
13.84
13.85
13.39
49
15.00
12.91
12.93
13.06
25
14.50
13.19
13.01
13.21
25
13
14.50
13.82
13.30
13.19
25
25
14.50
13.58
13.24
13.34
50
14.50
13.22
13.06
13.33
14.50
13.01
13.21
12.98
25
14.50
13.29
13.22
12.77
49
14.50
13.11
13.15
13.04
25
13.50
12.88
12.88
12.58
25
13
13.50
12.99
13.05
12.62
25
25
13.50
12.96
12.98
12.77
50
13.50
12.71
12.79
12.66
Report No.: SYBH(Z-SAR)030052017-2
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Copyright © Huawei Technologies Co., Ltd
Page 68 of 219
Bandwidth Modulation
QPSK
15MHz
16QAM
Bandwidth Modulation
QPSK
20MHz
16QAM
RB size
RB offset
Tune-up
Channel
Channel
Channel
20825CH
21100CH
21375CH
15.00
13.21
13.87
13.66
38
15.00
13.77
13.91
13.71
74
15.00
13.67
14.43
13.89
36
14.50
13.10
13.21
12.85
36
18
14.50
13.40
13.72
12.88
36
39
14.50
13.36
13.75
12.87
75
14.50
13.19
13.47
13.03
14.50
13.91
13.27
13.52
38
14.50
13.44
13.21
12.65
74
14.50
13.93
14.30
13.90
36
13.50
12.81
12.65
12.77
36
18
13.50
12.92
13.15
12.76
36
39
13.50
13.07
13.11
12.55
75
13.50
12.72
12.77
12.69
Channel
Channel
RB size
RB offset
Tune-up
Channel
20850CH
21100CH
21350CH
15.00
13.06
13.19
13.05
50
15.00
13.62
13.41
13.09
99
15.00
12.69
13.63
13.12
50
14.50
13.18
12.78
12.72
50
25
14.50
13.22
13.45
12.68
50
50
14.50
12.87
13.22
12.66
100
14.50
13.07
13.07
13.09
14.50
13.18
12.81
13.33
50
14.50
13.55
13.56
13.21
99
14.50
13.05
13.85
13.37
50
13.50
12.99
12.77
12.99
50
25
13.50
13.18
13.10
13.01
50
50
13.50
12.69
13.21
12.96
100
13.50
12.77
12.89
12.95
Table 21: Conducted power measurement results of LTE Band VII
Report No.: SYBH(Z-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Page 69 of 219
7.1.10 Conducted power measurements of LTE Band XII(Second Antenna)
Bandwidth Modulation
QPSK
1.4MHz
16QAM
Bandwidth Modulation
QPSK
3MHz
16QAM
RB size
RB offset
Tune-up
Channel
Channel
Channel
23107CH
23095CH
23173CH
22.50
21.50
20.93
21.17
22.50
21.51
21.08
20.91
22.50
21.61
20.93
20.60
22.50
21.46
20.97
21.13
22.50
21.40
20.98
20.82
22.50
21.42
20.94
20.70
22.00
21.35
20.99
20.83
22.00
21.58
21.33
21.23
22.00
21.69
21.45
21.04
22.00
21.70
21.04
20.76
22.00
21.46
21.03
21.12
22.00
21.47
21.04
20.84
22.00
21.48
21.05
20.73
21.00
20.40
20.10
19.85
RB offset
Tune-up
Channel
Channel
RB size
Channel
23025CH
23095CH
23165CH
22.50
21.25
20.74
21.48
22.50
21.69
21.08
21.31
14
22.50
21.37
20.87
20.63
22.00
21.34
20.99
21.39
22.00
21.56
20.99
21.18
22.00
21.32
20.93
20.80
15
22.00
21.12
20.94
21.13
22.00
21.27
21.13
21.73
22.00
21.79
21.44
21.64
14
22.00
21.54
21.24
20.60
21.00
20.48
20.08
20.67
21.00
20.64
20.08
20.45
21.00
20.46
20.03
20.00
15
21.00
20.30
20.00
20.26
Report No.: SYBH(Z-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Page 70 of 219
Bandwidth Modulation
QPSK
5MHz
16QAM
Bandwidth Modulation
QPSK
10MHz
16QAM
RB size
RB offset
Tune-up
Channel
Channel
Channel
23035CH
23095CH
23155CH
22.50
21.25
20.79
21.17
13
22.50
21.78
21.10
21.63
24
22.50
21.78
21.86
21.18
12
22.00
21.45
20.80
21.72
12
22.00
21.65
20.93
21.72
12
13
22.00
21.20
20.92
20.97
25
22.00
21.29
21.04
21.20
22.00
21.35
20.87
21.28
13
22.00
21.79
21.20
21.68
24
22.00
21.85
21.96
21.34
12
21.00
20.32
19.96
20.74
12
21.00
20.55
20.04
20.82
12
13
21.00
20.14
20.02
20.17
25
21.00
20.28
20.13
20.35
Channel
Channel
RB size
RB offset
Tune-up
Channel
23060CH
23095CH
23130CH
22.50
21.52
21.46
21.18
25
22.50
21.70
21.52
21.97
49
22.50
20.98
21.34
20.55
25
22.00
21.82
21.35
21.37
25
13
22.00
21.50
21.44
21.84
25
25
22.00
21.27
21.38
21.47
50
22.00
21.57
21.36
21.47
22.00
21.79
21.90
21.43
25
22.00
21.90
21.82
21.98
49
22.00
21.15
21.66
20.88
25
21.00
20.78
20.46
20.60
25
13
21.00
20.48
20.59
20.98
25
25
21.00
20.33
20.36
20.55
50
21.00
20.62
20.41
20.54
Table 22: Conducted power measurement results of LTE Band XII
Report No.: SYBH(Z-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Page 71 of 219
7.1.11 Conducted power measurements of LTE Band XVII(Second Antenna)
Bandwidth Modulation
QPSK
5MHz
16QAM
Bandwidth Modulation
QPSK
10MHz
16QAM
RB size
RB offset
Tune-up
Channel
Channel
Channel
23755CH
23790CH
23825CH
24.50
22.72
23.00
23.38
13
24.50
23.13
23.59
23.65
24
24.50
23.90
24.20
23.09
12
24.00
22.06
22.43
22.64
12
24.00
22.06
22.68
22.64
12
13
24.00
22.16
22.37
22.23
25
24.00
22.10
22.50
22.46
24.00
22.08
22.34
22.79
13
24.00
22.36
22.95
23.08
24
24.00
23.13
23.48
22.56
12
23.00
21.14
21.59
21.64
12
23.00
21.20
21.82
21.67
12
13
23.00
21.29
21.53
21.32
25
23.00
21.21
21.62
21.41
Channel
Channel
RB size
RB offset
Tune-up
Channel
23780CH
23790CH
23800CH
24.50
23.43
23.33
23.36
25
24.50
23.98
24.20
24.18
49
24.50
23.94
23.72
23.01
25
24.00
22.73
22.73
22.86
25
13
24.00
22.97
23.10
23.39
25
25
24.00
23.12
23.06
23.05
50
24.00
22.92
23.00
23.16
24.00
22.68
22.50
22.60
25
24.00
23.39
23.32
23.48
49
24.00
23.16
22.80
22.28
25
23.00
21.67
21.69
21.76
25
13
23.00
21.96
22.04
22.24
25
25
23.00
22.12
22.00
21.89
50
23.00
21.87
22.00
22.08
Table 23: Conducted power measurement results of LTE Band XVII
Report No.: SYBH(Z-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Page 72 of 219
7.1.12 Conducted power measurements of LTE Band XXVI(Second Antenna)
Bandwidth Modulation
QPSK
1.4MHz
16QAM
Bandwidth Modulation
QPSK
3MHz
16QAM
RB size
RB offset
Tune-up
Channel
Channel
Channel
26697CH
26865CH
27033CH
22.40
21.63
21.72
21.62
22.40
21.52
21.63
21.58
22.40
21.43
21.50
21.43
22.40
21.61
21.64
21.60
22.40
21.55
21.53
21.49
22.40
21.41
21.48
21.52
22.00
20.76
20.52
20.56
21.50
19.85
20.80
20.82
21.50
21.02
20.79
20.76
21.50
21.04
20.57
20.54
21.50
19.97
20.66
20.63
21.50
20.93
20.56
20.52
21.50
20.95
20.50
20.46
21.00
19.95
19.44
19.42
RB offset
Tune-up
Channel
Channel
RB size
Channel
26705CH
26865CH
27025CH
22.40
21.69
21.51
21.49
22.40
21.65
21.68
21.66
14
22.40
21.65
21.23
21.21
22.00
21.64
20.66
20.63
22.00
21.67
20.54
20.52
22.00
21.67
20.42
20.40
15
22.00
21.67
20.54
20.53
21.50
20.51
20.64
20.64
21.50
20.61
20.76
20.62
14
21.50
20.61
20.25
20.30
21.00
20.52
19.49
19.53
21.00
20.51
19.43
19.42
21.00
20.61
19.29
19.30
15
21.00
20.52
19.40
19.43
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Page 73 of 219
Bandwidth Modulation
QPSK
5MHz
16QAM
Bandwidth Modulation
QPSK
10MHz
16QAM
RB size
RB offset
Tune-up
Channel
Channel
Channel
26715CH
26865CH
27015CH
22.40
21.48
21.53
20.91
13
22.40
21.32
21.67
21.98
24
22.40
21.32
22.01
22.00
12
22.00
20.59
20.62
21.11
12
22.00
20.59
20.57
21.59
12
13
22.00
20.60
20.33
21.44
25
22.00
20.60
20.72
20.09
21.50
20.68
20.49
20.06
13
21.50
20.43
20.57
21.33
24
21.50
20.43
21.12
21.48
12
21.00
19.53
19.59
19.92
12
21.00
19.53
19.53
20.90
12
13
21.00
19.53
19.34
20.93
25
21.00
19.54
19.65
19.68
Channel
Channel
RB size
RB offset
Tune-up
Channel
26750CH
26865CH
26990CH
22.40
20.86
21.96
20.87
25
22.40
21.95
21.80
21.98
49
22.40
21.65
21.68
21.60
25
22.00
20.06
21.28
20.04
25
13
22.00
20.18
21.54
20.16
25
25
22.00
20.28
21.10
20.31
50
22.00
20.38
21.11
20.37
21.50
20.06
21.34
19.90
25
21.50
21.48
21.44
21.40
49
21.50
20.96
20.94
20.80
25
21.00
19.12
20.18
19.05
25
13
21.00
19.11
20.45
19.13
25
25
21.00
19.27
19.98
19.19
50
21.00
19.26
20.10
19.21
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Page 74 of 219
Bandwidth Modulation
QPSK
15MHz
16QAM
RB size
RB offset
Tune-up
Channel
Channel
Channel
26775CH
26865CH
26965CH
22.40
20.83
20.97
20.84
38
22.40
21.61
21.56
21.69
74
22.40
20.63
20.55
20.69
36
22.00
20.11
20.49
20.18
36
18
22.00
20.62
20.47
20.63
36
39
22.00
20.52
20.05
20.64
75
22.00
20.47
20.31
20.48
21.50
19.99
20.08
19.91
38
21.50
20.89
20.87
20.80
74
21.50
19.84
19.78
19.73
36
21.00
19.15
19.56
19.04
36
18
21.00
19.56
19.48
19.55
36
39
21.00
19.62
19.13
19.56
75
21.00
19.42
19.26
19.38
Table 24: Conducted power measurement results of LTE Band XXVI
Report No.: SYBH(Z-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Page 75 of 219
7.1.13 Conducted power measurements of LTE Band XXXVIII(Second Antenna)
Bandwidth
Modulation
QPSK
5MHz
16QAM
Bandwidth
Modulation
QPSK
10MHz
16QAM
Channel
Channel
Channel
37775CH
38000CH
38225CH
17.50
17.42
16.67
17.45
13
17.50
16.30
16.12
15.99
24
17.50
15.75
16.29
16.12
12
17.50
16.41
15.54
16.69
12
17.50
16.25
15.69
16.22
12
13
17.50
15.81
15.85
15.58
25
17.50
16.01
15.72
15.90
17.50
16.17
15.87
17.02
13
17.50
16.63
16.67
16.79
24
17.50
16.64
16.36
16.80
12
17.00
16.15
15.52
16.49
12
17.00
16.37
15.81
16.15
12
13
17.00
16.31
15.97
16.19
25
17.00
15.62
15.97
16.30
RB size
RB offset
Tune-up
Channel
Channel
Channel
37800CH
38000CH
38200CH
17.50
17.22
16.77
17.33
25
17.50
16.10
16.22
15.87
49
17.50
15.55
16.39
16.00
25
17.50
16.21
15.51
16.57
25
13
17.50
16.05
15.79
16.10
25
25
17.50
15.61
15.95
15.56
50
17.50
15.81
15.82
15.78
17.50
15.97
15.97
16.90
25
17.50
16.43
16.77
16.67
49
17.50
16.44
16.46
16.68
25
17.00
15.95
15.62
16.37
25
13
17.00
16.17
15.91
16.03
25
25
17.00
16.11
16.07
16.07
50
17.00
15.42
16.07
16.18
RB size
RB offset
Tune-up
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Page 76 of 219
Bandwidth
Modulation
QPSK
15MHz
16QAM
Bandwidth
Modulation
QPSK
20MHz
16QAM
Channel
Channel
Channel
37825CH
38000CH
38175CH
17.50
17.35
16.90
17.46
38
17.50
16.23
16.35
16.00
74
17.50
15.68
16.52
16.13
36
17.50
16.34
15.63
16.70
36
18
17.50
16.18
15.92
16.23
36
39
17.50
15.74
16.08
15.59
75
17.50
15.94
15.95
15.91
17.50
16.10
16.10
17.03
38
17.50
16.56
16.90
16.80
74
17.50
16.57
16.59
16.81
36
17.00
16.08
15.75
16.50
36
18
17.00
16.30
16.04
16.16
36
39
17.00
16.24
16.20
16.20
75
17.00
15.55
16.20
16.31
RB size
RB offset
Tune-up
Channel
Channel
Channel
37850CH
38000CH
38150CH
17.50
16.65
15.73
16.62
50
17.50
16.59
15.57
16.20
99
17.50
15.59
16.66
17.50
50
17.50
15.91
15.91
16.56
50
25
17.50
16.37
16.12
16.18
50
50
17.50
16.12
16.29
16.31
100
17.50
15.91
16.12
16.47
17.50
16.16
16.17
17.23
50
17.50
16.86
16.98
16.80
99
17.50
16.77
17.09
16.81
50
17.00
16.18
15.85
16.51
50
25
17.00
16.35
16.04
16.16
50
50
17.00
16.03
16.23
16.28
100
17.00
15.85
16.10
16.41
RB size
RB offset
Tune-up
Table 25: Conducted power measurement results of LTE Band XXXVIII
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Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Page 77 of 219
7.1.14 Conducted power measurements of LTE Band XLI(Second Antenna)
Bandwidth
Modulation
QPSK
5MHz
16QAM
Bandwidth
Modulation
QPSK
10MHz
16QAM
Channel
Channel
Channel
40265CH
40740CH
41215CH
18.00
16.55
16.65
16.51
13
18.00
16.98
16.90
16.81
24
18.00
16.72
16.64
16.44
12
17.00
15.79
15.70
15.64
12
17.00
15.93
15.74
15.70
12
13
17.00
15.85
15.70
15.58
25
17.00
15.80
15.71
15.68
17.00
15.53
15.73
15.25
13
17.00
15.99
15.98
15.61
24
17.00
15.71
15.72
15.28
12
16.00
14.79
14.58
14.52
12
16.00
14.93
14.63
14.57
12
13
16.00
14.85
14.58
14.45
25
16.00
14.74
14.57
14.47
RB size
RB offset
Tune-up
Channel
Channel
Channel
40290CH
40740CH
41190CH
18.00
16.72
16.61
16.26
25
18.00
17.27
16.89
16.64
49
18.00
17.01
16.89
16.62
25
17.00
15.96
15.66
15.36
25
13
17.00
16.13
15.78
15.59
25
25
17.00
16.10
15.81
15.48
50
17.00
16.02
15.75
15.79
17.00
15.84
15.97
15.26
25
17.00
16.44
16.28
15.63
49
17.00
16.17
16.25
15.60
25
16.00
14.81
14.58
14.18
25
13
16.00
14.98
14.71
14.52
25
25
16.00
14.95
14.73
14.34
50
16.00
14.88
14.69
14.62
RB size
RB offset
Tune-up
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Page 78 of 219
Bandwidth
Modulation
QPSK
15MHz
16QAM
Bandwidth
Modulation
QPSK
20MHz
16QAM
Channel
Channel
Channel
40315CH
40740CH
41165CH
18.00
16.65
16.42
16.10
38
18.00
17.35
16.90
16.38
74
18.00
16.84
17.03
16.42
36
17.00
16.01
15.62
15.32
36
18
17.00
16.31
15.76
15.49
36
39
17.00
16.17
15.91
15.64
75
17.00
16.14
15.78
15.87
17.00
15.63
15.61
15.25
38
17.00
16.40
16.11
15.60
74
17.00
15.86
16.21
15.60
36
16.00
14.93
14.51
14.10
36
18
16.00
15.20
14.66
14.26
36
39
16.00
15.04
14.80
14.45
75
16.00
14.99
14.67
14.77
RB size
RB offset
Tune-up
Channel
Channel
Channel
40340CH
40740CH
41140CH
18.00
16.96
16.47
16.81
50
18.00
17.43
16.84
16.41
99
18.00
16.86
17.35
16.83
50
17.00
16.35
15.76
15.85
50
25
17.00
16.33
15.88
15.45
50
50
17.00
16.21
16.13
15.61
100
17.00
16.24
15.98
16.21
17.00
16.34
15.68
16.04
50
17.00
16.45
16.12
15.65
99
17.00
16.30
16.31
15.98
50
16.00
15.19
14.70
14.72
50
25
16.00
15.24
14.81
14.28
50
50
16.00
15.07
15.06
14.48
100
16.00
15.10
14.90
15.01
RB size
RB offset
Tune-up
Table 26: Conducted power measurement results of LTE Band XLI
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Copyright © Huawei Technologies Co., Ltd
Page 79 of 219
7.1.15 Conducted power measurements of GSM850(Main Antenna)
Burst-Averaged output Power (dBm)
GSM850
GSM (CS)
GPRS/
EDGE
(GMSK)
EDGE
(8PSK)
Tuneup
33.50
Division
Factors
Frame-Averaged
output Power (dBm)
128CH
190CH
251CH
32.64
32.73
32.72
-9.19
Tuneup
24.31
128CH
190CH
251CH
23.45
23.54
23.53
1 Tx Slot
33.50
32.65
32.71
32.73
-9.19
24.31
23.46
23.52
23.54
2 Tx Slots
32.50
31.61
31.64
31.68
-6.13
26.37
25.48
25.51
25.55
3 Tx Slots
30.50
28.82
29.06
29.02
-4.42
26.08
24.40
24.64
24.60
4 Tx Slots
28.00
27.51
27.76
27.67
-3.18
24.82
24.33
24.58
24.49
1 Tx Slot
27.50
26.48
26.53
26.72
-9.19
18.31
17.29
17.34
17.53
2 Tx Slots
26.50
25.43
25.56
25.65
-6.13
20.37
19.30
19.43
19.52
3 Tx Slots
24.50
23.01
23.13
23.38
-4.42
20.08
18.59
18.71
18.96
4 Tx Slots
23.50
22.07
22.21
22.29
-3.18
20.32
18.89
19.03
19.11
Table 27: Conducted power measurement results of GSM850
Note:
1) The conducted power of GSM850 is measured with RMS detector.
2) Frame-averaged output power was calculated from the measured burst-averaged output power by
converting the slot powers into linear units and calculating the energy over 8 timesolts.
3) Per KDB941225 D01v03, SAR test reduction for GPRS and EDGE modes is determined by the
source-based time-averaged output power specified for production units, including tune-up tolerance.
The data mode with highest specified time-averaged output power should be tested for SAR compliance
in the applicable exposure conditions. For modes with the same specified maximum output power and
tolerance, the higher number time-slot configuration should be tested.
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Page 80 of 219
7.1.16 Conducted power measurements of GSM1900(Main Antenna)
Burst-Averaged output Power (dBm)
GSM1900
GSM (CS)
GPRS/
EDGE
(GMSK)
EDGE
(8PSK)
Tuneup
30.50
Frame-Averaged output Power (dBm)
512CH
661CH
810CH
Division
Factors
29.65
29.52
29.46
-9.19
Tuneup
21.31
512CH
661CH
810CH
20.46
20.33
20.27
1 Tx Slot
30.50
29.63
29.54
29.48
-9.19
21.31
20.44
20.35
20.29
2 Tx Slots
29.50
28.53
28.51
28.36
-6.13
23.37
22.40
22.38
22.23
3 Tx Slots
27.50
26.21
26.24
26.15
-4.42
23.08
21.79
21.82
21.73
4 Tx Slots
25.50
24.58
24.57
24.54
-3.18
22.32
21.40
21.39
21.36
1 Tx Slot
26.50
25.94
25.86
25.82
-9.19
17.31
16.75
16.67
16.63
2 Tx Slots
25.50
24.51
24.49
24.38
-6.13
19.37
18.38
18.36
18.25
3 Tx Slots
23.50
22.54
22.51
22.35
-4.42
19.08
18.12
18.09
17.93
4 Tx Slots
22.50
21.39
21.37
21.48
-3.18
19.32
18.21
18.19
18.30
Table 28: Conducted power measurement results of GSM1900
Note:
1) The conducted power of GSM1900 is measured with RMS detector.
2) Frame-averaged output power was calculated from the measured burst-averaged output power by
converting the slot powers into linear units and calculating the energy over 8 timesolts.
3) Per KDB941225 D01v03, SAR test reduction for GPRS and EDGE modes is determined by the
source-based time-averaged output power specified for production units, including tune-up tolerance.
The data mode with highest specified time-averaged output power should be tested for SAR compliance
in the applicable exposure conditions. For modes with the same specified maximum output power and
tolerance, the higher number time-slot configuration should be tested.
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7.1.17 Conducted power measurements of UMTS Band II(Main Antenna)
UMTS Band II
WCDMA
HSDPA
HSUPA
DC-HSDPA
Tune-up
Conducted Power (dBm)
9262CH
9400CH
9538CH
12.2kbps RMC
24.50
23.42
23.48
23.45
12.2kbps AMR
24.50
23.40
23.45
23.44
Subtest 1
24.50
22.95
22.90
22.93
Subtest 2
23.00
22.72
22.68
22.72
Subtest 3
22.50
21.98
21.93
21.99
Subtest 4
22.50
21.95
21.93
21.97
Subtest 1
21.00
20.20
20.39
20.03
Subtest 2
21.00
20.22
19.54
19.33
Subtest 3
21.00
19.90
20.00
19.86
Subtest 4
21.00
20.03
20.00
20.08
Subtest 5
21.00
20.46
20.29
20.28
Subtest 1
24.50
22.88
22.89
22.95
Subtest 2
23.00
22.65
22.64
22.73
Subtest 3
22.50
21.91
21.91
21.94
Subtest 4
22.50
21.90
21.88
21.92
Table 29: Conducted power measurement results of UMTS Band II(Hotspot disable)
Note:
1) The conducted power of UMTS Band II is measured with RMS detector.
2) The bolded 12.2kbps RMC mode was selected for SAR testing(the primary mode).
3) Per KDB941225 D01v03r01, When the maximum output power and tune-up tolerance specified for
production units in a Second mode is ≤ ¼ dB higher than the primary mode or when the highest reported
SAR of the primary mode is scaled by the ratio of specified maximum output power and tune-up
tolerance of Second to primary mode and the adjusted SAR is ≤ 1.2 W/kg, SAR measurement is not
required for the Second mode.
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UMTS Band II
WCDMA
HSDPA
HSUPA
DC-HSDPA
Tune-up
Conducted Power (dBm)
9262CH
9400CH
9538CH
12.2kbps RMC
22.50
21.87
21.88
21.91
12.2kbps AMR
22.50
21.86
21.88
21.89
Subtest 1
22.50
21.32
21.38
21.38
Subtest 2
22.00
21.11
21.16
21.16
Subtest 3
21.50
20.34
20.37
20.36
Subtest 4
21.50
20.32
20.37
20.35
Subtest 1
19.50
18.69
19.07
18.88
Subtest 2
19.50
18.01
17.86
17.90
Subtest 3
19.50
18.03
17.94
17.84
Subtest 4
19.50
18.64
18.39
18.53
Subtest 5
19.50
18.96
18.76
18.76
Subtest 1
22.50
21.30
21.35
21.33
Subtest 2
22.00
21.09
21.14
21.14
Subtest 3
21.50
20.32
20.34
20.31
Subtest 4
21.50
20.30
20.36
20.32
Table 30: Conducted power measurement results of UMTS Band II(Hotspot activated)
Note:
1) The conducted power of UMTS Band II is measured with RMS detector.
2) The bolded 12.2kbps RMC mode was selected for SAR testing(the primary mode).
3) Per KDB941225 D01v03r01, When the maximum output power and tune-up tolerance specified for
production units in a Second mode is ≤ ¼ dB higher than the primary mode or when the highest reported
SAR of the primary mode is scaled by the ratio of specified maximum output power and tune-up
tolerance of Second to primary mode and the adjusted SAR is ≤ 1.2 W/kg, SAR measurement is not
required for the Second mode.
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7.1.18 Conducted power measurements of UMTS Band IV(Main Antenna)
UMTS Band IV
WCDMA
HSDPA
HSUPA
DC-HSDPA
Tune-up
Conducted Power (dBm)
1312CH
1413CH
1513CH
12.2kbps RMC
24.00
23.59
23.44
23.45
12.2kbps AMR
24.00
23.54
23.43
23.41
Subtest 1
23.50
23.05
22.90
22.94
Subtest 2
23.00
22.81
22.69
22.71
Subtest 3
22.50
22.07
21.94
21.98
Subtest 4
22.50
22.06
21.92
21.96
Subtest 1
21.50
20.47
20.81
20.11
Subtest 2
21.00
19.63
19.54
19.50
Subtest 3
21.00
20.20
19.69
19.96
Subtest 4
21.50
20.33
19.74
19.89
Subtest 5
21.50
20.59
20.14
20.21
Subtest 1
23.50
23.00
22.89
22.92
Subtest 2
23.00
22.83
22.66
22.73
Subtest 3
22.50
22.11
21.92
21.97
Subtest 4
22.50
22.04
21.90
21.94
Table 31: Conducted power measurement results of UMTS Band IV
Note:
1) The conducted power of UMTS Band IV is measured with RMS detector.
2) The bolded 12.2kbps RMC mode was selected for SAR testing(the primary mode).
3) Per KDB941225 D01v03r01, When the maximum output power and tune-up tolerance specified for
production units in a Second mode is ≤ ¼ dB higher than the primary mode or when the highest reported
SAR of the primary mode is scaled by the ratio of specified maximum output power and tune-up
tolerance of Second to primary mode and the adjusted SAR is ≤ 1.2 W/kg, SAR measurement is not
required for the Second mode.
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7.1.19 Conducted power measurements of UMTS Band V(Main Antenna)
UMTS Band V
WCDMA
HSDPA
HSUPA
DC-HSDPA
Tune-up
Conducted Power (dBm)
4132CH
4182CH
4233CH
12.2kbps RMC
24.50
23.34
23.35
23.23
12.2kbps AMR
24.50
23.32
23.31
23.25
Subtest 1
24.00
22.84
22.81
22.70
Subtest 2
23.50
22.62
22.58
22.52
Subtest 3
23.00
21.85
21.84
21.74
Subtest 4
23.00
21.83
21.81
21.73
Subtest 1
22.00
20.16
20.33
20.40
Subtest 2
21.00
19.38
19.24
19.81
Subtest 3
21.00
19.97
19.66
19.66
Subtest 4
21.00
19.99
19.79
19.72
Subtest 5
21.50
20.22
19.99
20.14
Subtest 1
24.00
22.80
22.75
22.67
Subtest 2
23.50
22.61
22.51
22.53
Subtest 3
23.00
21.83
21.80
21.75
Subtest 4
23.00
21.76
21.76
21.78
Table 32: Conducted power measurement results of UMTS Band V
Note:
1) The conducted power of UMTS Band V is measured with RMS detector.
2) The bolded 12.2kbps RMC mode was selected for SAR testing(the primary mode).
3) Per KDB941225 D01v03, When the maximum output power and tune-up tolerance specified for
production units in a Second mode is ≤ ¼ dB higher than the primary mode or when the highest reported
SAR of the primary mode is scaled by the ratio of specified maximum output power and tune-up
tolerance of Second to primary mode and the adjusted SAR is ≤ 1.2 W/kg, SAR measurement is not
required for the Second mode.
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7.1.20 Conducted power measurements of LTE Band II(Main Antenna)
Bandwidth Modulation
QPSK
1.4MHz
16QAM
Bandwidth Modulation
QPSK
3MHz
16QAM
RB size
RB offset
Tune-up
Channel
Channel
Channel
18607CH
18900CH
19193CH
23.50
22.75
23.11
22.68
23.50
22.77
23.12
22.40
23.50
22.69
23.03
22.06
23.50
22.65
23.11
22.56
23.50
22.73
23.03
22.39
23.50
22.64
22.98
22.25
23.00
21.70
22.21
21.51
23.00
21.73
22.44
22.11
23.00
21.79
22.38
21.97
23.00
21.71
22.36
21.52
23.00
21.66
22.45
21.82
23.00
21.68
22.24
21.51
23.00
21.77
22.21
21.54
22.00
20.61
21.31
20.53
RB offset
Tune-up
Channel
Channel
RB size
Channel
18615CH
18900CH
19185CH
23.50
22.52
23.03
23.23
23.50
22.73
23.16
23.08
14
23.50
22.49
22.87
22.17
23.00
21.72
22.19
22.27
23.00
21.78
22.22
22.06
23.00
21.71
22.11
21.77
15
23.00
21.76
22.17
22.03
23.00
21.44
22.39
22.29
23.00
21.67
22.18
22.23
14
23.00
21.44
21.91
21.38
22.00
20.70
21.43
21.28
22.00
20.76
21.32
21.09
22.00
20.70
21.22
20.77
15
22.00
20.70
21.20
20.97
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Bandwidth Modulation
QPSK
5MHz
16QAM
Bandwidth Modulation
QPSK
10MHz
16QAM
RB size
RB offset
Tune-up
Channel
Channel
Channel
18625CH
18900CH
19175CH
23.50
22.58
23.04
23.01
13
23.50
22.88
23.17
23.05
24
23.50
22.31
22.74
21.94
12
23.00
21.84
22.33
22.14
12
23.00
21.93
22.29
22.27
12
13
23.00
21.76
22.11
21.74
25
23.00
21.83
22.17
21.92
23.00
22.02
22.70
22.50
13
23.00
22.38
22.79
22.51
24
23.00
21.83
22.34
21.45
12
22.00
20.95
21.49
21.33
12
22.00
21.06
21.40
21.31
12
13
22.00
20.91
21.24
20.85
25
22.00
20.90
21.25
20.96
Channel
Channel
RB size
RB offset
Tune-up
Channel
18650CH
18900CH
19150CH
23.50
22.49
23.33
22.84
25
23.50
22.56
23.24
23.36
49
23.50
22.39
22.86
22.43
25
23.00
21.69
22.34
22.35
25
13
23.00
21.52
22.28
22.41
25
25
23.00
21.41
22.10
22.10
50
23.00
21.62
22.14
21.97
23.00
21.94
22.61
22.17
25
23.00
21.80
22.55
22.71
49
23.00
21.70
22.00
21.79
25
22.00
20.84
21.41
21.24
25
13
22.00
20.65
21.28
21.30
25
25
22.00
20.52
21.12
21.00
50
22.00
20.68
21.16
21.05
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Bandwidth Modulation
QPSK
15MHz
16QAM
Bandwidth Modulation
QPSK
20MHz
16QAM
RB size
RB offset
Tune-up
Channel
Channel
Channel
18675CH
18900CH
19125CH
23.50
22.52
22.52
22.35
38
23.50
22.55
23.22
23.26
74
23.50
22.26
22.49
22.43
36
23.00
21.66
22.24
21.94
36
18
23.00
21.54
22.20
22.27
36
39
23.00
21.49
22.00
22.20
75
23.00
21.58
22.15
21.91
23.00
22.00
21.71
21.89
38
23.00
21.92
22.46
22.60
74
23.00
21.71
21.67
21.84
36
22.00
20.63
21.35
20.89
36
18
22.00
20.51
21.26
21.30
36
39
22.00
20.45
21.08
21.19
75
22.00
20.49
21.26
20.96
Channel
Channel
RB size
RB offset
Tune-up
Channel
18700CH
18900CH
19100CH
23.50
21.98
22.19
21.84
50
23.50
22.56
23.17
22.70
99
23.50
22.28
22.15
22.15
50
23.00
21.45
22.15
21.52
50
25
23.00
21.61
22.14
21.83
50
50
23.00
21.57
21.79
21.63
100
23.00
21.52
22.03
21.56
23.00
21.87
22.06
21.65
50
23.00
22.09
22.73
21.94
99
23.00
22.23
22.03
21.95
50
22.00
20.52
21.21
20.58
50
25
22.00
20.50
21.21
20.84
50
50
22.00
20.63
20.84
20.70
100
22.00
20.43
21.00
20.59
Table 33: Conducted power measurement results of LTE Band II(Hotspot disable)
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Bandwidth Modulation
QPSK
1.4MHz
16QAM
Bandwidth Modulation
QPSK
3MHz
16QAM
RB size
RB offset
Tune-up
Channel
Channel
Channel
18607CH
18900CH
19193CH
21.50
20.60
20.76
20.88
21.50
20.63
20.80
20.73
21.50
20.50
20.71
20.41
21.50
20.52
20.84
20.84
21.50
20.53
20.72
20.73
21.50
20.65
20.68
20.59
21.00
20.62
20.69
20.69
21.00
20.62
20.93
20.78
21.00
20.63
20.98
20.71
21.00
20.74
20.79
20.41
21.00
20.62
20.84
20.89
21.00
20.70
20.77
20.78
21.00
20.62
20.73
20.65
20.00
19.50
19.72
19.72
RB offset
Tune-up
Channel
Channel
RB size
Channel
18615CH
18900CH
19185CH
21.50
20.53
20.74
20.79
21.50
20.81
20.88
21.00
14
21.50
20.52
20.69
20.28
21.00
20.63
20.84
20.93
21.00
20.65
20.80
20.88
21.00
20.65
20.77
20.69
15
21.00
20.66
20.76
20.78
21.00
20.75
20.83
20.86
21.00
20.76
20.89
20.91
14
21.00
20.57
20.91
20.55
20.00
19.61
19.74
19.80
20.00
19.63
19.72
19.76
20.00
19.63
19.69
19.63
15
20.00
19.69
19.71
19.70
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Bandwidth Modulation
QPSK
5MHz
16QAM
Bandwidth Modulation
QPSK
10MHz
16QAM
RB size
RB offset
Tune-up
Channel
Channel
Channel
18625CH
18900CH
19175CH
21.50
20.63
20.80
20.68
13
21.50
20.85
20.96
21.06
24
21.50
20.49
20.55
20.39
12
21.00
20.81
20.88
20.97
12
21.00
20.86
20.99
20.98
12
13
21.00
20.64
20.78
20.78
25
21.00
20.73
20.81
20.66
21.00
20.74
20.95
20.78
13
21.00
20.87
20.83
20.89
24
21.00
20.57
20.75
20.43
12
20.00
19.80
19.92
19.90
12
20.00
19.78
19.99
19.94
12
13
20.00
19.62
19.80
19.76
25
20.00
19.73
19.82
19.61
Channel
Channel
RB size
RB offset
Tune-up
Channel
18650CH
18900CH
19150CH
21.50
20.57
20.37
20.33
25
21.50
20.83
20.99
20.76
49
21.50
20.53
20.75
20.52
25
21.00
20.80
20.77
20.57
25
13
21.00
20.64
20.86
20.75
25
25
21.00
20.56
20.84
20.60
50
21.00
20.66
20.68
20.44
21.00
20.88
20.63
20.61
25
21.00
20.84
20.83
20.75
49
21.00
20.80
20.91
20.73
25
20.00
19.65
19.71
19.56
25
13
20.00
19.55
19.85
19.65
25
25
20.00
19.47
19.83
19.51
50
20.00
19.56
19.65
19.47
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Bandwidth Modulation
QPSK
15MHz
16QAM
Bandwidth Modulation
QPSK
20MHz
16QAM
RB size
RB offset
Tune-up
Channel
Channel
Channel
18675CH
18900CH
19125CH
21.50
20.34
20.25
20.21
38
21.50
20.62
20.92
20.54
74
21.50
20.02
20.46
20.36
36
21.00
20.81
20.67
20.62
36
18
21.00
20.70
20.80
20.68
36
39
21.00
20.55
20.76
20.64
75
21.00
20.59
20.74
20.48
21.00
20.76
20.50
20.48
38
21.00
20.84
20.95
20.80
74
21.00
20.43
20.81
20.66
36
20.00
19.71
19.62
19.57
36
18
20.00
19.68
19.78
19.68
36
39
20.00
19.53
19.82
19.57
75
20.00
19.55
19.74
19.42
Channel
Channel
RB size
RB offset
Tune-up
Channel
18700CH
18900CH
19100CH
21.50
20.19
19.87
20.23
50
21.50
20.86
20.93
20.55
99
21.50
19.59
20.18
20.29
50
21.00
20.65
20.43
20.57
50
25
21.00
20.73
20.74
20.62
50
50
21.00
20.43
20.62
20.22
100
21.00
20.52
20.61
20.37
21.00
20.71
20.29
20.62
50
21.00
20.88
20.99
20.75
99
21.00
20.22
20.63
20.73
50
20.00
19.52
19.32
19.54
50
25
20.00
19.61
19.64
19.66
50
50
20.00
19.36
19.59
19.21
100
20.00
19.45
19.51
19.39
Table 34: Conducted power measurement results of LTE Band II(Hotspot activated)
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7.1.21 Conducted power measurements of LTE Band IV(Main Antenna)
Bandwidth Modulation
QPSK
1.4MHz
16QAM
Bandwidth Modulation
QPSK
3MHz
16QAM
RB size
RB offset
Tune-up
Channel
Channel
Channel
19957CH
20175CH
20393CH
24.00
22.25
22.75
23.02
24.00
22.36
22.24
23.03
24.00
22.20
22.34
22.93
24.00
22.27
22.10
22.85
24.00
22.29
22.22
22.90
24.00
22.24
22.35
22.87
23.00
21.02
21.05
21.48
23.00
21.50
22.18
22.28
23.00
21.55
21.54
22.35
23.00
21.35
21.63
22.30
23.00
21.50
21.90
22.19
23.00
21.51
21.35
22.22
23.00
21.42
21.39
22.20
22.50
20.54
20.82
20.97
RB offset
Tune-up
Channel
Channel
RB size
Channel
19965CH
20175CH
20385CH
24.00
22.21
22.66
22.66
24.00
22.37
22.24
23.07
14
24.00
22.23
22.56
22.87
23.00
21.06
21.34
21.40
23.00
21.10
21.07
21.51
23.00
21.14
21.06
21.42
15
23.00
21.06
21.11
21.48
23.00
21.51
21.91
21.65
23.00
21.57
21.57
22.07
14
23.00
21.53
21.88
21.85
22.50
20.61
20.87
20.94
22.50
20.51
20.57
21.04
22.50
20.69
20.56
20.95
15
22.50
20.76
20.56
20.90
Report No.: SYBH(Z-SAR)030052017-2
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Copyright © Huawei Technologies Co., Ltd
Page 92 of 219
Bandwidth Modulation
QPSK
5MHz
16QAM
Bandwidth Modulation
QPSK
10MHz
16QAM
RB size
RB offset
Tune-up
Channel
Channel
Channel
19975CH
20175CH
20375CH
24.00
22.32
22.83
22.84
13
24.00
22.49
22.42
22.85
24
24.00
22.29
22.65
22.74
12
23.00
21.12
21.18
21.17
12
23.00
21.05
21.21
21.45
12
13
23.00
21.20
21.10
21.45
25
23.00
21.09
21.01
21.10
23.00
21.69
22.39
21.98
13
23.00
21.70
21.87
22.08
24
23.00
21.71
22.17
21.98
12
22.50
20.56
20.67
20.68
12
22.50
20.58
20.76
20.90
12
13
22.50
20.64
20.61
20.86
25
22.50
20.63
20.66
20.75
Channel
Channel
RB size
RB offset
Tune-up
Channel
20000CH
20175CH
20350CH
24.00
22.14
22.82
23.08
25
24.00
22.82
22.43
22.91
49
24.00
22.75
22.54
22.93
25
23.00
21.11
21.22
21.09
25
13
23.00
21.06
21.24
21.10
25
25
23.00
21.14
21.08
21.16
50
23.00
21.06
21.12
21.20
23.00
21.30
22.02
21.56
25
23.00
22.20
21.57
22.03
49
23.00
21.92
21.64
21.93
25
22.50
20.63
20.71
20.53
25
13
22.50
20.52
20.68
20.51
25
25
22.50
20.66
20.51
20.67
50
22.50
20.65
20.55
20.56
Report No.: SYBH(Z-SAR)030052017-2
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Copyright © Huawei Technologies Co., Ltd
Page 93 of 219
Bandwidth Modulation
QPSK
15MHz
16QAM
Bandwidth Modulation
QPSK
20MHz
16QAM
RB size
RB offset
Tune-up
Channel
Channel
Channel
20025CH
20175CH
20325CH
24.00
22.30
22.96
22.61
38
24.00
22.92
22.53
22.79
74
24.00
22.88
22.44
22.76
36
23.00
21.09
21.03
21.05
36
18
23.00
21.27
21.41
21.24
36
39
23.00
21.40
21.10
21.10
75
23.00
21.09
21.19
21.06
23.00
21.54
22.14
21.95
38
23.00
22.14
21.50
21.96
74
23.00
21.90
21.57
22.06
36
22.50
20.59
20.61
20.58
36
18
22.50
20.78
20.93
20.61
36
39
22.50
20.91
20.59
20.55
75
22.50
20.60
20.73
20.63
Channel
Channel
RB size
RB offset
Tune-up
Channel
20050CH
20175CH
20300CH
24.00
22.03
22.53
22.17
50
24.00
22.54
22.09
22.18
99
24.00
22.43
22.13
22.16
50
23.00
21.12
21.28
21.10
50
25
23.00
21.30
21.26
21.23
50
50
23.00
21.27
21.03
21.01
100
23.00
21.04
21.03
21.01
23.00
21.45
22.07
21.80
50
23.00
21.85
21.22
21.46
99
23.00
21.96
21.53
21.84
50
22.50
20.52
20.81
20.55
50
25
22.50
20.82
20.66
20.55
50
50
22.50
20.79
20.54
20.61
100
22.50
20.55
20.62
20.54
Table 35: Conducted power measurement results of LTE Band IV
Report No.: SYBH(Z-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Page 94 of 219
7.1.22 Conducted power measurements of LTE Band V(Main Antenna)
Bandwidth Modulation
QPSK
1.4MHz
16QAM
Bandwidth Modulation
QPSK
3MHz
16QAM
RB size
RB offset
Tune-up
Channel
Channel
Channel
20407CH
20525CH
20643CH
24.00
22.57
22.34
22.35
24.00
22.88
22.39
22.33
24.00
22.79
22.35
22.20
24.00
22.64
22.29
22.30
24.00
22.77
22.39
22.30
24.00
22.81
22.37
22.22
23.00
21.68
21.27
21.18
23.00
21.61
21.38
21.38
23.00
21.87
21.52
21.65
23.00
21.79
21.48
21.28
23.00
21.70
21.28
21.29
23.00
21.83
21.31
21.36
23.00
21.77
21.36
21.30
22.00
20.73
20.25
20.25
RB offset
Tune-up
Channel
Channel
RB size
Channel
20415CH
20525CH
20635CH
24.00
22.35
22.22
22.27
24.00
22.93
22.45
22.41
14
24.00
22.39
22.23
22.05
23.00
21.78
21.27
21.33
23.00
21.90
21.33
21.38
23.00
21.66
21.29
21.21
15
23.00
21.77
21.29
21.43
23.00
21.49
21.26
21.42
23.00
22.08
21.47
21.69
14
23.00
21.62
21.25
21.24
22.00
20.73
20.24
20.39
22.00
20.81
20.30
20.38
22.00
20.64
20.26
20.21
15
22.00
20.63
20.20
20.35
Report No.: SYBH(Z-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Page 95 of 219
Bandwidth Modulation
QPSK
5MHz
16QAM
Bandwidth Modulation
QPSK
10MHz
16QAM
RB size
RB offset
Tune-up
Channel
Channel
Channel
20425CH
20525CH
20625CH
24.00
22.45
22.28
22.75
13
24.00
22.80
22.50
22.52
24
24.00
22.29
22.24
22.01
12
23.00
21.68
21.27
21.71
12
23.00
21.87
21.35
21.65
12
13
23.00
21.61
21.27
21.18
25
23.00
21.65
21.25
21.52
23.00
21.54
21.30
21.79
13
23.00
21.80
21.53
21.60
24
23.00
21.39
21.32
21.10
12
22.00
20.74
20.24
20.63
12
22.00
20.80
20.31
20.60
12
13
22.00
20.53
20.27
20.21
25
22.00
20.53
20.17
20.40
Channel
Channel
RB size
RB offset
Tune-up
Channel
20450CH
20525CH
20600CH
24.00
22.90
22.45
22.77
25
24.00
23.22
22.87
23.35
49
24.00
22.40
22.74
22.30
25
23.00
22.11
21.73
22.03
25
13
23.00
22.30
21.80
22.20
25
25
23.00
21.69
21.69
22.01
50
23.00
21.91
21.65
22.15
23.00
22.04
21.57
21.83
25
23.00
22.19
22.02
22.50
49
23.00
21.58
21.82
21.44
25
22.00
21.00
20.67
21.01
25
13
22.00
21.06
20.74
21.13
25
25
22.00
20.63
20.69
21.00
50
22.00
20.85
20.56
21.09
Table 36: Conducted power measurement results of LTE Band V
Report No.: SYBH(Z-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Page 96 of 219
7.1.23 Conducted power measurements of LTE Band VII(Main Antenna)
Bandwidth Modulation
QPSK
5MHz
16QAM
Bandwidth Modulation
QPSK
10MHz
16QAM
RB size
RB offset
Tune-up
Channel
Channel
Channel
20775CH
21100CH
21425CH
23.00
21.02
21.06
21.01
13
23.00
22.02
21.54
21.69
24
23.00
21.59
21.08
21.03
12
22.00
20.97
20.62
20.76
12
22.00
21.07
20.64
20.79
12
13
22.00
21.06
20.60
20.66
25
22.00
20.57
20.59
20.50
22.00
20.71
20.67
20.62
13
22.00
21.24
21.11
20.82
24
22.00
20.74
20.52
20.35
12
21.00
20.00
19.81
19.83
12
21.00
20.15
19.81
19.84
12
13
21.00
20.12
19.74
19.73
25
21.00
19.64
19.58
19.55
Channel
Channel
RB size
RB offset
Tune-up
Channel
20800CH
21100CH
21400CH
23.00
21.41
21.04
21.39
25
23.00
22.37
21.59
21.61
49
23.00
22.00
21.28
21.31
25
22.00
20.77
20.46
20.75
25
13
22.00
21.40
20.60
20.55
25
25
22.00
21.45
20.61
20.51
50
22.00
21.02
20.49
20.63
22.00
20.63
20.17
20.75
25
22.00
21.63
20.69
20.90
49
22.00
21.19
20.56
20.54
25
21.00
19.79
19.65
19.85
25
13
21.00
20.41
19.72
19.65
25
25
21.00
20.53
19.66
19.61
50
21.00
20.07
19.60
19.72
Report No.: SYBH(Z-SAR)030052017-2
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Copyright © Huawei Technologies Co., Ltd
Page 97 of 219
Bandwidth Modulation
QPSK
15MHz
16QAM
Bandwidth Modulation
QPSK
20MHz
16QAM
RB size
RB offset
Tune-up
Channel
Channel
Channel
20825CH
21100CH
21375CH
23.00
22.53
22.06
22.71
38
23.00
22.45
21.57
21.60
74
23.00
22.96
22.55
22.26
36
22.00
20.93
20.20
20.98
36
18
22.00
21.27
20.58
20.75
36
39
22.00
21.63
20.65
20.50
75
22.00
21.18
20.45
20.82
22.00
21.67
21.11
21.85
38
22.00
21.69
20.72
20.82
74
22.00
22.00
21.81
21.54
36
21.00
19.97
19.34
20.02
36
18
21.00
20.30
19.74
19.79
36
39
21.00
20.67
19.80
19.55
75
21.00
20.21
19.53
19.86
Channel
Channel
RB size
RB offset
Tune-up
Channel
20850CH
21100CH
21350CH
23.00
21.54
21.07
22.12
50
23.00
22.55
21.88
21.73
99
23.00
21.62
21.54
21.60
50
22.00
21.15
20.43
21.19
50
25
22.00
21.57
20.62
20.94
50
50
22.00
21.15
20.87
20.64
100
22.00
21.08
20.56
21.00
22.00
20.94
20.65
21.60
50
22.00
21.98
21.02
21.21
99
22.00
21.01
21.34
20.92
50
21.00
20.23
19.50
20.26
50
25
21.00
20.64
19.71
19.98
50
50
21.00
20.24
19.94
19.77
100
21.00
20.24
19.67
20.08
Table 37: Conducted power measurement results of LTE Band VII
Report No.: SYBH(Z-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Page 98 of 219
7.1.24 Conducted power measurements of LTE Band XII(Main Antenna)
Bandwidth Modulation
QPSK
1.4MHz
16QAM
Bandwidth Modulation
QPSK
3MHz
16QAM
RB size
RB offset
Tune-up
Channel
Channel
Channel
23107CH
23095CH
23173CH
23.50
22.08
21.95
22.60
23.50
22.26
22.03
22.28
23.50
22.34
21.91
21.84
23.50
22.08
21.99
22.56
23.50
22.17
22.06
22.26
23.50
22.28
21.97
22.05
23.00
21.21
21.13
21.40
22.50
21.52
21.49
21.90
22.50
21.69
21.37
21.57
22.50
21.52
21.43
21.10
22.50
21.31
21.14
21.71
22.50
21.39
21.20
21.41
22.50
21.39
21.12
21.17
22.00
20.36
20.22
20.41
RB offset
Tune-up
Channel
Channel
RB size
Channel
23025CH
23095CH
23165CH
23.50
21.96
21.88
22.83
23.50
22.56
22.13
22.77
14
23.50
22.42
21.92
21.71
23.00
21.30
21.18
21.85
23.00
21.64
21.14
21.74
23.00
21.47
21.06
21.35
15
23.00
21.28
21.16
21.62
22.50
21.33
21.36
21.88
22.50
21.90
21.59
21.91
14
22.50
21.77
21.43
20.80
22.00
20.52
20.27
20.99
22.00
20.77
20.25
20.89
22.00
20.57
20.16
20.50
15
22.00
20.21
20.16
20.60
Report No.: SYBH(Z-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Page 99 of 219
Bandwidth Modulation
QPSK
5MHz
16QAM
Bandwidth Modulation
QPSK
10MHz
16QAM
RB size
RB offset
Tune-up
Channel
Channel
Channel
23035CH
23095CH
23155CH
23.50
22.00
22.00
22.32
13
23.50
22.75
22.13
22.94
24
23.50
23.01
22.88
22.51
12
23.00
21.41
21.13
21.92
12
23.00
21.70
21.14
22.08
12
13
23.00
21.40
21.06
21.50
25
23.00
21.37
21.25
21.69
22.50
21.33
21.31
21.61
13
22.50
22.07
21.45
22.13
24
22.50
22.37
22.20
21.80
12
22.00
20.43
20.17
20.98
12
22.00
20.74
20.18
21.12
12
13
22.00
20.48
20.18
20.51
25
22.00
20.45
20.26
20.70
Channel
Channel
RB size
RB offset
Tune-up
Channel
23060CH
23095CH
23130CH
23.50
22.45
22.83
22.19
25
23.50
22.88
22.61
22.98
49
23.50
22.03
22.46
22.04
25
23.00
21.92
21.67
21.59
25
13
23.00
21.75
21.64
21.97
25
25
23.00
21.43
21.48
21.82
50
23.00
21.72
21.50
21.81
22.50
21.79
22.09
21.55
25
22.50
22.30
21.92
22.29
49
22.50
21.43
21.80
21.31
25
22.00
20.93
20.70
20.70
25
13
22.00
20.77
20.77
21.06
25
25
22.00
20.55
20.60
20.91
50
22.00
20.67
20.55
20.78
Table 38: Conducted power measurement results of LTE Band XII
Report No.: SYBH(Z-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Page 100 of 219
7.1.25 Conducted power measurements of LTE Band XVII(Main Antenna)
Bandwidth Modulation
QPSK
5MHz
16QAM
Bandwidth Modulation
QPSK
10MHz
16QAM
RB size
RB offset
Tune-up
Channel
Channel
Channel
23755CH
23790CH
23825CH
24.00
22.61
22.40
22.86
13
24.00
22.67
22.95
23.45
24
24.00
23.26
23.69
22.78
12
23.00
21.68
21.66
22.11
12
23.00
21.61
21.92
22.26
12
13
23.00
21.49
21.81
21.92
25
23.00
21.64
21.77
22.04
23.00
21.64
21.46
22.24
13
23.00
21.89
22.12
22.74
24
23.00
22.33
22.91
22.23
12
22.00
20.69
20.83
21.18
12
22.00
20.65
21.08
21.33
12
13
22.00
20.64
20.87
21.02
25
22.00
20.68
20.89
21.08
Channel
Channel
RB size
RB offset
Tune-up
Channel
23780CH
23790CH
23800CH
24.00
22.78
22.61
22.64
25
24.00
23.26
23.35
23.50
49
24.00
23.25
23.14
22.43
25
23.00
21.96
21.99
22.06
25
13
23.00
22.16
22.36
22.56
25
25
23.00
22.35
22.50
22.50
50
23.00
22.13
22.30
22.44
23.00
22.06
21.90
21.94
25
23.00
22.46
22.68
22.75
49
23.00
22.51
22.32
21.66
25
22.00
21.05
21.06
21.17
25
13
22.00
21.25
21.43
21.67
25
25
22.00
21.49
21.44
21.51
50
22.00
21.25
21.35
21.52
Table 39: Conducted power measurement results of LTE Band XVII
Report No.: SYBH(Z-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Page 101 of 219
7.1.26 Conducted power measurements of LTE Band XXVI(Main Antenna)
Bandwidth Modulation
QPSK
1.4MHz
16QAM
Bandwidth Modulation
QPSK
3MHz
16QAM
RB size
RB offset
Tune-up
Channel
Channel
Channel
26697CH
26865CH
27033CH
24.00
23.54
23.31
23.56
24.00
23.40
23.44
23.67
24.00
23.13
23.31
23.60
24.00
23.40
23.19
23.61
24.00
23.30
23.29
23.64
24.00
23.16
23.28
23.61
23.00
22.35
22.27
22.56
23.70
22.43
21.99
22.56
23.70
22.38
22.26
22.70
23.70
22.13
21.99
22.58
23.70
22.35
22.14
22.45
23.70
22.26
22.19
22.44
23.70
22.14
22.24
22.41
22.20
21.40
21.03
21.38
RB offset
Tune-up
Channel
Channel
RB size
Channel
26705CH
26865CH
27025CH
24.00
23.30
23.12
23.30
24.00
23.14
23.35
23.71
14
24.00
22.69
23.30
23.40
23.00
22.31
22.36
22.46
23.00
22.15
22.42
22.48
23.00
21.98
22.31
22.42
15
23.00
22.15
22.37
22.39
23.70
22.38
22.28
22.21
23.70
22.22
22.54
22.57
14
23.70
21.71
22.30
22.25
22.20
21.27
21.31
21.29
22.20
21.17
21.36
21.38
22.20
20.98
21.31
21.34
15
22.20
21.01
21.24
21.31
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Bandwidth Modulation
QPSK
5MHz
16QAM
Bandwidth Modulation
QPSK
10MHz
16QAM
RB size
RB offset
Tune-up
Channel
Channel
Channel
26715CH
26865CH
27015CH
24.00
23.20
22.69
22.91
13
24.00
22.94
23.04
23.36
24
24.00
23.58
23.89
23.96
12
23.00
22.13
22.11
22.37
12
23.00
22.05
22.13
22.48
12
13
23.00
22.07
22.13
22.23
25
23.00
22.06
22.17
22.35
23.70
22.41
22.19
22.27
13
23.70
22.25
22.54
22.78
24
23.70
22.77
23.39
23.51
12
22.20
21.07
21.20
21.23
12
22.20
20.98
21.22
21.26
12
13
22.20
20.98
21.24
21.14
25
22.20
20.96
21.31
21.21
Channel
Channel
RB size
RB offset
Tune-up
Channel
26750CH
26865CH
26990CH
24.00
23.76
23.73
23.71
25
24.00
23.82
23.79
23.75
49
24.00
23.82
23.78
23.76
25
23.00
22.68
22.64
22.63
25
13
23.00
22.93
22.90
22.89
25
25
23.00
22.79
22.76
22.75
50
23.00
22.84
22.82
22.81
23.70
23.20
23.15
22.97
25
23.70
23.06
23.00
23.04
49
23.70
22.97
22.95
22.98
25
22.20
21.65
21.67
21.65
25
13
22.20
21.81
21.84
21.82
25
25
22.20
21.65
21.72
21.71
50
22.20
21.70
21.73
21.72
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Bandwidth Modulation
QPSK
15MHz
16QAM
RB size
RB offset
Tune-up
Channel
Channel
Channel
26775CH
26865CH
26965CH
24.00
22.85
23.06
22.56
38
24.00
23.34
23.16
23.52
74
24.00
22.81
22.65
22.39
36
23.00
22.11
22.31
22.07
36
18
23.00
22.38
22.11
22.47
36
39
23.00
22.10
21.84
22.40
75
23.00
22.34
22.07
22.34
23.70
21.93
22.05
21.80
38
23.70
22.54
22.25
22.76
74
23.70
21.77
21.74
21.78
36
22.20
21.01
21.19
20.88
36
18
22.20
21.23
21.05
21.45
36
39
22.20
20.91
20.73
21.38
75
22.20
21.12
20.99
21.20
Table 40: Conducted power measurement results of LTE Band XXVI
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Page 104 of 219
7.1.27 Conducted power measurements of LTE Band XXXVIII(Main Antenna)
Bandwidth
Modulation
QPSK
5MHz
16QAM
Bandwidth
Modulation
QPSK
10MHz
16QAM
Channel
Channel
Channel
37775CH
38000CH
38225CH
24.00
23.34
22.68
22.16
13
24.00
23.29
22.95
22.97
24
24.00
23.05
22.73
23.86
12
23.00
22.52
21.90
21.38
12
23.00
22.46
21.88
21.96
12
13
23.00
22.28
21.80
22.44
25
23.00
22.10
21.86
21.53
23.00
22.55
22.13
21.37
13
23.00
22.53
22.23
22.24
24
23.00
22.72
22.52
22.77
12
22.00
21.49
20.97
20.47
12
22.00
21.44
20.98
20.99
12
13
22.00
21.26
20.88
21.47
25
22.00
21.00
20.90
20.52
RB size
RB offset
Tune-up
Channel
Channel
Channel
37800CH
38000CH
38200CH
24.00
23.45
22.78
22.04
25
24.00
23.34
22.77
22.29
49
24.00
22.87
22.78
23.70
25
23.00
22.09
21.66
21.20
25
13
23.00
22.05
21.95
21.02
25
25
23.00
22.11
21.45
21.48
50
23.00
21.91
21.53
21.22
23.00
22.82
22.68
21.71
25
23.00
22.63
22.29
21.60
49
23.00
22.21
22.15
22.96
25
22.00
20.96
20.69
20.26
25
13
22.00
20.93
21.01
20.02
25
25
22.00
21.06
20.48
20.49
50
22.00
20.90
20.58
20.16
RB size
RB offset
Tune-up
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Page 105 of 219
Bandwidth
Modulation
QPSK
15MHz
16QAM
Bandwidth
Modulation
QPSK
20MHz
16QAM
Channel
Channel
Channel
37825CH
38000CH
38175CH
24.00
22.91
22.99
23.29
38
24.00
23.88
22.91
22.08
74
24.00
22.75
22.83
23.33
36
23.00
21.40
21.41
21.28
36
18
23.00
21.58
21.54
21.03
36
39
23.00
21.60
21.52
21.22
75
23.00
21.53
21.52
21.14
23.00
22.73
22.58
22.84
38
23.00
22.76
22.14
21.23
74
23.00
22.16
21.99
22.40
36
22.00
20.89
20.38
20.37
36
18
22.00
21.06
20.57
20.04
36
39
22.00
20.78
20.57
20.22
75
22.00
20.82
20.54
20.19
RB size
RB offset
Tune-up
Channel
Channel
Channel
37850CH
38000CH
38150CH
24.00
22.92
22.31
22.61
50
24.00
22.82
22.79
22.17
99
24.00
22.01
22.99
23.32
50
23.00
22.18
21.68
21.68
50
25
23.00
22.09
21.71
21.32
50
50
23.00
21.78
21.66
21.29
100
23.00
21.66
21.26
21.08
23.00
21.99
21.53
22.01
50
23.00
22.52
22.29
21.60
99
23.00
21.26
21.61
22.15
50
22.00
21.16
20.67
20.73
50
25
22.00
21.03
20.77
20.37
50
50
22.00
20.77
20.75
20.26
100
22.00
20.52
20.39
20.16
RB size
RB offset
Tune-up
Table 41: Conducted power measurement results of LTE Band XXXVIII
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Copyright © Huawei Technologies Co., Ltd
Page 106 of 219
7.1.28 Conducted power measurements of LTE Band XLI(Main Antenna)
Bandwidth
Modulation
QPSK
5MHz
16QAM
Bandwidth
Modulation
QPSK
10MHz
16QAM
Channel
Channel
Channel
40265CH
40740CH
41215CH
24.00
22.88
22.93
23.19
13
24.00
23.13
23.10
23.48
24
24.00
22.84
22.64
22.82
12
23.50
22.09
22.10
22.47
12
23.50
22.16
22.11
22.51
12
13
23.50
22.02
22.02
22.36
25
23.50
22.04
22.07
22.41
23.50
22.24
22.41
22.48
13
23.50
22.49
22.53
22.69
24
23.50
21.98
22.15
22.16
12
22.50
21.15
21.11
21.50
12
22.50
21.08
21.13
21.52
12
13
22.50
21.08
21.13
21.37
25
22.50
21.02
21.02
21.40
RB size
RB offset
Tune-up
Channel
Channel
Channel
40290CH
40740CH
41190CH
24.00
22.90
22.94
23.15
25
24.00
23.37
23.14
23.39
49
24.00
23.17
22.68
23.02
25
23.50
22.22
22.19
22.32
25
13
23.50
22.34
22.18
22.53
25
25
23.50
22.35
22.17
22.31
50
23.50
22.28
22.19
22.68
23.50
21.89
22.14
22.49
25
23.50
22.47
22.28
22.89
49
23.50
22.27
22.04
22.43
25
22.50
21.09
21.14
21.35
25
13
22.50
21.26
21.17
21.49
25
25
22.50
21.27
21.12
21.26
50
22.50
21.16
21.13
21.61
RB size
RB offset
Tune-up
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Page 107 of 219
Bandwidth
Modulation
QPSK
15MHz
16QAM
Bandwidth
Modulation
QPSK
20MHz
16QAM
Channel
Channel
Channel
40315CH
40740CH
41165CH
24.00
22.73
22.71
22.98
38
24.00
23.41
23.09
23.24
74
24.00
23.36
23.07
23.19
36
23.50
22.27
22.18
22.34
36
18
23.50
22.55
22.17
22.44
36
39
23.50
22.60
22.22
22.50
75
23.50
22.46
22.20
22.84
23.50
21.66
22.21
22.26
38
23.50
22.48
22.46
22.47
74
23.50
22.44
22.44
22.34
36
22.50
21.17
21.11
21.28
36
18
22.50
21.45
21.11
21.39
36
39
22.50
21.50
21.15
21.38
75
22.50
21.33
21.13
21.75
RB size
RB offset
Tune-up
Channel
Channel
Channel
40340CH
40740CH
41140CH
24.00
22.47
22.46
23.01
50
24.00
23.75
23.16
23.36
99
24.00
23.73
23.41
23.54
50
23.50
22.53
22.35
22.82
50
25
23.50
22.68
22.27
22.42
50
50
23.50
22.83
22.39
22.54
100
23.50
22.65
22.39
23.15
23.50
22.61
22.63
22.88
50
23.50
23.22
22.77
22.63
99
23.50
23.34
23.09
22.74
50
22.50
21.45
21.27
21.80
50
25
22.50
21.61
21.15
21.38
50
50
22.50
21.77
21.25
21.42
100
22.50
21.60
21.35
22.05
RB size
RB offset
Tune-up
Table 42: Conducted power measurement results of LTE Band XLI
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Page 108 of 219
7.1.29 Conducted power measurements of Downlink LTE CA
In this section, the following conducted power measurement results of downlink LTE carrier aggregation
are provided to quantify downlink only carrier aggregation SAR test exclusion per KDB 941225 D05A.
Uplink maximum output power is measured with downlink carrier aggregation active, using the channel
with highest measured maximum output power when downlink carrier aggregation is inactive, to confirm
that when downlink carrier aggregation is active uplink maximum output power remains within the
specified tune-up tolerance limits and not more than ¼ dB higher than the maximum output power
measured when downlink carrier aggregation inactive.
Power test equipment: R&S Radio Communication Tester CMW500 and Anritsu Radio Communication
Analyzer MT8821C were used.
A) The conducted power measurement results of downlink LTE CA Conducted Power are as below(Main
antenna):
Note: Testing is not required in bands or modes not intended/allowed for US operation.
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B) The conducted power measurement results of downlink LTE CA Conducted Power are as below
(Second antenna):
Note: Testing is not required in bands or modes not intended/allowed for US operation.
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Page 110 of 219
7.1.30 Conducted power measurements of WiFi 2.4G
Mode
Channel
Frequency
(MHz)
Data
Rate
(Mbps)
Tune-up
Average Power
(dBm)
15.89
2412
17.00
16.75
2437
17.00
16.69
11
2462
17.00
2412
16.50
Not Required
802.11g
2437
16.50
Not Required
11
2462
16.50
Not Required
2412
16.00
Not Required
802.11n
6.5
2437
16.00
Not Required
20M
11
2462
16.00
Not Required
2422
13.00
Not Required
802.11n
2437
13.5
13.00
Not Required
40M
2452
13.00
Not Required
Table 43: Conducted power measurement results of WiFi 2.4G(Full power level).
Note: 1) The Average conducted power of WiFi is measured with RMS detector.
802.11b
Mode
Channel
Frequency
(MHz)
Data Rate
(Mbps)
Tune-up
Average Power
(dBm)
SAR Test
(Yes/No)
Yes
Yes
Yes
No
No
No
No
No
No
No
No
No
SAR Test
(Yes/No)
2412
14.50
13.13
No
14.20
802.11b
2437
14.50
Yes
11
2462
14.50
14.00
No
2412
14.50
12.63
No
802.11g
2437
14.50
13.97
No
11
2462
14.50
13.93
No
2412
14.50
12.87
No
802.11n
6.5
2437
14.50
14.12
No
20M
11
2462
14.50
14.03
No
2422
13.00
Not Required
No
802.11n
2437
13.5
13.00
Not Required
No
40M
2452
13.00
Not Required
No
Table 44: Conducted power measurement results of WiFi 2.4G(2G&3G&4G antenna + WiFi
simultaneous transmission)
Note: 1) The Average conducted power of WiFi is measured with RMS detector.
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7.1.31 Conducted power measurements of WiFi 5G
Band
(GHz)
Tune-up
Average
Power (dBm)
SAR Test
(Yes/No)
13.00
Not Required
No
13.00
Not Required
No
13.00
Not Required
No
5240
13.00
Not Required
No
CH 36
5180
13.80
12.19
No
CH 40
5200
13.80
12.01
No
CH 44
5220
13.80
12.07
No
CH 48
5240
13.80
12.03
No
CH 38
5190
13.80
12.54
No
CH 46
5230
13.80
12.50
No
CH 36
5180
13.50
Not Required
No
CH 40
5200
13.50
Not Required
No
CH 44
5220
13.50
Not Required
No
CH 48
5240
13.50
Not Required
No
CH 38
5190
13.00
Not Required
No
CH 46
5230
13.00
Not Required
No
802.11ac
80M
CH 42
5210
29.3M
12.00
Not Required
No
Mode
Channel
Frequency
(MHz)
Data Rate
(Mbps)
Tune-up
Average
Power (dBm)
SAR Test
(Yes/No)
CH 52
CH 56
CH 60
CH 64
CH 52
CH 56
CH 60
CH 64
CH 54
CH 62
CH 52
CH 56
CH 60
CH 64
CH 54
CH 62
5260
5280
5300
5320
5260
5280
5300
5320
5270
5310
5260
5280
5300
5320
5270
5310
13.00
13.00
13.00
13.00
13.80
13.80
13.80
13.80
13.80
13.80
13.50
13.50
13.50
13.50
13.00
13.00
Not Required
Not Required
Not Required
Not Required
12.44
12.35
12.73
12.66
12.91
12.86
Not Required
Not Required
Not Required
Not Required
Not Required
Not Required
No
No
No
No
No
No
No
No
Yes
No
CH 58
5290
12.00
Not Required
No
Mode
802.11a
802.11n
20M
5.2G
802.11n
40M
802.11ac
20M
802.11ac
40M
Band
(GHz)
802.11a
802.11n
20M
5.3G
802.11n
40M
802.11ac
20M
802.11ac
40M
802.11ac
80M
Channel
Frequency
(MHz)
CH 36
5180
CH 40
5200
CH 44
5220
CH 48
Report No.: SYBH(Z-SAR)030052017-2
Data Rate
(Mbps)
6M
6.5M
13.5M
6.5M
13.5M
6M
6.5M
13.5M
6.5M
13.5M
29.3M
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No
No
No
No
No
No
Page 112 of 219
Band
(GHz)
Mode
802.11a
802.11n
20M
5.5G
802.11n
40M
802.11ac
20M
Channel
Frequency
(MHz)
CH 100
CH 104
CH 108
CH 112
CH 116
CH 120
CH 124
CH 128
CH 132
CH 136
CH 140
CH 144
CH 100
CH 104
CH 108
CH 112
CH 116
CH 120
CH 124
CH 128
CH 132
CH 136
CH 140
CH 144
CH 102
CH 110
CH 118
CH 126
CH 134
CH 142
CH 100
CH 104
CH 108
CH 112
CH 116
CH 120
CH 124
CH 128
CH 132
CH 136
CH 140
CH 144
5500
5520
5540
5560
5580
5600
5620
5640
5660
5680
5700
5720
5500
5520
5540
5560
5580
5600
5620
5640
5660
5680
5700
5720
5510
5550
5590
5630
5670
5710
5500
5520
5540
5560
5580
5600
5620
5640
5660
5680
5700
5720
Report No.: SYBH(Z-SAR)030052017-2
Data Rate
(Mbps)
6M
6.5M
13.5M
6.5M
Tune-up
Average
Power
(dBm)
SAR Test
(Yes/No)
12.50
12.50
12.50
12.50
12.50
12.50
12.50
12.50
12.50
12.50
12.50
12.50
13.80
13.80
13.80
13.80
13.80
13.80
13.80
13.80
13.80
13.80
13.80
13.80
13.80
13.80
13.80
13.80
13.80
13.80
13.50
13.50
13.50
13.50
13.50
13.50
13.50
13.50
13.50
13.50
13.50
13.50
Not Required
Not Required
Not Required
Not Required
Not Required
Not Required
Not Required
Not Required
Not Required
Not Required
Not Required
Not Required
12.34
12.41
12.72
12.42
12.36
12.75
12.56
12.45
12.34
12.32
12.45
12.61
12.87
12.91
12.94
12.85
12.84
12.81
11.99
12.09
11.97
11.97
12.01
12.28
12.02
12.05
12.07
11.93
12.01
12.03
No
No
No
No
No
No
No
No
No
No
No
No
No
No
Yes
No
No
Yes
No
No
No
No
No
No
Yes
Yes
Yes
Yes
Yes
Yes
No
No
No
No
No
Yes
No
No
No
No
No
No
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Band
(GHz)
Mode
802.11ac
40M
5.5G
802.11ac
80M
Band
(GHz)
Mode
802.11a
802.11n
20M
5.8G
802.11n
40M
802.11ac
20M
Channel
Frequency
(MHz)
CH 102
CH 110
CH 118
CH 126
CH 134
CH 142
CH 106
CH 122
CH 138
5510
5550
5590
5630
5670
5710
5530
5610
5690
Channel
Frequency
(MHz)
CH 149
CH 153
CH 157
CH 161
CH 165
CH 149
CH 153
CH 157
CH 161
CH 165
CH 151
CH 159
CH 149
CH 153
CH 157
CH 161
CH 165
CH 151
CH 159
5745
5765
5785
5805
5825
5745
5765
5785
5805
5825
5755
5795
5745
5765
5785
5805
5825
5755
5795
Data Rate
(Mbps)
13.5M
29.3M
Data Rate
(Mbps)
6M
6.5M
13.5M
6.5M
Tune-up
13.00
13.00
13.00
13.00
13.00
13.00
12.00
12.00
12.00
Average
Power
(dBm)
Not Required
Not Required
Not Required
Not Required
Not Required
Not Required
Not Required
Not Required
Not Required
No
No
No
No
No
No
No
No
No
Tune-up
Average
Power
(dBm)
SAR Test
(Yes/No)
13.00
13.00
13.00
13.00
13.00
13.80
13.80
13.80
13.80
13.80
13.80
13.80
13.50
13.50
13.50
13.50
13.50
13.00
13.00
Not Required
Not Required
Not Required
Not Required
Not Required
12.83
13.01
12.61
12.48
12.63
13.75
13.34
Not Required
Not Required
Not Required
Not Required
Not Required
Not Required
Not Required
No
No
No
No
No
No
No
No
No
No
Yes
No
No
No
No
No
No
No
No
802.11ac
13.5M
40M
802.11ac
CH 155
5775
29.3M
12.00
Not Required
80M
Table 45: Conducted power measurement results of WiFi 5G(Full power level).
Note: 1) The Average conducted power of WiFi is measured with RMS detector.
Report No.: SYBH(Z-SAR)030052017-2
SAR Test
(Yes/No)
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No
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Band
(GHz)
Mode
802.11a
802.11n
20M
5.2G
802.11n
40M
802.11ac
20M
802.11ac
40M
Band
(GHz)
Frequency
(MHz)
CH 36
5180
CH 40
5200
CH 44
5220
CH 48
Data Rate
(Mbps)
Tune-up
Average
Power (dBm)
SAR Test
(Yes/No)
11.50
9.77
No
11.50
9.99
No
11.50
9.77
No
5240
11.50
9.91
No
CH 36
5180
11.50
9.79
No
CH 40
5200
11.50
9.98
No
CH 44
5220
11.50
10.15
No
CH 48
5240
11.50
10.10
No
CH 38
5190
11.50
10.07
No
CH 46
5230
11.50
10.26
No
CH 36
5180
11.50
10.49
No
CH 40
5200
11.50
10.59
No
CH 44
5220
11.50
10.58
No
CH 48
5240
11.50
10.74
No
CH 38
5190
11.50
10.53
No
11.50
10.43
No
6M
6.5M
13.5M
6.5M
13.5M
CH 46
5230
802.11ac
80M
CH 42
5210
29.3M
11.50
10.70
No
Mode
Channel
Frequency
(MHz)
Data Rate
(Mbps)
Tune-up
Average
Power (dBm)
SAR Test
(Yes/No)
CH 52
CH 56
CH 60
CH 64
CH 52
CH 56
CH 60
CH 64
CH 54
CH 62
CH 52
CH 56
CH 60
CH 64
CH 54
CH 62
5260
5280
5300
5320
5260
5280
5300
5320
5270
5310
5260
5280
5300
5320
5270
5310
11.50
11.50
11.50
11.50
11.50
11.50
11.50
11.50
11.50
11.50
11.50
11.50
11.50
11.50
11.50
11.50
10.32
10.06
10.17
10.30
10.65
10.73
10.38
10.61
10.43
10.41
11.14
11.12
11.18
11.21
11.06
11.13
No
No
No
No
No
No
No
No
No
No
No
No
No
No
No
No
CH 58
5290
11.50
10.89
Yes
802.11a
802.11n
20M
5.3G
Channel
802.11n
40M
802.11ac
20M
802.11ac
40M
802.11ac
80M
Report No.: SYBH(Z-SAR)030052017-2
6M
6.5M
13.5M
6.5M
13.5M
29.3M
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Band
(GHz)
Mode
802.11a
802.11n
20M
5.5G
802.11n
40M
802.11ac
20M
Channel
Frequency
(MHz)
CH 100
CH 104
CH 108
CH 112
CH 116
CH 120
CH 124
CH 128
CH 132
CH 136
CH 140
CH 144
CH 100
CH 104
CH 108
CH 112
CH 116
CH 120
CH 124
CH 128
CH 132
CH 136
CH 140
CH 144
CH 102
CH 110
CH 118
CH 126
CH 134
CH 142
CH 100
CH 104
CH 108
CH 112
CH 116
CH 120
CH 124
CH 128
CH 132
CH 136
CH 140
CH 144
5500
5520
5540
5560
5580
5600
5620
5640
5660
5680
5700
5720
5500
5520
5540
5560
5580
5600
5620
5640
5660
5680
5700
5720
5510
5550
5590
5630
5670
5710
5500
5520
5540
5560
5580
5600
5620
5640
5660
5680
5700
5720
Report No.: SYBH(Z-SAR)030052017-2
Data Rate
(Mbps)
6M
6.5M
13.5M
6.5M
Tune-up
Average
Power
(dBm)
SAR Test
(Yes/No)
11.50
11.50
11.50
11.50
11.50
11.50
11.50
11.50
11.50
11.50
11.50
11.50
11.50
11.50
11.50
11.50
11.50
11.50
11.50
11.50
11.50
11.50
11.50
11.50
11.50
11.50
11.50
11.50
11.50
11.50
11.50
11.50
11.50
11.50
11.50
11.50
11.50
11.50
11.50
11.50
11.50
11.50
10.14
10.18
10.17
10.15
10.07
10.08
9.87
9.94
9.69
9.74
10.04
10.27
10.48
10.71
10.42
10.41
10.30
10.24
10.44
10.04
9.97
10.13
10.31
10.44
10.61
10.56
10.55
10.47
10.38
10.53
10.92
11.02
10.96
10.75
10.79
10.94
10.93
10.77
10.59
10.73
10.85
11.01
No
No
No
No
No
No
No
No
No
No
No
No
No
No
No
No
No
No
No
No
No
No
No
No
No
No
No
No
No
No
No
No
No
No
No
No
No
No
No
No
No
No
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Band
(GHz)
Mode
802.11ac
40M
5.5G
802.11ac
80M
Band
(GHz)
Mode
802.11a
802.11n
20M
5.8G
802.11n
40M
802.11ac
20M
Channel
Frequency
(MHz)
CH 102
CH 110
CH 118
CH 126
CH 134
CH 142
CH 106
CH 122
CH 138
5510
5550
5590
5630
5670
5710
5530
5610
5690
Channel
Frequency
(MHz)
CH 149
CH 153
CH 157
CH 161
CH 165
CH 149
CH 153
CH 157
CH 161
CH 165
CH 151
CH 159
CH 149
CH 153
CH 157
CH 161
CH 165
CH 151
CH 159
5745
5765
5785
5805
5825
5745
5765
5785
5805
5825
5755
5795
5745
5765
5785
5805
5825
5755
5795
Data Rate
(Mbps)
13.5M
29.3M
Data Rate
(Mbps)
6M
6.5M
13.5M
6.5M
Tune-up
11.50
11.50
11.50
11.50
11.50
11.50
11.50
11.50
11.50
Average
Power
(dBm)
10.83
10.78
11.10
11.06
10.78
10.93
11.06
10.83
10.85
SAR Test
(Yes/No)
No
No
No
No
No
No
Yes
No
No
Tune-up
Average
Power
(dBm)
SAR Test
(Yes/No)
11.50
11.50
11.50
11.50
11.50
11.50
11.50
11.50
11.50
11.50
11.50
11.50
11.50
11.50
11.50
11.50
11.50
11.50
11.50
10.73
10.55
10.41
10.06
9.83
10.92
10.76
10.53
10.48
10.35
10.96
10.56
11.36
11.10
10.89
10.87
10.91
11.48
11.16
No
No
No
No
No
No
No
No
No
No
No
No
No
No
No
No
No
No
No
802.11ac
13.5M
40M
802.11ac
11.22
CH 155
5775
29.3M
11.50
Yes
80M
Table 46: Conducted power measurement results of WiFi 5G(2G&3G&4G antenna + WiFi simultaneous
transmission)
Note: 1) The Average conducted power of WiFi is measured with RMS detector.
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7.1.32 Conducted power measurements of BT
The output power of BT antenna is as following:
Average Conducted Power (dBm)
BT 2450
Tune-up
0CH
39CH
78CH
DH5
11.0
8.55
9.46
7.73
2DH5
11.0
4.27
5.83
4.78
3DH5
11.0
3.85
5.7
4.71
BT 2450
Tune-up
BLE
11.0
Average Conducted Power (dBm)
0CH
19CH
39CH
4.03
5.11
2.95
Table 47: Conducted power measurement results of BT.
Note: The conducted power of BT is measured with RMS detector.
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7.2
SAR measurement Results
General Notes:
1) Per KDB447498 D01, all SAR measurement results are scaled to the maximum tune-up tolerance
limit to demonstrate SAR compliance.
2) Per KDB447498 D01, testing of other required channels within the operating mode of a frequency
band is not required when the reported 1-g or 10-g SAR for the mid-band or highest output power
channel is:
● ≤ 0.8W/kg for 1-g or 2.0W/kg for 10-g respectively, when the transmission band is ≤ 100MHz.
● ≤ 0.6 W/kg or 1.5 W/kg, for 1-g or 10-g respectively, when the transmission band is between 100 MHz
and 200 MHz.
● ≤ 0.4 W/kg or 1.0 W/kg, for 1-g or 10-g respectively, when the transmission band is ≥ 200 MHz.
When the maximum output power variation across the required test channels is > ½ dB, instead of the
middle channel, the highest output power channel must be used.
3) Per KDB865664 D01,for each frequency band, repeated SAR measurement is required only when the
measured SAR is ≥0.8W/Kg; if the deviation among the repeated measurement is ≤20%, and the
measured SAR <1.45W/Kg, only one repeated measurement is required.
4) Per KDB941225 D06, the DUT Dimension is bigger than 9 cm x 5 cm, so 10mm is chosen as the test
separation distance for Hotspot mode. When the antenna-to-edge distance is greater than 2.5cm, such
position does not need to be tested.
5) Per KDB648474 D04, SAR is evaluated without a headset connected to the device. When the
standalone reported body-worn SAR is ≤1.2 W/kg, no additional SAR evaluations using a headset are
required.
6) Per KDB865664 D02, SAR plot is only required for the highest measured SAR in each exposure
configuration, wireless mode and frequency band combination; Plots are also required when the
measured SAR is > 1.5 W/kg, or > 7.0 W/kg for occupational exposure. The published RF exposure KDB
procedures may require additional plots; for example, to support SAR to peak location separation ratio
test exclusion and/or volume scan post-processing(Refer to appendix B for detailed SAR plots).
7) Addtional SAR tests in simultaneous transmission fixed power reduction scenario are also tested in
some frequency bands and required test positions for the SAR worst case, which are only used to
ensure simultaneous transmission SAR test exclusion. The standalone SAR compliance still uses the
SAR results tested at the maximum output power level.
8) Per KDB 648474 D04, for handsets with additional batteries, the highest reported SAR for each
wireless technology, frequency band, operating mode and applicable exposure condition (head, bodyworn accessory, hotspot mode, etc.) must be repeated with the specific accessory attached. In addition,
for test cases where the measured SAR for a handset is greater than 1.2 W/kg, these tests should also
be repeated with the additional batteries.
9) Per KDB 648474 D04, Phones with built-in NFC functions do not require separate SAR testing and
can generally be tested according to the SAR measurement procedures normally required for the phone.
Influences of the hardware introduced by the built-in NFC functions are inherently considered through
testing of the other transmitters that require SAR.
GSM Notes:
1) Per KDB941225 D01, SAR test reduction for GPRS and EDGE modes is determined by the sourcebased time-averaged output power specified for production units, including tune-up tolerance. The data
mode with highest specified time-averaged output power should be tested for SAR compliance in the
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applicable exposure conditions. For modes with the same specified maximum output power and
tolerance, the higher number time-slot configuration should be tested.
2) Per KDB648474 D04, the device does not support DTM function. Body-worn accessory testing is
typically associated with voice operations. Therefore, GSM voice was evaluated for body-worn SAR.
UMTS Notes:
1) Per KDB941225 D01, when the maximum output power and tune-up tolerance specified for
production units in a Second mode is ≤ ¼ dB higher than the primary mode or when the highest reported
SAR of the primary mode is scaled by the ratio of specified maximum output power and tune-up
tolerance of Second to primary mode and the adjusted SAR is ≤ 1.2 W/kg, SAR measurement is not
required for the Second mode.
LTE Notes:
1) The LTE test configurations are determined according to KDB941225 D05. The general test
procedures used for SAR testing can be found in Section 6.5.
2) A-MPR was disabled for all SAR test by setting NS_01 on the base station simulator.SAR tests were
performed with the same number of RB and RB offsets transmitting on all TTI frames(maximum TTI)
3) According to KDB 941225 D05, for Time-Division Duplex (TDD) systems, SAR is tested using a fixed
periodic duty factor according to the highest transmission duty factor (63.33%) implemented for the
device and supported by the defined 3GPP LTE TDD configurations.
WiFi Notes:
Per KDB248227 D01:
1) When reported SAR for the initial test position is ≤ 0.4W/kg, no additional testing for the remaining test
position is required. Otherwise, SAR is evaluated at the subsequent highest peak SAR position until the
reported SAR result is ≤ 0.8W/kg or all test position are measured. For all positions/configurations tested
using the initial test position and subsequent test positions, when the reported SAR is > 0.8 W/kg, SAR
is measured for these test positions/configurations on the subsequent next highest measured output
power channel(s) until the reported SAR is ≤ 1.2 W/kg or all required channels are tested.
2) The highest SAR measured for the initial test position or initial test configuration should be used to
determine SAR test exclusion according to the sum of 1-g SAR and SAR peak to location ratio
provisions in KDB 447498. In addition, a test lab may also choose to perform standalone SAR
measurements for test positions and 802.11 configurations that are not required by the initial test
position or initial test configuration procedures and apply the results to determine simultaneous
transmission SAR test exclusion, according to sum of 1-g and SAR peak to location ratio requirements to
reduce the number of simultaneous transmission SAR measurements.
3) For WiFi 2.4G , SAR is measured for 2.4 GHz 802.11b DSSS using the initial test position procedure.
SAR is not required for the 2.4 GHz 802.11g/n OFDM conditions when KDB Publication 447498 SAR
test exclusion applies to the OFDM configuration or when the highest reported SAR for DSSS is adjusted
by the ratio of OFDM to DSSS specified maximum output power and the adjusted SAR is ≤ 1.2 W/kg.
4) WiFi 5G hotspot is only supported for U-NII-1 and U-NII-3, therefore U-NII-2A and U-NII-2C SAR were
not evaluated for hotspot condition.
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7.2.1
Test Position
of Head
SAR measurement Result of GSM850(Second Antenna)
Test
channel
/Freq.(MHz)
Test
Mode
SAR Value
(W/kg)
1-g
10-g
Power
Drift
(dB)
Conducted
Power
(dBm)
Tuneup
Power
(dBm)
Scaled
SAR1-g
(W/kg)
SAR
Plot
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
Left touch
190/836.6
GSM
0.752
0.400
-0.04
30.98
31.50
0.848
Left touch
128/824.2
GSM
0.620
0.332
-0.01
30.91
31.50
0.710
Left touch
251/848.8
GSM
0.761
0.410
-0.01
31.02
31.50
0.850
Left tilt
190/836.6
GSM
0.734
0.464
-0.19
30.98
31.50
0.827
Left tilt
128/824.2
GSM
0.496
0.253
0.03
30.91
31.50
0.568
Left tilt
251/848.8
GSM
0.713
0.367
-0.12
31.02
31.50
0.796
Right touch
Right touchRepeated
Right touch
190/836.6
GSM
1.220
0.632
-0.19
30.98
31.50
1.375
190/836.6
GSM
1.110
0.583
-0.03
30.98
31.50
1.251
128/824.2
GSM
0.992
0.516
0.03
30.91
31.50
1.136
Right touch
251/848.8
GSM
1.180
0.625
-0.07
31.02
31.50
1.318
Right tilt
190/836.6
GSM
1.020
0.512
0.11
30.98
31.50
1.150
Right tilt
128/824.2
GSM
0.811
0.404
-0.01
30.91
31.50
0.929
Right tilt
251/848.8
GSM
0.827
0.413
-0.02
31.02
31.50
0.924
31.50
1.240
30.98
31.50
1.251
30.98
31.50
1.138
Yes
Tested at the worst position with battery 2#
Right touch
190/836.6
GSM
1.100
0.579
-0.08
30.98
Tested at the worst position with battery 3#
Right touch
190/836.6
GSM
1.110
0.585
-0.01
Test data of MHA-L29 (new)
Right touch
190/836.6
GSM
1.010
0.547
-0.01
Table 48: Head SAR test results of GSM850
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Tuneup
Power
1-g
10-g
(dBm)
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
Front Side
190/836.6
GSM
0.127 0.076
0.04
30.98
31.50
Back Side
190/836.6
GSM
0.164 0.097
-0.01
30.98
31.50
Tested at the worst position with battery 2#
Back Side
190/836.6
GSM
0.149 0.093
-0.09
30.98
31.50
Tested at the worst position with battery 3#
Back Side
190/836.6
GSM
0.154 0.096
0.06
30.98
31.50
Test data of MHA-L29 (new)
Back Side
190/836.6
GSM
0.188 0.112
-0.08
30.98
31.50
Table 49: Body-Worn SAR test results of GSM850
Test Position
of Body-Worn
with 15mm
Test
channel
/Freq.(MHz)
Test
Mode
SAR Value
(W/kg)
Conducted
Power
(dBm)
Scaled
SAR1-g
(W/kg)
SAR
Plot
0.143
0.185
0.168
0.174
0.212
Yes
TuneScaled
Test
up
SAR1-g
Mode
Power
(W/kg)
1-g
10-g
(dBm)
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
GPRS
Front Side
190/836.6
0.433 0.248
0.08
28.45
29.50
0.551
3TS
GPRS
0.660
Back Side
190/836.6
0.518 0.291
0.00
28.45
29.50
3TS
GPRS
Left Side
190/836.6
0.235 0.159
-0.13
28.45
29.50
0.299
3TS
GPRS
Top Side
190/836.6
0.493 0.239
-0.03
28.45
29.50
0.628
3TS
Tested at the worst position with battery 2#
GPRS
Back Side
190/836.6
0.470 0.306
-0.06
28.45
29.50
0.599
3TS
Tested at the worst position with battery 3#
GPRS
Back Side
190/836.6
0.482 0.273
-0.06
28.45
29.50
0.614
3TS
Test data of MHA-L29 (new)
GPRS
Back Side
190/836.6
0.703 0.395
-0.07
28.45
29.50
0.895
3TS
GPRS
0.903
Back Side
128/824.2
0.696 0.391
-0.06
28.37
29.50
3TS
GPRS
0.710 0.399
Back Side
251/848.8
-0.12
28.52
29.50
0.890
3TS
Table 50: Hotspot SAR test results of GSM850
Note: Per KDB 648474 D04, Product Specific 10-g SAR test is not required for this frequency band
hotspot mode 1-g reported SAR < 1.2 W/kg.
Test Position
of Hotspot
with 10mm
Test
channel
/Freq.(MHz)
Report No.: SYBH(Z-SAR)030052017-2
SAR Value
(W/kg)
Power
Drift
(dB)
Power
Drift
(dB)
Conducted
Power
(dBm)
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SAR
Plot
Yes
since
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7.2.2
Test Position
of Head
SAR measurement Result of GSM1900(Second Antenna)
SAR Value
Test
Power Conducted
(W/kg)
Test
channel
Drift
Power
Mode
/Freq.(MHz)
(dB)
(dBm)
1-g
10-g
Tuneup
Power
(dBm)
Scaled
SAR1-g
(W/kg)
SAR
Plot
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
Left touch
661/1880
GSM
0.354
0.221
0.02
28.14
28.50
0.385
Left tilt
661/1880
GSM
0.336
0.202
-0.02
28.14
28.50
0.365
Right touch
661/1880
GSM
1.110
0.626
0.04
28.14
28.50
1.206
Right touch
Right touchRepeated
Right touch
512/1850.2
GSM
1.190
0.675
-0.08
28.43
28.50
1.209
512/1850.2
GSM
1.070
0.621
-0.03
28.43
28.50
1.087
810/1909.8
GSM
1.040
0.579
0.01
28.09
28.50
1.143
Right tilt
661/1880
GSM
0.737
0.397
-0.05
28.14
28.50
0.801
Right tilt
512/1850.2
GSM
0.793
0.424
0.01
28.43
28.50
0.806
Right tilt
810/1909.8
GSM
0.658
0.365
0.05
28.09
28.50
0.723
28.50
0.959
28.43
28.50
0.852
28.43
28.50
0.924
Yes
Tested at the worst position with battery 2#
Right touch
512/1850.2
GSM
0.944
0.536
-0.14
28.43
Tested at the worst position with battery 3#
Right touch
512/1850.2
GSM
0.838
0.486
-0.08
Test data of MHA-L29 (new)
Right touch
512/1850.2
GSM
0.909
0.504
0.09
Table 51: Head SAR test results of GSM1900
Report No.: SYBH(Z-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Page 123 of 219
Tuneup
Power
1-g
10-g
(dBm)
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
Front Side
661/1880
GSM
0.160 0.104
0.17
28.14
28.50
Back Side
661/1880
GSM
0.132 0.085
0.18
28.14
28.50
Tested at the worst position with battery 2#
Front Side
661/1880
GSM
0.141 0.091
0.06
28.14
28.50
Tested at the worst position with battery 3#
Front Side
661/1880
GSM
0.103 0.063
0.19
28.14
28.50
Test data of MHA-L29 (new)
Front Side
661/1880
GSM
0.070 0.045
0.18
28.14
28.50
Table 52: Body-Worn SAR test results of GSM1900
Test Position
of Body-Worn
with 15mm
Test
channel
/Freq.(MHz)
Test
Mode
SAR Value
(W/kg)
Conducted
Power
(dBm)
Scaled
SAR1-g
(W/kg)
SAR
Plot
0.174
0.143
0.153
0.112
0.076
Yes
TuneScaled
Test
up
SAR1-g
Mode
Power
(W/kg)
1-g
10-g
(dBm)
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
GPRS
Front Side
661/1880
0.318 0.170
0.05
26.14
27.50
0.435
2TS
GPRS
Back Side
661/1880
0.315 0.167
0.06
26.14
27.50
0.431
2TS
GPRS
Left Side
661/1880
0.378 0.222
0.02
26.14
27.50
0.517
2TS
GPRS
0.609
Top Side
661/1880
0.445 0.229
0.04
26.14
27.50
2TS
Tested at the worst position with battery 2#
GPRS
Top Side
661/1880
0.414 0.208
0.12
26.14
27.50
0.566
2TS
Tested at the worst position with battery 3#
GPRS
Top Side
661/1880
0.440 0.226
0.16
26.14
27.50
0.602
2TS
Test data of MHA-L29 (new)
GPRS
0.261
Top Side
661/1880
0.191 0.100
-0.09
26.14
27.50
2TS
Table 53: Hotspot SAR test results of GSM1900
Note: Per KDB 648474 D04, Product Specific 10-g SAR test is not required for this frequency band
hotspot mode 1-g reported SAR < 1.2 W/kg.
Test Position
of Hotspot
with 10mm
Test
channel
/Freq.(MHz)
Report No.: SYBH(Z-SAR)030052017-2
SAR Value
(W/kg)
Power
Drift
(dB)
Power
Drift
(dB)
Conducted
Power
(dBm)
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SAR
Plot
Yes
since
Page 124 of 219
7.2.3 SAR measurement Result of UMTS Band II(Second Antenna)
Test Position
of Head
Test
channel
/Freq.(MHz)
Test
Mode
SAR Value
(W/kg)
1-g
10-g
Power
Drift
(dB)
Conducted
Power
(dBm)
Tuneup
Power
(dBm)
Scaled
SAR1-g
(W/kg)
SAR
Plot
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
Left touch
9400/1880
RMC
0.475
0.357
-0.14
17.85
18.50
0.552
Left tilt
9400/1880
RMC
0.307
0.190
0.15
17.85
18.50
0.357
Right touch
9400/1880
RMC
1.020
0.572
0.02
17.85
18.50
1.185
Right touch
9262/1852.4
RMC
0.970
0.548
0.01
17.75
18.50
1.153
Right touch
Right touchRepeated
Right tilt
9538/1907.6
RMC
1.130
0.627
0.05
17.72
18.50
1.352
9538/1907.6
RMC
1.100
0.611
-0.09
17.72
18.50
1.316
9400/1880
RMC
0.775
0.424
0.01
17.85
18.50
0.900
Right tilt
9262/1852.4
RMC
0.742
0.402
0.05
17.75
18.50
0.882
Right tilt
9538/1907.6
RMC
0.809
0.444
0.03
17.72
18.50
0.968
18.50
1.149
17.72
18.50
0.994
17.72
18.50
0.814
Yes
Tested at the worst position with battery 2#
Right touch
9538/1907.6
RMC
0.960
0.527
0.03
17.72
Tested at the worst position with battery 3#
Right touch
9538/1907.6
RMC
0.831
0.459
0.01
Test data of MHA-L29 (new)
Right touch
9538/1907.6
RMC
0.680
0.367
-0.11
Table 54: Head SAR test results of UMTS Band II
Report No.: SYBH(Z-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Page 125 of 219
Tuneup
Power
1-g
10-g
(dBm)
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
Front Side
9400/1880
RMC
0.125 0.067
0.11
17.85
18.50
Back Side
9400/1880
RMC
0.143 0.078
0.00
17.85
18.50
Tested at the worst position with battery 2#
Back Side
9400/1880
RMC
0.131 0.077
0.04
17.85
18.50
Tested at the worst position with battery 3#
Back Side
9400/1880
RMC
0.130 0.077
-0.17
17.85
18.50
Test data of MHA-L29 (new)
Back Side
9400/1880
RMC
0.056 0.036
0.12
17.85
18.50
Table 55: Body-Worn SAR test results of UMTS Band II
Test Position
of Body-Worn
with 15mm
Test
channel /
Freq.(MHz)
Test
Mode
SAR Value
(W/kg)
Conducted
Power
(dBm)
Scaled
SAR1-g
(W/kg)
SAR
Plot
0.145
0.166
0.152
0.151
0.065
Yes
TuneScaled
Test
up
SAR1-g
Mode
Power
(W/kg)
1-g
10-g
(dBm)
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
Front Side
9400/1880
RMC
0.254 0.134
0.06
17.85
18.50
0.295
Back Side
9400/1880
RMC
0.254 0.134
-0.10
17.85
18.50
0.295
Left Side
9400/1880
RMC
0.290 0.171
0.12
17.85
18.50
0.337
0.511
Top Side
9400/1880
RMC
0.440 0.223
0.03
17.85
18.50
Tested at the worst position with battery 2#
Top Side
9400/1880
RMC
0.405 0.206
0.11
17.85
18.50
0.470
Tested at the worst position with battery 3#
Top Side
9400/1880
RMC
0.405 0.207
-0.03
17.85
18.50
0.470
Test data of MHA-L29 (new)
0.149
Top Side
9400/1880
RMC
0.128 0.068
-0.13
17.85
18.50
Table 56: Hotspot SAR test results of UMTS Band II
Note: Per KDB 648474 D04, Product Specific 10-g SAR test is not required for this frequency band
hotspot mode 1-g reported SAR < 1.2 W/kg.
Test Position
of Hotspot
with 10mm
Test
channel /
Freq.(MHz)
Report No.: SYBH(Z-SAR)030052017-2
SAR Value
(W/kg)
Power
Drift
(dB)
Power
Drift
(dB)
Conducted
Power
(dBm)
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SAR
Plot
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since
Page 126 of 219
7.2.4
Test Position
of Head
SAR measurement Result of UMTS Band IV(Second Antenna)
Test
channel /
Freq.(MHz)
Test
Mode
SAR Value
(W/kg)
1-g
10-g
Power
Drift
(dB)
Conducted
Power
(dBm)
Tuneup
Power
(dBm)
Scaled
SAR1-g
(W/kg)
SAR
Plot
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
Left touch
1413/1732.6
RMC
0.383
0.229
-0.07
19.21
19.50
0.409
Left tilt
1413/1732.6
RMC
0.457
0.240
0.06
19.21
19.50
0.489
Right touch
1413/1732.6
RMC
1.080
0.623
0.15
19.21
19.50
1.155
Right touch
1312/1712.4
RMC
1.100
0.615
0.13
19.40
19.50
1.126
Right touch
Right touchRepeated
Right tilt
1513/1752.6
RMC
1.230
0.692
0.02
19.23
19.50
1.309
1513/1752.6
RMC
1.270
0.698
-0.12
19.23
19.50
1.351
1413/1732.6
RMC
1.040
0.523
0.03
19.21
19.50
1.112
Right tilt
1312/1712.4
RMC
1.010
0.489
0.03
19.40
19.50
1.034
Right tilt
1513/1752.6
RMC
1.060
0.529
0.03
19.23
19.50
1.128
19.50
1.096
19.23
19.50
1.234
19.23
19.50
1.107
Yes
Tested at the worst position with battery 2#
Right touch
1513/1752.6
RMC
1.030
0.579
0.11
19.23
Tested at the worst position with battery 3#
Right touch
1513/1752.6
RMC
1.160
0.656
0.03
Test data of MHA-L29 (new)
Right touch
1513/1752.6
RMC
1.040
0.590
0.04
Table 57: Head SAR test results of UMTS Band IV
Report No.: SYBH(Z-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Page 127 of 219
Tuneup
Power
1-g
10-g
(dBm)
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
Front Side
1413/1732.6 RMC
0.101 0.058
0.11
19.21
19.50
Back Side
1413/1732.6 RMC
0.092 0.053
0.14
19.21
19.50
Tested at the worst position with battery 2#
Front Side
1413/1732.6 RMC
0.100 0.058
0.15
19.21
19.50
Tested at the worst position with battery 3#
Front Side
1413/1732.6 RMC
0.084 0.048
0.11
19.21
19.50
Test data of MHA-L29 (new)
Front Side
1413/1732.6 RMC
0.081 0.046
-0.19
19.21
19.50
Table 58: Body-Worn SAR test results of UMTS Band IV
Test Position
of Body-Worn
with 15mm
Test
channel /
Freq.(MHz)
Test
Mode
SAR Value
(W/kg)
Conducted
Power
(dBm)
Scaled
SAR1-g
(W/kg)
SAR
Plot
0.108
0.098
0.107
0.090
0.087
Yes
TuneScaled
Test
up
SAR1-g
Mode
Power
(W/kg)
1-g
10-g
(dBm)
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
Front Side
1413/1732.6 RMC
0.232 0.126
0.14
19.21
19.50
0.248
Back Side
1413/1732.6 RMC
0.203 0.110
0.14
19.21
19.50
0.217
Left Side
1413/1732.6 RMC
0.219 0.132
0.00
19.21
19.50
0.234
0.320
Top Side
1413/1732.6 RMC
0.299 0.158
0.19
19.21
19.50
Tested at the worst position with battery 2#
Top Side
1413/1732.6 RMC
0.285 0.152
0.11
19.21
19.50
0.305
Tested at the worst position with battery 3#
Top Side
1413/1732.6 RMC
0.290 0.155
0.08
19.21
19.50
0.310
Test data of MHA-L29 (new)
0.220
Top Side
1413/1732.6 RMC
0.206 0.110
-0.09
19.21
19.50
Table 59: Hotspot SAR test results of UMTS Band IV
Note: Per KDB 648474 D04, Product Specific 10-g SAR test is not required for this frequency band
hotspot mode 1-g reported SAR < 1.2 W/kg.
Test Position
of Hotspot
with 10mm
Test
channel /
Freq.(MHz)
Report No.: SYBH(Z-SAR)030052017-2
SAR Value
(W/kg)
Power
Drift
(dB)
Power
Drift
(dB)
Conducted
Power
(dBm)
Huawei Proprietary and Confidential
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SAR
Plot
Yes
since
Page 128 of 219
7.2.5
Test Position
of Head
SAR measurement Result of UMTS Band V(Second Antenna)
Test
channel /
Freq.(MHz)
Test
Mode
SAR Value
(W/kg)
1-g
10-g
Power
Drift
(dB)
Conducted
Power
(dBm)
Tuneup
Power
(dBm)
Scaled
SAR1-g
(W/kg)
SAR
Plot
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
Left touch
4182/836.4
RMC
0.617
0.331
-0.08
20.34
21.50
0.806
Left touch
4132/826.4
RMC
0.606
0.325
0.03
20.31
21.50
0.797
Left touch
4233/846.6
RMC
0.602
0.323
0.01
20.22
21.50
0.808
Left tilt
4182/836.4
RMC
0.537
0.276
0.05
20.34
21.50
0.701
Right touch
4182/836.4
RMC
0.910
0.464
-0.14
20.34
21.50
1.189
Right touch
Right touchRepeated
Right touch
4132/826.4
RMC
0.945
0.481
-0.07
20.31
21.50
1.243
4132/826.4
RMC
0.977
0.496
-0.01
20.31
21.50
1.285
4233/846.6
RMC
0.798
0.417
-0.12
20.22
21.50
1.072
Right tilt
4182/836.4
RMC
0.722
0.363
-0.01
20.34
21.50
0.943
Right tilt
4132/826.4
RMC
0.734
0.371
0.04
20.31
21.50
0.965
Right tilt
4233/846.6
RMC
0.698
0.351
0.04
20.22
21.50
0.937
21.50
1.177
20.31
21.50
1.232
20.31
21.50
1.084
Yes
Tested at the worst position with battery 2#
Right touch
4132/826.4
RMC
0.895
0.463
-0.02
20.31
Tested at the worst position with battery 3#
Right touch
4132/826.4
RMC
0.937
0.481
-0.01
Test data of MHA-L29 (new)
Right touch
4132/826.4
RMC
0.824
0.427
0.00
Table 60: Head SAR test results of UMTS Band V
Report No.: SYBH(Z-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Page 129 of 219
Tuneup
Power
1-g
10-g
(dBm)
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
Front Side
4182/836.4
RMC
0.110 0.075
-0.11
20.34
21.50
Back Side
4182/836.4
RMC
0.131 0.094
-0.02
20.34
21.50
Tested at the worst position with battery 2#
Back Side
4182/836.4
RMC
0.114 0.079
-0.07
20.34
21.50
Tested at the worst position with battery 3#
Back Side
4182/836.4
RMC
0.114 0.079
-0.03
20.34
21.50
Test data of MHA-L29 (new)
Back Side
4182/836.4
RMC
0.135 0.081
-0.05
20.34
21.50
Table 61: Body-Worn SAR test results of UMTS Band V
Test Position
of Body-Worn
with 15mm
Test
channel /
Freq.(MHz)
Test
Mode
SAR Value
(W/kg)
Conducted
Power
(dBm)
Scaled
SAR1-g
(W/kg)
SAR
Plot
0.144
0.171
0.149
0.149
0.176
Yes
TuneScaled
Test
up
SAR1-g
Mode
Power
(W/kg)
1-g
10-g
(dBm)
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
Front Side
4182/836.4
RMC
0.242 0.138
0.08
20.34
21.50
0.316
Back Side
4182/836.4
RMC
0.297 0.165
-0.05
20.34
21.50
0.388
Left Side
4182/836.4
RMC
0.224 0.150
-0.13
20.34
21.50
0.293
Top Side
4182/836.4
RMC
0.276 0.134
0.08
20.34
21.50
0.361
Tested at the worst position with battery 2#
0.398
Back Side
4182/836.4
RMC
0.305 0.169
-0.14
20.34
21.50
Tested at the worst position with battery 3#
Back Side
4182/836.4
RMC
0.254 0.143
-0.01
20.34
21.50
0.332
Test data of MHA-L29 (new)
0.394
Back Side
4182/836.4
RMC
0.302 0.171
0.04
20.34
21.50
Table 62: Hotspot SAR test results of UMTS Band V
Note: Per KDB 648474 D04, Product Specific 10-g SAR test is not required for this frequency band
hotspot mode 1-g reported SAR < 1.2 W/kg.
Test Position
of Hotspot
with 10mm
Test
channel /
Freq.(MHz)
Report No.: SYBH(Z-SAR)030052017-2
SAR Value
(W/kg)
Power
Drift
(dB)
Power
Drift
(dB)
Conducted
Power
(dBm)
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
SAR
Plot
Yes
since
Page 130 of 219
7.2.6 SAR measurement Result of LTE Band II(Second Antenna)
Test
Position of
Head
Left touch
Left tilt
Right touch
Right touchRepeated
Right touch
Right touch
Right tilt
Right tilt
Right tilt
Left touch
Left tilt
Right touch
Right touch
Right touch
Right tilt
Right tilt
Right tilt
Right touch
Right tilt
SAR Value
Test
Power Conducted Tune-up
(W/kg)
channel /
Test Mode
Drift
Power
Power
Freq.(MHz)
(dB)
(dBm)
(dBm)
1-g
10-g
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
1RB
20M QPSK
18900/1880
0.434 0.270
0.08
17.95
18.50
1RB#50
20M QPSK
18900/1880
0.363 0.203
-0.02
17.95
18.50
1RB#50
20M QPSK
18900/1880
1.170 0.653
-0.01
17.95
18.50
1RB#50
20M QPSK
18900/1880
1.210 0.667
-0.01
17.95
18.50
1RB#50
20M QPSK
18700/1860
0.740 0.420
0.01
17.52
18.50
1RB#50
20M QPSK
19100/1900
0.718 0.400
0.06
17.53
18.50
1RB#50
20M QPSK
18900/1880
0.869 0.462
0.12
17.95
18.50
1RB#50
20M QPSK
18700/1860
0.560 0.295
0.07
17.52
18.50
1RB#50
20M QPSK
19100/1900
0.562 0.300
0.06
17.53
18.50
1RB#50
50%RB
20M QPSK
18900/1880
0.322 0.199
0.03
16.87
18.00
50%RB#25
20M QPSK
18900/1880
0.271 0.151
0.01
16.87
18.00
50%RB#25
20M QPSK
18900/1880
0.844 0.478
0.01
16.87
18.00
50%RB#25
20M QPSK
18700/1860
0.560 0.316
0.01
16.62
18.00
50%RB#25
20M QPSK
19100/1900
0.877 0.495
0.05
16.41
18.00
50%RB#25
20M QPSK
18900/1880
0.672 0.353
-0.04
16.87
18.00
50%RB#25
20M QPSK
18700/1860
0.428 0.226
0.07
16.62
18.00
50%RB#25
20M QPSK
19100/1900
0.697 0.398
-0.03
16.41
18.00
50%RB#25
100%RB
20M QPSK
18900/1880
0.784 0.443
0.03
16.55
18.00
100%RB#0
20M QPSK
18900/1880
0.623 0.358
-0.06
16.55
18.00
100%RB#0
Report No.: SYBH(Z-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Scaled
SAR1-g
(W/kg)
SAR
Plot
0.493
0.412
1.328
1.373
0.927
0.898
0.986
0.702
0.703
0.418
0.352
1.095
0.769
1.265
0.872
0.588
1.005
1.095
0.870
Page 131 of 219
Tested at the worst position with battery 2#
20M QPSK
Right touch 18900/1880
1.100 0.612
0.04
17.95
1RB#50
Tested at the worst position with battery 3#
20M QPSK
Right touch 18900/1880
0.934 0.517
0.07
17.95
1RB#50
Test data of MHA-L29 (new)
20M QPSK
Right touch 18900/1880
0.590 0.324
0.04
17.95
1RB#50
Table 63: Head SAR test results of LTE Band II
Test
Position of
Body-Worn
with 15mm
Test
channel /
Freq.(MHz)
Test Mode
SAR Value
(W/kg)
1-g
10-g
Power
Drift
(dB)
Conducted
Power
(dBm)
18.50
1.249
18.50
1.060
18.50
0.670
Yes
Tune-up
Power
(dBm)
Scaled
SAR1-g
(W/kg)
SAR
Plot
0.126
0.114
0.103
0.093
0.125
0.125
0.099
Yes
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
1RB
20M QPSK
Front Side 18900/1880
0.111 0.072
-0.07
17.95
18.50
1RB#50
20M QPSK
Back Side
18900/1880
0.100 0.065
0.19
17.95
18.50
1RB#50
50%RB
20M QPSK
Front Side 18900/1880
0.080 0.049
0.19
16.87
18.00
50%RB#25
20M QPSK
Back Side
18900/1880
0.072 0.044
-0.12
16.87
18.00
50%RB#25
Tested at the worst position with battery 2#
20M QPSK
Front Side 18900/1880
0.110 0.071
0.07
17.95
18.50
1RB#50
Tested at the worst position with battery 3#
20M QPSK
Front Side 18900/1880
0.110 0.071
0.04
17.95
18.50
1RB#50
Test data of MHA-L29 (new)
20M QPSK
Front Side 18900/1880
0.087 0.055
0.12
17.95
18.50
1RB#50
Table 64: Body-Worn SAR test results of LTE Band II
Report No.: SYBH(Z-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Page 132 of 219
Test
Position of
Hotspot with
10mm
TuneScaled
up
SAR
Test Mode
SAR1-g
Power
Plot
(W/kg)
1-g
10-g
(dBm)
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
1RB
20M QPSK
Front Side
18900/1880
0.214 0.115
0.11
17.95
18.50
0.243
1RB#50
20M QPSK
Back Side
18900/1880
0.203 0.108
-0.15
17.95
18.50
0.230
1RB#50
20M QPSK
Left Side
18900/1880
0.228 0.135
-0.19
17.95
18.50
0.259
1RB#50
20M QPSK
0.350
Top Side
18900/1880
0.308 0.159
-0.16
17.95
18.50
1RB#50
50%RB
20M QPSK
Front Side
18900/1880
0.136 0.081
0.15
16.87
18.00
0.176
50%RB#25
20M QPSK
Back Side
18900/1880
0.150 0.085
-0.04
16.87
18.00
0.195
50%RB#25
20M QPSK
Left Side
18900/1880
0.170 0.100
0.00
16.87
18.00
0.221
50%RB#25
20M QPSK
Top Side
18900/1880
0.225 0.109
-0.17
16.87
18.00
0.292
50%RB#25
Tested at the worst position with battery 2#
20M QPSK
Top Side
18900/1880
0.306 0.159
0.05
17.95
18.50
0.347
1RB#50
Tested at the worst position with battery 3#
20M QPSK
Top Side
18900/1880
0.265 0.140
0.11
17.95
18.50
0.301
1RB#50
Test data of MHA-L29 (new)
20M QPSK
0.274
Top Side
18900/1880
0.241 0.126
-0.13
17.95
18.50
Yes
1RB#50
Table 65: Hotspot SAR test results of LTE Band II
Note: Per KDB 648474 D04, Product Specific 10-g SAR test is not required for this frequency band since
hotspot mode 1-g reported SAR < 1.2 W/kg.
Test
channel /
Freq.(MHz)
Report No.: SYBH(Z-SAR)030052017-2
SAR Value
(W/kg)
Power
Drift
(dB)
Conducted
Power
(dBm)
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Page 133 of 219
7.2.7
Test
Position of
Head
Left touch
Left tilt
Right touch
Right touch
SAR measurement Result of LTE Band IV(Second Antenna)
SAR Value
Test
Power Conducte Tune-up
(W/kg)
channel /
Test Mode
Drift
d Power
Power
Freq.(MHz)
(dB)
(dBm)
(dBm)
1-g
10-g
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
1RB
20M QPSK
20175/1732.5
0.245 0.154
-0.02
18.28
19.30
1RB#0
20M QPSK
20175/1732.5
0.311 0.166
-0.04
18.28
19.30
1RB#0
20M QPSK
20175/1732.5
0.734 0.426
-0.12
18.28
19.30
1RB#0
20M QPSK
20050/1720
0.996 0.575
-0.14
18.18
19.30
1RB#50
Right
touchrepeated
20050/1720
Right touch
20300/1745
Right tilt
20175/1732.5
20M QPSK
1RB#50
20M QPSK
1RB#99
20M QPSK
1RB#0
Scaled
SAR1-g
(W/kg)
SAR
Plot
0.310
0.393
0.928
1.289
Yes
0.971
0.560
-0.10
18.18
19.30
1.257
0.814
0.469
-0.13
17.52
19.30
1.226
0.566
0.290
-0.09
18.28
19.30
0.716
50%RB
Left touch
20175/1732.5
Left tilt
20175/1732.5
Right touch
20175/1732.5
Right tilt
20175/1732.5
20M QPSK
50%RB#0
20M QPSK
50%RB#0
20M QPSK
50%RB#0
20M QPSK
50%RB#0
0.202
0.127
0.01
18.37
19.20
0.245
0.239
0.141
0.17
18.37
19.20
0.289
0.562
0.323
-0.02
18.37
19.20
0.680
0.474
0.243
-0.01
18.37
19.20
0.574
19.20
0.940
19.30
1.218
100%RB
20M QPSK
0.750 0.432
0.00
18.22
100%RB#0
Tested at the worst position with battery 2#
20M QPSK
Right touch
20050/1720
0.941 0.543
-0.10
18.18
1RB#50
Table 66: Head SAR test results of LTE Band IV
Right touch
20050/1720
Report No.: SYBH(Z-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Page 134 of 219
Test
Position of
Body-Worn
with 15mm
Test
channel /
Freq.(MHz)
Test Mode
SAR Value
(W/kg)
1-g
10-g
Power
Drift
(dB)
Conducte
d Power
(dBm)
Tune-up
Power
(dBm)
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
1RB
20M QPSK
Front Side
20175/1732.5
0.097 0.056
0.15
18.28
19.30
1RB#0
20M QPSK
Back Side
20175/1732.5
0.086 0.052
-0.05
18.28
19.30
1RB#0
50%RB
20M QPSK
Front Side
20175/1732.5
0.054 0.030
0.13
18.37
19.20
50%RB#0
20M QPSK
Back Side
20175/1732.5
0.047 0.028
-0.05
18.37
19.20
50%RB#0
Tested at the worst position with battery 2#
20M QPSK
Front Side
20175/1732.5
0.103 0.059
0.17
18.28
19.30
1RB#0
Table 67: Body-Worn SAR test results of LTE Band IV
Test
Position of
Hotspot
with 10mm
SAR
Plot
0.123
0.109
0.065
0.057
0.130
Yes
TuneScaled
up
SAR
Test Mode
SAR1-g
Power
Plot
(W/kg)
1-g
10-g
(dBm)
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
1RB
20M QPSK
Front Side
20175/1732.5
0.203 0.110
0.05
18.28
19.30
0.257
1RB#0
20M QPSK
Back Side
20175/1732.5
0.178 0.098
0.10
18.28
19.30
0.225
1RB#0
20M QPSK
Left Side
20175/1732.5
0.167 0.095
0.02
18.28
19.30
0.211
1RB#0
20M QPSK
0.397
Top Side
20175/1732.5
0.314 0.164
-0.05
18.28
19.30
Yes
1RB#0
50%RB
20M QPSK
Front Side
20175/1732.5
0.106 0.058
-0.07
18.37
19.20
0.128
50%RB#0
20M QPSK
Back Side
20175/1732.5
0.098 0.054
-0.19
18.37
19.20
0.118
50%RB#0
20M QPSK
Left Side
20175/1732.5
0.094 0.056
0.19
18.37
19.20
0.114
50%RB#0
20M QPSK
Top Side
20175/1732.5
0.168 0.087
0.07
18.37
19.20
0.203
50%RB#0
Tested at the worst position with battery 2#
20M QPSK
Top Side
20175/1732.5
0.289 0.153
0.06
18.28
19.30
0.366
1RB#0
Table 68: Hotspot SAR test results of LTE Band IV
Note: Per KDB 648474 D04, Product Specific 10-g SAR test is not required for this frequency band since
hotspot mode 1-g reported SAR < 1.2 W/kg.
Test channel /
Freq.(MHz)
Report No.: SYBH(Z-SAR)030052017-2
SAR Value
(W/kg)
Scaled
SAR1-g
(W/kg)
Power
Drift
(dB)
Conducted
Power
(dBm)
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Page 135 of 219
7.2.8
Test
Position of
Head
Left touch
Left touch
Left touch
Left tilt
Right touch
Right touch
-Repeated
Right touch
Right touch
Right tilt
Right tilt
Right tilt
Left touch
Left tilt
Right touch
Right touch
Right touch
Right tilt
Left touch
Right touch
Right tilt
SAR measurement Result of LTE Band V(Second Antenna)
SAR Value
Test
Power Conducted Tune-up
(W/kg)
channel /
Test Mode
Drift
Power
Power
Freq.(MHz)
(dB)
(dBm)
(dBm)
1-g
10-g
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
1RB
10M QPSK
20600/844
0.841 0.447
0.19
21.95
22.00
1RB#25
10M QPSK
20450/829
0.690 0.367
0.10
21.88
22.00
1RB#25
10M QPSK
20525/836.5
0.682 0.436
-0.11
21.55
22.00
1RB#25
10M QPSK
20600/844
0.594 0.304
-0.11
21.95
22.00
1RB#25
10M QPSK
20600/844
1.190 0.624
-0.16
21.95
22.00
1RB#25
10M QPSK
20600/844
1.000 0.533
-0.02
21.95
22.00
1RB#25
10M QPSK
20450/829
1.100 0.576
0.03
21.88
22.00
1RB#25
10M QPSK
20525/836.5
1.170 0.616
-0.04
21.55
22.00
1RB#25
10M QPSK
20600/844
0.975 0.471
0.18
21.95
22.00
1RB#25
10M QPSK
20450/829
0.936 0.451
0.00
21.88
22.00
1RB#25
10M QPSK
20525/836.5
0.951 0.460
0.07
21.55
22.00
1RB#25
50%RB
10M QPSK
20450/829
0.641 0.411
0.11
20.80
21.50
50%RB#13
10M QPSK
20450/829
0.574 0.353
0.04
20.80
21.50
50%RB#13
10M QPSK
20450/829
0.861 0.443
0.16
20.80
21.50
50%RB#13
10M QPSK
20525/836.5
0.869 0.449
0.01
20.49
21.50
50%RB#0
10M QPSK
20600/844
0.799 0.415
0.02
20.72
21.50
50%RB#13
10M QPSK
20450/829
0.734 0.362
0.05
20.80
21.50
50%RB#13
100%RB
10M QPSK
20600/844
0.583 0.359
0.04
20.64
21.50
100%RB#0
10M QPSK
20600/844
0.842 0.436
0.01
20.64
21.50
100%RB#0
10M QPSK
20600/844
0.737 0.365
0.11
20.64
21.50
100%RB#0
Report No.: SYBH(Z-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Scaled
SAR1-g
(W/kg)
SAR
Plot
0.851
0.709
0.756
0.601
1.204
1.012
1.131
1.298
0.986
0.962
1.055
0.753
0.674
1.012
1.097
0.956
0.862
0.711
1.026
0.898
Page 136 of 219
Tested at the worst position with battery 2#
10M QPSK
Right touch
20600/844
1.060 0.558
-0.02
21.95
1RB#25
Tested at the worst position with battery 3#
10M QPSK
Right touch
20600/844
1.080 0.564
0.03
21.95
1RB#25
Test data of MHA-L29 (new)
10M QPSK
Right touch
20600/844
1.010 0.538
-0.12
21.95
1RB#25
Table 69: Head SAR test results of LTE Band V
Test
Position of
Body-Worn
with 15mm
Test
channel /
Freq.(MHz)
Test Mode
SAR Value
(W/kg)
1-g
10-g
Power
Drift
(dB)
Conducted
Power
(dBm)
22.00
1.072
22.00
1.093
22.00
1.022
Yes
Tune-up
Power
(dBm)
Scaled
SAR1-g
(W/kg)
SAR
Plot
0.208
0.227
0.145
0.146
0.214
0.202
0.190
Yes
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
1RB
10M QPSK
Front Side
20600/844
0.206 0.122
-0.02
21.95
22.00
1RB#25
10M QPSK
Back Side
20600/844
0.224 0.132
-0.04
21.95
22.00
1RB#25
50%RB
10M QPSK
Front Side
20450/829
0.123 0.075
0.06
20.80
21.50
50%RB#13
10M QPSK
Back Side
20450/829
0.124 0.084
0.01
20.80
21.50
50%RB#13
Tested at the worst position with battery 2#
10M QPSK
Back Side
20600/844
0.212 0.151
-0.04
21.95
22.00
1RB#25
Tested at the worst position with battery 3#
10M QPSK
Back Side
20600/844
0.200 0.119
0.01
21.95
22.00
1RB#25
Test data of MHA-L29 (new)
10M QPSK
Back Side
20600/844
0.188 0.113
-0.03
21.95
22.00
1RB#25
Table 70: Body-Worn SAR test results of LTE Band V
Report No.: SYBH(Z-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Page 137 of 219
Test
Position of
Hotspot
with 10mm
TuneScaled
up
SAR
Test Mode
SAR1-g
Power
Plot
(W/kg)
1-g
10-g
(dBm)
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
1RB
10M QPSK
Front Side
20600/844
0.400 0.224
-0.14
21.95
22.00
0.405
1RB#25
10M QPSK
Back Side
20600/844
0.433 0.244
-0.07
21.95
22.00
0.438
1RB#25
10M QPSK
Left Side
20600/844
0.351 0.236
-0.12
21.95
22.00
0.355
1RB#25
10M QPSK
0.448
Top Side
20600/844
0.443 0.215
0.15
21.95
22.00
1RB#25
50%RB
10M QPSK
Front Side
20450/829
0.246 0.138
0.03
20.80
21.50
0.289
50%RB#13
10M QPSK
Back Side
20450/829
0.272 0.159
-0.04
20.80
21.50
0.320
50%RB#13
10M QPSK
Left Side
20450/829
0.193 0.131
-0.14
20.80
21.50
0.227
50%RB#13
10M QPSK
Top Side
20450/829
0.269 0.131
0.11
20.80
21.50
0.316
50%RB#13
Tested at the worst position with battery 2#
10M QPSK
Top Side
20600/844
0.438 0.213
0.09
21.95
22.00
0.443
1RB#25
Tested at the worst position with battery 3#
10M QPSK
Top Side
20600/844
0.398 0.195
0.13
21.95
22.00
0.403
1RB#25
Test data of MHA-L29 (new)
10M QPSK
0.367
Top Side
20600/844
0.363 0.181
-0.09
21.95
22.00
Yes
1RB#25
Table 71: Hotspot SAR test results of LTE Band V
Note: Per KDB 648474 D04, Product Specific 10-g SAR test is not required for this frequency band since
hotspot mode 1-g reported SAR < 1.2 W/kg.
Test
channel /
Freq.(MHz)
Report No.: SYBH(Z-SAR)030052017-2
SAR Value
(W/kg)
Power
Drift
(dB)
Conducted
Power
(dBm)
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Page 138 of 219
7.2.9 SAR measurement Result of LTE Band VII(Second Antenna)
SAR Value
Test
Test
Power Conducted Tune-up
(W/kg)
Position of
channel /
Test Mode
Drift
Power
Power
Head
Freq.(MHz)
(dB)
(dBm)
(dBm)
1-g
10-g
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
1RB
20M QPSK
Left touch
21100/2535
0.151 0.074
-0.03
13.63
15.00
1RB#99
20M QPSK
Left tilt
21100/2535
0.162 0.073
0.18
13.63
15.00
1RB#99
20M QPSK
Right touch 21100/2535
0.488 0.229
0.10
13.63
15.00
1RB#99
20M QPSK
Right tilt
21100/2535
0.546 0.232
-0.04
13.63
15.00
1RB#99
50%RB
20M QPSK
Left touch
21100/2535
0.164 0.080
-0.05
13.45
14.50
50%RB#25
20M QPSK
Left tilt
21100/2535
0.198 0.090
0.15
13.45
14.50
50%RB#25
20M QPSK
Right touch 21100/2535
0.625 0.301
-0.14
13.45
14.50
50%RB#25
20M QPSK
0.649 0.277
Right tilt
21100/2535
0.19
13.45
14.50
50%RB#25
20M QPSK
Right tilt
20850/2510
0.486 0.206
0.14
13.22
14.50
50%RB#25
20M QPSK
Right tilt
21350/2560
0.591 0.248
-0.17
12.72
14.50
50%RB#0
100%RB
20M QPSK
Right tilt
21350/2560
0.554 0.242
-0.08
13.09
14.50
100%RB#0
Tested at the worst position with battery 2#
20M QPSK
Right tilt
21350/2560
0.535 0.225
-0.06
12.72
14.50
50%RB#0
Table 72: Head SAR test results of LTE Band VII
Report No.: SYBH(Z-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Scaled
SAR1-g
(W/kg)
SAR
Plot
0.207
0.222
0.669
0.749
0.209
0.252
0.796
0.827
Yes
0.653
0.890
0.766
0.806
Page 139 of 219
Test
Position of
Body-Worn
with 15mm
Test
channel /
Freq.(MHz)
Test Mode
SAR Value
(W/kg)
1-g
10-g
Power
Drift
(dB)
Conducted
Power
(dBm)
Tune-up
Power
(dBm)
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
1RB
20M QPSK
Front Side 21100/2535
0.056 0.030
-0.17
13.63
15.00
1RB#99
20M QPSK
Back Side
21100/2535
0.048 0.026
-0.14
13.63
15.00
1RB#99
50%RB
20M QPSK
Front Side 21100/2535
0.051 0.029
-0.14
13.45
14.50
50%RB#25
20M QPSK
Back Side
21100/2535
0.044 0.025
-0.10
13.45
14.50
50%RB#25
Tested at the worst position with battery 2#
20M QPSK
Front Side 21100/2535
0.046 0.025
-0.10
13.63
15.00
1RB#99
Table 73: Body-Worn SAR test results of LTE Band VII
Test
Position of
Hotspot with
10mm
SAR
Plot
0.077
Yes
0.066
0.064
0.056
0.063
TuneScaled
up
SAR
Test Mode
SAR1-g
Power
Plot
(W/kg)
1-g
10-g
(dBm)
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
1RB
20M QPSK
Front Side
21100/2535
0.101 0.055
0.14
13.63
15.00
0.138
1RB#99
20M QPSK
Back Side
21100/2535
0.086 0.046
0.17
13.63
15.00
0.118
1RB#99
20M QPSK
Left Side
21100/2535
0.143 0.075
0.02
13.63
15.00
0.196
1RB#99
20M QPSK
Top Side
21100/2535
0.079 0.034
0.03
13.63
15.00
0.108
1RB#99
50%RB
20M QPSK
Front Side
21100/2535
0.104 0.056
-0.09
13.45
14.50
0.132
50%RB#25
20M QPSK
Back Side
21100/2535
0.095 0.050
-0.07
13.45
14.50
0.121
50%RB#25
20M QPSK
Left Side
21100/2535
0.123 0.065
0.03
13.45
14.50
0.157
50%RB#25
20M QPSK
Top Side
21100/2535
0.075 0.033
-0.01
13.45
14.50
0.095
50%RB#25
Tested at the worst position with battery 2#
20M QPSK
0.197
Left Side
21100/2535
0.144 0.075
-0.15
13.63
15.00
Yes
1RB#99
Table 74: Hotspot SAR test results of LTE Band VII
Note: Per KDB 648474 D04, Product Specific 10-g SAR test is not required for this frequency band since
hotspot mode 1-g reported SAR < 1.2 W/kg.
Test
channel /
Freq.(MHz)
Report No.: SYBH(Z-SAR)030052017-2
SAR Value
(W/kg)
Scaled
SAR1-g
(W/kg)
Power
Drift
(dB)
Conducted
Power
(dBm)
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Page 140 of 219
7.2.10 SAR measurement Result of LTE Band XII(Second Antenna)
SAR Value
Test
Power Conducted Tune-up
(W/kg)
channel /
Test Mode
Drift
Power
Power
Freq.(MHz)
(dB)
(dBm)
(dBm)
1-g
10-g
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
1RB
10M QPSK
Left touch
23130/711
0.274 0.150
-0.10
21.97
22.50
1RB#25
10M QPSK
Left tilt
23130/711
0.211 0.320
0.02
21.97
22.50
1RB#25
10M QPSK
Right touch
23130/711
0.789 0.388
-0.14
21.97
22.50
1RB#25
10M QPSK
Right touch
23060/704
1.050 0.518
-0.14
21.70
22.50
1RB#25
Right touch
10M QPSK
23060/704
1.010 0.496
-0.10
21.70
22.50
-Repeated
1RB#25
10M QPSK
Right touch 23095/707.5
0.832 0.408
-0.02
21.52
22.50
1RB#25
10M QPSK
Right tilt
23130/711
0.427 0.229
0.02
21.97
22.50
1RB#25
50%RB
10M QPSK
Left touch
23130/711
0.391 0.214
0.03
21.84
22.50
50%RB#13
10M QPSK
Left tilt
23130/711
0.291 0.189
-0.09
21.84
22.50
50%RB#13
10M QPSK
Right touch
23130/711
0.578 0.297
-0.18
21.84
22.50
50%RB#13
10M QPSK
Right tilt
23130/711
0.610 0.328
0.04
21.84
22.50
50%RB#13
100%RB
10M QPSK
Right touch
23060/704
0.573 0.294
-0.18
21.57
22.50
100%RB#0
Tested at the worst position with battery 2#
10M QPSK
Right touch
23060/704
1.020 0.506
-0.07
21.70
22.50
1RB#25
Tested at the worst position with battery 3#
10M QPSK
Right touch
23060/704
1.030 0.510
-0.10
21.70
22.50
1RB#25
Test data of MHA-L29 (new)
10M QPSK
Right touch
23060/704
0.854 0.443
-0.04
21.70
22.50
1RB#25
Table 75: Head SAR test results of LTE Band XII
Test
Position
of Head
Report No.: SYBH(Z-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Scaled
SAR1-g
(W/kg)
SAR
Plot
0.310
0.238
0.891
1.262
1.214
1.043
0.482
0.455
0.339
0.673
0.710
0.710
1.226
1.238
1.027
Yes
Page 141 of 219
Test
Position of
Body-Worn
with 15mm
Test
channel /
Freq.(MHz)
Test Mode
SAR Value
(W/kg)
1-g
10-g
Power
Drift
(dB)
Conducted
Power
(dBm)
Tune-up
Power
(dBm)
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
1RB
10M QPSK
Front Side
23130/711
0.062 0.037
0.17
21.97
22.50
1RB#25
10M QPSK
Back Side
23130/711
0.064 0.039
0.00
21.97
22.50
1RB#25
50%RB
10M QPSK
Front Side
23130/711
0.067 0.040
0.07
21.84
22.50
50%RB#13
10M QPSK
Back Side
23130/711
0.097 0.058
-0.19
21.84
22.50
50%RB#13
Tested at the worst position with battery 2#
10M QPSK
Back Side
23130/711
0.084 0.051
-0.03
21.84
22.50
50%RB#13
Tested at the worst position with battery 3#
10M QPSK
Back Side
23130/711
0.090 0.054
0.08
21.84
22.50
50%RB#13
Test data of MHA-L29 (new)
10M QPSK
Back Side
23130/711
0.059 0.035
0.02
21.84
22.50
50%RB#13
Table 76: Body-Worn SAR test results of LTE Band XII
Report No.: SYBH(Z-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Scaled
SAR1-g
(W/kg)
SAR
Plot
0.070
0.073
0.078
0.112
0.097
0.104
0.068
Yes
Page 142 of 219
Test
Position of
Hotspot with
10mm
TuneScaled
up
SAR
Test Mode
SAR1-g
Power
Plot
(W/kg)
1-g
10-g
(dBm)
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
1RB
10M QPSK
Front Side
23130/711
0.124 0.071
0.11
21.97
22.50
0.140
1RB#25
10M QPSK
Back Side
23130/711
0.148 0.098
0.10
21.97
22.50
0.167
1RB#25
10M QPSK
Left Side
23130/711
0.080 0.055
0.02
21.97
22.50
0.091
1RB#25
10M QPSK
Top Side
23130/711
0.131 0.066
0.18
21.97
22.50
0.148
1RB#25
50%RB
10M QPSK
Front Side
23130/711
0.181 0.103
0.08
21.84
22.50
0.211
50%RB#13
10M QPSK
0.263
Back Side
23130/711
0.226 0.126
0.05
21.84
22.50
50%RB#13
10M QPSK
Left Side
23130/711
0.104 0.071
-0.08
21.84
22.50
0.121
50%RB#13
10M QPSK
Top Side
23130/711
0.184 0.093
0.11
21.84
22.50
0.214
50%RB#13
Tested at the worst position with battery 2#
10M QPSK
Back Side
23130/711
0.213 0.132
0.13
21.84
22.50
0.248
50%RB#13
Tested at the worst position with battery 3#
10M QPSK
Back Side
23130/711
0.194 0.111
0.14
21.84
22.50
0.226
50%RB#13
Test data of MHA-L29 (new)
10M QPSK
0.274
Back Side
23130/711
0.235 0.133
-0.07
21.84
22.50
Yes
50%RB#13
Table 77: Hotspot SAR test results of LTE Band XII
Note: Per KDB 648474 D04, Product Specific 10-g SAR test is not required for this frequency band since
hotspot mode 1-g reported SAR < 1.2 W/kg.
Test
channel /
Freq.(MHz)
Report No.: SYBH(Z-SAR)030052017-2
SAR Value
(W/kg)
Power
Drift
(dB)
Conducted
Power
(dBm)
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Page 143 of 219
7.2.11 SAR measurement Result of LTE Band XVII(Second Antenna)
SAR Value
Test
Power Conducted Tune-up
(W/kg)
channel /
Test Mode
Drift
Power
Power
Freq.(MHz)
(dB)
(dBm)
(dBm)
1-g
10-g
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
1RB
10M QPSK
Left touch
23790/710
0.403 0.220
-0.19
24.20
24.50
1RB#25
10M QPSK
Left tilt
23790/710
0.370 0.216
0.13
24.20
24.50
1RB#25
10M QPSK
Right touch
23790/710
0.726 0.362
-0.17
24.20
24.50
1RB#25
10M QPSK
Right tilt
23790/710
0.640 0.344
0.02
24.20
24.50
1RB#25
10M QPSK
Right touch
23780/709
0.712 0.354
-0.04
23.98
24.50
1RB#25
10M QPSK
Right touch
23800/711
0.761 0.380
-0.05
24.18
24.50
1RB#25
50%RB
10M QPSK
Left touch
23800/711
0.340 0.203
0.18
23.39
24.00
50%RB#13
10M QPSK
Left tilt
23800/711
0.316 0.185
0.04
23.39
24.00
50%RB#13
10M QPSK
Right touch
23800/711
0.626 0.309
0.04
23.39
24.00
50%RB#13
10M QPSK
Right tilt
23800/711
0.536 0.291
-0.02
23.39
24.00
50%RB#13
100%RB
10M QPSK
Right touch
23800/711
0.625 0.309
0.04
23.16
24.00
100%RB#0
Tested at the worst position with battery 2#
10M QPSK
Right touch
23800/711
0.700 0.352
-0.01
24.18
24.50
1RB#25
Tested at the worst position with battery 3#
10M QPSK
Right touch
23800/711
0.697 0.351
0.02
24.18
24.50
1RB#25
Test data of MHA-L29 (new)
10M QPSK
Right touch
23790/710
0.853 0.442
-0.01
24.18
24.50
1RB#25
Table 78: Head SAR test results of LTE Band XVII
Test
Position of
Head
Report No.: SYBH(Z-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Scaled
SAR1-g
(W/kg)
SAR
Plot
0.432
0.396
0.778
0.686
0.803
0.819
0.391
0.364
0.720
0.617
0.758
0.754
0.750
0.918
Yes
Page 144 of 219
Test
Position of
Body-Worn
with 15mm
Test
channel /
Freq.(MHz)
Test Mode
SAR Value
(W/kg)
1-g
10-g
Power
Drift
(dB)
Conducted
Power
(dBm)
Tune-up
Power
(dBm)
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
1RB
10M QPSK
Front Side
23790/710
0.077 0.047
0.06
24.20
24.50
1RB#25
10M QPSK
Back Side
23790/710
0.098 0.059
0.11
24.20
24.50
1RB#25
50%RB
10M QPSK
Front Side
23800/711
0.067 0.040
0.10
23.39
24.00
50%RB#13
10M QPSK
Back Side
23800/711
0.085 0.055
-0.02
23.39
24.00
50%RB#13
Tested at the worst position with battery 2#
10M QPSK
Back Side
23790/710
0.092 0.055
0.10
24.20
24.50
1RB#25
Tested at the worst position with battery 3#
10M QPSK
Back Side
23790/710
0.094 0.061
0.05
24.20
24.50
1RB#25
Test data of MHA-L29 (new)
10M QPSK
Back Side
23790/710
0.144 0.086
0.00
24.20
24.50
1RB#25
Table 79: Body-Worn SAR test results of LTE Band XVII
Report No.: SYBH(Z-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Scaled
SAR1-g
(W/kg)
SAR
Plot
0.082
0.105
0.077
0.097
0.098
0.101
0.154
Yes
Page 145 of 219
Test
Position of
Hotspot with
10mm
TuneScaled
up
SAR
Test Mode
SAR1-g
Power
Plot
(W/kg)
1-g
10-g
(dBm)
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
1RB
10M QPSK
0.203 0.114
Front Side
23790/710
0.15
24.20
24.50
0.218
1RB#25
10M QPSK
Back Side
23790/710
0.202 0.115
0.05
24.20
24.50
0.216
1RB#25
10M QPSK
Left Side
23790/710
0.111 0.076
-0.05
24.20
24.50
0.119
1RB#25
10M QPSK
Top Side
23790/710
0.173 0.085
0.13
24.20
24.50
0.185
1RB#25
50%RB
10M QPSK
0.224
Front Side
23800/711
0.195 0.123
0.13
23.39
24.00
50%RB#13
10M QPSK
Back Side
23800/711
0.192 0.119
0.00
23.39
24.00
0.221
50%RB#13
10M QPSK
Left Side
23800/711
0.101 0.069
0.03
23.39
24.00
0.116
50%RB#13
10M QPSK
Top Side
23800/711
0.169 0.087
0.15
23.39
24.00
0.194
50%RB#13
Tested at the worst position with battery 2#
10M QPSK
Front Side
23800/711
0.170 0.105
0.19
23.39
24.00
0.196
50%RB#13
Tested at the worst position with battery 3#
10M QPSK
Front Side
23800/711
0.169 0.096
0.19
23.39
24.00
0.194
50%RB#13
Test data of MHA-L29 (new)
10M QPSK
0.453
Front Side
23800/711
0.394 0.222
0.07
23.39
24.00
Yes
50%RB#13
Table 80: Hotspot SAR test results of LTE Band XVII
Note: Per KDB 648474 D04, Product Specific 10-g SAR test is not required for this frequency band since
hotspot mode 1-g reported SAR < 1.2 W/kg.
Test
channel /
Freq.(MHz)
Report No.: SYBH(Z-SAR)030052017-2
SAR Value
(W/kg)
Power
Drift
(dB)
Conducted
Power
(dBm)
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Page 146 of 219
7.2.12 SAR measurement Result of LTE Band XXVI(Second Antenna)
Test Position
of Head
Left touch
Left touch
Left touch
Left tilt
Left tilt
Left tilt
Right touch
Right touch
Right touch
Right tilt
Right tilt
Right tilt
Left touch
Left tilt
Right touch
Right touch
Right touch
Right tilt
Right tilt
Right tilt
Condu
Tunected
up
Test Mode
Power Power
1-g
10-g
(dBm)
(dBm)
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
1RB
15M QPSK
26965/841.5
0.788 0.430
-0.13
21.69
22.40
1RB#38
15M QPSK
26775/822.5
0.623 0.339
0.11
21.61
22.40
1RB#38
15M QPSK
26865/831.5
0.588 0.320
0.09
21.56
22.40
1RB#38
15M QPSK
26965/841.5
0.715 0.371
0.16
21.69
22.40
1RB#38
15M QPSK
26775/822.5
0.548 0.286
0.06
21.61
22.40
1RB#38
15M QPSK
26865/831.5
0.469 0.288
0.06
21.56
22.40
1RB#38
15M QPSK
26965/841.5
1.160 0.607
-0.02
21.69
22.40
1RB#38
15M QPSK
26775/822.5
1.120 0.576
0.02
21.61
22.40
1RB#38
15M QPSK
26865/831.5
1.140 0.593
-0.11
21.56
22.40
1RB#38
15M QPSK
26965/841.5
1.030 0.501
0.08
21.69
22.40
1RB#38
15M QPSK
26775/822.5
0.905 0.445
0.06
21.61
22.40
1RB#38
15M QPSK
26865/831.5
0.880 0.432
0.02
21.56
22.40
1RB#38
50%RB
15M QPSK
26965/841.5
0.441 0.245
-0.16
20.64
22.00
50%RB#39
15M QPSK
26965/841.5
0.464 0.284
-0.12
20.64
22.00
50%RB#39
15M QPSK
26965/841.5
0.747 0.398
-0.02
20.64
22.00
50%RB#39
15M QPSK
26775/822.5
0.723 0.384
-0.12
20.62
22.00
50%RB#18
15M QPSK
26865/831.5
0.795 0.422
0.01
20.49
22.00
50%RB#0
15M QPSK
26965/841.5
0.731 0.355
0.04
20.64
22.00
50%RB#39
15M QPSK
26775/822.5
0.715 0.348
0.07
20.62
22.00
50%RB#18
15M QPSK
26865/831.5
0.723 0.352
0.12
20.49
22.00
50%RB#0
Test
channel /
Freq.(MHz)
Report No.: SYBH(Z-SAR)030052017-2
SAR Value
(W/kg)
Power
Drift
(dB)
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Scaled
SAR1-g
(W/kg)
SAR
Plot
0.928
0.747
0.713
0.842
0.657
0.569
1.366
1.343
1.383
1.213
1.086
1.068
0.603
0.635
1.022
0.993
1.126
1.000
0.982
1.024
Page 147 of 219
100%RB
15M QPSK
0.474 0.226
-0.19
20.48
100%RB#0
15M QPSK
Left tilt
26965/841.5
0.465 0.284
-0.17
20.48
100%RB#0
15M QPSK
Right touch
26965/841.5
0.844 0.445
-0.03
20.48
100%RB#0
15M QPSK
Right tilt
26965/841.5
0.761 0.371
0.01
20.48
100%RB#0
Tested at the worst position with battery 2#
15M QPSK
Right touch
26865/831.5
1.170 0.612
0.00
21.56
1RB#38
Right touch15M QPSK
26865/831.5
1.140 0.597
-0.09
21.56
Repeated
1RB#38
Tested at the worst position with battery 3#
15M QPSK
Right touch
26865/831.5
1.130 0.594
-0.04
21.56
1RB#38
Test data of MHA-L29 (new)
15M QPSK
Right touch
26865/831.5
0.940 0.497
0.05
21.56
1RB#38
Table 81: Head SAR test results of LTE Band XXVI
Left touch
Test
Position of
Body-Worn
with 15mm
26965/841.5
Test
channel /
Freq.(MHz)
Test Mode
SAR Value
(W/kg)
1-g
10-g
Power
Drift
(dB)
Conducted
Power
(dBm)
22.00
0.673
22.00
0.660
22.00
1.198
22.00
1.080
22.40
1.420
22.40
1.383
22.40
1.371
22.40
1.141
Yes
Tune-up
Power
(dBm)
Scaled
SAR1-g
(W/kg)
SAR
Plot
0.181
0.223
0.153
0.174
0.198
0.193
0.276
Yes
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
1RB
15M QPSK
Front Side 26965/841.5
0.154 0.093
0.00
21.69
22.40
1RB#38
15M QPSK
Back Side 26965/841.5
0.189 0.137
-0.01
21.69
22.40
1RB#38
50%RB
15M QPSK
Front Side 26965/841.5
0.112 0.076
0.06
20.64
22.00
50%RB#39
15M QPSK
Back Side 26965/841.5
0.127 0.088
0.07
20.64
22.00
50%RB#39
Tested at the worst position with battery 2#
15M QPSK
Back Side 26965/841.5
0.168 0.100
-0.02
21.69
22.40
1RB#38
Tested at the worst position with battery 3#
15M QPSK
Back Side 26965/841.5
0.164 0.098
0.00
21.69
22.40
1RB#38
Test data of MHA-L29 (new)
15M QPSK
Back Side 26965/841.5
0.234 0.138
-0.03
21.69
22.40
1RB#38
Table 82: Body-Worn SAR test results of LTE Band XXVI
Report No.: SYBH(Z-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Page 148 of 219
Test
Position of
Hotspot
with 10mm
TuneScaled
up
SAR
Test Mode
SAR1-g
Power
Plot
(W/kg)
1-g
10-g
(dBm)
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
1RB
15M QPSK
Front Side
26965/841.5
0.338 0.193
0.10
21.69
22.40
0.398
1RB#38
15M QPSK
0.463
Back Side
26965/841.5
0.393 0.221
-0.01
21.69
22.40
1RB#38
15M QPSK
Left Side
26965/841.5
0.300 0.201
-0.10
21.69
22.40
0.353
1RB#38
15M QPSK
Top Side
26965/841.5
0.379 0.185
0.19
21.69
22.40
0.446
1RB#38
50%RB
15M QPSK
Front Side
26965/841.5
0.254 0.149
0.02
20.64
22.00
0.347
50%RB#39
15M QPSK
Back Side
26965/841.5
0.290 0.174
0.05
20.64
22.00
0.397
50%RB#39
15M QPSK
Left Side
26965/841.5
0.224 0.150
-0.09
20.64
22.00
0.306
50%RB#39
15M QPSK
Top Side
26965/841.5
0.252 0.138
0.11
20.64
22.00
0.345
50%RB#39
Tested at the worst position with battery 2#
15M QPSK
Back Side
26965/841.5
0.385 0.216
0.00
21.69
22.40
0.453
1RB#38
Tested at the worst position with battery 3#
15M QPSK
Back Side
26965/841.5
0.385 0.214
0.16
21.69
22.40
0.453
1RB#38
Test data of MHA-L29 (new)
15M QPSK
0.584
Back Side
26965/841.5
0.496 0.275
0.00
21.69
22.40
Yes
1RB#38
Table 83: Hotspot SAR test results of LTE Band XXVI
Note: Per KDB 648474 D04, Product Specific 10-g SAR test is not required for this frequency band since
hotspot mode 1-g reported SAR < 1.2 W/kg.
Test
channel /
Freq.(MHz)
Report No.: SYBH(Z-SAR)030052017-2
SAR Value
(W/kg)
Power
Drift
(dB)
Conducted
Power
(dBm)
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Page 149 of 219
7.2.13 SAR measurement Result of LTE Band XXXVIII(Second Antenna)
Test
Position of
Head
Left touch
Left tilt
Right touch
Right touch
Right touch
Right touchRepeated
Right tilt
Right tilt
Right tilt
Left touch
Left tilt
Right touch
Right touch
Right touch
Right tilt
Right tilt
Right tilt
Right touch
Right tilt
Right touch
SAR Value
Test
Power Conducted Tune-up
(W/kg)
channel /
Test Mode
Drift
Power
Power
Freq.(MHz)
(dB)
(dBm)
(dBm)
1-g
10-g
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
1RB
20M QPSK
38000/2595
0.308 0.148
0.00
17.61
18.00
1RB#99
20M QPSK
38000/2595
0.361 0.162
0.16
17.61
18.00
1RB#99
20M QPSK
38000/2595
1.090 0.509
0.14
17.61
18.00
1RB#99
20M QPSK
37850/2580
0.730 0.332
0.12
17.46
18.00
1RB#0
20M QPSK
38150/2610
1.130 0.527
0.16
17.58
18.00
1RB#50
20M QPSK
38150/2610
1.100 0.448
0.17
17.58
18.00
1RB#50
20M QPSK
38000/2595
0.902 0.416
-0.01
17.61
18.00
1RB#99
20M QPSK
37850/2580
0.599 0.247
0.09
17.46
18.00
1RB#0
20M QPSK
38150/2610
0.939 0.383
0.09
17.58
18.00
1RB#50
50%RB
20M QPSK
38150/2610
0.258 0.129
0.14
16.78
17.00
50%RB#0
20M QPSK
38150/2610
0.296 0.139
0.17
16.78
17.00
50%RB#0
20M QPSK
38150/2610
0.881 0.409
0.09
16.78
17.00
50%RB#0
20M QPSK
37850/2580
0.647 0.293
0.09
16.22
17.00
50%RB#0
20M QPSK
38150/2610
1.010 0.470
0.09
16.30
17.00
50%RB#50
20M QPSK
38150/2610
0.882 0.360
0.00
16.78
17.00
50%RB#0
20M QPSK
37850/2580
0.562 0.235
0.00
16.22
17.00
50%RB#0
20M QPSK
38000/2595
0.933 0.388
0.06
16.30
17.00
50%RB#50
100%RB
20M QPSK
38150/2610
0.826 0.371
0.09
16.22
17.00
100%RB#0
20M QPSK
38150/2610
0.732 0.304
0.04
16.22
17.00
100%RB#0
Tested at the worst position with battery 2#
20M QPSK
38150/2610
0.823 0.379
0.05
17.58
18.00
1RB#50
Report No.: SYBH(Z-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Scaled
SAR1-g
(W/kg)
SAR
Plot
0.337
0.395
1.192
0.827
1.245
1.212
0.987
0.678
1.034
0.271
0.311
0.927
0.774
1.187
0.928
0.673
1.096
0.989
0.876
0.907
Page 150 of 219
Tested at the worst position with battery 3#
20M QPSK
Right touch 38150/2610
0.906 0.409
-0.03
17.58
1RB#50
Test data of MHA-L29 (new)
20M QPSK
Right touch 38150/2610
0.763 0.365
0.00
16.20
1RB#50
Table 84: Head SAR test results of LTE Band XXXVIII
Test
Position of
Body-Worn
with 15mm
Test
channel /
Freq.(MHz)
Test Mode
SAR Value
(W/kg)
1-g
10-g
Power
Drift
(dB)
Conducted
Power
(dBm)
18.00
0.998
17.50
1.029
Yes
Tune-up
Power
(dBm)
Scaled
SAR1-g
(W/kg)
SAR
Plot
0.106
0.079
0.065
0.058
0.079
0.087
0.094
Yes
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
1RB
20M QPSK
Front Side 38000/2595
0.097 0.054
0.13
17.61
18.00
1RB#99
20M QPSK
Back Side
38000/2595
0.072 0.041
-0.08
17.61
18.00
1RB#99
50%RB
20M QPSK
Front Side 38150/2610
0.061 0.034
0.13
16.78
17.00
50%RB#0
20M QPSK
Back Side
38150/2610
0.055 0.030
-0.03
16.78
17.00
50%RB#0
Tested at the worst position with battery 2#
20M QPSK
Front Side 38000/2595
0.073 0.040
0.05
17.61
18.00
1RB#99
Tested at the worst position with battery 3#
20M QPSK
Front Side 38000/2595
0.080 0.044
0.05
17.61
18.00
1RB#99
Test data of MHA-L29 (new)
20M QPSK
Front Side 38000/2595
0.078 0.043
-0.11
16.66
17.50
1RB#99
Table 85: Body-Worn SAR test results of LTE Band XXXVIII
Report No.: SYBH(Z-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Page 151 of 219
Test
Position of
Hotspot with
10mm
TuneScaled
up
SAR
Test Mode
SAR1-g
Power
Plot
(W/kg)
1-g
10-g
(dBm)
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
1RB
20M QPSK
Front Side
38000/2595
0.159 0.085
0.08
17.61
18.00
0.174
1RB#99
20M QPSK
Back Side
38000/2595
0.140 0.074
-0.02
17.61
18.00
0.153
1RB#99
20M QPSK
0.234
Left Side
38000/2595
0.214 0.108
-0.03
17.61
18.00
1RB#99
20M QPSK
Top Side
38000/2595
0.137 0.061
-0.12
17.61
18.00
0.150
1RB#99
50%RB
20M QPSK
Front Side
38150/2610
0.120 0.065
0.07
16.78
17.00
0.126
50%RB#0
20M QPSK
Back Side
38150/2610
0.110 0.061
0.05
16.78
17.00
0.116
50%RB#0
20M QPSK
Left Side
38150/2610
0.169 0.084
0.04
16.78
17.00
0.178
50%RB#0
20M QPSK
Top Side
38150/2610
0.108 0.048
-0.07
16.78
17.00
0.114
50%RB#0
Tested at the worst position with battery 2#
20M QPSK
Left Side
38000/2595
0.185 0.091
0.06
17.61
18.00
0.202
1RB#99
Tested at the worst position with battery 3#
20M QPSK
Left Side
38000/2595
0.166 0.082
0.12
17.61
18.00
0.182
1RB#99
Test data of MHA-L29 (new)
20M QPSK
0.215
Left Side
38000/2595
0.177 0.088
0.07
16.66
17.50
Yes
1RB#99
Table 86: Hotspot SAR test results of LTE Band XXXVIII
Note: Per KDB 648474 D04, Product Specific 10-g SAR test is not required for this frequency band since
hotspot mode 1-g reported SAR < 1.2 W/kg.
Test
channel /
Freq.(MHz)
Report No.: SYBH(Z-SAR)030052017-2
SAR Value
(W/kg)
Power
Drift
(dB)
Conducted
Power
(dBm)
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Page 152 of 219
7.2.14 SAR measurement Result of LTE Band XLI(Second Antenna)
SAR Value
Test
Power Conducted Tune-up
(W/kg)
channel /
Test Mode
Drift
Power
Power
Freq.(MHz)
(dB)
(dBm)
(dBm)
1-g
10-g
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
1RB
20M QPSK
Left touch
40340/2565
0.138 0.066
0.08
17.43
18.00
1RB#50
20M QPSK
Left tilt
40340/2565
0.157 0.077
0.14
17.43
18.00
1RB#50
20M QPSK
Right touch 40340/2565
0.909 0.444
0.07
17.43
18.00
1RB#50
20M QPSK
Right touch 40740/2605
0.800 0.367
0.15
17.35
18.00
1RB#99
20M QPSK
Right touch 41140/2645
0.979 0.446
0.11
16.83
18.00
1RB#99
Right touch20M QPSK
41140/2645
0.989 0.450
0.10
16.83
18.00
repeated
1RB#99
20M QPSK
Right tilt
40340/2565
0.589 0.272
0.07
17.43
18.00
1RB#50
50%RB
20M QPSK
Left touch
40340/2565
0.123 0.063
0.11
16.35
17.00
50%RB#0
20M QPSK
Left tilt
40340/2565
0.158 0.070
0.15
16.35
17.00
50%RB#0
20M QPSK
Right touch 40340/2565
0.752 0.376
0.19
16.35
17.00
50%RB#0
20M QPSK
Right touch 40740/2605
0.781 0.389
0.07
16.13
17.00
50%RB#50
20M QPSK
Right touch 41140/2645
0.806 0.400
0.15
15.85
17.00
50%RB#0
20M QPSK
Right tilt
40340/2565
0.667 0.316
0.00
16.35
17.00
50%RB#0
100%RB
20M QPSK
Right touch 40340/2565
0.451 0.209
0.14
16.24
17.00
100%RB#0
Tested at the worst position with battery 2#
20M QPSK
Right touch 41140/2645
0.916 0.416
0.16
16.83
18.00
1RB#99
Tested at the worst position with battery 3#
20M QPSK
Right touch 41140/2645
0.786 0.373
0.10
16.83
18.00
1RB#99
Test data of MHA-L29 (new)
20M QPSK
Right touch 41140/2645
0.650 0.298
0.12
16.83
18.00
1RB#99
Table 87: Head SAR test results of LTE Band XLI
Test
Position of
Head
Report No.: SYBH(Z-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Scaled
SAR1-g
(W/kg)
SAR
Plot
0.157
0.179
1.036
0.929
1.282
1.295
0.672
0.143
0.184
0.873
0.954
1.050
0.775
0.537
1.199
1.029
0.851
Yes
Page 153 of 219
Test
Position of
Body-Worn
with 15mm
Test
channel /
Freq.(MHz)
Test Mode
SAR Value
(W/kg)
1-g
10-g
Power
Drift
(dB)
Conducted
Power
(dBm)
Tune-up
Power
(dBm)
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
1RB
20M QPSK
Front Side 40340/2565
0.035 0.019
-0.11
17.43
18.00
1RB#50
20M QPSK
Back Side
40340/2565
0.032 0.016
0.01
17.43
18.00
1RB#50
50%RB
20M QPSK
Front Side 40340/2565
0.033 0.017
0.00
16.35
17.00
50%RB#0
20M QPSK
Back Side
40340/2565
0.030 0.016
0.18
16.35
17.00
50%RB#0
Tested at the worst position with battery 2#
20M QPSK
Front Side 40340/2565
0.033 0.018
0.05
17.43
18.00
1RB#50
Tested at the worst position with battery 3#
20M QPSK
Front Side 40340/2565
0.025 0.013
0.06
17.43
18.00
1RB#50
Test data of MHA-L29 (new)
20M QPSK
Front Side 40340/2565
0.030 0.016
0.16
17.43
18.00
1RB#50
Table 88: Body-Worn SAR test results of LTE Band XLI
Report No.: SYBH(Z-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Scaled
SAR1-g
(W/kg)
SAR
Plot
0.040
0.036
0.038
0.034
0.038
0.028
0.034
Yes
Page 154 of 219
Test
Position of
Hotspot with
10mm
TuneScaled
up
SAR
Test Mode
SAR1-g
Power
Plot
(W/kg)
1-g
10-g
(dBm)
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
1RB
20M QPSK
Front Side
40340/2565
0.067 0.035
0.11
17.43
18.00
0.076
1RB#50
20M QPSK
Back Side
40340/2565
0.045 0.023
-0.08
17.43
18.00
0.052
1RB#50
20M QPSK
Left Side
40340/2565
0.077 0.039
-0.08
17.43
18.00
0.088
1RB#50
20M QPSK
Top Side
40340/2565
0.045 0.020
0.11
17.43
18.00
0.051
1RB#50
50%RB
20M QPSK
Front Side
40340/2565
0.049 0.026
-0.08
16.35
17.00
0.057
50%RB#0
20M QPSK
Back Side
40340/2565
0.046 0.024
0.01
16.35
17.00
0.054
50%RB#0
20M QPSK
Left Side
40340/2565
0.076 0.038
0.05
16.35
17.00
0.088
50%RB#0
20M QPSK
Top Side
40340/2565
0.043 0.020
0.15
16.35
17.00
0.050
50%RB#0
Tested at the worst position with battery 2#
20M QPSK
Left Side
40340/2565
0.098 0.048
0.07
17.43
18.00
0.112
1RB#50
Tested at the worst position with battery 3#
20M QPSK
0.135
Left Side
40340/2565
0.118 0.060
0.04
17.43
18.00
1RB#50
Test data of MHA-L29 (new)
20M QPSK
0.091
Left Side
40340/2565
0.080 0.041
-0.08
17.43
18.00
Yes
1RB#50
Table 89: Hotspot SAR test results of LTE Band XLI
Note: Per KDB 648474 D04, Product Specific 10-g SAR test is not required for this frequency band since
hotspot mode 1-g reported SAR < 1.2 W/kg.
Test
channel /
Freq.(MHz)
Report No.: SYBH(Z-SAR)030052017-2
SAR Value
(W/kg)
Power
Drift
(dB)
Conducted
Power
(dBm)
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Page 155 of 219
7.2.15 SAR measurement Result of GSM850(Main Antenna)
Test Position
of Head
Test
channel
/Freq.(MHz)
Test
Mode
SAR Value
(W/kg)
1-g
10-g
Power
Drift
(dB)
Conducted
Power
(dBm)
Tuneup
Power
(dBm)
Scaled
SAR1-g
(W/kg)
SAR
Plot
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
Left touch
190/836.6
GSM
0.272
0.209
0.14
32.73
33.50
0.325
Left tilt
190/836.6
GSM
0.178
0.137
0.05
32.73
33.50
0.213
Right touch
190/836.6
GSM
0.301
0.230
0.00
32.73
33.50
0.359
Right tilt
190/836.6
GSM
0.169
0.134
-0.07
32.73
33.50
0.202
Right touch
128/824.2
GSM
0.277
0.213
0.01
32.64
33.50
0.338
Right touch
251/848.8
GSM
0.346
0.263
-0.05
32.72
33.50
0.414
33.50
0.421
32.72
33.50
0.407
32.72
33.50
0.225
Yes
Scaled
SAR1-g
(W/kg)
SAR
Plot
0.386
0.430
0.423
0.425
0.399
0.257
Yes
Tested at the worst position with battery 2#
Right touch
251/848.8
GSM
0.352
0.267
-0.14
32.72
Tested at the worst position with battery 3#
Right touch
251/848.8
GSM
0.340
0.259
0.04
Test data of MHA-L29 (new)
Right touch
251/848.8
GSM
0.188
0.146
-0.19
Table 90: Head SAR test results of GSM850
Tuneup
Power
1-g
10-g
(dBm)
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
Front Side
190/836.6
GSM
0.323 0.247
-0.17
32.73
33.50
Back Side
190/836.6
GSM
0.360 0.274
-0.01
32.73
33.50
Tested at the worst position with SIM2
Back Side
190/836.6
GSM
0.354 0.270
-0.02
32.73
33.50
Tested at the worst position with battery 2#
Back Side
190/836.6
GSM
0.356 0.271
-0.06
32.73
33.50
Tested at the worst position with battery 3#
Back Side
190/836.6
GSM
0.334 0.236
-0.02
32.73
33.50
Test data of MHA-L29 (new)
Back Side
190/836.6
GSM
0.215 0.165
-0.05
32.73
33.50
Table 91: Body-Worn SAR test results of GSM850
Test Position
of Body-Worn
with 15mm
Test
channel
/Freq.(MHz)
Test
Mode
Report No.: SYBH(Z-SAR)030052017-2
SAR Value
(W/kg)
Power
Drift
(dB)
Conducted
Power
(dBm)
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Page 156 of 219
TuneScaled
up
SAR1-g
Power
(W/kg)
1-g
10-g
(dBm)
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
GPRS
Front Side
190/836.6
0.354 0.271
-0.12
31.64
32.50
0.432
2TS
GPRS
Back Side
190/836.6
0.415 0.316
-0.02
31.64
32.50
0.506
2TS
GPRS
Left Side
190/836.6
0.429 0.287
-0.06
31.64
32.50
0.523
2TS
GPRS
0.761
Right Side
190/836.6
0.624 0.420
-0.11
31.64
32.50
2TS
GPRS
Bottom Side
190/836.6
0.163 0.082
-0.09
31.64
32.50
0.199
2TS
Tested at the worst position with battery 2#
GPRS
Right Side
190/836.6
0.585 0.395
-0.13
31.64
32.50
0.713
2TS
Tested at the worst position with battery 3#
GPRS
Right Side
190/836.6
0.551 0.373
0.11
31.64
32.50
0.672
2TS
Test data of MHA-L29 (new)
GPRS
0.449
Right Side
190/836.6
0.368 0.252
-0.13
31.64
32.50
2TS
Table 92: Hotspot SAR test results of GSM850
Note: Per KDB 648474 D04, Product Specific 10-g SAR test is not required for this frequency band
hotspot mode 1-g reported SAR < 1.2 W/kg.
Test Position
of Hotspot
with 10mm
Test
channel
/Freq.(MHz)
Test
Mode
Report No.: SYBH(Z-SAR)030052017-2
SAR Value
(W/kg)
Power
Drift
(dB)
Conducted
Power
(dBm)
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
SAR
Plot
Yes
since
Page 157 of 219
7.2.16 SAR measurement Result of GSM1900(Main Antenna)
Test Position
of Head
Test
channel
/Freq.(MHz)
Test
Mode
SAR Value
(W/kg)
1-g
10-g
Power
Drift
(dB)
Conducted
Power
(dBm)
Tuneup
Power
(dBm)
Scaled
SAR1-g
(W/kg)
SAR
Plot
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
Left touch
661/1880
GSM
0.118
0.075
-0.02
29.52
30.50
0.148
Left tilt
661/1880
GSM
0.111
0.065
0.06
29.52
30.50
0.139
Right touch
661/1880
GSM
0.234
0.145
0.12
29.52
30.50
0.293
Right tilt
661/1880
GSM
0.088
0.050
0.07
29.52
30.50
0.110
Right touch
512/1850.2
GSM
0.264
0.166
0.11
29.65
30.50
0.321
Right touch
810/1909.8
GSM
0.163
0.100
0.11
29.46
30.50
0.207
30.50
0.306
29.65
30.50
0.305
29.65
30.50
0.142
Yes
Scaled
SAR1-g
(W/kg)
SAR
Plot
0.325
0.345
0.305
0.251
0.158
Yes
Tested at the worst position with battery 2#
Right touch
512/1850.2
GSM
0.252
0.160
0.12
29.65
Tested at the worst position with battery 3#
Right touch
512/1850.2
GSM
0.251
0.159
0.17
Test data of MHA-L29 (new)
Right touch
512/1850.2
GSM
0.117
0.073
0.07
Table 93: Head SAR test results of GSM1900
Tuneup
Power
1-g
10-g
(dBm)
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
Front Side
661/1880
GSM
0.259 0.147
0.11
29.52
30.50
Back Side
661/1880
GSM
0.275 0.153
0.18
29.52
30.50
Tested at the worst position with battery 2#
Back Side
661/1880
GSM
0.243 0.136
0.09
29.52
30.50
Tested at the worst position with battery 3#
Back Side
661/1880
GSM
0.200 0.111
0.02
29.52
30.50
Test data of MHA-L29 (new)
Back Side
661/1880
GSM
0.126 0.071
-0.19
29.52
30.50
Table 94: Body-Worn SAR test results of GSM1900
Test Position
of Body-Worn
with 15mm
Test
channel
/Freq.(MHz)
Test
Mode
Report No.: SYBH(Z-SAR)030052017-2
SAR Value
(W/kg)
Power
Drift
(dB)
Conducted
Power
(dBm)
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Copyright © Huawei Technologies Co., Ltd
Page 158 of 219
Tuneup
Power
1-g
10-g
(dBm)
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
GPRS
Front Side
661/1880
0.613 0.322
0.17
28.51
29.50
2TS
GPRS
Back Side
661/1880
0.628 0.323
0.19
28.51
29.50
2TS
GPRS
Left Side
661/1880
0.103 0.056
-0.05
28.51
29.50
2TS
GPRS
Right Side
661/1880
0.330 0.196
0.02
28.51
29.50
2TS
GPRS
Bottom Side
661/1880
1.110 0.587
-0.04
28.51
29.50
2TS
Bottom SideGPRS
661/1880
1.050 0.552
0.04
28.51
29.50
Repeated
2TS
GPRS
Bottom Side
512/1850.2
0.919 0.485
0.11
28.53
29.50
2TS
GPRS
Bottom Side
810/1909.8
1.020 0.540
0.14
28.36
29.50
2TS
Tested at the worst position with battery 2#
GPRS
Bottom Side
661/1880
0.802 0.421
0.09
28.51
29.50
2TS
Tested at the worst position with battery 3#
GPRS
Bottom Side
661/1880
0.794 0.419
0.17
28.51
29.50
2TS
Test data of MHA-L29 (new)
GPRS
Bottom Side
661/1880
0.575 0.304
-0.16
28.51
29.50
2TS
Table 95: Hotspot SAR test results of GSM1900
Test Position
of Hotspot
with 10mm
Test
channel
/Freq.(MHz)
Test
Mode
Report No.: SYBH(Z-SAR)030052017-2
SAR Value
(W/kg)
Power
Drift
(dB)
Conducted
Power
(dBm)
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Scaled
SAR1-g
(W/kg)
SAR
Plot
0.770
0.789
0.129
0.414
1.394
1.319
1.149
1.326
1.007
0.997
0.722
Yes
Page 159 of 219
Per KDB648474D04, when hotspot mode applies, Product Specific 10-g SAR is required only for the
surfaces and edges with hotspot mode 1-g reported SAR > 1.2 W/kg; however, when power reduction
applies to hotspot mode the measured SAR must be scaled to the maximum output power, including
tolerance, allowed for phablet modes to compare with the 1.2 W/kg SAR test reduction threshold:
Test
SAR Value
TuneProduct
Test
Power Conducted
Scaled
Position of
Test
(W/kg)
up
Specific
channel
Drift
Power
SAR1-g
Hotspot with
Mode
Power
10-g SAR
/Freq.(MHz)
(dB)
(dBm)
(W/kg)
1-g
10-g
10mm
(dBm)
Exclusion
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
GPRS
Front Side
661/1880
0.613 0.322
0.17
28.51
29.50
0.770
Yes
2TS
GPRS
Back Side
661/1880
0.628 0.323
0.19
28.51
29.50
0.789
Yes
2TS
GPRS
Left Side
661/1880
0.103 0.056
-0.05
28.51
29.50
0.129
Yes
2TS
GPRS
Right Side
661/1880
0.330 0.196
0.02
28.51
29.50
0.414
Yes
2TS
GPRS
Bottom Side
661/1880
1.110 0.587
-0.04
28.51
29.50
1.394
No
2TS
Bottom SideGPRS
661/1880
1.050 0.552
0.04
28.51
29.50
1.319
No
Repeated
2TS
GPRS
Bottom Side
512/1850.2
0.919 0.485
0.11
28.53
29.50
1.149
Yes
2TS
GPRS
Bottom Side
810/1909.8
1.020 0.540
0.14
28.36
29.50
1.326
No
2TS
Tested at the worst position with battery 2#
GPRS
Bottom Side
661/1880
0.802 0.421
0.09
28.51
29.50
1.007
Yes
2TS
Tested at the worst position with battery 3#
GPRS
Bottom Side
661/1880
0.794 0.419
0.17
28.51
29.50
0.997
Yes
2TS
Test data of MHA-L29 (new)
GPRS
Bottom Side
661/1880
0.575 0.304
-0.16
28.51
29.50
0.722
Yes
2TS
Table 96: Product Specific 10-g SAR test reduction evaluation of GSM1900
Note : According to the table above , only Bottom Side Product Specific 10-g SAR test is required for
this frequency band:
Report No.: SYBH(Z-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Page 160 of 219
Test Position
of Product
Specific 10-g
SAR with 0mm
Tuneup
Power
1-g
10-g
(dBm)
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
GPRS
Bottom Side
661/1880
0.491 0.207
-0.10
28.51
29.50
2TS
Tested at the worst position with battery 2#
GPRS
Bottom Side
661/1880
0.351 0.185
-0.11
28.51
29.50
2TS
Tested at the worst position with battery 3#
GPRS
Bottom Side
661/1880
0.462 0.196
0.17
28.51
29.50
2TS
Test data of MHA-L29 (new)
GPRS
Bottom Side
661/1880
0.288 0.135
-0.05
28.51
29.50
2TS
Table 97: Product Specific 10-g SAR results of GSM1900
Test
channel
/Freq.(MHz)
Test
Mode
Report No.: SYBH(Z-SAR)030052017-2
SAR Value
(W/kg)
Power
Drift
(dB)
Conducted
Power
(dBm)
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Scaled
SAR10-g
(W/kg)
SAR
Plot
0.260
0.232
0.246
0.170
Yes
Page 161 of 219
7.2.17 SAR measurement Result of UMTS Band II(Main Antenna)
Test Position
of Head
Test
channel
/Freq.(MHz)
Test
Mode
SAR Value
(W/kg)
1-g
10-g
Power
Drift
(dB)
Conducted
Power
(dBm)
Tuneup
Power
(dBm)
Scaled
SAR1-g
(W/kg)
SAR
Plot
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
Left touch
9400/1880
RMC
0.232
0.150
0.17
23.48
24.50
0.293
Left tilt
9400/1880
RMC
0.194
0.116
0.06
23.48
24.50
0.245
Right touch
9400/1880
RMC
0.515
0.315
0.12
23.48
24.50
0.651
Right tilt
9400/1880
RMC
0.174
0.097
-0.09
23.48
24.50
0.220
Right touch
9262/1852.4
RMC
0.622
0.385
0.18
23.42
24.50
0.798
Right touch
9538/1907.6
RMC
0.371
0.225
0.12
23.45
24.50
0.472
24.50
0.621
23.42
24.50
0.415
23.42
24.50
0.435
Yes
Scaled
SAR1-g
(W/kg)
SAR
Plot
0.468
0.601
0.587
0.579
0.132
Yes
Tested at the worst position with battery 2#
Right touch
9262/1852.4
RMC
0.484
0.308
0.13
23.42
Tested at the worst position with battery 3#
Right touch
9262/1852.4
RMC
0.324
0.204
0.18
Test data of MHA-L29 (new)
Right touch
9262/1852.4
RMC
0.339
0.216
0.14
Table 98: Head SAR test results of UMTS Band II
Tuneup
Power
1-g
10-g
(dBm)
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
Front Side
9400/1880
RMC
0.370 0.214
0.09
23.48
24.50
Back Side
9400/1880
RMC
0.475 0.266
0.14
23.48
24.50
Tested at the worst position with battery 2#
Back Side
9400/1880
RMC
0.464 0.263
0.13
23.48
24.50
Tested at the worst position with battery 3#
Back Side
9400/1880
RMC
0.458 0.260
0.12
23.48
24.50
Test data of MHA-L29 (new)
Back Side
9400/1880
RMC
0.104 0.058
0.09
23.48
24.50
Table 99: Body-Worn SAR test results of UMTS Band II
Test Position
of Body-Worn
with 15mm
Test
channel /
Freq.(MHz)
Test
Mode
Report No.: SYBH(Z-SAR)030052017-2
SAR Value
(W/kg)
Power
Drift
(dB)
Conducted
Power
(dBm)
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Page 162 of 219
Test Position
of Hotspot
with 10mm
Front Side
Back Side
Back Side
Back Side
Left Side
Right Side
Bottom Side
Bottom Side
Bottom Side
Bottom SideRepeated
Tuneup
Power
1-g
10-g
(dBm)
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
9400/1880
RMC
0.566 0.312
-0.08
21.88
22.50
9400/1880
RMC
0.849 0.443
0.07
21.88
22.50
9262/1852.4 RMC
0.866 0.455
0.09
21.87
22.50
9538/1907.6 RMC
0.725 0.379
0.03
21.91
22.50
9400/1880
RMC
0.193 0.107
0.06
21.88
22.50
9400/1880
RMC
0.378 0.214
0.08
21.88
22.50
9400/1880
RMC
1.120 0.600
-0.16
21.88
22.50
9262/1852.4 RMC
0.922 0.494
-0.13
21.87
22.50
9538/1907.6 RMC
1.130 0.603
-0.18
21.91
22.50
Test
channel /
Freq.(MHz)
9538/1907.6
SAR Value
(W/kg)
Test
Mode
RMC
1.100
0.590
Power
Drift
(dB)
0.12
Conducted
Power
(dBm)
21.91
Tested at the worst position with battery 2#
Bottom Side
9538/1907.6 RMC
1.120 0.604
0.15
21.91
Tested at the worst position with battery 3#
Bottom Side
9538/1907.6 RMC
1.120 0.599
0.06
21.91
Test data of MHA-L29 (new)
Bottom Side
9538/1907.6 RMC
0.942 0.515
-0.14
21.91
Table 100: Hotspot SAR test results of UMTS Band II
Report No.: SYBH(Z-SAR)030052017-2
Scaled
SAR1-g
(W/kg)
SAR
Plot
0.653
0.979
1.001
0.830
0.223
0.436
1.292
1.066
1.294
22.50
1.260
22.50
1.283
22.50
1.283
22.50
1.079
Yes
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Page 163 of 219
Per KDB648474D04, when hotspot mode applies, Product Specific 10-g SAR is required only for the
surfaces and edges with hotspot mode 1-g reported SAR > 1.2 W/kg; however, when power reduction
applies to hotspot mode the measured SAR must be scaled to the maximum output power, including
tolerance, allowed for phablet modes to compare with the 1.2 W/kg SAR test reduction threshold:
Test
SAR Value
TuneProduct
Test
Power Conducted
Scaled
Position of
Test
(W/kg)
up
Specific
channel
Drift
Power
SAR1-g
Hotspot with
Mode
Power
10-g SAR
/Freq.(MHz)
(dB)
(dBm)
(W/kg)
1-g
10-g
10mm
(dBm)
Exclusion
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
Front Side
9400/1880
RMC 0.566 0.312
-0.08
21.88
24.50
1.035
Yes
Back Side
9400/1880
RMC 0.849 0.443
0.07
21.88
24.50
1.552
No
Back Side
9262/1852.4
RMC 0.866 0.455
0.09
21.87
24.50
1.587
No
Back Side
9538/1907.6
RMC 0.725 0.379
0.03
21.91
24.50
1.316
No
Left Side
9400/1880
RMC 0.193 0.107
0.06
21.88
24.50
0.353
Yes
Right Side
9400/1880
RMC 0.378 0.214
0.08
21.88
24.50
0.691
Yes
Bottom Side
9400/1880
RMC 1.120 0.600
-0.16
21.88
24.50
2.047
No
Bottom Side
9262/1852.4
RMC 0.922 0.494
-0.13
21.87
24.50
1.689
No
Bottom Side
9538/1907.6
RMC 1.130 0.603
-0.18
21.91
24.50
2.052
No
Bottom Side9538/1907.6
RMC 1.100 0.590
0.12
21.91
24.50
1.997
No
Repeated
Tested at the worst position with battery 2#
Bottom Side
9538/1907.6
RMC 1.120 0.604
0.15
21.91
24.50
2.033
No
Tested at the worst position with battery 3#
Bottom Side
9538/1907.6
RMC 1.120 0.599
0.06
21.91
24.50
2.033
No
Test data of MHA-L29 (new)
Bottom Side
9538/1907.6
RMC 0.942 0.515
-0.14
21.91
24.50
1.710
No
Table 101: Product Specific 10-g SAR test reduction evaluation of UMTS Band II
Report No.: SYBH(Z-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Page 164 of 219
Note : According to the table above , only Back Side and Bottom Side Product Specific 10-g SAR test
are required for this frequency band:
Test Position
SAR Value
TuneTest
Power Conducted
Scaled
of Product
Test
(W/kg)
up
SAR
channel
Drift
Power
SAR10-g
Specific 10-g
Mode
Power
Plot
/Freq.(MHz)
(dB)
(dBm)
(W/kg)
1-g
10-g
SAR with 0mm
(dBm)
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
Back Side
9400/1880
RMC
4.870 2.050
0.17
23.48
24.50
2.593
Back Side
9262/1852.4 RMC
4.560 1.900
0.17
23.42
24.50
2.436
Back Side
9538/1907.6 RMC
5.130 2.160
0.12
23.45
24.50
2.751
Back Side2.687
9538/1907.6 RMC
5.010 2.110
0.12
23.45
24.50
Repeated
Bottom Side
9400/1880
RMC
0.814 0.349
-0.14
23.48
24.50
0.441
Tested at the worst position with battery 2#
Back Side
9538/1907.6 RMC
3.770 1.820
0.13
23.45
24.50
2.318
Tested at the worst position with battery 3#
Back Side
9538/1907.6 RMC
3.650 1.550
0.04
23.45
24.50
1.974
Test data of MHA-L29 (new)
2.509
Back Side
9538/1907.6 RMC
4.650 1.970
-0.19
23.45
24.50
Yes
Table 102: Product Specific 10-g SAR results of UMTS Band II
Report No.: SYBH(Z-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Page 165 of 219
7.2.18 SAR measurement Result of UMTS Band IV(Main Antenna)
Test Position
of Head
Test
channel /
Freq.(MHz)
Test
Mode
SAR Value
(W/kg)
1-g
10-g
Power
Drift
(dB)
Conducted
Power
(dBm)
Tuneup
Power
(dBm)
Scaled
SAR1-g
(W/kg)
SAR
Plot
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
Left touch
1413/1732.6
RMC
0.338
0.231
0.16
23.44
24.00
0.385
Left tilt
1413/1732.6
RMC
0.267
0.162
0.07
23.44
24.00
0.304
Right touch
1413/1732.6
RMC
0.593
0.391
0.19
23.44
24.00
0.675
Right tilt
1413/1732.6
RMC
0.243
0.147
0.01
23.44
24.00
0.276
Right touch
1312/1712.4
RMC
0.598
0.394
0.05
23.59
24.00
0.657
Right touch
1513/1752.6
RMC
0.656
0.423
0.14
23.45
24.00
0.745
24.00
0.608
23.45
24.00
0.623
23.45
24.00
0.527
Yes
Scaled
SAR1-g
(W/kg)
SAR
Plot
0.379
0.328
0.348
0.319
0.306
Yes
Tested at the worst position with battery 2#
Right touch
1513/1752.6
RMC
0.536
0.351
0.11
23.45
Tested at the worst position with battery 3#
Right touch
1513/1752.6
RMC
0.549
0.360
0.13
Test data of MHA-L29 (new)
Right touch
1513/1752.6
RMC
0.464
0.305
-0.13
Table 103: Head SAR test results of UMTS Band IV
Tuneup
Power
1-g
10-g
(dBm)
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
Front Side
1413/1732.6 RMC
0.333 0.228
-0.09
23.44
24.00
Back Side
1413/1732.6 RMC
0.288 0.197
-0.01
23.44
24.00
Tested at the worst position with battery 2#
Front Side
1413/1732.6 RMC
0.306 0.195
-0.07
23.44
24.00
Tested at the worst position with battery 3#
Front Side
1413/1732.6 RMC
0.280 0.192
0.10
23.44
24.00
Test data of MHA-L29 (new)
Front Side
1413/1732.6 RMC
0.269 0.183
0.14
23.44
24.00
Table 104: Body-Worn SAR test results of UMTS Band IV
Test Position
of Body-Worn
with 15mm
Test
channel /
Freq.(MHz)
Test
Mode
Report No.: SYBH(Z-SAR)030052017-2
SAR Value
(W/kg)
Power
Drift
(dB)
Conducted
Power
(dBm)
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Page 166 of 219
TuneScaled
up
SAR1-g
Power
(W/kg)
1-g
10-g
(dBm)
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
Front Side
1413/1732.6 RMC
0.529 0.329
-0.19
23.44
24.00
0.602
0.687
Back Side
1413/1732.6 RMC
0.604 0.370
0.00
23.44
24.00
Left Side
1413/1732.6 RMC
0.169 0.095
-0.05
23.44
24.00
0.192
Right Side
1413/1732.7 RMC
0.544 0.331
0.19
23.44
24.00
0.619
Bottom Side
1413/1732.6 RMC
0.419 0.235
0.13
23.44
24.00
0.477
Tested at the worst position with battery 2#
Back Side
1413/1732.6 RMC
0.501 0.302
0.02
23.44
24.00
0.570
Tested at the worst position with battery 3#
Back Side
1413/1732.6 RMC
0.557 0.343
-0.01
23.44
24.00
0.634
Test data of MHA-L29 (new)
0.429
Back Side
1413/1732.6 RMC
0.377 0.242
-0.01
23.44
24.00
Table 105: Hotspot SAR test results of UMTS Band IV
Note: Per KDB 648474 D04, Product Specific 10-g SAR test is not required for this frequency band
hotspot mode 1-g reported SAR < 1.2 W/kg.
Test Position
of Hotspot
with 10mm
Test
channel /
Freq.(MHz)
Test
Mode
Report No.: SYBH(Z-SAR)030052017-2
SAR Value
(W/kg)
Power
Drift
(dB)
Conducted
Power
(dBm)
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
SAR
Plot
Yes
since
Page 167 of 219
7.2.19 SAR measurement Result of UMTS Band V(Main Antenna)
Test Position
of Head
Test
channel /
Freq.(MHz)
Test
Mode
SAR Value
(W/kg)
1-g
10-g
Power
Drift
(dB)
Conducted
Power
(dBm)
Tuneup
Power
(dBm)
Scaled
SAR1-g
(W/kg)
SAR
Plot
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
Left touch
4182/836.4
RMC
0.309
0.236
0.02
23.35
24.50
0.403
Left tilt
4182/836.4
RMC
0.259
0.169
0.09
23.35
24.50
0.338
Right touch
4182/836.4
RMC
0.367
0.277
0.10
23.35
24.50
0.478
Right tilt
4182/836.4
RMC
0.242
0.168
0.02
23.35
24.50
0.315
Right touch
4132/826.4
RMC
0.352
0.268
0.14
23.34
24.50
0.460
Right touch
4233/846.6
RMC
0.374
0.281
0.15
23.23
24.50
0.501
24.50
0.492
23.23
24.50
0.484
23.23
24.50
0.360
Yes
Scaled
SAR1-g
(W/kg)
SAR
Plot
0.405
0.448
0.439
0.429
0.341
Yes
Tested at the worst position with battery 2#
Right touch
4233/846.6
RMC
0.367
0.277
0.06
23.23
Tested at the worst position with battery 3#
Right touch
4233/846.6
RMC
0.361
0.273
0.07
Test data of MHA-L29 (new)
Right touch
4233/846.6
RMC
0.269
0.208
0.01
Table 106: Head SAR test results of UMTS Band V
TuneTest
up
Mode
Power
1-g
10-g
(dBm)
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
Front Side
4182/836.4
RMC
0.311 0.236
0.02
23.35
24.50
Back Side
4182/836.4
RMC
0.344 0.262
-0.02
23.35
24.50
Tested at the worst position with battery 2#
Back Side
4182/836.4
RMC
0.337 0.238
-0.03
23.35
24.50
Tested at the worst position with battery 3#
Back Side
4182/836.4
RMC
0.329 0.233
-0.03
23.35
24.50
Test data of MHA-L29 (new)
Back Side
4182/836.4
RMC
0.262 0.201
-0.02
23.35
24.50
Table 107: Body-Worn SAR test results of UMTS Band V
Test Position
of Body-Worn
with 15mm
Test
channel /
Freq.(MHz)
Report No.: SYBH(Z-SAR)030052017-2
SAR Value
(W/kg)
Power
Drift
(dB)
Conducted
Power
(dBm)
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Page 168 of 219
TuneScaled
up
SAR1-g
Power
(W/kg)
1-g
10-g
(dBm)
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
Front Side
4182/836.4
RMC
0.317 0.225
-0.07
23.35
24.50
0.413
Back Side
4182/836.4
RMC
0.381 0.289
-0.02
23.35
24.50
0.497
Left Side
4182/836.4
RMC
0.254 0.171
-0.13
23.35
24.50
0.331
0.764
Right Side
4182/836.4
RMC
0.586 0.391
-0.05
23.35
24.50
Bottom Side
4182/836.4
RMC
0.194 0.099
0.06
23.35
24.50
0.253
Tested at the worst position with battery 2#
Right Side
4182/836.4
RMC
0.566 0.374
-0.11
23.35
24.50
0.738
Tested at the worst position with battery 3#
Right Side
4182/836.4
RMC
0.533 0.359
0.01
23.35
24.50
0.695
Test data of MHA-L29 (new)
0.322
Right Side
4182/836.4
RMC
0.247 0.168
-0.11
23.35
24.50
Table 108: Hotspot SAR test results of UMTS Band V
Note: Per KDB 648474 D04, Product Specific 10-g SAR test is not required for this frequency band
hotspot mode 1-g reported SAR < 1.2 W/kg.
Test Position
of Hotspot
with 10mm
Test
channel /
Freq.(MHz)
Test
Mode
Report No.: SYBH(Z-SAR)030052017-2
SAR Value
(W/kg)
Power
Drift
(dB)
Conducted
Power
(dBm)
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
SAR
Plot
Yes
since
Page 169 of 219
7.2.20 SAR measurement Result of LTE Band II(Main Antenna)
SAR Value
Test
Power Conducted Tune-up
(W/kg)
channel /
Test Mode
Drift
Power
Power
Freq.(MHz)
(dB)
(dBm)
(dBm)
1-g
10-g
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
1RB
20M QPSK
Left touch
18900/1880
0.186 0.119
0.18
23.17
23.50
1RB#50
20M QPSK
Left tilt
18900/1880
0.166 0.098
0.06
23.17
23.50
1RB#50
20M QPSK
Right touch 18900/1880
0.333 0.210
0.02
23.17
23.50
1RB#50
20M QPSK
Right tilt
18900/1880
0.143 0.078
0.03
23.17
23.50
1RB#50
20M QPSK
Right touch 18700/1860
0.489 0.309
0.08
22.56
23.50
1RB#50
20M QPSK
Right touch 19100/1900
0.249 0.144
0.18
22.70
23.50
1RB#50
50%RB
20M QPSK
Left touch
18900/1880
0.142 0.083
0.11
22.15
23.00
50%RB#0
20M QPSK
Left tilt
18900/1880
0.127 0.074
0.14
22.15
23.00
50%RB#0
20M QPSK
Right touch 18900/1880
0.259 0.150
0.14
22.15
23.00
50%RB#0
20M QPSK
Right tilt
18900/1880
0.116 0.063
0.05
22.15
23.00
50%RB#0
Tested at the worst position with battery 2#
20M QPSK
Right touch 18700/1860
0.494 0.312
0.14
22.56
23.50
1RB#50
Tested at the worst position with battery 3#
20M QPSK
Right touch 18700/1860
0.490 0.309
0.08
22.56
23.50
1RB#50
Test data of MHA-L29 (new)
20M QPSK
Right touch 18700/1860
0.392 0.250
0.05
22.56
23.50
1RB#50
Table 109: Head SAR test results of LTE Band II
Test
Position of
Head
Report No.: SYBH(Z-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Scaled
SAR1-g
(W/kg)
SAR
Plot
0.201
0.179
0.359
0.154
0.607
0.299
0.173
0.154
0.315
0.141
0.613
0.608
0.487
Yes
Page 170 of 219
Test
Position of
Body-Worn
with 15mm
Test
channel /
Freq.(MHz)
Test Mode
SAR Value
(W/kg)
1-g
10-g
Power
Drift
(dB)
Conducted
Power
(dBm)
Tune-up
Power
(dBm)
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
1RB
20M QPSK
Front Side 18900/1880
0.344 0.192
-0.10
23.17
23.50
1RB#50
20M QPSK
Back Side
18900/1880
0.523 0.295
0.15
23.17
23.50
1RB#50
50%RB
20M QPSK
Front Side 18900/1880
0.248 0.145
-0.14
22.15
23.00
50%RB#0
20M QPSK
Back Side
18900/1880
0.344 0.194
-0.02
22.15
23.00
50%RB#0
Tested at the worst position with battery 2#
20M QPSK
Back Side
18900/1880
0.525 0.295
0.15
23.17
23.50
1RB#50
Tested at the worst position with battery 3#
20M QPSK
Back Side
18900/1880
0.506 0.287
0.16
23.17
23.50
1RB#50
Test data of MHA-L29 (new)
20M QPSK
Back Side
18900/1880
0.383 0.214
0.00
23.17
23.50
1RB#50
Table 110: Body-Worn SAR test results of LTE Band II
Report No.: SYBH(Z-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Scaled
SAR1-g
(W/kg)
SAR
Plot
0.371
0.564
0.302
0.418
0.566
0.546
0.413
Yes
Page 171 of 219
Test
Position of
Hotspot with
10mm
Tuneup
Test Mode
Power
1-g
10-g
(dBm)
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
1RB
20M QPSK
Front Side
18900/1880
0.414 0.226
0.11
20.93
21.50
1RB#50
20M QPSK
Back Side
18900/1880
0.616 0.320
0.00
20.93
21.50
1RB#50
20M QPSK
Left Side
18900/1880
0.136 0.076
-0.12
20.93
21.50
1RB#50
20M QPSK
Right Side
18900/1880
0.331 0.196
0.03
20.93
21.50
1RB#50
20M QPSK
Bottom Side 18900/1880
0.898 0.477
-0.05
20.93
21.50
1RB#50
20M QPSK
Bottom Side 18700/1860
1.060 0.563
-0.01
20.86
21.50
1RB#50
Bottom Side20M QPSK
18700/1860
1.000 0.526
0.00
20.86
21.50
Repeated
1RB#50
20M QPSK
Bottom Side 19100/1900
0.851 0.451
-0.03
20.55
21.50
1RB#50
50%RB
20M QPSK
Front Side
18900/1880
0.381 0.205
-0.15
20.74
21.00
50%RB#25
20M QPSK
Back Side
18900/1880
0.573 0.297
0.05
20.74
21.00
50%RB#25
20M QPSK
Left Side
18900/1880
0.129 0.075
-0.09
20.74
21.00
50%RB#25
20M QPSK
Right Side
18900/1880
0.313 0.160
0.02
20.74
21.00
50%RB#25
20M QPSK
Bottom Side 18900/1880
0.871 0.461
-0.06
20.74
21.00
50%RB#25
20M QPSK
Bottom Side 18700/1860
0.968 0.512
-0.06
20.73
21.00
50%RB#25
20M QPSK
Bottom Side 19100/1900
0.877 0.466
-0.09
20.62
21.00
50%RB#25
100%RB
20M QPSK
Bottom Side 18900/1880
0.859 0.455
-0.07
20.61
21.00
100%RB#0
Tested at the worst position with battery 2#
20M QPSK
Bottom Side 18700/1860
0.946 0.502
-0.03
20.86
21.50
1RB#50
Tested at the worst position with battery 3#
20M QPSK
Bottom Side 18700/1860
0.950 0.503
-0.06
20.86
21.50
1RB#50
Test data of MHA-L29 (new)
20M QPSK
Bottom Side 18700/1860
0.797 0.423
-0.17
20.86
21.50
1RB#50
Table 111: Hotspot SAR test results of LTE Band II
Test
channel /
Freq.(MHz)
Report No.: SYBH(Z-SAR)030052017-2
SAR Value
(W/kg)
Power
Drift
(dB)
Conducted
Power
(dBm)
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Scaled
SAR1-g
(W/kg)
SAR
Plot
0.472
0.702
0.155
0.377
1.024
1.228
1.159
1.059
0.405
0.608
0.137
0.332
0.925
1.030
0.957
0.940
1.096
1.101
0.924
Yes
Page 172 of 219
Per KDB648474D04, when hotspot mode applies, Product Specific 10-g SAR is required only for the
surfaces and edges with hotspot mode 1-g reported SAR > 1.2 W/kg; however, when power reduction
applies to hotspot mode the measured SAR must be scaled to the maximum output power, including
tolerance, allowed for phablet modes to compare with the 1.2 W/kg SAR test reduction threshold:
Test
SAR Value
TuneProduct
Test
Power Conducted
Scaled
Position of
(W/kg)
up
Specific
channel /
Test Mode
Drift
Power
SAR1-g
Hotspot
Power
10-g SAR
Freq.(MHz)
(dB)
(dBm)
(W/kg)
1-g
10-g
with 10mm
(dBm)
Exclusion
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
1RB
20M QPSK
Front Side 18900/1880
0.414 0.226
0.11
20.93
23.50
0.748
Yes
1RB#50
20M QPSK
Back Side
18900/1880
0.616 0.320
0.00
20.93
23.50
1.113
Yes
1RB#50
20M QPSK
Left Side
18900/1880
0.136 0.076
-0.12
20.93
23.50
0.246
Yes
1RB#50
20M QPSK
Right Side 18900/1880
0.331 0.196
0.03
20.93
23.50
0.598
Yes
1RB#50
20M QPSK
Bottom Side 18900/1880
0.898 0.477
-0.05
20.93
23.50
1.623
No
1RB#50
20M QPSK
Bottom Side 18700/1860
1.060 0.563
-0.01
20.86
23.50
1.947
No
1RB#50
Bottom Side
20M QPSK
18700/1860
1.000 0.526
0.00
20.86
23.50
1.837
No
Repeated
1RB#50
20M QPSK
Bottom Side 19100/1900
0.851 0.451
-0.03
20.55
23.50
1.679
No
1RB#50
50%RB
20M QPSK
Front Side 18900/1880
0.381 0.205
-0.15
20.74
23.00
0.641
Yes
50%RB#25
20M QPSK
Back Side
18900/1880
0.573 0.297
0.05
20.74
23.00
0.964
Yes
50%RB#25
20M QPSK
Left Side
18900/1880
0.129 0.075
-0.09
20.74
23.00
0.217
Yes
50%RB#25
20M QPSK
Right Side 18900/1880
0.313 0.160
0.02
20.74
23.00
0.527
Yes
50%RB#25
20M QPSK
Bottom Side 18900/1880
0.871 0.461
-0.06
20.74
23.00
1.466
No
50%RB#25
20M QPSK
Bottom Side 18700/1860
0.968 0.512
-0.06
20.73
23.00
1.633
No
50%RB#25
20M QPSK
Bottom Side 19100/1900
0.877 0.466
-0.09
20.62
23.00
1.517
No
50%RB#25
100%RB
20M QPSK
Bottom Side 18900/1880
0.859 0.455
-0.07
20.61
23.00
1.489
No
100%RB#0
Tested at the worst position with battery 2#
20M QPSK
Bottom Side 18700/1860
0.946 0.502
-0.03
20.86
23.50
1.737
No
1RB#50
Tested at the worst position with battery 3#
20M QPSK
Bottom Side 18700/1860
0.950 0.503
-0.06
20.86
23.50
1.745
No
1RB#50
Report No.: SYBH(Z-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Page 173 of 219
Test data of MHA-L29 (new)
20M QPSK
0.797 0.423
-0.17
20.86
23.50
1.464
No
1RB#50
Table 112: Product Specific 10-g SAR test reduction evaluation of LTE Band II
Note : According to the table above , only Bottom Side Product Specific 10-g SAR test is required for
this frequency band:
Test Position
SAR Value
TuneTest
Power Conducted
Scaled
of Product
(W/kg)
up
SAR
channel
Test Mode
Drift
Power
SAR10-g
Specific 10-g
Power
Plot
/Freq.(MHz)
(dB)
(dBm)
(W/kg)
1-g
10-g
SAR with 0mm
(dBm)
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
1RB
20M QPSK
Bottom Side
18900/1880
0.670 0.293
-0.15
23.17
23.50
0.316
1RB#50
50%RB
20M QPSK
0.334
Bottom Side
18900/1880
0.624 0.275
-0.15
22.15
23.00
50%RB#0
Tested at the worst position with battery 2#
20M QPSK
Bottom Side
18900/1880
0.628 0.266
-0.18
22.15
23.00
0.324
50%RB#0
Tested at the worst position with battery 3#
20M QPSK
Bottom Side
18900/1880
0.622 0.271
0.16
22.15
23.00
0.330
50%RB#0
Test data of MHA-L29 (new)
20M QPSK
0.227
Bottom Side
18900/1880
0.434 0.187
0.01
22.15
23.00
Yes
50%RB#0
Table 113: Product Specific 10-g SAR results of LTE Band II
Bottom Side
18700/1860
Report No.: SYBH(Z-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Page 174 of 219
7.2.21 SAR measurement Result of LTE Band IV(Main Antenna)
SAR Value
Test
Power Conducte Tune-up
(W/kg)
channel /
Test Mode
Drift
d Power
Power
Freq.(MHz)
(dB)
(dBm)
(dBm)
1-g
10-g
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
1RB
20M QPSK
Left touch
20050/1720
0.316 0.200
-0.15
22.54
24.00
1RB#50
20M QPSK
Left tilt
20050/1720
0.273 0.165
0.03
22.54
24.00
1RB#50
20M QPSK
Right touch
20050/1720
0.656 0.430
-0.13
22.54
24.00
1RB#50
20M QPSK
Right touch 20175/1732.5
0.557 0.337
-0.16
22.53
24.00
1RB#0
20M QPSK
Right touch
20300/1745
0.705 0.460
0.18
22.18
24.00
1RB#50
20M QPSK
Right tilt
20050/1720
0.262 0.176
0.05
22.54
24.00
1RB#50
50%RB
20M QPSK
Left touch
20050/1720
0.221 0.140
0.15
21.30
23.00
50%RB#25
20M QPSK
Left tilt
20050/1720
0.187 0.113
-0.09
21.30
23.00
50%RB#25
20M QPSK
Right touch
20050/1720
0.458 0.301
0.07
21.30
23.00
50%RB#25
20M QPSK
Right tilt
20050/1720
0.181 0.121
-0.01
21.30
23.00
50%RB#25
100%RB
20M QPSK
Right touch
20050/1720
0.364 0.221
0.15
21.04
23.00
100%RB#0
Tested at the worst position with battery 2#
20M QPSK
Right touch
20300/1745
0.625 0.409
0.10
22.18
24.00
1RB#50
Table 114: Head SAR test results of LTE Band IV
Test
Position of
Head
Report No.: SYBH(Z-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Scaled
SAR1-g
(W/kg)
SAR
Plot
0.442
0.382
0.918
0.781
1.072
Yes
0.367
0.327
0.277
0.677
0.268
0.572
0.950
Page 175 of 219
Test
Position of
Body-Worn
with 15mm
Test
channel /
Freq.(MHz)
Test Mode
SAR Value
(W/kg)
1-g
10-g
Power
Drift
(dB)
Conducte
d Power
(dBm)
Tune-up
Power
(dBm)
Scaled
SAR1-g
(W/kg)
SAR
Plot
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
1RB
20M QPSK
Front Side
20050/1720
0.222 0.153
-0.04
22.54
24.00
0.311
1RB#50
20M QPSK
0.374
Back Side
20050/1720
0.267 0.183
0.00
22.54
24.00
Yes
1RB#50
50%RB
20M QPSK
Front Side
20050/1720
0.171 0.110
-0.07
21.30
23.00
0.253
50%RB#25
20M QPSK
Back Side
20050/1720
0.180 0.115
-0.01
21.30
23.00
0.266
50%RB#25
Tested at the worst position with battery 2#
20M QPSK
Back Side
20050/1720
0.230 0.158
0.05
22.54
24.00
0.322
1RB#50
Table 115: Body-Worn SAR test results of LTE Band IV
Test
SAR Value
TunePower Conducted
Scaled
Position of Test channel /
(W/kg)
up
SAR
Test Mode
Drift
Power
SAR1-g
Hotspot
Freq.(MHz)
Power
Plot
(dB)
(dBm)
(W/kg)
1-g
10-g
with 10mm
(dBm)
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
1RB
20M QPSK
Front Side
20050/1720
0.426 0.294
-0.15
22.54
24.00
0.596
1RB#50
20M QPSK
0.626
Back Side
20050/1720
0.447 0.291
0.10
22.54
24.00
Yes
1RB#50
20M QPSK
Left Side
20050/1720
0.167 0.097
-0.09
22.54
24.00
0.234
1RB#50
20M QPSK
Right Side
20050/1720
0.370 0.218
0.05
22.54
24.00
0.518
1RB#50
20M QPSK
Bottom Side
20050/1720
0.243 0.136
0.05
22.54
24.00
0.340
1RB#50
50%RB
20M QPSK
Front Side
20050/1720
0.288 0.182
-0.05
21.30
23.00
0.426
50%RB#25
20M QPSK
Back Side
20050/1720
0.296 0.183
0.04
21.30
23.00
0.438
50%RB#25
20M QPSK
Left Side
20050/1720
0.111 0.065
0.00
21.30
23.00
0.164
50%RB#25
20M QPSK
Right Side
20050/1720
0.252 0.148
-0.02
21.30
23.00
0.373
50%RB#25
20M QPSK
Bottom Side
20050/1720
0.166 0.089
-0.13
21.30
23.00
0.246
50%RB#25
Tested at the worst position with battery 2#
20M QPSK
Back Side
20050/1720
0.415 0.267
-0.15
22.54
24.00
0.581
1RB#50
Table 116: Hotspot SAR test results of LTE Band IV
Note: Per KDB 648474 D04, Product Specific 10-g SAR test is not required for this frequency band since
hotspot mode 1-g reported SAR < 1.2 W/kg.
Report No.: SYBH(Z-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Page 176 of 219
7.2.22 SAR measurement Result of LTE Band V(Main Antenna)
SAR Value
Test
Power Conducted Tune-up
(W/kg)
channel /
Test Mode
Drift
Power
Power
Freq.(MHz)
(dB)
(dBm)
(dBm)
1-g
10-g
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
1RB
10M QPSK
Left touch
20600/844
0.257 0.195
0.05
23.35
24.00
1RB#25
10M QPSK
Left tilt
20600/844
0.222 0.148
0.10
23.35
24.00
1RB#25
10M QPSK
Right touch
20600/844
0.320 0.242
0.11
23.35
24.00
1RB#25
10M QPSK
Right tilt
20600/844
0.199 0.135
0.05
23.35
24.00
1RB#25
10M QPSK
Right touch
20450/829
0.310 0.236
0.06
23.22
24.00
1RB#25
10M QPSK
Right touch 20525/836.5
0.258 0.196
0.04
22.87
24.00
1RB#25
50%RB
10M QPSK
Left touch
20450/829
0.215 0.148
0.17
22.30
23.00
50%RB#13
10M QPSK
Left tilt
20450/829
0.180 0.123
0.15
22.30
23.00
50%RB#13
10M QPSK
Right touch
20450/829
0.236 0.163
0.11
22.30
23.00
50%RB#13
10M QPSK
Right tilt
20450/829
0.166 0.116
0.13
22.30
23.00
50%RB#13
Tested at the worst position with battery 2#
10M QPSK
Right touch
20600/844
0.314 0.238
-0.08
23.35
24.00
1RB#25
Tested at the worst position with battery 3#
10M QPSK
Right touch
20600/844
0.303 0.238
0.13
23.35
24.00
1RB#25
Test data of MHA-L29 (new)
10M QPSK
Right touch
20600/844
0.290 0.226
-0.02
23.35
24.00
1RB#25
Table 117: Head SAR test results of LTE Band V
Test
Position of
Head
Report No.: SYBH(Z-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Scaled
SAR1-g
(W/kg)
SAR
Plot
0.298
0.258
0.372
0.231
0.371
0.335
0.253
0.211
0.277
0.195
0.365
0.352
0.337
Yes
Page 177 of 219
Test
Position of
Body-Worn
with 15mm
Test
channel /
Freq.(MHz)
Test Mode
SAR Value
(W/kg)
1-g
10-g
Power
Drift
(dB)
Conducted
Power
(dBm)
Tune-up
Power
(dBm)
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
1RB
10M QPSK
Front Side
20600/844
0.261 0.198
0.01
23.35
24.00
1RB#25
10M QPSK
Back Side
20600/844
0.293 0.222
0.01
23.35
24.00
1RB#25
50%RB
10M QPSK
Front Side
20450/829
0.191 0.102
0.01
22.30
23.00
50%RB#13
10M QPSK
Back Side
20450/829
0.205 0.145
0.01
22.30
23.00
50%RB#13
Tested at the worst position with battery 2#
10M QPSK
Back Side
20600/844
0.291 0.221
0.05
23.35
24.00
1RB#25
Tested at the worst position with battery 3#
10M QPSK
Back Side
20600/844
0.266 0.189
0.02
23.35
24.00
1RB#25
Test data of MHA-L29 (new)
10M QPSK
Back Side
20600/844
0.309 0.237
0.00
23.35
24.00
1RB#25
Table 118: Body-Worn SAR test results of LTE Band V
Report No.: SYBH(Z-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Scaled
SAR1-g
(W/kg)
SAR
Plot
0.303
0.340
0.224
0.241
0.338
0.309
0.359
Yes
Page 178 of 219
Test
Position of
Hotspot
with 10mm
Test
channel /
Freq.(MHz)
Test Mode
SAR Value
(W/kg)
1-g
10-g
Power
Drift
(dB)
Conducted
Power
(dBm)
Scaled
SAR1-g
(W/kg)
SAR
Plot
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
1RB
10M QPSK
Front Side
20600/844
0.279 0.190
-0.02
23.35
24.00
0.324
1RB#25
10M QPSK
Back Side
20600/844
0.316 0.193
0.01
23.35
24.00
0.367
1RB#25
10M QPSK
Left Side
20600/844
0.213 0.141
0.01
23.35
24.00
0.247
1RB#25
10M QPSK
0.542
Right Side
20600/844
0.467 0.314
0.15
23.35
24.00
1RB#25
10M QPSK
Bottom Side
20600/844
0.150 0.075
0.13
23.35
24.00
0.174
1RB#25
50%RB
10M QPSK
Front Side
20450/829
0.189 0.134
-0.02
22.30
23.00
0.222
50%RB#13
10M QPSK
Back Side
20450/829
0.224 0.157
0.01
22.30
23.00
0.263
50%RB#13
10M QPSK
Left Side
20450/829
0.181 0.120
0.03
22.30
23.00
0.213
50%RB#13
10M QPSK
Right Side
20450/829
0.308 0.208
0.05
22.30
23.00
0.362
50%RB#13
10M QPSK
Bottom Side
20450/829
0.074 0.043
0.17
22.30
23.00
0.087
50%RB#13
Tested at the worst position with battery 2#
10M QPSK
Right Side
20600/844
0.464 0.312
0.16
23.35
24.00
0.539
1RB#25
Tested at the worst position with battery 3#
10M QPSK
Right Side
20600/844
0.466 0.313
0.09
23.35
24.00
0.541
1RB#25
Test data of MHA-L29 (new)
10M QPSK
0.360
Right Side
20600/844
0.310 0.212
-0.09
23.35
24.00
Yes
1RB#25
Table 119: Hotspot SAR test results of LTE Band V
Note: Per KDB 648474 D04, Product Specific 10-g SAR test is not required for this frequency band since
hotspot mode 1-g reported SAR < 1.2 W/kg.
Report No.: SYBH(Z-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Page 179 of 219
7.2.23 SAR measurement Result of LTE Band VII(Main Antenna)
SAR Value
Test
Power Conducted Tune-up
(W/kg)
channel /
Test Mode
Drift
Power
Power
Freq.(MHz)
(dB)
(dBm)
(dBm)
1-g
10-g
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
1RB
20M QPSK
Left touch
20850/2510
0.336 0.186
0.06
22.55
23.00
1RB#50
20M QPSK
Left tilt
20850/2510
0.185 0.095
0.00
22.55
23.00
1RB#50
20M QPSK
Right touch 20850/2510
0.262 0.142
0.17
22.55
23.00
1RB#50
20M QPSK
Right tilt
20850/2510
0.137 0.065
0.17
22.55
23.00
1RB#50
20M QPSK
Left touch
21100/2535
0.183 0.102
0.10
21.88
23.00
1RB#50
20M QPSK
Left touch
21350/2560
0.154 0.080
0.13
22.12
23.00
1RB#0
50%RB
20M QPSK
Left touch
20850/2510
0.256 0.142
0.19
21.57
22.00
50%RB#25
20M QPSK
Left tilt
20850/2510
0.154 0.079
0.12
21.57
22.00
50%RB#25
20M QPSK
Right touch 20850/2510
0.216 0.117
-0.01
21.57
22.00
50%RB#25
20M QPSK
Right tilt
20850/2510
0.112 0.053
-0.02
21.57
22.00
50%RB#25
Tested at the worst position with battery 2#
20M QPSK
Left touch
20850/2510
0.335 0.188
0.19
22.55
23.00
1RB#50
Table 120: Head SAR test results of LTE Band VII
Test
Position of
Head
Report No.: SYBH(Z-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Scaled
SAR1-g
(W/kg)
SAR
Plot
0.373
Yes
0.205
0.291
0.152
0.237
0.189
0.283
0.170
0.238
0.124
0.372
Page 180 of 219
Test
Position of
Body-Worn
with 15mm
Test
channel /
Freq.(MHz)
Test Mode
SAR Value
(W/kg)
1-g
10-g
Power
Drift
(dB)
Conducted
Power
(dBm)
Tune-up
Power
(dBm)
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
1RB
20M QPSK
Front Side 20850/2510
0.310 0.166
-0.14
22.55
23.00
1RB#50
20M QPSK
Back Side
20850/2510
0.295 0.157
-0.18
22.55
23.00
1RB#50
50%RB
20M QPSK
Front Side 20850/2510
0.261 0.141
-0.19
21.57
22.00
50%RB#25
20M QPSK
Back Side
20850/2510
0.250 0.136
0.17
21.57
22.00
50%RB#25
Tested at the worst position with battery 2#
20M QPSK
Front Side 20850/2510
0.278 0.149
-0.15
22.55
23.00
1RB#50
Table 121: Body-Worn SAR test results of LTE Band VII
Report No.: SYBH(Z-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Scaled
SAR1-g
(W/kg)
SAR
Plot
0.344
Yes
0.327
0.288
0.276
0.308
Page 181 of 219
Test
Position of
Hotspot with
10mm
TuneScaled
up
SAR
Test Mode
SAR1-g
Power
Plot
(W/kg)
1-g
10-g
(dBm)
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
1RB
20M QPSK
0.699
Front Side
20850/2510
0.630 0.295
-0.03
22.55
23.00
Yes
1RB#50
20M QPSK
Back Side
20850/2510
0.515 0.258
0.09
22.55
23.00
0.571
1RB#50
20M QPSK
Left Side
20850/2510
0.144 0.075
0.07
22.55
23.00
0.160
1RB#50
20M QPSK
Right Side
20850/2510
0.356 0.185
-0.14
22.55
23.00
0.395
1RB#50
20M QPSK
Bottom Side 20850/2510
0.433 0.169
-0.01
22.55
23.00
0.480
1RB#50
50%RB
20M QPSK
Front Side
20850/2510
0.458 0.234
-0.18
21.57
22.00
0.506
50%RB#25
20M QPSK
Back Side
20850/2510
0.473 0.241
0.01
21.57
22.00
0.522
50%RB#25
20M QPSK
Right Side
20850/2510
0.266 0.140
-0.06
21.57
22.00
0.294
50%RB#25
20M QPSK
Left Side
20850/2510
0.195 0.101
-0.15
21.57
22.00
0.215
50%RB#25
20M QPSK
Bottom Side 20850/2510
0.391 0.187
0.01
21.57
22.00
0.432
50%RB#25
Tested at the worst position with battery 2#
20M QPSK
Front Side
20850/2510
0.542 0.254
-0.13
22.55
23.00
0.601
1RB#50
Table 122: Hotspot SAR test results of LTE Band VII
Note: Per KDB 648474 D04, Product Specific 10-g SAR test is not required for this frequency band since
hotspot mode 1-g reported SAR < 1.2 W/kg.
Test
channel /
Freq.(MHz)
Report No.: SYBH(Z-SAR)030052017-2
SAR Value
(W/kg)
Power
Drift
(dB)
Conducted
Power
(dBm)
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Page 182 of 219
7.2.24 SAR measurement Result of LTE Band XII(Main Antenna)
SAR Value
Test
Power Conducted Tune-up
(W/kg)
channel /
Test Mode
Drift
Power
Power
Freq.(MHz)
(dB)
(dBm)
(dBm)
1-g
10-g
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
1RB
10M QPSK
Left touch
23130/711
0.096 0.067
0.13
22.98
23.50
1RB#25
10M QPSK
Left tilt
23130/711
0.097 0.060
0.10
22.98
23.50
1RB#25
10M QPSK
Right touch
23130/711
0.126 0.100
-0.12
22.98
23.50
1RB#25
10M QPSK
Right touch
23060/704
0.175 0.139
0.02
22.88
23.50
1RB#25
23095/707. 10M QPSK
Right touch
0.173 0.138
-0.02
22.83
23.50
1RB#0
10M QPSK
Right tilt
23130/711
0.065 0.046
0.11
22.98
23.50
1RB#25
50%RB
10M QPSK
Left touch
23130/711
0.097 0.068
-0.11
21.97
23.00
50%RB#13
10M QPSK
Left tilt
23130/711
0.081 0.051
0.03
21.97
23.00
50%RB#13
10M QPSK
Right touch
23130/711
0.119 0.084
0.03
21.97
23.00
50%RB#13
10M QPSK
Right tilt
23130/711
0.066 0.047
0.02
21.97
23.00
50%RB#13
Tested at the worst position with battery 2#
10M QPSK
Right touch
23060/704
0.176 0.139
0.07
22.88
23.50
1RB#25
Tested at the worst position with battery 3#
10M QPSK
Right touch
23060/704
0.166 0.116
0.01
22.88
23.50
1RB#25
Test data of MHA-L29 (new)
10M QPSK
Right touch
23060/704
0.268 0.209
0.04
22.88
23.50
1RB#25
Table 123: Head SAR test results of LTE Band XII
Test
Position of
Head
Report No.: SYBH(Z-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Scaled
SAR1-g
(W/kg)
SAR
Plot
0.109
0.109
0.142
0.202
0.202
0.073
0.123
0.103
0.151
0.084
0.203
0.191
0.309
Yes
Page 183 of 219
Test
Position of
Body-Worn
with 15mm
Test
channel /
Freq.(MHz)
Test Mode
SAR Value
(W/kg)
1-g
10-g
Power
Drift
(dB)
Conducted
Power
(dBm)
Tune-up
Power
(dBm)
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
1RB
10M QPSK
Front Side
23130/711
0.126 0.091
0.02
22.98
23.50
1RB#25
10M QPSK
Back Side
23130/711
0.150 0.117
0.03
22.98
23.50
1RB#25
50%RB
10M QPSK
Front Side
23130/711
0.127 0.091
0.00
21.97
23.00
50%RB#13
10M QPSK
Back Side
23130/711
0.170 0.131
-0.04
21.97
23.00
50%RB#13
Tested at the worst position with battery 2#
10M QPSK
Back Side
23130/711
0.165 0.117
0.00
21.97
23.00
50%RB#13
Tested at the worst position with battery 3#
10M QPSK
Back Side
23130/711
0.167 0.118
-0.01
21.97
23.00
50%RB#13
Test data of MHA-L29 (new)
10M QPSK
Back Side
23130/711
0.163 0.125
-0.03
21.97
23.00
50%RB#13
Table 124: Body-Worn SAR test results of LTE Band XII
Report No.: SYBH(Z-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Scaled
SAR1-g
(W/kg)
SAR
Plot
0.142
0.169
0.161
0.216
0.209
0.212
0.207
Yes
Page 184 of 219
Test
Position of
Hotspot with
10mm
TuneScaled
up
SAR
Test Mode
SAR1-g
Power
Plot
(W/kg)
1-g
10-g
(dBm)
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
1RB
10M QPSK
Front Side
23130/711
0.186 0.118
0.01
22.98
23.50
0.210
1RB#25
10M QPSK
Back Side
23130/711
0.190 0.114
0.02
22.98
23.50
0.214
1RB#25
10M QPSK
Left Side
23130/711
0.129 0.088
-0.05
22.98
23.50
0.145
1RB#25
10M QPSK
Right Side
23130/711
0.196 0.135
0.00
22.98
23.50
0.221
1RB#25
10M QPSK
Bottom Side
23130/711
0.158 0.080
-0.02
22.98
23.50
0.178
1RB#25
50%RB
10M QPSK
Front Side
23130/711
0.187 0.119
0.05
21.97
23.00
0.237
50%RB#13
10M QPSK
Back Side
23130/711
0.192 0.115
-0.01
21.97
23.00
0.243
50%RB#13
10M QPSK
Left Side
23130/711
0.130 0.088
-0.03
21.97
23.00
0.165
50%RB#13
10M QPSK
0.262
Right Side
23130/711
0.207 0.143
0.03
21.97
23.00
50%RB#13
10M QPSK
Bottom Side
23130/711
0.152 0.077
0.00
21.97
23.00
0.193
50%RB#13
Tested at the worst position with battery 2#
10M QPSK
Right Side
23130/711
0.203 0.140
0.06
21.97
23.00
0.257
50%RB#13
Tested at the worst position with battery 3#
10M QPSK
Right Side
23130/711
0.202 0.140
-0.08
21.97
23.00
0.256
50%RB#13
Test data of MHA-L29 (new)
23095/707. 10M QPSK
0.293
Right Side
0.231 0.160
-0.12
21.97
23.00
Yes
50%RB#13
Table 125: Hotspot SAR test results of LTE Band XII
Note: Per KDB 648474 D04, Product Specific 10-g SAR test is not required for this frequency band since
hotspot mode 1-g reported SAR < 1.2 W/kg.
Test
channel /
Freq.(MHz)
Report No.: SYBH(Z-SAR)030052017-2
SAR Value
(W/kg)
Power
Drift
(dB)
Conducted
Power
(dBm)
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Page 185 of 219
7.2.25 SAR measurement Result of LTE Band XVII(Main Antenna)
SAR Value
Test
Power Conducted Tune-up
(W/kg)
channel /
Test Mode
Drift
Power
Power
Freq.(MHz)
(dB)
(dBm)
(dBm)
1-g
10-g
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
1RB
10M QPSK
Left touch
23800/711
0.149 0.103
0.14
23.50
24.00
1RB#25
10M QPSK
Left tilt
23800/711
0.110 0.068
0.11
23.50
24.00
1RB#25
10M QPSK
Right touch
23800/711
0.186 0.146
-0.06
23.50
24.00
1RB#25
10M QPSK
Right tilt
23800/711
0.093 0.065
0.11
23.50
24.00
1RB#25
10M QPSK
Right touch
23780/709
0.160 0.126
-0.14
23.26
24.00
1RB#25
10M QPSK
Right touch
23790/710
0.172 0.136
0.02
23.35
24.00
1RB#25
50%RB
10M QPSK
Left touch
23800/711
0.123 0.086
0.14
22.56
23.00
50%RB#13
10M QPSK
Left tilt
23800/711
0.078 0.048
0.14
22.56
23.00
50%RB#13
10M QPSK
Right touch
23800/711
0.146 0.102
0.05
22.56
23.00
50%RB#13
10M QPSK
Right tilt
23800/711
0.078 0.055
-0.06
22.56
23.00
50%RB#13
Tested at the worst position with battery 2#
10M QPSK
Right touch
23800/711
0.207 0.162
0.18
23.50
24.00
1RB#25
Tested at the worst position with battery 3#
10M QPSK
Right touch
23800/711
0.201 0.141
0.10
23.50
24.00
1RB#25
Test data of MHA-L29 (new)
10M QPSK
Right touch
23800/711
0.213 0.165
-0.07
23.50
24.00
1RB#25
Table 126: Head SAR test results of LTE Band XVII
Test
Position of
Head
Report No.: SYBH(Z-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Scaled
SAR1-g
(W/kg)
SAR
Plot
0.167
0.123
0.209
0.104
0.190
0.200
0.136
0.086
0.162
0.087
0.232
0.226
0.239
Yes
Page 186 of 219
Test
Position of
Body-Worn
with 15mm
Test
channel /
Freq.(MHz)
Test Mode
SAR Value
(W/kg)
1-g
10-g
Power
Drift
(dB)
Conducted
Power
(dBm)
Tune-up
Power
(dBm)
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
1RB
10M QPSK
Front Side
23800/711
0.192 0.139
-0.01
23.50
24.00
1RB#25
10M QPSK
Back Side
23800/711
0.272 0.213
0.04
23.50
24.00
1RB#25
50%RB
10M QPSK
Front Side
23800/711
0.162 0.117
0.03
22.56
23.00
50%RB#13
10M QPSK
Back Side
23800/711
0.175 0.125
0.04
22.56
23.00
50%RB#13
Tested at the worst position with battery 2#
10M QPSK
Back Side
23800/711
0.229 0.164
0.03
23.50
24.00
1RB#25
Tested at the worst position with battery 3#
10M QPSK
Back Side
23800/711
0.224 0.161
-0.01
23.50
24.00
1RB#25
Test data of MHA-L29 (new)
10M QPSK
Back Side
23800/711
0.254 0.196
-0.04
23.50
24.00
1RB#25
Table 127: Body-Worn SAR test results of LTE Band XVII
Report No.: SYBH(Z-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Scaled
SAR1-g
(W/kg)
SAR
Plot
0.215
0.305
0.179
0.194
0.257
0.251
0.285
Yes
Page 187 of 219
Test
Position of
Hotspot with
10mm
TuneScaled
up
SAR
Test Mode
SAR1-g
Power
Plot
(W/kg)
1-g
10-g
(dBm)
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
1RB
10M QPSK
Front Side
23800/711
0.258 0.175
-0.02
23.50
24.00
0.289
1RB#25
10M QPSK
0.392
Back Side
23800/711
0.349 0.203
0.02
23.50
24.00
1RB#25
10M QPSK
Left Side
23800/711
0.204 0.138
0.00
23.50
24.00
0.229
1RB#25
10M QPSK
Right Side
23800/711
0.309 0.211
0.12
23.50
24.00
0.347
1RB#25
10M QPSK
Bottom Side
23800/711
0.221 0.112
0.08
23.50
24.00
0.248
1RB#25
50%RB
10M QPSK
Front Side
23800/711
0.202 0.140
-0.03
22.56
23.00
0.224
50%RB#13
10M QPSK
Back Side
23800/711
0.278 0.161
0.00
22.56
23.00
0.308
50%RB#13
10M QPSK
Left Side
23800/711
0.154 0.104
0.04
22.56
23.00
0.170
50%RB#13
10M QPSK
Right Side
23800/711
0.286 0.195
0.06
22.56
23.00
0.316
50%RB#13
10M QPSK
Bottom Side
23800/711
0.168 0.085
0.11
22.56
23.00
0.186
50%RB#13
Tested at the worst position with battery 2#
10M QPSK
Back Side
23800/711
0.308 0.218
0.02
23.50
24.00
0.346
1RB#25
Tested at the worst position with battery 3#
10M QPSK
Back Side
23800/711
0.317 0.223
0.05
23.50
24.00
0.356
1RB#25
Test data of MHA-L29 (new)
10M QPSK
0.267
Back Side
23800/711
0.238 0.140
-0.13
23.50
24.00
Yes
1RB#25
Table 128: Hotspot SAR test results of LTE Band XVII
Note: Per KDB 648474 D04, Product Specific 10-g SAR test is not required for this frequency band since
hotspot mode 1-g reported SAR < 1.2 W/kg.
Test
channel /
Freq.(MHz)
Report No.: SYBH(Z-SAR)030052017-2
SAR Value
(W/kg)
Power
Drift
(dB)
Conducted
Power
(dBm)
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Page 188 of 219
7.2.26 SAR measurement Result of LTE Band XXVI(Main Antenna)
SAR Value
Test
Power Conducte Tune-up
(W/kg)
channel /
Test Mode
Drift
d Power
Power
Freq.(MHz)
(dB)
(dBm)
(dBm)
1-g
10-g
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
1RB
15M QPSK
Left touch
26965/841.5
0.217 0.164
0.01
23.52
24.00
1RB#38
15M QPSK
Left tilt
26965/841.5
0.173 0.117
0.16
23.52
24.00
1RB#38
15M QPSK
Right touch 26965/841.5
0.249 0.188
0.17
23.52
24.00
1RB#38
15M QPSK
Right tilt
26965/841.5
0.164 0.112
0.09
23.52
24.00
1RB#38
15M QPSK
Right touch 26775/822.5
0.233 0.178
0.14
23.34
24.00
1RB#38
15M QPSK
Right touch 26865/831.5
0.292 0.222
0.15
23.16
24.00
1RB#38
50%RB
15M QPSK
Left touch
26965/841.5
0.177 0.122
0.11
22.47
23.00
50%RB#18
15M QPSK
Left tilt
26965/841.5
0.145 0.099
0.16
22.47
23.00
50%RB#18
15M QPSK
Right touch 26965/841.5
0.200 0.138
0.02
22.47
23.00
50%RB#18
15M QPSK
Right tilt
26965/841.5
0.135 0.092
0.11
22.47
23.00
50%RB#18
Tested at the worst position with battery 2#
15M QPSK
Right touch 26865/831.5
0.293 0.223
0.07
23.16
24.00
1RB#38
Tested at the worst position with battery 3#
15M QPSK
Right touch 26865/831.5
0.296 0.224
0.11
23.16
24.00
1RB#38
Test data of MHA-L29 (new)
15M QPSK
Right touch 26865/831.5
0.235 0.183
0.07
23.16
24.00
1RB#38
Table 129: Head SAR test results of LTE Band XXVI
Test
Position of
Head
Report No.: SYBH(Z-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Scaled
SAR1-g
(W/kg)
SAR
Plot
0.242
0.193
0.278
0.183
0.271
0.354
0.200
0.164
0.226
0.153
0.356
0.359
0.285
Yes
Page 189 of 219
Test
Position of
Body-Worn
with 15mm
Test
channel /
Freq.(MHz)
Test Mode
SAR Value
(W/kg)
1-g
10-g
Power
Drift
(dB)
Conducted
Power
(dBm)
Tune-up
Power
(dBm)
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
1RB
15M QPSK
Front Side 26965/841.5
0.157 0.119
-0.03
23.52
24.00
1RB#38
15M QPSK
Back Side 26965/841.5
0.188 0.142
0.06
23.52
24.00
1RB#38
50%RB
15M QPSK
Front Side 26965/841.5
0.126 0.089
-0.01
22.47
23.00
50%RB#18
15M QPSK
Back Side 26965/841.5
0.139 0.099
-0.04
22.47
23.00
50%RB#18
Tested at the worst position with battery 2#
15M QPSK
Back Side 26965/841.5
0.188 0.143
-0.01
23.52
24.00
1RB#38
Tested at the worst position with battery 3#
15M QPSK
Back Side 26965/841.5
0.174 0.132
0.03
23.52
24.00
1RB#38
Test data of MHA-L29 (new)
15M QPSK
Back Side 26965/841.5
0.215 0.163
0.02
23.52
24.00
1RB#38
Table 130: Body-Worn SAR test results of LTE Band XXVI
Report No.: SYBH(Z-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Scaled
SAR1-g
(W/kg)
SAR
Plot
0.175
0.210
0.142
0.157
0.210
0.194
0.240
Yes
Page 190 of 219
Test
Position of
Hotspot
with 10mm
TuneScaled
up
SAR
Test Mode
SAR1-g
Power
Plot
(W/kg)
1-g
10-g
(dBm)
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
1RB
15M QPSK
Front Side
26965/841.5
0.163
0.115
0.02
23.52
24.00
0.182
1RB#38
15M QPSK
0.229
Back Side
26965/841.5
0.205
0.154
0.04
23.52
24.00
1RB#38
15M QPSK
Left Side
26965/841.5
0.129
0.085
0.00
23.52
24.00
0.144
1RB#38
15M QPSK
Right Side
26965/841.5
0.127
0.083
0.00
23.52
24.00
0.142
1RB#38
15M QPSK
Bottom Side 26965/841.5
0.103
0.052
0.01
23.52
24.00
0.115
1RB#38
50%RB
15M QPSK
Front Side
26965/841.5
0.146
0.103
0.02
22.47
23.00
0.165
50%RB#18
15M QPSK
Back Side
26965/841.5
0.174
0.122
0.06
22.47
23.00
0.197
50%RB#18
15M QPSK
Left Side
26965/841.5
0.109
0.072
-0.06
22.47
23.00
0.123
50%RB#18
15M QPSK
Right Side
26965/841.5
0.107
0.071
-0.06
22.47
23.00
0.121
50%RB#18
15M QPSK
Bottom Side 26965/841.5
0.093
0.047
-0.05
22.47
23.00
0.105
50%RB#18
Tested at the worst position with battery 2#
15M QPSK
Back Side
26965/841.5
0.183
0.130
0.00
23.52
24.00
0.204
1RB#38
Tested at the worst position with battery 3#
15M QPSK
Back Side
26965/841.5
0.191
0.146
0.03
23.52
24.00
0.213
1RB#38
Test data of MHA-L29 (new)
15M QPSK
0.274
Back Side
26965/841.5
0.245
0.186
0.02
23.52
24.00
Yes
1RB#38
Table 131: Hotspot SAR test results of LTE Band XXVI
Note: Per KDB 648474 D04, Product Specific 10-g SAR test is not required for this frequency band since
hotspot mode 1-g reported SAR < 1.2 W/kg.
Test
channel /
Freq.(MHz)
Report No.: SYBH(Z-SAR)030052017-2
SAR Value
(W/kg)
Power
Drift
(dB)
Conducte
d Power
(dBm)
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Page 191 of 219
7.2.27 SAR measurement Result of LTE Band XXXVIII(Main Antenna)
SAR Value
Test
Power Conducted Tune-up
(W/kg)
channel /
Test Mode
Drift
Power
Power
Freq.(MHz)
(dB)
(dBm)
(dBm)
1-g
10-g
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
1RB
20M QPSK
Left touch
38150/2610
0.328 0.176
0.05
23.32
24.00
1RB#99
20M QPSK
Left tilt
38150/2610
0.107 0.054
0.00
23.32
24.00
1RB#99
20M QPSK
Right touch 38150/2610
0.241 0.122
0.11
23.32
24.00
1RB#99
20M QPSK
Right tilt
38150/2610
0.180 0.092
0.17
23.32
24.00
1RB#99
20M QPSK
Left touch
37850/2580
0.096 0.050
0.19
22.92
24.00
1RB#0
20M QPSK
Left touch
38000/2595
0.125 0.065
0.07
22.99
24.00
1RB#50
50%RB
20M QPSK
Left touch
37850/2580
0.095 0.050
-0.10
22.18
23.00
50%RB#0
20M QPSK
Left tilt
37850/2580
0.048 0.024
0.19
22.18
23.00
50%RB#0
20M QPSK
Right touch 37850/2580
0.101 0.053
-0.13
22.18
23.00
50%RB#0
20M QPSK
Right tilt
37850/2580
0.038 0.019
0.12
22.18
23.00
50%RB#0
Tested at the worst position with battery 2#
20M QPSK
Left touch
38150/2610
0.386 0.212
0.03
23.32
24.00
1RB#99
Table 132: Head SAR test results of LTE Band XXXVIII
Test
Position of
Head
Test
Position of
Body-Worn
with 15mm
Test
channel /
Freq.(MHz)
Test Mode
SAR Value
(W/kg)
1-g
10-g
Power
Drift
(dB)
Conducted
Power
(dBm)
Tune-up
Power
(dBm)
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
1RB
20M QPSK
Front Side 38150/2610
0.254 0.131
0.10
23.32
24.00
1RB#99
20M QPSK
Back Side
38150/2610
0.334 0.157
-0.16
23.32
24.00
1RB#99
50%RB
20M QPSK
Front Side 37850/2580
0.134 0.070
0.07
22.18
23.00
50%RB#0
20M QPSK
Back Side
37850/2580
0.112 0.059
-0.02
22.18
23.00
50%RB#0
Tested at the worst position with battery 2#
20M QPSK
Back Side
38150/2610
0.336 0.165
-0.07
23.32
24.00
1RB#99
Table 133: Body-Worn SAR test results of LTE Band XXXVIII
Report No.: SYBH(Z-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Scaled
SAR1-g
(W/kg)
SAR
Plot
0.384
0.125
0.282
0.211
0.123
0.158
0.115
0.057
0.122
0.046
0.451
Yes
Scaled
SAR1-g
(W/kg)
SAR
Plot
0.297
0.391
0.162
0.135
0.393
Yes
Page 192 of 219
Test
Position of
Hotspot with
10mm
TuneScaled
up
SAR
Test Mode
SAR1-g
Power
Plot
(W/kg)
1-g
10-g
(dBm)
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
1RB
20M QPSK
Front Side
38150/2610
0.547 0.254
-0.11
23.32
24.00
0.640
1RB#99
20M QPSK
1.118
Back Side
38150/2610
0.956 0.419
-0.03
23.32
24.00
Yes
1RB#99
Back Side20M QPSK
38150/2610
0.897 0.395
-0.04
23.32
24.00
1.049
Repeated
1RB#99
20M QPSK
Back Side
38000/2595
0.594 0.263
0.01
22.99
24.00
0.750
1RB#99
20M QPSK
Back Side
37850/2580
0.355 0.188
-0.09
22.92
24.00
0.455
1RB#0
20M QPSK
Left Side
38150/2610
0.230 0.113
-0.02
23.32
24.00
0.269
1RB#99
20M QPSK
Right Side
38150/2610
0.515 0.255
-0.06
23.32
24.00
0.602
1RB#99
20M QPSK
Bottom Side 38150/2610
0.427 0.199
-0.08
23.32
24.00
0.499
1RB#99
50%RB
20M QPSK
Front Side
37850/2580
0.249 0.135
0.19
22.18
23.00
0.301
50%RB#0
20M QPSK
Back Side
37850/2580
0.346 0.182
-0.16
22.18
23.00
0.418
50%RB#0
20M QPSK
Left Side
37850/2580
0.053 0.026
0.11
22.18
23.00
0.064
50%RB#0
20M QPSK
Right Side
37850/2580
0.187 0.094
0.01
22.18
23.00
0.226
50%RB#0
20M QPSK
Bottom Side 37850/2580
0.196 0.091
0.01
22.18
23.00
0.237
50%RB#0
100%RB
20M QPSK
Back Side
37850/2580
0.447 0.211
-0.19
21.66
23.00
0.609
100%RB#0
Tested at the worst position with battery 2#
20M QPSK
Back Side
38150/2610
0.660 0.279
-0.10
23.32
24.00
0.772
1RB#99
Table 134: Hotspot SAR test results of LTE Band XXXVIII
Note: Per KDB 648474 D04, Product Specific 10-g SAR test is not required for this frequency band since
hotspot mode 1-g reported SAR < 1.2 W/kg.
Test
channel /
Freq.(MHz)
Report No.: SYBH(Z-SAR)030052017-2
SAR Value
(W/kg)
Power
Drift
(dB)
Conducted
Power
(dBm)
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Page 193 of 219
7.2.28 SAR measurement Result of LTE Band XLI(Main Antenna)
SAR Value
Test
Power Conducted Tune-up
(W/kg)
channel /
Test Mode
Drift
Power
Power
Freq.(MHz)
(dB)
(dBm)
(dBm)
1-g
10-g
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
1RB
20M QPSK
Left touch
40340/2565
0.145 0.074
0.03
23.75
24.00
1RB#50
20M QPSK
Left tilt
40340/2565
0.043 0.021
0.15
23.75
24.00
1RB#50
20M QPSK
Right touch 40340/2565
0.104 0.054
0.00
23.75
24.00
1RB#50
20M QPSK
Right tilt
40340/2565
0.053 0.025
0.14
23.75
24.00
1RB#50
20M QPSK
Left touch
40740/2605
0.181 0.095
0.06
23.41
24.00
1RB#99
20M QPSK
Left touch
41140/2645
0.180 0.093
0.08
23.54
24.00
1RB#99
50%RB
20M QPSK
Left touch
40340/2565
0.107 0.056
0.01
22.83
23.50
50%RB#50
20M QPSK
Left tilt
40340/2565
0.045 0.022
0.03
22.83
23.50
50%RB#50
20M QPSK
Right touch 40340/2565
0.107 0.055
0.10
22.83
23.50
50%RB#50
20M QPSK
Right tilt
40340/2565
0.079 0.038
0.05
22.83
23.50
50%RB#50
Tested at the worst position with battery 2#
20M QPSK
Left touch
40740/2605
0.127 0.066
0.03
23.41
24.00
1RB#99
Tested at the worst position with battery 3#
20M QPSK
Left touch
40740/2605
0.118 0.062
0.19
23.41
24.00
1RB#99
Test data of MHA-L29 (new)
20M QPSK
Left touch
40740/2605
0.260 0.140
0.11
23.41
24.00
1RB#99
Table 135: Head SAR test results of LTE Band XLI
Test
Position of
Head
Report No.: SYBH(Z-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Scaled
SAR1-g
(W/kg)
SAR
Plot
0.154
0.045
0.110
0.056
0.207
0.200
0.125
0.053
0.125
0.092
0.145
0.135
0.298
Yes
Page 194 of 219
Test
Position of
Body-Worn
with 15mm
Test
channel /
Freq.(MHz)
Test Mode
SAR Value
(W/kg)
1-g
10-g
Power
Drift
(dB)
Conducted
Power
(dBm)
Tune-up
Power
(dBm)
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
1RB
20M QPSK
Front Side 40340/2565
0.105 0.056
0.10
23.75
24.00
1RB#50
20M QPSK
Back Side
40340/2565
0.097 0.052
0.07
23.75
24.00
1RB#50
50%RB
20M QPSK
Front Side 40340/2565
0.112 0.054
0.00
22.83
23.50
50%RB#50
20M QPSK
Back Side
40340/2565
0.117 0.052
0.13
22.83
23.50
50%RB#50
Tested at the worst position with battery 2#
20M QPSK
Back Side
40340/2565
0.086 0.039
0.10
22.83
23.50
50%RB#50
Tested at the worst position with battery 3#
20M QPSK
Back Side
40340/2565
0.080 0.037
0.13
22.83
23.50
50%RB#50
Test data of MHA-L29 (new)
20M QPSK
Back Side
40340/2565
0.158 0.081
0.07
22.83
23.50
50%RB#50
Table 136: Body-Worn SAR test results of LTE Band XLI
Report No.: SYBH(Z-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Scaled
SAR1-g
(W/kg)
SAR
Plot
0.111
0.103
0.131
0.137
0.100
0.093
0.184
Yes
Page 195 of 219
Test
Position of
Hotspot with
10mm
TuneScaled
up
SAR
Test Mode
SAR1-g
Power
Plot
(W/kg)
1-g
10-g
(dBm)
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
1RB
20M QPSK
Front Side
40340/2565
0.444 0.186
0.11
23.75
24.00
0.470
1RB#50
20M QPSK
0.565
Back Side
40340/2565
0.533 0.222
0.07
23.75
24.00
1RB#50
20M QPSK
Left Side
40340/2565
0.098 0.050
0.00
23.75
24.00
0.104
1RB#50
20M QPSK
Right Side
40340/2565
0.364 0.184
0.14
23.75
24.00
0.386
1RB#50
20M QPSK
Bottom Side 40340/2565
0.263 0.108
-0.01
23.75
24.00
0.279
1RB#50
50%RB
20M QPSK
Front Side
40340/2565
0.249 0.130
0.08
22.83
23.50
0.291
50%RB#50
20M QPSK
Back Side
40340/2565
0.310 0.133
0.15
22.83
23.50
0.362
50%RB#50
20M QPSK
Left Side
40340/2565
0.068 0.035
0.15
22.83
23.50
0.080
50%RB#50
20M QPSK
Right Side
40340/2565
0.244 0.124
0.08
22.83
23.50
0.285
50%RB#50
20M QPSK
Bottom Side 40340/2565
0.176 0.071
0.06
22.83
23.50
0.205
50%RB#50
Tested at the worst position with battery 2#
20M QPSK
Back Side
40340/2565
0.396 0.168
0.05
23.75
24.00
0.419
1RB#50
Tested at the worst position with battery 3#
20M QPSK
Back Side
40340/2565
0.360 0.157
0.17
23.75
24.00
0.381
1RB#50
Test data of MHA-L29 (new)
20M QPSK
0.627
Back Side
40340/2565
0.592 0.294
0.09
23.75
24.00
Yes
1RB#50
Table 137: Hotspot SAR test results of LTE Band XLI
Note: Per KDB 648474 D04, Product Specific 10-g SAR test is not required for this frequency band since
hotspot mode 1-g reported SAR < 1.2 W/kg.
Test
channel /
Freq.(MHz)
Report No.: SYBH(Z-SAR)030052017-2
SAR Value
(W/kg)
Power
Drift
(dB)
Conducted
Power
(dBm)
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Page 196 of 219
7.2.29 SAR measurement Result of WiFi 2.4G
Test
Position of
Head
Left touch
Left touchRepeated
Left touch
Left touch
Left tilt
Left tilt
Right touch
Right tilt
SAR Value
(W/kg)
Power Conducted Tune-up
Test Mode
Drift
Power
Power
1-g
1-g
(dB)
(dBm)
(dBm)
Area Zoom
Scan Scan
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
6/2437
802.11 b
1.020 1.220
0.04
16.75
17.00
Test
channel /
Freq.(MHz)
6/2437
802.11 b
1.190
1.190
0.10
16.75
17.00
11/2462
1/2412
6/2437
11/2462
6/2437
6/2437
802.11 b
0.949 1.170
0.11
16.69
17.00
802.11 b
0.840 1.000
-0.15
15.89
17.00
802.11 b
0.886 0.979
0.12
16.75
17.00
802.11 b
0.901 1.020
0.09
16.69
17.00
802.11 b
0.289 0.309
0.06
16.75
17.00
802.11 b
0.335 0.340
0.14
16.75
17.00
Tested at the worst position with battery 2#
Left touch
6/2437
802.11 b
0.972 1.010
0.08
16.75
17.00
Tested at the worst position with battery 3#
Left touch
6/2437
802.11 b
0.900 0.982
-0.14
16.75
17.00
Additional SAR test( simultaneous transmission with 2G&3G&4G antenna)
Left touch
6/2437
802.11 b
0.587 0.545
0.13
14.20
14.50
Left tilt
6/2437
802.11 b
0.556 0.541
0.07
14.20
14.50
Right touch
6/2437
802.11 b
0.134 0.140
0.11
14.20
14.50
Right tilt
6/2437
802.11 b
0.161 0.176
0.11
14.20
14.50
Test data of MHA-L29 (new)
Left touch
6/2437
802.11b
0.785 0.745
-0.14
16.75
17.00
Table 138: Head SAR test results of WiFi 2.4G
Report No.: SYBH(Z-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Scaled
SAR1-g
(W/kg)
SAR
Plot
1.292
1.261
1.257
1.291
1.037
1.095
0.327
0.360
1.070
1.040
0.584
0.580
0.150
0.189
0.789
Yes
Page 197 of 219
According to KDB248227 D01,The reported SAR must be scaled to 100% transmission duty factor to
determine compliance at maximum tune-up tolerance limit.The scaled reported SAR is presented as
below.
Test Position
of Head
Left touch
Left touchRepeated
Left touch
Left touch
Left tilt
Left tilt
Right touch
Right tilt
Left touch
Left touch
Left touch
Left tilt
Right touch
Right tilt
Left touch
Test channel /
Freq.(MHz)
Test Mode
Scaled SAR1-g
(W/kg)
Actual duty
factor
Maximum
duty factor
Scaled Reported
SAR1-g (W/kg)
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
6/2437
802.11 b
1.292
99%
100%
1.305
6/2437
1.273
802.11 b
1.261
99%
100%
11/2462
1/2412
6/2437
11/2462
6/2437
6/2437
802.11 b
1.257
99%
100%
802.11 b
1.291
99%
100%
802.11 b
1.037
99%
100%
802.11 b
1.095
99%
100%
802.11 b
0.327
99%
100%
802.11 b
0.360
99%
100%
Tested at the worst position with battery 2#
6/2437
802.11 b
1.070
99%
100%
Tested at the worst position with Battery 3#
6/2437
802.11 b
1.040
99%
100%
Additional SAR test( simultaneous transmission with 2G&3G&4G antenna)
6/2437
802.11 b
0.584
99%
100%
6/2437
802.11 b
0.580
99%
100%
6/2437
802.11 b
0.150
99%
100%
6/2437
802.11 b
0.189
99%
100%
Test data of MHA-L29 (new)
6/2437
802.11 b
0.789
99%
100%
1.269
1.304
1.047
1.107
0.331
0.364
1.081
1.051
0.590
0.586
0.152
0.190
0.797
Tune-up
Hightest Reported
Adjusted SAR
SAR test
(mW)
SAR(W/kg)
(W/kg)
17.00
802.11b
50.12
1.305
Yes
16.50
802.11g
44.67
1.163
No
16.00
802.11n 20M
39.81
1.037
No
13.00
802.11n 40M
19.95
0.520
No
Note: Per KDB248227D01, for Head SAR test of WiFi 2.4G,
1) SAR is measured for 2.4 GHz 802.11b DSSS using the initial test position procedure.
2) As the highest reported SAR for DSSS is adjusted by the ratio of OFDM 802.11g/n to DSSS specified
maximum output power and the adjusted SAR is < 1.2 W/kg, so SAR for 802.11g/n is not required.
Mode
Tune-up
(dBm)
Report No.: SYBH(Z-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Page 198 of 219
Test
Position of
Body-Worn
with 15mm
SAR Value
(W/kg)
Power
Conducted
Tune-up
Test
Drift
Power
Power
1-g
1-g
Mode
(dB)
(dBm)
(dBm)
Area Zoom
Scan Scan
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test
channel /
Freq.(MHz)
Scaled
SAR1-g
(W/kg)
SAR
Plot
Test data of MHA-L29(old)
Front Side
6/2437
802.11 b
0.087
0.093
0.02
16.75
17.00
0.098
Back Side
6/2437
802.11 b
0.081
0.086
0.06
16.75
17.00
0.091
17.00
0.096
16.75
17.00
0.079
16.75
17.00
0.071
Yes
Tested at the worst position with battery 2#
Front Side
6/2437
802.11 b
0.087
0.091
-0.06
16.75
Tested at the worst position with battery 3#
Front Side
6/2437
802.11 b
0.074
0.075
-0.01
Test data of MHA-L29 (new)
Front Side
6/2437
802.11 b 0.067 0.067
-0.19
Table 139: Body-Worn SAR test results of WiFi 2.4G
Test Position
of BodyWorn with
15mm
Front Side
Back Side
Front Side
Front Side
Front Side
Test channel /
Freq.(MHz)
Test Mode
Scaled SAR1-g
(W/kg)
Actual duty
factor
Maximum
duty factor
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
6/2437
802.11 b
0.098
99%
100%
6/2437
802.11 b
0.091
99%
100%
Tested at the worst position with battery 2#
6/2437
802.11 b
0.096
99%
100%
Tested at the worst position with Battery 3#
6/2437
802.11 b
0.079
99%
100%
Test data of MHA-L29 (new)
6/2437
802.11 b
0.071
99%
100%
Scaled Reported
SAR1-g (W/kg)
0.099
0.092
0.097
0.080
0.072
Tune-up
Hightest Reported
Adjusted SAR
SAR test
(mW)
SAR(W/kg)
(W/kg)
17.00
802.11b
50.12
0.099
Yes
16.50
802.11g
44.67
0.088
No
16.00
802.11n 20M
39.81
0.079
No
13.00
802.11n 40M
19.95
0.039
No
Note: Per KDB248227D01, for Body-worn SAR test of WiFi 2.4G:
1) SAR is measured for 2.4 GHz 802.11b DSSS using the initial test position procedure.
2) As the highest reported SAR for DSSS is adjusted by the ratio of OFDM 802.11g/n to DSSS specified
maximum output power and the adjusted SAR is < 1.2 W/kg, so SAR for 802.11g/n is not required.
Mode
Tune-up
(dBm)
Report No.: SYBH(Z-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Page 199 of 219
SAR Value
(W/kg)
Power Conducted
Tune-up
Test
Drift
Power
Power
1-g
1-g
Mode
(dB)
(dBm)
(dBm)
Area
Zoom
Scan
Scan
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
Front Side
6/2437
802.11 b
0.184
0.200
-0.10
16.75
17.00
Back Side
6/2437
802.11 b
0.179
0.193
0.17
16.75
17.00
Right Side
6/2437
802.11 b
0.182
0.185
0.03
16.75
17.00
Top Side
6/2437
802.11 b
0.111
0.133
-0.04
16.75
17.00
Tested at the worst position with battery 2#
Front Side
6/2437
802.11 b
0.170
0.183
-0.08
16.75
17.00
Tested at the worst position with battery 3#
Front Side
6/2437
802.11 b
0.158
0.170
-0.12
16.75
17.00
Test data of MHA-L29 (new)
Front Side
6/2437
802.11 b
0.135
0.136
-0.11
16.75
17.00
Table 140: Hotspot SAR test results of WiFi 2.4G
Test Position
Test channel /
Scaled SAR1-g Actual duty Maximum
of Hotspot
Test Mode
Freq.(MHz)
(W/kg)
factor
duty factor
with 10mm
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
Front Side
6/2437
802.11 b
0.212
99%
100%
Back Side
6/2437
802.11 b
0.204
99%
100%
Right Side
6/2437
802.11 b
0.196
99%
100%
Top Side
6/2437
802.11 b
0.141
99%
100%
Tested at the worst position with battery 2#
Front Side
6/2437
802.11 b
0.194
99%
100%
Tested at the worst position with Battery 3#
Test
Position of
Hotspot
with 10mm
Test
channel /
Freq.(MHz)
Front Side
6/2437
Front Side
6/2437
802.11 b
0.180
99%
Test data of MHA-L29 (new)
802.11 b
0.144
99%
Scaled
SAR1-g
(W/kg)
SAR
Plot
0.212
0.204
0.196
0.141
0.194
0.180
0.144
Yes
Scaled Reported
SAR1-g (W/kg)
0.214
0.207
0.198
0.142
0.196
100%
0.182
100%
0.146
Tune-up
Hightest Reported
Adjusted SAR
SAR test
(mW)
SAR(W/kg)
(W/kg)
17.00
802.11b
50.12
0.214
Yes
16.50
802.11g
44.67
0.191
No
16.00
802.11n 20M
39.81
0.170
No
13.00
802.11n 40M
19.95
0.085
No
Note: Per KDB248227D01, for Hotspot SAR test of WiFi 2.4G:
1) SAR is measured for 2.4 GHz 802.11b DSSS using the initial test position procedure.
2) As the highest reported SAR for DSSS is adjusted by the ratio of OFDM 802.11g/n to DSSS specified
maximum output power and the adjusted SAR is < 1.2 W/kg, so SAR for 802.11g/n is not required.
3) Per KDB 648474 D04, Product Specific 10-g SAR test is not required for this frequency band since
hotspot mode 1-g reported SAR < 1.2 W/kg.
Mode
Tune-up
(dBm)
Report No.: SYBH(Z-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Page 200 of 219
7.2.30 SAR measurement Result of WiFi 5G
Test
Position of
Head
Left touch
Left tilt
Right touch
Right tilt
Left touch
Left touch
Left touch
Left touch
Left touch
Left touch
Left tilt
Left tilt
Right touch
Right tilt
Left touch
Left tilt
Right touch
Right tilt
Left touch
Left touch
Left tilt
Left tilt
SAR Value
(W/kg)
Power
Conducted
Tune-up
Test
Drift
Power
Power
1-g
1-g
Mode
(dB)
(dBm)
(dBm)
Area Zoom
Scan Scan
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
5.3G U-NII-2A Band (802.11n 40M)
802.11n
54/5270
0.554 0.500
0.18
12.91
13.80
40M
802.11n
54/5270
0.463 0.451
0.14
12.91
13.80
40M
802.11n
54/5270
0.195 0.186
0.02
12.91
13.80
40M
802.11n
54/5270
0.192 0.183
0.16
12.91
13.80
40M
5.5G U-NII-2C Band (802.11n 40M)
802.11n
118/5590
0.926 0.930
0.12
12.94
13.80
40M
802.11n
110/5550
0.894 0.854
0.11
12.91
13.80
40M
802.11n
102/5510
0.850 0.797
0.19
12.87
13.80
40M
802.11n
126/5630
0.902 0.895
0.13
12.85
13.80
40M
802.11n
134/5670
0.764 0.757
0.15
12.84
13.80
40M
802.11n
142/5710
0.706 0.684
0.12
12.81
13.80
40M
802.11n
118/5590
0.744 0.775
0.18
12.94
13.80
40M
802.11n
110/5550
0.705 0.702
0.18
12.91
13.80
40M
802.11n
118/5590
0.256 0.263
0.12
12.94
13.80
40M
802.11n
118/5590
0.189 0.188
0.19
12.94
13.80
40M
5.8G U-NII-3 Band (802.11n 40M)
802.11n
151/5755
0.587 0.594
-0.11
13.75
13.80
40M
802.11n
151/5755
0.452 0.431
0.12
13.75
13.80
40M
802.11n
151/5755
0.099 0.083
0.00
13.75
13.80
40M
802.11n
151/5755
0.080
0.00
13.75
13.80
40M
5.5G U-NII-2C Band (802.11n 20M)
120/5600
802.11n 0.769 0.784
0.04
12.75
13.80
108/5540
802.11n 0.848 0.828
-0.01
12.72
13.80
120/5600
802.11n 0.618 0.611
0.08
12.75
13.80
108/5540
802.11n 0.646 0.639
0.04
12.72
13.80
Test
channel /
Freq.(MHz)
Report No.: SYBH(Z-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Scaled
SAR1-g
(W/kg)
SAR
Plot
0.614
0.554
0.228
0.225
1.134
1.048
0.987
1.114
0.944
0.859
0.945
0.862
0.321
0.229
0.601
0.436
0.084
0.998
1.062
0.778
0.819
Page 201 of 219
Right touch
Right tilt
120/5600
120/5600
Left touch
Left touchRepeated
Left touch
Left tilt
Left tilt
Right touch
Right tilt
802.11n
802.11n
13.80
13.80
0.290
0.293
120/5600
0.213 0.228
0.04
12.75
0.217 0.230
0.08
12.75
5.5G U-NII-2C Band (802.11ac 20M)
802.11ac 0.956 0.949
0.11
12.28
13.50
1.257
120/5600
802.11ac
13.50
1.148
1.038
0.959
0.877
1.191
1.122
0.434
0.400
0.120
0.102
0.568
0.560
0.174
Yes
0.172
Yes
0.386
0.268
0.082
0.076
1.114
Yes
0.884
0.867
0.14
12.28
104/5520
120/5600
104/5520
120/5600
120/5600
802.11ac 0.766 0.750
0.15
12.09
13.50
802.11ac 0.713 0.711
0.06
12.20
13.50
802.11ac 0.666 0.634
0.16
12.09
13.50
802.11ac 0.266
-0.15
12.20
13.50
802.11ac 0.266
0.17
12.20
13.50
Tested at the worst position with battery 2#
Left touch
120/5600
802.11ac 0.866 0.839
0.100
12.28
13.80
Tested at the worst position with battery 3#
Left touch
120/5600
802.11ac 0.808 0.791
0.190
12.28
13.80
Additional SAR test(simultaneous transmission with 2G&3G&4G antenna)
5.3G U-NII-2A Band (802.11ac 80M)
802.11ac
Left touch
58/5290
0.383 0.377
0.18
10.89
11.50
80M
802.11ac
Left tilt
58/5290
0.336 0.348
0.14
10.89
11.50
80M
802.11ac
Right touch
58/5290
0.115 0.104
0.00
10.89
11.50
80M
802.11ac
Right tilt
58/5290
0.101 0.089
0.14
10.89
11.50
80M
5.5G U-NII-2C Band (802.11ac 80M)
802.11ac
Left touch
106/5530
0.537 0.513
0.01
11.06
11.50
80M
802.11ac
Left tilt
106/5530
0.511 0.506
-0.18
11.06
11.50
80M
802.11ac
Right touch
106/5530
0.165 0.157
0.13
11.06
11.50
80M
802.11ac
Right tilt
106/5530
0.165 0.155
0.15
11.06
11.50
80M
5.8G U-NII-3 Band (802.11ac 80M)
802.11ac
Left touch
155/5775
0.397 0.362
0.14
11.22
11.50
80M
802.11ac
Left tilt
155/5775
0.303 0.251
0.07
11.22
11.50
80M
802.11ac
Right touch
155/5775
0.086 0.077
0.00
11.22
11.50
80M
802.11ac
Right tilt
155/5775
0.076 0.071
0.13
11.22
11.50
80M
Test data of MHA-L29 (new)
Left touch
120/5600
802.11ac 0.690 0.841
0.19
12.28
13.50
Table 141: Head SAR test results of WiFi 5G
According to KDB248227 D01,The reported SAR must be scaled to 100% transmission
determine compliance at maximum tune-up tolerance limit.The scaled reported SAR is
below.
Report No.: SYBH(Z-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
duty factor to
presented as
Page 202 of 219
Test Position
of Head
Left touch
Left tilt
Right touch
Right tilt
Left touch
Left touch
Left touch
Left touch
Left touch
Left touch
Left tilt
Left tilt
Right touch
Right tilt
Left touch
Left tilt
Right touch
Right tilt
Left touch
Left touch
Left tilt
Left tilt
Right touch
Right tilt
Left touch
Left touchRepeated
Left touch
Left tilt
Left tilt
Right touch
Right tilt
Test channel /
Freq.(MHz)
Test Mode
Scaled SAR1-g
(W/kg)
Actual duty
factor
Maximum
duty factor
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
5.3G U-NII-2A Band (802.11n 40M)
54/5270
802.11n 40M
0.614
87%
100%
54/5270
802.11n 40M
0.554
87%
100%
54/5270
802.11n 40M
0.228
87%
100%
54/5270
802.11n 40M
0.225
87%
100%
5.5G U-NII-2C Band (802.11n 40M)
118/5590
802.11n 40M
1.134
87%
100%
110/5550
802.11n 40M
1.048
87%
100%
102/5510
802.11n 40M
0.987
87%
100%
126/5630
802.11n 40M
1.114
87%
100%
134/5670
802.11n 40M
0.944
87%
100%
142/5710
802.11n 40M
0.859
87%
100%
118/5590
802.11n 40M
0.945
87%
100%
110/5550
802.11n 40M
0.862
87%
100%
118/5590
802.11n 40M
0.321
87%
100%
118/5590
802.11n 40M
0.229
87%
100%
5.8G U-NII-3 Band (802.11n 40M)
151/5755
802.11n 40M
0.601
87%
100%
151/5755
802.11n 40M
0.436
87%
100%
151/5755
802.11n 40M
0.084
87%
100%
151/5755
802.11n 40M
87%
100%
5.5G U-NII-2C Band (802.11n 20M)
120/5600
802.11n
0.998
93%
100%
108/5540
802.11n
1.062
93%
100%
120/5600
802.11n
0.778
93%
100%
108/5540
802.11n
0.819
93%
100%
120/5600
802.11n
0.290
93%
100%
120/5600
802.11n
0.293
93%
100%
5.5G U-NII-2C Band (802.11ac 20M)
120/5600
802.11ac
1.257
93%
100%
120/5600
802.11ac
1.148
93%
Scaled Reported
SAR1-g (W/kg)
0.705
0.636
0.262
0.258
1.303
1.205
1.135
1.280
1.085
0.987
1.086
0.990
0.368
0.263
0.691
0.501
0.096
1.074
1.142
0.837
0.881
0.312
0.315
1.351
100%
1.235
104/5520
120/5600
104/5520
120/5600
120/5600
802.11ac
1.038
93%
802.11ac
0.959
93%
802.11ac
0.877
93%
802.11ac
93%
802.11ac
93%
Tested at the worst position with battery 2#
100%
100%
100%
100%
100%
1.116
1.031
0.943
Left touch
120/5600
802.11ac
1.191
93%
Tested at the worst position with Battery 3#
100%
1.280
Left touch
120/5600
100%
1.207
802.11ac
Report No.: SYBH(Z-SAR)030052017-2
1.122
93%
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Page 203 of 219
Left touch
Left tilt
Right touch
Right tilt
Left touch
Left tilt
Right touch
Right tilt
Left touch
Left tilt
Right touch
Right tilt
Left touch
Mode
Additional SAR test( simultaneous transmission with 2G&3G&4G antenna)
5.3G U-NII-2A Band (802.11ac 80M)
802.11ac
58/5290
0.434
86%
100%
80M
802.11ac
58/5290
0.400
86%
100%
80M
802.11ac
58/5290
0.120
86%
100%
80M
802.11ac
58/5290
0.102
86%
100%
80M
5.5G U-NII-2C Band (802.11ac 80M)
802.11ac
106/5530
0.568
86%
100%
80M
802.11ac
106/5530
0.560
86%
100%
80M
802.11ac
106/5530
0.174
86%
100%
80M
802.11ac
106/5530
0.172
86%
100%
80M
5.8G U-NII-3 Band (802.11ac 80M)
802.11ac
155/5775
0.386
86%
100%
80M
802.11ac
155/5775
0.268
86%
100%
80M
802.11ac
155/5775
0.082
86%
100%
80M
802.11ac
155/5775
0.076
86%
100%
80M
Test data of MHA-L29 (new)
120/5600
802.11ac
1.114
93%
100%
Tuneup
(dBm)
802.11n 40M
802.11n 20M
802.11a
802.11ac 20M
802.11ac 40M
802.11ac 80M
13.8
13.8
13.0
13.5
13.0
12.0
802.11n 40M
802.11n 20M
802.11a
802.11ac 20M
802.11ac 40M
802.11ac 80M
13.8
13.8
13.0
13.5
13.0
12.0
802.11n 40M
802.11n 20M
13.8
13.8
Tune-up(mW)
Report No.: SYBH(Z-SAR)030052017-2
0.466
0.139
0.119
0.660
0.651
0.202
0.199
0.449
0.311
0.095
0.088
1.198
Adjusted
SAR1-g
(W/kg)
SAR
test
0.705
0.705
0.586
0.658
0.586
0.466
Yes
No
No
No
No
No
1.303
1.303
1.084
1.216
1.084
0.861
Yes
Yes
No
Yes
No
No
0.691
0.691
Yes
No
Hightest Reported SAR1g (W/kg)
5.3G U-NII-2A Band
23.99
23.99
19.95
22.39
19.95
15.85
5.5G U-NII-2C Band
23.99
23.99
19.95
22.39
19.95
15.85
5.8G U-NII-3 Band
23.99
23.99
0.504
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Page 204 of 219
802.11a
13.0
19.95
0.575
No
802.11ac 20M
13.5
22.39
0.645
No
802.11ac 40M
13.0
19.95
0.575
No
802.11ac 80M
12.0
15.85
0.457
No
Note: Per KDB248227D01, for Head SAR test of WiFi 5G:
1) For the full power level scenario,
a) For U-NII-2A, U-NII-2C, U-NII-3 bands, the 802.11n 40M is selected as Initial Test Configuration for
SAR test according to the specified maximum output power and largest channel bandwidth. As for U-NII2A and U-NII-3 the highest reported SAR for the initial test configuration is adjusted by the ratio of the
subsequent test configuration to initial test configuration specified maximum output power and the
adjusted SAR is ≤ 1.2 W/kg, SAR test for the other 802.11 modes are not required; As for U-NII-2C the
highest reported SAR for the initial test configuration is adjusted by the ratio of the subsequent test
configuration to initial test configuration specified maximum output power and the adjusted SAR is ≥ 1.2
W/kg, SAR test for the 802.11n/11ac(20M) modes are required.
b) For WiFi 5G U-NII-1 and U-NII-2A bands, as the same maximum output power is specified for the
bands, begin SAR measurement in the U-NII-2A band by applying the OFDM SAR requirements. As the
highest reported SAR is ≤ 1.2 W/kg, SAR is not required for the U-NII-1 band.
2) For additional simultaneous transmission power reduction scenario,
a) For U-NII-2A, U-NII-2C, U-NII-3 bands, the 802.11ac 80M is selected as Initial Test Configuration for
SAR test according to the specified maximum output power and largest channel bandwidth. As the
highest reported SAR for the initial test configuration is adjusted by the ratio of the subsequent test
configuration to initial test configuration specified maximum output power and the adjusted SAR is ≤ 1.2
W/kg, SAR test for the other 802.11 modes are not required.
b) For WiFi 5G U-NII-1 and U-NII-2A bands, as the same maximum output power is specified for both
bands, begin SAR measurement in U-NII-2A band by applying the OFDM SAR requirements. As the
highest reported SAR is < 1.2 W/kg, SAR is not required for the U-NII-1 band.
Report No.: SYBH(Z-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Page 205 of 219
Test
Position of
Body-Worn
with 15mm
SAR Value
(W/kg)
Power
Conducted
Tune-up
Test
Drift
Power
Power
1-g
1-g
Mode
(dB)
(dBm)
(dBm)
Area Zoom
Scan Scan
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test
channel /
Freq.(MHz)
Scaled
SAR1-g
(W/kg)
SAR
Plot
Test data of MHA-L29(old)
5.3G U-NII-2A band (802.11n 40M)
Front Side
54/5270
Back Side
54/5270
802.11n
40M
802.11n
40M
0.063
0.050
0.11
12.91
13.80
0.061
0.003
0.00
12.91
13.80
5.5G U-NII-2C band (802.11n 40M)
Front Side
118/5590
Back Side
118/5590
802.11n
40M
802.11n
40M
0.067
0.056
-0.16
12.94
13.80
0.068
0.010
0.00
12.94
13.80
5.8G U-NII-3 band (802.11a)
802.11n
Front Side
151/5755
0.061 0.047
0.00
13.75
13.80
0.048
40M
802.11n
Back Side
151/5755
0.001
0.00
13.75
13.80
40M
Tested at the worst position with battery 2#
802.11n
Front Side
118/5590
0.065 0.069
0.09
12.94
13.80
0.084
40M
Tested at the worst position with battery 3#
802.11n
Front Side
118/5590
0.066 0.061
0.09
12.94
13.80
0.075
40M
Test data of MHA-L29 (new)
802.11n
Front Side
118/5590
0.077 0.076
-0.11
12.94
13.80
0.093
Yes
40M
Table 142: Body-Worn SAR test results of WiFi 5G
According to KDB248227 D01,The reported SAR must be scaled to 100% transmission duty factor to
determine compliance at maximum tune-up tolerance limit.The scaled reported SAR is presented as
below.
Test Position
of BodyTest channel /
Scaled SAR1-g Actual duty Maximum Scaled Reported
Test Mode
Worn with
Freq.(MHz)
(W/kg)
factor
duty factor
SAR1-g (W/kg)
15mm
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
5.3G U-NII-2A Band (802.11n 40M)
Front Side
54/5270
802.11n 40M
0.061
87%
100%
0.070
Back Side
54/5270
802.11n 40M
87%
100%
5.5G U-NII-2C Band (802.11n 40M)
Front Side
118/5590
802.11n 40M
0.068
87%
100%
0.079
Back Side
118/5590
802.11n 40M
87%
100%
5.8G U-NII-3 Band (802.11n 40M)
Report No.: SYBH(Z-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Page 206 of 219
Front Side
Back Side
151/5755
151/5755
802.11n 40M
0.048
87%
802.11n 40M
87%
Tested at the worst position with battery 2#
100%
100%
0.055
Front Side
118/5590
802.11n 40M
0.084
87%
Tested at the worst position with Battery 3#
100%
0.097
Front Side
118/5590
100%
0.086
Front Side
118/5590
802.11n 40M
0.075
87%
Test data of MHA-L29 (new)
802.11n 40M
0.093
87%
100%
0.107
Mode
Tuneup
(dBm)
Tune-up(mW)
Hightest Reported SAR1-g
(W/kg)
Adjusted
SAR1-g
(W/kg)
SAR
test
5.3G U-NII-2A Band
0.070
Yes
0.070
No
0.058
No
0.065
No
0.058
No
0.046
No
5.5G U-NII-2C Band
802.11n 40M
13.8
23.99
0.107
Yes
802.11n 20M
13.8
23.99
0.107
No
802.11a
13.0
19.95
0.089
No
802.11ac 20M 13.5
22.39
0.100
No
802.11ac 40M 13.0
19.95
0.089
No
802.11ac 80M 12.0
15.85
0.071
No
5.8G U-NII-3 Band
802.11n 40M
13.8
23.99
0.055
Yes
802.11n 20M
13.8
23.99
0.055
No
802.11a
13.0
19.95
0.046
No
802.11ac 20M 13.5
22.39
0.051
No
802.11ac 40M 13.0
19.95
0.046
No
802.11ac 80M 12.0
15.85
0.036
No
Note: Per KDB248227D01, for Body-Worn SAR test of WiFi 5G:
1) For WiFi 5G U-NII-1, U-NII-2A and U-NII-3 bands, the 802.11a mode is selected as Initial Test
Configuration for SAR test according to the specified maximum output power. As the highest reported
SAR for the initial test configuration is adjusted by the ratio of the subsequent test configuration to initial
test configuration specified maximum output power and the adjusted SAR is ≤ 1.2 W/kg, SAR test for the
other 802.11 modes are not required.
2) For U-NII-2A, U-NII-2C, U-NII-3 bands, the 802.11n 40M is selected as Initial Test Configuration for
SAR test according to the specified maximum output power and largest channel bandwidth. As the
highest reported SAR for the initial test configuration is adjusted by the ratio of the subsequent test
configuration to initial test configuration specified maximum output power and the adjusted SAR is ≤ 1.2
W/kg, SAR test for the other 802.11 modes are not required.
3) For WiFi 5G U-NII-1 and U-NII-2A bands, as the same maximum output power is specified for both
bands, begin SAR measurement in U-NII-2A band by applying the OFDM SAR requirements. As the
highest reported SAR is < 1.2 W/kg, SAR is not required for the U-NII-1 band.
802.11n 40M
802.11n 20M
802.11a
802.11ac 20M
802.11ac 40M
802.11ac 80M
13.8
13.8
13.0
13.5
13.0
12.0
23.99
23.99
19.95
22.39
19.95
15.85
Report No.: SYBH(Z-SAR)030052017-2
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
Page 207 of 219
SAR Value
(W/kg)
Power Conducted
Tune-up
Test
Drift
Power
Power
1-g
1-g
Mode
(dB)
(dBm)
(dBm)
Area
Zoom
Scan
Scan
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
5.2G U-NII-1 band (802.11n 40M)
802.11n
Front Side
38/5190
0.065
0.13
12.54
13.80
40M
802.11n
Back Side
38/5190
0.016
0.19
12.54
13.80
40M
802.11n
Right Side
38/5190
0.073
0.074
0.11
12.54
13.80
40M
802.11n
Top Side
38/5190
0.053
0.07
12.54
13.80
40M
5.8G U-NII-3 band (802.11n 40M)
802.11n
Front Side
151/5755
0.088
0.19
13.75
13.80
40M
802.11n
Back Side
151/5755
0.009
0.00
13.75
13.80
40M
802.11n
Right Side
151/5755
0.137
0.139
0.11
13.75
13.80
40M
802.11n
Top Side
151/5755
0.062
0.16
13.75
13.80
40M
Tested at the worst position with battery 2#
802.11n
Right Side
151/5755
0.111
0.112
0.15
13.75
13.80
40M
Tested at the worst position with battery 3#
802.11n
Right Side
151/5755
0.123
0.128
0.13
13.75
13.80
40M
Test data of MHA-L29 (new)
802.11n
Right Side
151/5755
0.177
0.177
0.10
13.75
13.80
40M
Table 143: Hotspot SAR test results of WiFi 5G(5.2G&5.8G)
Test
Position of
Hotspot
with 10mm
Test
channel /
Freq.(MHz)
Scaled
SAR1-g
(W/kg)
SAR
Plot
0.098
0.141
0.113
0.129
0.179
Yes
According to KDB248227 D01,The reported SAR must be scaled to 100% transmission duty factor to
determine compliance at maximum tune-up tolerance limit.The scaled reported SAR is presented as
below.
Test Position
Test channel /
Scaled SAR1-g Actual duty Maximum Scaled Reported
of Hotspot
Test Mode
Freq.(MHz)
(W/kg)
factor
duty factor
SAR1-g (W/kg)
with 10mm
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
5.2G U-NII-1 band (802.11n 40M)
Front Side
Back Side
Right Side
Top Side
38/5190
38/5190
38/5190
38/5190
802.11n 40M
802.11n 40M
802.11n 40M
802.11n 40M
Report No.: SYBH(Z-SAR)030052017-2
0.098
87%
87%
87%
87%
100%
100%
100%
100%
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
0.113
Page 208 of 219
Front Side
Back Side
Right Side
Top Side
151/5755
151/5755
151/5755
151/5755
Right Side
151/5755
Right Side
151/5755
Right Side
151/5755
5.8G U-NII-3 band (802.11n 40M)
802.11n 40M
87%
802.11n 40M
87%
802.11n 40M
0.141
87%
802.11n 40M
87%
Tested at the worst position with battery 2#
802.11n 40M
0.113
87%
Tested at the worst position with Battery 3#
802.11n 40M
0.129
87%
Test data of MHA-L29 (new)
802.11n 40M
0.179
87%
Hightest Reported
SAR1-g (W/kg)
5.2G U-NII-1 band
0.113
5.8G U-NII-3 band
0.206
100%
100%
100%
100%
0.162
100%
0.130
100%
0.149
100%
0.206
Mode
Tune-up
(dBm)
Tune-up(mW)
Adjusted
SAR1-g(W/kg)
SAR
test
802.11n 40M
802.11n 20M
802.11a
802.11ac 20M
802.11ac 40M
802.11ac 80M
13.8
13.8
13.0
13.5
13.0
12.0
23.99
23.99
19.95
22.39
19.95
15.85
0.113
0.094
0.105
0.094
0.075
Yes
No
No
No
No
No
802.11n 40M
13.8
23.99
Yes
802.11n 20M
13.8
23.99
0.206
No
802.11a
13.0
19.95
0.171
No
802.11ac 20M
13.5
22.39
0.192
No
802.11ac 40M
13.0
19.95
0.171
No
802.11ac 80M
12.0
15.85
0.136
No
Note : For Hotspot SAR test of WiFi 5G:
1) As WiFi 5G hotspot is only supported for U-NII-1(5.2G) and U-NII-3 (5.8G) bands, therefore U-NII-2A
(5.3G) and U-NII-2C(5.5G) were not evaluated for hotspot condition.
2) For U-NII-1(5.2G) and U-NII-3 (5.8G) bands, the 802.11n 40M mode is selected as Initial Test
Configuration for SAR test according to the specified maximum output power. As the highest reported
SAR for the initial test configuration is adjusted by the ratio of the subsequent test configuration to initial
test configuration specified maximum output power and the adjusted SAR is ≤ 1.2 W/kg, SAR test for the
other 802.11 modes are not required.
Report No.: SYBH(Z-SAR)030052017-2
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Copyright © Huawei Technologies Co., Ltd
Page 209 of 219
SAR Value
(W/kg)
Power
Tune-up
Test
Conducted
Drift
Power
10-g
10-g
Mode
Power (dBm)
(dB)
(dBm)
Area
Zoom
Scan
Scan
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
5.3G U-NII-2A Band (802.11n 40M)
802.11
Front Side
54/5270
0.491
0.466
0.19
12.91
13.80
n 40M
802.11
Back Side
54/5270
0.114
0.19
12.91
13.80
n 40M
802.11
Right Side
54/5270
0.421
-0.18
12.91
13.80
n 40M
802.11
Top Side
54/5270
0.158
0.05
12.91
13.80
n 40M
5.5G U-NII-2C band (802.11n 40M)
802.11n
Front Side
118/5590
0.589
0.03
12.94
13.80
40M
802.11n
Back Side
118/5590
0.195
0.00
12.94
13.80
40M
802.11n
Right Side
118/5590
0.533
0.623
0.08
12.94
13.80
40M
802.11n
Top Side
118/5590
0.247
0.18
12.94
13.80
40M
Tested at the worst position with battery 2#
802.11n
Right Side
118/5590
0.413
0.456
-0.08
12.94
13.80
40M
Tested at the worst position with battery 3#
802.11n
Right Side
118/5590
0.498
0.566
0.19
12.94
13.80
40M
Test data of MHA-L29 (new)
802.11n
Right Side
118/5590
0.533
0.652
0.10
12.94
13.80
40M
Table 144: Product Specific 10-g SAR results of WiFi 5G(5.3G&5.5G)
Test Position
of Product
Specific
10-g SAR
with 0mm
Test
channel /
Freq.(MHz)
Scaled
SAR10-g
(W/kg)
SAR
Plot
0.572
0.759
0.556
0.690
0.795
Yes
According to KDB248227 D01,The reported SAR must be scaled to 100% transmission duty factor to
determine compliance at maximum tune-up tolerance limit.The scaled reported SAR is presented as
below.
Test Position
of Product
Scaled
Test channel /
Actual duty Maximum Scaled Reported
Specific
Test Mode
SAR10-g
Freq.(MHz)
factor
duty factor
SAR10-g (W/kg)
10-g SAR
(W/kg)
with 0mm
Test data of MHA-L29 from the report no.:SYBH(Z-SAR)028052017-2
Test data of MHA-L29(old)
5.3G U-NII-2A Band (802.11n 40M)
Front Side
Back Side
Right Side
Top Side
54/5270
54/5270
54/5270
54/5270
802.11n 40M
802.11n 40M
802.11n 40M
802.11n 40M
Report No.: SYBH(Z-SAR)030052017-2
0.572
87%
87%
87%
87%
100%
100%
100%
100%
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd
0.657
Page 210 of 219
Front Side
Back Side
Right Side
Top Side
118/5590
118/5590
118/5590
118/5590
Right Side
118/5590
Right Side
118/5590
Right Side
118/5590
Mode
Tuneup
(dBm)
5.5G U-NII-2C band (802.11n 40M)
802.11n 40M
87%
802.11n 40M
87%
802.11n 40M
0.759
87%
802.11n 40M
87%
Tested at the worst position with battery 2#
802.11n 40M
0.556
87%
Tested at the worst position with Battery 3#
802.11n 40M
0.690
87%
Test data of MHA-L29 (new)
802.11n 40M
0.795
87%
Tune-up(mW)
100%
100%
100%
100%
0.873
100%
0.639
100%
0.793
100%
0.914
Hightest Reported
SAR10-g (W/kg)
Adjusted
SAR10-g
(W/kg)
SAR
test
5.3G U-NII-2A Band
802.11n 40M
13.8
23.99
0.657
Yes
802.11n 20M
13.8
23.99
0.657
No
802.11a
13.0
19.95
0.546
No
802.11ac 20M 13.5
22.39
0.613
No
802.11ac 40M 13.0
19.95
0.546
No
802.11ac 80M 12.0
15.85
0.434
No
5.5G U-NII-2C band
802.11n 40M
13.8
23.99
0.914
Yes
802.11n 20M
13.8
23.99
0.914
No
802.11a
13.0
19.95
0.760
No
802.11ac 20M 13.5
22.39
0.853
No
802.11ac 40M 13.0
19.95
0.760
No
802.11ac 80M 12.0
15.85
0.604
No
Note : For Product Specific 10-g SAR test of WiFi 5G:
1) As U-NII-2A (5.3G) and U-NII-2C(5.5G) do not support hotspot function, so full Product Specific 10-g
SAR tests were evaluated for U-NII-2A (5.3G) and U-NII-2C(5.5G) bands.
2) For U-NII-2A(5.3G) and U-NII-2C(5.5G) bands, the 802.11n 40M mode is selected as Initial Test
Configuration for SAR test according to the specified maximum output power. As the highest reported
SAR for the initial test configuration is adjusted by the ratio of the subsequent test configuration to initial
test configuration specified maximum output power and the adjusted SAR is ≤ 1.2 W/kg, SAR test for the
other 802.11 modes are not required. The equivalent ratio (1.2/1.6) should be applied to product specific
10-g SAR exposure conditions(4.0W/kg Limit).
Report No.: SYBH(Z-SAR)030052017-2
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Copyright © Huawei Technologies Co., Ltd
Page 211 of 219
7.3
Multiple Transmitter Evaluation
The following tables list information which is relevant for the decision if a simultaneous transmit
evaluation is necessary according to FCC KDB 447498D01 General RF Exposure Guidance v06.
The location of the antennas inside the device is shown as below picture:
Note:
1) Per KDB 648474 D04, because the diagonal distance of this device is > 160mm, it is considered a
“Phablet” device.
2) The device has two 2G/3G/4G Tx antennas (Main Antenna and Second Antenna). It can transmit from
either Main Antenna or Second Antenna, but they can not transmit simultaneously.
2) Per KDB 648474 D04, Phones with built-in NFC functions do not require separate SAR testing and
can generally be tested according to the SAR measurement procedures normally required for the phone.
Influences of the hardware introduced by the built-in NFC functions are inherently considered through
testing of the other transmitters that require SAR.
3) Per KDB 941225 D06, particular DUT edges were not required to be evaluated for Hotspot SAR if the
antenna-to-edge distance is greater than 2.5cm.
Exposure
Front
Back
Left
Right
Top
Bottom
Mode
Condition
Side
Side
Side
Side
Side
Side
Hotspot/ product
Main antenna
Yes
Yes
Yes
Yes
No
Yes
specific 10-g SAR
Second
Hotspot/ product
Yes
Yes
Yes
No
Yes
No
antenna
specific 10-g SAR
WiFi/BT
Hotspot/ product
Yes
Yes
No
Yes
Yes
No
antenna
specific 10-g SAR
Table 145: Sides for Hotspot SAR/ Product Specific 10-g SAR testing
Note:
2) Per KDB 648474 D04, when hotspot mode applies, Product Specific 10-g SAR is required only for the
surfaces and edges with hotspot mode 1-g reported SAR > 1.2 W/kg;
3) WiFi 5G hotspot is only supported for U-NII-1 and U-NII-3, therefore U-NII-2A and U-NII-2C were not
evaluated for hotspot condition.
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7.3.1
Stand-alone SAR test exclusion
Per FCC KDB 447498D01v06:
1) the 1-g SAR and 10-g SAR test exclusion thresholds for 100 MHz to 6 GHz at test separation
distances ≤ 50 mm are determined by:
[(max. power of channel, including tune-up tolerance, mW)/(min. test separation distance, mm)]·[√f(GHz)]
≤ 3.0 for 1-g SAR and ≤ 7.5 for product specific 10-g SAR, where:
 f(GHz) is the RF channel transmit frequency in GHz
 Power and distance are rounded to the nearest mW and mm before calculation
 The result is rounded to one decimal place for comparison
When the minimum test separation distance is < 5 mm, a distance of 5 mm is applied to determine SAR
test exclusion.
Mode
Position
Pmax
(dBm)*
Pmax
(mW)
Distance
(mm)
(GHz)
Calculation
Result
BT
Body-Worn
11.00
12.59
15
2.480
1.32
product
BT
specific
11.00
12.59
2.480
3.97
10-g SAR
Table 146: Standalone SAR test exclusion for BT
Note:
1)* - maximum possible output power declared by manufacturer
2) Held to ear configurations are not applicable to Bluetooth for this device.
SAR
Exclusion
threshold
3.00
7.50
SAR test
exclusion
Yes
Yes
When standalone SAR test exclusion applies to an antenna that transmits simultaneously with other
antennas, the standalone SAR must be estimated according to following to determine simultaneous
transmission SAR test exclusion:
(max. power of channel, including tune-up tolerance, mW)/(min. test separation distance, mm)]·
[√f(GHz)/x] W/kg for test separation distances ≤ 50 mm,where x = 7.5 for 1-g SAR and x = 18.75 for
10-g SAR.
When the minimum test separation distance is < 5 mm, a distance of 5 mm is applied to determine SAR
test exclusion
Mode
Position
Pmax
(dBm)*
Pmax
(mW)
Distance
(mm)
(GHz)
Estimated
SAR (W/kg)*
BT
Body-worn
11.00
12.59
15
2.480
7.50
0.176
product
BT
specific
11.00
12.59
2.480
18.75
0.211
10-g SAR
Table 147: Estimated SAR calculation for BT
Note:
1) * - maximum possible output power declared by manufacturer
2) Held to ear configurations are not applicable to Bluetooth and therefore were not considered for
simultaneous transmission.
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7.3.2 Simultaneous Transmission Possibilities
The Simultaneous Transmission Possibilities of this device are as below:
No.
Configuration
Head
Body-worn
Hotspot
Product
Specific 10-g
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
GSM(Voice) + BT
No
Yes
No
GSM(Data) + BT
No
No
No
GSM(Voice)+ WiFi 2.4G
Yes
Yes
No
GSM(Data) + WiFi 2.4G
No
No
Yes
GSM(Voice)+ WiFi 5G
Yes
Yes
No
GSM(Data) + WiFi 5G
No
No
Yes
UMTS(Voice) + BT
No
Yes
No
UMTS(Data) + BT
No
Yes
No
UMTS(Voice) + WiFi 2.4G
Yes
Yes
No
10
UMTS(Data) + WiFi 2.4G
No
Yes
Yes
11
UMTS(Voice) + WiFi 5G
Yes
Yes
No
12
UMTS(Data) + WiFi 5G
No
Yes
Yes
13
LTE + BT
No
Yes
No
14
LTE + WiFi 2.4G
Yes
Yes
Yes
15
LTE + WiFi 5G
Yes
Yes
Yes
Table 148: Simultaneous Transmission Possibilities
Note:
1) The device can transmit from either 2G&3G&4G Main antenna or 2G&3G&4G Second antenna, but
Main antenna and Second antenna can't transmit simutanously,
2) WiFi 2.4G and WiFi 5G can't transmit simutanously.
3) WiFi 2.4G/5G and BT can't transmit simutanously.
4) WiFi 5G hotspot is only supported for U-NII-1 and U-NII-3 bands.
5) The device does not support GSM DTM function. Body-worn accessory testing is typically associated
with voice operations. Therefore, GSM voice was evaluated for body-worn SAR.
6) Held to ear configurations are not applicable to Bluetooth for this device.
7) LTE VOIP 3rd party applications may possibly be installed and used by the user.
8) The device supports VoLTE function.
9) The device supports WiFi VOIP function.
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Page 214 of 219
7.3.3 SAR Summation Scenario
The yellow color SAR test data in the following summed SAR tables represent that the additional SAR
test results in simultaneous transmission fixed power reduction scenario are used to ensure
simultaneous transmission SAR test exclusion. For the other SAR test data in the summed SAR tables,
the more conservative SAR test results at the maximum output power level without any simultaneous
transmission power reduction are used.
Table 149: SAR Simultaneous Tx Combination of Second antenna and 2.4G WiFi/BT.
Table 150: SAR Simultaneous Tx Combination of Second antenna and 5G WiFi.
Table 151: SAR Simultaneous Tx Combination of Second antenna and 5G WiFi.
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Table 152: SAR Simultaneous Tx Combination of Main antenna and 2.4G WiFi/BT.
Table 153: SAR Simultaneous Tx Combination of Main antenna and 5G WiFi.
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Page 216 of 219
7.3.4 SPLSR Evaluation Analysis
According to KDB447498 D01v06, When the sum of SAR is larger than the limit, SAR test exclusion is
determined by the SAR to peak location separation ratio(SPLSR).When the SAR to peak location ratio
for each pair of antennas is ≤1-g 0.04 and 10-g 0.10,simultaneous SAR evaluation is not required.
When SAR is measured for both antennas in the pair, the peak location separation distance is computed
by the following fomula:
When standalone test exclusion applies, SAR is estimated; the peak location is assumed to be at the
feed-point or geometric center of the antenna.
1) The sum of aggregate 1-g SAR was above 1.6W/kg for Right touch configuration with LTE Band
XXVI(Second antenna) and WiFi 5G.
The Peak SAR location plot is as below:
The SAR to peak location ratio calculation is as below:
Test Position
LTE Band XXVI
(W/kg)
WIFI 5G
(W/kg)
Ri(mm)
SPLSR
Ratio
Limit
Simultaneous
SAR
Right touch
1.420
0.202
71.7
0.029
0.04
Not required
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7.3.5 Simultaneous Transmission Conlcusion
The above numeral summed SAR results and/or SPLSR analysis is sufficient to determine that
simultaneous transmission cases will not exceed the SAR limit and therefore simultaneous transmission
SAR with Volume Scans is not required per KDB 447498 D01v06.
Report No.: SYBH(Z-SAR)030052017-2
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Copyright © Huawei Technologies Co., Ltd
Page 218 of 219
Appendix A. System Check Plots
(Pls See Appendix No.: SYBH(Z-SAR)030052017-2A, total: 26 pages)
Appendix B. SAR Measurement Plots
(Pls See Appendix No.: SYBH(Z-SAR)030052017-2B, total: 110 pages)
Appendix C. Calibration Certificate
(Pls See Appendix No.: SYBH(Z-SAR)030052017-2C, total: 122 pages)
Appendix D. Photo documentation
(Pls See Appendix No.: SYBH(Z-SAR)030052017-2D, total: 6 pages)
End
Report No.: SYBH(Z-SAR)030052017-2
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Download: MHA-L09 Smart Phone RF Exposure Info RF Exposure Report Huawei Technologies Co.,Ltd
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Format                          : application/pdf
Creator                         : Schmid & Partner Engineering
Creator Tool                    : Microsoft® Word 2013
Metadata Date                   : 2017:09:18 16:18:17+08:00
Producer                        : Microsoft® Word 2013
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Instance ID                     : uuid:80ec6136-f429-4a03-b813-e022216a78e6
Page Count                      : 219
EXIF Metadata provided by EXIF.tools

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