AZUMIAKARU55Q Mobile phone RF Exposure Info EMC TRF Template Azumi S.A

Azumi S.A Mobile phone

FCC ID Filing: QRP-AZUMIAKARU55Q
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SHENZHEN LCS COMPLIANCE TESTING LABORATORY LTD.
FCC ID: QRP-AZUMIAKARU55Q
Report No.: LCS170329085AE
SAR TEST REPORT
For
AZUMI S.A
Mobile phone
Model No.: Extend Akaru 55 QL
Additional Model No.: /
Prepared for
Address
AZUMI S.A
Avenida Aquilino de la Guardia con Calle 47, PH Ocean
Plaza, Piso 16 of. 16-01, Marbella, Ciudad de Panama
Prepared by
Address
Tel
Fax
Web
Mail
Shenzhen LCS Compliance Testing Laboratory Ltd.
1/F., Xingyuan Industrial Park, Tongda Road, Bao’an
Avenue, Bao’an District, Shenzhen, Guangdong, China
(86)755-82591330
(86)755-82591332
www.LCS-cert.com
[email protected]
Date of receipt of test sample
Number of tested samples
Serial number
Date of Test
Date of Report
March 29, 2017
Prototype
March 29, 2017~ April 19, 2017
May 26, 2017
This report shall not be reproduced except in full, without the written approval of Shenzhen LCS Compliance Testing Laborator y Ltd.
Page 1 of 170
SHENZHEN LCS COMPLIANCE TESTING LABORATORY LTD.
FCC ID: QRP-AZUMIAKARU55Q
Report No.: LCS170329085AE
SAR TEST REPORT
Report Reference No. .............. : LCS170329085AE
Date Of Issue .............................. : May 26, 2017
Testing Laboratory Name ....... : Shenzhen LCS Compliance Testing Laboratory Ltd.
Address ...................................... : 1/F., Xingyuan Industrial Park, Tongda Road, Bao’an Avenue,
Bao’an District, Shenzhen, Guangdong, China
Testing Location/ Procedure ....... : Full application of Harmonised standards ■
Partial application of Harmonised standards □
Other standard testing method □
Applicant’s Name .................... : AZUMI S.A
Address ...................................... : Avenida Aquilino de la Guardia con Calle 47, PH Ocean Plaza,
Piso 16 of. 16-01, Marbella, Ciudad de Panama
Test Specification:
Standard ..................................... : IEEE 1528:2013/KDB865664
47CFR §2.1093
Test Report Form No. ................. : LCSEMC-1.0
TRF Originator ........................... : Shenzhen LCS Compliance Testing Laboratory Ltd.
Master TRF ................................ : Dated 2014-09
Shenzhen LCS Compliance Testing Laboratory Ltd. All rights reserved.
This publication may be reproduced in whole or in part for non-commercial purposes as long as the
Shenzhen LCS Compliance Testing Laboratory Ltd. is acknowledged as copyright owner and source of
the material. Shenzhen LCS Compliance Testing Laboratory Ltd. takes noresponsibility for and will
not assume liability for damages resulting from the reader's interpretation of the reproduced material
due to its placement and context.
Test Item Description. ............. : Mobile phone
Trade Mark................................. : AZUMI
Model/Type Reference ............... : Extend Akaru 55 QL
Operation Frequency .................. :
GSM 850/PCS1900, WCDMA Band II/V, LTE Band2/4/7,
WLAN2.4G, Bluetooth4.0
GSM(GMSK,8PSK), WCDMA/HSDPA/HSUPA(QPSK),
Modulation Type ........................ : LTE(QPSK,16QAM), WIFI(DSSS,OFDM),
Bluetooth(GFSK,8DPSK,Π/4DQPSK)
Ratings ....................................... : DC 3.7V, 4000mAh
Charging parameter: AC Input: 100~240V, 50/60Hz, 0.3A;
Output: DC 5V, 1.5A
Result ...................................... : Positive
Compiled by:
Supervised by:
Approved by:
Demi Lin / File administrators
Glin Lu/ Technique principal
Gavin Liang/ Manager
This report shall not be reproduced except in full, without the written approval of Shenzhen LCS Compliance Testing Laborator y Ltd.
Page 2 of 170
SHENZHEN LCS COMPLIANCE TESTING LABORATORY LTD.
FCC ID: QRP-AZUMIAKARU55Q
Report No.: LCS170329085AE
SAR -- TEST REPORT
Test Report No. : LCS170329085AE
May 26, 2017
Date of issue
Type / Model......................... : Extend Akaru 55 QL
EUT....................................... : Mobile phone
Applicant.............................. : AZUMI S.A
Address.................................. : Avenida Aquilino de la Guardia con Calle 47, PH Ocean
Plaza, Piso 16 of. 16-01, Marbella, Ciudad de Panama
Manufacturer....................... : AZUMI HK LTD
Address.................................. : FLAT/RM 18 BLK 1 14/F GOLDEN INDUSTRIAL
BUILDING 16-26 KWAI TAK STREET KWAI
CHUNG,HK
Factory.................................. : LWIN HK CO.,LIMITED
Address.................................. : Room 9C,A Zone,Shenye Tairan Hongsong building,Tairan
Six Road North,CheGongMiao, FuTian
District,Shenzhen,Guangdong Province,P.R.China
Test Result
Positive
The test report merely corresponds to the test sample.
It is not permitted to copy extracts of these test result without the written permission of the test laboratory.
This report shall not be reproduced except in full, without the written approval of Shenzhen LCS Compliance Testing Laborator y Ltd.
Page 3 of 170
SHENZHEN LCS COMPLIANCE TESTING LABORATORY LTD.
FCC ID: QRP-AZUMIAKARU55Q
Report No.: LCS170329085AE
Revison History
Revision
00
Issue Date
May 26, 2017
Revisions
Initial Issue
Revised By
Gavin Liang
This report shall not be reproduced except in full, without the written approval of Shenzhen LCS Compliance Testing Laborator y Ltd.
Page 4 of 170
SHENZHEN LCS COMPLIANCE TESTING LABORATORY LTD.
FCC ID: QRP-AZUMIAKARU55Q
Report No.: LCS170329085AE
TABLE OF CONTENTS
1. TEST STANDARDS AND TEST DESCRIPTION ...............................................................................................................6
1.1.
1.2.
1.3.
1.4.
1.5.
TEST STANDARDS............................................................................................................................................................6
TEST DESCRIPTION .........................................................................................................................................................6
GENERAL REMARKS ........................................................................................................................................................6
PRODUCT DESCRIPTION ...................................................................................................................................................6
STATEMENT OF COMPLIANCE ...........................................................................................................................................8
2. TEST ENVIRONMENT ........................................................................................................................................................9
2.1.
2.2.
2.3.
2.4.
TEST FACILITY ................................................................................................................................................................9
ENVIRONMENTAL CONDITIONS .........................................................................................................................................9
SAR LIMITS ....................................................................................................................................................................9
EQUIPMENTS USED DURING THE TEST ............................................................................................................................ 10
3. SAR MEASUREMENTS SYSTEM CONFIGURATION................................................................................................... 12
3.1.
3.2.
3.3.
3.4.
3.5.
3.6.
3.7.
3.8.
3.9.
3.10.
3.11.
3.12.
3.13.
SARMEASUREMENT SET-UP .......................................................................................................................................... 12
OPENSAR E-FIELD PROBE SYSTEM .............................................................................................................................. 13
PHANTOMS.................................................................................................................................................................... 14
DEVICE HOLDER ........................................................................................................................................................... 14
SCANNING PROCEDURE ................................................................................................................................................. 15
DATA STORAGE AND E VALUATION ................................................................................................................................ 16
POSITION OF THE WIRELESS DEVICE IN RELATION TO THE PHANTOM ................................................................................. 17
TISSUE DIELECTRIC PARAMETERS FOR HEAD AND BODY PHANTOMS .............................................................................. 19
TISSUE EQUIVALENT LIQUID PROPERTIES ....................................................................................................................... 19
SYSTEM CHECK ............................................................................................................................................................. 20
SAR MEASUREMENT PROCEDURE ................................................................................................................................... 22
POWER REDUCTION ....................................................................................................................................................... 27
POWER DRIFT................................................................................................................................................................ 27
4. TEST CONDITIONS AND RESULTS................................................................................................................................ 28
4.1.
4.2.
4.3.
4.4.
4.5.
4.6.
4.7.
4.8.
4.9.
4.10.
4.10
CONDUCTED POWER RESULTS ....................................................................................................................................... 28
MANUFACTURING TOLERANCE ....................................................................................................................................... 38
TRANSMIT ANTENNAS AND SAR MEASUREMENT POSITION ............................................................................................ 45
STANDALONE SAR TEST EXCLUSION CONSIDERATIONS ................................................................................................. 46
SAR MEASUREMENT RESULTS ...................................................................................................................................... 48
SIMULTANEOUS TX SAR CONSIDERATIONS ................................................................................................................... 53
SAR MEASUREMENT VARIABILITY ................................................................................................................................ 56
GENERAL DESCRIPTION OF TEST PROCEDURES ................................................................................................................ 56
MEASUREMENT UNCERTAINTY (300MHZ-3GHZ) ........................................................................................................... 57
SYSTEM CHECK RESULTS .............................................................................................................................................. 58
SAR TEST GRAPH RESULTS............................................................................................................................................ 68
5. ALIBRATION CERTIFICATES ........................................................................................................................................ 84
5.1
5.2
5.3
5.4
5.5
5.6
5.7
PROBE-EPGO265 CALIBRATION CERTIFICATE ............................................................................................................... 84
SID750DIPOLE CALIBRATION CERITICATE ..................................................................................................................... 94
SID835DIPOLE CALIBRATION CERITICATE ................................................................................................................... 105
SID1800 DIPOLE CALIBRATION CERTIFICATE .............................................................................................................. 116
SID1900 DIPOLE CALIBRATION CERITICATE ................................................................................................................ 127
SID2450 DIPOLE CALIBRATION CERITICATE ................................................................................................................ 138
SID2600 DIPOLE CALIBRATION CERITICATE ................................................................................................................ 149
6. EUT TEST PHOTOGRAPHS ........................................................................................................................................... 160
6.1 PHOTOGRAPH OF LIQUID DEPTH ....................................................................................................................................... 160
6.8 PHOTOGRAPH OF THE TEST .............................................................................................................................................. 165
7. EUT PHOTOGRAPHS ...................................................................................................................................................... 170
This report shall not be reproduced except in full, without the written approval of Shenzhen LCS Compliance Testing Laborator y Ltd.
Page 5 of 170
SHENZHEN LCS COMPLIANCE TESTING LABORATORY LTD.
FCC ID: QRP-AZUMIAKARU55Q
Report No.: LCS170329085AE
1. TEST STANDARDS AND TEST DESCRIPTION
1.1. Test Standards
IEEE Std C95.1, 2005: IEEE Standard for Safety Levels with Respect to Human Exposure to Radio Frequency
Electromagnetic Fields, 3 KHz to 300 GHz. It specifies the maximum exposure limit of 1.6 W/kg as averaged over
any 1 gram of tissue for portable devices being used within 20 cm of the user in the uncontrolled environment.
IEEE Std 1528™-2013: IEEE Recommended Practice for Determining the Peak Spatial-Average Specific
Absorption Rate (SAR) in the Human Head from Wireless Communications Devices: Measurement Techniques.
FCC Part 2.1093 Radiofrequency Radiation Exposure Evaluation:Portable Devices
KDB447498 D01 General RF Exposure Guidance v06 : Mobile and Portable Device RF Exposure Procedures
and Equipment Authorization Policies
KDB648474 D04, Handset SAR v01r03: SAR Evaluation Considerations for Wireless Handsets
KDB865664 D01 SAR Measurement 100 MHz to 6 GHz v01r04 : SAR Measurement Requirements for 100 MHz
to 6 GHz
KDB865664 D02 RF Exposure Reporting v01r02: RF Exposure Compliance Reporting and Documentation
Considerations
KDB248227 D01 802.11 Wi-Fi SAR v02r02: SAR GUIDANCE FOR IEEE 802.11 (Wi-Fi) TRANSMITTERS
KDB941225 D01 3G SAR Procedures v03r01: 3G SAR MEAUREMENT PROCEDURES
KDB 941225 D06 Hotspot Mode v02r01: SAR EVALUATION PROCEDURES FOR PORTABLE DEVICES WITH
WIRELESS ROUTER CAPABILITIES
KDB 941225 D05 SAR for LTE Devices v02r05: SAR Evaluation Considerations for LTE Devices
1.2. Test Description
The EUT battery must be fully charged and checked periodically during the test to ascertain uniform power .
And Test device is identical prototype.
1.3. General Remarks
Date of receipt of test sample
March 29, 2017
Testing commenced on
April 01, 2017
Testing concluded on
April 19, 2017
1.4. Product Description
The AZUMI S.A.’s Model: Extend Akaru 55 QL or the “EUT” as referred to in this report; more general
information as follows, for more details, refer to the user’s manual of the EUT.
General Description
Product Name:
Mobile phone
Model/Type reference:
Extend Akaru 55 QL
Listed Model(s):
Extend Akaru 55 QL
GMSK for GSM/GPRS and 8PSK for EGPRS;QPSK for WCDMA;
QPSK/16QAM for LTE; DSSS/OFDM for WIFI2.4G;
Modulation Type:
GFSK/8DPSK/π/4DQPSK for Bluetooth
Device category:
Portable Device
Exposure category:
General population/uncontrolled environment
EUT Type:
Production Unit
Power supply:
DC 3.7V, 4000mAh;Charging parameter: AC Input: 100~240V, 50/60Hz,
0.3A; Output: DC 5V, 1.5A
Hotspot:
Supported, power not reduced when Hotspot open
The EUT is GSM,WCDMA,LTE, mobile phone. the mobile phone is intended for speech and Multimedia
Message Service (MMS) transmission. It is equipped with GPRS/EDGE class 12 for GSM850, PCS1900,
WCDMA Band II, Band V, LTE Band 2, Band 4, Band 7, and Bluetooth, WiFi2.4G,, camera functions. For
more information see the following datasheet
This report shall not be reproduced except in full, without the written approval of Shenzhen LCS Compliance Testing Laborator y Ltd.
Page 6 of 170
SHENZHEN LCS COMPLIANCE TESTING LABORATORY LTD.
Technical Characteristics
GSM
Support Networks
Support Band
Frequency
Power Class:
Modulation Type:
Antenna Information
GSM Release Version
GPRS Multislot Class
EGPRS Multislot Class
DTM Mode
UMTS
Support Networks
Operation Band:
Frequency Range
Modulation Type:
Power Class:
WCDMA Release Version:
HSDPA Release Version:
HSUPA Release Version:
DC-HSUPA Release Version:
Antenna Information
LTE
Support Band
Frequency Range
Power Class:
Modulation Type:
LTE Release Version:
VoLTE
Antenna Information
WIFI 2.4G
Supported Standards:
Operation frequency:
Type of Modulation:
Data Rate:
Channel number:
Channel separation:
Antenna Description
Bluetooth
Bluetooth Version:
Modulation:
Operation frequency:
Channel number:
Channel separation:
Antenna Description
FCC ID: QRP-AZUMIAKARU55Q
Report No.: LCS170329085AE
GSM, GPRS, EDGE
GSM850, PCS1900
GSM850: 824.2~848.8MHz
GSM1900: 1850.2~1909.8MHz
GSM850:Power Class 4
PCS1900:Power Class 1
GMSK for GSM/GPRS; GMSK/8PSK For EGPRS
PIFA Antenna
-1.08dBi (max.) For GSM 850
0.1dBi(max.) For PCS 1900
R99
12
12
Not Supported
WCDMA RMC12.2K,HSDPA,HSUPA
WCDMA Band II,Band V
WCDMA Band II: 1852.4 ~ 1907.6MHz
WCDMA Band V: 826.4 ~ 846.6MHz
QPSK for WCDMA/HSUPA/HSDPA
Class 3
R99
R10
R6
Not Supported
PIFA Antenna
0.1dBi(max.) For WCDMA Band II
-1.08dBi(max.) For WCDMA Band V
LTE Band2, Band4, Band7
LTE Band2:1850 ~ 1910MHz
LTE Band4:1710 ~ 1755MHz
LTE Band7:2500 ~ 2570MHz
Class 3
QPSK/16QAM
R8
Not Support
PIFA Antenna,0.1dBi(max.) For LTE FDD Band 2;
-0.4dBi(max.) For LTE FDD Band 4;
0.8dBi(max.) For LTE FDD Band 7;
IEEE 802.11b/802.11g/802.11n(HT20 and HT40)
2412-2462MHz for 11b/g/n(HT20)
2422-2452MHz for 11n(HT40)
CCK, OFDM, QPSK, BPSK, 16QAM, 64QAM
1-11Mbps, 6-54Mbps, up to 150Mbps
IEEE 802.11b/802.11g/802.11n(HT20): 11; 802.11n(HT40): 7
5MHz
PIFA Antenna
0.50dBi(Max.)
V4.0
GFSK(1Mbps) , π/4-DQPSK(2Mbps), 8DPSK(3Mbps)
2402MHz~2480MHz
40/79
1MHz/2MHz
PIFA Antenna
This report shall not be reproduced except in full, without the written approval of Shenzhen LCS Compliance Testing Laborator y Ltd.
Page 7 of 170
SHENZHEN LCS COMPLIANCE TESTING LABORATORY LTD.
FCC ID: QRP-AZUMIAKARU55Q
Report No.: LCS170329085AE
0.50dBi(Max.)
1.5. Statement of Compliance
The maximum of results of SAR found during testing for Extend Akaru 55 QL are follows:

Classment
Class
Frequency
Band
Head
(Report SAR1-g (W/Kg)
Hotspot
(Report SAR1-g (W/Kg)
Body-worn
(Report SAR1-g (W/Kg)
GSM 850
0.178
0.346
0.346
GSM1900
0.100
0.628
0.628
WCDMA Band V
0.168
0.272
0.272
PCE
WCDMA Band II
0.269
0.862
0.862
LTE Band 2
0.293
0.478
0.478
1.041
1.041
LTE Band 4
0.372
0.413
LTE Band 7
0.320
0.320
DTS
WIFI2.4G
0.124
0.200
0.200
This device is in compliance with Specific Absorption Rate (SAR) for general population/uncontrolled
exposure limits (1.6 W/kg) specified in FCC 47 CFR part 2 (2.1093) and ANSI/IEEE C95.1-2005, and had
been tested in accordance with the measurement methods and procedures specified in IEEE 1528-2013.

Exposure Position
Frequency
Band
Reported SAR1-g
(W/kg)
Classment
Class
Highest Reported
Simultaneous
Transmission
SAR1-g (W/Kg)
Hotspot
LTE Band 4
WIFI2.4G
1.041
0.200
PCE
DTS
1.241
This report shall not be reproduced except in full, without the written approval of Shenzhen LCS Compliance Testing Laborator y Ltd.
Page 8 of 170
SHENZHEN LCS COMPLIANCE TESTING LABORATORY LTD.
FCC ID: QRP-AZUMIAKARU55Q
Report No.: LCS170329085AE
2. TEST ENVIRONMENT
2.1. Test Facility
The test facility is recognized, certified, or accredited by the following organizations:
Site Description
EMC Lab.
: CNAS Registration Number. is L4595.
FCC Registration Number. is 899208.
Industry Canada Registration Number. is 9642A-1.
ESMD Registration Number. is ARCB0108.
UL Registration Number. is 100571-492.
TUV SUD Registration Number. is SCN1081.
TUV RH Registration Number. is UA 50296516-001.
2.2. Environmental conditions
During the measurement the environmental conditions were within the listed ranges:
Temperature:
18-25 ° C
Humidity:
40-65 %
Atmospheric pressure:
950-1050mbar
2.3. SAR Limits
FCC Limit (1g Tissue)
EXPOSURE LIMITS
Spatial Average(averaged over the
whole body)
Spatial Peak(averaged over any 1 g of
tissue)
Spatial Peak(hands/wrists/
feet/anklesaveraged over 10 g)
SAR (W/kg)
(General Population /
(Occupational /
Uncontrolled Exposure
Controlled Exposure
Environment)
Environment)
0.08
0.4
1.6
8.0
4.0
20.0
Population/Uncontrolled Environments are defined as locations where there is the exposure of individual who
have no knowledge or control of their exposure.
Occupational/Controlled Environments are defined as locations where there is exposure that may be incurred by
people who are aware of the potential for exposure (i.e. as a result of employment or occupation).
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2.4. Equipments Used during the Test
Calibration
Calibration
Calibration
Date
Due
N/A
N/A
09/25/2016
09/24/2017
Test Equipment
Manufacturer
Type/Model
Serial Number
PC
Signal Generator
Lenovo
Angilent
MY42081102
MY42081396
Multimeter
Keithley
G5005
E4438C
MiltiMeter
2000
4059164
10/01/2015
09/30/2017
Agilent
8753ES
US38432944
09/25/2016
09/24/2017
R&S
CMU200
105988
09/25/2016
09/24/2017
R&S
CMW500
1201.0002K50
09/25/2016
09/24/2017
R&S
R&S
R&S
NRVS
NRV-Z51
NRV-Z32
09/25/2016
09/25/2016
09/25/2016
09/24/2017
09/24/2017
09/24/2017
E-Field PROBE
SATIMO
SSE2
09/15/2016
09/14/2017
DIPOLE 750
SATIMO
SID 750
10/01/2015
09/30/2018
DIPOLE 835
SATIMO
SID 835
10/01/2015
09/30/2018
DIPOLE 1800
SATIMO
SID 1800
10/01/2015
09/30/2018
DIPOLE 1900
SATIMO
SID 1900
10/01/2015
09/30/2018
DIPOLE 2450
SATIMO
SID 2450
10/01/2015
09/30/2018
DIPOLE 2600
SATIMO
SID 2600
10/01/2015
09/30/2018
SATIMO
OCPG 68
10/01/2015
09/30/2018
SATIMO
ANTA57
100469
100458
10057
SN 34/15
EPGO265
SN 30/14 DIP
0G750-302
SN 07/14 DIP
0G835-303
SN 07/14 DIP
1G800-301
SN 30/14 DIP
1G900-333
SN 07/14 DIP
2G450-306
SN 07/14 DIP
2G600-336
SN 40/14
OCPG68
SN 39/14
ANTA57
10/01/2015
09/30/2018
SATIMO
MSH98
N/A
N/A
DUMMY PROBE
SATIMO
DP60
N/A
N/A
SAM PHANTOM
SATIMO
SAM117
N/A
N/A
Instruments for
Industry
CMC150
M631-0627
09/25/2016
09/24/2017
Instruments for
Industry
S41-25
M629-0539
09/25/2016
09/24/2017
Hughes Aircraft
Company
1277H02F00
102
09/25/2016
09/24/2017
S-parameter Network
Analyzer
Wireless
Communication
Test Set
Wideband Radia
Communication
Tester
Power Meter
Power Sensor
Power Sensor
COMOSAR OPEN
Coaxial Probe
Communication
Antenna
Mobile Phone
POSITIONING
DEVICE
High Power Solid
State Amplifier
(80MHz~1000MHz)
Medium Power Solid
State Amplifier
(0.8~4.2GHz)
Wave Tube Amplifier
48 GHz at 20Watt
SN 40/14
MSH98
SN 03/14
DP60
SN 40/14
SAM117
Note:
1) Per KDB865664D01 requirements for dipole calibration, the test laboratory has adopted three year extended
calibration interval. Each measured dipole is expected to evalute with following criteria at least on annual
interval.
a) There is no physical damage on the dipole;
b) System check with specific dipole is within 10% of calibrated values;
c) The most recent return-loss results,measued at least annually,deviates by no more than 20% from the
previous measurement;
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d) The most recent measurement of the real or imaginary parts of the impedance, measured at least annually is
within 5Ω from the provious measurement.
2) Network analyzer probe calibration against air, distilled water and a shorting block performed before
measuring liquid parameters.
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3. SAR MEASUREMENTS SYSTEM CONFIGURATION
3.1. SARMeasurement Set-up
The OPENSAR system for performing compliance tests consist of the following items:
A standard high precision 6-axis robot (KUKA) with controller and software.
KUKA Control Panel (KCP)
A dosimetric probe, i.e., an isotropic E-field probe optimized and calibrated for usage in tissue simulating liquid.
The probe is equipped with a Video Positioning System(VPS).
The stress sensor is composed with mechanical and electronic when the electronic part detects a change on the
electro-mechanical switch,It sends an “Emergency signal” to the robot controller that to stop robot’s moves
A computer operating Windows XP.
OPENSAR software
Remote control with teaches pendant and additional circuitry for robot safety such as warning lamps, etc.
The SAM phantom enabling testing left-hand right-hand and body usage.
The Position device for handheld EUT
Tissue simulating liquid mixed according to the given recipes .
System validation dipoles to validate the proper functioning of the system.
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3.2. OPENSAR E-field Probe System
The SAR measurements were conducted with the dosimetric probe EP220 (manufactured by SATIMO), designed
in the classical triangular configuration and optimized for dosimetric evaluation.
Probe Specification
ConstructionSymmetrical design with triangular core
Interleaved sensors
Built-in shielding against static charges
PEEK enclosure material (resistant to organic solvents, e.g., DGBE)
CalibrationISO/IEC 17025 calibration service available.
Frequency
700 MHz to 3 GHz;
Linearity:0.25dB(700 MHz to 3GHz)
Directivity
0.25 dB in HSL (rotation around probe axis)
0.5 dB in tissue material (rotation normal to probe axis)
Dynamic Range
0.01W/kg to > 100 W/kg;
Linearity: 0.25 dB
Dimensions
Overall length: 330 mm (Tip: 16mm)
Tip diameter: 5 mm (Body: 8 mm)
Distance from probe tip to sensor centers: 2.5 mm
Application
General dosimetry up to 3 GHz
Dosimetry in strong gradient fields
Compliance tests of Mobile Phones
Isotropic E-Field Probe
The isotropic E-Field probe has been fully calibrated and assessed for isotropicity, and boundary effect within a
controlled environment. Depending on the frequency for which the probe is calibrated the method utilized for
calibration will change.
The E-Field probe utilizes a triangular sensor arrangement as detailed in the diagram below:
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3.3. Phantoms
The SAM Phantom SAM117 is constructed of a fiberglass shell ntegrated in a wooden table. The shape of the
shell is in compliance with the specification set in IEEE P1528 and CENELEC EN62209-1 , EN62209-2:2010.The
phantom enables the dosimetric evaluation of left and right hand phone usage as well as body mounted usage at
the flat phantom region. A cover prevents the evaporation of the liquid. Reference markings on the Phantom
allow the complete setup of allpredefined phantom positions and measurement grids by manually teaching three
points in the robo
System checking was performed using the flat section, whilst Head SAR tests used the left and right head profile
sections. Body SAR testing also used the flat section between the head profiles.
SAM Twin Phantom
3.4. Device Holder
In combination with the Generic Twin PhantomSAM117, the Mounting Device enables the rotation of the
mounted transmitter in spherical coordinates whereby the rotation points is the ear opening. The devices can be
easily, accurately, and repeatedly positioned according to the FCC and CENELEC specifications. The device
holder can be locked at different phantom locations (left head, right head, flat phantom).
Device holder supplied by SATIMO
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3.5. Scanning Procedure
The procedure for assessing the peak spatial-average SAR value consists of the following steps
Power Reference Measurement
The reference and drift jobs are useful jobs for monitoring the power drift of the device under test in the
batch process. Both jobs measure the field at a specified reference position, at a selectable distance from
the phantom surface. The reference position can be either the selected section's grid reference point or a
user point in this section. The reference job projects the selected point onto the phantom surface, orients the
probe perpendicularly to the surface, and approaches the surface using the selected detection method.
Area Scan
The Area Scan is used as a fast scan in two dimensions to find the area of high field values before running a
detailed measurement around the hot spot.Before starting the area scan a grid spacing of 15 mm x 15 mm is set.
During the scan the distance of the probe to the phantom remains unchanged. After finishing area scan, the field
maxima within a range of 2 dB will be ascertained.
Zoom Scan
Zoom Scans are used to estimate the peak spatial SAR values within a cubic averaging volume containing 1 g
and 10 g of simulated tissue. The default Zoom Scan is done by 7x7x7 points within a cube whose base is
centered around the maxima found in the preceding area scan.
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Power Drift measurement
The drift job measures the field at the same location as the most recent reference job within the same procedure,
and with the same settings. The drift measurement gives the field difference in dB from the reading conducted
within the last reference measurement. Several drift measurements are possible for one reference measurement.
This allows a user to monitor the power drift of the device under test within a batch process. In the properties of
the Drift job, the user can specify a limit for the drift and have OPENSAR software stop the measurements if this
limit is exceeded.
3.6. Data Storage and Evaluation
Data Storage
The OPENSAR 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 . 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
The OPENSAR 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
Normi, ai0, ai1, ai2
- Conversion factor
ConvFi
- Diode compression point
Dcpi
Device parameters: - Frequency
- Crest factor
cf
Media parameters: - Conductivity
σ
- Density
ρ
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 OPENSAR 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 DCtransmission 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:
With Vi = compensated signal of channel i ( i = x, y, z )
Ui = input signal of channel i
( i = x, y, z )
cf = crest factor of exciting field
dcpi = diode compression point
From the compensated input signals the primary field data for each channel can be evaluated:
With
Vi
Normi
ConvF
= compensated signal of channel i
= sensor sensitivity of channel i
[mV/(V/m)2] for E-field Probes
= sensitivity enhancement in solution
(i = x, y, z)
(i = x, y, z)
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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):
The primary field data are used to calculate the derived field units.
with SAR
Etot
σ
ρ
= 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.
3.7. Position of the wireless device in relation to the phantom
General considerations
This standard specifies two handset test positions against the head phantom – the “cheek” position and the “tilt”
position.
The power flow density is calculated assuming the excitation field as a free space field
E2
tot
𝑃(pwe) = 3770
or P(pwe)= H2tot.37.7
Where Ppwe=Equivalent power density of a plane wave in mW/cm2
Etot=total electric field strength in V/m
Htot=total magnetic field strength in A/m
W t Width of the handset at the level of the acoustic
W bWidth of the bottom of the handset
A Midpoint of the widthwtof the handset at the level of the acoustic output
B Midpoint of the width wb of the bottom of the handset
Picture 1-a Typical “fixed” case handset Picture 1-b Typical “clam-shell” case handset
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Picture 2 Cheek position of the wireless device on the left side of SAM
Picture 3 Tilt position of the wireless device on the left side of SAM
For body SAR test we applied to FCC KDB941225, KDB447498, KDB248227, KDB648654;
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3.8. Tissue Dielectric Parameters for Head and Body Phantoms
The liquid is consisted of water,salt,Glycol,Sugar,Preventol and Cellulose.The liquid has previously been proven
to be suited for worst-case.It’s satisfying the latest tissue dielectric parameters requirements proposed by the
KDB865664.
The composition of the tissue simulating liquid
Ingredient
(%
Weight)
Water
Preventol
HEC
DGBE
Triton X100
750MHz
835MHz
1800 MHz
1900 MHz
2450MHz
2600MHz
5000MHz
Head
Body
Head
Body
Head
Body
Head
Body
Head
Body
Head
Body
Head
Body
39.28
0.10
1.00
0.00
51.3
0.10
1.00
0.00
41.45
0.10
1.00
0.00
52.5
0.10
1.00
0.00
54.5
0.00
0.00
45.33
40.2
0.00
0.00
59.31
54.9
0.00
0.00
44.92
40.4
0.00
0.00
59.10
62.7
0.00
0.00
36.80
73.2
0.00
0.00
26.70
60.3
0.00
0.00
39.10
71.4
0.00
0.00
28.40
65.5
0.00
0.00
0.00
78.6
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
17.2
10.7
Target Frequency
(MHz)
150
300
450
835
900
915
1450
1610
1800-2000
2450
3000
5800
Head
Îľr
52.3
45.3
43.5
41.5
41.5
41.5
40.5
40.3
40.0
39.2
38.5
35.3
Body
σ(S/m)
0.76
0.87
0.87
0.90
0.97
0.98
1.20
1.29
1.40
1.80
2.40
5.27
Îľr
61.9
58.2
56.7
55.2
55.0
55.0
54.0
53.8
53.3
52.7
52.0
48.2
σ(S/m)
0.80
0.92
0.94
0.97
1.05
1.06
1.30
1.40
1.52
1.95
2.73
6.00
3.9. Tissue equivalent liquid properties
Tissue
Type
835H
1800H
1900H
2450H
2600H
835B
1800B
1900B
2450B
2600B
Measured
Frequency
(MHz)
835
1800
1900
2450
2600
835
1800
1900
2450
2600
Dielectric Performance of Head and Body Tissue Simulating Liquid
Target Tissue
Measured Tissue
Liquid
Temp.
σ
Îľr
σ
Dev.
Îľr
Dev.
0.90
1.40
1.40
1.80
1.96
0.97
1.52
1.52
1.95
2.16
41.50
40.00
40.00
39.20
39.01
55.20
53.30
53.30
52.70
52.51
0.88
1.41
1.45
1.82
2.02
1.00
1.52
1.56
1.96
2.24
-2.22%
0.71%
3.57%
1.11%
3.06%
3.09%
0.00%
2.63%
0.31%
3.70%
42.56
41.58
41.76
40.35
40.23
55.64
54.87
54.78
54.69
52.36
2.55%
3.95%
4.40%
2.93%
3.13%
0.80%
2.95%
2.78%
3.78%
-0.29%
21.0
21.0
21.0
21.0
21.0
21.0
21.0
21.0
21.0
21.0
Test Data
04/01/2017
04/06/2017
04/08/2017
04/12/2017
04/18/2017
04/05/2017
04/07/2017
04/11/2017
04/13/2117
04/19/2017
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3.10. System Check
The purpose of the system check is to verify that the system operates within its specifications at the decice test
frequency.The system check is simple check of repeatability to make sure that the system works correctly at the
time of the compliance test;
System check results have to be equal or near the values determined during dipole calibration with the relevant
liquids and test system (Âą10 %).
The output power on dipole port must be calibrated to 20 dBm (100mW) before dipole is connected.
Photo of Dipole Setup
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Justification for Extended SAR Dipole Calibrations
Referring to KDB 865664D01V01r04, if dipoles are verified in return loss (<-20dB, within 20% of prior calibration), and
in impedance (within 5 ohm of prior calibration), the annual calibration is not necessary and the calibration interval can
be extended.While calibration intervals not exceed 3 years.
Date of
Measurement
2015-10-01
2016-09-30
Date of
Measurement
2015-10-01
2016-09-30
Date of
Measurement
2015-10-01
2016-09-30
Date of
Measurement
2015-10-01
2016-09-30
Date of
Measurement
2015-10-01
2016-09-30
Mixtur
Type
Frequen
cy
(MHz)
Head
835
Body
835
Head
1800
Body
1800
Head
1900
SID835 SN 07/14 DIP 0G835-303 Extend Dipole Calibrations
Real
Imaginary
Return-Loss
Delta
Delta
Impedance
Impedance
(dB)
(%)
(ohm)
(ohm)
(ohm)
-24.46
55.4
2.4
-25.53
-4.374
56.1
0.7
1.352
Delta
(ohm)
-1.048
SID1800 SN 30/14 DIP 1G800-301 Extend Dipole Calibrations
Real
Imaginary
Return-Loss
Delta
Delta
Impedance
Impedance
(dB)
(%)
(ohm)
(ohm)
(ohm)
-20.19
43.4
7.2
-21.36
-5.795
44.5
1.1
6.9
Delta
(ohm)
-0.3
SID1900 SN 30/14 DIP 1G900-333 Extend Dipole Calibrations
Real
Imaginary
Return-Loss
Delta
Delta
Impedance
Impedance
(dB)
(%)
(ohm)
(ohm)
(ohm)
-23.68
51.2
6.4
-24.19
-2.154
50.179
-1.021
3.521
Delta
(ohm)
-2.879
SID2450 SN 07/14 DIP 2G450-306 Extend Dipole Calibrations
Real
Imaginary
Return-Loss
Delta
Delta
Impedance
Impedance
(dB)
(%)
(ohm)
(ohm)
(ohm)
-25.61
44.9
-0.9
-26.38
-3.007
45.026
0.126
-1.067
Delta
(ohm)
-0.167
SID2600 SN 30/14 DIP 2G600-336 Extend Dipole Calibrations
Real
Imaginary
Return-Loss
Delta
Delta
Impedance
Impedance
(dB)
(%)
(ohm)
(ohm)
(ohm)
-24.18
45.7
4.5
-23.68
-2.068
44.066
1.634
4.002
Power
100 mW
Normalize
to 1 Watt
100 mW
Normalize
to 1 Watt
100 mW
Normalize
to 1 Watt
100 mW
Normalize
to 1 Watt
100 mW
Normalize
SAR1g
(W/Kg)
SAR10g
(W/Kg)
0.989
0.641
9.89
6.41
1.005
0.650
10.05
6.50
3.943
2.061
39.43
20.61
3.986
2.068
39.86
20.68
3.916
39.16
2.009
20.09
Drift
(%)
1W Target
Delta
(ohm)
-0.498
Difference
percentage
Liquid
Temp
Date
3.39%
21.0
04/01/
2017
1.52%
1.72%
21.0
04/05/
2017
20.20
3.41%
2.03%
21.0
04/06/
2017
39.03
20.65
2.13%
0.15%
21.0
04/07/
2017
39.84
20.20
-1.71%
-0.54%
21.0
04/08/
2017
SAR1g
(W/Kg)
SAR10g
(W/Kg)
1g
10g
2.14
9.60
6.20
3.02%
-2.61
9.90
6.39
-1.22
38.13
-3.44
0.79
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Body
1900
Head
2450
Body
2450
Head
2600
Body
2600
to 1 Watt
100 mW
Normalize
to 1 Watt
100 mW
Normalize
to 1 Watt
100 mW
Normalize
to 1 Watt
100 mW
Normalize
to 1 Watt
100 mW
Normalize
to 1 Watt
4.277
2.113
42.77
21.13
5.244
2.382
52.44
23.82
5.311
2.436
53.11
24.36
5.473
2.341
54.73
23.41
5.488
2.439
54.88
24.39
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3.33
43.33
21.59
-1.29%
-2.13%
21.0
04/11/
2017
-1.78
53.89
24.15
-2.69%
-1.37%
21.0
04/12/
2017
-0.91
54.65
24.58
-2.82%
-0.90%
21.0
04/13/
2017
1.64
56.19
24.08
-3.13%
-2.78%
21.0
04/18/
2016
3.72
57.49
24.88
-4.57%
-1.97%
21.0
04/19/
2016
3.11. SAR measurement procedure
The measurement procedures are as follows:
3.11.1 Conducted power measurement
a. For WWAN power measurement, use base station simulator connection with RF cable, at maximum power in
each supported wireless interface and frequency band.
b. Read the WWAN RF power level from the base station simulator.
c. For WLAN/BT power measurement, use engineering software to configure EUT WLAN/BT continuously
Transmission, at maximum RF power in each supported wireless interface and frequency band.
d. Connect EUT RF port through RF cable to the power meter, and measure WLAN/BT output power.
3.11.2 GSM Test Configuration
SAR tests for GSM 850 and GSM 1900, a communication link is set up with a System Simulator (SS) by air link.
Using CMU200 the power level is set to “5” for GSM 850, set to “0” for GSM 1900. 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 timeslots 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 timeslots is 5.
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.
GSM voice and GPRS data use GMSK, which is a constant amplitude modulation with minimal peak to average
power difference within the time-slot burst. For EDGE, GMSK is used for MCS 1 – MCS 4 and 8-PSK is used for
MCS 5 – MCS 9; where 8-PSK has an inherently higher peak-to-average power ratio. The GMSK and 8-PSK
EDGE configurations are considered separately for SAR compliance. The GMSK EDGE configurations are
grouped with GPRS and considered with respect to time-averaged maximum output power to determine
compliance. The 3G SAR test reduction procedure is applied to 8-PSK EDGE with GMSK GPRS/EDGE as the
primary mode.
3.11.3 UMTS Test Configuration
3G SAR Test Reduction Procedure
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.3
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.
Output power Verification
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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.
Head SAR
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.
1) Body-Worn Accessory SAR
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. Otherwise, SAR is measured
using an applicable RMC configuration with the corresponding spreaing code or DPDCHn, for the highest
reported body-worn accessory exposure SAR configuration in 12.2 kbps RMC. When more than 2 DPDCHn are
supported by the handset, it may be necessary to configure additional DPDCHn using FTM (Factory Test Mode)
or other chipset based test approaches with parameters similar to those used in 384 kbps and 768 kbps RMC.
2) Handsets with Release 5 HSDPA
The 3G SAR test reduction procedure is applied to HSDPA body-worn accessory configurations with 12.2 kbps
RMC as the primary mode. Otherwise, SAR is measured for HSDPA using the HSDPA body SAR procedures in
the “Release 5 HSDPA Data Devices” section of this document, for the highest reported SAR body-worn
accessory exposure configuration in 12.2 kbps RMC. Handsets with both HSDPA and HSUPA are tested
according to Release 6 HSPA test procedures.
HSDPA should be configured according to the UE category of a test device.The number of HSDSCH/
HS-PDSCHs, HARQ 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 conditions, QPSK is
used in the H-set for SAR testing. HS-DPCCH should be configured with a CQI feedback cycle of 4 ms with a CQI
repetition factor of 2 to maintain a constant rate of active CQI slots. DPCCH and DPDCH gain factors(βc, βd), and
HS-DPCCH power offset parameters (ΔACK, ΔNACK, ΔCQI) should be set according to values indicated in the
Table below. The CQI value is determined by the UE category, transport block size, number of HS-PDSCHs and
modulation used in the H-set.
Table 2: Subtests for UMTS Release 5 HSDPA
Subset
βc
βd
βd
(SF)
βc/βd
βhs
(note 1,
note 2)
4/15
CM(dB)
(note
3)
0.0
MPR(dB)
2/15
15/15
64
2/15
0.0
12/15
15/15
12/15
(note
(note
64
(note
24/15
1.0
0.0
4)
4)
4)
15/15
8/15
64
15/8
30/15
1.5
0.5
15/15
4/15
64
15/4
30/15
1.5
0.5
Note1: △ACK, △NACK and △CQI= 8 Ahs = βhs/βc=30/15 βhs=30/15*βc
Note2: CM=1 for βc/βd =12/15, βhs/βc=24/15.
Note3: For subtest 2 the βcβd ratio of 12/15 for the TFC during the measurement period(TF1,TF0) is
achieved by setting the signaled gain factors for the reference TFC (TFC1,TF1) to βc=11/15 and
βd=15/15.
HSUPA Test Configuration
The 3G SAR test reduction procedure is applied to HSPA (HSUPA/HSDPA with RMC) body-worn accessory
configurations with 12.2 kbps RMC as the primary mode. Otherwise, SAR is measured for HSPA using the HSPA
body SAR procedures in the “Release 6 HSPA Data Devices” section of this document, for the highest reported
body-worn accessory exposure SAR configuration in 12.2 kbps RMC. When VOIP is applicable for next to the ear
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head exposure in HSPA, the 3G SAR test reduction procedure is applied to HSPA with 12.2 kbps RMC as the
primary mode; otherwise, the same HSPA configuration used for body-worn accessory measurements is tested
for next to the ear head exposure.
Due to inner loop power control requirements in HSPA, a communication test set is required for output power and
SAR tests. The 12.2 kbps RMC, FRC H-set 1 and E-DCH configurations for HSPA are configured according to the
β values indicated in Table 2 and other applicable procedures described in the ‘WCDMA Handset’ and ‘Release 5
HSDPA Data Devices’ sections of this document
Table 3: Sub-Test 5 Setup for Release 6 HSUPA
Sub
set
βd
(SF)
1039/225
2/15
94/75
βed1:47/15
βed2:47/15
56/75
24/15
134/15
11/15(3
15/15(3
64
11/15
22/15
209/225
6/15
15/15
64
6/15
12/15
12/15
15/15
9/15
64
15/9
30/15
30/15
2/15
15/15(4
15/15
15/15(4
64
2/15
4/15
30/15
64
(3)
(4)
15/15
βhs(1)
βed
(codes)
βd
βc/βd
βed
(SF)
βc
βec
βed
CM
MPR
(dB)
AG(4)
Index
ETFCI
1.0
0.0
20
75
3.0
2.0
12
67
2.0
1.0
15
92
3.0
2.0
17
71
1.0
0.0
21
81
(2)
(dB)
Note 1: ∆ACK, ∆NACK and ∆CQI = 8 ⇔ Ahs = βhs/βc = 30/15 ⇔ βhs= 30/15 *βc.
Note 2: CM = 1 for βc/βd =12/15, βhs/βc =24/15. For all other combinations of DPDCH, DPCCH, HS- DPCCH, EDPDCH and E-DPCCH the MPR is based on the relative CM difference.
Note 3: For subtest 1 the βc/βd ratio of 11/15 for the TFC during the measurement period (TF1, TF0) is achieved by
setting the signaled gain factors for the reference TFC (TF1, TF1) to βc = 10/15 and βd = 15/15.
Note 4: For subtest 5 the βc/βd ratio of 15/15 for the TFC during the measurement period (TF1, TF0) is achieved by
setting the signaled gain factors for the reference TFC (TF1, TF1) to βc = 14/15 and βd = 15/15.
Note 5: Testing UE using E-DPDCH Physical Layer category 1 Sub-test 3 is not required according to TS 25.306
Figure 5.1g.
Note 6: βed can not be set directly; it is set by Absolute Grant Value.
3.11.4 LTE Test Configuration
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 among 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.8 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.
QPSK with 50% RB allocation
The procedures required for 1 RB allocation in section 4.2.1 are applied to measure the SAR for QPSK with 50%
RB allocation.9
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 sections 4.2.1 and 4.2.2 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.
3.11.5 WIFI Test Configuration
The SAR measurement and test reduction procedures are structured according to either the DSSS or OFDM
transmission mode configurations used in each standalone frequency band and aggregated band. For devices
that operate in exposure configurations that require multiple test positions, additional SAR test reduction may be
applied. The maximum output power specified for production units, including tune-up tolerance, are used to
determine initial SAR test requirements for the 802.11 transmission modes in a frequency band. SAR is
measured using the highest measured maximum output power channel for the initial test configuration. SAR
measurement and test reduction for the remaining 802.11 modes and test channels are determined according to
measured or specified maximum output power and reported SAR of the initial measurements. The general test
reduction and SAR measurement approaches are summarized in the following:
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1. The maximum output power specified for production units are determined for all applicable 802.11 transmission
modes in each standalone and aggregated frequency band. Maximum output power is measured for the highest
maximum output power configuration(s) in each frequency band according to the default power measurement
procedures.
2. For OFDM transmission configurations in the 2.4 GHz and 5 GHz bands, an “initial test configuration” is first
determined for each standalone and aggregated frequency band according to the maximum output power and
tune-up tolerance specified for production units.
a. When the same maximum power is specified for multiple transmission modes in a frequency band, the largest
channel bandwidth, lowest order modulation, lowest data rate and lowest order 802.11a/g/n/ac mode is used for
SAR measurement, on the highest measured output power channel in the initial test configuration, for each
frequency band.
b. SAR is measured for OFDM configurations using the initial test configuration procedures. Additional frequency
band specific SAR test reduction may be considered for individual frequency bands
c. Depending on the reported SAR of the highest maximum output power channel tested in the initial test
configuration, SAR test reduction may apply to subsequent highest output channels in the initial test configuration
to reduce the number of SAR measurements.
3. The Initial test configuration does not apply to DSSS. The 2.4 GHz band SAR test requirements and 802.11b
DSSS procedures are used to establish the transmission configurations required for SAR measurement.
4. An “initial test position”is applied to further reduce the number of SAR tests for devices operating in next to the
ear, UMPC mini-tablet or hotspot mode exposure configurations that require multiple test positions .
a. SAR is measured for 802.11b according to the 2.4 GHz DSSS procedure using the exposure condition
established by the initial test position.
b. SAR is measured for 2.4 GHz and 5 GHz OFDM configurations using the initial test configuration.
802.11b/g/n operating modes are tested independently according to the service requirements in each frequency
band. 802.11b/g/n modes are tested on the maximum average output channel.
5. The Initial test position does not apply to devices that require a fixed exposure test position. SAR is measured
in a fixed exposure test position for these devices in 802.11b according to the 2.4 GHz DSSS procedure or in 2.4
GHz and 5 GHz OFDM configurations using the initial test configuration procedures .
6. The “subsequent test configuration”procedures are applied to determine if additional SAR measurements are
required for the remaining OFDM transmission modes that have not been tested in the initial test configuration.
SAR test exclusion is determined according to reported SAR in the initial test configuration and maximum output
power specified or measured for these other OFDM configurations.
2.4 GHz and 5GHz SAR 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. When SAR measurement is
required for an OFDM configuration, the initial test configuration, subsequent test configuration and initial test
position procedures are applied. The SAR test exclusion requirements for 802.11g/n OFDM configurations are
described in section 5.2.2.
1. 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:
a. When the reported SAR of the highest measured maximum output power channel (section 3.1) for the
exposure configuration is ≤ 0.8 W/kg, no further SAR testing is required for 802.11b DSSS in that exposure
configuration.
b. 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.
1. 2.4 GHz 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). SAR is not required for the following 2.4 GHz OFDM
conditions.
a. When KDB Publication 447498 SAR test exclusion applies to the OFDM configuration
b. 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.
2. SAR Test Requirements for OFDM Configurations
When SAR measurement is required for 802.11 a/g/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.20 In applying the initial test configuration and subsequent test configuration procedures, the
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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.
3. OFDM Transmission Mode SAR Test Configuration and Channel Selection Requirements
The initial test configuration for 2.4 GHz and 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 (section 4).
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.
a. The largest channel bandwidth configuration is selected among the multiple configurations with the same
specified maximum output power.
b. 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.
c. 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.
d. 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.
a. Channels with measured maximum output power within Âź dB of each other are considered to have the same
maximum output.
b. When there are multiple test channels with the same measured maximum output power, the channel closest
to mid-band frequency is selected for SAR measurement.
c. When there are multiple test channels with the same measured maximum output power and 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.
Initial Test Configuration Procedures
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). 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.23 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.
4. Subsequent Test Configuration Procedures
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. The
initial test position procedure is applied to next to the ear, UMPC mini-tablet and hotspot mode configurations.
When the same maximum output power is specified for multiple transmission modes, the procedures in section
5.3.2 are applied to determine the test configuration. Additional power measurements may be required to
determine if SAR measurements are required for subsequent highest output power channels in a subsequent test
configuration. The subsequent test configuration and SAR measurement procedures are described in the
following.
a. When SAR test exclusion provisions of KDB Publication 447498 are applicable and SAR measurement is not
required for the initial test configuration, SAR is also not required for the next highest maximum output power
transmission mode subsequent test configuration(s) in that frequency band or aggregated band and exposure
configuration.
b. When the highest reported SAR for the initial test configuration (when applicable, include subsequent highest
output channels), 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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c.
The number of channels in the initial test configuration and subsequent test configuration can be different due
to differences in channel bandwidth. When SAR measurement is required for a subsequent test configuration
and the channel bandwidth is smaller than that in the initial test configuration, all channels in the subsequent
test configuration that overlap with the larger bandwidth channel tested in the initial test configuration should
be used to determine the highest maximum output power channel. This step requires additional power
measurement to identify the highest maximum output power channel in the subsequent test configuration to
determine SAR test reduction.
1). SAR should first be measured for the channel with highest measured output power in the subsequent test
configuration.
2). SAR for subsequent highest measured maximum output power channels in the subsequent test configuration
is required only when the reported SAR of the preceding higher maximum output power channel(s) in the
subsequent test configuration is > 1.2 W/kg or until all required channels are tested.
a) For channels with the same measured maximum output power, SAR should be measured using the channel
closest to the center frequency of the larger channel bandwidth channel in the initial test configuration.
d. SAR measurements for the remaining highest specified maximum output power OFDM transmission mode
configurations that have not been tested in the initial test configuration (highest maximum output) or
subsequent test configuration(s) (subsequent next highest maximum output power) is determined by applying
the subsequent test configuration procedures in this section to the remaining configurations according to the
following:
1) replace “subsequent test configuration” with “next subsequent test configuration” (i.e., subsequent next
highest specified maximum output power configuration)
2) replace “initial test configuration” with “all tested higher output power configurations.
3.12. Power Reduction
The product without any power reduction.
3.13. Power Drift
To control the output power stability during the SAR test, SAR system calculates the power drift by measuring the
E-field at the same location at the beginning and at the end of the measurement for each test position. This
ensures that the power drift during one measurement is within 5%.
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4. TEST CONDITIONS AND RESULTS
4.1. Conducted Power Results
Max Conducted power measurement results and power drift from tune-up tolerance provide by manufacturer:
Conducted power measurement results for GSM850/PCS1900 
GSM 850
GSM
1TX slot
2TX slot
GPRS
(GMSK)
3TX slot
4TX slot
1TX slot
2TX slot
EGPRS
(8PSK)
3TX slot
4TX slot
GSM 1900
GSM
1TX slot
2TX slot
GPRS
(GMSK)
3TX slot
4TX slot
1TX slot
2TX slot
EGPRS
(8PSK)
3TX slot
4TX slot
Burst Conducted power (dBm)
Channel/Frequency(MHz)
128/824.2
190/836.6
251/848.8
32.34
32.37
32.32
32.34
32.28
32.07
30.69
30.51
30.75
29.31
29.09
29.27
27.96
28.01
27.91
26.78
26.26
26.46
25.19
25.17
25.48
24.82
24.18
24.06
23.32
23.00
23.23
Burst Conducted power (dBm)
Channel/Frequency(MHz)
512/
661/
810/
1850.2
1880
1909.8
30.45
30.57
30.48
29.54
29.42
29.70
27.29
27.11
27.27
26.55
26.26
26.80
24.43
24.65
24.22
25.58
25.67
25.46
23.80
23.84
23.67
22.26
22.71
22.42
21.17
21.76
21.72
-9.03dB
-9.03dB
-6.02dB
-4.26dB
-3.01dB
-9.03dB
-6.02dB
-4.26dB
-3.01dB
-9.03dB
-9.03dB
-6.02dB
-4.26dB
-3.01dB
-9.03dB
-6.02dB
-4.26dB
-3.01dB
Average power (dBm)
Channel/Frequency(MHz)
128/824.2 190/836.6
251/848.8
23.31
23.34
23.29
23.31
23.25
23.04
24.67
24.49
24.73
25.05
24.83
25.01
24.95
25.00
24.90
17.75
17.23
17.43
19.17
19.15
19.46
20.56
19.92
19.80
20.31
19.99
20.22
Average power (dBm)
Channel/Frequency(MHz)
512/
661/
810/
1850.2
1880
1909.8
21.42
21.54
21.45
20.51
20.39
20.67
21.27
21.09
21.25
22.29
22.00
22.54
21.42
21.64
21.21
16.55
16.64
16.43
17.78
17.82
17.65
18.00
18.45
18.16
18.16
18.75
18.71
Conducted power measurement results for GSM850/PCS1900 
GSM 850
GSM
1TX slot
2TX slot
GPRS
(GMSK)
3TX slot
4TX slot
1TX slot
2TX slot
EGPRS
(8PSK)
3TX slot
4TX slot
GSM 1900
GSM
1TX slot
2TX slot
GPRS
(GMSK)
3TX slot
4TX slot
1TX slot
2TX slot
EGPRS
(8PSK)
3TX slot
4TX slot
Burst Conducted power (dBm)
Channel/Frequency(MHz)
128/824.2
190/836.6
251/848.8
32.25
32.20
32.26
32.27
32.23
32.10
30.20
30.52
30.67
28.16
29.09
29.26
26.36
27.96
27.89
26.07
26.25
26.53
25.51
25.14
25.53
24.31
24.18
24.13
23.39
23.05
23.24
Burst Conducted power (dBm)
Channel/Frequency(MHz)
512/
661/
810/
1850.2
1880
1909.8
29.95
30.05
30.03
29.81
29.77
29.69
26.96
27.03
26.97
25.35
25.48
25.41
24.58
24.67
24.50
24.91
25.12
24.99
23.22
23.29
23.20
21.65
21.81
21.66
19.48
19.47
19.49
-9.03dB
-9.03dB
-6.02dB
-4.26dB
-3.01dB
-9.03dB
-6.02dB
-4.26dB
-3.01dB
-9.03dB
-9.03dB
-6.02dB
-4.26dB
-3.01dB
-9.03dB
-6.02dB
-4.26dB
-3.01dB
Average power (dBm)
Channel/Frequency(MHz)
128/824.2 190/836.6
251/848.8
23.22
23.17
23.23
23.24
23.20
23.07
24.18
24.50
24.65
23.90
24.83
25.00
23.35
24.95
24.88
17.04
17.22
17.50
17.69
19.12
19.51
18.05
19.92
19.87
17.38
20.04
20.23
Average power (dBm)
Channel/Frequency(MHz)
512/
661/
810/
1850.2
1880
1909.8
20.92
21.02
21.00
20.78
20.74
20.66
20.94
21.01
20.95
21.09
21.22
21.15
21.57
21.66
21.49
15.88
16.09
15.96
17.20
17.27
17.18
17.39
17.55
17.40
16.47
16.46
16.48
This report shall not be reproduced except in full, without the written approval of Shenzhen LCS Compliance Testing Laborator y Ltd.
Page 28 of 170
SHENZHEN LCS COMPLIANCE TESTING LABORATORY LTD.
FCC ID: QRP-AZUMIAKARU55Q
Report No.: LCS170329085AE
Notes:
1. Division Factors
To average the power, the division factor is as follows:
1TX-slot = 1 transmit time slot out of 8 time slots=> conducted power divided by (8/1) => -9.00dB
2TX-slots = 2 transmit time slots out of 8 time slots=> conducted power divided by (8/2) => -6.00dB
3TX-slots = 3 transmit time slots out of 8 time slots=> conducted power divided by (8/3) => -4.26dB
4TX-slots = 4 transmit time slots out of 8 time slots=> conducted power divided by (8/4) => -3.00dB
2. According to the conducted power as above, the GPRS measurements are performed with 3Txslot for
GPRS850 and 3Txslot GPRS1900.
3. We will only measured SAR at SIM1 as power higher than SIM2;
Item
RMC
HSDPA
HSUPA
Conducted Power Measurement Results(WCDMA Band II/V)
WCDMA Band II result
WCDMA Band V result (dBm)
(dBm)
band
Channel/Frequency(MHz)
Channel/Frequency(MHz)
9262/
9400/
9538/
4132/
4183/
4233/
sub-test
1852.4
1880
1907.6
826.4
836.6
846.6
12.2kbps RMC
23.57
23.68
23.45
23.36
23.52
23.63
64kbps RMC
23.43
23.56
23.34
23.29
23.42
23.50
144kbps RMC
23.40
23.42
23.23
23.24
23.27
23.43
384kbps RMC
23.24
23.27
23.12
23.17
23.23
23.20
Sub –Test 1
23.61
23.56
22.34
23.25
23.60
23.42
Sub –Test 2
22.55
22.15
21.73
22.64
22.15
22.50
Sub –Test 3
21.50
21.67
21.64
21.97
21.84
21.68
Sub –Test 4
21.23
21.39
22.46
21.03
21.05
20.88
Sub –Test 1
22.65
21.17
21.80
22.62
22.83
22.56
Sub –Test 2
21.68
21.37
21.45
21.60
21.95
21.81
Sub –Test 3
21.65
21.59
20.76
22.68
22.62
22.23
Sub –Test 4
20.79
20.50
21.35
20.71
20.44
20.82
Sub –Test 5
21.24
20.79
23.45
19.93
20.25
20.19
Note: When the maximum output power and tune-up tolerance specified for production units in a secondary
mode is ≤1/2dB higher than the primary mode (RMC12.2kbps) 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 report shall not be reproduced except in full, without the written approval of Shenzhen LCS Compliance Testing Laborator y Ltd.
Page 29 of 170
SHENZHEN LCS COMPLIANCE TESTING LABORATORY LTD.
LTE Band2
BW
(MHz)
Frequency
(MHz)
1850.7
1.4
1880.0
1909.3
1851.5
1880.0
1908.5
1852.5
1880.0
1907.5
10
1855.0
FCC ID: QRP-AZUMIAKARU55Q
RB Configuration
Size
Offset
15
15
15
12
12
12
25
12
12
12
25
12
12
12
25
14
14
14
12
24
13
12
24
13
12
24
13
Report No.: LCS170329085AE
Average Power [dBm]
QPSK
16QAM
21.85
21.84
21.93
21.64
21.99
21.86
20.54
21.41
21.39
21.12
21.20
21.06
22.15
21.72
21.92
21.38
21.81
21.65
20.82
21.30
21.15
21.21
21.48
21.21
21.53
21.25
21.57
20.83
21.59
21.38
21.25
21.51
21.22
21.28
21.29
21.19
21.20
21.60
21.33
20.49
21.52
21.38
20.93
21.15
21.21
20.57
20.82
20.86
20.66
21.08
20.50
20.90
20.10
20.05
20.27
20.00
21.15
20.98
21.37
20.47
20.75
20.59
20.44
20.85
21.44
21.36
21.54
22.04
21.95
21.99
21.93
21.51
21.40
20.59
21.16
21.31
21.21
21.35
21.30
21.97
21.89
21.70
21.96
21.93
21.56
21.47
21.26
21.17
20.88
20.81
21.01
20.52
20.83
20.84
19.93
20.64
20.77
20.71
20.58
20.20
20.60
20.67
20.45
20.26
20.54
19.68
20.43
20.21
20.56
20.38
20.42
21.18
20.90
21.23
20.74
20.76
20.62
20.41
20.73
20.60
20.47
20.56
20.66
20.42
19.74
19.79
19.77
20.22
This report shall not be reproduced except in full, without the written approval of Shenzhen LCS Compliance Testing Laborator y Ltd.
Page 30 of 170
SHENZHEN LCS COMPLIANCE TESTING LABORATORY LTD.
1880.0
1905.0
1857.5
15
1880.0
1902.5
1860.0
20
1880.0
1900.0
25
25
25
50
25
25
25
50
25
25
25
50
37
37
37
75
37
37
37
75
37
37
37
75
50
50
50
100
50
50
50
100
50
50
50
100
FCC ID: QRP-AZUMIAKARU55Q
24
49
12
25
24
49
12
25
24
49
12
25
37
74
18
38
37
74
18
38
37
74
18
38
49
99
25
50
49
99
25
50
49
99
25
50
20.63
21.24
19.59
20.00
20.30
19.97
21.11
20.45
20.86
19.67
19.54
19.90
19.68
21.48
20.84
21.06
20.16
19.90
20.16
20.22
20.31
20.59
20.72
19.87
19.90
20.13
20.09
20.31
20.60
20.11
19.80
19.51
20.16
20.42
19.87
20.20
20.26
19.09
19.38
19.17
18.95
20.90
21.28
21.27
19.99
20.41
20.38
20.34
21.05
20.51
20.84
19.95
19.54
21.14
20.83
20.99
20.40
20.38
20.35
20.39
19.79
20.51
Report No.: LCS170329085AE
20.09
20.48
19.61
19.61
21.57
20.88
20.95
20.22
20.21
20.02
20.31
20.27
19.94
20.91
20.05
20.30
20.28
19.37
19.48
19.61
19.85
19.37
19.49
20.91
21.15
21.29
20.30
20.42
20.40
20.31
21.15
20.22
20.72
20.16
19.40
20.16
20.04
20.25
20.76
20.27
20.42
20.49
19.25
19.79
21.10
20.52
21.15
21.13
21.20
21.23
21.14
21.07
20.18
21.03
21.21
21.18
21.08
21.05
21.06
20.71
20.67
20.83
This report shall not be reproduced except in full, without the written approval of Shenzhen LCS Compliance Testing Laborator y Ltd.
Page 31 of 170
SHENZHEN LCS COMPLIANCE TESTING LABORATORY LTD.
LTE Band4
BW
(MHz)
Frequency
(MHz)
1710.7
1.4
1732.5
1754.3
1711.5
1732.5
1753.5
1712.0
1732.5
1752.5
FCC ID: QRP-AZUMIAKARU55Q
RB Configuration
Size
Offset
15
15
15
12
12
12
25
12
12
12
25
12
12
12
25
14
14
14
12
24
13
12
24
13
12
24
13
Report No.: LCS170329085AE
Average Power [dBm]
QPSK
16QAM
21.64
22.03
22.13
21.76
22.00
21.99
20.92
21.16
21.30
21.27
21.48
21.00
21.45
21.75
22.07
20.62
21.32
21.14
21.20
21.42
21.28
21.31
21.35
21.30
21.13
21.39
21.13
20.49
21.37
21.14
21.41
20.99
20.90
20.63
19.65
20.66
21.12
21.08
20.80
20.11
20.43
20.68
20.41
19.91
21.36
21.25
21.12
20.71
20.55
20.45
20.10
20.65
20.49
20.17
20.92
20.70
21.05
19.98
20.22
20.29
20.13
21.26
19.99
22.20
21.66
21.81
21.34
21.52
21.28
21.59
21.25
21.41
20.85
21.59
21.49
21.57
21.66
21.12
21.22
21.43
21.04
21.09
21.55
21.29
20.46
20.25
20.57
20.83
21.02
21.15
20.49
20.79
20.48
20.70
20.97
20.92
21.42
20.07
20.02
20.57
20.01
21.07
20.97
21.42
20.54
20.90
19.90
19.64
20.05
19.97
20.64
19.87
20.81
19.34
20.03
21.79
20.67
20.65
20.34
20.29
19.95
20.22
20.33
19.76
20.72
20.26
This report shall not be reproduced except in full, without the written approval of Shenzhen LCS Compliance Testing Laborator y Ltd.
Page 32 of 170
SHENZHEN LCS COMPLIANCE TESTING LABORATORY LTD.
1715.0
10
1732.5
1750.0
1717.5
15
1732.5
1747.5
1720.0
20
1732.5
1745.0
25
25
25
50
25
25
25
50
25
25
25
50
37
37
37
75
37
37
37
75
37
37
37
75
50
50
50
100
50
50
50
100
50
50
50
100
FCC ID: QRP-AZUMIAKARU55Q
24
49
12
25
24
49
12
25
24
49
12
25
37
74
18
38
37
74
18
38
37
74
18
38
49
99
25
50
49
99
25
50
49
99
25
50
20.76
20.44
21.27
19.73
20.27
20.05
19.75
21.03
20.38
20.78
20.10
19.48
20.41
20.20
20.30
19.55
19.75
21.31
20.49
20.94
20.07
20.80
21.11
21.37
20.56
20.77
20.68
20.63
21.28
20.60
21.19
20.20
20.02
20.31
20.41
21.33
20.78
20.85
20.77
20.78
20.54
20.70
20.45
19.89
20.57
19.48
19.36
21.44
20.86
20.94
20.18
20.47
19.96
20.45
20.37
20.69
20.63
20.19
19.77
20.21
19.98
20.28
20.63
Report No.: LCS170329085AE
20.22
20.16
20.24
20.40
20.42
20.99
19.83
19.72
20.52
20.37
20.18
20.47
19.83
19.93
19.71
19.49
20.62
20.09
19.47
19.65
19.12
20.74
20.67
20.08
20.86
20.66
21.37
19.79
20.23
20.01
19.86
20.86
20.24
20.46
19.99
19.48
20.06
19.74
21.58
20.98
21.15
20.17
19.82
19.59
20.01
19.71
20.22
20.03
19.25
19.27
19.13
19.06
20.01
19.66
19.81
20.87
21.24
20.33
20.60
20.52
20.96
20.30
20.85
This report shall not be reproduced except in full, without the written approval of Shenzhen LCS Compliance Testing Laborator y Ltd.
Page 33 of 170
SHENZHEN LCS COMPLIANCE TESTING LABORATORY LTD.
LTE Band7
BW
(MHz)
Frequency
(MHz)
2502.5
2535.0
2567.5
2505.0
10
2535.0
2565.0
2507.5
15
2535.0
2562.5
FCC ID: QRP-AZUMIAKARU55Q
RB Configuration
Size
Offset
12
12
12
25
12
12
12
25
12
12
12
25
25
25
25
50
25
25
25
50
25
25
25
50
37
37
37
75
37
37
37
75
37
37
37
75
12
24
13
12
24
13
12
24
13
24
49
12
25
24
49
12
25
24
49
12
25
37
74
18
38
37
74
18
38
37
74
18
38
Report No.: LCS170329085AE
Average Power [dBm]
QPSK
16QAM
20.98
21.13
21.14
20.33
20.68
20.53
20.69
21.15
20.85
21.26
20.08
20.08
20.16
20.09
21.18
20.93
21.25
20.73
20.81
20.32
20.44
20.93
20.44
21.21
19.91
19.90
20.03
19.87
20.87
20.23
20.79
19.77
19.67
19.95
19.69
21.57
20.87
20.77
20.16
19.98
20.07
20.26
20.41
20.72
20.62
19.92
19.77
20.15
20.23
20.50
20.55
20.12
19.59
19.77
20.25
20.43
19.80
20.36
20.03
19.21
19.35
19.25
19.00
20.53
20.42
20.67
20.41
20.35
21.22
20.95
21.20
20.58
20.60
20.69
20.44
20.70
20.66
20.66
20.45
20.33
20.30
19.78
19.65
19.79
20.55
20.25
20.54
19.69
19.84
21.54
20.72
21.01
20.19
20.32
20.06
20.30
20.57
20.03
20.60
20.25
20.33
20.18
19.41
19.57
19.38
20.08
19.61
19.53
20.95
21.13
20.99
20.34
20.52
20.63
20.54
20.98
20.48
20.63
19.82
19.34
20.28
20.16
20.25
20.86
20.18
20.36
This report shall not be reproduced except in full, without the written approval of Shenzhen LCS Compliance Testing Laborator y Ltd.
Page 34 of 170
SHENZHEN LCS COMPLIANCE TESTING LABORATORY LTD.
2510.0
20
2535.0
2560
FCC ID: QRP-AZUMIAKARU55Q
50
50
50
100
50
50
50
100
50
50
50
100
49
99
25
50
49
99
25
50
49
99
25
50
21.04
21.07
21.02
20.28
20.07
20.14
20.28
21.07
20.60
21.22
20.05
19.66
21.03
20.84
21.05
20.37
20.74
20.33
20.36
20.15
20.45
Report No.: LCS170329085AE
20.60
19.21
19.59
21.77
20.73
21.35
21.42
21.31
21.03
21.67
21.43
20.28
21.57
21.26
21.23
20.90
20.95
21.20
20.91
20.75
20.92

Mode
IEEE 802.11b
IEEE 802.11g
Channel
Frequency
(MHz)
2412
2437
11
2462
2412
2437
11
2462
Data rate (Mbps)
5.5
11
5.5
11
5.5
11
12
18
24
36
48
54
12
18
24
36
48
54
12
18
24
36
48
Average Output
Power (dBm)
15.04
15.00
15.48
15.45
15.08
15.02
15.01
15.04
15.11
15.12
15.06
15.02
12.54
12.46
12.30
12.28
12.16
12.08
12.02
12.01
12.64
12.56
12.45
12.30
12.29
12.23
12.17
12.04
12.38
12.24
12.17
12.22
12.18
12.13
12.15
This report shall not be reproduced except in full, without the written approval of Shenzhen LCS Compliance Testing Laborator y Ltd.
Page 35 of 170
SHENZHEN LCS COMPLIANCE TESTING LABORATORY LTD.
IEEE 802.11n
HT20
IEEE 802.11n
HT40
2412
2437
11
2462
2422
2437
2452
FCC ID: QRP-AZUMIAKARU55Q
54
MCS0
MCS1
MCS2
MCS3
MCS4
MCS5
MCS6
MCS7
MCS0
MCS1
MCS2
MCS3
MCS4
MCS5
MCS6
MCS7
MCS0
MCS1
MCS2
MCS3
MCS4
MCS5
MCS6
MCS7
MCS0
MCS1
MCS2
MCS3
MCS4
MCS5
MCS6
MCS7
MCS0
MCS1
MCS2
MCS3
MCS4
MCS5
MCS6
MCS7
MCS0
MCS1
MCS2
MCS3
MCS4
MCS5
MCS6
MCS7
Report No.: LCS170329085AE
12.10
12.28
12.21
12.20
12.15
12.11
12.16
12.13
12.11
12.37
12.33
12.30
12.32
12.21
12.14
12.11
12.07
12.51
12.46
12.38
12.21
12.28
12.15
12.13
12.10
10.47
10.45
10.42
10.42
10.40
10.39
10.35
10.34
10.51
10.50
10.47
10.45
10.44
10.43
10.36
10.29
10.49
10.47
10.43
10.43
10.41
10.40
10.38
10.36
Note: SAR is not required for the following 2.4 GHz OFDM conditions as 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.
This report shall not be reproduced except in full, without the written approval of Shenzhen LCS Compliance Testing Laborator y Ltd.
Page 36 of 170
SHENZHEN LCS COMPLIANCE TESTING LABORATORY LTD.
Mode
GFSK-BLE
GFSK
π/4-DQPSK
8DPSK
FCC ID: QRP-AZUMIAKARU55Q
Report No.: LCS170329085AE

Frequency
Conducted AVG output power
channel
(MHz)
(dBm)
2402
0.36
19
2440
0.31
39
2480
1.46
2402
3.49
39
2441
3.42
78
2480
3.82
2402
2.62
39
2441
2.63
78
2480
2.95
2402
2.73
39
2441
2.73
78
2480
3.04
Per KDB 447498 D01v06, the 1-g 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 10-g extremity SAR
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
Bluetooth Turn up
Power (dBm)
4.0
Separation Distance
(mm)
Frequency
(GHz)
2.45
Exclusion
Thresholds
0.786
Per KDB 447498 D01v06, when the minimum test separation distance is < 5 mm, a distance of 5 mm is applied to
determine SAR test exclusion. The test exclusion threshold is 0.786 < 3.0, SAR testing is not required.
This report shall not be reproduced except in full, without the written approval of Shenzhen LCS Compliance Testing Laborator y Ltd.
Page 37 of 170
SHENZHEN LCS COMPLIANCE TESTING LABORATORY LTD.
FCC ID: QRP-AZUMIAKARU55Q
Report No.: LCS170329085AE
4.2. Manufacturing tolerance
Channel
Target (dBm)
Tolerance Âą(dB)
Channel
Target (dBm)
Tolerance Âą(dB)
1 Txslot
2 Txslot
3 Txslot
4 Txslot
1 Txslot
2 Txslot
3 Txslot
4 Txslot
1 Txslot
2 Txslot
3 Txslot
4 Txslot
1 Txslot
2 Txslot
3 Txslot
4 Txslot
GSM Speech 
GSM 850 (GMSK) (Burst Average Power)
Channel 128
Channel 190
32.0
32.0
1.0
1.0
GSM 1900 (GMSK) (Burst Average Power)
Channel 512
Channel 661
30.0
30.0
1.0
1.0
GSM 850 GPRS (GMSK) (Burst Average Power)
Channel
128
190
Target (dBm)
32.0
32.0
Tolerance Âą(dB)
1.0
1.0
Target (dBm)
30.0
30.0
Tolerance Âą(dB)
1.0
1.0
Target (dBm)
29.0
29.0
Tolerance Âą(dB)
1.0
1.0
Target (dBm)
27.0
28.0
Tolerance Âą(dB)
1.0
1.0
GSM 850 EDGE (8PSK) (Burst Average Power)
Channel
128
190
Target (dBm)
26.0
26.0
Tolerance Âą(dB)
1.0
1.0
Target (dBm)
25.0
25.0
Tolerance Âą(dB)
1.0
1.0
Target (dBm)
24.0
24.0
Tolerance Âą(dB)
1.0
1.0
Target (dBm)
23.0
23.0
Tolerance Âą(dB)
1.0
1.0
GSM 1900 GPRS (GMSK) (Burst Average Power)
Channel
512
661
Target (dBm)
29.0
29.0
Tolerance Âą(dB)
1.0
1.0
Target (dBm)
27.0
27.0
Tolerance Âą(dB)
1.0
1.0
Target (dBm)
26.0
26.0
Tolerance Âą(dB)
1.0
1.0
Target (dBm)
24.0
24.0
Tolerance Âą(dB)
1.0
1.0
GSM 1900 EDGE (8PSK) (Burst Average Power)
Channel
512
661
Target (dBm)
25.0
25.0
Tolerance Âą(dB)
1.0
1.0
Target (dBm)
23.0
23.0
Tolerance Âą(dB)
1.0
1.0
Target (dBm)
22.0
22.0
Tolerance Âą(dB)
1.0
1.0
Target (dBm)
21.0
21.0
Tolerance Âą(dB)
1.0
1.0
Channel 251
32.0
1.0
Channel 810
30.0
1.0
251
32.0
1.0
30.0
1.0
29.0
1.0
27.0
1.0
251
26.0
1.0
25.0
1.0
24.0
1.0
23.0
1.0
810
29.0
1.0
27.0
1.0
26.0
1.0
24.0
1.0
810
25.0
1.0
23.0
1.0
22.0
1.0
21.0
1.0
This report shall not be reproduced except in full, without the written approval of Shenzhen LCS Compliance Testing Laborator y Ltd.
Page 38 of 170
SHENZHEN LCS COMPLIANCE TESTING LABORATORY LTD.
Channel
Target (dBm)
Tolerance Âą(dB)
Channel
Target (dBm)
Tolerance Âą(dB)
1 Txslot
2 Txslot
3 Txslot
4 Txslot
1 Txslot
2 Txslot
3 Txslot
4 Txslot
1 Txslot
2 Txslot
3 Txslot
4 Txslot
1 Txslot
2 Txslot
3 Txslot
4 Txslot
FCC ID: QRP-AZUMIAKARU55Q
GSM Speech 
GSM 850 (GMSK) (Burst Average Power)
Channel 128
Channel 190
32.0
32.0
1.0
1.0
GSM 1900 (GMSK) (Burst Average Power)
Channel 810
Channel 661
29.0
30.0
1.0
1.0
GSM 850 GPRS (GMSK) (Burst Average Power)
Channel
128
190
Target (dBm)
32.0
32.0
Tolerance Âą(dB)
1.0
1.0
Target (dBm)
30.0
30.0
Tolerance Âą(dB)
1.0
1.0
Target (dBm)
28.0
29.0
Tolerance Âą(dB)
1.0
1.0
Target (dBm)
26.0
27.0
Tolerance Âą(dB)
1.0
1.0
GSM 850 EDGE (8PSK) (Burst Average Power)
Channel
128
190
Target (dBm)
26.0
26.0
Tolerance Âą(dB)
1.0
1.0
Target (dBm)
25.0
25.0
Tolerance Âą(dB)
1.0
1.0
Target (dBm)
24.0
24.0
Tolerance Âą(dB)
1.0
1.0
Target (dBm)
23.0
23.0
Tolerance Âą(dB)
1.0
1.0
GSM 1900 GPRS (GMSK) (Burst Average Power)
Channel
512
661
Target (dBm)
29.0
30.0
Tolerance Âą(dB)
1.0
1.0
Target (dBm)
26.0
27.0
Tolerance Âą(dB)
1.0
1.0
Target (dBm)
25.0
25.0
Tolerance Âą(dB)
1.0
1.0
Target (dBm)
24.0
24.0
Tolerance Âą(dB)
1.0
1.0
GSM 1900 EDGE (8PSK) (Burst Average Power)
Channel
512
661
Target (dBm)
24.0
25.0
Tolerance Âą(dB)
1.0
1.0
Target (dBm)
23.0
23.0
Tolerance Âą(dB)
1.0
1.0
Target (dBm)
21.0
21.0
Tolerance Âą(dB)
1.0
1.0
Target (dBm)
19.0
19.0
Tolerance Âą(dB)
1.0
1.0
Channel
Target (dBm)
Tolerance Âą(dB)
Channel
Target (dBm)
Tolerance Âą(dB)
UMTS
UMTS Band V
Channel 4132
Channel 4183
23.0
23.0
1.0
1.0
UMTS Band V HSDPA(sub-test 1)
Channel 4132
Channel 4183
23.0
23.0
1.0
1.0
UMTS Band V HSDPA(sub-test 2)
Report No.: LCS170329085AE
Channel 251
32.0
1.0
Channel 512
30.0
1.0
251
32.0
1.0
30.0
1.0
29.0
1.0
27.0
1.0
251
26.0
1.0
25.0
1.0
24.0
1.0
23.0
1.0
810
30.0
1.0
26.0
1.0
25.0
1.0
24.0
1.0
810
24.0
1.0
23.0
1.0
21.0
1.0
19.0
1.0
Channel 4233
23.0
1.0
Channel 4233
23.0
1.0
This report shall not be reproduced except in full, without the written approval of Shenzhen LCS Compliance Testing Laborator y Ltd.
Page 39 of 170
SHENZHEN LCS COMPLIANCE TESTING LABORATORY LTD.
Channel
Target (dBm)
Tolerance Âą(dB)
Channel
Target (dBm)
Tolerance Âą(dB)
Channel
Target (dBm)
Tolerance Âą(dB)
Channel
Target (dBm)
Tolerance Âą(dB)
Channel
Target (dBm)
Tolerance Âą(dB)
Channel
Target (dBm)
Tolerance Âą(dB)
Channel
Target (dBm)
Tolerance Âą(dB)
Channel
Target (dBm)
Tolerance Âą(dB)
Channel
Target (dBm)
Tolerance Âą(dB)
Channel
Target (dBm)
Tolerance Âą(dB)
Channel
Target (dBm)
Tolerance Âą(dB)
Channel
Target (dBm)
Tolerance Âą(dB)
Channel
Target (dBm)
Tolerance Âą(dB)
Channel
Target (dBm)
Tolerance Âą(dB)
Channel
Target (dBm)
Tolerance Âą(dB)
FCC ID: QRP-AZUMIAKARU55Q
Channel 4132
Channel 4183
22.0
22.0
1.0
1.0
UMTS Band V HSDPA(sub-test 3)
Channel 4132
Channel 4183
21.0
21.0
1.0
1.0
UMTS Band V HSDPA(sub-test 4)
Channel 4132
Channel 4183
21.0
21.0
1.0
1.0
UMTS Band V HSUPA(sub-test 1)
Channel 4132
Channel 4183
22.0
20.0
1.0
1.0
UMTS Band V HSUPA(sub-test 2)
Channel 4132
Channel 4183
21.0
21.0
1.0
1.0
UMTS Band V HSUPA(sub-test 3)
Channel 4132
Channel 4183
22.0
22.0
1.0
1.0
UMTS Band V HSUPA(sub-test 4)
Channel 4132
Channel 4183
20.0
20.0
1.0
1.0
UMTS Band V HSUPA(sub-test 5)
Channel 4132
Channel 4183
19.0
21.0
1.0
1.0
UMTS Band II
Channel 9262
Channel 9400
23.0
23.0
1.0
1.0
UMTS Band II HSDPA(sub-test 1)
Channel 9262
Channel 9400
23.0
23.0
1.0
1.0
UMTS Band II HSDPA(sub-test 2)
Channel 9262
Channel 9400
22.0
22.0
1.0
1.0
UMTS Band II HSDPA(sub-test 3)
Channel 9262
Channel 9400
21.0
21.0
1.0
1.0
UMTS Band II HSDPA(sub-test 4)
Channel 9262
Channel 9400
21.0
21.0
1.0
1.0
UMTS Band II HSUPA(sub-test 1)
Channel 9262
Channel 9400
22.0
21.0
1.0
1.0
UMTS Band II HSUPA(sub-test 2)
Channel 9262
Channel 9400
21.0
21.0
1.0
1.0
Report No.: LCS170329085AE
Channel 4233
22.0
1.0
Channel 4233
21.0
1.0
Channel 4233
20.0
1.0
Channel 4233
21.0
1.0
Channel 4233
21.0
1.0
Channel 4233
22.0
1.0
Channel 4233
20.0
1.0
Channel 4233
21.0
1.0
Channel 9538
23.0
1.0
Channel 9538
22.0
1.0
Channel 9538
21.0
1.0
Channel 9538
21.0
1.0
Channel 9538
22.0
1.0
Channel 9538
21.0
1.0
Channel 9538
21.0
1.0
This report shall not be reproduced except in full, without the written approval of Shenzhen LCS Compliance Testing Laborator y Ltd.
Page 40 of 170
SHENZHEN LCS COMPLIANCE TESTING LABORATORY LTD.
Channel
Target (dBm)
Tolerance Âą(dB)
Channel
Target (dBm)
Tolerance Âą(dB)
Channel
Target (dBm)
Tolerance Âą(dB)
Channel
Target (dBm)
Tolerance Âą(dB)
Channel
Target (dBm)
Tolerance Âą(dB)
Channel
Target (dBm)
Tolerance Âą(dB)
Channel
Target (dBm)
Tolerance Âą(dB)
Channel
Target (dBm)
Tolerance Âą(dB)
Channel
Target (dBm)
Tolerance Âą(dB)
Channel
Target (dBm)
Tolerance Âą(dB)
Channel
Target (dBm)
Tolerance Âą(dB)
Channel
Target (dBm)
Tolerance Âą(dB)
Channel
FCC ID: QRP-AZUMIAKARU55Q
UMTS Band II HSUPA(sub-test 3)
Channel 9262
Channel 9400
21.0
21.0
1.0
1.0
UMTS Band II HSUPA(sub-test 4)
Channel 9262
Channel 9400
20.0
20.0
1.0
1.0
UMTS Band II HSUPA(sub-test 5)
Channel 9262
Channel 9400
21.0
20.0
1.0
1.0
LTE Band 2
BW:1.4MHz []
Channel 18607
Channel 18900
QPSK
16QAM
QPSK
16QAM
21.0
21.0
21.0
21.0
1.0
1.0
1.0
1.0
BW:1.4MHz [, ]
Channel 18607
Channel 18900
QPSK
16QAM
QPSK
16QAM
21.0
22.0
22.0
21.0
1.0
1.0
1.0
1.0
BW:3MHz []
Channel 18615
Channel 18900
QPSK
16QAM
QPSK
16QAM
21.0
21.0
21.0
20.0
1.0
1.0
1.0
1.0
BW:3MHz [, ]
Channel 18615
Channel 18900
QPSK
16QAM
QPSK
16QAM
21.0
21.0
21.0
20.0
1.0
1.0
1.0
1.0
BW:5MHz []
Channel 18625
Channel 18900
QPSK
16QAM
QPSK
16QAM
21.0
20.0
21.0
21.0
1.0
1.0
1.0
1.0
BW:5MHz [, ]
Channel 18625
Channel 18900
QPSK
16QAM
QPSK
16QAM
20.0
21.0
20.0
20.0
1.0
1.0
1.0
1.0
BW:10MHz []
Channel 18650
Channel 18900
QPSK
16QAM
QPSK
16QAM
21.0
20.0
21.0
20.0
1.0
1.0
1.0
1.0
BW:10MHz [, ]
Channel 18650
Channel 18900
QPSK
16QAM
QPSK
16QAM
20.0
21.0
19.0
20.0
1.0
1.0
1.0
1.0
BW:15MHz []
Channel 18675
Channel 18900
QPSK
16QAM
QPSK
16QAM
20.0
19.0
20.0
20.0
1.0
1.0
1.0
1.0
BW:15MHz [, ]
Channel 18675
Channel 18900
Report No.: LCS170329085AE
Channel 9538
20.0
1.0
Channel 9538
21.0
1.0
Channel 9538
23.0
1.0
Channel 19193
QPSK
16QAM
21.0
21.0
1.0
1.0
Channel 19193
QPSK
16QAM
21.0
21.0
1.0
1.0
Channel 19185
QPSK
16QAM
21.0
20.0
1.0
1.0
Channel 19185
QPSK
16QAM
21.0
20.0
1.0
1.0
Channel 19175
QPSK
16QAM
21.0
20.0
1.0
1.0
Channel 19175
QPSK
16QAM
20.0
20.0
1.0
1.0
Channel 19150
QPSK
16QAM
21.0
20.0
1.0
1.0
Channel 19150
QPSK
16QAM
20.0
20.0
1.0
1.0
Channel 19125
QPSK
16QAM
20.0
20.0
1.0
1.0
Channel 19125
This report shall not be reproduced except in full, without the written approval of Shenzhen LCS Compliance Testing Laborator y Ltd.
Page 41 of 170
SHENZHEN LCS COMPLIANCE TESTING LABORATORY LTD.
Target (dBm)
Tolerance Âą(dB)
Channel
Target (dBm)
Tolerance Âą(dB)
Channel
Target (dBm)
Tolerance Âą(dB)
Channel
Target (dBm)
Tolerance Âą(dB)
Channel
Target (dBm)
Tolerance Âą(dB)
Channel
Target (dBm)
Tolerance Âą(dB)
Channel
Target (dBm)
Tolerance Âą(dB)
Channel
Target (dBm)
Tolerance Âą(dB)
Channel
Target (dBm)
Tolerance Âą(dB)
Channel
Target (dBm)
Tolerance Âą(dB)
Channel
Target (dBm)
Tolerance Âą(dB)
Channel
Target (dBm)
Tolerance Âą(dB)
FCC ID: QRP-AZUMIAKARU55Q
QPSK
20.0
1.0
16QAM
QPSK
16QAM
21.0
20.0
21.0
1.0
1.0
1.0
BW:20MHz []
Channel 18700
Channel 18900
QPSK
16QAM
QPSK
16QAM
21.0
20.0
21.0
21.0
1.0
1.0
1.0
1.0
BW:20MHz [, ]
Channel 18700
Channel 18900
QPSK
16QAM
QPSK
16QAM
20.0
21.0
21.0
21.0
1.0
1.0
1.0
1.0
LTE Band 4
BW:1.4MHz []
Channel 19957
Channel 20175
QPSK
16QAM
QPSK
16QAM
22.0
22.0
21.0
21.0
1.0
1.0
1.0
1.0
BW:1.4MHz [, ]
Channel 19957
Channel 20175
QPSK
16QAM
QPSK
16QAM
22.0
21.0
21.0
21.0
1.0
1.0
1.0
1.0
BW:3MHz []
Channel 19965
Channel 20175
QPSK
16QAM
QPSK
16QAM
21.0
20.0
21.0
20.0
1.0
1.0
1.0
1.0
BW:3MHz [, ]
Channel 19965
Channel 20175
QPSK
16QAM
QPSK
16QAM
21.0
21.0
20.0
21.0
1.0
1.0
1.0
1.0
BW:5MHz []
Channel 19975
Channel 20175
QPSK
16QAM
QPSK
16QAM
21.0
20.0
20.0
20.0
1.0
1.0
1.0
1.0
BW:5MHz [, ]
Channel 19975
Channel 20175
QPSK
16QAM
QPSK
16QAM
21.0
20.0
20.0
21.0
1.0
1.0
1.0
1.0
BW:10MHz []
Channel 20000
Channel 20175
QPSK
16QAM
QPSK
16QAM
21.0
20.0
21.0
20.0
1.0
1.0
1.0
1.0
BW:10MHz [, ]
Channel 20000
Channel 20175
QPSK
16QAM
QPSK
16QAM
20.0
20.0
20.0
20.0
1.0
1.0
1.0
1.0
BW:15MHz []
Channel 20025
Channel 20175
QPSK
16QAM
QPSK
16QAM
21.0
20.0
21.0
20.0
1.0
1.0
1.0
1.0
BW:15MHz [, ]
QPSK
19.0
1.0
Report No.: LCS170329085AE
16QAM
20.0
1.0
Channel 19100
QPSK
16QAM
20.0
21.0
1.0
1.0
Channel 19100
QPSK
16QAM
20.0
21.0
1.0
1.0
Channel 20393
QPSK
16QAM
22.0
210
1.0
1.0
Channel 20393
QPSK
16QAM
21.0
21.0
1.0
1.0
Channel 20385
QPSK
16QAM
21.0
20.0
1.0
1.0
Channel 20385
QPSK
16QAM
20.0
21.0
1.0
1.0
Channel 20375
QPSK
16QAM
21.0
20.0
1.0
1.0
Channel 20375
QPSK
16QAM
21.0
20.0
1.0
1.0
Channel 20350
QPSK
16QAM
20.0
20.0
1.0
1.0
Channel 20350
QPSK
16QAM
21.0
20.0
1.0
1.0
Channel 20325
QPSK
16QAM
21.0
20.0
1.0
1.0
This report shall not be reproduced except in full, without the written approval of Shenzhen LCS Compliance Testing Laborator y Ltd.
Page 42 of 170
SHENZHEN LCS COMPLIANCE TESTING LABORATORY LTD.
Channel
Target (dBm)
Tolerance Âą(dB)
Channel
Target (dBm)
Tolerance Âą(dB)
Channel
Target (dBm)
Tolerance Âą(dB)
Channel
Target (dBm)
Tolerance Âą(dB)
Channel
Target (dBm)
Tolerance Âą(dB)
Channel
Target (dBm)
Tolerance Âą(dB)
Channel
Target (dBm)
Tolerance Âą(dB)
Channel
Target (dBm)
Tolerance Âą(dB)
Channel
Target (dBm)
Tolerance Âą(dB)
Channel
Target (dBm)
Tolerance Âą(dB)
Channel
Target (dBm)
Tolerance Âą(dB)
FCC ID: QRP-AZUMIAKARU55Q
Channel 20025
Channel 20175
QPSK
16QAM
QPSK
16QAM
20.0
21.0
20.0
20.0
1.0
1.0
1.0
1.0
BW:20MHz []
Channel 20050
Channel 20175
QPSK
16QAM
QPSK
16QAM
20.0
20.0
20.0
19.0
1.0
1.0
1.0
1.0
BW:20MHz [, ]
Channel 20050
Channel 20175
QPSK
16QAM
QPSK
16QAM
21.0
20.0
20.0
20.0
1.0
1.0
1.0
1.0
LTE Band 7
BW:5MHz []
Channel 20775
Channel 21100
QPSK
16QAM
QPSK
16QAM
21.0
20.0
21.0
21.0
1.0
1.0
1.0
1.0
BW:5MHz [, ]
Channel 20775
Channel 21100
QPSK
16QAM
QPSK
16QAM
20.0
20.0
20.0
21.0
1.0
1.0
1.0
1.0
BW:10MHz []
Channel 20800
Channel 21100
QPSK
16QAM
QPSK
16QAM
21.0
20.0
20.0
21.0
1.0
1.0
1.0
1.0
BW:10MHz [, ]
Channel 20800
Channel 21100
QPSK
16QAM
QPSK
16QAM
20.0
21.0
19.0
20.0
1.0
1.0
1.0
1.0
BW:15MHz []
Channel 20825
Channel 21100
QPSK
16QAM
QPSK
16QAM
20.0
20.0
20.0
20.0
1.0
1.0
1.0
1.0
BW:15MHz [, ]
Channel 20825
Channel 21100
QPSK
16QAM
QPSK
16QAM
20.0
21.0
20.0
20.0
1.0
1.0
1.0
1.0
BW:20MHz []
Channel 20850
Channel 21100
QPSK
16QAM
QPSK
16QAM
21.0
20.0
21.0
21.0
1.0
1.0
1.0
1.0
BW:20MHz [, ]
Channel 20850
Channel 21100
QPSK
16QAM
QPSK
16QAM
20.0
21.0
21.0
21.0
1.0
1.0
1.0
1.0
Report No.: LCS170329085AE
Channel 20325
QPSK
16QAM
20.0
21.0
1.0
1.0
Channel 20300
QPSK
16QAM
20.0
21.0
1.0
1.0
Channel 20300
QPSK
16QAM
20.0
20.0
1.0
1.0
Channel 21425
QPSK
16QAM
21.0
20.0
1.0
1.0
Channel 21425
QPSK
16QAM
20.0
20.0
1.0
1.0
Channel 21400
QPSK
16QAM
21.0
20.0
1.0
1.0
Channel 21400
QPSK
16QAM
20.0
20.0
1.0
1.0
Channel 21375
QPSK
16QAM
20.0
21.0
1.0
1.0
Channel 21375
QPSK
16QAM
19.0
20.0
1.0
1.0
Channel 21350
QPSK
16QAM
21.0
21.0
1.0
1.0
Channel 21350
QPSK
16QAM
20.0
21.0
1.0
1.0
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SHENZHEN LCS COMPLIANCE TESTING LABORATORY LTD.
Channel
Target (dBm)
Tolerance Âą(dB)
Channel
Target (dBm)
Tolerance Âą(dB)
Channel
Target (dBm)
Tolerance Âą(dB)
Channel
Target (dBm)
Tolerance Âą(dB)
Channel
Target (dBm)
Tolerance Âą(dB)
Channel
Target (dBm)
Tolerance Âą(dB)
Channel
Target (dBm)
Tolerance Âą(dB)
Channel
Target (dBm)
Tolerance Âą(dB)
FCC ID: QRP-AZUMIAKARU55Q
WiFi 2.4G
IEEE 802.11b (Average)
Channel 1
Channel
15.0
15.0
1.0
1.0
IEEE 802.11g (Average)
Channel 1
Channel
12.0
12.0
1.0
1.0
IEEE 802.11n HT20 (Average)
Channel 1
Channel
12.0
12.0
1.0
1.0
IEEE 802.11n HT40 (Average)
Channel 3
Channel
10.0
10.0
1.0
1.0
Bluetooth V4.0
BLE-GFSK (Average)
Channel 0
Channel
0.0
0.0
1.0
1.0
GFSK (Average)
Channel 0
Channel
3.0
3.0
1.0
1.0
8DPSK (Average)
Channel 0
Channel
2.0
2.0
1.0
1.0
π/4DQPSK (Average)
Channel 0
Channel
2.0
2.0
1.0
1.0
Report No.: LCS170329085AE
Channel 11
15.0
1.0
Channel 11
12.0
1.0
Channel 11
12.0
1.0
Channel 9
10.0
1.0
19
Channel 39
1.0
1.0
39
Channel 78
3.0
1.0
39
Channel 78
2.0
1.0
39
Channel 78
3.0
1.0
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Page 44 of 170
SHENZHEN LCS COMPLIANCE TESTING LABORATORY LTD.
FCC ID: QRP-AZUMIAKARU55Q
Report No.: LCS170329085AE
4.3. Transmit Antennas and SAR Measurement Position
Top
WIFI/BT/GPS
Antenna
LTE Diversity
Antenna
Left
152mm
Right
166mm
WWAN Main Antenna
77mm
Bottom
Antenna information:
WWAN Main Antenna
LTEDiversity antenna
WLAN/GPS/BT Antenna
Rear View
GSM/UMTS/LTE TX/RX
Only RX
WLAN/BT TX/RX
Note:
1). Per KDB648474 D04, because the overall diagonal distance of this devices is 166mm>160mm, it is considered
as “Phablet“ device.
2). Per KDB648474 D04, 10-g extremity SAR is not required when Body-Worn mode 1-g reported SAR < 1.2
W/Kg.
3). According to the KDB941225 D06 Hot Spot SAR v02, the edges with less than 25mm distance to the antennas
need to be tested for SAR.
Antennas
WWAN
BT/WLAN
Distance of The Antenna to the EUT surface and edge (mm)
Front
Back
Top Side
Bottom Side
Left Side
<5
<5
140
<5
<5
<5
<5
<5
142
47
Right Side
18
<5
Antennas
WWAN
BT/WLAN
Front
Yes
Yes
Positions for SAR tests; Hotspot mode
Back
Top Side
Bottom Side
Yes
No
Yes
Yes
Yes
No
Right Side
Yes
Yes
Left Side
Yes
No
General Note: Referring to KDB 941225 D06 v02, When the overall device length and width are ≥9cm*5cm, the
test distance is 10mm, SAR must be measured for all sides and surfaces with a transmitting antenna located with
25mm from that surface or edge.
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Page 45 of 170
SHENZHEN LCS COMPLIANCE TESTING LABORATORY LTD.
FCC ID: QRP-AZUMIAKARU55Q
Report No.: LCS170329085AE
4.4. Standalone SAR Test Exclusion Considerations
Per KDB447498 for standalone 1-g head or body SAR evaluation by measurement or numerical simulation is
not required when the corresponding SAR Exclusion Threshold condition, listed below, is satisfied.
The 1-g 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 10-g extremity 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
● 3.0 and 7.5 are referred to as the numeric thresholds in the step 2 below
At 100 MHz to 6 GHz and for test separation distances > 50 mm, the SAR test exclusion threshold is determined
according to the following, and as illustrated in Appendix B:
a) [Power allowed at numeric threshold for 50 mm in step 1) + (test separation distance - 50 mm)¡( f(MHz)/150)] mW,
at 100 MHz to 1500 MHz
b) [Power allowed at numeric threshold for 50 mm in step 1) + (test separation distance - 50 mm)¡10] mW at > 1500
MHz and ≤ 6 GHz
Communicatin
system
Frequency
(MHz)
GSM850
850
GSM 1900
1900
WCDMA850
850
WCDMA1900
1900
LTE2
1800
LTE4
LTE7
2600
Standalone SAR test exclusion considerations
Maximum
Separation
Average
Calculation
Configuration
Distance
Power
Result
(mm)
(dBm)
Front Side
33.00
367.92
Rear Side
33.00
367.92
Left Side
33.00
367.92
Right Size
33.00
18
64.48
Top Size
33.00
140
33.00
Bottom Size
33.00
367.92
Front Side
31.00
346.96
Rear Side
31.00
346.96
Left Side
31.00
346.96
Right Size
31.00
18
96.37
Top Size
31.00
140
31.00
Bottom Size
31.00
346.96
Front Side
24.00
46.32
Rear Side
24.00
46.32
Left Side
24.00
46.32
Right Size
24.00
18
12.87
Top Size
24.00
140
24.00
Bottom Size
24.00
46.32
Front Side
24.00
69.23
Rear Side
24.00
69.23
Left Side
24.00
69.23
Right Size
24.00
18
19.23
Top Size
24.00
140
24.00
Bottom Size
24.00
69.23
Front Side
22.00
42.54
Rear Side
22.00
42.54
Left Side
22.00
42.54
Right Size
22.00
18
11.82
Top Size
22.00
140
22.0
Bottom Size
22.00
42.54
Front Side
22.00
42.54
Rear Side
22.00
42.54
Left Side
22.00
42.54
Right Size
22.00
18
11.82
Top Size
22.00
140
22.0
Bottom Size
22.00
42.54
Front Side
22.00
51.10
Rear Side
22.00
51.10
SAR
Exclusion
Thresholds
Standalone
SAR
Exclusion
3.0
3.0
3.0
3.0
28.49
3.0
3.0
3.0
3.0
3.0
30.04
3.0
3.0
3.0
3.0
3.0
28.49
3.0
3.0
3.0
3.0
3.0
30.04
3.0
3.0
3.0
3.0
3.0
30.05
3.0
3.0
3.0
3.0
3.0
30.05
3.0
3.0
3.0
no
no
no
no
no
no
no
no
no
no
no
no
no
no
no
no
yes
no
no
no
no
no
yes
no
no
no
no
no
yes
no
no
no
no
no
yes
no
no
no
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Page 46 of 170
SHENZHEN LCS COMPLIANCE TESTING LABORATORY LTD.
Left Side
Right Size
Top Size
Bottom Size
FCC ID: QRP-AZUMIAKARU55Q
22.00
22.00
22.00
22.00
18
140
51.10
14.19
22.00
51.10
Report No.: LCS170329085AE
3.0
3.0
29.97
3.0
no
no
yes
no
Remark:
1. 2.4GWLAN and Bluetooth Standalone SAR Test Exclusion Considerations for another table per
KDB248227 D01.
2. Maximum average power including tune-up tolerance;
3. When the minimum test separation distance is < 5 mm, a distance of 5 mm is applied to determine SAR
test exclusion
4. Body as body use distance is 0mm from manufacturer declaration of user manual.
5. When voice mode is supported on a tablet and it is limited to speaker mode or headset operations only,
additional SAR testing for this type of voice use is not required refer to KDB 616217 D04;
Modulation
IEEE 802.11b
IEEE 802.11g
Frequency
(MHz)
2450
2450
IEEE 802.11n
HT20
2450
IEEE 802.11n
HT40
2450
Standalone SAR test exclusion considerations
Maximum
Separation
Average
Calculation
Configuration
Distance
Power
Result
(mm)
(dBm)
Front Side
16.00
12.46
Rear Side
16.00
12.46
Left Side
16.00
47
1.33
Right Size
16.00
12.46
Top Size
16.00
12.46
Bottom Size
16.00
142
16.00
Front Side
13.00
6.25
Rear Side
13.00
6.25
Left Side
13.00
47
0.66
Right Size
13.00
6.25
Top Size
13.00
6.25
Bottom Size
13.00
142
13.00
Front Side
13.00
6.25
Rear Side
13.00
6.25
Left Side
13.00
47
0.66
Right Size
13.00
6.25
Top Size
13.00
6.25
Bottom Size
13.00
142
13.00
Front Side
11.00
3.94
Rear Side
11.00
3.94
Left Side
11.00
47
0.419
Right Size
11.00
3.94
Top Size
11.00
3.94
Bottom Size
11.00
142
11.00
SAR
Exclusion
Thresholds
Standalone
SAR
Exclusion
3.0
3.0
3.0
3.0
3.0
30.07
3.0
3.0
3.0
3.0
3.0
30.07
3.0
3.0
3.0
3.0
3.0
30.07
3.0
3.0
3.0
3.0
3.0
30.07
no
no
yes
no
no
yes
no
no
yes
no
no
yes
no
no
yes
no
no
yes
no
no
yes
no
no
yes
Remark:
1. Maximum average power including tune-up tolerance;
2. Bluetooth including BLE-Lower Power Bluetooth and Classical Bluetooth;
3. When the minimum test separation distance is < 5 mm, a distance of 5 mm is applied to determine SAR
test exclusion
4. Per KDB 648474, if overall diagonal dimension of the display section of a tablet lager than 20 cm, no need
consider Hotspot mode.
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Page 47 of 170
SHENZHEN LCS COMPLIANCE TESTING LABORATORY LTD.
FCC ID: QRP-AZUMIAKARU55Q
Report No.: LCS170329085AE
4.5. SAR Measurement Results
The calculated SAR is obtained by the following formula:
Reported SAR=Measured SAR*10(Ptarget-Pmeasured))/10
Scaling factor=10(Ptarget-Pmeasured))/10
Reported SAR= Measured SAR* Scaling factor
Where
Ptarget is the power of manufacturing upper limit;
Pmeasured is the measured power;
Measured SAR is measured SAR at measured power which including power drift)
Reported SAR which including Power Drift and Scaling factor
Duty Cycle
Test Mode
Speech for GSM850/1900
GPRS850
GPRS1900
UMTS
LTE
WiFi2450
Duty Cycle
1:8
1:4
1:2
1:1
1:1
1:1
4.5.1 SAR Results
SAR Values [GSM 850]
Ch.
Freq.
(MHz)
190
190
190
190
836.6
836.6
836.6
836.6
128
128
128
128
128
824.2
824.2
824.2
824.2
824.2
Time
slots
Test
Position
Conducted
Power
(dBm)
Maximum
Allowed
Power
(dBm)
Power
Drift
(%)
SAR1-g results(W/kg)
Scaling
Factor
Measured
measured / reported SAR numbers - Head
32.37
Voice
Left Cheek
33.00
-0.30
1.156
0.100
Voice
Left Tilt
32.37
33.00
2.14
1.156
0.056
Voice Right Cheek
32.37
33.00
0.18
1.156
0.154
Voice
Right Tilt
32.37
33.00
-1.43
1.156
0.092
measured / reported SAR numbers - Body (hotspot open, distance 10mm)
3Txslots
Front
29.31
30.00
-1.30
1.172
0.295
3Txslots
Rear
29.31
30.00
4.82
1.172
0.255
3Txslots
Left
29.31
30.00
0.21
1.172
0.216
3Txslots
Right
29.31
30.00
2.15
1.172
0.102
3Txslots
Bottom
29.31
30.00
1.21
1.172
0.219
Reported
0.116
0.065
0.178
0.106
0.346
0.299
0.253
0.120
0.257
Graph
Results
Plot 1
Plot 2
SAR Values [GSM 1900]
Ch.
Freq.
(MHz)
661
661
661
661
1880.0
1880.0
1880.0
1880.0
810
810
810
810
810
1909.8
1909.8
1909.8
1909.8
1909.8
time
slots
Test
Position
Conducted
Power
(dBm)
Maximum
Allowed
Power
(dBm)
Power
Drift
(%)
SAR1-g results(W/kg)
Scaling
Factor
Measured
measured / reported SAR numbers - Head
Voice
Left Cheek
30.57
31.00
-1.37
1.104
0.091
Voice
Left Tilt
30.57
31.00
0.34
1.104
0.075
Voice
Right Cheek
30.57
31.00
0.26
1.104
0.064
Voice
Right Tilt
30.57
31.00
2.16
1.104
0.038
measured / reported SAR numbers – Body (hotspot open, distance 10mm)
3Txslots
Front
26.80
27.00
0.25
1.047
0.600
3Txslots
Rear
26.80
27.00
1.27
1.047
0.505
3Txslots
Left
26.80
27.00
-0.12
1.047
0.365
3Txslots
Right
26.80
27.00
2.08
1.047
0.263
3Txslots
Bottom
26.80
27.00
-1.07
1.047
0.301
Reported
Graph
Results
0.100
0.083
0.071
0.042
Plot 3
0.628
0.529
0.382
0.275
0.315
Plot 4
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SHENZHEN LCS COMPLIANCE TESTING LABORATORY LTD.
FCC ID: QRP-AZUMIAKARU55Q
Report No.: LCS170329085AE
SAR Values [WCDMA Band V]
Ch.
Freq.
(MHz)
4233
4233
4233
4233
846.6
846.6
846.6
846.6
4233
4233
4233
4233
4233
846.6
846.6
846.6
846.6
846.6
Channel
Type
Test
Position
Conducted
Power
(dBm)
Maximum
Allowed
Power
(dBm)
Power
Drift
(%)
SAR1-g results(W/kg)
Scaling
Factor
Measured
measured / reported SAR numbers - Head
RMC
Left Cheek
23.63
24.00
0.71
1.089
0.110
RMC
Left Tilt
23.63
24.00
-2.17 1.089
0.082
RMC
Right Cheek
23.63
24.00
-3.25
1.089
0.154
RMC
Right Tilt
23.63
24.00
-3.10
1.089
0.104
measured / reported SAR numbers - Body (hotspot open, distance 10mm)
RMC
Front
23.63
24.00
0.23
1.089
0.155
RMC
Rear
23.63
24.00
0.73
1.089
0.250
RMC
Left
23.63
24.00
0.204
1.089
0.126
RMC
Right
23.63
24.00
-0.13
1.089
0.204
RMC
Bottom
23.63
24.00
-3.17
1.089
0.165
Reported
0.120
0.089
0.168
0.113
0.169
0.272
0.137
0.169
0.180
Graph
Results
Plot 5
Plot 6
SAR Values [WCDMA Band II]
Ch.
Freq.
(MHz)
9400
9400
9400
9400
1880.0
1880.0
1880.0
1880.0
9400
9262
9400
9538
9400
9400
9400
1880.0
1852.4
1880.0
1907.6
1880.0
1880.0
1880.0
Channel
Type
Test
Position
Conducted
Power
(dBm)
Maximum
Allowed
Power
(dBm)
Power
Drift
(%)
SAR1-g results(W/kg)
Scaling
Factor
Measured
measured / reported SAR numbers - Head
RMC
Left Cheek
23.68
24.00
-0.36
1.076
0.250
RMC
Left Tilt
23.68
24.00
2.14
1.076
0.185
RMC
Right Cheek
23.68
24.00
-0.25
1.076
0.204
23.68
RMC
Right Tilt
24.00
1.076
0.168
2.13
measured / reported SAR numbers - Body (hotspot open, distance 10mm)
RMC
Front
23.68
24.00
-0.29
1.076
0.455
RMC
Rear
23.57
24.00
2.14
1.104
0.780
RMC
Rear
23.68
24.00
-2.19
1.076
0.801
RMC
Rear
23.45
24.00
0.68
1.135
0.753
RMC
Left
23.68
24.00
1.23
1.076
0.426
RMC
Right
23.68
24.00
2.15
1.076
0.202
RMC
Bottom
23.68
24.00
-1.01
1.076
0.504
Reported
0.269
0.199
0.220
0.181
0.490
0.861
0.862
0.855
0.459
0.217
0.543
Graph
Results
Plot 7
Plot 8
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SHENZHEN LCS COMPLIANCE TESTING LABORATORY LTD.
FCC ID: QRP-AZUMIAKARU55Q
Report No.: LCS170329085AE
SAR Values [LTE Band 2]
Ch.
Freq.
(MHz)
18700
18700
18700
18700
1860.0
1860.0
1860.0
1860.0
18700
18700
18700
18700
1880.0
1880.0
1880.0
1880.0
18700
18700
18700
18700
1880.0
1880.0
1880.0
1880.0
18700
18700
18700
18700
18700
1860.0
1860.0
1860.0
1860.0
1860.0
18700
18700
18700
18700
18700
1880.0
1880.0
1880.0
1880.0
1880.0
18700
18700
18700
18700
18700
1880.0
1880.0
1880.0
1880.0
1880.0
Channel
Type
(20M)
Test
Position
Conducted
Power
(dBm)
Maximum
Allowed
Power
(dBm)
Power
Drift
(%)
SAR1-g results(W/kg)
Scaling
Factor
Measured
measured / reported SAR numbers - Head
QPSK
1RB
Left Cheek
21.28
22.00
0.28
1.180
0.248
1RB
Left Tilt
21.28
22.00
2.14
1.180
0.162
1RB
Right Cheek 21.28
22.00
-1.19
1.180
0.187
1RB
Right Tilt
21.28
22.00
3.02
1.180
0.127
16QAM
1RB
Left Cheek
21.20
22.00
1.28
1.202
0.242
1RB
Left Tilt
21.20
22.00
2.04
1.202
0.142
1RB
Right Cheek 21.20
22.00
-3.19
1.202
0.177
1RB
Right Tilt
21.20
22.00
0.02
1.202
0.107
measured / reported SAR numbers - Head
50%RB
Left Cheek
21.14
22.00
0.12
1.219
0.208
50%RB
Left Tilt
21.14
22.00
1.28
1.219
0.106
50%RB
Right Cheek 21.14
22.00
2.10
1.219
0.135
50%RB
Right Tilt
21.14
22.00
-1.41
1.219
0.101
measured / reported SAR numbers - Body (hotspot open, distance 10mm)
QPSK
1RB
Front
21.28
22.00
0.47
1.180
0.312
1RB
Rear
21.28
22.00
-0.35
1.180
0.405
1RB
Left
21.28
22.00
0.27
1.180
0.201
1RB
Right
21.28
22.00
2.62
1.180
0.302
1RB
Bottom
21.28
22.00
-1.20
1.180
0.362
16QAM
1RB
Front
21.20
22.00
2.47
1.202
0.308
1RB
Rear
21.20
22.00
-3.35
1.202
0.396
1RB
Left
21.20
22.00
1.27
1.202
0.198
1RB
Right
21.20
22.00
3.62
1.202
0.289
1RB
Bottom
21.20
22.00
-4.20
1.202
0.332
measured / reported SAR numbers - Body (hotspot open, distance 10mm)
50%RB
Front
21.14
22.00
-2.13
1.219
0.212
50%RB
Rear
21.14
22.00
3.15
1.219
0.384
50%RB
Left
21.14
22.00
1.06
1.219
0.196
50%RB
Right
21.14
22.00
0.13
1.219
0.235
50%RB
Bottom
21.14
22.00
1.36
1.219
0.306
Reported
0.293
0.191
0.221
0.150
Graph
Results
Plot 9
0.291
0.171
0.213
0.129
0.254
0.129
0.165
0.123
0.368
0.478
0.237
0.356
0.427
Plot 10
0.370
0.476
0.238
0.347
0.399
0.258
0.468
0.239
0.286
0.373
SAR Values [LTE Band 4]
Ch.
Freq.
(MHz)
Channel
Type
(20M)
20175
20175
20175
20175
1732.5
1732.5
1732.5
1732.5
1RB
1RB
1RB
1RB
20300
20300
20300
20300
1745.0
1745.0
1745.0
1745.0
1RB
1RB
1RB
1RB
20300
20300
20300
20300
1720.0
1720.0
1720.0
1720.0
50%RB
50%RB
50%RB
50%RB
Test
Position
Conducted
Power
(dBm)
Maximum
Allowed
Power
(dBm)
Power
Drift
(%)
SAR1-g results(W/kg)
Scaling
Factor
measured / reported SAR numbers - Head
QPSK
Left Cheek
20.94
21.00
-2.46
1.014
Left Tilt
20.94
21.00
3.13
1.014
Right Cheek
20.94
21.00
2.01
1.014
Right Tilt
20.94
21.00
-1.23
1.014
16QAM
Left Cheek
21.24
22.00
-0.46
1.191
Left Tilt
21.24
22.00
2.16
1.191
Right Cheek
21.24
22.00
0.99
1.191
Right Tilt
21.24
22.00
-3.33
1.191
measured / reported SAR numbers - Head
Left Cheek
21.44
22.00
0.40
1.138
Left Tilt
21.44
22.00
1.25
1.138
Right Cheek
21.44
22.00
3.04
1.138
Right Tilt
21.44
22.00
1.33
1.138
Measured
Reported
0.301
0.092
0.218
0.086
0.305
0.093
0.221
0.087
0.312
0.105
0.238
0.100
0.372
0.125
0.284
0.119
0.276
0.096
0.211
0.101
0.314
0.109
0.240
0.115
Graph
Results
Plot 11
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SHENZHEN LCS COMPLIANCE TESTING LABORATORY LTD.
20175
20300
20175
20300
20175
20175
20175
1732.5
1720.0
1732.5
1745.0
1732.5
1732.5
1732.5
20300
20050
20175
20300
20300
20300
20300
1745.0
1720.0
1732.5
1745.0
1745.0
1745.0
1745.0
20300
20300
20300
20300
20300
1720.0
1720.0
1720.0
1720.0
1720.0
FCC ID: QRP-AZUMIAKARU55Q
Report No.: LCS170329085AE
measured / reported SAR numbers - Body (hotspot open, distance 10mm)
QPSK
1RB
Front
20.94
21.00
-0.36
1.104
0.364
1RB
Rear
20.57
21.00
3.25
1.104
0.842
1RB
Rear
20.94
21.00
1.34
1.014
0.845
1RB
Rear
20.63
21.00
-0.21
1.089
0.864
1RB
Left
20.94
21.00
2.06
1.104
0.302
1RB
Right
20.94
21.00
2.01
1.104
0.453
1RB
Bottom
20.94
21.00
-1.45
1.104
0.467
16QAM
1RB
Front
21.24
22.00
-3.36
1.191
0.514
1RB
Rear
20.01
20.50
0.94
1.119
0.850
1RB
Rear
19.27
20.00
2.15
1.183
0.856
1RB
Rear
21.24
22.00
-0.61
1.191
0.874
1RB
Left
21.24
22.00
3.16
1.191
0.312
1RB
Right
21.24
22.00
1.01
1.191
0.476
1RB
Bottom
21.24
22.00
-2.45
1.191
0.507
measured / reported SAR numbers - Body (hotspot open, distance 10mm)
50%RB
Front
21.44
22.00
2.41
1.138
0.505
50%RB
Rear
21.44
22.00
-1.93
1.138
0.652
50%RB
Left
21.44
22.00
2.16
1.138
0.302
50%RB
Right
21.44
22.00
-1.98
1.138
0.369
50%RB
Bottom
21.44
22.00
0.80
1.138
0.468
0.369
0.930
0.857
0.941
0.306
0.459
0.473
0.612
0.952
1.013
1.041
0.372
0.567
0.604
Plot 12
0.575
0.742
0.344
0.420
0.532
SAR Values [LTE Band 7]
Ch.
Freq.
(MHz)
21100
21100
21100
21100
21100
21100
21100
21100
2535.0
2535.0
2535.0
2535.0
2535.0
2535.0
2535.0
2535.0
21100
21100
21100
21100
20850
20850
20850
20850
2535.0
2535.0
2535.0
2535.0
2510.0
2510.0
2510.0
2510.0
21100
21100
21100
21100
21100
21100
21100
21100
21100
21100
2535.0
2535.0
2535.0
2535.0
2535.0
2535.0
2535.0
2535.0
2535.0
2535.0
Channel
Type
(20M)
Test
Position
Conducted
Power
(dBm)
Maximum
Allowed
Power
(dBm)
Power
Drift
(%)
SAR1-g results(W/kg)
Scaling
Factor
Measured
measured / reported SAR numbers - Head
QPSK
1RB
Left Cheek
21.22
22.00
0.21
1.197
0.251
1RB
Left Tilt
21.22
22.00
3.15
1.197
0.111
1RB
Right Cheek
21.22
22.00
-3.30
1.197
0.324
1RB
Right Tilt
21.22
22.00
2.61
1.197
0.268
50%RB
Left Cheek
21.03
22.00
0.54
1.250
0.156
50%RB
Left Tilt
21.03
22.00
-1.67
1.250
0.096
50%RB
Right Cheek
21.03
22.00
4.02
1.250
0.280
50%RB
Right Tilt
21.03
22.00
3.25
1.250
0.101
16QAM
1RB
Left Cheek
21.67
22.00
-2.95
1.079
0.297
1RB
Left Tilt
21.67
22.00
0.87
1.079
0.121
1RB
Right Cheek
21.67
22.00
-1.31
1.079
0.383
1RB
Right Tilt
21.67
22.00
-0.85
1.079
0.318
50%RB
Left Cheek
21.77
22.00
2.85
1.079
0.196
50%RB
Left Tilt
21.77
22.00
1.66
1.054
0.107
50%RB
Right Cheek
21.77
22.00
1.26
1.054
0.296
50%RB
Right Tilt
21.77
22.00
-3.41
1.054
0.109
measured / reported SAR numbers - Body (hotspot open, distance 10mm)
QPSK
1RB
Front
21.22
22.00
0.31
1.197
0.131
1RB
Rear
21.22
22.00
3.16
1.197
0.226
1RB
Left
21.22
22.00
2.15
1.197
0.213
1RB
Right
21.22
22.00
0.42
1.197
0.092
1RB
Bottom
21.22
22.00
3.77
1.197
0.162
50%RB
Front
21.03
22.00
3.02
1.250
0.142
50%RB
Rear
21.03
22.00
0.61
1.250
0.258
50%RB
Left
21.03
22.00
-2.54
1.250
0.151
50%RB
Right
21.03
22.00
1.19
1.250
0.107
50%RB
Bottom
21.03
22.00
-1.11
1.250
0.102
16QAM
Reported
Graph
Results
0.300
0.133
0.388
0.321
0.195
0.120
0.350
0.126
0.320
0.131
0.413
0.343
0.211
0.113
0.312
0.115
Plot 13
0.157
0.270
0.255
0.110
0.194
0.178
0.323
0.189
0.134
0.128
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Page 51 of 170
SHENZHEN LCS COMPLIANCE TESTING LABORATORY LTD.
21100
21100
21100
21100
21100
20850
20850
20850
20850
20850
2535.0
2535.0
2535.0
2535.0
2535.0
2510.0
2510.0
2510.0
2510.0
2510.0
1RB
1RB
1RB
1RB
1RB
50%RB
50%RB
50%RB
50%RB
50%RB
Front
Rear
Left
Right
Bottom
Front
Rear
Left
Right
Bottom
21.67
21.67
21.67
21.67
21.67
21.77
21.77
21.77
21.77
21.77
FCC ID: QRP-AZUMIAKARU55Q
22.00
22.00
22.00
22.00
22.00
22.00
22.00
22.00
22.00
22.00
0.80
-1.09
3.15
-2.26
2.01
-1.32
3.08
3.15
-2.12
1.63
1.079
1.079
1.079
1.079
1.079
1.054
1.054
1.054
1.054
1.054
Report No.: LCS170329085AE
0.185
0.297
0.213
0.110
0.182
0.159
0.278
0.164
0.117
0.108
0.200
0.320
0.230
0.119
0.196
0.168
0.293
0.173
0.123
0.114
Plot 14
SAR Values [WIFI2.4G]
Ch.
Freq.
(MHz)
11
11
11
11
2462
2462
2462
2462
11
11
11
11
2462
2462
2462
2462
Service
Test
Position
Maximum
Allowed
Power
(dBm)
Conducted
Power
(dBm)
Power
Drift
(%)
SAR1-g results(W/kg)
Scaling
Factor
Measured
measured / reported SAR numbers - Head
DSSS
Left Cheek
15.11
16.00
-0.61
1.227
0.101
DSSS
Left Tilt
15.11
16.00
-0.20
1.227
0.086
DSSS Right Cheek
15.11
16.00
0.32
1.227
0.098
DSSS
Right Tilt
15.11
16.00
0.27
1.227
0.067
measured / reported SAR numbers - Body (hotspot open, distance 10mm)
DSSS
Front
15.11
16.00
1.21
1.227
0.115
DSSS
Rear
15.11
16.00
-0.26
1.227
0.163
DSSS
Right
15.11
16.00
1.06
1.227
0.131
DSSS
Top
15.11
16.00
0.37
1.227
0.106
Reported
0.124
0.106
0.120
0.082
0.141
0.200
0.161
0.130
Graph
Results
Plot 15
Plot 16
Note:
1. The value with black color is the maximum Reported SAR Value of each test band.
2. Per FCC KDB Publication 447498 D01, if the reported (scaled) SAR measured at the middle channel or highest
output power channel for each test configuration is ≤ 0.8 W/kg then testing at the other channels is optional for
such test configuration(s).
3. Per KDB 941225 D02, RMC 12.2kbps setting is used to evaluate SAR. If HSDPA/HSUPA output power is <
0.25dBhigher than RMC, or reported SAR with RMC 12.2kbps setting is ≤ 1.2W/kg, HSDPA/HSUPA SAR
evaluation can be excluded.
4. Per KDB 941225 D05, 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
5. Per KDB 941225 D05, 50% RB allocation for QPSK SAR testing follows 1RB QPSK allocation procedure.
6. Per KDB 941225 D05, 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 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.
7. Per KDB 941225 D05, 16QAM output power for each RB allocation configuration is > not ½ dB higher than the
same configuration in QPSK and the reported SAR for the QPSK configuration is ≤ 1.45 W/kg; Per KDB 941225
D05v02r03,16QAM SAR testing is not required.
8. Per KDB 941225 D05, Smaller bandwidth output power for each RB allocation configuration is > not ½ dB
higher than the same configuration in the largest supported bandwidth, and the reported SAR for the largest
supported bandwidth is ≤ 1.45 W/kg; Per KDB 941225 D05, smaller bandwidth SAR testing is not required.
9. Per KDB 248227-SAR is measured using the highest measured maximum output power channel for the initial
test configuration.
10. Per KDB 248227- Channels with measured maximum output power within Âź dB of each other are considered
to have the same maximum output, When there are multiple test channels with the same measured maximum
output power, the channel closest to mid-band frequency is selected for SAR measurement. And when there are
multiple test channels with the same measured maximum output power and 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.
11. Per KDB 248227- 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. So ODFM SAR test is not required.
12. Per KDB 648474 D04, when the reported SAR for a body-worn accessory measured without a headset
connected to the handset is ≤ 1.2 W/kg, SAR testing with a headset connected to the handset is not required.
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Page 52 of 170
SHENZHEN LCS COMPLIANCE TESTING LABORATORY LTD.
FCC ID: QRP-AZUMIAKARU55Q
Report No.: LCS170329085AE
4.4.2 Standalone SAR Test Exclusion Considerations and Estimated SAR
Per KDB447498 requires when the standalone SAR test exclusion of section 4.3.1 is applied to an antenna that
transmits simultaneously with other antennas, the standalone SAR must be estimated according to the 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.
● 0.4 W/kg for 1-g SAR and 1.0 W/kg for 10-g SAR, when the test separation distances is > 50 mm
Per FCC KD B447498 D01,simultaneous transmission SAR test exclusion may be applied when the sum of the 1g SAR for all the transmitting antenna in a specific a physical test configuration is ≤1.6 W/Kg.When the sum is
greater than the SAR limit,SAR test exclusion is determined by the SAR to peak location separation ratio.
Ratio=
(SAR1 +SAR 2 )1.5
 0.04
(peak location separation,mm)
Communication
system
Frequency
(MHz)
Bluetooth*
Bluetooth*
Bluetooth*
2450
2450
2450
Estimated stand alone SAR
Maximum
Configuration
Power
(dBm)
Head
4.0
Hotspot
4.0
Body-worn
4.0
Separation
Distance
(mm)
10
10
Estimated
SAR1-g
(W/kg)
0.105
0.053
0.053
Remark:
1.
2.
3.
4.
Bluetooth*- Including Lower power Bluetooth
Maximum average power including tune-up tolerance;
When the minimum test separation distance is < 5 mm, a distance of 5 mm is applied to determine
SAR test exclusion
Body as body use distance is 10mm from manufacturer declaration of user manual
4.6. Simultaneous TX SAR Considerations
4.5.1 Introduction
The following procedures adopted from “FCC SAR Considerations for Cell Phones with Multiple Transmitters” are
applicable to handsets with built-in unlicensed transmitters such as 802.11 a/b/g/n and Bluetooth devices which
may simultaneously transmit with the licensed transmitter.
For the DUT,the BT and WiFi modules sharing same antenna,GSM, WCDMA and LTE modules sharing a single
antenna;
Application Simultaneous Transmission information:
Air-Interface
Band (MHz)
Type
Simultaneous Transmissions
Voice over
Digital
Transport(Data)
850
VO
Yes,WLAN or BT/BLE
N/A
1900
VO
GPRS/EDGE
DT
Yes,WLAN or BT/BLE
N/A
WCDMA
Band II/ BandV
DT
Yes,WLAN or BT/BLE
N/A
LTE
Band2/Band4/ Band7
DT
Yes,WLAN or BT/BLE
N/A
WLAN
2450
DT
Yes,GSM,GPRS,EDGE,UMTS,LTE
Yes
BT/BLE
2450
DT
Yes,GSM,GPRS,EDGE,UMTS,LTE
N/A
Note:VO-Voice Service only;DT-Digital Transport
Note:
BT and WLAN can be active at the same time, but only with interleaving of packages switched on board level.
That means that they don’t transmit at the same time.
BLE-Bluetooth low energy;
BT- Classical Bluetooth
GSM
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Page 53 of 170
SHENZHEN LCS COMPLIANCE TESTING LABORATORY LTD.
FCC ID: QRP-AZUMIAKARU55Q
Report No.: LCS170329085AE
4.5.2 Evaluation of Simultaneous SAR
Head Exposure Conditions
Simultaneous transmission SAR for WiFi and GSM
Test
Position
GSM850
Reported
SAR1-g
(W/Kg)
GSM1900
Reported
SAR1-g
(W/Kg)
WiFi2.4G
Reported
SAR1-g
(W/Kg)
MAX.
ÎŁSAR1-g
(W/Kg)
SAR1-g
Limit
(W/Kg)
Peak
location
separation
ratio
Simut
Meas.
Required
Left Cheek
Left Tilt
Right Cheek
Right Tilt
0.116
0.065
0.178
0.106
0.100
0.083
0.071
0.042
0.124
0.106
0.120
0.082
0.240
0.189
0.298
0.188
1.6
1.6
1.6
1.6
no
no
no
no
no
no
no
no
Test
Position
UMTS
Band V
Reported
SAR1-g
(W/Kg)
UMTS Band
II Reported
SAR1-g
(W/Kg)
WiFi2.4G
Reported
SAR1-g
(W/Kg)
MAX.
ÎŁSAR1-g
(W/Kg)
SAR1-g
Limit
(W/Kg)
Peak
location
separation
ratio
Simut
Meas.
Required
Left Cheek
Left Tilt
Right Cheek
Right Tilt
0.120
0.089
0.168
0.113
0.269
0.199
0.220
0.181
0.124
0.106
0.120
0.082
0.393
0.305
0.340
0.263
1.6
1.6
1.6
1.6
no
no
no
no
no
no
no
no
Simultaneous transmission SAR for WiFi and UMTS
Simultaneous transmission SAR for WiFi and LTE
Test
Position
LTE
Band2
Reported
SAR1-g
(W/Kg)
LTE
Band4
Reported
SAR1-g
(W/Kg)
LTE
Band7
Reported
SAR1-g
(W/Kg)
WiFi2.4G
Reported
SAR1-g
(W/Kg)
MAX.
ÎŁSAR1-g
(W/Kg)
SAR1-g
Limit
(W/Kg)
Peak
location
separation
ratio
Simut
Meas.
Required
Left Cheek
LeftTilt
Right Cheek
Right Tilt
0.293
0.191
0.221
0.150
0.372
0.125
0.284
0.119
0.320
0.131
0.413
0.343
0.124
0.106
0.120
0.082
0.496
0.297
0.533
0.425
1.6
1.6
1.6
1.6
no
no
no
no
no
no
no
no
Simultaneous transmission SAR for BT and GSM
Test
Position
GSM850
Reported
SAR1-g
(W/Kg)
GSM1900
Reported
SAR1-g
(W/Kg)
BT Estimated
SAR1-g
(W/Kg)
MAX.
ÎŁSAR1-g
(W/Kg)
SAR1-g
Limit
(W/Kg)
Peak
location
separation
ratio
Simut
Meas.
Required
Left Cheek
LeftTilt
Right Cheek
Right Tilt
0.116
0.065
0.178
0.106
0.100
0.083
0.071
0.042
0.105
0.105
0.105
0.105
0.221
0.188
1.6
1.6
1.6
1.6
no
no
no
no
no
no
no
no
0.283
0.211
Simultaneous transmission SAR for BT and UMTS
Test
Position
UMTS Band V
Reported
SAR1-g
(W/Kg)
UMTS Band II
Reported
SAR1-g
(W/Kg)
BT
Estimated
SAR1-g
(W/Kg)
MAX.
ÎŁSAR1-g
(W/Kg)
SAR1-g Limit
(W/Kg)
Peak location
separation
ratio
Simut
Meas.
Required
Left Cheek
LeftTilt
Right Cheek
Right Tilt
0.120
0.089
0.168
0.113
0.269
0.199
0.220
0.181
0.105
0.105
0.105
0.105
0.374
0.304
0.325
0.286
1.6
1.6
1.6
1.6
no
no
no
no
no
no
no
no
Simultaneous transmission SAR for BT and LTE
Test
Position
LTE
Band2
Reported
SAR1-g
(W/Kg)
LTE
Band4
Reported
SAR1-g
(W/Kg)
LTE
Band7
Reported
SAR1-g
(W/Kg)
BT
Estimated
SAR1-g
(W/Kg)
MAX.
ÎŁSAR1-g
(W/Kg)
SAR1-g
Limit
(W/Kg)
Peak
location
separation
ratio
Simut
Meas.
Required
Left Cheek
Left Tilt
RightCheek
Right Tilt
0.293
0.191
0.221
0.150
0.372
0.125
0.284
0.119
0.320
0.131
0.413
0.343
0.105
0.105
0.105
0.105
0.477
0.296
0.518
0.448
1.6
1.6
1.6
1.6
no
no
no
no
no
no
no
no
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Body Hotspot Exposure Conditions
Simultaneous transmission SAR for WiFi and GSM
Test
Position
GSM850
Reported
SAR1-g
(W/Kg)
GSM1900
Reported
SAR1-g
(W/Kg)
WiFi2.4G
Reported
SAR1-g
(W/Kg)
MAX.
ÎŁSAR1-g
(W/Kg)
SAR1-g
Limit
(W/Kg)
Peak
location
separation
ratio
Simut
Meas.
Required
Front
Rear
Left
Right
Bottom
Top
0.346
0.299
0.253
0.120
0.257
0.628
0.529
0.382
0.275
0.315
0.141
0.200
0.161
0.130
0.769
0.729
0.382
0.436
0.315
0.130
1.6
1.6
1.6
1.6
1.6
1.6
no
no
no
no
no
no
no
no
no
no
no
no
Test
Position
UMTS Band
V Reported
SAR1-g
(W/Kg)
UMTS Band
II Reported
SAR1-g
(W/Kg)
WiFi2.4G
Reported
SAR1-g
(W/Kg)
MAX.
ÎŁSAR1-g
(W/Kg)
SAR1-g
Limit
(W/Kg)
Peak
location
separation
ratio
Simut
Meas.
Required
Front
Rear
Left
Right
Bottom
Top
0.169
0.272
0.137
0.169
0.180
0.490
0.862
0.459
0.217
0.543
0.141
0.200
0.161
0.130
0.631
1.062
0.459
0.378
0.543
0.130
1.6
1.6
1.6
1.6
1.6
1.6
no
no
no
no
no
no
no
no
no
no
no
no
Simultaneous transmission SAR for WiFi and UMTS
Simultaneous transmission SAR for WiFi and LTE
Test
Position
LTE
Band2
Reported
SAR1-g
(W/Kg)
LTE
Band4
Reported
SAR1-g
(W/Kg)
LTE
Band7
Reported
SAR1-g
(W/Kg)
WiFi2.4G
Reported
SAR1-g
(W/Kg)
MAX.
ÎŁSAR1-g
(W/Kg)
SAR1-g
Limit
(W/Kg)
Peak
location
separation
ratio
Simut
Meas.
Required
Front
Rear
Left
Right
Bottom
Top
0.368
0.478
0.237
0.356
0.427
0.612
1.041
0.372
0.567
0.604
0.200
0.320
0.230
0.119
0.196
0.141
0.200
0.161
0.130
0.753
1.241
0.372
0.728
0.604
0.130
1.6
1.6
1.6
1.6
1.6
1.6
no
no
no
no
no
no
no
no
no
no
no
no
Simultaneous transmission SAR for BT and GSM
Test
Position
GSM850
Reported
SAR1-g
(W/Kg)
GSM1900
Reported
SAR1-g
(W/Kg)
BT
Estimated
SAR1-g
(W/Kg)
MAX.
ÎŁSAR1-g
(W/Kg)
SAR1-g
Limit
(W/Kg)
Peak
location
separation
ratio
Simut
Meas.
Required
Front
Rear
Left
Right
Bottom
Top
0.346
0.299
0.253
0.120
0.257
0.628
0.529
0.382
0.275
0.315
0.053
0.053
0.053
0.053
0.681
0.582
0.382
0.328
0.315
0.053
1.6
1.6
1.6
1.6
1.6
1.6
no
no
no
no
no
no
no
no
no
no
no
no
Test
Position
UMTS Band V
Reported
SAR1-g
(W/Kg)
UMTS Band II
Reported
SAR1-g
(W/Kg)
BT
Estimated
SAR1-g
(W/Kg)
MAX.
ÎŁSAR1-g
(W/Kg)
SAR1-g
Limit
(W/Kg)
Peak
location
separation
ratio
Simut
Meas.
Required
Front
Rear
Left
Right
Bottom
Top
0.169
0.272
0.137
0.169
0.180
0.490
0.862
0.459
0.217
0.543
0.053
0.053
0.053
0.053
0.543
0.915
0.459
0.270
0.543
0.053
1.6
1.6
1.6
1.6
1.6
1.6
no
no
no
no
no
no
no
no
no
no
no
no
Simultaneous transmission SAR for BT and UMTS
Simultaneous transmission SAR for BT and LTE
Test
LTE
LTE
LTE
BT
MAX.
SAR1-g
Peak
Simut
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Position
Band2
Reported
SAR1-g
(W/Kg)
Band4
Reported
SAR1-g
(W/Kg)
Band7
Reported
SAR1-g
(W/Kg)
Estimated
SAR1-g
(W/Kg)
ÎŁSAR1-g
(W/Kg)
Limit
(W/Kg)
location
separation
ratio
Meas.
Required
Front
Rear
Left
Right
Bottom
Top
0.368
0.478
0.237
0.356
0.427
0.612
1.041
0.372
0.567
0.604
0.200
0.320
0.230
0.119
0.196
0.053
0.053
0.053
0.053
0.665
1.094
0.370
0.567
0.604
0.053
1.6
1.6
1.6
1.6
1.6
1.6
no
no
no
no
no
no
no
no
no
no
no
no
Note:
1. The WiFi and BT share same antenna, so cannot transmit at same time.
2. The value with block color is the maximum values of standalone
3. The value with blue color is the maximum values of ∑SAR1-g
4.7. SAR Measurement Variability
According to KDB865664, Repeated measurements are required only when the measured SAR is ≥ 0.80 W/kg. If
the measured SAR value of the initial repeated measurement is < 1.45 W/kg with ≤ 20% variation, only one
repeated measurement is required to reaffirm that the results are not expected to have substantial variations,
which may introduce significant compliance concerns. A second repeated measurement is required only if the
measured result for the initial repeated measurement is within 10% of the SAR limit and vary by more than 20%,
which are often related to device and measurement setup difficulties. The following procedures are applied to
determine if repeated measurements are required. 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.19 The repeated measurement results
must be clearly identified in the SAR report. All measured SAR, including the repeated results, must be
considered to determine compliance and for reporting according to KDB 690783.Repeated measurement is not
required when the original highest measured SAR is < 0.80 W/kg; steps 2) through 4) do not apply.
3) When the original highest measured SAR is ≥ 0.80 W/kg, repeat that measurement once.
4) 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).
5) 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.
6) 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
First Repeated
Highest
Frequency
RF
Repeated
Largest to
Test
Measured Measued
Band
Air Interface
Exposure
SAR
Smallest
Position
SAR1-g
SAR1-g
(MHz)
Configuration
(yes/no)
SAR
(W/Kg)
(W/Kg)
Ratio
GSM850
Standalone
Body-Rear
no
0.295
n/a
n/a
850
WCDMA Band V
Standalone
Body-Rear
no
0.250
n/a
n/a
LTE Band 2
Standalone
Body-Rear
no
0.405
n/a
n/a
1800
LTE Band 4
Standalone
Body-Rear
no
0.874
0.863
n/a
GSM1900
Standalone
Body-Rear
no
0.600
n/a
n/a
1900
WCDMA Band II
Standalone
Body-Rear
no
0.801
0.795
n/a
2450
2.4GWLAN
Standalone
Body-Rear
no
0.163
n/a
n/a
2600
LTE Band 7
Standalone
Body-Rear
no
0.297
n/a
n/a
Remark:
1. Second Repeated Measurement is not required since the ratio of the largest to smallest SAR for the orignal and
first repeated measurement is not > 1.20 or 3 (1-g or 10-g respectively)
4.8. General description of test procedures
1. The DUT is tested using CMU 200 communications testers as controller unit to set test channels and
maximum output power to the DUT, as well as for measuring the conducted peak power.
2. Test positions as described in the tables above are in accordance with the specified test standard.
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3. Tests in body position were performed in that configuration, which generates the highest time based
averaged output power (see conducted power results).
4. Tests in head position with GSM were performed in voice mode with 1 timeslot unless
GPRS/EGPRS/DTM function allows parallel voice and data traffic on 2 or more timeslots.
5. UMTS was tested in RMC mode with 12.2 kbit/s and TPC bits set to ‘all 1’.
6. WiFi was tested in 802.11b/g/n mode with 1 Mbit/s and 6 Mbit/s. According to KDB 248227 the SAR
testing for 802.11g/n is not required since 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.
7. Required WiFi test channels were selected according to KDB 248227
8. According to FCC KDB pub 248227 D01, When there are multiple test channels with the same measured
maximum output power, the channel closest to mid-band frequency is selected for SAR measurement
and when there are multiple test channels with the same measured maximum output power and 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.
9. According to FCC KDB pub 941225 D06 this device has been tested with 10 mm distance to the phantom
for operation in WiFi hot spot mode.
10. Per FCC KDB pub 941225 D06 the edges with antennas within 2.5 cm are required to be evaluated for
SAR to cover WiFi hot spot function.
11. According to IEEE 1528 the SAR test shall be performed at middle channel. Testing of top and bottom
channel is optional.
12. According to KDB 447498 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:
● ≤ 0.8 W/kg or 2.0 W/kg, for 1-g or 10-g respectively, when the transmission band is ≤ 100 MHz
● ≤ 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
13. IEEE 1528-2003 require the middle channel to be tested first. This generally applies to wireless devices
that are designed to operate in technologies with tight tolerances for maximum output power variations
across channels in the band. 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.
14. Per KDB648474 D04 require when the reported SAR for a body-worn accessory, measured without a
headset connected to the handset, is < 1.2 W/kg.
15. Per KDB648474 D04 require when the separation distance required for body-worn accessory testing is
larger than or equal to that tested for hotspot mode, using the same wireless mode test configuration for
voice and data, such as UMTS, LTE and Wi-Fi, and for the same surface of the phone, the hotspot mode
SAR data may be used to support body-worn accessory SAR compliance for that particular configuration
(surface)
16. 10-g extremity SAR is required only for the surfaces and edges with hotspot mode 1-g SAR > 1.2 W/kg.
17. Per KDB648474 D04 require for phablet SAR test considerations,For Mobile phones with a display
diagonal dimension > 15.0 cm or an overall diagonal dimension > 16.0 cm, When hotspot mode applies,
10-g extremity SAR is required only for the surfaces and edges with hotspot mode 1-g reported SAR >
1.2 W/kg.
18. 10-g extremity SAR is required only for the surfaces and edges with hotspot mode 1-g SAR > 1.2 W/kg.
4.9. Measurement Uncertainty (300MHz-3GHz)
Not required as SAR measurement uncertainty analysis is required in SAR reports only when the highest measured
SAR in a frequency band is ≥ 1.5 W/kg for 1-g SAR accoridng to KDB865664D01.
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4.10. System Check Results
Test mode:835MHz(Head)
Product Description:Validation
Model:Dipole SID835
E-Field Probe:SSE2(SN34/15 EPGO265)
Test Date: April 01, 2017
Medium(liquid type)
Frequency (MHz)
Relative permittivity (real part)
Conductivity (S/m)
Input power
Crest Factor
Conversion Factor
Variation (%)
SAR 10g (W/Kg)
SAR 1g (W/Kg)
HSL_850
835.000000
42.56
0.88
100mW
1.0
2.04
2.1400000
0.6413622
0.9889076
SURFACE SAR
VOLUME SAR
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Report No.: LCS170329085AE
Test mode:835MHz(Body)
Product Description:Validation
Model:Dipole SID835
E-Field Probe:SSE2(SN34/15 EPGO265)
Test Date: April 05, 2017
Medium(liquid type)
Frequency (MHz)
Relative permittivity (real part)
Conductivity (S/m)
Input power
Crest Factor
Conversion Factor
Variation (%)
SAR 10g (W/Kg)
SAR 1g (W/Kg)
MSL_850
835.0000
55.64
1.00
100mW
1.0
2.12
-2.6100000
0.6490527
1.0054713
SURFACE SAR
VOLUME SAR
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Test mode:1800MHz(Head)
Product Description:Validation
Model :Dipole SID1800
E-Field Probe:SSE2(SN34/15 EPGO265)
Test Date: April 06, 2017
Medium(liquid type)
Frequency (MHz)
Relative permittivity (real part)
Conductivity (S/m)
Input power
Crest Factor
Conversion Factor
Variation (%)
SAR 10g (W/Kg)
SAR 1g (W/Kg)
HSL_1800
1800.000000
41.58
1.41
100mW
1.0
2.04
-1.2200000
2.0605827
3.9433784
SURFACE SAR
VOLUME SAR
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Report No.: LCS170329085AE
Test mode:1800MHz(Body)
Product Description:Validation
Model :Dipole SID1800
E-Field Probe:SSE2(SN34/15 EPGO265)
Test Date: April 07, 2017
Medium(liquid type)
Frequency (MHz)
MSL_1800
1800.000000
Relative permittivity (real part)
Conductivity (S/m)
Input power
Crest Factor
Conversion Factor
Variation (%)
SAR 10g (W/Kg)
SAR 1g (W/Kg)
54.87
1.52
100mW
1.0
2.08
-3.4400000
2.0681825
3.9857248
SURFACE SAR
VOLUME SAR
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Test mode:1900MHz(Head)
Product Description:Validation
Model :Dipole SID1900
E-Field Probe:SSE2(SN34/15 EPGO265)
Test Date: April 08, 2017
Medium(liquid type)
Frequency (MHz)
HSL_1900
1900.0000
Relative permittivity (real part)
Conductivity (S/m)
Input power
Crest Factor
Conversion Factor
Variation (%)
SAR 10g (W/Kg)
SAR 1g (W/Kg)
41.76
1.45
100mW
1.0
2.35
0.7900000
2.0084893
3.9157228
SURFACE SAR
VOLUME SAR
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Test mode:1900MHz(Body)
Product Description:Validation
Model :Dipole SID1900
E-Field Probe:SSE2(SN34/15 EPGO265)
Test Date: April 11, 2017
Medium(liquid type)
Frequency (MHz)
Relative permittivity (real part)
Conductivity (S/m)
Input power
Crest Factor
Conversion Factor
Variation (%)
SAR 10g (W/Kg)
SAR 1g (W/Kg)
MSL_1900
1900.0000
54.78
1.56
100mW
1.0
2.42
3.3300000
2.1130774
4.2772985
SURFACE SAR
VOLUME SAR
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Test mode:2450MHz(Head)
Product Description:Validation
Model:Dipole SID2450
E-Field Probe:SSE2(SN34/15 EPGO265)
Test Date: April 12, 2017
Medium(liquid type)
Frequency (MHz)
Relative permittivity (real part)
Conductivity (S/m)
Input power
Crest Factor
Conversion Factor
Variation (%)
SAR 10g (W/Kg)
SAR 1g (W/Kg)
HSL_2450
2450.000000
40.35
1.82
100mW
1.0
2.47
-1.7800000
2.3822945
5.2439317
SURFACE SAR
VOLUME SAR
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Report No.: LCS170329085AE
Test mode:2450MHz(Body)
Product Description:Validation
Model:Dipole SID2450
E-Field Probe:SSE2(SN34/15 EPGO265)
Test Date: April 13, 2017
Medium(liquid type)
Frequency (MHz)
Relative permittivity (real part)
Conductivity (S/m)
Input power
Crest Factor
Conversion Factor
Variation (%)
SAR 10g (W/Kg)
SAR 1g (W/Kg)
MSL_2450
2450.000000
54.69
1.96
100mW
1.0
2.55
-0.9100000
2.4357764
5.3114745
SURFACE SAR
VOLUME SAR
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Page 65 of 170
SHENZHEN LCS COMPLIANCE TESTING LABORATORY LTD.
FCC ID: QRP-AZUMIAKARU55Q
Report No.: LCS170329085AE
Test mode:2600MHz(Head)
Product Description:Validation
Model:Dipole SID2450
E-Field Probe:SSE2(SN34/15 EPGO265)
Test Date: April 18, 2017
Medium(liquid type)
Frequency (MHz)
HSL_2600
2600.000000
Relative permittivity (real part)
Conductivity (S/m)
Input power
Crest Factor
Conversion Factor
Variation (%)
SAR 10g (W/Kg)
SAR 1g (W/Kg)
38.27
1.85
100mW
1.0
4.20
1.6400000
2.3405327
5.4726188
SURFACE SAR
VOLUME SAR
This report shall not be reproduced except in full, without the written approval of Shenzhen LCS Compliance Testing Laborator y Ltd.
Page 66 of 170
SHENZHEN LCS COMPLIANCE TESTING LABORATORY LTD.
FCC ID: QRP-AZUMIAKARU55Q
Report No.: LCS170329085AE
Test mode:2600MHz(Body)
Product Description:Validation
Model:Dipole SID2450
E-Field Probe:SSE2(SN34/15 EPGO265)
Test Date: April 19, 2017
Medium(liquid type)
Frequency (MHz)
MSL_2450
2450.000000
Relative permittivity (real part)
Conductivity (S/m)
Input power
Crest Factor
Conversion Factor
Variation (%)
SAR 10g (W/Kg)
SAR 1g (W/Kg)
52.36
2.24
100mW
1.0
4.32
3.7200000
2.4385742
5.4875567
SURFACE SAR
VOLUME SAR
This report shall not be reproduced except in full, without the written approval of Shenzhen LCS Compliance Testing Laborator y Ltd.
Page 67 of 170
SHENZHEN LCS COMPLIANCE TESTING LABORATORY LTD.
FCC ID: QRP-AZUMIAKARU55Q
Report No.: LCS170329085AE
4.10 SAR Test Graph Results
SAR plots for the highest measured SAR in each exposure configuration, wireless mode and
frequency band combination according to FCC KDB 865664 D02;
#1
Test Mode:GSM 850MHz,Mid channel(Head Right Cheek)
Product Description: Mobile phone
Model: Extend Akaru 55 QL
Test Date: April 01, 2017
Medium(liquid type)
Frequency (MHz)
Relative permittivity (real part)
Conductivity (S/m)
E-Field Probe
Crest Factor
Conversion Factor
Sensor
Area Scan
Zoom Scan
Variation (%)
SAR 10g (W/Kg)
SAR 1g (W/Kg)
MSL_850
836.600000
42.56
0.88
SN34/15 EPGO265
8.0
2.04
4mm
dx=8mm dy=8mm
5x5x7,dx=8mm dy=8mm dz=5mm
0.180000
0.111290
0.153605
SURFACE SAR
VOLUME SAR
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Page 68 of 170
SHENZHEN LCS COMPLIANCE TESTING LABORATORY LTD.
FCC ID: QRP-AZUMIAKARU55Q
Report No.: LCS170329085AE
#2
Test Mode: Hotspot GSM850MHz,Mid channel(Body Front Side)
Product Description: Mobile phone
Model: Extend Akaru 55 QL
Test Date: April 05, 2017
Medium(liquid type)
Frequency (MHz)
Relative permittivity (real part)
Conductivity (S/m)
E-Field Probe
Crest Factor
Conversion Factor
Sensor
Area Scan
Zoom Scan
Variation (%)
SAR 10g (W/Kg)
SAR 1g (W/Kg)
SURFACE SAR
MSL_850
836.600000
55.64
1.00
SN34/15 EPGO265
4.0
2.12
4mm
dx=8mm dy=8mm
5x5x7,dx=8mm dy=8mm dz=5mm
-1.300000
0.183391
0.294772
VOLUME SAR
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Page 69 of 170
SHENZHEN LCS COMPLIANCE TESTING LABORATORY LTD.
FCC ID: QRP-AZUMIAKARU55Q
Report No.: LCS170329085AE
#3
Test Mode:GSM 1900MHz,Mid channel(Head Left Cheek)
Product Description: Mobile phone
Model: Extend Akaru 55 QL
Test Date: April 08, 2017
Medium(liquid type)
Frequency (MHz)
Relative permittivity (real part)
Conductivity (S/m)
E-Field Probe
Crest Factor
Conversion Factor
Sensor
Area Scan
Zoom Scan
Variation (%)
SAR 10g (W/Kg)
SAR 1g (W/Kg)
MSL_1900
1880.000000
41.63
1.44
SN34/15 EPGO265
8.0
2.35
4mm
dx=8mm dy=8mm
5x5x7,dx=8mm dy=8mm dz=5mm
-1.370000
0.050438
0.091013
SURFACE SAR
VOLUME SAR
This report shall not be reproduced except in full, without the written approval of Shenzhen LCS Compliance Testing Laborator y Ltd.
Page 70 of 170
SHENZHEN LCS COMPLIANCE TESTING LABORATORY LTD.
FCC ID: QRP-AZUMIAKARU55Q
Report No.: LCS170329085AE
#4
Test Mode: Hotspot GPRS1900MHz,Mid channel(Body Front Side)
Product Description: Mobile phone
Model: Extend Akaru 55 QL
Test Date: April 11, 2017
Medium(liquid type)
Frequency (MHz)
Relative permittivity (real part)
Conductivity (S/m)
E-Field Probe
Crest Factor
Conversion Factor
Sensor
Area Scan
Zoom Scan
Variation (%)
SAR 10g (W/Kg)
SAR 1g (W/Kg)
MSL_1900
1880.000000
54.83
1.55
SN34/15 EPGO265
2.0
2.42
4mm
dx=8mm dy=8mm
5x5x7,dx=8mm dy=8mm dz=5mm
0.250000
0.325113
0.599552
SURFACE SAR
VOLUME SAR
This report shall not be reproduced except in full, without the written approval of Shenzhen LCS Compliance Testing Laborator y Ltd.
Page 71 of 170
SHENZHEN LCS COMPLIANCE TESTING LABORATORY LTD.
FCC ID: QRP-AZUMIAKARU55Q
Report No.: LCS170329085AE
#5
Test Mode:WCDMA Band V,Mid channel(Head Right Cheek)
Product Description: Mobile phone
Model: Extend Akaru 55 QL
Test Date: April 01, 2017
Medium(liquid type)
Frequency (MHz)
Relative permittivity (real part)
Conductivity (S/m)
E-Field Probe
Crest Factor
Conversion Factor
Sensor
Area Scan
Zoom Scan
Variation (%)
SAR 10g (W/Kg)
SAR 1g (W/Kg)
MSL_850
836.600000
42.56
0.88
SN34/15 EPGO265
1.0
2.04
4mm
dx=8mm dy=8mm
5x5x7,dx=8mm dy=8mm dz=5mm
-3.250000
0.110657
0.153741
SURFACE SAR
VOLUME SAR
This report shall not be reproduced except in full, without the written approval of Shenzhen LCS Compliance Testing Laborator y Ltd.
Page 72 of 170
SHENZHEN LCS COMPLIANCE TESTING LABORATORY LTD.
FCC ID: QRP-AZUMIAKARU55Q
Report No.: LCS170329085AE
#6
Test Mode: Hotspot WCDMA Band V,Mid channel(Body Rear Side)
Product Description: Mobile phone
Model: Extend Akaru 55 QL
Test Date: April 05, 2017
Medium(liquid type)
Frequency (MHz)
Relative permittivity (real part)
Conductivity (S/m)
E-Field Probe
Crest Factor
Conversion Factor
Sensor
Area Scan
Zoom Scan
Variation (%)
SAR 10g (W/Kg)
SAR 1g (W/Kg)
MSL_850
836.600000
55.64
1.00
SN34/15 EPGO265
1.0
2.12
4mm
dx=8mm dy=8mm
5x5x7,dx=8mm dy=8mm dz=5mm
0.730000
0.139258
0.249636
SURFACE SAR
VOLUME SAR
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Page 73 of 170
SHENZHEN LCS COMPLIANCE TESTING LABORATORY LTD.
FCC ID: QRP-AZUMIAKARU55Q
Report No.: LCS170329085AE
#7
Test Mode:WCDMA Band II,Low channel(Head Left Cheek)
Product Description: Mobile phone
Model: Extend Akaru 55 QL
Test Date: April 08, 2017
Medium(liquid type)
Frequency (MHz)
Relative permittivity (real part)
Conductivity (S/m)
E-Field Probe
Crest Factor
Conversion Factor
Sensor
Area Scan
Zoom Scan
Variation (%)
SAR 10g (W/Kg)
SAR 1g (W/Kg)
MSL_1900
1852.400000
41.61
1.43
SN34/15 EPGO265
1.0
2.42
4mm
dx=8mm dy=8mm
5x5x7,dx=8mm dy=8mm dz=5mm
-0.360000
0.139156
0.250192
SURFACE SAR
VOLUME SAR
This report shall not be reproduced except in full, without the written approval of Shenzhen LCS Compliance Testing Laborator y Ltd.
Page 74 of 170
SHENZHEN LCS COMPLIANCE TESTING LABORATORY LTD.
FCC ID: QRP-AZUMIAKARU55Q
Report No.: LCS170329085AE
#8
Test Mode: Hotspot WCDMA Band II,Mid channel(Body Rear Side)
Product Description: Mobile phone
Model: Extend Akaru 55 QL
Test Date: April 11, 2017
Medium(liquid type)
Frequency (MHz)
Relative permittivity (real part)
Conductivity (S/m)
E-Field Probe
Crest Factor
Conversion Factor
Sensor
Area Scan
Zoom Scan
Variation (%)
SAR 10g (W/Kg)
SAR 1g (W/Kg)
MSL_1900
1880.000000
54.83
1.55
SN34/15 EPGO265
1.0
2.42
4mm
dx=8mm dy=8mm
5x5x7,dx=8mm dy=8mm dz=5mm
-2.190000
0.468429
0.800953
SURFACE SAR
VOLUME SAR
This report shall not be reproduced except in full, without the written approval of Shenzhen LCS Compliance Testing Laborator y Ltd.
Page 75 of 170
SHENZHEN LCS COMPLIANCE TESTING LABORATORY LTD.
FCC ID: QRP-AZUMIAKARU55Q
Report No.: LCS170329085AE
#9
Test Mode: LTE Band 2, Low channel(Head Left Cheek)
Product Description: Mobile phone
Model: Extend Akaru 55 QL
Test Date: April 08, 2017
Medium(liquid type)
Frequency (MHz)
Relative permittivity (real part)
Conductivity (S/m)
E-Field Probe
Crest Factor
Conversion Factor
Sensor
Area Scan
Zoom Scan
Variation (%)
SAR 10g (W/Kg)
SAR 1g (W/Kg)
MSL_1900
1860.000000
41.61
1.43
SN34/15 EPGO265
1.0
2.42
4mm
dx=8mm dy=8mm
5x5x7,dx=8mm dy=8mm dz=5mm
-0.280000
0.162027
0.248071
SURFACE SAR
VOLUME SAR
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Page 76 of 170
SHENZHEN LCS COMPLIANCE TESTING LABORATORY LTD.
FCC ID: QRP-AZUMIAKARU55Q
Report No.: LCS170329085AE
#10
Test Mode: Hotspot LTE Band 2, Low channel(Body Rear Side)
Product Description: Mobile phone
Model: Extend Akaru 55 QL
Test Date: April 11, 2017
Medium(liquid type)
Frequency (MHz)
Relative permittivity (real part)
Conductivity (S/m)
E-Field Probe
Crest Factor
Conversion Factor
Sensor
Area Scan
Zoom Scan
Variation (%)
SAR 10g (W/Kg)
SAR 1g (W/Kg)
MSL_1900
1860.000000
54.81
1.54
SN34/15 EPGO265
1.0
2.42
4mm
dx=8mm dy=8mm
5x5x7,dx=8mm dy=8mm dz=5mm
-0.350000
0.210785
0.404660
SURFACE SAR
VOLUME SAR
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Page 77 of 170
SHENZHEN LCS COMPLIANCE TESTING LABORATORY LTD.
FCC ID: QRP-AZUMIAKARU55Q
Report No.: LCS170329085AE
#11
Test Mode:LTE Band 4, High channel(Head Left Cheek)
Product Description: Mobile phone
Model: Extend Akaru 55 QL
Test Date: April 06, 2017
Medium(liquid type)
Frequency (MHz)
Relative permittivity (real part)
Conductivity (S/m)
E-Field Probe
Crest Factor
Conversion Factor
Sensor
Area Scan
Zoom Scan
Variation (%)
SAR 10g (W/Kg)
SAR 1g (W/Kg)
MSL_1800
1745.000000
40.70
1.38
SN34/15 EPGO265
1.0
2.04
4mm
dx=8mm dy=8mm
5x5x7,dx=8mm dy=8mm dz=5mm
-0.460000
0.185606
0.311628
SURFACE SAR
VOLUME SAR
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SHENZHEN LCS COMPLIANCE TESTING LABORATORY LTD.
FCC ID: QRP-AZUMIAKARU55Q
Report No.: LCS170329085AE
#12
Test Mode: Hotspot LTE Band 4, High channel(Body Rear Side)
Product Description: Mobile phone
Model: Extend Akaru 55 QL
Test Date: April 07, 2017
Medium(liquid type)
Frequency (MHz)
Relative permittivity (real part)
Conductivity (S/m)
E-Field Probe
Crest Factor
Conversion Factor
Sensor
Area Scan
Zoom Scan
Variation (%)
SAR 10g (W/Kg)
SAR 1g (W/Kg)
MSL_1800
1745.000000
53.12
1.49
SN34/15 EPGO265
1.0
2.08
4mm
dx=8mm dy=8mm
5x5x7,dx=8mm dy=8mm dz=5mm
-0.610000
0.453638
0.874370
SURFACE SAR
VOLUME SAR
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SHENZHEN LCS COMPLIANCE TESTING LABORATORY LTD.
FCC ID: QRP-AZUMIAKARU55Q
Report No.: LCS170329085AE
#13
Test Mode: LTE Band 7, Low channel(Head Right Cheek)
Product Description: Mobile phone
Model: Extend Akaru 55 QL
Test Date: April 18, 2017
Medium(liquid type)
Frequency (MHz)
Relative permittivity (real part)
Conductivity (S/m)
E-Field Probe
Crest Factor
Conversion Factor
Sensor
Area Scan
Zoom Scan
Variation (%)
SAR 10g (W/Kg)
SAR 1g (W/Kg)
MSL_2600
2510.00000000
38.35
1.92
SN17/14 EPG214
1.0
4.20
4mm
dx=8mm dy=8mm
5x5x7,dx=8mm dy=8mm dz=5mm
-1.310000
0.205102
0.382768
SURFACE SAR
VOLUME SAR
This report shall not be reproduced except in full, without the written approval of Shenzhen LCS Compliance Testing Laborator y Ltd.
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SHENZHEN LCS COMPLIANCE TESTING LABORATORY LTD.
FCC ID: QRP-AZUMIAKARU55Q
Report No.: LCS170329085AE
#14
Test Mode: Hotspot LTE Band 7, Low channel(Body Back Side)
Product Description: Mobile phone
Model: Extend Akaru 55 QL
Test Date: April 19, 2017
Medium(liquid type)
Frequency (MHz)
Relative permittivity (real part)
Conductivity (S/m)
E-Field Probe
Crest Factor
Conversion Factor
Sensor
Area Scan
Zoom Scan
Variation (%)
SAR 10g (W/Kg)
SAR 1g (W/Kg)
MSL_2600
2510.00000000
51.81
2.19
SN17/14 EPG214
1.0
4.32
4mm
dx=8mm dy=8mm
5x5x7,dx=8mm dy=8mm dz=5mm
-1.090000
0.165967
0.296575
SURFACE SAR
VOLUME SAR
This report shall not be reproduced except in full, without the written approval of Shenzhen LCS Compliance Testing Laborator y Ltd.
Page 81 of 170
SHENZHEN LCS COMPLIANCE TESTING LABORATORY LTD.
FCC ID: QRP-AZUMIAKARU55Q
Report No.: LCS170329085AE
#17
Test Mode:802.11b(WiFi2.4G), Middle channel(Head Left Cheek)
Product Description: Mobile phone
Model: Extend Akaru 55 QL
Test Date: April 12, 2017
Medium(liquid type)
Frequency (MHz)
Relative permittivity (real part)
Conductivity (S/m)
E-Field Probe
Crest Factor
Conversion Factor
Sensor
Area Scan
Zoom Scan
Variation (%)
SAR 10g (W/Kg)
SAR 1g (W/Kg)
MSL_2450
2437.000000
40.39
1.82
SN34/15 EPGO265
1.0
2.47
4mm
dx=8mm dy=8mm
5x5x7,dx=8mm dy=8mm dz=5mm
-0.610000
0.052913
0.100587
SURFACE SAR
VOLUME SAR
This report shall not be reproduced except in full, without the written approval of Shenzhen LCS Compliance Testing Laborator y Ltd.
Page 82 of 170
SHENZHEN LCS COMPLIANCE TESTING LABORATORY LTD.
FCC ID: QRP-AZUMIAKARU55Q
Report No.: LCS170329085AE
#18
Test Mode: Hotspot 802.11b(WiFi2.4G), Middle channel ( Body Rear Side)
Product Description: Mobile phone
Model: Extend Akaru 55 QL
Test Date: April 13, 2017
Medium(liquid type)
Frequency (MHz)
Relative permittivity (real part)
Conductivity (S/m)
E-Field Probe
Crest Factor
Conversion Factor
Sensor
Area Scan
Zoom Scan
Variation (%)
SAR 10g (W/Kg)
SAR 1g (W/Kg)
MSL_2450
2437.000000
55.03
1.97
SN34/15 EPGO265
1.0
2.55
4mm
dx=8mm dy=8mm
5x5x7,dx=8mm dy=8mm dz=5mm
-0.260000
0.070699
0.162515
SURFACE SAR
VOLUME SAR
This report shall not be reproduced except in full, without the written approval of Shenzhen LCS Compliance Testing Laborator y Ltd.
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Download: AZUMIAKARU55Q Mobile phone RF Exposure Info EMC TRF Template Azumi S.A
Mirror Download [FCC.gov]AZUMIAKARU55Q Mobile phone RF Exposure Info EMC TRF Template Azumi S.A
Document ID3422953
Application ID++QGuF9+6DJZHplGwzhBfg==
Document DescriptionSAR report part 1
Short Term ConfidentialNo
Permanent ConfidentialNo
SupercedeNo
Document TypeRF Exposure Info
Display FormatAdobe Acrobat PDF - pdf
Filesize280.59kB (3507315 bits)
Date Submitted2017-06-12 00:00:00
Date Available2017-06-13 00:00:00
Creation Date2017-06-12 15:41:07
Producing SoftwareMicrosoft® Word 2016
Document Lastmod2017-06-12 15:41:26
Document TitleEMC TRF Template
Document CreatorMicrosoft® Word 2016
Document Author: eie

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Modify Date                     : 2017:06:12 15:41:26-04:00
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XMP Toolkit                     : Adobe XMP Core 5.2-c001 63.139439, 2010/09/27-13:37:26
Metadata Date                   : 2017:06:12 15:41:26-04:00
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