SMJ720M GSM/WCDMA/LTE Phone + BT/BLE, DTS/UNII a/ b/g/n/ac and ANT+ RF Exposure Info 1 Samsung Electronics Co Ltd

Samsung Electronics Co Ltd GSM/WCDMA/LTE Phone + BT/BLE, DTS/UNII a/ b/g/n/ac and ANT+

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FCC 47 CFR § 2.1093
IEEE Std 1528-2013
SAR EVALUATION REPORT
FOR
GSM/WCDMA/LTE Phone + BT/BLE, DTS/UNII a/b/g/n/ac and ANT+
MODEL NUMBER: SM-J720M/DS, SM-J720M
FCC ID: A3LSMJ720M
REPORT NUMBER: 4788364119-S1V2
ISSUE DATE: 3/29/2018
Prepared for
SAMSUNG ELECTRONICS CO., LTD.
129 SAMSUNG-RO, YEONGTONG-GU, SUWON-SI,
GYEONGGI-DO, 16677, KOREA
Prepared by
UL Korea, Ltd.
26th floor, 152, Teheran-ro, Gangnam-gu Seoul, 06236, Korea
Suwon Test Site: UL Korea, Ltd. Suwon Laboratory
218 Maeyeong-ro, Yeongtong-gu,
Suwon-si, Gyeonggi-do, 16675, Korea
TEL: (031) 337-9902
FAX: (031) 213-5433
TL-637
Report No.: 4788364119-S1V3
Issue Date: 3/29/2018
Revision History
Rev.
Date
Revisions
Revised By
V1
3/22/2018
Initial Issue
Eunji Choi
V2
3/27/2018
Revised Sec.6.1 in SAR report.
Eunji Choi
V3
3/29/2018
Added Sec.6.5.2 in SAR report.
Eunji Choi
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Report No.: 4788364119-S1V3
Issue Date: 3/29/2018
Table of Contents
1.
Attestation of Test Results ......................................................................................................... 5
2.
Test Specification, Methods and Procedures............................................................................ 6
3.
Facilities and Accreditation ........................................................................................................ 6
4.
SAR Measurement System & Test Equipment .......................................................................... 7
4.1.
SAR Measurement System ........................................................................................................ 7
4.2.
SAR Scan Procedures ............................................................................................................... 8
4.3.
Test Equipment........................................................................................................................ 10
5.
Measurement Uncertainty ......................................................................................................... 10
6.
Device Under Test (DUT) Information ...................................................................................... 11
6.1.
DUT Description ...................................................................................................................... 11
6.2.
Wireless Technologies ............................................................................................................. 12
6.3.
Nominal and Maximum Output Power ...................................................................................... 13
6.4.
General LTE SAR Test and Reporting Considerations............................................................. 15
6.5.
Power Reduction by Proximity Sensing ................................................................................... 17
6.5.1.
Proximity Sensor Triggering Distance (KDB 616217 §6.2) ................................................ 17
6.5.2.
Tilt angle of the front side .................................................................................................. 20
6.5.3.
Resulting test positions for SAR measurements ............................................................... 20
7.
RF Exposure Conditions (Test Configurations) ...................................................................... 21
8.
Dielectric Property Measurements & System Check .............................................................. 22
8.1.
Dielectric Property Measurements ........................................................................................... 22
8.2.
System Check.......................................................................................................................... 28
9.
Conducted Output Power Measurements................................................................................ 33
9.1.
GSM ........................................................................................................................................ 33
9.2.
W-CDMA ................................................................................................................................. 35
9.3.
LTE .......................................................................................................................................... 41
9.4.
Wi-Fi 2.4 GHz (DTS Band)....................................................................................................... 61
9.5.
Wi-Fi 5 GHz (U-NII Bands)....................................................................................................... 62
9.6.
Bluetooth ................................................................................................................................. 63
10.
Measured and Reported (Scaled) SAR Results ....................................................................... 63
10.1.
GSM 850 .............................................................................................................................. 65
10.2.
GSM1900 ............................................................................................................................. 65
10.3.
W-CDMA Band II .................................................................................................................. 65
10.4.
W-CDMA Band IV ................................................................................................................ 66
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Report No.: 4788364119-S1V3
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10.5.
W-CDMA Band V ................................................................................................................. 66
10.6.
LTE Band 2 (20MHz Bandwidth) .......................................................................................... 67
10.7.
LTE Band 4 (20MHz Bandwidth) .......................................................................................... 67
10.8.
LTE Band 5 (10MHz Bandwidth) .......................................................................................... 67
10.9.
LTE Band 7 (20MHz Bandwidth) .......................................................................................... 68
10.10.
LTE Band 12 (10MHz Bandwidth) ........................................................................................ 68
10.11.
LTE Band 13 (10MHz Bandwidth) ........................................................................................ 69
10.12.
LTE Band 17 (10MHz Bandwidth) ........................................................................................ 69
10.13.
LTE Band 38 (20MHz Bandwidth) ........................................................................................ 69
10.14.
LTE Band 41 (20MHz Bandwidth) ........................................................................................ 70
10.15.
LTE Band 66 (20MHz Bandwidth) ........................................................................................ 70
10.16.
Wi-Fi (DTS Band) ................................................................................................................. 71
10.17.
Wi-Fi (U-NII Bands) .............................................................................................................. 71
10.18.
Bluetooth .............................................................................................................................. 72
11.
SAR Measurement Variability ................................................................................................... 73
12.
Simultaneous Transmission SAR Analysis ............................................................................. 74
12.1.
Sum of the SAR for WWAN & Wi-Fi & BT............................................................................. 75
Appendixes .......................................................................................................................................... 76
4788364119-S1V3 FCC Report SAR_App A_Photos & Ant. Locations ............................................... 76
4788364119-S1V3 FCC Report SAR_App B_Highest SAR Test Plots................................................ 76
4788364119-S1V3 FCC Report SAR_App C_System Check Plots ..................................................... 76
4788364119-S1V3 FCC Report SAR_App D_SAR Tissue Ingredients ............................................... 76
4788364119-S1V3 FCC Report SAR_App E_Probe Cal. Certificates ................................................. 76
4788364119-S1V3 FCC Report SAR_App F_Dipole Cal. Certificates ................................................. 76
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Report No.: 4788364119-S1V3
Issue Date: 3/29/2018
1. Attestation of Test Results
Applicant Name
SAMSUNG ELECTRONICS CO.,LTD.
FCC ID
A3LSMJ720M
Model Number
SM-J720M/DS and SM-J720M
Applicable Standards
FCC 47 CFR § 2.1093
Published RF exposure KDB procedures
IEEE Std 1528-2013
SAR Limits (W/Kg)
Exposure Category
Peak spatial-average(1g of tissue)
Phablet (10g of tissue)
1.6
4.0
General population /
Uncontrolled exposure
The Highest Reported SAR (W/kg)
Equipment Class
RF Exposure Conditions
Licensed
DTS
UNII
Head
0.45
0.39
0.97
Body-worn
0.55
< 0.1
< 0.1
Hotspot
1.10
0.13
0.25
Phablet 10g SAR
Simultaneous TX
N/A
DSS(BT)
N/A
0.42
Head
1.42
0.83
1.42
Body-worn
0.64
0.60
0.64
Hotspot
1.34
1.23
1.34
N/A
Notes: SM-J720M/DS and SM-J720M are same hardware, but for different number of SIM card slot. SM-J720M has one slot
and SM-J720M/DS is dual SIM version. The results for model SM-J720M/DS are worst case in All bands.
Date Tested
2/26/2018 to 3/21/2018
Test Results
Pass
UL Korea, Ltd. tested the above equipment in accordance with the requirements set forth in the above
standards. All indications of Pass/Fail in this report are opinions expressed by UL Korea, Ltd. based on
interpretations and/or observations of test results. Measurement Uncertainties were not taken into
account and are published for informational purposes only. The test results show that the equipment
tested is capable of demonstrating compliance with the requirements as documented in this report.
Note: The results documented in this report apply only to the tested sample, under the conditions and
modes of operation as described herein. This document may not be altered or revised in any way unless
done so by UL Korea, Ltd. and all revisions are duly noted in the revisions section. Any alteration of this
document not carried out by UL Korea, Ltd. will constitute fraud and shall nullify the document. This
report must not be used by the client to claim product certification, approval, or endorsement by IAS, any
agency of the Federal Government, or any agency of any government.
Approved & Released By:
Prepared By:
Justin Park
Eunji Choi
Lead Test Engineer
Associate Test Engineer
UL Korea, Ltd. Suwon Laboratory
UL Korea, Ltd. Suwon Laboratory
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Report No.: 4788364119-S1V3
Issue Date: 3/29/2018
2. Test Specification, Methods and Procedures
The tests documented in this report were performed in accordance with FCC 47 CFR § 2.1093, IEEE STD 15282013, the following FCC Published RF exposure KDB procedures:
248227 D01 802.11 Wi-Fi SAR v02r02
447498 D01 General RF Exposure Guidance v06
648474 D04 Handset SAR v01r03
690783 D01 SAR Listings on Grants v01r03
865664 D01 SAR measurement 100 MHz to 6 GHz v01r04
865664 D02 RF Exposure Reporting v01r02
941225 D01 3G SAR Procedures v03r01
941225 D05 SAR for LTE Devices v02r05
941225 D06 Hotspot Mode v02r01
941225 D07 UMPC Mini Tablet v01r02
In addition to the above, the following information was used:
TCB workshop October, 2014; Page 36, RF Exposure Procedures Update (Overlapping LTE Bands)
TCB workshop October, 2016; Page 7, RF Exposure Procedures (Bluetooth Duty Factor)
TCB workshop October, 2014; Page 37, RF Exposure Procedures Update (Other LTE Considerations)
3. Facilities and Accreditation
The test sites and measurement facilities used to collect data are located at
Suwon
SAR 1 Room
SAR 2 Room
SAR 3 Room
UL Korea, Ltd. is accredited by IAS, Laboratory Code TL-637.
The full scope of accreditation can be viewed at http://www.iasonline.org/PDF/TL/TL-637.pdf.
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Report No.: 4788364119-S1V3
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4. SAR Measurement System & Test Equipment
4.1. SAR Measurement System
The DASY5 system used for performing compliance tests consists of the following items:









A standard high precision 6-axis robot with controller, teach pendant and software. An arm extension for
accommodating the data acquisition electronics (DAE).
An isotropic Field probe optimized and calibrated for the targeted measurement.
A data acquisition electronics (DAE) which performs the signal amplification, signal multiplexing, ADconversion, offset measurements, mechanical surface detection, collision detection, etc. The unit is battery
powered with standard or rechargeable batteries. The signal is optically transmitted to the EOC.
The Electro-optical converter (EOC) performs the conversion from optical to electrical signals for the digital
communication to the DAE. To use optical surface detection, a special version of the EOC is required. The
EOC signal is transmitted to the measurement server.
The function of the measurement server is to perform the time critical tasks such as signal filtering, control of
the robot operation and fast movement interrupts.
The Light Beam used is for probe alignment. This improves the (absolute) accuracy of the probe positioning.
A computer running WinXP or Win7 and the DASY5 software.
Remote control and teach pendant as well as additional circuitry for robot safety such as warning lamps, etc.
The phantom, the device holder and other accessories according to the targeted measurement.
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Report No.: 4788364119-S1V3
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4.2. SAR Scan Procedures
Step 1: Power Reference Measurement
The Power Reference Measurement and Power Drift Measurements are for monitoring the power drift of the device
under test in the batch process. The minimum distance of probe sensors to surface determines the closest
measurement point to phantom surface. The minimum distance of probe sensors to surface is 2.1 mm. This
distance cannot be smaller than the distance of sensor calibration points to probe tip as defined in the probe
properties.
Step 2: Area Scan
The Area Scan is used as a fast scan in two dimensions to find the area of high field values, before doing a fine
measurement around the hot spot. The sophisticated interpolation routines implemented in DASY software can find
the maximum locations even in relatively coarse grids. When an Area Scan has measured all reachable points, it
computes the field maximal found in the scanned area, within a range of the global maximum. The range (in dB) is
specified in the standards for compliance testing. For example, a 2 dB range is required in IEEE Standard 1528
and IEC 62209 standards, whereby 3 dB is a requirement when compliance is assessed in accordance with the
ARIB standard (Japan). If only one Zoom Scan follows the Area Scan, then only the absolute maximum will be
taken as reference. For cases where multiple maximums are detected, the number of Zoom Scans has to be
increased accordingly.
Area Scan Parameters extracted from KDB 865664 D01 SAR Measurement 100 MHz to 6 GHz
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Step 3: Zoom Scan
Zoom Scans are used to assess the peak spatial SAR values within a cubic averaging volume containing 1 g and
10 g of simulated tissue. The Zoom Scan measures points (refer to table below) within a cube whose base faces
are centered on the maxima found in a preceding area scan job within the same procedure. When the
measurement is done, the Zoom Scan evaluates the averaged SAR for 1 g and 10 g and displays these values
next to the job’s label.
Zoom Scan Parameters extracted from KDB 865664 D01 SAR Measurement 100 MHz to 6 GHz
Step 4: Power drift measurement
The Power Drift Measurement measures the field at the same location as the most recent power reference
measurement within the same procedure, and with the same settings. The Power Drift Measurement gives the field
difference in dB from the reading conducted within the last Power Reference Measurement. This allows a user to
monitor the power drift of the device under test within a batch process. The measurement procedure is the same as
Step 1.
Step 5: Z-Scan (FCC only)
The Z Scan measures points along a vertical straight line. The line runs along the Z-axis of a one-dimensional grid.
In order to get a reasonable extrapolation the extrapolated distance should not be larger than the step size in Zdirection.
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Report No.: 4788364119-S1V3
4.3.
Issue Date: 3/29/2018
Test Equipment
The measuring equipment used to perform the tests documented in this report has been calibrated in accordance
with the manufacturers’ recommendations, and is traceable to recognized national standards.
Dielectric Property Measurements
Name of Equipment
Manufacturer
Type/Model
Serial No.
Network Analyzer
Agilent
E5071C
MY46522054
Cal. Due Date
8-8-2018
Dielectric Assessment Kit
SPEAG
DAK-3.5
1196
8-2-2018
Shorting block
SPEAG
DAK-3.5 Short
SM DAK 200 BA
N/A
Thermometer
LKM
DTM3000
3424
8-11-2018
Thermometer
Lutron
MHB-382SD
AH.91478
8-10-2018
System Check
Name of Equipment
Manufacturer
Type/Model
Serial No.
Cal. Due Date
MXG Analog Signal Generator
Agilent
N5181A
MY50145882
8-7-2018
Power Sensor
Agilent
U2000A
MY54260010
8-8-2018
Power Sensor
Agilent
U2000A
MY54260007
8-8-2018
EXODUS
1410025-AMP2027-10003
10003
8-8-2018
Power Amplifier
Directional Coupler
Agilent
772D
MY52180193
8-7-2018
Directional Coupler
Agilent
778D
MY52180432
8-7-2018
8-7-2018
Low Pass Filter
MICROLAB
LA-15N
03943
Low Pass Filter
FILTRON
L14012FL
1410003S
8-7-2018
Low Pass Filter
MICROLAB
LA-60N
03942
8-7-2018
Attenuator
Agilent
8491B/003
MY39269292
8-7-2018
Attenuator
Agilent
8491B/010
MY39269315
8-7-2018
Attenuator
Agilent
8491B/020
MY39269298
8-7-2018
E-Field Probe (SAR1)
SPEAG
EX3DV4
7376
8-22-2018
E-Field Probe (SAR2)
SPEAG
EX3DV4
7330
1-22-2019
E-Field Probe (SAR3)
SPEAG
EX3DV4
7314
9-28-2018
Data Acquisition Electronics (SAR1)
SPEAG
DAE4
1468
8-22-2018
Data Acquisition Electronics (SAR2)
SPEAG
DAE4
1447
11-22-2018
10-23-2018
Data Acquisition Electronics (SAR2)
SPEAG
DAE3
479
Data Acquisition Electronics (SAR3)
SPEAG
DAE4
1494
7-20-2018
System Validation Dipole
SPEAG
D750V3
1014
7-19-2018
System Validation Dipole
SPEAG
D750V3
1122
2-19-2019
System Validation Dipole
SPEAG
D835V2
4d194
7-19-2018
System Validation Dipole
SPEAG
D1750V2
1125
2-16-2019
System Validation Dipole
SPEAG
D1900V2
5d190
9-20-2018
System Validation Dipole
SPEAG
D2450V2
939
9-19-2018
System Validation Dipole
SPEAG
D2600V2
1097
1-17-2019
System Validation Dipole
SPEAG
D5GHzV2
1209
2-15-2019
System Validation Dipole
SPEAG
D5GHzV2
1184
8-23-2018
Thermometer (SAR1)
Lutron
MHB-382SD
AH.91463
8-10-2018
Thermometer (SAR2)
Lutron
MHB-382SD
AH.50215
2-9-2019
Thermometer (SAR3)
Lutron
MHB-382SD
AH.50213
8-16-2018
Others
Name of Equipment
Manufacturer
Type/Model
Serial No.
Cal. Due Date
Base Station Simulator
R&S
CMW500
150313
12-08-2018
Base Station Simulator
R&S
CMW500
150314
12-05-2018
5. Measurement Uncertainty
Per KDB 865664 D01 SAR Measurement 100 MHz to 6 GHz, when the highest measured 1-g SAR within a
frequency band is < 1.5 W/kg and the measured 10-g SAR within a frequency band is < 3.75 W/kg. The expanded
SAR measurement uncertainty must be ≤ 30%, for a confidence interval of k = 2. If these conditions are met,
extensive SAR measurement uncertainty analysis described in IEEE Std 1528-2013 is not required in SAR reports
submitted for equipment approval.
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Report No.: 4788364119-S1V3
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6. Device Under Test (DUT) Information
6.1.
DUT Description
Device Dimension
Overall (Length x Width): 153 mm x 76 mm
Overall Diagonal: 162.0 mm
Display Diagonal: 140.0 mm
Back Cover
☒ Normal Battery Cover
Battery Options
☒ Standard – Lithium-ion battery, Rating 3.85 V, 11.55 Wh
Wireless Router (Hotspot)
Wi-Fi Hotspot mode permits the device to share its cellular data connection with other Wi-Fi-enabled devices.
☒ Mobile Hotspot (Wi-Fi 2.4 GHz)
☒ Mobile Hotspot (Wi-Fi 5.8 GHz)
Wi-Fi Direct
Wi-Fi Direct enabled devices transfer data directly between each other
☒ Wi-Fi Direct (Wi-Fi 2.4 GHz)
☒ Wi-Fi Direct (Wi-Fi 5GHz : Ch 36 – Ch.48, Ch.149 – Ch.165)
Test Sample Information
No.
S/N
Notes
R38K204GW7X
Wi-Fi/BT conduction
R38K10BCS5W
Main conduction
R38K204GW7X
Main conduction & SAR
R38K204GS5W
SAR
R38K204GQND
SAR
R38K204GSCA
SAR
R38K204GTKM
SAR
R38K204GSHX
SAR
R38K203L5DT
SAR
10
R38K203L93K
SAR
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Report No.: 4788364119-S1V3
6.2.
Issue Date: 3/29/2018
Wireless Technologies
Wireless
technologies
Frequency bands
Operating mode
GSM
850
1900
Voice (GMSK)
GPRS (GMSK)
EGPRS (8PSK)
Duty Cycle used for SAR
testing
GPRS Multi-Slot Class:
☐ Class 8 - 1 Up, 4 Down
☐ Class 10 - 2 Up, 4 Down
☐ Class 12 - 4 Up, 4 Down
☒ Class 33 - 4 Up, 5 Down
GSM Voice: 12.5%
(E)GPRS: 1 Slot: 12.5%
2 Slots: 25%
3 Slots: 37.5%
4 Slots: 50%
Does this device support DTM (Dual Transfer Mode)? ☐ Yes ☒ No
W-CDMA (UMTS)
Band II
Band IV
Band V
UMTS Rel. 99 (Voice & Data)
HSDPA (Release.9)
HSUPA (Release.9)
HSPA+ (Release.9)
DC-HSDPA(Release 9)
100%
LTE
FDD Band 2
FDD Band 4
FDD Band 5
FDD Band 7
FDD Band 12
FDD Band 13
FDD Band 17
TDD Band 38
TDD Band 41
FDD Band 66
QPSK
16QAM
☒ Rel. 10 Does not support Carrier Aggregation (CA)
100%(FDD)
63.3%(TDD)
Does this device support SV-LTE (1xRTT-LTE)? ☐ Yes ☒ No
Wi-Fi
2.4 GHz
802.11b
802.11g
802.11n (HT20)
5 GHz
802.11a
802.11n (HT20)
802.11n (HT40)
802.11ac (VHT20)
802.11ac (VHT40)
802.11ac (VHT80)
Does this device support bands 5.60 ~ 5.65 GHz? ☒ Yes ☐ No
99.6% (802.11b) 1
97.3% (802.11g) 1
97.1% (802.11n HT20) 1
97.3% (802.11a) 1
97.1% (802.11n HT20) 1
94.7% (802.11n HT40) 1
97.1% (802.11ac VHT20) 1
94.7% (802.11ac VHT40) 1
89.6% (802.11ac VHT80) 1
Does this device support Band gap channel? ☒ Yes ☐ No
Bluetooth
2.4 GHz
Version 5.0 LE
76.7% (DH5)
Notes:
1.
Duty cycle for Wi-Fi is referenced from the DTS and UNII report.
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Report No.: 4788364119-S1V3
6.3.
Issue Date: 3/29/2018
Nominal and Maximum Output Power
KDB 447498 sec.4.1. at the maximum rated output power and within the tune-up tolerance range specified for the
product, but not more than 2 dB lower than the maximum tune-up tolerance limit
RF Air interface
GSM850
GSM1900
Mode
Time
Slots
Max. RF Output Pow er (dBm)
Voice/GPRS
Tune-up Limit
33.5
Frame Pw r
24.5
GPRS
31.0
25.0
GPRS
29.5
25.2
GPRS
28.5
25.5
EGPRS
28.5
19.5
EGPRS
26.5
20.5
EGPRS
25.0
20.7
EGPRS
23.5
20.5
Voice/GPRS
31.0
22.0
GPRS
28.5
22.5
GPRS
27.0
22.7
GPRS
25.0
22.0
EGPRS
27.0
18.0
EGPRS
24.5
18.5
EGPRS
23.5
19.2
EGPRS
22.0
19.0
RF Air interface
Mode
R99
Max. RF Output Pow er
(dBm)
24.0
W-CDMA
Band II
HSDPA
23.5
HSUPA
24.0
DC-HSDPA
22.5
R99
24.0
HSDPA
23.0
HSUPA
24.0
DC-HSDPA
22.5
R99
24.5
HSDPA
23.5
HSUPA
24.0
DC-HSDPA
22.5
W-CDMA
Band IV
W-CDMA
Band V
LTE Band 2
QPSK
Max. RF Output Pow er
(dBm)
24.0
LTE Band 4*
QPSK
24.0
LTE Band 5
QPSK
24.0
LTE Band 7
QPSK
24.5
LTE Band 12
QPSK
24.0
LTE Band 13
QPSK
24.0
LTE Band 17*
QPSK
24.0
LTE Band 38*
QPSK
24.0
LTE Band 41
QPSK
24.0
LTE Band 66
QPSK
24.0
RF Air interface
Mode
Notes:
1.
2.
3.
4.
LTE QPSK configuration has the highest maximum average output power per 3GPP standard.
LTE Band 4 (Frequency range: 1710-1755 MHz) is covered by LTE Band 66 (Frequency range: 1710-1780 MHz) due to overlapping
frequency range, same maximum tune-up limit and same channel bandwidth.
LTE Band 17 (Frequency range: 704-716 MHz) is covered by LTE Band 12 (Frequency range: 699-716 MHz) due to overlapping frequency
range, same maximum tune-up limit and same channel bandwidth.
LTE Band 38 (Frequency range: 2570-2620 MHz) is covered by LTE Band 41 (Frequency range: 2496-2690 MHz) due to overlapping
frequency range, same maximum tune-up limit and same channel bandwidth.
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Report No.: 4788364119-S1V3
RF Air interface
WiFi 2.4 GHz
(Ch. 1)
WiFi 2.4 GHz
(Ch. 2~Ch. 11)
WiFi 2.4 GHz
(Ch. 12)
WiFi 2.4 GHz
(Ch. 13)
WiFi 5 GHz
Issue Date: 3/29/2018
Mode
Max. RF Output Pow er (dBm)
802.11b
802.11g
802.11n HT20
802.11b
17.5
15.5
14.5
17.5
Reduced RF Output Pow er (dBm)
14.5
802.11g
15.5
802.11n HT20
15.5
802.11b
16.5
14.5
802.11g
12.5
12.5
802.11n HT20
12.5
12.5
802.11b
15.5
14.5
802.11g
9.5
9.5
802.11n HT20
6.5
6.5
802.11a
15.5
802.11n HT20
15.5
802.11n HT40
13.5
802.11ac VHT20
15.5
802.11ac VHT40
13.5
802.11ac VHT80
11.5
Bluetooth
12.5
11.5
8.5
Note(s):
This device uses an independent fixed level power reduction mechanism for WLAN operations during voice or VoIP held to ear
scenarios. Per FCC Guidance, the held-to-ear exposure conditions were evaluated at reduced power according to the head
SAR positions described in IEEE 1528-2013. Detailed descriptions of the power reduction mechanism are included in the
operational description.
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Report No.: 4788364119-S1V3
6.4.
Issue Date: 3/29/2018
General LTE SAR Test and Reporting Considerations
Item
Frequency range, Channel Bandwidth,
Numbers and Frequencies
Description
Band 2
Low
Mid
High
20 MHz
18700
/1860
18900/
1880
19100/
1900
Band 4
Low
Mid
High
20 MHz
20050/
1720
20175/
1732.5
20300/
1745
Band 5
20 MHz
Low
Mid
High
Band 7
Low
Mid
High
20 MHz
20850
2510
21100
2535
21350
2560
Band 12
20 MHz
Low
Mid
High
Band 13
20 MHz
Low
Mid
High
Frequency range: 1850 - 1910 MHz
Channel Bandwidth
15 MHz
10 MHz
5 MHz
3 MHz
18675/
18650/
18625/
18615/
1857.5
1855
1852.5
1851.5
18900/
18900/
18900/
18900/
1880
1880
1880
1880
19125/
19150/
19175/
19185/
1902.5
1905
1907.5
1908.5
Frequency range: 1710 - 1755 MHz
Channel Bandwidth
15 MHz
10 MHz
5 MHz
3 MHz
20025/
20000/
19975/
19965/
1717.5
1715
1712.5
1711.5
20175/
20175/
20175/
20175/
1732.5
1732.5
1732.5
1732.5
20325/
20350/
20375/
20385/
1747.5
1750
1752.5
1753.5
Frequency range: 824 - 849 MHz
Channel Bandwidth
15 MHz
10 MHz
5 MHz
3 MHz
20450/
20425/
20415/
829
826.5
825.5
20525/
20525/
20525/
836.5
836.5
836.5
20600/
20625/
20635/
844
846.5
847.5
Frequency range: 2500 - 2570 MHz
Channel Bandwidth
15 MHz
10 MHz
5 MHz
3 MHz
20825
20800
20775
2507.5
2505
2502.5
21100
21100
21100
2535
2535
2535
21375
21400
21425
2562.5
2565
2567.5
Frequency range: 699 – 716 MHz
Channel Bandwidth
15 MHz
10 MHz
5 MHz
3 MHz
23060/
23035/
23025/
704
701.5
700.5
23095/
23095/
23095/
707.5
707.5
707.5
23130/
23155/
23165/
711
713.5
714.5
Frequency range: 777 - 787 MHz
Channel Bandwidth
15 MHz
10 MHz
5 MHz
3 MHz
23205/
779.5
23230/
23230/
782
782
23255/
784.5
1.4 MHz
18607/
1850.7
18900/
1880
19193/
1909.3
1.4 MHz
19957/
1710.7
20175/
1732.5
20393/
1754.3
1.4 MHz
20407/
824.7
20525/
836.5
20643/
848.3
1.4 MHz
1.4 MHz
23017/
699.7
23095/
707.5
23173/
715.3
1.4 MHz
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General LTE SAR Test and Reporting Considerations (Continued)
Frequency range, Channel Bandwidth,
Numbers and Frequencies
Band 17
20 MHz
Low
Mid
High
Band 38
Low
Mid
High
20 MHz
37850/
2580
38000/
2595
38150
2610
Band 41
20 MHz
Low
Low-Mid
Mid
Mid-High
High
Band 66
Low
Mid
High
LTE transmitter and antenna
implementation
20 MHz
132072/
1720
132322/
1745
132572/
1770
Frequency range: 704 - 716 MHz
Channel Bandwidth
15 MHz
10 MHz
5 MHz
3 MHz
23780/
23755/
709
706.5
23790/
23790/
710
710
23800/
23825/
711
713.5
Frequency range: 2570 - 2620 MHz
Channel Bandwidth
15 MHz
10 MHz
5 MHz
3 MHz
37825/
37800/
37775/
2577.5
2575
2572.5
38000/
38000/
38000/
2595
2595
2595
38175/
38200/
38225/
2612.5
2615
2617.5
Frequency range: 2496 - 2690 MHz
Channel Bandwidth
15 MHz
10 MHz
5 MHz
3 MHz
39750 / 2506.0
40185 / 2549.5
40620 / 2593.0
41055 / 2636.5
41490 / 2680.0
Frequency range: 1710 - 1780 MHz
Channel Bandwidth
15 MHz
10 MHz
5 MHz
3 MHz
132047/
132022/
131997/
131987/
1717.5
1715
1712.5
1711.5
132322/
132322/
132322/
132322/
1745
1745
1745
1745
132597/
132622/
132647/
132657/
1772.5
1775
1777.5
1778.5
1.4 MHz
1.4 MHz
1.4 MHz
1.4 MHz
131979/
1710.7
132322/
1745
132665/
1779.3
Refer to Appendix A.
Maximum power reduction (MPR)
MPR Built-in by design
The manufacturer MPR values are always within the 3GPP maximum MPR allowance but may
not follow the default MPR values.
A-MPR (additional MPR) was disabled during SAR testing
Power reduction
No
Spectrum plots for RB configurations
A properly configured base station simulator was used for the SAR and power measurements;
therefore, spectrum plots for each RB allocation and offset configuration are not included in the
SAR report.
Notes:
1.
SAR Testing for LTE was performed with the same number of RB and RB offsets transmitting on all TTI frames (maximum TTI).
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Report No.: 4788364119-S1V3
6.5.
Issue Date: 3/29/2018
Power Reduction by Proximity Sensing
6.5.1. Proximity Sensor Triggering Distance (KDB 616217 §6.2)
Front of the DUT was placed directly below the flat phantom. The DUT was moved toward the phantom
in accordance with the steps outlined in KDB 616217 §6.2 to determine the trigger distance for enabling
power reduction. The DUT was moved away from the phantom to determine the trigger distance for
resuming full power.
The DUT featured a visual indicator on its display that showed the status of the proximity sensor
(Triggered or not triggered). This was used to determine the status of the sensor during the proximity
sensor assessment as monitoring the output power directly was not practical without affecting the
measurement.
It was confirmed separately that the output power was altered according to the proximity sensor status
indication. This was achieved by observing the proximity sensor status at the same time as monitoring
the conducted power. Section 9 contains both the full and reduced conducted power measurements.
Proximity Sensor Trigger Distance Assessment
KDB 616217 §6.2, Front
LEGEND
Direction of DUT travel for determination of power reduction triggering point
Direction of DUT travel for determination of full power resumption triggering point
Summary of Trigger Distances
Tissue
simulating
liquid
2450 Head
5000 Head
Trigger distance - Front
Moving
Moving
toward
from
phantom
phantom
70 mm
79 mm
70 mm
79 mm
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Proximity Sensor Triggering Distance Measurement Results
WLAN 2.4 GHz and 5GHz
Front, DUT Moving Toward (Trigger) from the Phantom
Distance
2.4 GHz 802.11b
2.4 GHz 802.11g
2.4 GHz 802.11n
5 GHz 802.11a
5 GHz 802.11n HT20
5 GHz 802.11n HT40
5 GHz 802.11ac HT20
5 GHz 802.11ac HT40
5 GHz 802.11ac HT80
66
13.7
13.9
14.2
11.8
11.9
11.6
12.0
11.4
10.8
Distance to DUT vs. Output Power in dBm
68
69
70
73
13.7
13.4
13.8
17.3
14.0
14.0
14.1
15.3
14.0
14.0
14.4
15.2
11.7
11.6
11.9
15.0
11.6
11.7
11.9
15.2
11.4
11.6
11.4
13.2
12.0
12.0
12.0
15.2
11.5
11.5
11.5
13.0
10.7
10.5
10.7
11.1
67
13.6
14.0
14.0
11.8
11.8
11.3
12.0
11.3
10.6
76
17.1
15.1
15.2
15.3
15.3
13.3
15.2
13.1
11.2
79
17.2
15.1
15.3
15.2
15.1
13.1
15.3
13.2
11.2
82
17.1
15.2
15.2
15.1
15.1
13.1
15.2
13.1
11.0
85
17.0
15.2
15.2
15.1
15.0
13.0
15.3
13.1
11.2
WLAN (2.4GHz and 5GHz)
18
2.4 GHz 802.11b
RF Output Power
17
2.4 GHz 802.11g
16
15
2.4 GHz 802.11n
14
5 GHz 802.11a
13
5 GHz 802.11n HT20
12
5 GHz 802.11n HT40
11
5 GHz 802.11ac HT20
10
66
67
68
69
70
73
Distance in mm
76
79
82
85
5 GHz 802.11ac HT40
5 GHz 802.11ac HT80
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Front, DUT Moving Away (Release) from the Phantom
Distance (mm)
2.4 GHz 802.11b
2.4 GHz 802.11g
2.4 GHz 802.11n
5 GHz 802.11a
5 GHz 802.11n HT20
5 GHz 802.11n HT40
5 GHz 802.11ac HT20
5 GHz 802.11ac HT40
5 GHz 802.11ac HT80
75
13.9
14.1
14.4
12.1
12.1
11.7
12.2
11.6
10.9
Distance to DUT vs. Output Power in dBm
77
87
79
80
13.8
13.7
13.7
17.2
14.0
13.9
13.9
15.3
14.1
14.3
14.3
15.3
11.9
12.1
12.1
15.1
11.8
12.0
12.0
15.3
11.5
11.4
11.5
13.1
12.0
11.9
12.0
15.3
11.3
11.3
11.5
13.1
10.8
10.7
10.7
11.3
76
13.6
14.1
14.1
11.9
11.9
11.6
12.0
11.6
10.8
81
17.1
15.1
15.3
15.1
15.3
13.2
15.1
13.1
11.0
82
17.2
15.2
15.0
15.1
15.1
13.1
15.1
13.2
11.2
83
17.1
15.1
15.1
15.2
15.0
13.0
15.3
13.3
11.3
84
17.1
15.3
15.1
15.1
15.3
13.1
15.3
13.1
11.0
RF Output Power
WLAN (2.4GHz and 5GHz)
18
17
16
15
14
13
12
11
10
2.4 GHz 802.11b
2.4 GHz 802.11g
2.4 GHz 802.11n
5 GHz 802.11a
5 GHz 802.11n HT20
5 GHz 802.11n HT40
75
76
77
87
79
80
Distance in mm
81
82
83
84
5 GHz 802.11ac HT20
5 GHz 802.11ac HT40
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Report No.: 4788364119-S1V3
Issue Date: 3/29/2018
6.5.2. Tilt angle of the front side
Proximity sensor is triggering at 70mm on front side according to KDB 616217 Sec 6.2.
For tilt angle (15 degree) of the front side, Power is reduced at 70mm according to operate Proximity
sensor. So All head exposure tests are evaluated using reduced power.
Triggering distance
15 degree
Summary of Tilt Angle of the front side to Proximity Sensor Triggering
Band
(MHz)
Minimum trigger
distance measured
according to KDB
616217 §6.2
Minimum
distance at which
power reduction
was maintained
at +15°
2450
70 mm
5000
70 mm
Power reduction status
0°
15°
70 mm
On
On
70 mm
On
On
6.5.3. Resulting test positions for SAR measurements
Wireless
technologies
DUT Position
WLAN
Front
§6.2
Triggering
Distance
70 mm
§6.3
Coverage
N/A
§6.4
Tilt Angle at
15 degree
70 mm
Worst case
distance for SAR
69 mm
Notes:
1. Worst case distance for SAR is not considered for body exposure condition. Because Power reduction is
applied only voice or VoIP held to ear scenarios.
2. This proximity sensor is only operating in Head exposure condition. So tilt (15 degree) position of Head
exposure was additional verified.
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Report No.: 4788364119-S1V3
Issue Date: 3/29/2018
7. RF Exposure Conditions (Test Configurations)
Refer to Appendix A for the specific details of the antenna-to-antenna and antenna-to-edge(s) distances.
Wireless
technologies
RF Exposure
Conditions
DUT-to-User
Separation
Head
0 mm
Body
15 mm
Hotspot
10 mm
Head
0 mm
Body
15 mm
Hotspot /
Wi-Fi Direct
10 mm
WWAN
WLAN
Phablet_10g
0 mm
Test
Position
Left Touch
Left Tilt (15°)
Right Touch
Right Tilt (15°)
Rear
Front
Rear
Front
Edge 1 (Top)
Edge 2 (Right)
Edge 3 (Bottom)
Edge 4 (Left)
Left Touch
Left Tilt (15°)
Right Touch
Right Tilt (15°)
Rear
Front
Rear
Front
Edge 1 (Top)
Edge 2 (Right)
Edge 3 (Bottom)
Edge 4 (Left)
Rear
Front
Edge 1 (Top)
Edge 2 (Right)
Edge 3 (Bottom)
Edge 4 (Left)
Antenna-toedge/surface
N/A
N/A
N/A
N/A
N/A
N/A
< 25 mm
< 25 mm
> 25 mm
> 25 mm
< 25 mm
< 25 mm
N/A
N/A
N/A
N/A
N/A
N/A
< 25 mm
< 25 mm
< 25 mm
< 25 mm
> 25 mm
> 25 mm
< 25 mm
< 25 mm
< 25 mm
< 25 mm
> 25 mm
> 25 mm
SAR
Required
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
No
No
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
No
No
Yes
Yes
Yes
Yes
No
No
Note
Notes:
1.
2.
3.
SAR is not required because the distance from the antenna to the edge is > 25 mm as per KDB 941225 D06 Hot Spot SAR.
When Hotspot Mode is not supported, 10-g Phablet SAR is required for all surfaces and edges with an antenna located at ≤
25 mm from that surface or edge in direct contact with a flat phantom, to address interactive hand use exposure conditions.
When hotspot mode applies, 10-g Phablet SAR is required only for the surfaces and edges with hotspot mode 1-g reported
SAR > 1.2 W/kg. When hotspot mode does not apply, 10-g Phablet SAR is required for all surfaces and Edges within 25mm
of the antenna.
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Report No.: 4788364119-S1V3
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8. Dielectric Property Measurements & System Check
8.1.
Dielectric Property Measurements
The temperature of the tissue-equivalent medium used during measurement must also be within 18C to 25C and
within ± 2C of the temperature when the tissue parameters are characterized.
The dielectric parameters must be measured before the tissue-equivalent medium is used in a series of SAR
measurements. The parameters should be re-measured after each 3 – 4 days of use; or earlier if the dielectric
parameters can become out of tolerance; for example, when the parameters are marginal at the beginning of the
measurement series.
Tissue dielectric parameters were measured at the low, middle and high frequency of each operating frequency
range of the test device.
Tissue Dielectric Parameters
FCC KDB 865664 D01 SAR Measurement 100 MHz to 6 GHz
Target Frequency (MHz)
150
300
450
835
900
915
1450
1610
1800 – 2000
2450
3000
5000
5100
5200
5300
5400
5500
5600
5700
5800
Head
er
52.3
45.3
43.5
41.5
41.5
41.5
40.5
40.3
40.0
39.2
38.5
36.2
36.1
36.0
35.9
35.8
35.6
35.5
35.4
35.3
Body
s (S/m)
0.76
0.87
0.87
0.90
0.97
0.98
1.20
1.29
1.40
1.80
2.40
4.45
4.55
4.66
4.76
4.86
4.96
5.07
5.17
5.27
er
61.9
58.2
56.7
55.2
55.0
55.0
54.0
53.8
53.3
52.7
52.0
49.3
49.1
49.0
48.9
48.7
48.6
48.5
48.3
48.2
s (S/m)
0.80
0.92
0.94
0.97
1.05
1.06
1.30
1.40
1.52
1.95
2.73
5.07
5.18
5.30
5.42
5.53
5.65
5.77
5.88
6.00
IEEE Std 1528-2013
Refer to Table 3 within the IEEE Std 1528-2013
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Report No.: 4788364119-S1V3
Issue Date: 3/29/2018
Dielectric Property Measurements Results:
SAR 1 Room
Date
Body 2450
02-26-2018
Body 2400
Body 2480
Body 2600
02-26-2018
Body 2500
Body 2700
Body 750
03-01-2018
Body 700
Body 790
Body 2600
03-01-2018
Body 2500
Body 2700
Head 5180
Head 5300
03-05-2018
Head 5600
Head 5800
Head 5825
Body 1750
03-15-2018
Body 1710
Body 1755
Body 1900
03-15-2018
Body 1850
Body 1910
Head 5180
Head 5300
03-16-2018
Liquid Parameters
Measured
Target
Delta (%)
Limit ±(%)
e'
52.4700
Relative Permittivity (єr):
52.47
52.70
-0.44
e"
14.8600
2.02
1.95
3.81
e'
52.5600
Conductivity (σ):
Relative Permittivity (єr):
52.56
52.77
-0.40
e"
14.7600
1.90
3.78
52.4000
Conductivity (σ):
Relative Permittivity (єr):
1.97
e'
52.40
52.66
-0.50
e"
14.9500
1.99
3.48
52.0800
Conductivity (σ):
Relative Permittivity (єr):
2.06
e'
52.08
52.51
-0.82
e"
15.2900
2.16
2.30
52.3600
Conductivity (σ):
Relative Permittivity (єr):
2.21
e'
52.36
52.64
-0.53
e"
15.0000
2.02
3.21
51.7700
Conductivity (σ):
Relative Permittivity (єr):
2.09
e'
51.77
52.38
-1.17
e"
15.5400
2.30
1.38
57.3700
Conductivity (σ):
Relative Permittivity (єr):
2.33
e'
57.37
55.55
3.28
e"
23.2500
0.96
0.68
57.8200
Conductivity (σ):
Relative Permittivity (єr):
0.97
e'
57.82
55.74
3.73
e"
23.7300
0.96
-3.71
56.9800
Conductivity (σ):
Relative Permittivity (єr):
0.92
e'
56.98
55.39
2.87
e"
22.8900
0.97
4.07
51.5000
Conductivity (σ):
Relative Permittivity (єr):
1.01
e'
51.50
52.51
-1.92
e"
14.8600
2.16
-0.58
51.8000
Conductivity (σ):
Relative Permittivity (єr):
2.15
e'
51.80
52.64
-1.59
e"
14.6200
2.02
0.60
51.2100
Conductivity (σ):
Relative Permittivity (єr):
2.03
e'
51.21
52.38
-2.24
e"
15.0700
2.30
-1.69
36.0600
Conductivity (σ):
Relative Permittivity (єr):
2.26
e'
36.06
36.01
0.13
e"
15.7400
4.63
-2.10
35.8800
Conductivity (σ):
Relative Permittivity (єr):
4.53
e'
35.88
35.88
0.01
e"
15.7800
4.75
-2.17
35.3000
Conductivity (σ):
Relative Permittivity (єr):
4.65
e'
35.30
35.53
-0.66
e"
15.9700
5.06
-1.73
35.0000
Conductivity (σ):
Relative Permittivity (єr):
4.97
e'
35.00
35.30
-0.85
e"
16.0200
5.27
-1.97
34.9300
Conductivity (σ):
Relative Permittivity (єr):
5.17
e'
34.93
35.30
-1.05
e"
16.0900
5.27
-1.11
54.1900
Conductivity (σ):
Relative Permittivity (єr):
5.21
e'
54.19
53.44
1.40
e"
14.7800
1.49
-3.23
54.3600
Conductivity (σ):
Relative Permittivity (єr):
1.44
e'
54.36
53.54
1.52
e"
14.7900
1.46
-3.78
54.1700
Conductivity (σ):
Relative Permittivity (єr):
1.41
e'
54.17
53.43
1.39
e"
14.7800
1.49
-3.15
53.8000
Conductivity (σ):
Relative Permittivity (єr):
1.44
e'
53.80
53.30
0.94
e"
14.7800
1.52
2.73
53.9100
Conductivity (σ):
Relative Permittivity (єr):
1.56
e'
53.91
53.30
1.14
e"
14.7600
1.52
-0.11
53.7800
Conductivity (σ):
Relative Permittivity (єr):
1.52
e'
53.78
53.30
0.90
e"
14.7900
1.52
3.34
36.5500
Conductivity (σ):
Relative Permittivity (єr):
1.57
e'
36.55
36.01
1.49
e"
15.6800
4.63
-2.47
36.3200
Conductivity (σ):
Relative Permittivity (єr):
4.52
e'
36.32
35.88
1.24
e"
15.7100
4.75
-2.60
35.9400
Conductivity (σ):
Relative Permittivity (єr):
4.63
e'
35.94
35.53
1.14
e"
15.8800
5.06
-2.28
35.6900
Conductivity (σ):
Relative Permittivity (єr):
4.94
e'
35.69
35.30
1.10
e"
15.9900
5.27
-2.15
35.6200
Conductivity (σ):
Relative Permittivity (єr):
5.16
e'
35.62
35.30
0.91
e"
15.9900
Conductivity (σ):
5.18
5.27
-1.73
Freq. (MHz)
Head 5600
Head 5800
Head 5825
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Report No.: 4788364119-S1V3
Issue Date: 3/29/2018
SAR 1 Room (Continued)
Date
Body 2450
03-16-2018
Body 2400
Body 2480
Body 2600
03-16-2018
Body 2500
Body 2700
Head 5180
Head 5300
03-20-2018
Liquid Parameters
Measured
Target
Delta (%)
e'
51.3100
Relative Permittivity (єr):
51.31
52.70
-2.64
e"
14.4000
Conductivity (σ):
Relative Permittivity (єr):
1.96
1.95
0.60
51.41
52.77
-2.58
1.91
1.90
0.54
51.24
52.66
-2.70
2.00
1.99
0.16
50.92
52.51
-3.03
2.14
2.16
-0.85
51.19
52.64
-2.75
2.02
2.02
-0.09
50.56
52.38
-3.48
2.26
2.30
-1.69
37.17
36.01
3.21
4.53
4.63
-2.10
36.99
35.88
3.10
4.66
4.75
-2.04
36.56
35.53
2.89
4.97
5.06
-1.85
36.29
Freq. (MHz)
Head 5600
Head 5800
Head 5825
e'
51.4100
e"
14.3000
e'
51.2400
e"
14.4700
e'
50.9200
e"
14.8200
e'
51.1900
e"
14.5200
e'
50.5600
e"
15.0700
e'
37.1700
e"
15.7400
e'
36.9900
e"
15.8000
e'
36.5600
e"
15.9500
Conductivity (σ):
Relative Permittivity (єr):
Conductivity (σ):
Relative Permittivity (єr):
Conductivity (σ):
Relative Permittivity (єr):
Conductivity (σ):
Relative Permittivity (єr):
Conductivity (σ):
Relative Permittivity (єr):
Conductivity (σ):
Relative Permittivity (єr):
Conductivity (σ):
Relative Permittivity (єr):
Conductivity (σ):
Relative Permittivity (єr):
Limit ±(%)
35.30
2.80
5.18
5.27
-1.66
36.2500
Conductivity (σ):
Relative Permittivity (єr):
36.25
35.30
2.69
16.0800
Conductivity (σ):
5.21
5.27
-1.17
e'
36.2900
e"
16.0700
e'
e"
Page 24 of 76
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Report No.: 4788364119-S1V3
Issue Date: 3/29/2018
SAR 2 Room
Date
Head 2450
02-26-2018
Head 2400
Head 2480
Head 2600
02-26-2018
Head 2500
Head 2700
Head 835
03-01-2018
Head 820
Head 850
Body 835
03-01-2018
Body 820
Body 850
Head 2600
03-01-2018
Head 2500
Head 2700
Body 1750
03-02-2018
Body 1710
Body 1755
Head 835
03-15-2018
Head 820
Head 850
Body 835
03-15-2018
Body 820
Body 850
Head 2450
03-15-2018
Head 2400
Head 2480
Head 2600
03-15-2018
Liquid Parameters
Measured
Target
Delta (%)
Limit ±(%)
e'
39.3000
Relative Permittivity (єr):
39.30
39.20
0.26
e"
13.6400
1.86
1.80
3.23
e'
39.4600
Conductivity (σ):
Relative Permittivity (єr):
39.46
39.30
0.42
e"
13.5500
1.75
3.23
39.2200
Conductivity (σ):
Relative Permittivity (єr):
1.81
e'
39.22
39.16
0.15
e"
13.7300
1.83
3.32
38.8100
Conductivity (σ):
Relative Permittivity (єr):
1.89
e'
38.81
39.01
-0.51
e"
14.0300
1.96
3.37
39.1500
Conductivity (σ):
Relative Permittivity (єr):
2.03
e'
39.15
39.14
0.03
e"
13.7800
1.85
3.32
38.4500
Conductivity (σ):
Relative Permittivity (єr):
1.92
e'
38.45
38.88
-1.12
e"
14.2800
2.07
3.55
42.8400
Conductivity (σ):
Relative Permittivity (єr):
2.14
e'
42.84
41.50
3.23
e"
19.7500
0.90
1.88
43.0200
Conductivity (σ):
Relative Permittivity (єr):
0.92
e'
43.02
41.60
3.41
e"
19.8000
0.90
0.48
42.6700
Conductivity (σ):
Relative Permittivity (єr):
0.90
e'
42.67
41.50
2.82
e"
19.6900
0.92
1.71
53.8000
Conductivity (σ):
Relative Permittivity (єr):
0.93
e'
53.80
55.20
-2.54
e"
21.3900
0.97
2.38
53.9500
Conductivity (σ):
Relative Permittivity (єr):
0.99
e'
53.95
55.28
-2.40
e"
21.4600
0.97
1.03
53.6700
Conductivity (σ):
Relative Permittivity (єr):
0.98
e'
53.67
55.16
-2.70
e"
21.3100
0.99
2.03
38.3000
Conductivity (σ):
Relative Permittivity (єr):
1.01
e'
38.30
39.01
-1.82
e"
14.0500
1.96
3.52
38.6300
Conductivity (σ):
Relative Permittivity (єr):
2.03
e'
38.63
39.14
-1.30
e"
13.8100
1.85
3.54
37.9200
Conductivity (σ):
Relative Permittivity (єr):
1.92
e'
37.92
38.88
-2.48
e"
14.2900
2.07
3.63
52.6500
Conductivity (σ):
Relative Permittivity (єr):
2.15
e'
52.65
53.44
-1.48
e"
15.2400
1.49
-0.22
52.8300
Conductivity (σ):
Relative Permittivity (єr):
1.48
e'
52.83
53.54
-1.33
e"
15.1400
1.46
-1.51
52.6300
Conductivity (σ):
Relative Permittivity (єr):
1.44
e'
52.63
53.43
-1.49
e"
15.2500
1.49
-0.07
42.9300
Conductivity (σ):
Relative Permittivity (єr):
1.49
e'
42.93
41.50
3.45
e"
19.3500
0.90
-0.18
43.0700
Conductivity (σ):
Relative Permittivity (єr):
0.90
e'
43.07
41.60
3.53
e"
19.4100
0.90
-1.50
42.8000
Conductivity (σ):
Relative Permittivity (єr):
0.88
e'
42.80
41.50
3.13
e"
19.3300
0.92
-0.15
55.0800
Conductivity (σ):
Relative Permittivity (єr):
0.91
e'
55.08
55.20
-0.22
e"
21.0600
0.97
0.80
55.1900
Conductivity (σ):
Relative Permittivity (єr):
0.98
e'
55.19
55.28
-0.16
e"
21.1400
0.97
-0.47
55.0000
Conductivity (σ):
Relative Permittivity (єr):
0.96
e'
55.00
55.16
-0.28
e"
21.0200
0.99
0.64
38.3400
Conductivity (σ):
Relative Permittivity (єr):
0.99
e'
38.34
39.20
-2.19
e"
13.8300
1.80
4.67
38.5300
Conductivity (σ):
Relative Permittivity (єr):
1.88
e'
38.53
39.30
-1.95
e"
13.7200
1.75
4.52
38.2200
Conductivity (σ):
Relative Permittivity (єr):
1.83
e'
38.22
39.16
-2.41
e"
13.9100
1.83
4.68
37.7500
Conductivity (σ):
Relative Permittivity (єr):
1.92
e'
37.75
39.01
-3.23
e"
14.1800
1.96
4.48
38.1500
Conductivity (σ):
Relative Permittivity (єr):
2.05
e'
38.15
39.14
-2.52
e"
13.9500
1.85
4.59
37.3700
Conductivity (σ):
Relative Permittivity (єr):
1.94
e'
37.37
38.88
-3.90
e"
14.3700
Conductivity (σ):
2.16
2.07
4.21
Freq. (MHz)
Head 2500
Head 2700
Page 25 of 76
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Report No.: 4788364119-S1V3
Issue Date: 3/29/2018
SAR 3 Room
Date
Body 1900
02-26-2018
Body 1850
Body 1910
Head 1900
02-28-2018
Head 1850
Head 1910
Body 1900
02-28-2018
Body 1850
Body 1910
Head 750
03-01-2018
Head 700
Head 790
Head 1750
03-02-2018
Head 1710
Head 1755
Body 5250
Body 5260
03-05-2018
Body 5600
Body 5750
Body 5825
Body 5250
Body 5260
03-08-2018
Body 5600
Body 5750
Body 5825
Body 2450
03-08-2018
Liquid Parameters
Measured
Target
Delta (%)
Limit ±(%)
e'
54.6900
Relative Permittivity (є r):
54.69
53.30
2.61
e"
14.8600
Conductivity (σ):
1.57
1.52
3.28
e'
54.7600
Relative Permittivity (є r):
54.76
53.30
2.74
Freq. (MHz)
Body 2400
Body 2480
e"
14.7500
Conductivity (σ):
1.52
1.52
-0.18
e'
54.6600
Relative Permittivity (є r):
54.66
53.30
2.55
e"
14.8800
Conductivity (σ):
1.58
1.52
3.97
e'
39.8000
Relative Permittivity (є r):
39.80
40.00
-0.50
e"
13.7600
Conductivity (σ):
1.45
1.40
3.83
e'
39.9700
Relative Permittivity (є r):
39.97
40.00
-0.08
e"
13.6700
Conductivity (σ):
1.41
1.40
0.44
e'
39.7700
Relative Permittivity (є r):
39.77
40.00
-0.57
e"
13.7800
Conductivity (σ):
1.46
1.40
4.53
e'
51.8100
Relative Permittivity (є r):
51.81
53.30
-2.80
e"
14.7300
Conductivity (σ):
1.56
1.52
2.38
e'
51.8800
Relative Permittivity (є r):
51.88
53.30
-2.66
e"
14.6500
Conductivity (σ):
1.51
1.52
-0.86
e'
51.8000
Relative Permittivity (є r):
51.80
53.30
-2.81
e"
14.7600
Conductivity (σ):
1.57
1.52
3.13
e'
42.2300
Relative Permittivity (є r):
42.23
41.96
0.64
e"
21.4300
Conductivity (σ):
0.89
0.89
0.07
e'
42.9200
Relative Permittivity (є r):
42.92
42.22
1.66
e"
21.7300
Conductivity (σ):
0.85
0.89
-4.89
e'
41.6800
Relative Permittivity (є r):
41.68
41.76
-0.18
e"
21.1700
Conductivity (σ):
0.93
0.90
3.77
e'
38.6400
Relative Permittivity (є r):
38.64
40.08
-3.60
e"
13.9200
Conductivity (σ):
1.35
1.37
-1.06
e'
38.8200
Relative Permittivity (є r):
38.82
40.15
-3.30
e"
13.8600
Conductivity (σ):
1.32
1.35
-2.12
e'
38.6200
Relative Permittivity (є r):
38.62
40.08
-3.64
e"
13.9200
Conductivity (σ):
1.36
1.37
-0.98
e'
50.1600
Relative Permittivity (є r):
50.16
48.95
2.47
e"
18.0100
Conductivity (σ):
5.26
5.35
-1.79
e'
50.1600
Relative Permittivity (є r):
50.16
48.94
2.50
e"
18.0400
Conductivity (σ):
5.28
5.36
-1.65
e'
49.6900
Relative Permittivity (є r):
49.69
48.48
2.50
e"
18.3300
Conductivity (σ):
5.71
5.76
-0.93
e'
49.5400
Relative Permittivity (є r):
49.54
48.27
2.62
e"
18.4500
Conductivity (σ):
5.90
5.94
-0.62
e'
49.3700
Relative Permittivity (є r):
49.37
48.20
2.43
e"
18.5600
Conductivity (σ):
6.01
6.00
0.19
e'
48.7700
Relative Permittivity (є r):
48.77
48.95
-0.37
e"
18.8300
Conductivity (σ):
5.50
5.35
2.69
e'
48.7500
Relative Permittivity (є r):
48.75
48.94
-0.38
e"
18.8500
Conductivity (σ):
5.51
5.36
2.77
e'
48.1900
Relative Permittivity (є r):
48.19
48.48
-0.59
e"
19.1500
Conductivity (σ):
5.96
5.76
3.50
e'
47.9600
Relative Permittivity (є r):
47.96
48.27
-0.65
e"
19.3100
Conductivity (σ):
6.17
5.94
4.01
e'
47.8300
Relative Permittivity (є r):
47.83
48.20
-0.77
e"
19.3800
Conductivity (σ):
6.28
6.00
4.62
e'
54.1600
Relative Permittivity (є r):
54.16
52.70
2.77
e"
14.1000
Conductivity (σ):
1.92
1.95
-1.50
e'
54.2000
Relative Permittivity (є r):
54.20
52.77
2.70
e"
13.9900
Conductivity (σ):
1.87
1.90
-1.64
e'
54.1000
Relative Permittivity (є r):
54.10
52.66
2.73
e"
14.2000
Conductivity (σ):
1.96
1.99
-1.71
Page 26 of 76
UL Korea, Ltd. Suwon Laboratory
Doc. No.: 1.0
This report shall not be reproduced except in full, without the written approval of UL Korea, Ltd.
Report No.: 4788364119-S1V3
Issue Date: 3/29/2018
SAR 3 Room (Continued)
Date
Head 750
03-14-2018
Head 700
Head 790
Body 750
03-14-2018
Body 700
Body 790
Body 5250
Body 5260
03-15-2018
Body 5600
Body 5750
Body 5825
Head 1750
03-15-2018
Head 1710
Head 1755
Head 1900
03-15-2018
Liquid Parameters
Measured
Target
Delta (%)
Limit ±(%)
e'
42.0200
Relative Permittivity (є r):
42.02
41.96
0.14
e"
21.5600
Conductivity (σ):
0.90
0.89
0.67
e'
42.7200
Relative Permittivity (є r):
42.72
42.22
1.19
Freq. (MHz)
Head 1850
Head 1910
e"
21.9200
Conductivity (σ):
0.85
0.89
-4.05
e'
41.4700
Relative Permittivity (є r):
41.47
41.76
-0.69
e"
21.2700
Conductivity (σ):
0.93
0.90
4.26
e'
54.0800
Relative Permittivity (є r):
54.08
55.55
-2.64
e"
23.1000
Conductivity (σ):
0.96
0.96
0.03
e'
54.6300
Relative Permittivity (є r):
54.63
55.74
-1.99
e"
23.5300
Conductivity (σ):
0.92
0.96
-4.52
e'
53.6300
Relative Permittivity (є r):
53.63
55.39
-3.18
e"
22.7700
Conductivity (σ):
1.00
0.97
3.52
e'
49.0600
Relative Permittivity (є r):
49.06
48.95
0.22
e"
18.7600
Conductivity (σ):
5.48
5.35
2.30
e'
49.0400
Relative Permittivity (є r):
49.04
48.94
0.21
e"
18.7800
Conductivity (σ):
5.49
5.36
2.39
e'
48.4800
Relative Permittivity (є r):
48.48
48.48
0.00
e"
19.1000
Conductivity (σ):
5.95
5.76
3.23
e'
48.2400
Relative Permittivity (є r):
48.24
48.27
-0.07
e"
19.2500
Conductivity (σ):
6.15
5.94
3.68
e'
48.1100
Relative Permittivity (є r):
48.11
48.20
-0.19
e"
19.3500
Conductivity (σ):
6.27
6.00
4.45
e'
38.9400
Relative Permittivity (є r):
38.94
40.08
-2.86
e"
13.5800
Conductivity (σ):
1.32
1.37
-3.47
e'
39.1000
Relative Permittivity (є r):
39.10
40.15
-2.61
e"
13.5300
Conductivity (σ):
1.29
1.35
-4.45
e'
38.9200
Relative Permittivity (є r):
38.92
40.08
-2.89
e"
13.5800
Conductivity (σ):
1.33
1.37
-3.40
e'
38.3700
Relative Permittivity (є r):
38.37
40.00
-4.08
e"
13.7900
Conductivity (σ):
1.46
1.40
4.06
e'
38.5600
Relative Permittivity (є r):
38.56
40.00
-3.60
e"
13.7400
Conductivity (σ):
1.41
1.40
0.96
e'
38.3300
Relative Permittivity (є r):
38.33
40.00
-4.18
e"
13.8100
Conductivity (σ):
1.47
1.40
4.76
Page 27 of 76
UL Korea, Ltd. Suwon Laboratory
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Report No.: 4788364119-S1V3
8.2.
Issue Date: 3/29/2018
System Check
SAR system verification is required to confirm measurement accuracy, according to the tissue dielectric media,
probe calibration points and other system operating parameters required for measuring the SAR of a test device.
The system verification must be performed for each frequency band and within the valid range of each probe
calibration point required for testing the device. The same SAR probe(s) and tissue-equivalent media combinations
used with each specific SAR system for system verification must be used for device testing. When multiple probe
calibration points are required to cover substantially large transmission bands, independent system verifications are
required for each probe calibration point. A system verification must be performed before each series of SAR
measurements using the same probe calibration point and tissue-equivalent medium. Additional system verification
should be considered according to the conditions of the tissue-equivalent medium and measured tissue dielectric
parameters, typically every three to four days when the liquid parameters are re-measured or sooner when
marginal liquid parameters are used at the beginning of a series of measurements.
System Performance Check Measurement Conditions:









The measurements were performed in the flat section of the TWIN SAM or ELI phantom, shell thickness: 2.0
±0.2 mm (bottom plate) filled with Body or Head simulating liquid of the following parameters.
The depth of tissue-equivalent liquid in a phantom must be ≥ 15.0 cm for SAR measurements ≤ 3 GHz and ≥
10.0 cm for measurements > 3 GHz.
The DASY system with an E-Field Probe was used for the measurements.
The dipole was mounted on the small tripod so that the dipole feed point was positioned below the center
marking of the flat phantom section and the dipole was oriented parallel to the body axis (the long side of the
phantom). The standard measuring distance was 10 mm (above 1 GHz) and 15 mm (below 1 GHz) from dipole
center to the simulating liquid surface.
The coarse grid with a grid spacing of 15 mm was aligned with the dipole.
For 5 GHz band - The coarse grid with a grid spacing of 10 mm was aligned with the dipole.
Special 7x7x7 (below 3 GHz) and/or 8x8x7 (above 3 GHz) fine cube was chosen for the cube.
Distance between probe sensors and phantom surface was set to 2.5 mm.
For 5 GHz band - Distance between probe sensors and phantom surface was set to 1.4 mm
The dipole input power (forward power) was 100 mW.
The results are normalized to 1 W input power.
Page 28 of 76
UL Korea, Ltd. Suwon Laboratory
Doc. No.: 1.0
This report shall not be reproduced except in full, without the written approval of UL Korea, Ltd.
Report No.: 4788364119-S1V3
Issue Date: 3/29/2018
Reference Target SAR Values
The reference SAR values can be obtained from the calibration certificate of system validation dipoles.
System Dipole
Serial No.
Cal. Date
Freq. (MHz)
D750V3
1014
7-19-2017
750
D750V3
D835V2
D1750V2
D1900V2
D2450V2
D2600V2
1122
4d194
1125
5d190
939
1097
2-19-2018
7-19-2017
2-16-2018
9-20-2017
9-19-2017
1-17-2018
750
835
1750
1900
2450
2600
5300
5500
D5GHzV2
1184
8-23-2017
5600
5800
5250
D5GHzV2
1209
2-15-2018
5600
5750
Target SAR Values (W/kg)
1g/10g
Head
Body
1g
8.28
8.66
10g
5.38
5.68
1g
8.22
8.63
10g
5.35
5.72
1g
9.33
9.30
10g
6.03
6.09
1g
36.50
36.80
10g
19.30
19.50
1g
38.30
40.00
10g
20.10
21.10
1g
52.30
50.70
10g
24.60
23.90
1g
56.40
54.40
10g
25.30
24.20
1g
81.30
76.40
10g
23.20
21.30
1g
80.60
77.10
10g
22.90
21.30
1g
82.30
79.20
10g
23.40
22.20
1g
78.10
76.40
10g
22.20
21.20
1g
80.80
75.70
10g
23.10
21.00
1g
83.40
79.00
10g
23.80
21.90
1g
80.70
75.60
10g
22.90
20.80
Page 29 of 76
UL Korea, Ltd. Suwon Laboratory
Doc. No.: 1.0
This report shall not be reproduced except in full, without the written approval of UL Korea, Ltd.
Report No.: 4788364119-S1V3
Issue Date: 3/29/2018
System Check Results
The 1-g and 10-g SAR measured with a reference dipole, using the required tissue-equivalent medium at the test
frequency, must be within 10% of the manufacturer calibrated dipole SAR target.
SAR 1 Room
System Dipole
Date Tested
Measured Results
T.S.
Liquid
Type
Serial #
2-26-2018
D2450V2
939
Body
2-26-2018
D2600V2
1097
Body
3-1-2018
D750V3
1014
Body
3-1-2018
D2600V2
1097
Body
3-5-2018
D5GHzV2
(5300)
1184
Head
3-5-2018
D5GHzV2
(5500)
1184
Head
3-5-2018
D5GHzV2
(5600)
1184
Head
3-5-2018
D5GHzV2
(5800)
1184
Head
3-15-2018
D1750V2
1125
Body
3-15-2018
D1900V2
5d190
Body
3-16-2018
D5GHzV2
(5300)
1184
Head
3-16-2018
D5GHzV2
(5500)
1184
Head
3-16-2018
D5GHzV2
(5600)
1184
Head
3-16-2018
D5GHzV2
(5800)
1184
Head
3-16-2018
D2450V2
939
Body
3-16-2018
D2600V2
1097
Body
3-20-2018
D5GHzV2
(5300)
1184
Head
3-20-2018
D5GHzV2
(5500)
1184
Head
3-20-2018
D5GHzV2
(5600)
1184
Head
3-20-2018
D5GHzV2
(5800)
1184
Head
Zoom Scan to
100 mW
Normalize
to 1 W
Target
(Ref. Value)
Delta
±10 %
1g
4.92
49.20
50.70
-2.96
10g
2.26
22.60
23.90
-5.44
1g
5.50
55.00
54.40
1.10
10g
2.41
24.10
24.20
-0.41
1g
0.88
8.75
8.66
1.04
10g
0.59
5.85
5.68
2.99
1g
5.44
54.40
54.40
0.00
10g
2.40
24.00
24.20
-0.83
1g
7.60
76.00
81.30
-6.52
10g
2.14
21.40
23.20
-7.76
1g
7.72
77.20
80.60
-4.22
10g
2.18
21.80
22.90
-4.80
1g
7.80
78.00
82.30
-5.22
10g
2.20
22.00
23.40
-5.98
1g
7.17
71.70
78.10
-8.19
10g
2.02
20.20
22.20
-9.01
1g
3.59
35.90
36.80
-2.45
10g
1.90
19.00
19.50
-2.56
1g
4.07
40.70
40.00
1.75
10g
2.09
20.90
21.10
-0.95
1g
7.75
77.50
81.30
-4.67
10g
2.19
21.90
23.20
-5.60
1g
7.84
78.40
80.60
-2.73
10g
2.22
22.20
22.90
-3.06
1g
7.77
77.70
82.30
-5.59
10g
2.20
22.00
23.40
-5.98
1g
7.26
72.60
78.10
-7.04
10g
2.06
20.60
22.20
-7.21
1g
4.99
49.90
50.70
-1.58
10g
2.29
22.90
23.90
-4.18
1g
5.70
57.00
54.40
4.78
10g
2.50
25.00
24.20
3.31
1g
7.58
75.80
81.30
-6.77
10g
2.13
21.30
23.20
-8.19
1g
7.70
77.00
80.60
-4.47
10g
2.19
21.90
22.90
-4.37
1g
7.84
78.40
82.30
-4.74
10g
2.20
22.00
23.40
-5.98
1g
7.62
76.20
78.10
-2.43
10g
2.16
21.60
22.20
-2.70
Plot
No.
1, 2
Page 30 of 76
UL Korea, Ltd. Suwon Laboratory
Doc. No.: 1.0
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Report No.: 4788364119-S1V3
Issue Date: 3/29/2018
SAR 2 Room
System Dipole
Date Tested
Measured Results
T.S.
Liquid
Type
Serial #
2-26-2018
D2450V2
939
Head
2-26-2018
D2600V2
1097
Head
3-1-2018
D835V2
4d194
Head
3-1-2018
D835V2
4d194
Body
3-1-2018
D2600V2
1097
Head
3-2-2018
D1750V2
1125
Body
3-15-2018
D835V2
4d194
Head
3-15-2018
D835V2
4d194
Body
3-15-2018
D2450V2
939
Head
3-15-2018
D2600V2
1097
Head
Zoom Scan to
100 mW
Normalize
to 1 W
Target
(Ref. Value)
Delta
±10 %
1g
5.45
54.50
52.30
4.21
10g
2.51
25.10
24.60
2.03
1g
5.99
59.90
56.40
6.21
10g
2.64
26.40
25.30
4.35
1g
0.98
9.84
9.33
5.47
10g
0.65
6.45
6.03
6.97
1g
1.01
10.10
9.30
8.60
10g
0.66
6.62
6.09
8.70
1g
5.44
54.40
56.40
-3.55
10g
2.40
24.00
25.30
-5.14
1g
3.78
37.80
36.80
2.72
10g
2.01
20.10
19.50
3.08
1g
0.93
9.29
9.33
-0.43
10g
0.61
6.11
6.03
1.33
1g
1.00
9.96
9.30
7.10
10g
0.65
6.54
6.09
7.39
1g
5.40
54.00
52.30
3.25
10g
2.46
24.60
24.60
0.00
1g
5.81
58.10
56.40
3.01
10g
2.54
25.40
25.30
0.40
Plot
No.
3, 4
5, 6
Page 31 of 76
UL Korea, Ltd. Suwon Laboratory
Doc. No.: 1.0
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Report No.: 4788364119-S1V3
Issue Date: 3/29/2018
SAR 3 Room
System Dipole
Date Tested
Measured Results
T.S.
Liquid
Type
Serial #
2-26-2018
D1900V2
5d190
Body
2-28-2018
D1900V2
5d190
Head
2-28-2018
D1900V2
5d190
Body
3-1-2018
D750V3
1014
Head
3-2-2018
D1750V2
1125
Head
3-5-2018
D5GHzV2
(5250 MHz)
1209
Body
3-5-2018
D5GHzV2
(5600 MHz)
1209
Body
3-5-2018
D5GHzV2
(5750 MHz)
1209
Body
3-8-2018
D5GHzV2
(5250 MHz)
1209
Body
3-8-2018
D5GHzV2
(5600 MHz)
1209
Body
3-8-2018
D5GHzV2
(5750 MHz)
1209
Body
3-8-2018
D2450V2
939
Body
3-14-2018
D750V3
1122
Head
3-14-2018
D750V3
1122
Body
3-15-2018
D5GHzV2
(5250 MHz)
1209
Body
3-15-2018
D5GHzV2
(5600 MHz)
1209
Body
3-15-2018
D5GHzV2
(5750 MHz)
1209
Body
3-15-2018
D1750V2
1125
Head
3-15-2018
D1900V2
5d190
Head
Zoom Scan to
100 mW
Normalize
to 1 W
Target
(Ref. Value)
Delta
±10 %
1g
4.13
41.30
40.00
3.25
10g
2.11
21.10
21.10
0.00
1g
4.15
41.50
38.30
8.36
10g
2.13
21.30
20.10
5.97
1g
4.12
41.20
40.00
3.00
10g
2.10
21.00
21.10
-0.47
1g
0.89
8.90
8.28
7.49
10g
0.58
5.78
5.38
7.43
1g
3.55
35.50
36.50
-2.74
10g
1.86
18.60
19.30
-3.63
1g
7.14
71.40
75.70
-5.68
10g
2.01
20.10
21.00
-4.29
1g
7.58
75.80
79.00
-4.05
10g
2.13
21.30
21.90
-2.74
1g
6.94
69.40
75.60
-8.20
10g
1.94
19.40
20.80
-6.73
1g
6.92
69.20
75.70
-8.59
10g
1.95
19.50
21.00
-7.14
1g
7.72
77.20
79.00
-2.28
10g
2.17
21.70
21.90
-0.91
1g
6.87
68.70
75.60
-9.13
10g
1.92
19.20
20.80
-7.69
1g
4.75
47.50
50.70
-6.31
10g
2.20
22.00
23.90
-7.95
1g
0.80
8.00
8.22
-2.68
10g
0.53
5.29
5.35
-1.12
1g
0.84
8.39
8.63
-2.78
10g
0.56
5.59
5.72
-2.27
1g
7.10
71.00
75.70
-6.21
10g
1.99
19.90
21.00
-5.24
1g
7.99
79.90
79.00
1.14
10g
2.24
22.40
21.90
2.28
1g
6.98
69.80
75.60
-7.67
10g
1.95
19.50
20.80
-6.25
1g
3.42
34.20
36.50
-6.30
10g
1.82
18.20
19.30
-5.70
1g
4.02
40.20
38.30
4.96
10g
2.06
20.60
20.10
2.49
Plot
No.
7, 8
9, 10
11, 12
13, 14
15, 16
17, 18
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Report No.: 4788364119-S1V3
Issue Date: 3/29/2018
9. Conducted Output Power Measurements
9.1.
GSM
Per KDB 941225 D01 3G SAR Procedures:
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.
GSM850 Measured Results
Mode
Coding
Scheme
Time
Slots
GSM
(Voice)
CS1
GPRS
(GMSK)
CS1
EGPRS
(8PSK)
MCS5
Ch No.
Freq.
(MHz)
Burst Pwr
(dBm)
128
190
251
128
190
251
128
190
251
128
190
251
128
190
251
128
190
251
128
190
251
128
190
251
128
190
251
824.4
836.6
848.8
824.4
836.6
848.8
824.4
836.6
848.8
824.4
836.6
848.8
824.4
836.6
848.8
824.4
836.6
848.8
824.4
836.6
848.8
824.4
836.6
848.8
824.4
836.6
848.8
32.5
32.6
32.6
32.5
32.5
32.5
29.4
29.3
29.2
28.0
27.9
27.7
26.7
26.7
26.5
27.8
27.7
27.7
26.0
26.0
26.0
24.9
24.9
24.6
23.5
23.5
23.2
Frame Pwr Max. Frame
(dBm)
Pwr (dBm)
23.5
23.6
23.6
23.5
23.5
23.5
23.4
23.3
23.1
23.7
23.7
23.5
23.7
23.6
23.5
18.8
18.7
18.7
20.0
20.0
20.0
20.6
20.6
20.3
20.5
20.5
20.2
24.5
24.5
25.0
25.2
25.5
19.5
20.5
20.7
20.5
Notes:
The worst-case configuration and mode for SAR testing is determined to be as follows:

GMSK (GPRS) mode with 4 time slots for Max power, based on the Tune-up Procedure. Refer to §6.3.

SAR is not required for EGPRS (8PSK) mode because the maximum output power and tune-up limit is ≤ 1/4dB higher
than GMSK GPRS or the adjusted SAR of the highest reported SAR of GMSK GPRS is ≤ 1.2W/kg.
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Report No.: 4788364119-S1V3
Issue Date: 3/29/2018
GSM1900 Measured Results
Mode
Coding
Scheme
Time
Slots
GSM
(Voice)
CS1
GPRS
(GMSK)
CS1
EGPRS
(8PSK)
MCS5
Ch No.
Freq.
(MHz)
Burst Pwr
(dBm)
512
661
810
512
661
810
512
661
810
512
661
810
512
661
810
512
661
810
512
661
810
512
661
810
512
661
810
1850.2
1880.0
1909.8
1850.2
1880.0
1909.8
1850.2
1880.0
1909.8
1850.2
1880.0
1909.8
1850.2
1880.0
1909.8
1850.2
1880.0
1909.8
1850.2
1880.0
1909.8
1850.2
1880.0
1909.8
1850.2
1880.0
1909.8
30.3
30.4
30.5
30.3
30.4
30.5
28.0
28.0
28.2
26.3
26.3
26.6
24.7
24.9
24.9
26.5
26.6
26.7
24.3
24.2
24.2
22.6
22.5
22.7
21.1
21.0
21.0
Frame Pwr Max. Frame
(dBm)
Pwr (dBm)
21.3
21.3
21.5
21.2
21.4
21.5
22.0
21.9
22.2
22.1
22.0
22.3
21.7
21.9
21.9
17.5
17.6
17.6
18.2
18.2
18.2
18.4
18.2
18.4
18.1
17.9
18.0
22.0
22.0
22.5
22.7
22.0
18.0
18.5
19.2
19.0
Notes:
The worst-case configuration and mode for SAR testing is determined to be as follows:

GMSK (GPRS) mode with 3 time slots for Max power, based on the Tune-up Procedure. Refer to §6.3.

SAR is not required for EGPRS (8PSK) mode because the maximum output power and tune-up limit is ≤ 1/4dB higher
than GMSK GPRS or the adjusted SAR of the highest reported SAR of GMSK GPRS is ≤ 1.2W/kg.
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Report No.: 4788364119-S1V3
9.2.
Issue Date: 3/29/2018
W-CDMA
Release 99 Setup Procedures used to establish the test signals
The following tests were completed according to the test requirements outlined in section 5.2 of the 3GPP TS34.121-1
specification. The DUT supports power Class 3, which has a nominal maximum output power of 24 dBm (+1.7/-3.7).
Mode
WCDMA General Settings
Subtest
Loopback Mode
Rel99 RMC
Power Control Algorithm
βc/βd
Rel99
Test Mode 2
12.2kbps RMC
Algorithm2
8/15
HSDPA Setup Procedures used to establish the test signals
The following 4 Sub-tests were completed according to Release 5 procedures in section 5.2 of 3GPP TS34.121. A summary of
these settings are illustrated below:
W-CDMA
General
Settings
HSDPA
Specific
Settings
Mode
Subtest
Loopback Mode
Rel99 RMC
HSDPA FRC
Power Control Algorithm
βc
βd
Βd (SF)
βc/βd
βhs
MPR (dB)
DACK
DNAK
DCQI
Ack-Nack repetition factor
CQI Feedback (Table 5.2B.4)
CQI Repetition Factor (Table 5.2B.4)
Ahs=βhs/βc
HSDPA
Test Mode 1
12.2kbps RMC
H-Set 1
Algorithm 2
2/15
15/15
64
2/15
4/15
4ms
30/15
HSDPA
HSDPA
HSDPA
11/15
15/15
15/15
8/15
15/15
4/15
11/15
24/15
15/8
30/15
0.5
15/4
30/15
0.5
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Report No.: 4788364119-S1V3
Issue Date: 3/29/2018
HSPA (HSDPA & HSUPA) Setup Procedures used to establish the test signals
The following 5 Sub-tests were completed according to Release 6 procedures in table C,11.1.3 of 3GPP TS 34.121-1 v13.
A summary of these settings are illustrated below:
WCDMA
General
Settings
HSDPA
Specific
Settings
HSUPA
Specific
Settings
Mode
Subtest
Loopback Mode
Rel99 RMC
HSDPA FRC
HSUPA Test
Power Control Algorithm
βc
βd
βec
βc/βd
βhs
βed
CM (dB)
MPR (dB)
DACK
DNAK
DCQI
Ack-Nack repetition factor
CQI Feedback (Table 5.2B.4)
CQI Repetition Factor (Table 5.2B.4)
Ahs = βhs/βc
E-DPDCCH
DHARQ
AG Index
ETFCI (from 34.121 Table C.11.1.3)
Associated Max UL Data Rate kbps
Reference E-TFCIs
Reference E-TFCI
Reference E-TFCI PO
Reference E-TFCI
Reference E-TFCI PO
Reference E-TFCI
Reference E-TFCI PO
Reference E-TFCI
Reference E-TFCI PO
Reference E-TFCI
Reference E-TFCI PO
Maximum Channelization Codes
HSPA
Test Mode 1
12.2 kbps RMC
H-Set 1
HSPA
Algorithm 2
11/15
15/15
209/225
11/15
22/15
1309/225
4ms
30/15
20
75
242.1
11
67
18
71
23
75
26
81
27
2xSF2
6/15
15/15
12/15
6/15
12/15
94/75
15/15
9/15
30/15
15/9
30/15
47/15
2/15
15/15
2/15
2/15
4/15
56/75
12
67
174.9
11
67
18
71
23
75
26
81
27
15
92
482.8
11
92
18
71
23
75
26
81
27
17
71
205.8
11
67
18
71
23
75
26
81
27
Algorithm 1
15/15
5/15
5/15
47/15
12
67
308.9
67
18
67
18
71
23
75
26
81
27
SF4
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Report No.: 4788364119-S1V3
Issue Date: 3/29/2018
DC-HSDPA Setup Procedures used to establish the test signals
The following tests were completed according to procedures in section 7.3.13 of 3GPP TS34.108 v9.5.0. A summary of these
settings are illustrated below:
Downlink Physical Channels are set as per 3GPP TS34.121-1 v9.0.0 E.5.0
Call is set up as per 3GPP TS34.108 v9.5.0 sub clause 7.3.13
The configurations of the fixed reference channels for HSDPA RF tests are described in 3GPP TS 34.121, annex C for FDD and
3GPP TS 34.122.
The following 4 Sub-tests for HSDPA were completed according to Release 8 procedures in section 5.2 of 3GPP TS34.121. A
summary of subtest settings are illustrated below:
WCDMA
General
Settings
HSDPA
Specific
Settings
Mode
Subtest
Loopback Mode
Rel99 RMC
HSDPA FRC
Power Control Algorithm
βc
βd
βd (SF)
βc/βd
βhs
MPR (dB)
DACK
DNAK
DCQI
Ack-Nack Repetition factor
CQI Feedback
CQI Repetition Factor
Ahs = βhs/ βc
HSDPA
Test Mode 1
12.2kbps RMC
H-Set 12
Algorithm2
2/15
15/15
64
2/15
4/15
4ms
30/15
HSDPA
HSDPA
HSDPA
11/15
15/15
15/15
8/15
15/15
4/15
11/15
24/15
15/8
30/15
0.5
15/4
30/15
0.5
HSPA+
Since 16QAM is not used for uplink, the uplink Category and release is same as HSUPA, i.e., Rel. 7. Therefore, the
RF conducted power is not measured.
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Report No.: 4788364119-S1V3
Issue Date: 3/29/2018
W-CDMA Band II Measured Results
Band
Mode
Rel 99
RMC, 12.2 kbps
Subtest 1
Subtest 2
HSDPA
Subtest 3
Subtest 4
Subtest 1
Subtest 2
W-CDMA
Band II
HSUPA
Subtest 3
Subtest 4
Subtest 5
Subtest 1
Subtest 2
DC-HSDPA
Subtest 3
Subtest 4
UL Ch No.
Freq.
(MHz)
MPR
(dB)
Max. Meas. Avg
Pwr
(dBm)
9262
1852.4
N/A
23.9
9400
1880.0
N/A
24.0
9538
1907.6
N/A
23.8
9262
1852.4
22.4
9400
1880.0
22.5
9538
1907.6
22.2
9262
1852.4
21.9
9400
1880.0
22.0
9538
1907.6
21.8
9262
1852.4
0.5
22.5
9400
1880.0
0.5
22.6
9538
1907.6
0.5
22.2
9262
1852.4
0.5
21.5
9400
1880.0
0.5
21.6
9538
1907.6
0.5
21.4
9262
1852.4
21.4
9400
1880.0
21.5
9538
1907.6
21.2
9262
1852.4
19.3
9400
1880.0
19.5
9538
1907.6
19.1
9262
1852.4
22.4
9400
1880.0
22.5
9538
1907.6
22.2
9262
1852.4
19.3
9400
1880.0
19.4
9538
1907.6
19.2
9262
1852.4
23.8
9400
1880.0
24.0
9538
1907.6
23.7
9262
1852.4
22.4
9400
1880.0
22.5
9538
1907.6
22.2
9262
1852.4
21.9
9400
1880.0
22.0
9538
1907.6
21.7
9262
1852.4
0.5
20.5
9400
1880.0
0.5
20.6
9538
1907.6
0.5
20.3
9262
1852.4
0.5
21.4
9400
1880.0
0.5
21.5
9538
1907.6
0.5
21.3
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Report No.: 4788364119-S1V3
Issue Date: 3/29/2018
W-CDMA Band IV Measured Results
Band
Mode
Rel 99
RMC, 12.2 kbps
Subtest 1
Subtest 2
HSDPA
Subtest 3
Subtest 4
Subtest 1
Subtest 2
W-CDMA
Band IV
HSUPA
Subtest 3
Subtest 4
Subtest 5
Subtest 1
Subtest 2
DC-HSDPA
Subtest 3
Subtest 4
UL Ch No.
Freq.
(MHz)
MPR
(dB)
Max. Meas. Avg
Pwr
(dBm)
1312
1712.4
N/A
23.8
1413
1732.6
N/A
23.6
1513
1752.6
N/A
23.7
1312
1712.4
22.2
1413
1732.6
22.0
1513
1752.6
22.1
1312
1712.4
21.7
1413
1732.6
21.5
1513
1752.6
21.6
1312
1712.4
0.5
22.2
1413
1732.6
0.5
22.0
1513
1752.6
0.5
22.1
1312
1712.4
0.5
21.3
1413
1732.6
0.5
21.1
1513
1752.6
0.5
21.1
1312
1712.4
20.8
1413
1732.6
20.6
1513
1752.6
20.7
1312
1712.4
18.8
1413
1732.6
18.6
1513
1752.6
18.7
1312
1712.4
21.7
1413
1732.6
21.5
1513
1752.6
21.6
1312
1712.4
18.9
1413
1732.6
18.7
1513
1752.6
18.7
1312
1712.4
23.8
1413
1732.6
23.6
1513
1752.6
23.6
1312
1712.4
22.2
1413
1732.6
22.0
1513
1752.6
22.1
1312
1712.4
21.6
1413
1732.6
21.4
1513
1752.6
21.6
1312
1712.4
0.5
20.3
1413
1732.6
0.5
20.1
1513
1752.6
0.5
20.1
1312
1712.4
0.5
21.1
1413
1732.6
0.5
21.0
1513
1752.6
0.5
21.1
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Report No.: 4788364119-S1V3
Issue Date: 3/29/2018
W-CDMA Band V Measured Results
Band
Mode
Rel 99
RMC, 12.2 kbps
Subtest 1
Subtest 2
HSDPA
Subtest 3
Subtest 4
Subtest 1
Subtest 2
W-CDMA
Band V
HSUPA
Subtest 3
Subtest 4
Subtest 5
Subtest 1
Subtest 2
DC-HSDPA
Subtest 3
Subtest 4
UL Ch No.
Freq.
(MHz)
MPR
(dB)
Max. Meas. Avg
Pwr
(dBm)
4132
826.4
N/A
23.9
4183
836.6
N/A
23.9
4233
846.6
N/A
24.0
4132
826.4
22.2
4183
836.6
22.3
4233
846.6
22.2
4132
826.4
21.8
4183
836.6
21.8
4233
846.6
21.8
4132
826.4
0.5
22.2
4183
836.6
0.5
22.3
4233
846.6
0.5
22.3
4132
826.4
0.5
21.2
4183
836.6
0.5
21.2
4233
846.6
0.5
21.2
4132
826.4
21.3
4183
836.6
21.3
4233
846.6
21.3
4132
826.4
20.6
4183
836.6
20.6
4233
846.6
20.6
4132
826.4
22.2
4183
836.6
22.3
4233
846.6
22.2
4132
826.4
20.6
4183
836.6
20.6
4233
846.6
20.6
4132
826.4
23.9
4183
836.6
23.9
4233
846.6
24.0
4132
826.4
22.1
4183
836.6
22.2
4233
846.6
22.2
4132
826.4
21.7
4183
836.6
21.7
4233
846.6
21.7
4132
826.4
0.5
20.3
4183
836.6
0.5
20.4
4233
846.6
0.5
20.2
4132
826.4
0.5
21.1
4183
836.6
0.5
21.1
4233
846.6
0.5
21.1
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Report No.: 4788364119-S1V3
9.3.
Issue Date: 3/29/2018
LTE
The following tests were conducted according to the test requirements outlined in section 6.2 of the 3GPP
TS36.101 specification.
UE Power Class: 3 (23 +/- 2dBm). The allowed Maximum Power Reduction (MPR) for the maximum output power
due to higher order modulation and transmit bandwidth configuration (resource blocks) is specified in Table 6.2.3-1
of the 3GPP TS36.101.
The allowed A-MPR values specified below in Table 6.2.4.-1 of 3GPP TS36.101 are in addition to the allowed MPR
requirements. All the measurements below were performed with A-MPR disabled, by using Network Signaling
Value of “NS_01”.
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Report No.: 4788364119-S1V3
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LTE Band 2 Measured Results
Band
BW
(MHz)
Mode
QPSK
LTE
Band 2
20
16QAM
Band
BW
(MHz)
Mode
QPSK
LTE
Band 2
15
16QAM
Band
BW
(MHz)
Mode
QPSK
LTE
Band 2
10
16QAM
RB
Allocation
RB
offset
Max. Meas. Avg Pwr (dBm)
MPR
1860 MHz
1880 MHz
1900 MHz
23.9
23.9
23.8
49
23.9
23.8
23.8
99
23.8
23.8
23.8
50
21.9
21.9
21.8
50
24
21.9
21.8
21.8
50
50
21.9
21.8
21.8
100
21.9
21.8
21.8
21.9
21.8
21.5
49
21.8
21.8
21.5
99
21.8
21.7
21.6
50
20.9
20.9
20.8
50
24
20.9
20.8
20.8
50
50
20.9
20.8
20.9
100
21.0
20.9
20.9
RB
Allocation
RB
offset
MPR
1857.5 MHz
1880 MHz
1902.5 MHz
23.9
23.7
23.7
37
23.8
23.7
23.7
74
23.8
23.6
23.7
36
21.8
21.8
21.7
36
20
21.8
21.8
21.7
36
39
21.8
21.7
21.7
75
21.8
21.8
21.7
21.6
21.8
21.7
37
21.6
21.8
21.7
Max. Meas. Avg Pwr (dBm)
74
21.5
21.7
21.7
36
20.8
20.8
20.8
36
20
20.8
20.7
20.8
36
39
20.8
20.7
20.8
75
20.8
20.8
20.8
RB
Allocation
RB
offset
MPR
1855 MHz
1880 MHz
23.9
23.8
23.7
25
23.9
23.8
23.7
Max. Meas. Avg Pwr (dBm)
1905 MHz
49
23.8
23.8
23.7
25
21.8
21.7
21.7
25
12
21.8
21.7
21.7
25
25
21.8
21.7
21.7
50
21.8
21.7
21.7
21.7
21.6
21.8
25
21.7
21.6
21.8
49
21.7
21.5
21.9
25
21.0
20.8
20.8
25
12
20.9
20.8
20.8
25
25
20.9
20.8
20.8
50
20.9
20.8
20.7
Page 42 of 76
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Report No.: 4788364119-S1V3
Issue Date: 3/29/2018
LTE Band 2 Measured Results (continued)
Band
BW
(MHz)
Mode
QPSK
LTE
Band 2
16QAM
Band
BW
(MHz)
Mode
QPSK
LTE
Band 2
16QAM
Band
BW
(MHz)
Mode
QPSK
LTE
Band 2
1.4
16QAM
RB
Allocation
RB
offset
Max. Meas. Avg Pwr (dBm)
MPR
1852.5 MHz
1880 MHz
1907.5 MHz
23.8
23.7
23.7
12
23.8
23.7
23.7
24
23.8
23.7
23.7
12
21.8
21.8
21.7
12
21.8
21.7
21.7
12
13
21.8
21.7
21.7
25
21.8
21.7
21.7
21.7
21.7
21.8
12
21.7
21.7
21.8
24
21.7
21.7
21.8
12
20.9
20.7
20.8
12
20.8
20.8
20.8
12
13
20.9
20.8
20.8
25
20.9
20.8
20.8
RB
Allocation
RB
offset
MPR
1851.5 MHz
1880 MHz
1908.5 MHz
23.8
23.7
23.7
Max. Meas. Avg Pwr (dBm)
23.8
23.8
23.7
14
23.8
23.7
23.6
21.8
21.7
21.7
21.8
21.7
21.7
21.8
21.7
21.7
15
21.8
21.7
21.6
21.5
21.8
21.8
21.5
21.6
21.4
14
21.3
21.8
21.3
20.9
20.7
20.7
20.9
20.7
20.7
20.9
20.7
20.7
15
20.8
20.7
20.8
RB
Allocation
RB
offset
MPR
1850.7 MHz
1880 MHz
1909.3 MHz
23.6
23.6
23.6
23.6
23.5
23.5
23.6
23.6
23.6
23.7
23.6
23.5
23.6
23.6
23.5
23.7
23.6
23.5
21.7
21.6
21.6
21.6
21.6
21.5
21.6
21.6
21.4
21.8
21.6
21.5
21.6
21.6
21.6
21.6
21.6
21.6
21.6
21.6
21.6
20.7
20.8
20.7
Max. Meas. Avg Pwr (dBm)
Page 43 of 76
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Report No.: 4788364119-S1V3
Issue Date: 3/29/2018
LTE Band 4 Measured Results
SAR for LTE Band 4 (Frequency range: 1710-1755 MHz) is covered by LTE Band 66 (Frequency range: 1710-1780
MHz) due to overlapping frequency range, same maximum tune-up limit and same channel bandwidth.
Page 44 of 76
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Report No.: 4788364119-S1V3
Issue Date: 3/29/2018
LTE Band 5 Measured Results
Band
BW
(MHz)
Mode
QPSK
LTE
Band 5
10
16QAM
Band
BW
(MHz)
Mode
QPSK
LTE
Band 5
16QAM
Band
BW
(MHz)
Mode
QPSK
LTE
Band 5
16QAM
RB
Allocation
RB
offset
Max. Meas. Avg Pwr (dBm)
MPR
829 MHz
836.5 MHz
23.7
25
23.7
49
23.7
25
21.6
25
12
21.6
25
25
21.6
50
21.6
21.5
25
21.4
844 MHz
49
21.4
25
20.7
25
12
20.7
25
25
20.7
50
20.6
RB
Allocation
RB
offset
MPR
826.5 MHz
836.5 MHz
846.5 MHz
23.7
23.6
23.5
12
23.6
23.5
23.4
24
23.6
23.5
23.4
12
21.7
21.6
21.5
12
21.7
21.6
21.5
12
13
21.7
21.7
21.5
25
21.7
21.7
21.6
21.5
21.4
21.6
12
21.5
21.4
21.6
Max. Meas. Avg Pwr (dBm)
24
21.5
21.4
21.5
12
20.6
20.7
20.5
12
20.7
20.7
20.5
12
13
20.6
20.6
20.5
25
20.7
20.7
20.6
RB
Allocation
RB
offset
MPR
825.5 MHz
836.5 MHz
847.5 MHz
23.8
23.9
23.7
23.8
23.8
23.7
14
23.8
23.8
23.6
21.9
21.8
21.6
21.9
21.8
21.6
21.9
21.8
21.6
15
21.8
21.8
21.6
21.7
21.6
22.0
21.9
21.5
21.8
14
21.7
21.3
21.5
20.9
20.8
20.7
20.9
20.8
20.7
20.9
20.8
20.7
15
20.9
20.7
20.6
Max. Meas. Avg Pwr (dBm)
Page 45 of 76
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Report No.: 4788364119-S1V3
Issue Date: 3/29/2018
LTE Band 5 Measured Results (continued)
Band
BW
(MHz)
Mode
QPSK
LTE
Band 5
1.4 MHz
16QAM
Max. Meas. Avg Pwr (dBm)
RB
Allocation
RB
offset
MPR
824.7 MHz
836.5 MHz
848.3 MHz
23.8
23.7
23.6
23.7
23.7
23.5
23.8
23.7
23.6
23.8
23.7
23.6
23.8
23.7
23.6
23.8
23.7
23.6
21.9
21.8
21.6
21.6
21.8
21.5
21.6
21.7
21.4
21.7
21.7
21.5
21.8
21.7
21.5
21.7
21.7
21.5
21.6
21.7
21.5
20.7
20.8
20.5
Note(s):
10 MHz Bandwidths does not support at least three non-overlapping channels in certain channel bandwidths. When a device
supports overlapping channel assignment in a channel bandwidth configuration, the middle channel of the group of overlapping
channels should be selected for testing per KDB 941225 D05 SAR for LTE Devices
Page 46 of 76
UL Korea, Ltd. Suwon Laboratory
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Report No.: 4788364119-S1V3
Issue Date: 3/29/2018
LTE Band 7 Measured Results
Band
BW
(MHz)
Mode
QPSK
LTE
Band 7
20
16QAM
Band
BW
(MHz)
Mode
QPSK
LTE
Band 7
15
16QAM
Band
BW
(MHz)
Mode
QPSK
LTE
Band 7
10
16QAM
RB
Allocation
RB
offset
Max. Meas. Avg Pwr (dBm)
MPR
2510 MHz
2535 MHz
2560 MHz
23.6
23.6
23.6
49
23.9
23.5
23.6
99
23.6
23.4
22.6
50
21.3
21.0
21.0
50
24
21.2
21.0
21.0
50
50
21.2
20.9
21.0
100
21.2
21.0
21.0
21.6
21.2
21.0
49
21.4
21.2
21.1
99
21.3
21.0
21.0
50
20.1
19.8
19.9
50
24
20.0
19.8
19.9
50
50
19.9
19.8
19.9
100
20.1
19.8
19.9
RB
Allocation
RB
offset
MPR
2507.5 MHz
2535 MHz
2562.5 MHz
23.8
23.6
23.6
37
23.7
23.5
23.6
74
23.6
23.4
22.9
36
21.2
21.0
21.1
36
20
21.2
21.0
21.1
36
39
21.2
21.0
21.1
75
21.2
21.0
21.0
21.3
21.2
21.1
37
21.4
21.1
21.1
Max. Meas. Avg Pwr (dBm)
74
21.2
21.0
21.0
36
20.0
19.8
20.0
36
20
20.0
19.8
20.0
36
39
19.9
19.7
20.0
75
20.0
19.8
20.0
RB
Allocation
RB
offset
MPR
2505 MHz
2535 MHz
23.7
23.5
23.6
25
23.7
23.5
23.6
Max. Meas. Avg Pwr (dBm)
2565 MHz
49
23.6
23.4
23.0
25
21.2
21.0
21.1
25
12
21.2
21.0
21.1
25
25
21.2
20.9
21.0
50
21.2
21.0
21.0
21.2
20.9
21.1
25
21.2
20.9
21.1
49
21.1
20.8
21.1
25
20.1
19.9
20.1
25
12
20.1
19.9
20.1
25
25
20.0
19.8
20.1
50
20.0
19.8
20.0
Page 47 of 76
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Report No.: 4788364119-S1V3
Issue Date: 3/29/2018
LTE Band 7 Measured Results (continued)
Band
BW
(MHz)
Mode
QPSK
LTE
Band 7
16QAM
Max. Meas. Avg Pwr (dBm)
RB
Allocation
RB
offset
MPR
2502.5 MHz
2535 MHz
23.7
24.3
24.2
12
23.7
24.2
23.9
2567.5 MHz
24
23.7
24.2
23.5
12
21.2
21.7
21.8
12
21.2
21.7
21.8
12
13
21.2
21.6
21.8
25
21.2
21.6
21.8
21.2
21.6
21.7
12
21.1
21.5
21.7
24
21.1
21.5
21.7
12
20.0
20.7
20.8
12
20.1
20.7
20.9
12
13
20.0
20.7
20.8
25
20.0
20.7
20.8
Page 48 of 76
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Report No.: 4788364119-S1V3
Issue Date: 3/29/2018
LTE Band 12 Measured Results
Band
BW
(MHz)
Mode
QPSK
LTE
Band 12
10
16QAM
Band
BW
(MHz)
Mode
QPSK
LTE
Band 12
16QAM
Band
BW
(MHz)
Mode
QPSK
LTE
Band 12
16QAM
RB
Allocation
RB
offset
Max. Meas. Avg Pwr (dBm)
MPR
704 MHz
707.5 MHz
23.7
25
23.7
49
23.7
25
21.6
25
12
21.5
25
25
21.6
50
21.6
21.5
25
21.4
711 MHz
49
21.4
25
20.7
25
12
20.7
25
25
20.6
50
20.5
RB
Allocation
RB
offset
MPR
701.5 MHz
707.5 MHz
713.5 MHz
23.6
23.4
23.4
12
23.6
23.5
23.5
24
23.5
23.4
23.5
12
21.7
21.6
21.5
12
21.6
21.5
21.5
12
13
21.6
21.5
21.5
25
21.7
21.5
21.5
21.5
21.3
21.6
12
21.5
21.3
21.6
Max. Meas. Avg Pwr (dBm)
24
21.5
21.3
21.6
12
20.7
20.5
20.5
12
20.7
20.6
20.5
12
13
20.6
20.5
20.5
25
20.7
20.5
20.5
RB
Allocation
RB
offset
MPR
700.5 MHz
707.5 MHz
714.5 MHz
23.7
23.6
23.6
23.7
23.6
23.6
14
23.7
23.6
23.5
21.7
21.5
21.5
21.7
21.5
21.5
21.6
21.5
21.5
15
21.6
21.6
21.5
21.4
21.6
21.4
21.6
21.2
21.3
14
21.4
21.6
21.5
20.7
20.6
20.5
20.7
20.5
20.5
20.7
20.6
20.5
15
20.7
20.5
20.5
Max. Meas. Avg Pwr (dBm)
Page 49 of 76
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Report No.: 4788364119-S1V3
Issue Date: 3/29/2018
LTE Band 12 Measured Results (continued)
Band
BW
(MHz)
Mode
QPSK
LTE
Band 12
1.4 MHz
16QAM
Max. Meas. Avg Pwr (dBm)
RB
Allocation
RB
offset
MPR
699.7 MHz
707.5 MHz
715.3 MHz
23.8
23.7
23.7
23.8
23.7
23.7
23.9
23.7
23.8
23.8
23.7
23.7
23.8
23.7
23.7
23.8
23.7
23.7
21.9
21.8
21.8
21.8
21.5
21.4
21.8
21.5
21.4
21.9
21.6
21.4
21.7
21.7
21.8
21.7
21.7
21.8
21.7
21.7
21.8
20.8
20.7
20.7
Note(s):
10 MHz Bandwidths does not support at least three non-overlapping channels in certain channel bandwidths. When a device
supports overlapping channel assignment in a channel bandwidth configuration, the middle channel of the group of overlapping
channels should be selected for testing per KDB 941225 D05 SAR for LTE Devices
Page 50 of 76
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Report No.: 4788364119-S1V3
Issue Date: 3/29/2018
LTE Band 13 Measured Results
Band
BW
(MHz)
Mode
QPSK
LTE
Band 13
10
16QAM
Band
BW
(MHz)
Mode
QPSK
LTE
Band 13
16QAM
RB
Allocation
RB
offset
Max. Meas. Avg Pwr (dBm)
MPR
782 MHz
23.7
25
23.7
49
23.7
25
21.7
25
12
21.7
25
25
21.7
50
21.7
21.7
25
21.7
49
21.6
25
20.8
25
12
20.7
25
25
20.7
50
20.7
RB
Allocation
RB
offset
MPR
23.6
12
23.6
24
23.6
12
21.6
12
21.6
12
13
21.7
25
21.7
21.6
12
21.6
24
21.6
12
20.7
12
20.7
12
13
20.8
25
20.7
Max. Meas. Avg Pwr (dBm)
782 MHz
Note(s):
10/5 MHz Bandwidths does not support at least three non-overlapping channels in certain channel bandwidths. When a device
supports overlapping channel assignment in a channel bandwidth configuration, the middle channel of the group of overlapping
channels should be selected for testing per KDB 941225 D05 SAR for LTE Devices
Page 51 of 76
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Report No.: 4788364119-S1V3
Issue Date: 3/29/2018
LTE Band 17 Measured Results
SAR for LTE Band 17 (Frequency range: 704-716 MHz) is covered by LTE Band 12 (Frequency range: 699-716
MHz) due to overlapping frequency range, same maximum tune-up limit and same channel bandwidth.
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Report No.: 4788364119-S1V3
Issue Date: 3/29/2018
LTE Band 66 Measured Results
Band
BW
(MHz)
Mode
QPSK
LTE
Band 66
20
16QAM
Band
BW
(MHz)
Mode
QPSK
LTE
Band 66
15
16QAM
Band
BW
(MHz)
Mode
QPSK
LTE
Band 66
10
16QAM
RB
Allocation
RB
offset
Max. Meas. Avg Pwr (dBm)
MPR
1720 MHz
1745 MHz
1770 MHz
23.5
23.5
23.6
49
23.5
23.5
23.7
99
23.5
23.5
23.8
50
21.5
21.5
21.6
50
24
21.5
21.5
21.7
50
50
21.5
21.5
21.7
100
21.5
21.5
21.7
21.5
21.5
21.2
49
21.4
21.5
21.3
99
21.5
21.5
21.4
50
20.5
20.5
20.7
50
24
20.5
20.5
20.7
50
50
20.5
20.5
20.7
100
20.6
20.5
20.7
RB
Allocation
RB
offset
MPR
1717.5 MHz
1745 MHz
1772.5 MHz
23.6
23.5
23.7
37
23.6
23.5
23.8
74
23.6
23.5
23.8
36
21.5
21.5
21.7
36
20
21.5
21.5
21.7
36
39
21.5
21.5
21.8
75
21.5
21.5
21.7
21.3
21.4
21.8
37
21.3
21.4
21.8
Max. Meas. Avg Pwr (dBm)
74
21.3
21.5
21.9
36
20.5
20.5
20.7
36
20
20.5
20.5
20.8
36
39
20.5
20.5
20.8
75
20.5
20.5
20.7
RB
Allocation
RB
offset
MPR
1715 MHz
1745 MHz
23.4
23.4
23.6
25
23.4
23.4
23.6
Max. Meas. Avg Pwr (dBm)
1775 MHz
49
23.4
23.4
23.6
25
21.3
21.3
21.5
25
12
21.3
21.3
21.6
25
25
21.3
21.3
21.6
50
21.3
21.3
21.5
21.3
21.3
21.2
25
21.2
21.3
21.2
49
21.2
21.4
21.2
25
20.4
20.4
20.6
25
12
20.4
20.4
20.6
25
25
20.4
20.3
20.6
50
20.3
20.3
20.6
Page 53 of 76
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Report No.: 4788364119-S1V3
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LTE Band 66 Measured Results (continued)
Band
BW
(MHz)
Mode
QPSK
LTE
Band 66
16QAM
Band
BW
(MHz)
Mode
QPSK
LTE
Band 66
16QAM
Band
BW
(MHz)
Mode
QPSK
LTE
Band 66
1.4
16QAM
RB
Allocation
Max. Meas. Avg Pwr (dBm)
RB
offset
MPR
1712.5 MHz
1745 MHz
1777.5 MHz
23.5
23.5
23.7
12
23.5
23.5
23.8
24
23.4
23.5
23.8
12
21.5
21.5
21.8
12
21.5
21.5
21.8
12
13
21.5
21.5
21.8
25
21.5
21.5
21.8
21.2
21.4
21.9
12
21.2
21.5
22.0
24
21.1
21.4
22.0
12
20.5
20.5
20.8
12
20.5
20.5
20.8
12
13
20.5
20.5
20.8
25
20.5
20.5
20.8
RB
Allocation
RB
offset
MPR
1711.5 MHz
1745 MHz
1778.5 MHz
23.5
23.6
23.8
23.5
23.6
23.8
14
23.6
23.6
23.9
21.4
21.5
21.8
21.5
21.5
21.8
21.4
21.5
21.8
15
21.4
21.5
21.8
21.2
21.6
21.8
21.2
21.5
21.9
14
21.4
21.6
21.8
20.6
20.5
20.9
20.6
20.6
20.9
20.6
20.6
20.9
15
20.4
20.4
20.8
RB
Allocation
RB
offset
MPR
1710.7 MHz
1745 MHz
1779.3 MHz
23.2
23.3
23.6
23.3
23.2
23.6
23.3
23.3
23.6
23.2
23.3
23.6
23.2
23.3
23.6
23.3
23.3
23.6
21.3
21.3
21.6
21.0
21.1
21.4
21.2
21.2
21.4
21.1
21.1
21.4
21.1
21.3
21.5
21.1
21.2
21.5
21.1
21.3
21.5
20.3
20.3
20.6
Max. Meas. Avg Pwr (dBm)
Max. Meas. Avg Pwr (dBm)
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Report No.: 4788364119-S1V3
Issue Date: 3/29/2018
LTE Band TDD Measured Results
Procedure used to establish SAR test signal for LTE TDD Band
Set to CMW-500 with following parameters:



Turn the LTE Signaling off using “ON | OFF” key
Operating Band: Select Band 41 and TDD
Go to “Config….”



Go to “Physical Cell Setup”
Select “TDD” and Set “Uplink Downlink Configuration” to “0”
Turn the cell on using “ON | OFF” key
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Connect to EUT



Turn the cell on using “ON | OFF” key
After EUT is Attached
Select “Connect”
Max Power Setting


Select “LTE 1 TX Meas.”
Press “RESTART | STOP” Soft key
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Report No.: 4788364119-S1V3


Issue Date: 3/29/2018
Select “Signaling Parameter”
Select “TX Power Control (TPC)” > Select “Active TPC Setup” to “Max Power” > Set “Closed Loop Target
Power” to “23 dBm”
View TX Power



Go to “Display”
Select “Select View…”
Select “Spectrum Emission Mask”
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Report No.: 4788364119-S1V3
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LTE Band 38 Measured Results
SAR for LTE Band 38 (Frequency range: 2570-2620 MHz) is covered by LTE Band 41 (Frequency range: 24962690 MHz) due to overlapping frequency range, same maximum tune-up limit and same channel bandwidth.
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LTE Band 41 Measured Results
Band
BW
(MHz)
Mode
QPSK
LTE
Band 41
20
16QAM
Band
BW
(MHz)
Mode
QPSK
LTE
Band 41
15
16QAM
Band
BW
(MHz)
Mode
QPSK
LTE
Band 41
10
16QAM
RB
Allocation
Max. Meas. Avg Pwr (dBm)
RB
offset
MPR
2506 MHz
2549.5 MHz
2593 MHz
2636.5 MHz
2680 MHz
23.2
23.1
22.9
23.3
23.5
49
23.2
23.0
22.8
23.2
23.4
99
23.1
22.9
22.7
23.1
23.2
50
21.2
20.9
20.7
21.3
21.5
50
24
21.2
20.9
20.7
21.2
21.5
50
50
21.1
20.8
20.6
21.2
21.4
100
21.1
20.9
20.7
21.2
21.4
21.2
20.8
20.6
21.2
21.0
49
21.1
20.7
20.6
21.1
20.9
99
21.1
20.6
20.5
21.0
20.8
50
20.1
19.9
19.7
20.2
20.3
50
24
20.1
19.9
19.7
20.1
20.3
50
50
20.1
19.9
19.6
20.1
20.2
100
20.1
19.9
19.7
20.2
20.4
RB
Allocation
RB
offset
MPR
2506 MHz
2549.5 MHz
2593 MHz
2636.5 MHz
2680 MHz
23.3
23.0
22.9
23.3
23.5
37
23.2
23.0
22.8
23.2
23.5
Max. Meas. Avg Pwr (dBm)
74
23.1
22.9
22.7
23.2
23.4
36
21.2
20.9
20.8
21.2
21.5
36
20
21.2
20.9
20.7
21.2
21.5
36
39
21.2
20.8
20.7
21.2
21.4
75
21.2
20.9
20.7
21.2
21.5
20.8
20.5
20.6
20.7
21.7
37
20.8
20.5
20.5
20.7
21.6
74
20.7
20.5
20.5
20.6
21.5
36
20.2
20.0
19.7
20.2
20.4
36
20
20.2
19.9
19.7
20.1
20.4
36
39
20.2
19.9
19.7
20.1
20.4
75
20.2
19.9
19.7
20.2
20.4
RB
Allocation
RB
offset
MPR
2506 MHz
2549.5 MHz
2593 MHz
2636.5 MHz
2680 MHz
23.3
23.0
22.8
23.3
23.4
25
23.3
23.0
22.8
23.2
23.4
49
23.3
23.0
22.7
23.2
23.4
25
21.2
21.0
20.7
21.2
21.5
25
12
21.2
20.9
20.7
21.2
21.4
25
25
21.2
20.9
20.7
21.2
21.4
50
21.1
20.9
20.6
21.2
21.4
20.8
20.7
20.6
20.8
21.2
25
20.8
20.6
20.6
20.8
21.2
49
20.8
20.6
20.5
20.7
21.2
25
20.2
19.9
19.7
20.1
20.3
25
12
20.2
19.9
19.7
20.1
20.3
25
25
20.1
19.8
19.7
20.1
20.3
50
20.2
19.9
19.7
20.2
20.4
Max. Meas. Avg Pwr (dBm)
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Report No.: 4788364119-S1V3
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LTE Band 41 Measured Results (continued)
Band
BW
(MHz)
Mode
QPSK
LTE
Band 41
16QAM
RB
Allocation
RB
offset
Max. Meas. Avg Pwr (dBm)
MPR
2506 MHz
2549.5 MHz
2593 MHz
2636.5 MHz
2680 MHz
23.2
23.0
22.7
23.2
23.4
12
23.2
23.0
22.7
23.2
23.4
24
23.2
23.0
22.7
23.2
23.4
12
21.2
20.9
20.7
21.2
21.5
12
21.2
20.9
20.6
21.1
21.4
12
13
21.2
20.9
20.6
21.2
21.4
25
21.2
20.9
20.7
21.2
21.4
20.6
20.4
20.6
20.7
21.0
12
20.6
20.4
20.5
20.7
21.0
24
20.6
20.4
20.5
20.7
21.0
12
20.2
19.9
19.6
20.1
20.3
12
20.1
19.8
19.6
20.1
20.3
12
13
20.1
19.8
19.5
20.1
20.3
25
20.2
19.9
19.6
20.1
20.4
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Report No.: 4788364119-S1V3
9.4.
Issue Date: 3/29/2018
Wi-Fi 2.4 GHz (DTS Band)
Measured Results (Max Power)
Mode
802.11b
802.11g
802.11n
(HT20)
Data Rate
1 Mbps
6 Mbps
6.5 Mbps
Ch #
Freq.
(MHz)
Meas. Avg Pwr
(dBm)
2412
17.2
2437
16.8
11
2462
17.5
12
2467
16.0
16.5
13
2472
14.9
15.5
2412
2437
11
2462
12
2467
13
2472
9.5
2412
14.5
Max Output
Power (dBm)
SAR Test
(Yes/No)
17.5
Yes
No
15.5
Not Require
No
12.5
2437
11
2462
12
2467
12.5
13
2472
6.5
Not Require
15.5
No
Measured Results (Reduction Power)
Mode
802.11b
802.11g
802.11n
(HT20)
Data Rate
1 Mbps
6 Mbps
6.5 Mbps
Ch #
Freq.
(MHz)
Meas. Avg Pwr
(dBm)
2412
13.9
2437
13.9
11
2462
14.1
12
2467
13.8
13
2472
13.8
2412
14.1
2437
14.3
11
2462
14.4
12
2467
13
2472
2412
Not Require
Max Output
Power (dBm)
SAR Test
(Yes/No)
14.5
Yes
14.5
No
12.5
9.5
13.9
2437
14.2
11
2462
14.3
12
7.05
13
1.31
Not Require
14.5
No
12.5
6.5
Note(s):
1.
2.
3.
SAR is not required for 802.11g/n modes when the adjusted SAR for 802.11b is < 1.2 W/kg.
For “Not required”, SAR Test reduction was applied from KDB 248227 guidance, Sec. 2.1, b), 1) 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. Additional output power
measurements were not deemed necessary.
Additionally, SAR is not required for Channels 12 and 13 because the tune-up limit and the measured output power for
these two channels are no greater than those for the default test channels. Refer to §6.3.
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Report No.: 4788364119-S1V3
9.5.
Issue Date: 3/29/2018
Wi-Fi 5 GHz (U-NII Bands)
Measured Results
Max Pwr.
Band
(GHz)
Mode
802.11a
802.11n
(HT20)
5.3
(U-NII 2A)
802.11n
(HT40)
802.11ac
(VHT20)
802.11ac
(VHT40)
802.11ac
(VHT80)
802.11a
5.5
(U-NII 2C)
6 Mbps
6.5 Mbps
13.5 Mbps
6.5 Mbps
13.5 Mbps
29.3 Mbps
6 Mbps
802.11n
(HT20)
6.5 Mbps
802.11n
(HT40)
13.5 Mbps
802.11ac
(VHT20)
6.5 Mbps
802.11ac
(VHT40)
13.5 Mbps
802.11ac
(VHT80)
29.3 Mbps
802.11a
5.8
(U-NII 3)
Data Rate
6 Mbps
802.11n
(HT20)
6.5 Mbps
802.11n
(HT40)
13.5 Mbps
802.11ac
(VHT20)
6.5 Mbps
802.11ac
(VHT40)
13.5 Mbps
802.11ac
(VHT80)
29.3 Mbps
Ch #
Freq.
(MHz)
Avg Pwr
(dBm)
52
5260
14.4
56
5280
14.4
60
5300
14.6
64
5320
14.7
52
5260
14.5
56
5280
14.4
60
5300
14.3
64
54
62
52
5320
5270
5310
5260
14.5
Not Required
56
5280
14.3
60
5300
14.6
64
54
62
5320
5270
5310
Reduction Pwr
Max Output
Power (dBm)
SAR Test
(Yes/No)
15.5
Yes
Avg Pwr
(dBm)
Max Output
Power (dBm)
SAR Test
(Yes/No)
12.5
No
12.5
No
Not Required
15.5
No
13.5
No
12.4
12.5
12.5
Yes
15.5
No
Not Required
12.5
No
Not Required
13.5
No
12.3
12.5
12.5
No
11.5
No
Not Required
11.5
No
15.5
Yes
12.5
No
12.5
No
14.4
14.6
58
5290
Not Required
100
5500
15.3
120
5600
15.1
124
5620
15.3
144
5720
15.1
100
120
124
144
102
118
126
142
100
120
124
144
102
118
126
142
106
138
149
5500
5600
5620
5720
5510
5590
5630
5710
5500
5600
5620
5720
5510
5590
5630
5710
5530
5690
5745
15.2
14.9
15.0
15.0
15.5
No
Not Required
13.5
No
11.7
12.4
12.4
11.8
12.5
Yes
15.4
15.2
15.0
15.2
15.5
No
Not Required
12.5
No
Not Required
13.5
No
12.1
12.4
12.5
12.0
12.5
No
Not Required
11.5
No
Not Required
11.5
No
157
5785
15.1
15.5
Yes
12.5
No
165
5825
15.3
149
157
165
151
159
149
157
165
151
159
5745
5785
5825
5755
5795
5745
5785
5825
5755
5795
15.3
15.2
15.3
15.5
No
12.5
No
Not Required
13.5
No
12.1
12.0
12.5
Yes
15.3
15.1
15.2
15.5
No
Not Required
12.5
No
Not Required
13.5
No
12.2
11.9
12.5
No
155
5775
Not Required
11.5
No
Not Required
11.5
No
Not Required
15.3
Not Required
Note(s):
1.
2.
3.
For “Not required”, SAR Test reduction was applied from KDB 248227 guidance, Sec. 2.1, b), 1) 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.
When the same transmission mode configurations have the same maximum output power on the same channel for the
802.11 a/g/n/ac modes, the channel in the lower order/sequence 802.11 mode (i.e. a, g, n then ac) is selected.
When the specified maximum output power is the same for both UNII band I and UNII band 2A, begin SAR measurement in
UNII band 2A; and if the highest reported SAR for UNII band 2A is
≤ 1.2 W/kg, SAR is not required for UNII band I
> 1.2 W/kg, both bands should be tested independently for SAR.
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Report No.: 4788364119-S1V3
9.6.
Issue Date: 3/29/2018
Bluetooth
Maximum tune-up tolerance limit is 8.5 dBm. This power level qualifies for exclusion of SAR testing.
10.
Measured and Reported (Scaled) SAR Results
SAR Test Reduction criteria are as follows:
Reported SAR(W/kg) for WWAN= Measured SAR *Tune-up Scaling Factor
Reported SAR(W/kg) for Wi-Fi and Bluetooth= Measured SAR * Tune-up scaling factor * Duty Cycle scaling factor
KDB 447498 D01 General RF Exposure Guidance:
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
KDB 648474 D04 Handset SAR:
With headset attached, when the reported SAR for body-worn accessory, measured without a headset connected to the
handset, is > 1.2 W/kg, the highest reported SAR configuration for that wireless mode and frequency band should be repeated
for that body-worn accessory with a headset attached to the handset.
KDB 648474 D04 Handset SAR (Phablet Only):
When hotspot mode does not apply, 10-g Extremity SAR is required for all surfaces and edges with an antenna located at ≤ 25
mm from that surface or edge in direct contact with a flat phantom, to address interactive hand use exposure conditions. 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 .
Additional 1-g SAR testing at 5 mm is not required when hotspot mode 10-g extremity SAR is not required for the surfaces and
edges; since all 1-g reported SAR < 1.2 W/kg.
KDB 941225 D01 SAR test for 3G devices:
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.
KDB 941225 D05 SAR for LTE Devices:
SAR test reduction is applied using the following criteria:

Start with the largest channel bandwidth and measure SAR for QPSK with 1 RB, and 50% 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 for other Channels is performed at the highest output power level for 1RB,
and 50% RB configuration for that channel.

Testing for 100% RB configuration is performed at the highest output power level for 100% RB configuration across the
Low, Mid and High Channel when the highest reported SAR for 1 RB and 50% RB are > 0.8 W/kg. Testing for the
remaining required channels is not needed because the reported SAR for 100% RB Allocation < 1.45 W/kg.

Testing for 16-QAM modulation is not required because the reported SAR for QPSK is < 1.45 W/Kg and its output power is
not more than 0.5 dB higher than that of QPSK.

Testing for the other channel bandwidths is not required because the reported SAR for the highest channel bandwidth is <
1.45 W/Kg and its output power is not more than 0.5 dB higher than that of the highest channel bandwidth.

For LTE bands that do not support at least three non-overlapping channels in certain channel bandwidths, test the available
non-overlapping channels instead. When a device supports overlapping channel assignment in a channel bandwidth
configuration, the middle channel of the group of overlapping channels should be selected for testing; therefore, the
requirement for H, M and L channels may not fully apply.
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Report No.: 4788364119-S1V3
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KDB 248227 D01 SAR meas for 802.11:
SAR test reduction for 802.11 Wi-Fi transmission mode configurations are considered separately for DSSS and OFDM. An initial
test position is determined to reduce the number of tests required for certain exposure configurations with multiple test positions.
An initial test configuration is determined for each frequency band and aggregated band according to maximum output power,
channel bandwidth, wireless mode configurations and other operating parameters to streamline the measurement requirements.
For 2.4 GHz DSSS, either the initial test position or DSSS procedure is applied to reduce the number of SAR tests; these are
mutually exclusive. For OFDM, an initial test position is only applicable to next to the ear, UMPC mini-tablet and hotspot mode
configurations, which is tested using the initial test configuration to facilitate test reduction. For other exposure conditions with a
fixed test position, SAR test reduction is determined using only the initial test configuration.
The multiple test positions require SAR measurements in head, hotspot mode or UMPC mini-tablet configurations may be
reduced according to the highest reported SAR determined using the initial test position(s) by applying the DSSS or OFDM SAR
measurement procedures in the required wireless mode test configuration(s). The initial test position(s) is measured using the
highest measured maximum output power channel in the required wireless mode test configuration(s). When the reported SAR
for the initial test position is:





≤ 0.4 W/kg, further SAR measurement is not required for the other test positions in that exposure configuration and
wireless mode combination within the frequency band or aggregated band. DSSS and OFDM configurations are
considered separately according to the required SAR procedures.
> 0.4 W/kg, SAR is repeated using the same wireless mode test configuration tested in the initial test position to
measure the subsequent next closet/smallest test separation distance and maximum coupling test position, on the
highest maximum output power channel, until the reported SAR is ≤ 0.8 W/kg or all required test positions are tested.
o For subsequent test positions with equivalent test separation distance or when exposure is dominated by coupling
conditions, the position for maximum coupling condition should be tested.
o When it is unclear, all equivalent conditions must be tested.
For all positions/configurations tested using the initial test position and subsequent test positions, when the reported
SAR is > 0.8 W/kg, measure the SAR for these positions/configurations on the subsequent next highest measured
output power channel(s) until the reported SAR is ≤ 1.2 W/kg or all required test channels are considered.
o The additional power measurements required for this step should be limited to those necessary for identifying
subsequent highest output power channels to apply the test reduction.
When the specified maximum output power is the same for both UNII 1 and UNII 2A, begin SAR measurements in UNII
2A with the channel with the highest measured output power. If the reported SAR for UNII 2A is ≤ 1.2 W/kg, SAR is not
required for UNII 1; otherwise treat the remaining bands separately and test them independently for SAR.
When the specified maximum output power is different between UNII 1 and UNII 2A, begin SAR with the band that has
the higher specified maximum output. If the highest reported SAR for the band with the highest specified power is ≤
1.2 W/kg, testing for the band with the lower specified output power is not required; otherwise test the remaining bands
independently for SAR.
To determine the initial test position, Area Scans were performed to determine the position with the Maximum Value of SAR
(measured). The position that produced the highest Maximum Value of SAR is considered the worst case position; thus used as
the initial test position.
Page 64 of 76
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Report No.: 4788364119-S1V3
Issue Date: 3/29/2018
10.1. GSM 850
RF Exposure
Conditions
Mode
Head
(VoIP)
GPRS
4 Slot
Body-worn
GPRS
4 Slot
Dist.
(mm)
15
Ch #.
Freq.
(MHz)
Left Touch
190
836.6
Tune-up
limit
28.5
Left Tilt
190
836.6
28.5
GPRS
4 Slot
10
1-g SAR (W/kg)
Meas.
Meas.
Scaled
Plot
No.
26.7
0.286
0.437
26.7
0.169
0.258
Right Touch
190
836.6
28.5
26.7
0.240
0.367
Right Tilt
190
836.6
28.5
26.7
0.164
0.251
Rear
190
836.6
28.5
26.7
0.357
0.546
Front
190
836.6
28.5
26.7
0.303
0.463
128
824.2
28.5
26.7
0.595
0.894
190
836.6
28.5
26.7
0.550
0.841
Rear
Hotspot
Power (dBm)
Test Position
251
848.8
28.5
26.5
0.532
0.843
Front
190
836.6
28.5
26.7
0.381
0.583
Edge 3
190
836.6
28.5
26.7
0.218
0.333
Edge 4
190
836.6
28.5
26.7
0.276
0.422
Test Position
Ch #.
Freq.
(MHz)
10.2. GSM1900
RF Exposure
Conditions
Mode
Head
(VoIP)
GPRS
3 Slot
Body-worn
GPRS
3 Slot
Hotspot
GPRS
3 Slot
Dist.
(mm)
15
10
Power (dBm)
1-g SAR (W/kg)
Scaled
Plot
No.
Left Touch
661
1880.0
Tune-up
limit
27.0
26.3
0.201
0.237
Left Tilt
661
1880.0
27.0
26.3
0.061
0.072
Right Touch
661
1880.0
27.0
26.3
0.084
0.099
Right Tilt
661
1880.0
27.0
26.3
0.076
0.089
Rear
661
1880.0
27.0
26.3
0.172
0.203
Front
661
1880.0
27.0
26.3
0.199
0.235
Meas.
Meas.
Rear
661
1880.0
27.0
26.3
0.357
0.422
Front
661
1880.0
27.0
26.3
0.464
0.548
Edge 3
661
1880.0
27.0
26.3
0.239
0.282
Edge 4
661
1880.0
27.0
26.3
0.118
0.139
Test Position
Ch #.
Freq.
(MHz)
10.3. W-CDMA Band II
RF Exposure
Conditions
Head
Bod-worn
Hotspot
Mode
Rel 99 RMC
Rel 99 RMC
Rel 99 RMC
Dist.
(mm)
15
10
Power (dBm)
Left Touch
9400
1880.0
Tune-up
limit
24.0
Left Tilt
9400
1880.0
24.0
Meas.
1-g SAR (W/kg)
Meas.
Scaled
Plot
No.
24.0
0.303
0.303
24.0
0.135
0.135
Right Touch
9400
1880.0
24.0
24.0
0.196
0.196
Rightt Tilt
9400
1880.0
24.0
24.0
0.171
0.171
Rear
9400
1880.0
24.0
24.0
0.375
0.375
Front
9400
1880.0
24.0
24.0
0.432
0.432
Rear
9400
1880.0
24.0
24.0
0.792
0.792
9262
1852.4
24.0
23.9
0.765
0.781
9400
1880.0
24.0
24.0
0.900
0.900
9538
1907.6
24.0
23.8
1.030
1.089
Edge 3
9400
1880.0
24.0
24.0
0.481
0.481
Edge 4
9400
1880.0
24.0
24.0
0.243
0.243
Front
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Report No.: 4788364119-S1V3
Issue Date: 3/29/2018
10.4. W-CDMA Band IV
RF Exposure
Conditions
Head
Bod-worn
Hotspot
Mode
Rel 99 RMC
Rel 99 RMC
Rel 99 RMC
Dist.
(mm)
15
10
Test Position
Ch #.
Freq.
(MHz)
Power (dBm)
1-g SAR (W/kg)
Scaled
Plot
No.
10
Left Touch
1413
1732.6
Tune-up
limit
24.0
23.6
0.412
0.448
Left Tilt
1413
1732.6
24.0
23.6
0.178
0.193
Right Touch
1413
1732.6
24.0
23.6
0.224
0.243
Meas.
Meas.
Rightt Tilt
1413
1732.6
24.0
23.6
0.211
0.229
Rear
1413
1732.6
24.0
23.6
0.327
0.355
Front
1413
1732.6
24.0
23.6
0.415
0.451
Rear
1413
1732.6
24.0
23.6
0.677
0.736
1312
1712.4
24.0
23.8
0.923
0.966
1413
1732.6
24.0
23.6
0.935
1.016
Front
1513
1752.6
24.0
23.7
1.010
1.095
Edge 3
1413
1732.6
24.0
23.6
0.529
0.575
Edge 4
1413
1732.6
24.0
23.6
0.323
0.351
Test Position
Ch #.
Freq.
(MHz)
11
12
10.5. W-CDMA Band V
RF Exposure
Conditions
Head
Body-worn
Mode
Rel 99 RMC
Rel 99 RMC
Dist.
(mm)
15
Rel 99 RMC
10
1-g SAR (W/kg)
Scaled
Plot
No.
13
Left Touch
4183
836.6
23.9
0.363
0.413
Left Tilt
4183
836.6
24.5
23.9
0.193
0.220
Right Touch
4183
836.6
24.5
23.9
0.309
0.352
Meas.
Meas.
Rightt Tilt
4183
836.6
24.5
23.9
0.208
0.237
Rear
4183
836.6
24.5
23.9
0.436
0.496
Front
4183
836.6
24.5
23.9
0.382
0.435
4132
826.4
24.5
23.9
0.734
0.847
4183
836.6
24.5
23.9
0.802
0.912
4233
846.6
24.5
24.0
0.832
0.944
Front
4183
836.6
24.5
23.9
0.521
0.593
Edge 3
4183
836.6
24.5
23.9
0.286
0.325
Edge 4
4183
836.6
24.5
23.9
0.329
0.374
Rear
Hotspot
Power (dBm)
Tune-up
limit
24.5
14
15
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Report No.: 4788364119-S1V3
Issue Date: 3/29/2018
10.6. LTE Band 2 (20MHz Bandwidth)
RF Exposure
Dist.
Mode
Conditions
(mm)
Head
Body-worn
Hotspot
QPSK
QPSK
QPSK
Test
Position
Ch #.
Freq.
(MHz)
Left Touch
18700
1860.0
Left Tilt
18700
1860.0
Right Touch
18700
1860.0
Right Tilt
18700
1860.0
Rear
18700
1860.0
Front
18700
1860.0
Rear
18700
1860.0
Front
18700
1860.0
Edge 3
18700
1860.0
Edge 4
18700
1860.0
RB
Allocation
15
10
RB
offest
Power (dBm)
Tune-up
limit
24.0
50
22.0
Meas.
1-g SAR (W/kg)
Meas.
Scaled
Plot
No.
16
23.9
0.311
0.319
21.9
0.186
0.189
24.0
23.9
0.125
0.128
50
22.0
21.9
0.076
0.078
24.0
23.9
0.175
0.179
50
22.0
21.9
0.103
0.105
24.0
23.9
0.175
0.179
50
22.0
21.9
0.106
0.108
24.0
23.9
0.265
0.272
50
22.0
21.9
0.163
0.166
24.0
23.9
0.340
0.349
50
22.0
21.9
0.210
0.214
24.0
23.9
0.559
0.573
50
22.0
21.9
0.343
0.349
24.0
23.9
0.718
0.736
50
22.0
21.9
0.442
0.450
24.0
23.9
0.468
0.480
50
22.0
21.9
0.278
0.283
24.0
23.9
0.229
0.235
50
22.0
21.9
0.135
0.137
17
18
10.7. LTE Band 4 (20MHz Bandwidth)
SAR for LTE Band 4 (Frequency range: 1710-1755 MHz) is covered by LTE Band 66 (Frequency range: 1710-1780
MHz) due to similar frequency range, same maximum tune-up limit and same channel bandwidth.
10.8. LTE Band 5 (10MHz Bandwidth)
RF Exposure
Dist.
Mode
Conditions
(mm)
Head
Body-worn
Hotspot
QPSK
QPSK
QPSK
Test
Position
Ch #.
Freq.
(MHz)
Left Touch
20525
836.5
Left Tilt
20525
836.5
Right Touch
20525
836.5
Right Tilt
20525
836.5
Rear
20525
836.5
Front
20525
836.5
15
Rear
20525
836.5
Front
20525
836.5
10
Edge 3
Edge 4
20525
20525
836.5
836.5
RB
Allocation
RB
offest
Power (dBm)
Tune-up
limit
24.0
25
22.0
Meas.
1-g SAR (W/kg)
Meas.
Scaled
Plot
No.
19
23.7
0.328
0.347
21.6
0.203
0.220
24.0
23.7
0.182
0.193
25
22.0
21.6
0.115
0.125
24.0
23.7
0.275
0.291
25
22.0
21.6
0.175
0.190
24.0
23.7
0.171
0.181
25
22.0
21.6
0.111
0.120
24.0
23.7
0.416
0.441
25
22.0
21.6
0.257
0.279
24.0
23.7
0.355
0.376
25
22.0
21.6
0.221
0.240
24.0
23.7
0.662
0.701
25
22.0
21.6
0.405
0.439
24.0
23.7
0.448
0.475
25
22.0
21.6
0.275
0.298
24.0
23.7
0.237
0.251
25
22.0
21.6
0.151
0.164
24.0
23.7
0.350
0.371
25
22.0
21.6
0.211
0.229
20
21
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Report No.: 4788364119-S1V3
Issue Date: 3/29/2018
10.9. LTE Band 7 (20MHz Bandwidth)
RF Exposure
Dist.
Mode
Conditions
(mm)
Head
Body-worn
QPSK
QPSK
Test
Position
Ch #.
Freq.
(MHz)
Left Touch
20850
2510.0
Left Tilt
20850
2510.0
Right Touch
20850
2510.0
Right Tilt
20850
2510.0
Rear
20850
2510.0
Front
20850
2510.0
Rear
20850
2510.0
20850
2510.0
21100
21350
Edge 3
20850
2510.0
Edge 4
20850
2510.0
15
Front
Hotspot
10.10.
QPSK
10
Body-worn
Hotspot
RB
offest
Power (dBm)
49
Tune-up
limit
24.5
50
22.5
Meas.
1-g SAR (W/kg)
Meas.
Scaled
Plot
No.
22
23.9
0.339
0.391
21.3
0.180
0.238
49
24.5
23.9
0.117
0.135
50
22.5
21.3
0.060
0.080
49
24.5
23.9
0.178
0.205
50
22.5
21.3
0.090
0.118
49
24.5
23.9
0.201
0.232
50
22.5
21.3
0.106
0.140
49
24.5
23.9
0.369
0.426
50
22.5
21.3
0.208
0.275
49
24.5
23.9
0.435
0.502
50
22.5
21.3
0.243
0.321
49
24.5
23.9
0.585
0.675
50
22.5
21.3
0.369
0.487
49
24.5
23.9
0.708
0.817
50
22.5
21.3
0.448
0.591
2535.0
49
24.5
23.5
0.745
0.939
2560.0
49
24.5
23.6
0.702
0.861
49
24.5
23.9
0.391
0.451
50
22.5
21.3
0.218
0.288
49
24.5
23.9
0.332
0.383
50
22.5
21.3
0.184
0.243
23
24
LTE Band 12 (10MHz Bandwidth)
RF Exposure
Dist.
Mode
Conditions
(mm)
Head
RB
Allocation
QPSK
QPSK
QPSK
Test
Position
Ch #.
Freq.
(MHz)
Left Touch
23095
707.5
Left Tilt
23095
707.5
Right Touch
23095
707.5
Right Tilt
23095
707.5
Rear
23095
707.5
Front
23095
707.5
15
Rear
23095
707.5
Front
23095
707.5
10
Edge 3
Edge 4
23095
23095
707.5
707.5
RB
Allocation
RB
offest
Power (dBm)
Tune-up
limit
24.0
25
22.0
Meas.
1-g SAR (W/kg)
Meas.
Scaled
Plot
No.
25
23.7
0.205
0.219
21.6
0.132
0.145
24.0
23.7
0.110
0.118
25
22.0
21.6
0.070
0.077
24.0
23.7
0.150
0.160
25
22.0
21.6
0.101
0.111
24.0
23.7
0.091
0.097
25
22.0
21.6
0.064
0.071
24.0
23.7
0.321
0.343
25
22.0
21.6
0.208
0.229
24.0
23.7
0.245
0.262
25
22.0
21.6
0.160
0.176
24.0
23.7
0.492
0.526
25
22.0
21.6
0.306
0.337
24.0
23.7
0.282
0.301
25
22.0
21.6
0.184
0.203
24.0
23.7
0.081
0.087
25
22.0
21.6
0.056
0.061
24.0
23.7
0.281
0.300
25
22.0
21.6
0.185
0.204
26
27
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Report No.: 4788364119-S1V3
10.11.
LTE Band 13 (10MHz Bandwidth)
RF Exposure
Dist.
Mode
Conditions
(mm)
Head
QPSK
Test
Position
Ch #.
Freq.
(MHz)
Left Touch
23230
782.0
Left Tilt
23230
782.0
Right Touch
Right Tilt
Body-worn
Hotspot
QPSK
QPSK
23230
23230
782.0
782.0
Rear
23230
782.0
Front
23230
782.0
Rear
23230
782.0
Front
23230
782.0
15
10
Edge 3
Edge 4
10.12.
Issue Date: 3/29/2018
23230
23230
782.0
782.0
RB
Allocation
RB
offest
Power (dBm)
1-g SAR (W/kg)
Meas.
Meas.
Scaled
Plot
No.
28
25
Tune-up
limit
24.0
23.7
0.301
0.320
25
22.0
21.7
0.177
0.189
0.183
25
24.0
23.7
0.172
25
22.0
21.7
0.101
0.108
25
24.0
23.7
0.219
0.233
25
22.0
21.7
0.130
0.139
25
24.0
23.7
0.142
0.151
25
22.0
21.7
0.083
0.088
25
24.0
23.7
0.394
0.419
25
22.0
21.7
0.239
0.255
25
24.0
23.7
0.350
0.372
25
22.0
21.7
0.213
0.228
25
24.0
23.7
0.519
0.552
25
22.0
21.7
0.305
0.326
25
24.0
23.7
0.348
0.370
25
22.0
21.7
0.214
0.229
25
24.0
23.7
0.165
0.176
25
22.0
21.7
0.099
0.106
25
24.0
23.7
0.311
0.331
25
22.0
21.7
0.188
0.201
29
30
LTE Band 17 (10MHz Bandwidth)
SAR for LTE Band 17 (Frequency Range: 704-716 MHz) is covered by LTE Band 12 (Frequency Range: 699-716
MHz) due to overlapping frequency range, same maximum tune-up limit and same channel bandwidth.
10.13.
LTE Band 38 (20MHz Bandwidth)
SAR for LTE Band 38 (Frequency range: 2570-2620 MHz) is covered by LTE Band 41 (Frequency range: 24962690 MHz) due to overlapping frequency range, same maximum tune-up limit and same channel bandwidth.
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Report No.: 4788364119-S1V3
10.14.
LTE Band 41 (20MHz Bandwidth)
RF Exposure
Dist.
Mode
Conditions
(mm)
Test
Position
Left Touch
Left Tilt
Head
QPSK
Right Touch
Right Tilt
Rear
Body-worn
QPSK
15
Front
Rear
Front
Hotspot
QPSK
10
Edge 3
Edge 4
10.15.
Body-worn
Freq.
(MHz)
41490
41490
41490
41490
Power (dBm)
1-g SAR (W/kg)
RB
Allocation
RB
offest
2680.0
Tune-up
limit
24.0
2680.0
50
22.0
2680.0
2680.0
50
41490
2680.0
41490
2680.0
50
22.0
21.5
0.082
0.092
41490
2680.0
24.0
23.5
0.145
0.161
41490
2680.0
50
22.0
21.5
0.090
0.101
41490
2680.0
24.0
23.5
0.205
0.228
41490
2680.0
50
22.0
21.5
0.130
0.146
41490
2680.0
24.0
23.5
0.249
0.277
41490
2680.0
50
22.0
21.5
0.159
0.178
41490
2680.0
24.0
23.5
0.404
0.449
41490
2680.0
50
22.0
21.5
0.258
0.289
41490
2680.0
24.0
23.5
0.538
0.598
41490
2680.0
50
22.0
21.5
0.350
0.393
41490
2680.0
24.0
23.5
0.223
0.248
41490
2680.0
50
22.0
21.5
0.143
0.160
41490
2680.0
24.0
23.5
0.278
0.309
41490
2680.0
50
22.0
21.5
0.179
0.201
QPSK
QPSK
Test
Position
Ch #.
Freq.
(MHz)
Left Touch
132572
1770.0
Left Tilt
132572
1770.0
Right Touch
132572
1770.0
Right Tilt
132572
1770.0
Rear
132572
1770.0
Front
132572
1770.0
Rear
132572
1770.0
132072
132322
15
Front
Hotspot
Ch #.
Meas.
Meas.
Scaled
Plot
No.
23.5
0.276
0.307
31
21.5
0.181
0.203
24.0
23.5
0.098
0.109
22.0
21.5
0.061
0.069
24.0
23.5
0.127
0.141
32
33
LTE Band 66 (20MHz Bandwidth)
RF Exposure
Dist.
Mode
Conditions
(mm)
Head
Issue Date: 3/29/2018
QPSK
10
RB
Allocation
RB
offest
Power (dBm)
99
Tune-up
limit
24.0
50
50
22.0
Meas.
1-g SAR (W/kg)
Meas.
Scaled
Plot
No.
34
23.8
0.384
0.404
21.7
0.248
0.266
99
24.0
23.8
0.177
0.186
50
50
22.0
21.7
0.109
0.117
99
24.0
23.8
0.227
0.239
50
50
22.0
21.7
0.138
0.148
99
24.0
23.8
0.226
0.238
50
50
22.0
21.7
0.138
0.148
99
24.0
23.8
0.334
0.352
50
50
22.0
21.7
0.220
0.236
99
24.0
23.8
0.450
0.474
50
50
22.0
21.7
0.275
0.295
99
24.0
23.8
0.688
0.724
50
50
22.0
21.7
0.438
0.470
1720.0
99
24.0
23.5
0.864
0.964
1745.0
99
24.0
23.5
0.804
0.904
99
24.0
23.8
0.956
1.007
50
50
22.0
21.7
0.623
0.669
132572
1770.0
Edge 3
132572
1770.0
Edge 4
132572
1770.0
99
24.0
23.8
0.605
0.637
50
50
22.0
21.7
0.371
0.398
99
24.0
23.8
0.337
0.355
50
50
22.0
21.7
0.211
0.226
35
36
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Report No.: 4788364119-S1V3
10.16.
Frequency
Band
Wi-Fi (DTS Band)
RF Exposure
Conditions
Mode
802.11b
1 Mbps
2.4GHz
Issue Date: 3/29/2018
PWR
Back-off
Dist.
(mm)
Head
On
Body-worn
Off
15
Hotspot
& Wi-Fi Direct
Off
Power (dBm)
Test Position
Ch #.
Freq.
(MHz)
Area Scan
Max. SAR
(W/kg)
Left Touch
Left Tilt
11
11
2462.0
2462.0
0.241
0.381
Tune-up
limit
14.5
14.5
Right Touch
11
2462.0
0.227
14.5
Duty
Cycle (%)
Meas.
Scaled
Plot
No.
14.1
14.1
99.6%
0.351
0.385
37
99.6%
0.052
0.056
38
99.6%
0.122
0.131
39
14.1
Rightt Tilt
11
2462.0
0.223
14.5
14.1
Rear
11
2462.0
0.066
17.5
17.2
Front
11
2462.0
0.060
17.5
17.2
10
1-g SAR (W/kg)
Meas.
Rear
11
2462.0
0.187
17.5
17.2
Front
11
2462.0
0.116
17.5
17.2
Edge 1
11
2462.0
0.188
17.5
17.2
Edge 2
11
2462.0
0.016
17.5
17.2
Note(s):
1. When the 802.11b reported SAR of the highest measured maximum output power channel is ≤ 0.8 W/kg, no further SAR
2.
testing is required. If SAR is > 0.8 W/kg and ≤ 1.2 W/kg, SAR is required for the next highest measured output power
channel. Finally, if SAR is > 1.2 W/kg, SAR is required for the third channel.
SAR testing is not required for OFDM mode(s) 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.
10.17.
Frequency
Band
Wi-Fi (U-NII Bands)
Mode
RF Exposure
Conditions
802.11n
HT 40
13.5 Mbps
Head
5.3 GHz
U-NII 2A
Off
15
Phablet
Off
Mode
RF Exposure
Conditions
802.11n
HT 40
13.5 Mbps
Head
5.5 GHz
U-NII 2C
PWR
Dist.
back-off (mm)
On
Body-worn
802.11a
6 Mbps
Frequency
Band
On
Body-worn
802.11a
6 Mbps
Frequency
Band
PWR
Dist.
back-off (mm)
Mode
Phablet
Off
Off
RF Exposure
Conditions
15
Test Position
Ch #.
Freq.
(MHz)
Area Scan
Max. SAR
(W/kg)
Left Touch
Left Tilt
62
62
5310.0
5310.0
1.150
0.803
5.8 GHz
U-NII 3
802.11a
6 Mbps
Head
Meas.
12.5
12.5
62
5310.0
0.613
12.5
12.5
94.7%
62
5310.0
0.528
12.5
12.5
94.7%
Rear
Front
Rear
Front
Edge 1
Edge 2
64
64
64
64
64
64
5320.0
5320.0
5320.0
5320.0
5320.0
5320.0
0.047
0.176
1.624
2.235
1.008
0.325
15.5
15.5
15.5
15.5
15.5
15.5
14.7
14.7
14.7
14.7
14.7
14.7
97.3%
97.3%
97.3%
97.3%
97.3%
97.3%
Test Position
Ch #.
Freq.
(MHz)
Area Scan
Max. SAR
(W/kg)
Left Touch
Left Tilt
118
118
5590.0
5590.0
1.370
0.925
Meas.
12.4
12.4
118
5590.0
0.810
12.5
12.4
94.7%
Right Tilt
118
5590.0
0.624
12.5
12.4
94.7%
Rear
Front
Rear
Front
Edge 1
Edge 2
100
100
100
100
100
100
5500.0
5500.0
5500.0
5500.0
5500.0
5500.0
0.044
0.218
2.922
2.341
0.944
0.282
15.5
15.5
15.5
15.5
15.5
15.5
15.3
15.3
15.3
15.3
15.3
15.3
97.3%
97.3%
97.3%
97.3%
97.3%
97.3%
Ch #.
Freq.
(MHz)
Area Scan
Max. SAR
(W/kg)
Left Tilt
Right Touch
151
159
151
151
5755.0
5795.0
5755.0
5755.0
1.860
2.084
1.084
1.000
Tune-up
limit
12.5
12.5
12.5
12.5
Right Tilt
151
5755.0
0.892
Rear
Front
Rear
Front
Edge 1
Edge 2
149
149
149
149
149
149
5745.0
5745.0
5745.0
5745.0
5745.0
5745.0
0.104
0.209
0.199
0.475
0.203
0.048
Body-worn
Off
15
Hotspot
Off
10
0.568
0.453
40
0.074
0.091
41
0.337
Meas.
Scaled
0.541
0.492
0.585
0.532
0.090
0.097
94.7%
94.7%
Right Touch
Test Position
0.533
0.425
1-g SAR (W/kg)
Duty Cycle
Meas.
Meas.
0.417
10-g SAR (W/kg)
Meas.
Scaled
0.312
1-g SAR (W/kg)
Duty Cycle
12.1
12.0
12.1
12.1
94.7%
94.7%
94.7%
94.7%
12.5
12.1
94.7%
15.5
15.5
15.5
15.5
15.5
15.5
15.3
15.3
15.3
15.3
15.3
15.3
97.3%
97.3%
97.3%
97.3%
97.3%
97.3%
42
Plot
No.
43
0.290
Power (dBm)
Scaled
Plot
No.
Scaled
Power (dBm)
Tune-up
limit
12.5
12.5
10-g SAR (W/kg)
Meas.
94.7%
94.7%
Right Tilt
PWR
Dist.
back-off (mm)
On
1-g SAR (W/kg)
Duty Cycle
Right Touch
Left Touch
802.11n
HT 40
13.5 Mbps
Power (dBm)
Tune-up
limit
12.5
12.5
44
45
Plot
No.
Meas.
Scaled
0.729
0.825
0.578
0.840
0.971
0.666
46
0.082
0.089
47
0.228
0.247
48
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Report No.: 4788364119-S1V3
10.18.
Issue Date: 3/29/2018
Bluetooth
Standalone SAR Test Exclusion Considerations & Estimated SAR
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
The test exclusions are applicable only when the minimum test separation distance is ≤ 50 mm and for
transmission frequencies between 100 MHz and 6 GHz. When the minimum test separation distance is < 5 mm, a
distance of 5 mm is applied to determine SAR test exclusion.
When the standalone SAR test exclusion is applied to an antenna that transmits simultaneously with other
antennas, the standalone SAR must be estimated according to following to determine simultaneous transmission
SAR test exclusion:

(max. power of channel, including tune-up tolerance, mW) / (min. test separation distance, mm)]·[√f(GHz)/x] W/kg for test
separation distances ≤ 50 mm;
where x = 7.5 for 1-g SAR, and x = 18.75 for 10-g SAR.

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.
Head & Body-worn Accessory & Hotspot Exposure Conditions
RF Air interface
Bluetooth
RF Exposure
Conditions
Frequency
(GHz)
Max. tune-up tolerance Pow er
(dBm)
(mW)
Min. test
separation
distance (mm)
SAR test
exclusion
Result*
Estimated
1-g SAR (W/kg)
Head
2.480
8.5
2.2
0.294
Body-w orn
2.480
8.5
15
0.7
0.098
Hotspot
2.480
8.5
10
1.1
0.147
Conclusion:
*: The computed value is ≤ 3; therefore, this qualifies for Standalone SAR test exclusion.
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Report No.: 4788364119-S1V3
11.
Issue Date: 3/29/2018
SAR Measurement Variability
In accordance with published RF Exposure KDB 865664 D01 SAR measurement 100 MHz to 6 GHz. These
additional measurements are repeated after the completion of all measurements requiring the same head or body
tissue-equivalent medium in a frequency band. The test device should be returned to ambient conditions (normal
room temperature) with the battery fully charged before it is re-mounted on the device holder for the repeated
measurement(s) to minimize any unexpected variations in the repeated results.
1) Repeated measurement is not required when the original highest measured SAR is <0.8 or 2 W/kg (1-g or 10-g
respectively); steps 2) through 4) do not apply.
2) When the original highest measured SAR is ≥ 0.8 or 2 W/kg (1-g or 10-g respectively), repeat that
measurement once.
3) Perform a second repeated measurement only if the ratio of largest to smallest SAR for the original and first
repeated measurements is > 1.20 or when the original or repeated measurement is ≥ 1.45 or 3.6 W/kg (~ 10%
from the 1-g or 10-g respective SAR limit).
4) Perform a third repeated measurement only if the original, first, or second repeated measurement is ≥ 1.5 or
3.75 W/kg (1-g or 10-g respectively) and the ratio of largest to smallest SAR for the original, first and second
repeated measurements is > 1.20.
Peak spatial-average (1g of tissue)
Frequency
Band
(MHz)
700
835
1700
1900
2400
Air Interface
RF Exposure Conditions
Test Position
LTE Band 12
LTE Band 13
GSM 850
Hotspot
Hotspot
Hotspot
Rear
Rear
Rear
Repeated
SAR
(Yes/No)
No
No
No
Highest
Measured SAR
(W/kg)
0.492
0.519
0.595
Repeated
Measured SAR
(W/kg)
N/A
N/A
N/A
Largest to
Smallest
SAR Ratio
N/A
N/A
N/A
1.00
WCDMA Band V
Hotspot
Rear
Yes
0.832
0.830
LTE Band 5
Hotspot
Rear
No
0.662
N/A
N/A
WCDMA Band IV
Hotspot
Front
Yes
1.010
1.010
1.00
LTE Band 66
Hotspot
Front
No
0.956
N/A
N/A
GSM 1900
Hotspot
Front
No
0.464
N/A
N/A
WCDMA Band II
Hotspot
Front
Yes
1.030
1.040
1.01
LTE Band 2
Hotspot
Front
No
0.718
N/A
N/A
Wi-Fi 802.11b/g/n
Head
Left Tilt
No
0.351
N/A
N/A
N/A
LTE Band 7
Hotspot
Front
No
0.745
N/A
LTE Band 41
Hotspot
Front
No
0.538
N/A
N/A
5300
Wi-Fi 802.11a/n
Head
Left Touch
No
0.533
N/A
N/A
5500
Wi-Fi 802.11a/n
Head
Left Touch
No
0.541
N/A
N/A
5800
Wi-Fi 802.11a/n
Head
Left Touch
Yes
0.825
0.824
1.00
2600
Phablet (10g of tissue)
Frequency
Band
(MHz)
Air Interface
RF Exposure Conditions
Test Position
Repeated
SAR
(Yes/No)
Highest
Measured SAR
(W/kg)
Repeated
Measured SAR
(W/kg)
Largest to
Smallest
SAR Ratio
5300
Wi-Fi 802.11a/n
Phablet
Front
No
0.337
N/A
N/A
5500
Wi-Fi 802.11a/n
Phablet
Front
No
0.290
N/A
N/A
Note(s):
Second Repeated Measurement is not required since the ratio of the largest to smallest SAR for the original and first repeated
measurement is not > 1.20.
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Report No.: 4788364119-S1V3
12.
Issue Date: 3/29/2018
Simultaneous Transmission SAR Analysis
KDB 447498 D01 General RF Exposure Guidance introduces a new formula for calculating the SAR to Peak
Location Ratio (SPLSR) between pairs of simultaneously transmitting antennas:
SPLSR = (SAR1 + SAR2)
1.5
/Ri
Where:
SAR1 is the highest measured or estimated SAR for the first of a pair of simultaneous transmitting antennas, in a
specific test operating mode and exposure condition
SAR2 is the highest measured or estimated SAR for the second of a pair of simultaneous transmitting antennas, in
the same test operating mode and exposure condition as the first
Ri is the separation distance between the pair of simultaneous transmitting antennas. When the SAR is measured,
for both antennas in the pair, it is determined by the actual x, y and z coordinates in the 1-g SAR for each SAR
peak location, based on the extrapolated and interpolated result in the zoom scan measurement, using the formula
of [(x1-x2) + (y1-y2) + (z1-z2) ]
In order for a pair of simultaneous transmitting antennas with the sum of 1-g SAR > 1.6 W/kg to qualify for
exemption from Simultaneous Transmission SAR measurements, it has to satisfy the condition of:
1.5
(SAR1 + SAR2)
/Ri < 0.04
Simultaneous Transmission Condition
RF Exposure Condition
Head
Body-w orn
Hotspot
Capable Transmit Configurations
Item
GSM(Voice/GPRS)
GSM(Voice/GPRS)
DTS
BT
GSM(Voice/GPRS)
U-NII
W-CDMA
DTS
W-CDMA
BT
W-CDMA
U-NII
LTE
DTS
LTE
BT
LTE
U-NII
10
GSM(Voice/GPRS)
DTS
11
GSM(Voice/GPRS)
BT
12
GSM(Voice/GPRS)
U-NII
13
W-CDMA
DTS
14
W-CDMA
BT
15
W-CDMA
U-NII
16
LTE
DTS
17
LTE
BT
18
LTE
U-NII
19
GSM(GPRS)
DTS
20
GSM(GPRS)
BT
21
GSM(GPRS)
U-NII
22
WCDMA
DTS
23
WCDMA
BT
24
WCDMA
U-NII
25
LTE
DTS
26
LTE
BT
27
LTE
U-NII
Notes:
1. DTS supports Wi-Fi Direct, Hotspot and VoIP.
2. U-NII Wi-Fi Direct, Hotspot and VoIP.
3. GPRS, W-CDMA, LTE supports Hotspot and VoIP.
4. DTS and U-NII Radio cannot transmit simultaneously w ith Bluetooth Radio.
5. U-NII Radio cannot transmit simultaneously w ith DTS Radio.
6. BT tethering is consider about each RF exposure conditions
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Report No.: 4788364119-S1V3
Issue Date: 3/29/2018
12.1. Sum of the SAR for WWAN & Wi-Fi & BT
RF Exposure
Test Position
conditions
WWAN
DTS
U-NII
BT
ᬅ+ᬆ
WWAN + DTS
∑ 1-g SAR
SPLSR
(mW/g)
(Y es/ No)
ᬅ+ᬇ
WWAN + U-NII
∑ 1-g SAR
SPLSR
(mW/g)
(Y es/ No)
ᬅ+ᬈ
WWAN + BT
∑ 1-g SAR
SPLSR
(mW/g)
(Y es/ No)
Head
All Position
0.448
0.385
0.971
0.294
0.833
No
1.419
No
0.742
No
Body -worn
All Position
0.546
0.056
0.089
0.098
0.602
No
0.635
No
0.644
No
Hotspot
All Position
1.095
0.131
0.247
0.147
1.226
No
1.342
No
1.242
No
Conclusion:
Simultaneous transmission SAR measurement (Volume Scan) is not required because the either sum of the 1-g SAR is < 1.6
W/kg or the SPLSR is < 0.04 for all circumstances that require SPLSR calculation.
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Report No.: 4788364119-S1V3
Issue Date: 3/29/2018
Appendixes
Refer to separated files for the following appendixes.
4788364119-S1V3 FCC Report SAR_App A_Photos & Ant. Locations
4788364119-S1V3 FCC Report SAR_App B_Highest SAR Test Plots
4788364119-S1V3 FCC Report SAR_App C_System Check Plots
4788364119-S1V3 FCC Report SAR_App D_SAR Tissue Ingredients
4788364119-S1V3 FCC Report SAR_App E_Probe Cal. Certificates
4788364119-S1V3 FCC Report SAR_App F_Dipole Cal. Certificates
END OF REPORT
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