SZ22100161S02 Tengfei NX729J FCC SAR

Morlab

Test Report SAR

Shenzhen Tengfei Technology Management Ltd. NX729J 5G Mobile Phone 2A9QD-NX729J 2A9QDNX729J nx729j

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REPORT No.SZ22100161S02
TEST REPORT

APPLICANT PRODUCT NAME

:

Shenzhen Tengfei Technology Management Ltd.

: 5G Mobile Phone

MODEL NAME

: NX729J

BRAND NAME

: REDMAGIC

FCC ID STANDARD(S)
RECEIPT DATE

: 2A9QD-NX729J
: FCC 47 CFR Part 2(2.1093) IEEE 1528-2013
: 2022-11-01

TEST DATE

: 2022-11-13 to 2022-12-11

ISSUE DATE

: 2022-12-16

Edited by :

Xie Yiyun (Rapporteur)

Approved by: Shen Junsheng (Supervisor)

NOTE: This document is issued by Shenzhen Morlab Communications Technology Co., the test report shall not be reproduced except in full without prior written permission of the company. The test results apply only to the particular sample(s) tested and to the specific tests carried out which is available on request for validation and information confirmed at our website.

MORLAB

Shenzhen Morlab Communications Technology Co., Ltd. FL1-3, Building A, FeiYang Science Park, No.8 LongChang Road, Block67, BaoAn District, ShenZhen , GuangDong Province, P. R. China

Tel: 86-755-36698555 Http://www.morlab.cn

Fax: 86-755-36698525 E-mail: [email protected]

Page 1 of 94

REPORT No.SZ22100161S02
DIRECTORY
1. SAR Results Summary  5 2. Technical Information 7 2.1. Applicant and Manufacturer Information 7 2.2. Equipment under Test (EUT) Description  7 2.3. Environment of Test Site/Conditions  10 3. Specific Absorption Rate (SAR) 11 3.1. Introduction 11 3.2. SAR Definition  11 4. RF Exposure Limits  12 4.1. Uncontrolled Environment 12 4.2. Controlled Environment  12 5. Applied Reference Documents  13 6. SAR Measurement System  14 6.1. E-Field Probe  15 6.2. Data Acquisition Electronics (DAE) 16 6.3. Robot  16 6.4. Measurement Server 17 6.5. Light Beam Unit 17 6.6. Phantom  17 6.7. Device Holder  18 6.8. Data Storage and Evaluation  19 6.9. Test Equipment List  21 7. Tissue Simulating Liquids  23 8. SAR System Verification  25 8.1. Purpose of System Performance Check 25 8.2. System Setup 25

MORLAB

Shenzhen Morlab Communications Technology Co., Ltd. FL1-3, Building A, FeiYang Science Park, No.8 LongChang Road, Block67, BaoAn District, ShenZhen , GuangDong Province, P. R. China

Tel: 86-755-36698555 Http://www.morlab.cn

Fax: 86-755-36698525 E-mail: [email protected]
Page 2 of 94

REPORT No.SZ22100161S02
8.3. Validation Results  26 9. EUT Testing Position  29 9.1. Handset Reference Points  29 9.2. Positioning for Cheek / Touch  30 9.3. Positioning for Ear / 15º Tilt  30 9.4. SAR Evaluation near the Mouth/Jaw Regions of the Phantom  31 9.5. Body-worn Configurations  31 9.6. Hotspot Mode Exposure Position Conditions  32 10. Measurement Procedures 33 10.1. Spatial Peak SAR Evaluation 33 10.2. Power Reference Measurement  34 10.3. Area Scan Procedures 34 10.4. Zoom Scan Procedures 34 10.5. SAR Averaged Methods  35 10.6. Power Drift Monitoring  35 11. SAR Test Procedure  36 11.1. General Scan Requirements 36 11.2. Test Procedure  37 11.3. Description of Interpolation/Extrapolation Scheme  37 11.4. Wireless Router  37 12. SAR Test Configuration  39 13. Conducted Power List  51 14. LTE Carrier Aggregation  51 15. 5G NR EN-DC Consideration  53 16. Hotspot Mode Evaluation Procedure  55 17. Block Diagram of the Tests to be Performed  57 17.1. Head  57 17.2. Body  58

MORLAB

Shenzhen Morlab Communications Technology Co., Ltd. FL1-3, Building A, FeiYang Science Park, No.8 LongChang Road, Block67, BaoAn District, ShenZhen , GuangDong Province, P. R. China

Tel: 86-755-36698555 Http://www.morlab.cn

Fax: 86-755-36698525 E-mail: [email protected]
Page 3 of 94

REPORT No.SZ22100161S02
18. Test Results List 59
18.1. Test Guidance  59
18.2. Head SAR Data  62
18.3. Body SAR Data  76
18.4. Extremity SAR Assessment 89
19. Simultaneous Transmission Evaluation  91
19.1. Simultaneous Transmission Consideration  91
19.2. Simultaneous Transmission Analysis 92
20. Uncertainty Assessment  93
Annex A General Information  94 Annex B Test Setup Photos Annex C Plots of System Performance Check Annex D Plots of Maximum SAR Test Results Annex E Conducted Power Annex F Simultaneous Transmission Data Annex G DASY Calibration Certificate

Version 1.0

Changed History Date 2022-12-16

Reason for Change First edition

MORLAB

Shenzhen Morlab Communications Technology Co., Ltd. FL1-3, Building A, FeiYang Science Park, No.8 LongChang Road, Block67, BaoAn District, ShenZhen , GuangDong Province, P. R. China

Tel: 86-755-36698555 Http://www.morlab.cn

Fax: 86-755-36698525 E-mail: [email protected]
Page 4 of 94

1. SAR Results Summary

REPORT No.SZ22100161S02

The maximum results of Specific Absorption Rate (SAR) found during test as bellows:

<Highest Reported SAR Summary>

Highest SAR Summary

Frequency Band

Head (Gap 0mm)

Body-worn

Hotspot

(Gap 10mm) (Gap 10mm)

1g SAR (W/kg)

GSM WCDMA CDMA2000
LTE
5G NR WLAN 2.4GHz Band

GSM850 GSM1900 WCDMA II WCDMA IV WCDMA V
BC0 BC1 LTE Band 2 LTE Band 4 LTE Band 5 LTE Band 7 LTE Band 12 LTE Band 17 LTE Band 18 LTE Band 19 LTE Band 26 LTE Band 38 LTE Band 40 LTE Band 41 LTE Band 66 n5 n41 n66 n77 2.4GHz WLAN 5GHz WLAN Bluetooth

0.736 0.607 0.545 0.592 0.540 0.654 0.710 0.605 0.615 0.543 0.701 0.382 0.398 0.508 0.494 0.510 0.392 0.388 0.390 0.581 0.757 0.837 0.887 0.866 0.487 0.451 N/A

0.220 0.121 0.136 0.168 0.200 0.225 0.176 0.128 0.150 0.154 0.255 0.125 0.128 0.184 0.194 0.207 0.111 0.107 0.110 0.110 0.581 0.164 0.456 0.377 0.193 0.218 0.105

0.220 0.167 0.267 0.265 0.200 N/A N/A 0.255 0.220 0.202 0.471 0.190 0.194 0.184 0.194 0.207 0.154 0.150 0.155 0.191 0.581 0.249 0.793 0.653 0.196 0.218 0.105

Extremity (Gap 0mm)
10g SAR (W/kg) N/A N/A N/A N/A N/A 0.840 0.652 N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A 0.795 N/A

MORLAB

Shenzhen Morlab Communications Technology Co., Ltd. FL1-3, Building A, FeiYang Science Park, No.8 LongChang Road, Block67, BaoAn District, ShenZhen , GuangDong Province, P. R. China

Tel: 86-755-36698555 Http://www.morlab.cn

Fax: 86-755-36698525 E-mail: [email protected]
Page 5 of 94

REPORT No.SZ22100161S02

Highest Simultaneous Transmission SAR1g (W/Kg):

1.558 W/kg

Limit(W/kg): 1.6 W/kg

Note:

1. This device is in compliance with Specific Absorption Rate (SAR) for general population or

uncontrolled exposure limits (1.6W/kg as averaged over any 1 gram of tissue; specified in FCC

47 CFR Part 1 (1.1310) and ANSI/IEEE C95.1-1992), and had been tested in accordance with

the measurement methods and procedures specified in IEEE 1528-2013 and FCC KDB

publications.

2. When the test result is a critical value, we will use the measurement uncertainty give the

judgment result based on the 95% confidence intervals.

MORLAB

Shenzhen Morlab Communications Technology Co., Ltd. FL1-3, Building A, FeiYang Science Park, No.8 LongChang Road, Block67, BaoAn District, ShenZhen , GuangDong Province, P. R. China

Tel: 86-755-36698555 Http://www.morlab.cn

Fax: 86-755-36698525 E-mail: [email protected]
Page 6 of 94

2. Technical Information

REPORT No.SZ22100161S02

Note: Provide by applicant.
2.1. Applicant and Manufacturer Information

Applicant: Applicant Address: Manufacturer: Manufacturer Address:

Shenzhen Tengfei Technology Management Ltd.
Room 3101, Building D1, Chuangzhi Yuncheng, Liuxian Avenue, Xili Street, Nanshan, Shenzhen, China Shenzhen Tengfei Technology Management Ltd.
Room 3101, Building D1, Chuangzhi Yuncheng, Liuxian Avenue, Xili Street, Nanshan, Shenzhen, China

2.2. Equipment under Test (EUT) Description

Product Name: EUT IMEI:
Hardware Version: Software Version: Frequency Bands:

5G Mobile Phone
865590060014796 865590060014838 865590060014838
NX729J_V1AMB
NX729J_UNCommon_V3.03
GSM 850: 824 MHz ~ 849 MHz GSM 1900: 1850 MHz ~ 1910 MHz WCDMA Band II: 1850 MHz ~ 1910 MHz WCDMA Band IV: 1710 MHz ~ 1755 MHz WCDMA Band V: 824 MHz ~ 849 MHz CDMA2000 BC0: 824 MHz ~ 849 MHz CDMA2000 BC1: 1850 MHz ~ 1910 MHz LTE Band 2: 1850 MHz ~ 1910 MHz LTE Band 4: 1710 MHz ~ 1755 MHz LTE Band 5: 824 MHz ~ 849 MHz LTE Band 7: 2500 MHz ~ 2570 MHz LTE Band 12: 699 MHz ~ 716 MHz LTE Band 17: 704 MHz ~ 716 MHz LTE Band 18: 815 MHz ~ 830 MHz LTE Band 19: 830 MHz ~ 845 MHz LTE Band 26: 814 MHz ~ 849 MHz LTE Band 38: 2570 MHz ~ 2620 MHz LTE Band 40A: 2305 MHz ~ 2315 MHz LTE Band 40B: 2350 MHz ~ 2360 MHz

MORLAB

Shenzhen Morlab Communications Technology Co., Ltd. FL1-3, Building A, FeiYang Science Park, No.8 LongChang Road, Block67, BaoAn District, ShenZhen , GuangDong Province, P. R. China

Tel: 86-755-36698555 Http://www.morlab.cn

Fax: 86-755-36698525 E-mail: [email protected]
Page 7 of 94

Modulation Mode:
Multi-slot Class: Operation Class: Carrier Aggregation: VoLTE Mode: VoWi-Fi Mode: Hotspot Mode: Transmit Type: WLAN MIMO: Antenna Type:
SIM Cards Description:

REPORT No.SZ22100161S02

LTE Band 41: 2496 MHz ~ 2690 MHz LTE Band 66: 1710 MHz ~ 1780 MHz 5G NR n5: 824 MHz ~ 849 MHz 5G NR n41: 2496 MHz ~ 2690 MHz 5G NR n66: 1710 MHz ~ 1780 MHz 5G NR n77: 3450 MHz ~ 3550 MHz; 3700 MHz ~ 3980 MHz WLAN 2.4GHz: 2412 MHz ~ 2462 MHz WLAN 5.2GHz: 5180 MHz ~ 5240 MHz WLAN 5.3GHz: 5260 MHz ~ 5320 MHz WLAN 5.5GHz: 5500 MHz ~ 5720 MHz WLAN 5.8GHz: 5745 MHz ~ 5825 MHz Bluetooth: 2402 MHz ~ 2480 MHz NFC: 13.56 MHz

GSM/GPRS: GMSK EDGE: 8PSK WCDMA: QPSK, 16QAM CDMA2000 1xRTT: BPSK,QPSK LTE: QPSK, 16QAM, 64QAM 5G NR: DFT-s-OFDM/CP-OFDM, PI/2 BPSK
QPSK, 16QAM, 64QAM, 256QAM 802.11b: DSSS 802.11a/g/n-HT20/HT40/ac-VHT20/40/80: OFDM 802.11ax-HEW20/40/80: OFDMA BR+EDR: GFSK(1Mbps), /4-DQPSK(2Mbps), 8-DPSK(3Mbps) Bluetooth LE: GFSK(1Mbps, 2Mbps) NFC: ASK

GPRS: Multi-slot Class 33 EDGE: Multi-slot Class 33

Class B

Downlink only

Support

Support

Support (5G WLAN only for B1 & B4)

WWAN: 2Tx/2Rx WLAN: 2Tx/2Rx

Support

WWAN: PIFA Antenna WLAN: PIFA Antenna Bluetooth: PIFA Antenna NFC: Loop Antenna

SIM 1

GSM+WCDMA+CDMA2000+LTE+5G NR

MORLAB

Shenzhen Morlab Communications Technology Co., Ltd. FL1-3, Building A, FeiYang Science Park, No.8 LongChang Road, Block67, BaoAn District, ShenZhen , GuangDong Province, P. R. China

Tel: 86-755-36698555 Http://www.morlab.cn

Fax: 86-755-36698525 E-mail: [email protected]
Page 8 of 94

REPORT No.SZ22100161S02

SIM 2

GSM+WCDMA+CDMA2000+LTE+5G NR

Note: For more detailed description, please refer to specification or user manual supplied by the

applicant and/or manufacturer.

MORLAB

Shenzhen Morlab Communications Technology Co., Ltd. FL1-3, Building A, FeiYang Science Park, No.8 LongChang Road, Block67, BaoAn District, ShenZhen , GuangDong Province, P. R. China

Tel: 86-755-36698555 Http://www.morlab.cn

Fax: 86-755-36698525 E-mail: [email protected]
Page 9 of 94

REPORT No.SZ22100161S02
2.3. Environment of Test Site/Conditions

Normal Temperature (NT): Relative Humidity: Air Pressure:

20-25 °C 30-75 % 980-1020 hPa

Test Frequency:

GSM 850MHz/1900MHz

WCDMA Band II/IV/V

CDMA2000 BC0/1

FDD-LTE Band 2/4/5/7/12/17/18/19/26/66

TDD-LTE Band 38/40A/40B/41

5G NR n5/41/66/77

WLAN 2.4GHz

WLAN 5GHz

Bluetooth

Operation Mode:

Call established

Power Level:

GSM 850 MHz Maximum output power(level 5)

GSM 1900MHz Maximum output power(level 0)

WCDMA Band II/IV/V (All Up Bits)

CDMA2000 BC0/1 (All Up Bits)

FDD-LTE Band 2/4/5/7/12/17/18/19/26/66 (Maximum output

power)

TDD-LTE Band 38/40A/40B/41 (Maximum output power)

5G NR n5/41/66/77 (Maximum output power)

WLAN 2.4GHz/WLAN 5GHz/Bluetooth Refers to annex E in this

report

During SAR test, EUT is in Traffic Mode (Channel Allocated) at Normal Voltage Condition. A

communication link is set up with a System Simulator (SS) by air link, and a call is established.

The EUT shall use its internal transmitter. The antenna(s), battery and accessories shall be those specified by the Factory. The EUT battery must be fully charged and checked periodically during the test to ascertain uniform power output. If a wireless link is used, the antenna connected to the output of the base station simulator shall be placed at least 50 cm away from the handset. The signal transmitted by the simulator to the antenna feeding point shall be lower than the output power level of the handset by at least 35 dB.

MORLAB

Shenzhen Morlab Communications Technology Co., Ltd. FL1-3, Building A, FeiYang Science Park, No.8 LongChang Road, Block67, BaoAn District, ShenZhen , GuangDong Province, P. R. China

Tel: 86-755-36698555 Http://www.morlab.cn

Fax: 86-755-36698525 E-mail: [email protected]
Page 10 of 94

REPORT No.SZ22100161S02
3. Specific Absorption Rate (SAR)
3.1. Introduction

SAR is related to the rate at which energy is absorbed per unit mass in an object exposed to a radio field. The SAR distribution in a biological body is complicated and is usually carried out by experimental techniques or numerical modeling. The standard recommends limits for two tiers of groups, occupational or controlled and general population or uncontrolled, based on a person's awareness and ability to exercise control over his or her exposure. In general, occupational or controlled exposure limits are Middle than the limits for general population or uncontrolled.
3.2. SAR Definition

The SAR definition is the time derivative (rate) of the incremental energy (dW) absorbed by(dissipated in) an incremental mass (dm) contained in a volume element (dv) of a given density. (). The equation description is as below:



   

   

SAR is expressed in units of Watts per kilogram (W/kg). SAR measurement can be either related to the temperature elevation in tissue by,





 

Where C is the specific head capacity, T is the temperature rise and t the exposure duration, or related to the electrical field in the tissue by



|| 

Where  is the conductivity of the tissue,  is the mass density of the tissue and |E| is the

rmselectrical field strength.

However for evaluating SAR of low power transmitter, electrical field measurement is typically applied.

MORLAB

Shenzhen Morlab Communications Technology Co., Ltd. FL1-3, Building A, FeiYang Science Park, No.8 LongChang Road, Block67, BaoAn District, ShenZhen , GuangDong Province, P. R. China

Tel: 86-755-36698555 Http://www.morlab.cn

Fax: 86-755-36698525 E-mail: [email protected]
Page 11 of 94

4. RF Exposure Limits
4.1. Uncontrolled Environment

REPORT No.SZ22100161S02

Uncontrolled Environments are defined as locations where there is the exposure of individuals who have no knowledge or control of their exposure. The general population/uncontrolled exposure limits are applicable to situations in which the general public may be exposed or in which persons who are exposed as a consequence of their employment may not be made fully aware of the potential for exposure or cannot exercise control over their exposure. Members of the general public would come under this category when exposure is not employment-related; for example, in the case of a wireless transmitter that exposes persons in its vicinity.
4.2. Controlled Environment

Controlled Environments are defined as locations where there is exposure that may be incurred by persons who are aware of the potential for exposure, (i.e. as a result of employment or occupation). In general, occupational/controlled exposure limits are applicable to situations in which persons are exposed as a consequence of their employment, who have been made fully aware of the potential for exposure and can exercise control over their exposure. The exposure category is also applicable when the exposure is of a transient nature due to incidental passage through a location where the exposure levels may be higher than the general population/uncontrolled limits, but the exposed person is fully aware of the potential for exposure and can exercise control over his or her exposure by leaving the area or by some other appropriate means.

Limits for General Population/Uncontrolled Exposure (W/kg)

Type Exposure

Uncontrolled Environment Limit

Spatial Peak SAR (1g cube tissue for head and trunk)

1.6 W/kg

Spatial Peak SAR (10g cube tissue for limbs)

4.0 W/kg

Spatial Peak SAR (1g cube tissue for whole body)

0.08 W/kg

Note: 1. Occupational/Uncontrolled Environments are defined as locations where there is exposure that
may be incurred by people who are aware of the potential for exposure (i.e. as a result of employment or occupation). 2. Whole-Body SAR is averaged over the entire body, partial-body SAR is averaged over any 1gram of tissue defined as a tissue volume in the shape of a cube. SAR for hands, wrists, feet and ankles is averaged over any 10 grams of tissue defined as a tissue volume in the shape of a cube.

MORLAB

Shenzhen Morlab Communications Technology Co., Ltd. FL1-3, Building A, FeiYang Science Park, No.8 LongChang Road, Block67, BaoAn District, ShenZhen , GuangDong Province, P. R. China

Tel: 86-755-36698555 Http://www.morlab.cn

Fax: 86-755-36698525 E-mail: [email protected]
Page 12 of 94

REPORT No.SZ22100161S02
5. Applied Reference Documents

Leading reference documents for testing:

Method

Identity

Document Title

Determination

/Remark

FCC 47 CFR Part 2(2.1093)

Radio Frequency Radiation Exposure Evaluation: Portable Devices

No deviation

IEEE Recommended Practice for

Determining the Peak Spatial-Average

IEEE 1528-2013

Specific Absorption Rate (SAR) in the Human Head from Wireless

No deviation

Communications Devices: Measurement

Techniques

KDB 447498 D04v01

General RF Exposure Guidance

No deviation

KDB 248227 D01v02r02

SAR Measurement Procedures for 802.11 Transmitters

No deviation

KDB 865664 D01v01r04

SAR Measurement 100 MHz to 6 GHz

No deviation

KDB 865664 D02v01r02

RF Exposure Reporting

No deviation

KDB 648474 D04v01r03

Handset SAR

No deviation

KDB 941225 D01v03r01

3G SAR MEAUREMENT PROCEDURES

No deviation

KDB 941225 D05v02r05

SAR Evaluation Consideration for LTE Devices

No deviation

KDB 941225 D06v02r01

SAR Evaluation Procedures For Portable Devices With Wireless Router Capabilities

No deviation

Note 1: Additions to, deviation, or exclusions from the method shall be judged in the "method

determination" column of add, deviate or exclude from the specific method shall be explained in

the "Remark" of the above table.

MORLAB

Shenzhen Morlab Communications Technology Co., Ltd. FL1-3, Building A, FeiYang Science Park, No.8 LongChang Road, Block67, BaoAn District, ShenZhen , GuangDong Province, P. R. China

Tel: 86-755-36698555 Http://www.morlab.cn

Fax: 86-755-36698525 E-mail: [email protected]
Page 13 of 94

6. SAR Measurement System

REPORT No.SZ22100161S02

Fig 6.1 SPEAG DASY System Configurations The DASY system for performance compliance tests is illustrated above graphically. This system consists of the following items:  A standard high precision 6-axis robot with controller, a teach pendant and software.  A data acquisition electronic (DAE) attached to the robot arm extension.  A dosimetric probe equipped with an optical surface detector system.  The electro-optical converter (ECO) performs the conversion between optical and electrical
signals  A measurement server performs the time critical tasks such as signal filtering, control of the robot
operation and fast movement interrupts.  A probe alignment unit which improves the accuracy of the probe positioning.  A computer operating Windows XP.  DASY software.  Remove control with teach pendant and additional circuitry for robot safety such as warming
lamps, etc.  The SAM twin phantom.  A device holder.  Tissue simulating liquid.  Dipole for evaluating the proper functioning of the system.  Some of the components are described in details in the following sub-sections.

MORLAB

Shenzhen Morlab Communications Technology Co., Ltd. FL1-3, Building A, FeiYang Science Park, No.8 LongChang Road, Block67, BaoAn District, ShenZhen , GuangDong Province, P. R. China

Tel: 86-755-36698555 Http://www.morlab.cn

Fax: 86-755-36698525 E-mail: [email protected]
Page 14 of 94

REPORT No.SZ22100161S02
6.1. E-Field Probe
The SAR measurement is conducted with the dosimetric probe (manufactured by SPEAG).The probe is specially designed and calibrated for use in liquid with high permittivity. The dosimetric probe has special calibration in liquid at different frequency. This probe has a built in optical surface detection system to prevent from collision with phantom.

 E-Field Probe Specification

<ES3DV3 Probe>

Construction

Symmetrical design with triangular core

Built-in optical fiber for surface detection system.

Built-in shielding against static charges. PEEK

enclosure material (resistant to organic solvents,

e.g., DGBE)

Frequency

10 MHz to 3 GHz; Linearity: ± 0.2 dB

Directivity

± 0.2 dB in HSL (rotation around probe axis)

± 0.4 dB in HSL (rotation normal to probe axis)

Dynamic Range

5 µW/g to 100 mW/g; Linearity: ± 0.2 dB

Dimensions

Overall length: 330 mm (Tip: 16 mm)

Tip diameter: 6.8 mm (Body: 12 mm)

Distance from probe tip to dipole centers: 2.7

mm

<EX3DV4 Probe> Construction Frequency Directivity Dynamic Range Dimensions

Symmetrical design with triangular core Built-in shielding against static charges PEEK enclosure material (resistant to organic solvents, e.g., DGBE)
10 MHz to 6 GHz; Linearity: ± 0.2 dB
± 0.3 dB in HSL (rotation around probe axis)
± 0.5 dB in tissue material (rotation normal to probe axis)
10 µW/g to 100 mW/g; Linearity: ± 0.2 dB
Overall length: 330 mm (Tip: 20 mm) Tip diameter: 2.5 mm (Body: 12 mm) Typical distance from probe tip to dipole centers: 1 mm

Fig 6.2 Photo of ES3DV3 Fig 6.3 Photo of EX3DV4

MORLAB

Shenzhen Morlab Communications Technology Co., Ltd. FL1-3, Building A, FeiYang Science Park, No.8 LongChang Road, Block67, BaoAn District, ShenZhen , GuangDong Province, P. R. China

Tel: 86-755-36698555 Http://www.morlab.cn

Fax: 86-755-36698525 E-mail: [email protected]
Page 15 of 94

REPORT No.SZ22100161S02
 E-Field Probe Calibration
Each probe needs to be calibrated according to a dosimetric assessment procedure with accuracy better than ± 10%. The spherical isotropy shall be evaluated and within ± 0.25 dB. The sensitivity parameters (NormX, NormY, and NormZ), the diode compression parameter (DCP) and the conversion factor (ConvF) of the probe are tested. The calibration data can be referred to appendix C of this report.
6.2. Data Acquisition Electronics (DAE)

The data acquisition electronics(DAE) consists of a highly sensitive electrometer-grade preamplifier with auto-zeroing, a channel and gain-switching multiplexer, a fast16 bit AD-converter and a command decoder and control logic unit. AD-converter and a command decoder and control logic unit. Transmission to the measurement server is accomplished through an optical downlink for data and status information as well as an optical uplink for commands and the clock. The input impedance of the DAE is 200MOhm; the inputs are symmetrical and floating. Common mode rejection is above 80 dB.

Fig 6.4 Photo of DAE

6.3. Robot
The SPEAG DASY system uses the high precision robots (DASY4: RX90BL; DASY5: TX90XL) type from Stäubli SA (France). For the 6-axis controller system, the robot controller version (DASY4: CS7MB; DASY5: CS8c) from Stäubli is used. The Stäubli robot series have many features that are important for our application: High precision (repeatability ±0.035 mm) High reliability (industrial design) Jerk-free straight movements Low ELF interference (the closed metallic construction shields against motor control fields)

Fig 6.5 Photo of DASY5

MORLAB

Shenzhen Morlab Communications Technology Co., Ltd. FL1-3, Building A, FeiYang Science Park, No.8 LongChang Road, Block67, BaoAn District, ShenZhen , GuangDong Province, P. R. China

Tel: 86-755-36698555 Http://www.morlab.cn

Fax: 86-755-36698525 E-mail: [email protected]
Page 16 of 94

REPORT No.SZ22100161S02
6.4. Measurement Server
The measurement server is based on a PC/104 CPU board with CPU (DASY4: 166 MHz, Intel Pentium; DASY5: 400 MHz, Intel Celeron), chip disk (DASY4: 32 MB; DASY5: 128 MB), RAM (DASY4: 64 MB, DASY5: 128 MB). The necessary circuits for communication with the DAE electronic box, as well as the 16 bit AD converter system for optical detection and digital I/O interface are contained on the DASY I/O board, which is directly connected to the PC/104 bus of the CPU board. The measurement server performs all the real-time data evaluation for field measurements and surface detection, controls robot movements and handles safety operations.

Fig 6.6 Photo of Server for DASY5
6.5. Light Beam Unit

The light beam switch allows automatic "tooling" of the probe. During the process, the actual position of the probe tip with respect to the robot arm is measured, as well as the probe length and the horizontal probe offset. The software then corrects all movements, such that the robot coordinates are valid for the probe tip. The repeatability of this process is better than 0.1 mm. If a position has been taught with an aligned probe, the same position will be reached with another aligned probe within 0.1 mm, even if the other probe has different dimensions. During probe rotations, the probe tip will keep its actual position.
6.6. Phantom

Fig. 6.7 Photo of Light Beam

<SAM Twin Phantom> Shell Thickness
Filling Volume Dimensions

2 ± 0.2 mm (sagging: <1%) Center ear point: 6 ± 0.2 mm
Approx. 25 liters
Length: 1000 mm; Width: 500 mm; Height: adjustable feet

Measurement Areas

Left Head, Right Head, Flat Phantom

Fig. 6.8 Photo of SAM Phantom

MORLAB

Shenzhen Morlab Communications Technology Co., Ltd. FL1-3, Building A, FeiYang Science Park, No.8 LongChang Road, Block67, BaoAn District, ShenZhen , GuangDong Province, P. R. China

Tel: 86-755-36698555 Http://www.morlab.cn

Fax: 86-755-36698525 E-mail: [email protected]
Page 17 of 94

REPORT No.SZ22100161S02
The bottom plate contains three pair of bolts for locking the device holder. The device holder positions are adjusted to the standard measurement positions in the three sections. A white cover is provided to tap the phantom during off-periods to prevent water evaporation and changes in the liquid parameters. On the phantom top, three reference markers are provided to identify the phantom position with respect to the robot.
6.7. Device Holder
<Device Holder for SAM Twin Phantom> The SAR in the phantom is approximately inversely proportional to the square of the distance between the source and the liquid surface. For a source at 5 mm distance, a positioning uncertainty of ± 0.5 mm would produce a SAR uncertainty of ± 20 %. Accurate device positioning is therefore crucial for accurate and repeatable measurements. The positions in which the devices must be measured are defined by the standards. The DASY device holder is designed to cope with different positions given in the standard. It has two scales for the device rotation (with respect to the body axis) and the device inclination (with respect to the line between the ear reference points). The rotation center for both scales is the ear reference point (EPR). Thus the device needs no repositioning when changing the angles. The DASY device holder is constructed of low-loss POM material having the following dielectric parameters: relative permittivity  = 3 and loss tangent  = 0.02. The amount of dielectric material has been reduced in the closest vicinity of the device, since measurements have suggested that the influence of the clamp on the test results could thus be lowered.
<Laptop Extension Kit> The extension is lightweight and made of POM, acrylic glass and foam. It fits easily on the upper part of the mounting device in place of the phone positioned. The extension is fully compatible with the SAM Twin and ELI phantoms.

Fig 6.9 Device Holder

Fig 6.10 Laptop Extension Kit

MORLAB

Shenzhen Morlab Communications Technology Co., Ltd. FL1-3, Building A, FeiYang Science Park, No.8 LongChang Road, Block67, BaoAn District, ShenZhen , GuangDong Province, P. R. China

Tel: 86-755-36698555 Http://www.morlab.cn

Fax: 86-755-36698525 E-mail: [email protected]
Page 18 of 94

REPORT No.SZ22100161S02
6.8. Data Storage and Evaluation
 Data Storage The DASY software stores the assessed data from the data acquisition electronics as raw data (in microvolt readings from the probe sensors), together with all the necessary software parameters for the data evaluation (probe calibration data, liquid parameters and device frequency and modulation data) in measurement files. The post-processing software evaluates the desired unit and format for output each time the data is visualized or exported. This allows verification of the complete software setup even after the measurement and allows correction of erroneous parameter settings. For example, if a measurement has been performed with an incorrect crest factor parameter in the device setup, the parameter can be corrected afterwards and the data can be reevaluated. The measured data can be visualized or exported in different units or formats, depending on the selected probe type (e.g., [V/m], [A/m], [mW/g]). Some of these units are not available in certain situations or give meaningless results, e.g., a SAR-output in a non-lose media, will always be zero. Raw data can also be exported to perform the evaluation with other software packages.

 Data Evaluation
The DASY post-processing software (SEMCAD) automatically executes the following procedures to calculate the field units from the microvolt readings at the probe connector. The parameters used in the evaluation are stored in the configuration modules of the software.

Probe parameters
Device parameters Media parameters

- Sensitivity - Conversion factor - Diode compression point - Frequency - Crest factor - Conductivity - Density

Normi, ai0, ai1, ai2 ConvFi dcpi f cf  

These parameters must be set correctly in the software. They can be found in the component documents or they can be imported into the software from the configuration files issued for the DASY components. In the direct measuring mode of the multi-meter option, the parameters of the actual system setup are used. In the scan visualization and export modes, the parameters stored in the corresponding document files are used.
The first step of the evaluation is a linearization of the filtered input signal to account for the compression characteristics of the detector diode. The compensation depends on the input signal, the diode type and the DC-transmission factor from the diode to the evaluation electronics. If the

MORLAB

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Page 19 of 94

REPORT No.SZ22100161S02

exciting field is pulsed, the crest factor of the signal must be known to correctly compensate for peak power.

The formula for each channel can be given as:

With

V

U

U

cf dcp

Vi = compensated signal of channel i, (i = x, y, z) Ui = input signal of channel i, (i = x, y, z)

cf = crest factor of exciting field (DASY parameter)

dcpi = diode compression point (DASY parameter)

From the compensated input signals, the primary field data for each channel can be evaluated: E-field Probes:E

With

H-field Probes:H V
Vi = compensated signal of channel i, (i = x, y, z) Normi = sensor sensitivity of channel i, (i = x, y, z), V/(V/m)2 forE-field Probes ConvF = sensitivity enhancement in solution aij = sensor sensitivity factors for H-field probes f = carrier frequency [GHz] Ei = electric field strength of channel i in V/m Hi = magnetic field strength of channel i in A/m

The RSS value of the field components gives the total field strength (Hermitian magnitude):

E

EEE

The primary field data are used to calculate the derived field units.

SAR E

  1000

with SAR = local specific absorption rate in mW/g

Etot = total field strength in V/m  = conductivity in [mho/m] or [Siemens/m]  = equivalent tissue density in g/cm3

Note that the density is set to 1, to account for actual head tissue density rather than the density of the tissue simulating liquid.

MORLAB

Shenzhen Morlab Communications Technology Co., Ltd. FL1-3, Building A, FeiYang Science Park, No.8 LongChang Road, Block67, BaoAn District, ShenZhen , GuangDong Province, P. R. China

Tel: 86-755-36698555 Http://www.morlab.cn

Fax: 86-755-36698525 E-mail: [email protected]
Page 20 of 94

REPORT No.SZ22100161S02

6.9. Test Equipment List

Manufacturer
SPEAG SPEAG SPEAG SPEAG SPEAG SPEAG SPEAG SPEAG SPEAG SPEAG SPEAG
SPEAG
SPEAG SPEAG SPEAG SPEAG Anritsu Anritsu Anritsu Agilent Speag mini-circuits mini-circuits Agilent
R&S Agilent
R&S Anritsu Agilent MCL

Name of Equipment
750MHz System Validation Kit 900MHz System Validation Kit 1800MHz System Validation Kit 2000MHz System Validation Kit 2300MHz System Validation Kit 2450MHz System Validation Kit 2600MHz System Validation Kit 3500MHz System Validation Kit 3900MHz System Validation Kit 5000MHz System Validation Kit
Dosimetric E-Field Probe DOSIMETRIC ASSESSMENT
SYSTEM Dosimetric E-Field Probe Data Acquisition Electronics
Twin-SAM Phone Positioner Network Emulator Network Emulator Network Emulator Network Analyzer Dielectric Assessment KIT
Amplifier Amplifier Signal Generator Power Senor Power Meter Power Sensor Power Meter Dual Directional Coupler Attenuation 1

Type/Model
D750V3 D900V2 D1800V2 D2000V2 D2300V2 D2450V2 D2600V2 D3500V2 D3900V2 D5GHzV2 EX3DV4
DASY52
EX3DV4 DAE4
QD000P40Ax N/A
MT8820C MT8821C MT8000A E5071B DAK-3.5 ZHL-42W+ ZVE-8G+ N5182B
NRP8S E4416A NRP8S E4418B
778D 351-218-010

Serial No./ SW Version
1223 1d064 2d158 1050 1107
805 1198 1104 1046 1176 3823

Calibration

Last Cal.

Due Date

2022.08.22 2025.08.21

2021.12.17 2024.12.16

2021.12.17 2024.12.16

2021.12.18 2024.12.17

2020.06.03 2023.06.02

2021.12.17 2024.12.16

2022.08.17 2025.08.16

2020.06.03 2023.06.02

2020.06.02 2023.06.01

2021.12.19 2024.12.18

2022.03.04 2023.03.03

52.10.4.1527

NCR

NCR

7608 1643 2020 N/A 6200985414 6261830572 6262148249 MY42404762 1279 608501717 754401735 MY53050509 103215 MY45102093 103240 GB43318055 50422 N/A

2022.01.12 2021.12.30
NCR NCR 2022.10.11 2022.02.14 2022.08.15 2022.03.01 2022.09.17 NCR NCR 2022.01.07 2022.01.25 2022.10.11 2022.02.14 2022.08.30 NA NA

2023.01.11 2022.12.29
NCR NCR 2023.10.10 2023.02.13 2023.08.14 2023.02.28 2023.09.16 NCR NCR 2023.01.06 2023.01.24 2023.10.10 2023.02.13 2023.08.29 NA NA

MORLAB

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Tel: 86-755-36698555 Http://www.morlab.cn

Fax: 86-755-36698525 E-mail: [email protected]
Page 21 of 94

REPORT No.SZ22100161S02

R&S

Spectrum Analyzer

N9030A

MY54170556 2022.10.10 2023.10.09

KTJ

Thermo meter

TA298

N/A

2021.12.21 2022.12.20

SPEAG

Tissue Simulating Liquids

HBBL600-10000V6

24H

Note: 1. The calibration certificate of DASY can be referred to appendix G of this report. 2. The Insertion Loss calibration of Dual Directional Coupler and Attenuator were characterized via
the network analyzer and compensated during system check. 3. The dielectric probe kit was calibrated via the network analyzer, with the specified procedure
(calibrated in pure water) and calibration kit (standard) short circuit, before the dielectric measurement. The specific procedure and calibration kit are provided by Speag. 4. In system check we need to monitor the level on the power meter, and adjust the power amplifier level to have precise power level to the dipole; the measured SAR will be normalized to 1W input power according to the ratio of1W to the input power to the dipole. For system check, the calibration of the power amplifier is deemed not critically required for correct measurement; the power meter is critical and we do have calibration for it. 5. Attenuator insertion loss is calibrated by the network Analyzer, which the calibration is valid, before system check. 6. N.C.R means No Calibration Requirement.

MORLAB

Shenzhen Morlab Communications Technology Co., Ltd. FL1-3, Building A, FeiYang Science Park, No.8 LongChang Road, Block67, BaoAn District, ShenZhen , GuangDong Province, P. R. China

Tel: 86-755-36698555 Http://www.morlab.cn

Fax: 86-755-36698525 E-mail: [email protected]
Page 22 of 94

7. Tissue Simulating Liquids

REPORT No.SZ22100161S02

For SAR measurement of the field distribution inside the phantom, the phantom must be filled with homogeneous tissue simulating liquid to a depth of at least 15cm.For head SAR testing, the liquid height from the ear reference point (ERP) of the phantom to the liquid top surface is larger than 15cm. For body SAR testing, the liquid height from the center of the flat phantom to the liquid top surface is larger than 15cm, which is shown in Fig. 7.1. For body SAR testing, the liquid height from the center of the flat phantom to the liquid top surface is larger than 15 cm, which is shown in Fig. 7.2.Thenominaldielectricvaluesofthe tissue simulating liquids in the phantom and the tolerance of 5%are listed in below table.

Fig 7.1 Photo of Liquid Height for Head SAR

Fig 7.2 Photo of Liquid Height for Body SAR

The following table gives the recipes for tissue simulating liquids

Frequency (MHz)

Water Sugar Cellulose Salt Preventol DGBE Conductivity

(%)

(%)

(%)

(%)

(%)

(%)

()

Head

750

41.1 57.0

0.2

1.4

0.2

0

0.89

835

40.3 57.9

0.2

1.4

0.2

0

0.90

1800,1900,2000 55.2

0

0

0.3

0

44.5

1.40

2450

55.0

0

0

0

0

45.0

1.80

2600

54.8

0

0

0.1

0

45.1

1.96

Body

750

51.7 47.2

0

0.9

0.1

0

0.96

835

50.8 48.2

0

0.9

0.1

0

0.97

1800,1900,2000 70.2

0

0

0.4

0

29.4

1.52

2450

68.6

0

0

0

0

31.4

1.95

2600

68.1

0

0

0.1

0

31.8

2.16

Simulating Liquid for 5GHz, Manufactured by SPEAG.

Ingredients

(% by weight)

Water

64~78%

Mineral oil

11~18%

Emulsifiers

9~15%

Additives and Salt

2~3%

Permittivity (r)
41.9 41.5 40.0 39.2 39.0
55.5 55.2 53.3 52.7 52.5

MORLAB

Shenzhen Morlab Communications Technology Co., Ltd. FL1-3, Building A, FeiYang Science Park, No.8 LongChang Road, Block67, BaoAn District, ShenZhen , GuangDong Province, P. R. China

Tel: 86-755-36698555 Http://www.morlab.cn

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Page 23 of 94

REPORT No.SZ22100161S02

Note: Please refer to the validation results for dielectric parameters of each frequency band. The dielectric properties of the tissue simulating liquids were verified prior to the SAR evaluation using a SPEAG Dielectric Assessment KIT and an Agilent Network Analyzer.
Table 1: Dielectric Performance of Tissue Simulating Liquid

Frequency (MHz)

Tissue Type

Liquid Temp.( )

Conductivity ()

Conductivity Delta ()

Target ()

(%)

Limit (%)

Date

750

HSL

22.1

900

HSL

22.1

1800

HSL

22.2

2000

HSL

22.2

2300

HSL

22.3

2450

HSL

22.3

2600

HSL

22.4

3500

HSL

22.4

3900

HSL

22.4

5250

HSL

22.5

5600

HSL

22.5

5750

HSL

22.5

0.905 0.981 1.423 1.428 1.667 1.817 1.987 2.909 3.233 4.706 5.115 5.342

0.89

1.69

±5

2022.11.13

0.97

1.13

±5

2022.11.15

1.40

1.64

±5

2022.11.18

1.40

2.00

±5

2022.11.20

1.67

-0.18

±5

2022.11.22

1.80

0.94

±5

2022.11.25

1.96

1.38

±5

2022.11.27

2.91

-0.03

±5

2022.11.29

3.15

2.63

±5

2022.12.02

4.71

-0.08

±5

2022.12.05

5.07

0.89

±5

2022.12.08

5.22

2.34

±5

2022.12.11

Frequency (MHz)
750 900 1800 2000 2300 2450 2600 3500 3900 5250 5600 5750

Tissue Type
HSL HSL HSL HSL HSL HSL HSL HSL HSL HSL HSL HSL

Liquid Temp.( )
22.1 22.1 22.2 22.2 22.3 22.3 22.4 22.4 22.4 22.5 22.5 22.5

Permittivity (r)
42.042 41.350 41.125 40.202 39.467 38.801 38.494 37.906 39.264 36.334 35.529 35.121

Permittivity Target (r)
41.90 41.50 40.00 40.00 39.50 39.20 39.00 37.90 37.50 35.95 35.50 35.35

Delta (r) (%)
0.34 -0.36 2.81 0.50 -0.08 -1.02 -1.30 0.02 4.70 1.07 0.08 -0.65

Limit (%)
±5 ±5 ±5 ±5 ±5 ±5 ±5 ±5 ±5 ±5 ±5 ±5

Date
2022.11.13 2022.11.15 2022.11.18 2022.11.20 2022.11.22 2022.11.25 2022.11.27 2022.11.29 2022.12.02 2022.12.05 2022.12.08 2022.12.11

MORLAB

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Tel: 86-755-36698555 Http://www.morlab.cn

Fax: 86-755-36698525 E-mail: [email protected]
Page 24 of 94

8. SAR System Verification

REPORT No.SZ22100161S02

Each DASY system is equipped with one or more system validation kits. These units, together with the predefined measurement procedures within the DASY software, enable the user to conduct the system performance check and system validation. System validation kit includes a dipole, tripod holder to fix it underneath the flat phantom and a corresponding distance holder.
8.1. Purpose of System Performance Check

The system performance check verifies that the system operates within its specifications. System and operator errors can be detected and corrected. It is recommended that the system performance check be performed prior to any usage of the system in order to guarantee reproducible results. The system performance check uses normal SAR measurements in a simplified setup with a well characterized source. This setup was selected to give a high sensitivity to all parameters that might fail or vary over time. The system check does not intend to replace the calibration of the components, but indicates situations where the system uncertainty is exceeded due to drift or failure.
8.2. System Setup

The output power on dipole port must be calibrated to 24 dBm (250 mW) before dipole is connected. In the simplified setup for system evaluation, the DUT is replaced by a calibrated dipole and the power source is replaced by a continuous wave which comes from a signal generator. The calibrated dipole must be placed beneath the flat phantom section of the SAM twin phantom with the correct distance holder. The distance holder should touch the phantom surface with a light pressure at the reference marking and be oriented parallel to the long side of the phantom. The system check verifies that the system operates within its specifications. It is performed daily or before every SAR measurement. The system check uses normal SAR measurements in the flat section of the phantom with a matched dipole at a specified distance. The system verification setup is shown as below.

Fig 8.1 Photo of Dipole Setup

Fig 8.2 System Setup for System Evaluation

MORLAB

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Tel: 86-755-36698555 Http://www.morlab.cn

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Page 25 of 94

8.3. Validation Results

REPORT No.SZ22100161S02

After system check testing, the SAR result will be normalized to 1W forward input power and compared with the reference SAR value derived from validation dipole certificate report. The deviation of system check should be within 10%. <Validation Setup>

Frequency (MHz)

Tissue Type

Input Power(mW)

Dipole S/N

Probe S/N

DAE S/N

750

HSL

900

HSL

1800

HSL

2000

HSL

2300

HSL

2450

HSL

2600

HSL

3500

HSL

3900

HSL

5250

HSL

5600

HSL

5750

HSL

250

D750V3-1223

7608

1643

250

D900V2-1d064

7608

1643

250

D1800V2-2d158

7608

1643

250

D2000V2-1050

7608

1643

250

D2300V2-1107

7608

1643

250

D2450V2-805

7608

1643

250

D2600V2-1198

7608

1643

100

D3500V2-1104

7608

1643

100

D3900V2-1046

7608

1643

100

D5GHzV2-1176-5250

7608

1643

100

D5GHzV2-1176-5600

7608

1643

100

D5GHzV2-1176-5750

3823

1643

<System Validation>

Frequency (MHz)

Tissue Type

750

HSL

835

HSL

1750

HSL

1800

HSL

1900

HSL

2000

HSL

2300

HSL

2450

HSL

2600

HSL

3400

HSL

3500

HSL

3700

HSL

3900

HSL

Conductivity ()
0.851 0.898 1.386 1.449 1.435 1.451 1.764 1.863 1.973 2.88 2.91 3.05 3.15

Permittivity (r)
42.43 41.88 39.91 41.26 39.65 39.42 38.99 38.85 38.58 38.10 37.90 37.70 37.50

CW Signal Validation

Sensitivity PASS

Probe Linearity
PASS

Probe Isotropy
PASS

PASS

PASS

PASS

PASS

PASS

PASS

PASS

PASS

PASS

PASS

PASS

PASS

PASS

PASS

PASS

PASS

PASS

PASS

PASS

PASS

PASS

PASS

PASS

PASS

PASS

PASS

PASS

PASS

PASS

PASS

PASS

PASS

PASS

PASS

PASS

PASS

MORLAB

Shenzhen Morlab Communications Technology Co., Ltd. FL1-3, Building A, FeiYang Science Park, No.8 LongChang Road, Block67, BaoAn District, ShenZhen , GuangDong Province, P. R. China

Tel: 86-755-36698555 Http://www.morlab.cn

Fax: 86-755-36698525 E-mail: [email protected]
Page 26 of 94

4100 4200 4400 4600 4800 4900 5250 5600 5750
Frequency (MHz)
750 835 1750 1800 1900 2000 2300 2450 2600 3400 3500 3700 3900 4100 4200 4400 4600 4800 4900 5250 5600 5750

REPORT No.SZ22100161S02

HSL

3.25

37.20

PASS

PASS

PASS

HSL

3.34

37.00

PASS

PASS

PASS

HSL

3.58

36.70

PASS

PASS

PASS

HSL

3.70

36.60

PASS

PASS

PASS

HSL

3.82

36.40

PASS

PASS

PASS

HSL

3.96

36.20

PASS

PASS

PASS

HSL

4.528

35.32

PASS

PASS

PASS

HSL

4.905

34.89

PASS

PASS

PASS

HSL

5.077

34.28

PASS

PASS

PASS

Tissue Type
HSL HSL HSL HSL HSL HSL HSL HSL HSL HSL HSL HSL HSL HSL HSL HSL HSL HSL HSL HSL HSL HSL

Conductivity ()
0.851 0.898 1.386 1.449 1.435 1.451 1.764 1.863 1.973 2.88 2.91 3.05 3.15 3.25 3.34 3.58 3.70 3.82 3.96 4.528 4.905 5.077

Permittivity (r)
42.43 41.88 39.91 41.26 39.65 39.42 38.99 38.85 38.58 38.10 37.90 37.70 37.50 37.20 37.00 36.70 36.60 36.40 36.20 35.32 34.89 34.28

Modulation Signal Validation

Mod. Type N/A

Duty Factor
N/A

PAR N/A

GMSK

PASS

N/A

N/A

N/A

N/A

N/A

N/A

N/A

GMSK

PASS

N/A

GMSK

PASS

N/A

OFDM

PASS

PASS

OFDM

PASS

PASS

TDD

PASS

N/A

OFDM

PASS

PASS

OFDM

PASS

PASS

OFDM

PASS

PASS

OFDM

PASS

PASS

OFDM

PASS

PASS

OFDM

PASS

PASS

OFDM

PASS

PASS

OFDM

PASS

PASS

OFDM

PASS

PASS

OFDM

PASS

PASS

OFDM

N/A

PASS

OFDM

N/A

PASS

OFDM

N/A

PASS

MORLAB

Shenzhen Morlab Communications Technology Co., Ltd. FL1-3, Building A, FeiYang Science Park, No.8 LongChang Road, Block67, BaoAn District, ShenZhen , GuangDong Province, P. R. China

Tel: 86-755-36698555 Http://www.morlab.cn

Fax: 86-755-36698525 E-mail: [email protected]
Page 27 of 94

<Validation Results>

Date

Frequency (MHz)

2022.11.13 2022.11.15 2022.11.18 2022.11.20 2022.11.22 2022.11.25 2022.11.27 2022.11.29 2022.12.02 2022.12.05 2022.12.08 2022.12.11

750 900 1800 2000 2300 2450 2600 3500 3900 5250 5600 5750

REPORT No.SZ22100161S02

Tissue Type
HSL HSL HSL HSL HSL HSL HSL HSL HSL HSL HSL HSL

Input Power (mW)
250 250 250 250 250 250 250 100 100 100 100 100

Measured 1g SAR (W/kg) 2.11 2.92 9.78 10.20 12.58 13.40 14.25 7.02 7.38 7.57 8.05 7.98

Targeted 1g SAR (W/kg)
8.54 11.20 39.20 41.60 48.40 52.30 57.00 67.20 69.90 76.70 80.80 78.70

Normalized 1g SAR (W/kg) 8.44 11.68 39.12 40.8 50.32 53.6 57 70.2 73.8 75.7 80.5 79.8

Deviation (%)
-1.17 4.29 -0.20 -1.92 3.97 2.49 0.00 4.46 5.58 -1.30 -0.37 1.40

Date

Frequency (MHz)

Tissue Type

Input Power (mW)

Measured 10g SAR
(W/kg)

2022.11.13

750

HSL

250

1.42

2022.11.15

900

HSL

250

1.88

2022.11.18

1800

HSL

250

5.10

2022.11.20

2000

HSL

250

5.21

2022.11.22

2300

HSL

250

6.02

2022.11.25

2450

HSL

250

6.23

2022.11.27

2600

HSL

250

6.53

2022.11.29

3500

HSL

100

2.68

2022.12.02

3900

HSL

100

2.60

2022.12.05

5250

HSL

100

2.25

2022.12.08

5600

HSL

100

2.37

2022.12.11

5750

HSL

100

2.35

Note: System checks the specific test data please see Annex C.

Targeted 10g SAR
(W/kg) 5.57 7.19 20.10 20.70 23.00 23.90 25.70 25.10 24.10 22.10 23.30 22.50

Normalized 10g SAR (W/kg) 5.68 7.52 20.4 20.84 24.08 24.92 26.12 26.8 26 22.5 23.7 23.5

Deviation (%)
1.97 4.59 1.49 0.68 4.70 4.27 1.63 6.77 7.88 1.81 1.72 4.44

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Page 28 of 94

9. EUT Testing Position

REPORT No.SZ22100161S02

This EUT was tested in six different positions. They are right cheek/right tilted/left cheek/left tilted for head, Front/Back of the EUT with phantom 10 mm gap, as illustrated below, please refer to Appendix B for the test setup photos.
9.1. Handset Reference Points

The vertical centre line passes through two points on the front side of the handset ­ the midpoint of the width wt of the handset at the level of the acoustic output, and the midpoint of the width wb of the bottom of the handset. The horizontal line is perpendicular to the vertical centre line and passes the center of the acoustic output. The horizontal line is also tangential to the handset at point A. The two lines intersect at point A. Note that for many handsets, point A coincides with the center of the acoustic output; however, the acoustic output may be located elsewhere on the horizontal line. Also note that the vertical centre line is not necessarily parallel to the front face of the handset, especially for clamshell handsets, handsets with flip covers, and other irregularly shaped handsets.

Fig. 9.1 Illustration for Cheek Position

Fig. 9.2 Illustration for Handset Vertical and Horizontal Reference Lines

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Page 29 of 94

9.2. Positioning for Cheek / Touch

REPORT No.SZ22100161S02

To position the device with the vertical center line of the body of the device and the horizontal line crossing the center piece in a plane parallel to the sagittal plane of the phantom. While maintaining the device in this plane, align the vertical center line with the reference plane containing the three ear and mouth reference point (M: Mouth, RE: Right Ear and LE: Left Ear) and align the center of the ear piece with the line RE-LE.

To move the device towards the phantom with the ear piece aligned with the line LE-RE until the phone touched the ear. While maintaining the device in the reference plane and maintaining the phone contact with the ear, move the bottom of the phone until any point on the front side is in contact with the cheek of the phantom or until contact with the ear is lost (see below figure)

Fig 9.3 Illustration for Cheek Position
9.3. Positioning for Ear / 15º Tilt
To position the device in the "cheek" position described above. While maintaining the device the reference plane described above and pivoting against the ear, moves it outward away from the mouth by an angle of 15 degrees or until contact with the ear is lost (see figure below).

Fig 9.4 Illustration for Tilted Position

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Page 30 of 94

REPORT No.SZ22100161S02
9.4. SAR Evaluation near the Mouth/Jaw Regions of the Phantom
Antennas located near the bottom of a phone may require SAR measurements around the mouth and jaw regions of the SAM head phantom. This typically applies to clam-shell style phones that are generally longer in the unfolded normal use positions or to certain older style long rectangular phones. Under these circumstances, the following procedures apply, adopted from the FCC guidance on SAR handsets document FCC KDB Publication 648474 D04v01r03. The SAR required in these regions of SAM should be measured using a flat phantom. The phone should be positioned with a separation distance of 4 mm between the ear reference point (ERP) and the outer surface of the flat phantom shell. While maintaining this distance at the ERP location, the low (bottom) edge of the phone should be lowered from the phantom to establish the same separation distance between the peak SAR locations identified by the truncated partial SAR distribution measured with the SAM phantom. The distance from the peak SAR location to the phone is determined by the straight line passing perpendicularly through the phantom surface. When it is not feasible to maintain 4 mm separation at the ERP while also establishing the required separation at the peak SAR location, the top edge of the phone will be allowed to touch the phantom with a separation < 4 mm at the ERP. The phone should not be tilted to the left or right while placed in this inclined position to the flat phantom.
9.5. Body-worn Configurations
The body-worn configurations shall be tested with the supplied accessories (belt-clips, holsters, etc.) attached to the device in normal use configuration. For body-worn and other configurations a flat phantom shall be used which is comprised of material with electrical properties similar to the corresponding tissues.

Fig 9.5 Illustration for Body Worn Position

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Page 31 of 94

REPORT No.SZ22100161S02
9.6. Hotspot Mode Exposure Position Conditions
For handsets that support hotspot mode operations, with wireless router capabilities and various web browsing functions, the relevant hand and body exposure conditions are tested according to the hotspot SAR procedures in KDB 941225. A test separation distance of 10 mm is required between the phantom and all surfaces and edges with a transmitting antenna located within 25 mm from that surface or edge. When the form factor of a handset is smaller than 9 cm x 5 cm, a test separation distance of 5 mm (instead of 10 mm) is required for testing hotspot mode. When the separation distance required for body-worn accessory testing is larger than or equal to that tested for hotspot mode, in the same wireless mode and for the same surface of the phone, the hotspot mode SAR data may be used to support body-worn accessory SAR compliance for that particular configuration (surface).
Fig 9.6 Illustration for Hotspot Position

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Page 32 of 94

REPORT No.SZ22100161S02
10. Measurement Procedures
The measurement procedures are as follows: <Conducted power measurement>
(a) For WWAN power measurement, use base station simulator to configure EUT WWAN transmission in conducted connection with RF cable, at maximum power in each supported wireless interface and frequency band.
(b) Read the WWAN RF power level from the base station simulator. (c) For WLAN/BT power measurement, use engineering software to configure EUT
WLAN/BT continuously transmission, at maximum RF power in each supported wireless interface and frequency band. (d) Connect EUT RF port through RF cable to the power meter, and measure WLAN/BT output power. <SAR measurement> (a) Use base station simulator to configure EUT WWAN transmission in radiated connection, and engineering software to configure EUT WLAN/BT continuously transmission, at maximum RF power, in the highest power channel. (b) Place the EUT in the positions as Appendix D demonstrates. (c) Set scan area, grid size and other setting on the DASY software. (d) Measure SAR results for the highest power channel on each testing position. (e) Find out the largest SAR result on these testing positions of each band. (f) Measure SAR results for other channels in worst SAR testing position if the reported SAR of highest power channel is larger than 0.8 W/kg.
According to the test standard, the recommended procedure for assessing the peak spatial-average SAR value consists of the following steps:
(a) Power reference measurement. (b) Area scan. (c) Zoom scan. (d) Power drift measurement.
10.1. Spatial Peak SAR Evaluation
The procedure for spatial peak SAR evaluation has been implemented according to the test standard. It can be conducted for 1g and 10g, as well as for user-specific masses. The DASY software includes all numerical procedures necessary to evaluate the spatial peak SAR value. The base for the evaluation is a "cube" measurement. The measured volume must include the 1g and 10g cubes with the highest averaged SAR values. For that purpose, the center of the measured volume is aligned to the interpolated peak SAR value of a previously performed area scan.

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Page 33 of 94

REPORT No.SZ22100161S02
The entire evaluation of the spatial peak values is performed within the post-processing engine (SEMCAD). The system always gives the maximum values for the 1g and 10g cubes. The algorithm to find the cube with highest averaged SAR is divided into the following stages:
(a) Extraction of the measured data (grid and values) from the Zoom Scan. (b) Calculation of the SAR value at every measurement point based on all stored data (A/D
values and measurement parameters). (c) Generation of a high-resolution mesh within the measured volume. (d) Interpolation of all measured values form the measurement grid to the high-resolution grid. (e) Extrapolation of the entire 3-D field distribution to the phantom surface over the distance
from sensor to surface. (f)Calculation of the averaged SAR within masses of 1g and 10g.
10.2. 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. This distance cannot be smaller than the distance of sensor calibration points to probe tip as defined in the probe properties.
10.3. Area Scan Procedures
Area scans are defined prior to the measurement process being executed with a user defined variable spacing between each measurement point (integral) allowing low uncertainty measurements to be conducted. Scans defined for FCC applications utilize a10mm² step integral, with 1mm interpolation used to locate the peak SAR area used for zoom scan assessments.
When an Area Scan has measured all reachable points, it computes the field maxima founding 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 IEEE1528-2003.
10.4. Zoom Scan Procedures
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. A density of 1000 kg/m³ is used to represent the head and body tissue density and not the phantom liquid density, in order to be consistent with the definition of the liquid dielectric properties, i.e. the side length of the 1g cube is 10mm, with the side

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Page 34 of 94

REPORT No.SZ22100161S02
length of the 10 g cube 21,5mm.The zoom scan integer steps can be user defined so as to reduce uncertainty, but normal practice for typical test applications utilize a physical step of 5x5x7 (8mmx8mmx5mm) providing a volume of 32mm in the X & Y axis, and 30mm in the Z axis.
10.5. SAR Averaged Methods
In DASY, the interpolation and extrapolation are both based on the modified Quadratic Sheppard's method. The interpolation scheme combines a least-square fitted function method and a weighted average method which are the two basic types of computational interpolation and approximation.
Extrapolation routines are used to obtain SAR values between the lowest measurement points and the inner phantom surface. The extrapolation distance is determined by the surface detection distance and the probe sensor offset. The uncertainty increases with the extrapolation distance. To keep the uncertainty within 1% for the 1 g and 10 g cubes, the extrapolation distance should not be larger than 5 mm.
10.6. Power Drift Monitoring
All SAR testing is under the DUT install full charged battery and transmit maximum output power. In DASY measurement software, the power reference measurement and power drift measurement procedures are used for monitoring the power drift of DUT during SAR test. Both these procedures measure the field at a specified reference position before and after the SAR testing. The software will calculate the field difference in dB. If the power drift more than 5%, the SAR will be retested.

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Page 35 of 94

11. SAR Test Procedure
11.1. General Scan Requirements

REPORT No.SZ22100161S02

Probe boundary effect error compensation is required for measurements with the probe tip closer than half a probe tip diameter to the phantom surface. Both the probe tip diameter and sensor offset distance must satisfy measurement protocols; to ensure probe boundary effect errors are minimized and the higher fields closest to the phantom surface can be correctly measured and extrapolated to the phantom surface for computing 1-g SAR. Tolerances of the post-processing algorithms must be verified by the test laboratory for the scan resolutions used in the SAR measurements, according to the reference distribution functions specified in IEEE Std. 1528-2013.

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Page 36 of 94

11.2. Test Procedure

REPORT No.SZ22100161S02

The Following steps are used for each test position 1. Establish a call with the maximum output power with a base station simulator. The connection
between the mobile and the base station simulator is established via air interface. 2. Measurement of the local E-field value at a fixed location. This value serves as a reference value
for calculating a possible power drift. 3. Measurement of the SAR distribution with a grid of 8 to 16mm * 8 to16 mm and a constant
distance to the inner surface of the phantom. Since the sensors cannot directly measure at the inner phantom surface, the values between the sensors and the inner phantom surface are extrapolated. With these values the area of the maximum SAR is calculated by an interpolation scheme. 4. Around this point, a cube of 30 * 30 * 30 mm or 32 * 32 * 32 mm is assessed by measuring 5 or 8 * 5 or 8*4 or 5 mm. With these data, the peak spatial-average SAR value can be calculated.

11.3. Description of Interpolation/Extrapolation Scheme
The local SAR inside the phantom is measured using small dipole sensing elements inside a probe body. The probe tip must not be in contact with the phantom surface in order to minimize measurements errors, but the highest local SAR will occur at the surface of the phantom.
An extrapolation is using to determinate this highest local SAR values. The extrapolation is based on a fourth-order least-square polynomial fit of measured data. The local SAR value is then extrapolated from the liquid surface with a 1mm step.
The measurements have to be performed over a limited time (due to the duration of the battery) so the step of measurement is high. It could vary between 5 and 8 mm. To obtain an accurate assessment of the maximum SAR averaged over 10 grams and 1 gram requires a very fine resolution in the three dimensional scanned data array.

11.4. Wireless Router
Some battery-operated handsets have the capability to transmit and receive user through simultaneous transmission of WIFI simultaneously with a separate licensed transmitter. The FCC has provided guidance in FCC KDB Publication 941225 D06 v02r01 where SAR test considerations for handsets (L x W  9 cm x 5 cm) are based on a composite test separation distance of 10 from the front, back and edges of the device containing transmitting antennas within 2.5cm of their edges,

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Page 37 of 94

REPORT No.SZ22100161S02
determined form general mixed use conditions for this type of devices. Since the hotspot SAR results may overlap with the body-worn accessory SAR requirements, the more conservative configurations can be considered, thus excluding some body-worn accessory SAR tests. When the user enables the personal wireless router functions for the handset, actual operations include simultaneous transmission of both the WIFI transmitter and another licensed transmitter. Both transmitters often do not transmit at the same transmitting frequency and thus cannot be evaluated for SAR under actual use conditions due to the limitations of the SAR assessment probes. Therefore, SAR must be evaluated for each frequency transmission and mode separately and spatially summed with the WIFI transmitter according to FCC KDB Publication 447498 D01v06 publication procedures. The "Portable Hotspot" feature on the handset was NOT activated during SAR assessments, to ensure the SAR measurements were evaluated for a single transmission frequency RF signal at a time.

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Page 38 of 94

12. SAR Test Configuration

REPORT No.SZ22100161S02

<GSM Mode>

A summary of these settings are illustrated below: For GSM850 frequency band, the power control is set to 5 for GSM/GPRS mode (GSMK-CS1) and set to 8 for EDGE mode (MCS5); For GSM1900 frequency band, the power control is set to 0 for GSM/GPRS mode (GSMK-CS1) and set to 2 for EDGE mode (MCS5). 1. Per KDB 447498 D04v01, the maximum output power channel is used for SAR testing and for
further SAR test reduction. 2. Per KDB 941225 D01v03r01, SAR test reduction for GSM / GPRS / EDGE modes is determined
by the source-based time-averaged output power including tune-up tolerance. The 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. Therefore, the GPRS (4Tx slots) for GSM850/GSM1900 is considered as the primary mode. 3. Other configurations of GSM / GPRS / EDGE are considered as secondary modes. Timeslot consignations:

Remark: 1. The frame-averaged power is linearly reported the maximum burst averaged power over
8 time slots. The calculated method are shown as below: The duty cycle "x" of different time slots as below: 1 TX slot is 1/8, 2 TX slots is 2/8, 3 TX slots is 3/8 and 4 TX slots is 4/8 Based on the calculation formula: Frame-averaged power = Burst averaged power + 10 1og (x) So, Frame-averaged power (1 TX slot) = Burst averaged power (1 TX slot)­ 9.03 Frame-averaged power (2 TX slots) = Burst averaged power (2 TX slots)­ 6.02 Frame-averaged power (3 TX slots) = Burst averaged power (3 TX slots)­ 4.26 Frame-averaged power (4 TX slots) = Burst averaged power (4 TX slots) ­ 3.01 2. CS1 coding scheme was used in GPRS conducted power measurements and SAR testing, MCS5 coding scheme was used in EGPRS conducted power measurements and SAR testing (if necessary).

No. of Slots:

Slot 1

Slot 2

Slot 3

Slot 4

Slot Consignation: Duty Cycle:
Correct Factor:

1Up 4Down 1:8.3
-9.03dB

2Up 3Down 1:4.15 -6.02dB

3Up 2Down 1:2.77 -4.26dB

4Up 1Down 1:2.08 -3.01dB

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Page 39 of 94

REPORT No.SZ22100161S02
<WCDMA Mode>
Summary of UMTS conducted power measurement:
1. The 3G SAR test reduction procedure is applied, 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, SAR measurement is not required for the secondary mode.
2. The following tests were conducted according to the test requirements outlines in 3GPP TS 34.121 specification.
3. The procedures in KDB 941225 D01v03r01 are applied for 3GPP Rel. 6 HSPA to configure the device in the required sub-test mode(s) to determine SAR test exclusion.
4. For HSPA+ devices supporting 16 QAM in the uplink, power measurements procedure is according to the configurations in Table C.11.1.4 of 3GPP TS 34.121-1.
5. Per KDB 941225 D01v03r01, RMC 12.2kbps setting is used to evaluate SAR. The maximum output power and tune-up tolerance specified for production units in HSDPA / HSUPA / DC-HSDPA / HSPA+ is  ¼ dB higher than RMC 12.2Kbps or when the highest reported SAR of the RMC12.2Kbps is scaled by the ratio of specified maximum output power and tune-up tolerance of HSDPA / HSUPA / DC-HSDPA / HSPA+ to RMC12.2Kbps and the adjusted SAR is  1.2 W/kg, SAR measurement is not required for HSDPA / HSUPA / DC-HSDPA / HSPA+, and according to the following RF output power, the output power results of the secondary modes (HSDPA / HSUPA / DC-HSDPA / HSPA+) are less than ¼ dB higher than the primary modes; therefore, SAR measurement is not required for HSDPA / HSUPA / DC-HSDPA / HSPA+.
6. A fixed level power reduction is applied for WCDMA Band II when handset open Hotspot mode, the power reduction triggered.
HSDPA Setup Configuration

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Page 40 of 94

HSUPA Setup Configuration

REPORT No.SZ22100161S02

HSPA+ 3GPP release 7 (uplink category 7) 16QAM, Setup Configuration:

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Page 41 of 94

DC-HSDPA Setup Configuration

REPORT No.SZ22100161S02

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.

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.

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Page 42 of 94

REPORT No.SZ22100161S02

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Page 43 of 94

REPORT No.SZ22100161S02
<CDMA Mode>
1xEV-DO Rev. B
Call box setup procedure 1xEV-DO Release B 1> CMW 500 Signal Generator > 1xEV-DO Taskbar Enable 2> CMW 500 1xEV-DO Signaling Configuration Window > 3> 1xEV-DO Signaling On Window:
Under Access Network Control: Band Class: BC0: US Cellular RF Channel: 31 1xEV-DO Power: -70 dBm 4> 1xEV-DO Signaling Configuration Window Under RF Frequency Band / Channel: Enter Ch. Frequency

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Page 44 of 94

REPORT No.SZ22100161S02

<LTE Mode>

LTE Target MPR level

The device implements maximum power reduction per 3GPP 36.101 requirements where the

MPR target is as below table. The MPR settings are implemented configured into firmware and

cannot be disabled by the end user or LTE carrier network.

Modulation
QPSK 16 QAM 64 QAM

Channel bandwidth / Transmission bandwidth configuration [RB]

1.4

3.0

5

10

15

20

MHz

MHz

MHz

MHz

MHz

MHz

> 5

> 4

> 8

> 12

> 16

> 18

 5

 4

 8

 12

 16

 18

> 5

> 4

> 8

> 12

> 16

> 18

MPR Target
(dB) 1 1 2

3GPP MPR
(dB)  1  1  2

Note: The measurement result showed some difference from the target MPR level, due to

expected 0.5dBmeasurement tolerance

LTE Bands

LTE Bands 2

Channel bandwidth / Transmission bandwidth configuration [RB]

1.4

3.0

5

10

15

20

MHz

MHz

MHz

MHz

MHz

MHz













4













5









N/A

N/A

7

N/A

N/A









12

N/A

N/A





N/A

N/A

17

N/A

N/A





N/A

N/A

18

N/A

N/A







N/A

19

N/A

N/A







N/A

26











N/A

38

N/A

N/A









40A

N/A

N/A





N/A

N/A

40B

N/A

N/A





N/A

N/A

41

N/A

N/A









66













Note:

1. Per KDB 941225 D05v02r05, when a properly configured base station simulator is used for the

SAR and power measurements, spectrum plots for each RB allocation and offset configuration is

not required.

2. Per KDB 941225 D05v02r05, start with the largest channel bandwidth and measure SAR for

QPSK with 1 RB allocation, using the RB offset and required test channel combination with the

highest maximum output power for RB offsets at the upper edge, middle and lower edge of each

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Page 45 of 94

REPORT No.SZ22100161S02
required test channel. 3. Per KDB 941225 D05v02r05, 50% RB allocation for QPSK SAR testing follows 1RB QPSK
allocation procedure. 4. Per KDB 941225 D05v02r05, for QPSK with 100% RB allocation, SAR is not required when the
highest maximum output power for 100 % RB allocation is less than the highest maximum output power in 50% and 1 RB allocations and the highest reported SAR for 1 RB and 50% RB allocation are  0.8 W/kg. Otherwise, SAR is measured for the highest output power channel; and if the reported SAR is > 1.45 W/kg, the remaining required test channels must also be tested. 5. Per KDB 941225 D05v02r05, 16QAM/64QAM output power for each RB allocation configuration is > not ½ dB higher than the same configuration in QPSK and the reported SAR for the QPSK configuration is  1.45 W/kg; Per KDB941225 D05v02r05, 16QAM/64QAM SAR testing is not required. 6. Per KDB 941225 D05v02r05, smaller bandwidth output power for each RB allocation configuration is > not ½ Db higher than the same configuration in the largest supported bandwidth, and the reported SAR for the largest supported band width is  1.45 W/kg; Per KDB 941225 D05v02r05, smaller bandwidth SAR testing is not required. 7. For LTE B4 / B5 / B7 / B17 the maximum bandwidth does not support three non-overlapping channels, per KDB941225 D05v02r05, 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. 8. LTE band 2 / 12 SAR test was covered by Band 25 / 17; according to April 2015 TCB workshop, SAR test for overlapping LTE bands can be reduced if a. The maximum output power, including tolerance, for the smaller band is  the larger band to
qualify for the SAR test exclusion. b. The channel bandwidth and other operating parameters for the smaller band are fully
supported by the larger band. 9. According to 2017 TCB workshop, for 64 QAM and 16 QAM should be verified by checking the
signal constellation with a call box to avoid incorrect maximum power levels due to MPR and other requirements associated with signal modulation, and the following figure is taken from the "Fundamental Measurement >> Modulation Analysis >>constellation" mode of the device connect to the CMW500 base station, therefore, the device 64QAM and 16QAMsignal modulation are correct. Identify if Maximum Power Reduction (MPR) is optional or mandatory, i.e. built-in by design: only mandatory MPR may be considered during SAR testing, when the maximum output power is permanently limited by the MPR implemented within the UE; and only for the applicable RB (resource block) configurations specified in LTE standards: b) A-MPR (additional MPR) must be disabled. 10. Per KDB 447498 D04v01, the reported SAR is the measured SAR value adjusted for maximum tune-up tolerance. a. Tune-up scaling Factor = tune-up limit power (mW) / EUT RF power (mW), where tune-up

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REPORT No.SZ22100161S02
limit is the maximum rated power among all production units. b. For SAR testing of WLAN signal with non-100% duty cycle, the measured SAR is scaled-up
by the duty cycle scaling factor which is equal to "1/(duty cycle)" c. For WWAN: Reported SAR(W/kg)= Measured SAR(W/kg)*Tune-up Scaling Factor d. For WLAN/Bluetooth: Reported SAR(W/kg)= Measured SAR(W/kg)* Duty Cycle scaling
factor * Tune-up scaling factor e. For TDD LTE SAR measurement, the duty cycle 1:1.59 (62.9 %) was used perform testing
and considering the theoretical duty cycle of 63.3% for extended cyclic prefix in the uplink, and the theoretical duty cycle of 62.9% for normal cyclic prefix in uplink, a scaling factor of extended cyclic prefix 63.3%/62.9% = 1.006 is applied to scale-up the measured SAR result. The Reported TDD LTE SAR = measured SAR (W/kg)* Tune-up Scaling Factor* scaling factor for extended cyclic prefix. 11. Per KDB 447498 D04v01, for each exposure position, 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 12. Per KDB 865664 D01v01r04, for each frequency band, repeated SAR measurement is required only when the measured SAR is 0.8W/kg. 13. Per KDB 648474 D04v01r03, when the reported SAR for a body-worn accessory measured without a headset connected to the handset is  1.2 W/kg, SAR testing with a headset connected to the handset is not required.
<WLAN 2.4GHz> 1. SAR is measured for 2.4 GHz 802.11b DSSS using either the fixed test position or, when
applicable, the initial test position procedure. SAR test reduction is determined according to the following: a. When the reported SAR of the highest measured maximum output power channel for the
exposure configuration is  0.8 W/kg, no further SAR testing is required for 802.11b DSSS in that exposure configuration. b. When the reported SAR is > 0.8 W/kg, SAR is required for that position using the next highest measured output power channel. When any reported SAR is > 1.2 W/kg, SAR is required for the third channel; i.e., all channels require testing. 2. 2.4 GHz 802.11 g/n OFDM are additionally evaluated for SAR if the highest reported SAR for 802.11b, adjusted by the ratio of the OFDM to DSSS specified maximum output power, is > 1.2 W/kg. When SAR is required for OFDM modes in 2.4 GHz band, the Initial Test configuration Procedures should be followed. 3. For held-to-ear and hotspot operations, the initial test position procedures were applied. The test

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REPORT No.SZ22100161S02
position with the highest extrapolated peak SAR will be used as the initial test position. When reported SAR for the initial test position is  0.4 W/kg, no additional testing for the remaining test positions was required. Otherwise, SAR is evaluated at the subsequent highest peak SAR positions until the reported SAR result is  0.8 W/kg or all test positions are measured. 4. Justification for test configurations for WLAN per KDB Publication 248227 D02DR02-41929 for 2.4 GHz WI-FI single transmission chain operations, the highest measured maximum output power channel for DSSS was selected for SAR measurement. SAR for OFDM modes (2.4 GHz802.11g/n) was not required due to the maximum allowed powers and the highest reported DSSSSAR. 5. A fixed level power reduction is applied for WiFi when handset operates "held to the body" condition or "held to the ear" condition, the power reduction triggered by audio receiver detection and call establish status. 6. Per KDB 248227 D01v02r02, In the 2.4 GHz band, separate SAR procedures are applied to DSSS and OFDM configurations to simplify DSSS test requirements.SAR is not required for the following 2.4 GHz OFDM conditions: a. When KDB Publication 447498 SAR test exclusion applies to the OFDM configuration. b. When the highest reported SAR for DSSS is adjusted by the ratio of OFDM to DSSS
specified maximum output power and the adjusted SAR is  1.2 W/kg.
<WLAN 5GHz> A) U-NII-1 and U-NII-2A Bands For devices that operate in only one of the U-NII-1 and U-NII-2A bands, the normally required SAR procedures for OFDM configurations are applied. For devices that operate in both U-NII bands using the same transmitter and antenna(s), SAR test reduction is determined according to the following 1. When the same maximum output power is specified for both bands, begin SAR measurement in U-
NII-2A band by applying the OFDM SAR requirements. If the highest reported SAR for a test configuration is  1.2 W/kg, SAR is not required for U-NII-1 band for that configuration (802.11 mode and exposure condition); otherwise, both bands are tested independently for SAR. 2. When different maximum output power is specified for the bands, begin SAR measurement in the band with higher specified maximum output power. The highest reported SAR for the tested configuration is adjusted by the ratio of lower to higher specified maximum output power for the two bands. When the adjusted SAR is  1.2 W/kg, SAR is not required for the band with lower maximum output power in that test configuration; otherwise, both bands are tested independently for SAR. 3. The two U-NII bands may be aggregated to support a 160 MHz channel on channel number 50. 4. Without additional testing, the maximum output power for this is limited to the lower of the maximum output power certified for the two bands. When SAR measurement is required for at least one of the bands and the highest reported SAR adjusted by the ratio of specified maximum output power of aggregated to standalone band is > 1.2 W/kg, SAR is required for the 160 MHz

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REPORT No.SZ22100161S02
channel. This procedure does not apply to an aggregated band with maximum output higher than the standalone band(s); the aggregated band must be tested independently for SAR. SAR is not required when the 160 MHz channel is operating at a reduced maximum power and also qualifies for SAR test exclusion.
B) U-NII-2C and U-NII-3 Bands The frequency range covered by these bands is 380 MHz (5.47 ­ 5.85 GHz), which requires a minimum of at least two SAR probe calibration frequency points to support SAR measurements. when Terminal Doppler Weather Radar (TDWR) restriction applies, all channels that operate at 5.60 ­ 5.65 GHz must be included to apply the SAR test reduction and measurement procedures. When the same transmitter and antenna(s) are used for U-NII-2C band and U-NII-3 band or 5.8 GHz band of §15.247, the bands may be aggregated to enable additional channels with 20, 40 or 80 MHz bandwidth to span across the band gap, as illustrated in Appendix B. The maximum output power for the additional band gap channels is limited to the lower of those certified for the bands. Unless band gap channels are permanently disabled, they must be considered for SAR testing. The frequency range covered by these bands is 380 MHz (5.47 ­ 5.85 GHz), which requires a minimum of at least two SAR probe calibration frequency points to support SAR measurements. To maintain SAR measurement accuracy and to facilitate test reduction, the channels in U-NII-2C band above 5.65 GHz may be grouped with the 5.8 GHz channels in U-NII-3 or §15.247 band to enable two SAR probe calibration frequency points to cover the bands, including the band gap channels. When band gap channels are supported and the bands are not aggregated for SAR testing, band gap channels must be considered independently in each band according to the normally required OFDM SAR measurement and probe calibration frequency points requirements.
C) OFDM Transmission Mode SAR Test Configuration and Channel Selection Requirements The initial test configuration for 5 GHz OFDM transmission modes is determined by the 802.11 configuration with the highest maximum output power specified for production units, including tune-up tolerance, in each standalone and aggregated frequency band. SAR for the initial test configuration is measured using the highest maximum output power channel determined by the default power measurement procedures. When multiple configurations in a frequency band have the same specified maximum output power, the initial test configuration is determined according to the following steps applied sequentially. 1. The largest channel bandwidth configuration is selected among the multiple configurations with the
same specified maximum output power. 2. If multiple configurations have the same specified maximum output power and largest channel
bandwidth, the lowest order modulation among the largest channel bandwidth configurations is selected.

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REPORT No.SZ22100161S02
3. If multiple configurations have the same specified maximum output power, largest channel band width and lowest order modulation, the lowest data rate configuration among these configurations is selected.
4. When multiple transmission modes (802.11a/g/n/ac) have the same specified maximum output power, largest channel bandwidth, lowest order modulation and lowest data rate, the lowest order 802.11 mode is selected; i.e., 802.11a is chosen over 802.11n then 802.11ac or 802.11g is chosen over 802.11n. After an initial test configuration is determined, if multiple test channels have the same measured maximum output power, the channel chosen for SAR measurement is determined according to the following. These channel selection procedures apply to both the initial test configuration and subsequent test configuration(s), with respect to the default power measurement procedures or additional power measurements required for further SAR test reduction. The same procedures also apply to subsequent highest output power channel(s) selection.
5. The channel closest to mid-band frequency is selected for SAR measurement. 6. For channels with equal separation from mid-band frequency; for example, high and low channels
or two mid-band channels, the higher frequency (number) channel is selected for SAR measurement.
D) SAR Test Requirements for OFDM configurations When SAR measurement is required for 802.11 a/n/ac OFDM configurations, each standalone and frequency aggregated band is considered separately for SAR test reduction. When the sametransmitter and antenna(s) are used for U-NII-1 and U-NII-2A bands, additional SAR test reduction Vapplies. When band gap channels between U-NII-2C band and 5.8 GHz U-NII-3 or §15.247 bandare supported, the highest maximum output power transmission mode configuration and maximumoutput power channel across the bands must be used to determine SAR test reduction, accordingto the initial test configuration and subsequent test configuration requirements. In applying theinitial test configuration and subsequent test configuration procedures, the 802.11 transmissionconfiguration with the highest specified maximum output power and the channel within a testconfiguration with the highest measured maximum output power should be clearly distinguished toapply the procedures.

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13. Conducted Power List

REPORT No.SZ22100161S02

Remark: The output power was recorded in annex E of this report.

14. LTE Carrier Aggregation

 Carrier Aggregation Configuration

For the device supports bands and bandwidths and configurations are provided as follow table was

according to 3GPP.

Downlink Carrier Aggregation

No.

Combination

MIMO

Restriction

Completely Covered by Measurement Superset

1

CA_41A-41A

41A

-

No

2 CA_41A-41A-41A

41A

-

No

 LTE Downlink Carrier Aggregation Conducted Power 1. According to KDB941225 D05A v01r02, Uplink maximum output power measurement with
downlink carrier aggregation active should be measured, using the highest output channel measured without downlink carrier aggregation, to confirm that uplink maximum output power with downlink carrier aggregation active remains within the specified tune-up tolerance limits and not more than ¼ dB higher than the maximum output measured without downlink carrier aggregation active. 2. Uplink maximum output power with downlink carrier aggregation active does not show more than ¼ dB higher than the maximum output power without downlink carrier aggregation active, therefore SAR evaluation with downlink carrier aggregation active can be excluded. 3. For power measurement were control and acknowledge data is sent on uplink channels that operate identical to specifications when downlink carrier aggregation is inactive. 4. Selected highest measured power when downlink carrier aggregation is inactive for conducted power comparison with downlink carrier aggregation is active, to confirm that when downlink carrier aggregation is active uplink maximum output power remains within the specified tune-up tolerance limits and not more than ¼ dB higher than the maximum output power measured when downlink carrier aggregation inactive. 5. For non-contiguous intra-band CA, the SCC selected to provide maximum separation from the PCC and must remain fully within the downlink transmission band. 6. For Intra-band, contiguous CA, the downlink channels selected to perform the uplink power measurement must satisfy

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REPORT No.SZ22100161S02
7. 3GPP channel spacing (5.4.1A of 3GPP TS 36.521 or equivalent) and channel bandwidth (5.4.2A) requirements.
8. The output power of CA downlink was recorded in annex E of this report.

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REPORT No.SZ22100161S02
15. 5G NR EN-DC Consideration

 General Guidance 1. It is operate at EN-DC (NSA)/SA for 5G NR implementation according to the character of the
device. SAR measurement should be performed separately for the limitations of the probe calculation factors. 2. When the EN-DC is active the output power of the LTE anchors is equal or less than the standalone carrier, therefore the LTE output power and SAR were estimated based on the standalone carrier to performed sim-TX analysis with 5G NR, WLAN and Bluetooth. 3. According to October 2020 TCB Workshop publication, EN-DC SAR assessment should follow: a. If the signal uplink 1-g SAR values for each band are both less than 0.8 W/kg and the
algebraic summation of the 1-g SAR values are less than 1.45 W/kg no additional measurements need to be performed. b. If one or the signal uplink 1-g SAR values is greater than 0.8 W/kg, instead of algebraically summing the 1-g SAR values, sum up the SAR distributions, similar to the enlarged zoom scan (volume scan) procedures found in FCC KDB Publication 865664 D01. And PAG is required for this case. c. If the algebraic sum of the 1-g SAR values is > 1.45 W/kg additional measurements may have to be made. Submit a KDB inquiry for additional guidance and PAG is required for this case. d. When the algebraic sum of the 1-g SAR values is > 1.6 W/kg, SPLSR analysis procedure should be applied.  5G NR Anchor Combination

5G-NR

EN-DC Combination

LTE Uplink

5G-NR Uplink

SCS (kHz)

Maximum Bandwidth (MHz)

FDD

2A-n77

2A

n77

30

100

FDD

5A-n77

5A

n77

30

100

FDD

12A-n77

12A

n77

30

100

FDD

18A_n77

18A

n77

30

100

FDD

66A-n77

66A

n77

30

100

FDD

2A-n41

2A

n41

30

100

FDD

2C-n41

-

-

30

100

FDD

66A-n41

66A

n41

30

100

Note:

The EN-DC combination of 2C-n41 only supports downlink transmission.

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REPORT No.SZ22100161S02

 Maximum Power for EN-DC

LTE Signal Carrier

EN-DC Configuration

Band

BW (MHz)

Maximum Power(dBm)
Standalone EN-DC Active

EN-DC_2A-n77

2

20

19

12

EN-DC_5A-n77

5

10

20

12

EN-DC_12A-n77

12

10

21

12

EN-DC_18A_n77

18

15

20

12

EN-DC_66A-n77

66

20

19

12

EN-DC_2A-n41

2

20

19

13

EN-DC_66A-n41

66

20

19

13

Band
n77 n77 n77 n77 n77 n41 n41

5G NR

BW (MHz)

Maximum Power(dBm)
EN-DC Active

100

11

100

11

100

11

100

11

100

11

100

12

100

12

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REPORT No.SZ22100161S02
16. Hotspot Mode Evaluation Procedure

 EUT Antenna Location

The location of antenna was recorded in annex B

2/3/4G LMHB, N5/66 PRX-TX/RX: GSM: GSM 850/1900 WCDMA: II/IV/V, CDMA2000: BC0/1 LTE: Band 2/4/5/7/12/17/18/19/26/38/40/41/66 5G NR n5/66

2/3/4G LMHB, N5/66 DRX-TX/RX: GSM: GSM 850/1900 WCDMA: II/IV/V, CDMA2000: BC0/1 LTE: Band 2/4/5/7/12/17/18/19/26/38/40/41/66 5G NR n5/66

N41 RX3: 5G NR n41

N41/66/77 RX1: 5G NR n41/66/77

N41/77 TRX0-TX/RX: 5G NR n41/77

N41/66/77 RX2: 5G NR n41/66/77

WIFI 2.4/5GHz, BT CH0 TX: WLAN 2.4GHz,WLAN 5GHz,Bluetooth

WIFI 2.4 CH1 TX: WLAN 2.4GHz

WIFI5GHz CH1 TX: WLAN 5GHz

 EUT Antenna Distance Antenna Location
2/3/4G LMHB, N5/66 PRX 2/3/4G LMHB, N5/66 DRX
N41/77 TRX0 WIFI 2.4/5GHz, BT CH0
WIFI 2.4 CH1 WIFI5GHz CH1

Front 5mm 5mm 5mm 5mm 5mm 5mm

Back 5mm 5mm 5mm 5mm 5mm 5mm

Left 5mm 5mm 25mm 25mm 25mm 25mm

Right 25mm 25mm 5mm 5mm 5mm 5mm

Top 25mm 25mm
25mm 5mm 25mm 5mm

Bottom 25mm 5mm 25mm 25mm 25mm 25mm

 Hotspot Evaluation

Assessment

Hotspot Side For SAR Test Distance: 10mm

Antennas

Front

Back

Left

Right

Top Bottom

2/3/4G LMHB, N5/66 PRX

Yes

Yes

Yes

No

Yes

No

2/3/4G LMHB, N5/66 DRX

Yes

Yes

Yes

No

No

Yes

N41/77 TRX0

Yes

Yes

No

Yes

Yes

No

WIFI 2.4/5GHz, BT CH0

Yes

Yes

No

Yes

Yes

No

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REPORT No.SZ22100161S02

WIFI 2.4 CH1

Yes

Yes

No

Yes

No

No

WIFI5GHz CH1

Yes

Yes

No

Yes

Yes

No

Note :

1. The SAR evaluation procedures for Portable Devices with Wireless Router function is according

to KDB 941225 D06 Hotspot SAR v02r01.

2. Head/Body-worn/Hotspot mode SAR assessments are required.

3. Referring to KDB 941225 D06, when the overall device length and width are  9cm*5cm, the test

distance is 10 mm. SAR must be measured for all sides and surfaces with a transmitting antenna

located within 25mm from that surface or edge.

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REPORT No.SZ22100161S02
17. Block Diagram of the Tests to be Performed
17.1. Head

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17.2. Body

REPORT No.SZ22100161S02

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18. Test Results List

REPORT No.SZ22100161S02

18.1. Test Guidance

1. Per KDB 447498 D04v01, the reported SAR is the measured SAR value adjusted for maximum tune-up tolerance. a. Tune-up scaling Factor = tune-up limit power (mW) / EUT RF power (mW), where tune-up limit is the maximum rated power among all production units. b. For SAR testing of WLAN signal with non-100% duty cycle, the measured SAR is scaled-up by the duty cycle scaling factor which is equal to "1/(duty cycle)". c. For WWAN: Reported SAR(W/kg)= Measured SAR(W/kg)*Tune-up Scaling Factor. d. For WLAN/Bluetooth: Reported SAR(W/kg)= Measured SAR(W/kg)* Duty Cycle scaling factor * Tune-up scaling factor.
2. Per KDB 447498 D04v01, for each exposure position, 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: a.  0.8 W/kg or 2.0 W/kg, for 1-g or 10-g respectively, when the transmission band is  100 MHz b.  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 c.  0.4 W/kg or 1.0 W/kg, for 1-g or 10-g respectively, when the transmission band is  200 MHz
3. Per KDB 865664 D01v01r04, for each frequency band, repeated SAR measurement is required only when the measured SAR is 0.8W/kg.
4. Per KDB 648474 D04v01r03, when the reported SAR for a body-worn accessory measured without a headset connected to the handset is  1.2 W/kg, SAR testing with a headset connected to the handset is not required.
5. Per KDB648474 D04v01r03, for smart phones with a display diagonal dimension > 15.0 cm or an overall diagonal dimension > 16.0 cm, when hotspot mode applies, 10-g extremity SAR is required only for the surfaces and edges with hotspot mode 1-g reported SAR > 1.2 W/kg, however, when power reduction applies to hotspot mode the measured SAR must be scaled to the maximum output power, including tolerance, allowed for tablet modes to compare with the 1.2 W/kg SAR test reduction threshold.
6. Per KDB248227 D01v02r02, a Wi-Fi device must be configured to transmit continuously at the required data rate, channel bandwidth and signal modulation, using the highest transmission duty factor supported by the test mode tools for SAR measurement. The test frequencies established using test mode must correspond to the actual channel frequencies required for operations in the U.S. When 802.11 frame gaps are accounted for in the transmission, a maximum transmission duty factor of 92 - 96% is typically achievable in most test mode configurations. A minimum transmission duty factor of 85% is required to avoid certain hardware and device implementation issues related to wide range SAR scaling. In addition, a periodic

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REPORT No.SZ22100161S02

transmission duty factor is required for current generation SAR systems to measure SAR correctly. Unless it is permitted by specific KDB procedures or continuous transmission is specifically restricted by the device, the reported SAR must be scaled to 100% transmission duty factor to determine compliance at the maximum tune-up tolerance limit. When a device is not capable of sustaining continuous transmission or the output can become nonlinear, and it is limited by hardware design and unable to transmit at higher than 85% duty factor, a periodic duty factor within 15% of the maximum duty factor the device is capable of transmitting should be used. The reported SAR must be scaled to the maximum transmission duty factor to determine compliance. Descriptions of the procedures applied to establish the specific duty factor used for SAR testing are required in SAR reports to support the test results. 7. When this device is close to human body the sensor at the top side will be active automatically and the reduced power level 1&2 of WWAN applied. 8. The reduced power level 3 of WLAN will be applied to EN-DC and simultaneous transmission. 9. The Power level condition applied should be follow:

Transmission Condition

Wireless System

Antenna

Head

Body & Extremity

Standalone

WWAN WLAN

Top Bottom
CH0 CH1

Reduced Power Level 1 Reduced Power Level 2
Full Power Full Power

Reduced Power Level 1 Reduced Power Level 2
Full Power Full Power

Transmission Condition

Wireless System

Antenna

Head

Body & Extremity

EN-DC & Simultaneous

5G NR WLAN

Top CH0 CH1

Reduced Power Level 3 Full Power Full Power

Reduced Power Level 3 Full Power Full Power

10. For TDD-LTE Band 40, the entire band is unable to be used that as per 27.5; only 2 paried block (2305 to 2315MHz, 2350 to 2360MHz) are allowed with regards to "TDD" operation. the channel allocation, and bandwidth covert to test channels shall be re-adjusted; furthermore, as per 27.50, the duty cycle must be adjusted that TDD in this band must not exceed 38%. Before testing, the special combination must be set in the base station before the periodic measurement can be carried out.
11. The 5G NR (NSA) SAR measurement procedure should be followed the TCB workshop publication in October 2020: a. If the signal uplink 1-g SAR values for each band are both less than 0.8 W/kg and the algebraic summation of the 1-g SAR values are less than 1.45 W/kg no additional

measurements need to be performed.

MORLAB

Shenzhen Morlab Communications Technology Co., Ltd. FL1-3, Building A, FeiYang Science Park, No.8 LongChang Road, Block67, BaoAn District, ShenZhen , GuangDong Province, P. R. China

Tel: 86-755-36698555 Http://www.morlab.cn

Fax: 86-755-36698525 E-mail: [email protected]
Page 60 of 94

REPORT No.SZ22100161S02
b. If one or the signal uplink 1-g SAR values is greater than 0.8 W/kg, instead of algebraically summing the 1-g SAR values, sum up the SAR distributions, similar to the enlarged zoom scan (volume scan) procedures found in FCC KDB Publication 865664 D01. And PAG is required for this case.
c. If the algebraic sum of the 1-g SAR values is > 1.45 W/kg additional measurements may have to be made. Submit a KDB inquiry for additional guidance and PAG is required for this case.
d. When the algebraic sum of the 1-g SAR values is > 1.6 W/kg, SPLSR analysis procedure should be applied.
12. The maximum radiated emission at 3m of NFC (the power is less than 1mW) that was recorded in SZ22100161W06 which was converted to EIRP is closed to zero, therefore it is not required for RF exposure.

MORLAB

Shenzhen Morlab Communications Technology Co., Ltd. FL1-3, Building A, FeiYang Science Park, No.8 LongChang Road, Block67, BaoAn District, ShenZhen , GuangDong Province, P. R. China

Tel: 86-755-36698555 Http://www.morlab.cn

Fax: 86-755-36698525 E-mail: [email protected]
Page 61 of 94

18.2. Head SAR Data

REPORT No.SZ22100161S02

 GSM Head SAR

Plot No.

Band/Mode

Test Position

Ave. Tune-up Tune-up CH. Power Limit Scaling
(dBm) (dBm) Factor

Sensor on/Reduced Power Level 1 for Top Antenna

1#

GPRS 850(2 TX slots) Right Cheek 189

23.34 24.00

1.164

GPRS 850(2 TX slots)

Right Tilt

189

23.34 24.00

1.164

GPRS 850(2 TX slots)

Left Cheek

189

23.34 24.00

1.164

GPRS 850(2 TX slots)

Left Tilt

189

23.34 24.00

1.164

Sensor on/Reduced Power Level 2 for Bottom Antenna

GPRS 850(2 TX slots) Right Cheek 189

29.84 30.50

1.164

GPRS 850(2 TX slots)

Right Tilt

189

29.84 30.50

1.164

GPRS 850(2 TX slots)

Left Cheek

189

29.84 30.50

1.164

GPRS 850(2 TX slots)

Left Tilt

189

29.84 30.50

1.164

Sensor on/Reduced Power Level 1 for Top Antenna

2#

GPRS 1900(2 TX slots) Right Cheek 661

22.47 23.00

1.130

GPRS 1900(2 TX slots)

Right Tilt

661

22.47 23.00

1.130

GPRS 1900(2 TX slots)

Left Cheek

661

22.47 23.00

1.130

GPRS 1900(2 TX slots)

Left Tilt

661

22.47 23.00

1.130

Sensor on/Reduced Power Level 2 for Bottom Antenna

GPRS 1900(2 TX slots) Right Cheek 661

24.47 25.00

1.130

GPRS 1900(2 TX slots)

Right Tilt

661

24.47 25.00

1.130

GPRS 1900(2 TX slots)

Left Cheek

661

24.47 25.00

1.130

GPRS 1900(2 TX slots)

Left Tilt

661

24.47 25.00

1.130

Meas. SAR1g (W/kg)
0.632 0.231 0.299 0.123
0.063 0.029 0.066 0.043
0.537 0.156 0.298 0.133
0.021 0.013 0.093 0.025

Reported SAR1g (W/kg)
0.736 0.269 0.348 0.143
0.073 0.033 0.077 0.050
0.607 0.176 0.337 0.150
0.023 0.015 0.105 0.028

 WCDMA Head SAR

Plot No.

Band/Mode

Ave. Tune-up Tune-up Test Position CH. Power Limit Scaling
(dBm) (dBm) Factor
Sensor on/Reduced Power Level 1 for Top Antenna

3#

Band II/RMC 12.2Kbps Right Cheek 9400 18.27 19.00

1.183

Band II/RMC 12.2Kbps

Right Tilt

9400

18.27 19.00

1.183

Band II/RMC 12.2Kbps

Left Cheek

9400 18.27 19.00

1.183

Band II/RMC 12.2Kbps

Left Tilt

9400

18.27 19.00

1.183

Sensor on/Reduced Power Level 2 for Bottom Antenna

Band II/RMC 12.2Kbps

Right Cheek 9400

17.27 18.00

1.183

Band II/RMC 12.2Kbps

Right Tilt

9400

17.27 18.00

1.183

Meas. SAR1g (W/kg)
0.461 0.123 0.200 0.068
0.056 0.034

Reported SAR1g (W/kg)
0.545 0.146 0.237 0.080
0.066 0.040

MORLAB

Shenzhen Morlab Communications Technology Co., Ltd. FL1-3, Building A, FeiYang Science Park, No.8 LongChang Road, Block67, BaoAn District, ShenZhen , GuangDong Province, P. R. China

Tel: 86-755-36698555 Http://www.morlab.cn

Fax: 86-755-36698525 E-mail: [email protected]
Page 62 of 94

REPORT No.SZ22100161S02

Band II/RMC 12.2Kbps

Left Cheek

9400 17.27 18.00

1.183

0.144

Band II/RMC 12.2Kbps

Left Tilt

9400 17.27 18.00

1.183

0.042

Sensor on/Reduced Power Level 1 for Top Antenna

4#

Band IV/RMC 12.2Kbps Right Cheek 1413 18.15 19.00

1.216

0.487

Band IV/RMC 12.2Kbps

Right Tilt

1413 18.15 19.00

1.216

0.166

Band IV/RMC 12.2Kbps

Left Cheek

1413 18.15 19.00

1.216

0.264

Band IV/RMC 12.2Kbps

Left Tilt

1413 18.15 19.00

1.216

0.100

Sensor on/Reduced Power Level 2 for Bottom Antenna

Band IV/RMC 12.2Kbps Right Cheek 1413 20.15 21.00

1.216

0.030

Band IV/RMC 12.2Kbps

Right Tilt

1413 20.15 21.00

1.216

0.015

Band IV/RMC 12.2Kbps

Left Cheek

1413 20.15 21.00

1.216

0.133

Band IV/RMC 12.2Kbps

Left Tilt

1413 20.15 21.00

1.216

0.080

Sensor on/Reduced Power Level 1 for Top Antenna

5#

Band V/RMC 12.2Kbps Right Cheek 4182 19.20 20.00

1.202

0.449

Band V/RMC 12.2Kbps

Right Tilt

4182 19.20 20.00

1.202

0.166

Band V/RMC 12.2Kbps

Left Cheek

4182 19.20 20.00

1.202

0.194

Band V/RMC 12.2Kbps

Left Tilt

4182 19.20 20.00

1.202

0.102

Sensor on/Reduced Power Level 2 for Bottom Antenna

Band V/RMC 12.2Kbps Right Cheek 4182 20.20 21.00

1.202

0.015

Band V/RMC 12.2Kbps

Right Tilt

4182 20.20 21.00

1.202

0.007

Band V/RMC 12.2Kbps

Left Cheek

4182 20.20 21.00

1.202

0.033

Band V/RMC 12.2Kbps

Left Tilt

4182 20.20 21.00

1.202

0.027

0.170 0.049
0.592 0.202 0.321 0.122
0.037 0.018 0.162 0.097
0.540 0.200 0.233 0.123
0.018 0.009 0.040 0.032

 CDMA2000 Head SAR

Plot No.

Band/Mode

Ave. Tune-up Test Position CH. Power Limit
(dBm) (dBm)
Sensor off/Full power for Top Antenna

Tune-up Scaling Factor

6# BC0/RC3 SO32 (F+SCH) Right Cheek

384

23.34 24.00

1.164

BC0/RC3 SO32 (F+SCH)

Right Tilt

384

23.34 24.00

1.164

BC0/RC3 SO32 (F+SCH) Left Cheek

384

23.34 24.00

1.164

BC0/RC3 SO32 (F+SCH)

Left Tilt

384

23.34 24.00

1.164

Sensor off/Full power for Bottom Antenna

BC0/RC3 SO32 (F+SCH) Right Cheek

384

23.34 24.00

1.164

BC0/RC3 SO32 (F+SCH)

Right Tilt

384

23.34 24.00

1.164

BC0/RC3 SO32 (F+SCH) Left Cheek

384

23.34 24.00

1.164

BC0/RC3 SO32 (F+SCH)

Left Tilt

384

23.34 24.00

1.164

Sensor on/Reduced Power Level 1 for Top Antenna

7# BC1/RC3 SO32 (F+SCH) Right Cheek

600

19.25 20.00

1.189

Meas. SAR1g (W/kg)
0.562 0.189 0.282 0.123
0.027 0.010 0.047 0.033
0.597

Reported SAR1g (W/kg)
0.654 0.220 0.328 0.143
0.031 0.012 0.055 0.039
0.710

MORLAB

Shenzhen Morlab Communications Technology Co., Ltd. FL1-3, Building A, FeiYang Science Park, No.8 LongChang Road, Block67, BaoAn District, ShenZhen , GuangDong Province, P. R. China

Tel: 86-755-36698555 Http://www.morlab.cn

Fax: 86-755-36698525 E-mail: [email protected]
Page 63 of 94

REPORT No.SZ22100161S02

BC1/RC3 SO32 (F+SCH)

Right Tilt

600

19.25 20.00

1.189

BC1/RC3 SO32 (F+SCH) Left Cheek

600

19.25 20.00

1.189

BC1/RC3 SO32 (F+SCH)

Left Tilt

600

19.25 20.00

1.189

Sensor on/Reduced Power Level 2 for Bottom Antenna

BC1/RC3 SO32 (F+SCH) Right Cheek

600

19.25 20.00

1.189

BC1/RC3 SO32 (F+SCH)

Right Tilt

600

19.25 20.00

1.189

BC1/RC3 SO32 (F+SCH) Left Cheek

600

19.25 20.00

1.189

BC1/RC3 SO32 (F+SCH)

Left Tilt

600

19.25 20.00

1.189

0.118 0.287 0.088
0.045 0.012 0.090 0.019

0.140 0.341 0.105
0.053 0.014 0.107 0.022

 LTE QPSK Head SAR

Plot No.

Band/Mode

Ave. Tune-up Tune-up Test Position CH. Power Limit Scaling
(dBm) (dBm) Factor
Sensor on/Reduced Power Level 1 for Top Antenna

8#

LTE Band 2/1RB#0 20M Right Cheek 18900 18.14 19.00

1.219

LTE Band 2/1RB#0 20M

Right Tilt

18900 18.14 19.00

1.219

LTE Band 2/1RB#0 20M

Left Cheek 18900 18.14 19.00

1.219

LTE Band 2/1RB#0 20M

Left Tilt

18900 18.14 19.00

1.219

LTE Band 2/50RB#0 20M Right Cheek 18900 17.29 18.00

1.178

LTE Band 2/50RB#0 20M

Right Tilt

18900 17.29 18.00

1.178

LTE Band 2/50RB#0 20M Left Cheek 18900 17.29 18.00

1.178

LTE Band 2/50RB#0 20M

Left Tilt

18900 17.29 18.00

1.178

Sensor on/Reduced Power Level 2 for Bottom Antenna

LTE Band 2/1RB#0 20M Right Cheek 18900 18.14 19.00

1.219

LTE Band 2/1RB#0 20M

Right Tilt

18900 18.14 19.00

1.219

LTE Band 2/1RB#0 20M

Left Cheek 18900 18.14 19.00

1.219

LTE Band 2/1RB#0 20M

Left Tilt

18900 18.14 19.00

1.219

LTE Band 2/50RB#0 20M Right Cheek 18900 17.29 18.00

1.178

LTE Band 2/50RB#0 20M

Right Tilt

18900 17.29 18.00

1.178

LTE Band 2/50RB#0 20M Left Cheek 18900 17.29 18.00

1.178

LTE Band 2/50RB#0 20M

Left Tilt

18900 17.29 18.00

1.178

Sensor on/Reduced Power Level 1 for Top Antenna

9#

LTE Band 4/1RB#0 20M Right Cheek 20175 18.16 19.00

1.213

LTE Band 4/1RB#0 20M

Right Tilt

20175 18.16 19.00

1.213

LTE Band 4/1RB#0 20M

Left Cheek 20175 18.16 19.00

1.213

LTE Band 4/1RB#0 20M

Left Tilt

20175 18.16 19.00

1.213

LTE Band 4/50RB#0 20M Right Cheek 20175 17.23 18.00

1.194

LTE Band 4/50RB#0 20M

Right Tilt

20175 17.23 18.00

1.194

LTE Band 4/50RB#0 20M Left Cheek 20175 17.23 18.00

1.194

Meas. SAR1g (W/kg)
0.496 0.144 0.247 0.086 0.222 0.102 0.125 0.075
0.055 0.022 0.129 0.026 0.041 0.015 0.094 0.019
0.507 0.170 0.237 0.116 0.259 0.131 0.150

Reported SAR1g (W/kg)
0.605 0.176 0.301 0.105 0.261 0.120 0.147 0.088
0.067 0.027 0.157 0.031 0.048 0.018 0.111 0.022
0.615 0.206 0.288 0.141 0.309 0.156 0.179

MORLAB

Shenzhen Morlab Communications Technology Co., Ltd. FL1-3, Building A, FeiYang Science Park, No.8 LongChang Road, Block67, BaoAn District, ShenZhen , GuangDong Province, P. R. China

Tel: 86-755-36698555 Http://www.morlab.cn

Fax: 86-755-36698525 E-mail: [email protected]
Page 64 of 94

REPORT No.SZ22100161S02

LTE Band 4/50RB#0 20M

Left Tilt

20175 17.23 18.00

1.194

Sensor on/Reduced Power Level 2 for Bottom Antenna

LTE Band 4/1RB#0 20M Right Cheek 20175 14.66 15.50

1.213

LTE Band 4/1RB#0 20M

Right Tilt

20175 14.66 15.50

1.213

LTE Band 4/1RB#0 20M

Left Cheek 20175 14.66 15.50

1.213

LTE Band 4/1RB#0 20M

Left Tilt

20175 14.66 15.50

1.213

LTE Band 4/50RB#0 20M Right Cheek 20175 13.73 14.50

1.194

LTE Band 4/50RB#0 20M

Right Tilt

20175 13.73 14.50

1.194

LTE Band 4/50RB#0 20M Left Cheek 20175 13.73 14.50

1.194

LTE Band 4/50RB#0 20M

Left Tilt

20175 13.73 14.50

1.194

Sensor on/Reduced Power Level 1 for Top Antenna

10# LTE Band 5/1RB#0 10M Right Cheek 20525 19.22 20.00

1.197

LTE Band 5/1RB#0 10M

Right Tilt

20525 19.22 20.00

1.197

LTE Band 5/1RB#0 10M

Left Cheek 20525 19.22 20.00

1.197

LTE Band 5/1RB#0 10M

Left Tilt

20525 19.22 20.00

1.197

LTE Band 5/25RB#0 10M Right Cheek 20525 18.35 19.00

1.161

LTE Band 5/25RB#0 10M

Right Tilt

20525 18.35 19.00

1.161

LTE Band 5/25RB#0 10M Left Cheek 20525 18.35 19.00

1.161

LTE Band 5/25RB#0 10M

Left Tilt

20525 18.35 19.00

1.161

Sensor on/Reduced Power Level 2 for Bottom Antenna

LTE Band 5/1RB#0 10M Right Cheek 20525 20.22 21.00

1.197

LTE Band 5/1RB#0 10M

Right Tilt

20525 20.22 21.00

1.197

LTE Band 5/1RB#0 10M

Left Cheek 20525 20.22 21.00

1.197

LTE Band 5/1RB#0 10M

Left Tilt

20525 20.22 21.00

1.197

LTE Band 5/25RB#0 10M Right Cheek 20525 19.35 20.00

1.161

LTE Band 5/25RB#0 10M

Right Tilt

20525 19.35 20.00

1.161

LTE Band 5/25RB#0 10M Left Cheek 20525 19.35 20.00

1.161

LTE Band 5/25RB#0 10M

Left Tilt

20525 19.35 20.00

1.161

Sensor on/Reduced Power Level 1 for Top Antenna

LTE Band 7/1RB#0 20M Right Cheek 21100 17.18 18.00

1.208

LTE Band 7/1RB#0 20M

Right Tilt

21100 17.18 18.00

1.208

11# LTE Band 7/1RB#0 20M

Left Cheek 21100 17.18 18.00

1.208

LTE Band 7/1RB#0 20M

Left Tilt

21100 17.18 18.00

1.208

LTE Band 7/50RB#0 20M Right Cheek 21100 16.38 17.00

1.153

LTE Band 7/50RB#0 20M

Right Tilt

21100 16.38 17.00

1.153

LTE Band 7/50RB#0 20M Left Cheek 21100 16.38 17.00

1.153

LTE Band 7/50RB#0 20M

Left Tilt

21100 16.38 17.00

1.153

Sensor on/Reduced Power Level 2 for Bottom Antenna

0.088
0.023 0.018 0.096 0.069 0.017 0.013 0.072 0.051
0.454 0.152 0.189 0.088 0.248 0.111 0.122 0.070
0.052 0.034 0.072 0.044 0.020 0.010 0.028 0.018
0.312 0.075 0.580 0.196 0.211 0.056 0.321 0.138

0.105
0.028 0.022 0.117 0.083 0.021 0.016 0.086 0.061
0.543 0.182 0.226 0.105 0.288 0.129 0.142 0.081
0.062 0.041 0.086 0.053 0.023 0.012 0.033 0.021
0.377 0.091 0.701 0.237 0.243 0.065 0.370 0.159

MORLAB

Shenzhen Morlab Communications Technology Co., Ltd. FL1-3, Building A, FeiYang Science Park, No.8 LongChang Road, Block67, BaoAn District, ShenZhen , GuangDong Province, P. R. China

Tel: 86-755-36698555 Http://www.morlab.cn

Fax: 86-755-36698525 E-mail: [email protected]
Page 65 of 94

REPORT No.SZ22100161S02

LTE Band 7/1RB#0 20M Right Cheek 21100 16.68 17.50

1.208

LTE Band 7/1RB#0 20M

Right Tilt

21100 16.68 17.50

1.208

LTE Band 7/1RB#0 20M

Left Cheek 21100 16.68 17.50

1.208

LTE Band 7/1RB#0 20M

Left Tilt

21100 16.68 17.50

1.208

LTE Band 7/50RB#0 20M Right Cheek 21100 15.88 16.50

1.153

LTE Band 7/50RB#0 20M

Right Tilt

21100 15.88 16.50

1.153

LTE Band 7/50RB#0 20M Left Cheek 21100 15.88 16.50

1.153

LTE Band 7/50RB#0 20M

Left Tilt

21100 15.88 16.50

1.153

Sensor on/Reduced Power Level 1 for Top Antenna

12# LTE Band 12/1RB#0 10M Right Cheek 23095 20.11 21.00

1.227

LTE Band 12/1RB#0 10M

Right Tilt

23095 20.11 21.00

1.227

LTE Band 12/1RB#0 10M Left Cheek 23095 20.11 21.00

1.227

LTE Band 12/1RB#0 10M

Left Tilt

23095 20.11 21.00

1.227

LTE Band 12/25RB#0 10M Right Cheek 23095 19.27 20.00

1.183

LTE Band 12/25RB#0 10M Right Tilt

23095 19.27 20.00

1.183

LTE Band 12/25RB#0 10M Left Cheek 23095 19.27 20.00

1.183

LTE Band 12/25RB#0 10M

Left Tilt

23095 19.27 20.00

1.183

Sensor on/Reduced Power Level 2 for Bottom Antenna

LTE Band 12/1RB#0 10M Right Cheek 23095 20.11 21.00

1.227

LTE Band 12/1RB#0 10M

Right Tilt

23095 20.11 21.00

1.227

LTE Band 12/1RB#0 10M Left Cheek 23095 20.11 21.00

1.227

LTE Band 12/1RB#0 10M

Left Tilt

23095 20.11 21.00

1.227

LTE Band 12/25RB#0 10M Right Cheek 23095 19.27 20.00

1.183

LTE Band 12/25RB#0 10M Right Tilt

23095 19.27 20.00

1.183

LTE Band 12/25RB#0 10M Left Cheek 23095 19.27 20.00

1.183

LTE Band 12/25RB#0 10M

Left Tilt

23095 19.27 20.00

1.183

Sensor on/Reduced Power Level 1 for Top Antenna

13# LTE Band 17/1RB#0 10M Right Cheek 23790 20.07 21.00

1.239

LTE Band 17/1RB#0 10M

Right Tilt

23790 20.07 21.00

1.239

LTE Band 17/1RB#0 10M Left Cheek 23790 20.07 21.00

1.239

LTE Band 17/1RB#0 10M

Left Tilt

23790 20.07 21.00

1.239

LTE Band 17/25RB#0 10M Right Cheek 23790 19.16 20.00

1.213

LTE Band 17/25RB#0 10M Right Tilt

23790 19.16 20.00

1.213

LTE Band 17/25RB#0 10M Left Cheek 23790 19.16 20.00

1.213

LTE Band 17/25RB#0 10M

Left Tilt

23790 19.16 20.00

1.213

Sensor on/Reduced Power Level 2 for Bottom Antenna

LTE Band 17/1RB#0 10M Right Cheek 23790 21.07 22.00

1.239

LTE Band 17/1RB#0 10M

Right Tilt

23790 21.07 22.00

1.239

0.061 0.033 0.074 0.041 0.052 0.022 0.062 0.030
0.311 0.126 0.146 0.079 0.222 0.105 0.123 0.063
0.045 0.033 0.059 0.038 0.030 0.021 0.044 0.029
0.321 0.231 0.146 0.108 0.216 0.110 0.108 0.077
0.075 0.063

0.074 0.040 0.089 0.050 0.060 0.025 0.072 0.035
0.382 0.155 0.179 0.097 0.263 0.124 0.146 0.075
0.055 0.041 0.072 0.047 0.035 0.025 0.052 0.034
0.398 0.286 0.181 0.134 0.262 0.133 0.131 0.093
0.093 0.078

MORLAB

Shenzhen Morlab Communications Technology Co., Ltd. FL1-3, Building A, FeiYang Science Park, No.8 LongChang Road, Block67, BaoAn District, ShenZhen , GuangDong Province, P. R. China

Tel: 86-755-36698555 Http://www.morlab.cn

Fax: 86-755-36698525 E-mail: [email protected]
Page 66 of 94

REPORT No.SZ22100161S02

LTE Band 17/1RB#0 10M Left Cheek 23790 21.07 22.00

1.239

LTE Band 17/1RB#0 10M

Left Tilt

23790 21.07 22.00

1.239

LTE Band 17/25RB#0 10M Right Cheek 23790 20.16 21.00

1.213

LTE Band 17/25RB#0 10M Right Tilt

23790 20.16 21.00

1.213

LTE Band 17/25RB#0 10M Left Cheek 23790 20.16 21.00

1.213

LTE Band 17/25RB#0 10M

Left Tilt

23790 20.16 21.00

1.213

Sensor on/Reduced Power Level 1 for Top Antenna

14# LTE Band 18/1RB#0 15M Right Cheek 23925 19.15 20.00

1.216

LTE Band 18/1RB#0 15M

Right Tilt

23925 19.15 20.00

1.216

LTE Band 18/1RB#0 15M Left Cheek 23925 19.15 20.00

1.216

LTE Band 18/1RB#0 15M

Left Tilt

23925 19.15 20.00

1.216

LTE Band 18/36RB#0 15M Right Cheek 23925 18.29 19.00

1.178

LTE Band 18/36RB#0 15M Right Tilt

23925 18.29 19.00

1.178

LTE Band 18/36RB#0 15M Left Cheek 23925 18.29 19.00

1.178

LTE Band 18/36RB#0 15M

Left Tilt

23925 18.29 19.00

1.178

Sensor on/Reduced Power Level 2 for Bottom Antenna

LTE Band 18/1RB#0 15M Right Cheek 23925 20.15 21.00

1.216

LTE Band 18/1RB#0 15M

Right Tilt

23925 20.15 21.00

1.216

LTE Band 18/1RB#0 15M Left Cheek 23925 20.15 21.00

1.216

LTE Band 18/1RB#0 15M

Left Tilt

23925 20.15 21.00

1.216

LTE Band 18/36RB#0 15M Right Cheek 23925 19.29 20.00

1.178

LTE Band 18/36RB#0 15M Right Tilt

23925 19.29 20.00

1.178

LTE Band 18/36RB#0 15M Left Cheek 23925 19.29 20.00

1.178

LTE Band 18/36RB#0 15M

Left Tilt

23925 19.29 20.00

1.178

Sensor on/Reduced Power Level 1 for Top Antenna

15# LTE Band 19/1RB#0 15M Right Cheek 24075 19.19 20.00

1.205

LTE Band 19/1RB#0 15M

Right Tilt

24075 19.19 20.00

1.205

LTE Band 19/1RB#0 15M Left Cheek 24075 19.19 20.00

1.205

LTE Band 19/1RB#0 15M

Left Tilt

24075 19.19 20.00

1.205

LTE Band 19/36RB#0 15M Right Cheek 24075 18.55 19.00

1.109

LTE Band 19/36RB#0 15M Right Tilt

24075 18.55 19.00

1.109

LTE Band 19/36RB#0 15M Left Cheek 24075 18.55 19.00

1.109

LTE Band 19/36RB#0 15M

Left Tilt

24075 18.55 19.00

1.109

Sensor on/Reduced Power Level 2 for Bottom Antenna

LTE Band 19/1RB#0 15M Right Cheek 24075 20.19 21.00

1.205

LTE Band 19/1RB#0 15M

Right Tilt

24075 20.19 21.00

1.205

LTE Band 19/1RB#0 15M Left Cheek 24075 20.19 21.00

1.205

LTE Band 19/1RB#0 15M

Left Tilt

24075 20.19 21.00

1.205

0.085 0.070 0.066 0.041 0.072 0.052
0.418 0.213 0.185 0.119 0.243 0.138 0.100 0.084
0.041 0.039 0.066 0.041 0.033 0.026 0.050 0.030
0.410 0.271 0.180 0.155 0.233 0.142 0.139 0.094
0.051 0.048 0.071 0.056

0.105 0.087 0.080 0.050 0.087 0.063
0.508 0.259 0.225 0.145 0.286 0.163 0.118 0.099
0.050 0.047 0.080 0.050 0.039 0.031 0.059 0.035
0.494 0.327 0.217 0.187 0.258 0.158 0.154 0.104
0.061 0.058 0.086 0.067

MORLAB

Shenzhen Morlab Communications Technology Co., Ltd. FL1-3, Building A, FeiYang Science Park, No.8 LongChang Road, Block67, BaoAn District, ShenZhen , GuangDong Province, P. R. China

Tel: 86-755-36698555 Http://www.morlab.cn

Fax: 86-755-36698525 E-mail: [email protected]
Page 67 of 94

REPORT No.SZ22100161S02

LTE Band 19/36RB#0 15M Right Cheek 24075 19.55 20.00

1.109

LTE Band 19/36RB#0 15M Right Tilt

24075 19.55 20.00

1.109

LTE Band 19/36RB#0 15M Left Cheek 24075 19.55 20.00

1.109

LTE Band 19/36RB#0 15M

Left Tilt

24075 19.55 20.00

1.109

Sensor on/Reduced Power Level 1 for Top Antenna

16# LTE Band 26/1RB#0 15M Right Cheek 26865 20.22 21.00

1.197

LTE Band 26/1RB#0 15M

Right Tilt

26865 20.22 21.00

1.197

LTE Band 26/1RB#0 15M Left Cheek 26865 20.22 21.00

1.197

LTE Band 26/1RB#0 15M

Left Tilt

26865 20.22 21.00

1.197

LTE Band 26/36RB#0 15M Right Cheek 26865 19.33 20.00

1.167

LTE Band 26/36RB#0 15M Right Tilt

26865 19.33 20.00

1.167

LTE Band 26/36RB#0 15M Left Cheek 26865 19.33 20.00

1.167

LTE Band 26/36RB#0 15M

Left Tilt

26865 19.33 20.00

1.167

Sensor on/Reduced Power Level 2 for Bottom Antenna

LTE Band 26/1RB#0 15M Right Cheek 26865 20.22 21.00

1.197

LTE Band 26/1RB#0 15M

Right Tilt

26865 20.22 21.00

1.197

LTE Band 26/1RB#0 15M Left Cheek 26865 20.22 21.00

1.197

LTE Band 26/1RB#0 15M

Left Tilt

26865 20.22 21.00

1.197

LTE Band 26/36RB#0 15M Right Cheek 26865 19.33 20.00

1.167

LTE Band 26/36RB#0 15M Right Tilt

26865 19.33 20.00

1.167

LTE Band 26/36RB#0 15M Left Cheek 26865 19.33 20.00

1.167

LTE Band 26/36RB#0 15M

Left Tilt

26865 19.33 20.00

1.167

Sensor on/Reduced Power Level 1 for Top Antenna

LTE Band 38/1RB#0 20M Right Cheek 38000 20.23 21.00

1.194

LTE Band 38/1RB#0 20M

Right Tilt

38000 20.23 21.00

1.194

17# LTE Band 38/1RB#0 20M Left Cheek 38000 20.23 21.00

1.194

LTE Band 38/1RB#0 20M

Left Tilt

38000 20.23 21.00

1.194

LTE Band 38/50RB#0 20M Right Cheek 38000 19.25 20.00

1.189

LTE Band 38/50RB#0 20M Right Tilt

38000 19.25 20.00

1.189

LTE Band 38/50RB#0 20M Left Cheek 38000 19.25 20.00

1.189

LTE Band 38/50RB#0 20M

Left Tilt

38000 19.25 20.00

1.189

Sensor on/Reduced Power Level 2 for Bottom Antenna

LTE Band 38/1RB#0 20M Right Cheek 38000 20.23 21.00

1.194

LTE Band 38/1RB#0 20M

Right Tilt

38000 20.23 21.00

1.194

LTE Band 38/1RB#0 20M Left Cheek 38000 20.23 21.00

1.194

LTE Band 38/1RB#0 20M

Left Tilt

38000 20.23 21.00

1.194

LTE Band 38/50RB#0 20M Right Cheek 38000 19.25 20.00

1.189

LTE Band 38/50RB#0 20M Right Tilt

38000 19.25 20.00

1.189

0.042 0.031 0.060 0.040
0.426 0.188 0.185 0.130 0.234 0.155 0.162 0.110
0.054 0.036 0.083 0.070 0.034 0.022 0.065 0.044
0.204 0.123 0.326 0.162 0.152 0.071 0.200 0.090
0.065 0.044 0.074 0.069 0.042 0.030

0.047 0.034 0.067 0.044
0.510 0.225 0.221 0.156 0.273 0.181 0.189 0.129
0.065 0.043 0.099 0.084 0.040 0.026 0.076 0.051
0.245 0.148 0.392 0.195 0.182 0.085 0.239 0.108
0.078 0.053 0.089 0.083 0.050 0.036

MORLAB

Shenzhen Morlab Communications Technology Co., Ltd. FL1-3, Building A, FeiYang Science Park, No.8 LongChang Road, Block67, BaoAn District, ShenZhen , GuangDong Province, P. R. China

Tel: 86-755-36698555 Http://www.morlab.cn

Fax: 86-755-36698525 E-mail: [email protected]
Page 68 of 94

REPORT No.SZ22100161S02

LTE Band 38/50RB#0 20M Left Cheek 38000 19.25 20.00

1.189

LTE Band 38/50RB#0 20M

Left Tilt

38000 19.25 20.00

1.189

Sensor on/Reduced Power Level 1 for Top Antenna

LTE Band 40A/1RB#0 10M Right Cheek 38750 20.35 21.00

1.161

LTE Band 40A/1RB#0 10M Right Tilt

38750 20.35 21.00

1.161

LTE Band 40A/1RB#0 10M Left Cheek 38750 20.35 21.00

1.161

LTE Band 40A/1RB#0 10M

Left Tilt

38750 20.35 21.00

1.161

LTE Band 40A/25RB#0 10M Right Cheek 38750 19.49 20.00

1.125

LTE Band 40A/25RB#0 10M

Right Tilt

38750 19.49 20.00

1.125

LTE Band 40A/25RB#0 10M Left Cheek 38750 19.49 20.00

1.125

LTE Band 40A/25RB#0 10M

Left Tilt

38750 19.49 20.00

1.125

Sensor on/Reduced Power Level 2 for Bottom Antenna

LTE Band 40A/1RB#0 10M Right Cheek 38750 20.35 21.00

1.161

LTE Band 40A/1RB#0 10M Right Tilt

38750 20.35 21.00

1.161

LTE Band 40A/1RB#0 10M Left Cheek 38750 20.35 21.00

1.161

LTE Band 40A/1RB#0 10M

Left Tilt

38750 20.35 21.00

1.161

LTE Band 40A/25RB#0 10M Right Cheek 38750 19.49 20.00

1.125

LTE Band 40A/25RB#0 10M

Right Tilt

38750 19.49 20.00

1.125

LTE Band 40A/25RB#0 10M Left Cheek 38750 19.49 20.00

1.125

LTE Band 40A/25RB#0 10M

Left Tilt

38750 19.49 20.00

1.125

Sensor on/Reduced Power Level 1 for Top Antenna

18# LTE Band 40B/1RB#0 10M Right Cheek 39200 20.30 21.00

1.175

LTE Band 40B/1RB#0 10M Right Tilt

39200 20.30 21.00

1.175

LTE Band 40B/1RB#0 10M Left Cheek 39200 20.30 21.00

1.175

LTE Band 40B/1RB#0 10M

Left Tilt

39200 20.30 21.00

1.175

LTE Band 40B/25RB#0 10M Right Cheek 39200 19.42 20.00

1.143

LTE Band 40B/25RB#0 10M

Right Tilt

39200 19.42 20.00

1.143

LTE Band 40B/25RB#0 10M Left Cheek 39200 19.42 20.00

1.143

LTE Band 40B/25RB#0 10M

Left Tilt

39200 19.42 20.00

1.143

Sensor on/Reduced Power Level 2 for Bottom Antenna

LTE Band 40B/1RB#0 10M Right Cheek 39200 20.30 21.00

1.175

LTE Band 40B/1RB#0 10M Right Tilt

39200 20.30 21.00

1.175

LTE Band 40B/1RB#0 10M Left Cheek 39200 20.30 21.00

1.175

LTE Band 40B/1RB#0 10M

Left Tilt

39200 20.30 21.00

1.175

LTE Band 40B/25RB#0 10M Right Cheek 39200 19.42 20.00

1.143

LTE Band 40B/25RB#0 10M

Right Tilt

39200 19.42 20.00

1.143

LTE Band 40B/25RB#0 10M Left Cheek 39200 19.42 20.00

1.143

LTE Band 40B/25RB#0 10M

Left Tilt

39200 19.42 20.00

1.143

0.061 0.050
0.328 0.166 0.213 0.108 0.147 0.123 0.116 0.080
0.055 0.043 0.031 0.026 0.047 0.036 0.025 0.020
0.328 0.155 0.231 0.125 0.244 0.111 0.138 0.077
0.046 0.035 0.026 0.020 0.033 0.026 0.020 0.018

0.073 0.060
0.383 0.194 0.249 0.126 0.166 0.139 0.131 0.091
0.064 0.050 0.036 0.030 0.053 0.041 0.028 0.023
0.388 0.183 0.273 0.148 0.281 0.128 0.159 0.089
0.054 0.041 0.031 0.024 0.038 0.030 0.023 0.021

MORLAB

Shenzhen Morlab Communications Technology Co., Ltd. FL1-3, Building A, FeiYang Science Park, No.8 LongChang Road, Block67, BaoAn District, ShenZhen , GuangDong Province, P. R. China

Tel: 86-755-36698555 Http://www.morlab.cn

Fax: 86-755-36698525 E-mail: [email protected]
Page 69 of 94

REPORT No.SZ22100161S02

Sensor on/Reduced Power Level 1 for Top Antenna

LTE Band 41/1RB#0 20M Right Cheek 40620 20.22 21.00

1.197

LTE Band 41/1RB#0 20M

Right Tilt

40620 20.22 21.00

1.197

19# LTE Band 41/1RB#0 20M Left Cheek 40620 20.22 21.00

1.197

LTE Band 41/1RB#0 20M

Left Tilt

40620 20.22 21.00

1.197

LTE Band 41/50RB#0 20M Right Cheek 40620 19.40 20.00

1.148

LTE Band 41/50RB#0 20M Right Tilt

40620 19.40 20.00

1.148

LTE Band 41/50RB#0 20M Left Cheek 40620 19.40 20.00

1.148

LTE Band 41/50RB#0 20M

Left Tilt

40620 19.40 20.00

1.148

Sensor on/Reduced Power Level 2 for Bottom Antenna

LTE Band 41/1RB#0 20M Right Cheek 40620 20.22 21.00

1.197

LTE Band 41/1RB#0 20M

Right Tilt

40620 20.22 21.00

1.197

LTE Band 41/1RB#0 20M Left Cheek 40620 20.22 21.00

1.197

LTE Band 41/1RB#0 20M

Left Tilt

40620 20.22 21.00

1.197

LTE Band 41/50RB#0 20M Right Cheek 40620 19.40 20.00

1.148

LTE Band 41/50RB#0 20M Right Tilt

40620 19.40 20.00

1.148

LTE Band 41/50RB#0 20M Left Cheek 40620 19.40 20.00

1.148

LTE Band 41/50RB#0 20M

Left Tilt

40620 19.40 20.00

1.148

Sensor on/Reduced Power Level 1 for Top Antenna

20# LTE Band 66/1RB#0 20M Right Cheek 132322 18.21 19.00

1.199

LTE Band 66/1RB#0 20M

Right Tilt 132322 18.21 19.00

1.199

LTE Band 66/1RB#0 20M Left Cheek 132322 18.21 19.00

1.199

LTE Band 66/1RB#0 20M

Left Tilt

132322 18.21 19.00

1.199

LTE Band 66/50RB#0 20M Right Cheek 132322 17.15 18.00

1.216

LTE Band 66/50RB#0 20M

Right Tilt

132322 17.15 18.00

1.216

LTE Band 66/50RB#0 20M Left Cheek 132322 17.15 18.00

1.216

LTE Band 66/50RB#0 20M

Left Tilt

132322 17.15 18.00

1.216

Sensor on/Reduced Power Level 2 for Bottom Antenna

LTE Band 66/1RB#0 20M Right Cheek 132322 18.21 19.00

1.199

LTE Band 66/1RB#0 20M

Right Tilt 132322 18.21 19.00

1.199

LTE Band 66/1RB#0 20M Left Cheek 132322 18.21 19.00

1.199

LTE Band 66/1RB#0 20M

Left Tilt

132322 18.21 19.00

1.199

LTE Band 66/50RB#0 20M Right Cheek 132322 17.15 18.00

1.216

LTE Band 66/50RB#0 20M

Right Tilt

132322 17.15 18.00

1.216

LTE Band 66/50RB#0 20M Left Cheek 132322 17.15 18.00

1.216

LTE Band 66/50RB#0 20M

Left Tilt

132322 17.15 18.00

1.216

0.208 0.116 0.324 0.132 0.152 0.092 0.222 0.102
0.055 0.040 0.033 0.025 0.043 0.035 0.022 0.018
0.484 0.115 0.251 0.096 0.232 0.089 0.177 0.074
0.046 0.035 0.093 0.075 0.030 0.024 0.076 0.033

0.250 0.140 0.390 0.159 0.176 0.106 0.256 0.118
0.066 0.048 0.040 0.030 0.050 0.040 0.025 0.021
0.581 0.138 0.301 0.115 0.282 0.108 0.215 0.089
0.055 0.042 0.112 0.090 0.036 0.029 0.092 0.040

MORLAB

Shenzhen Morlab Communications Technology Co., Ltd. FL1-3, Building A, FeiYang Science Park, No.8 LongChang Road, Block67, BaoAn District, ShenZhen , GuangDong Province, P. R. China

Tel: 86-755-36698555 Http://www.morlab.cn

Fax: 86-755-36698525 E-mail: [email protected]
Page 70 of 94

REPORT No.SZ22100161S02

 5G NR DFT-s-QPSK Head SAR

Plot No.

Band/Mode

Test Position CH.

Ave. Power (dBm)

Tune-up Limit (dBm)

Tune-up Scaling Factor

Sensor on/Reduced Power Level 1 for Top Antenna

Meas. SAR1g (W/kg)

21#

5G NR n5/1RB#1 20M

Right Cheek 167300 18.52 19.00

1.117

0.678

5G NR n5/1RB#1 20M

Right Tilt 167300 18.52 19.00

1.117

0.302

5G NR n5/1RB#1 20M

Left Cheek 167300 18.52 19.00

1.117

0.284

5G NR n5/1RB#1 20M

Left Tilt

167300 18.52 19.00

1.117

0.182

5G NR n5/50RB#1 20M Right Cheek 167300 17.50 18.00

1.122

0.462

5G NR n5/50RB#1 20M

Right Tilt 167300 17.50 18.00

1.122

0.159

5G NR n5/50RB#1 20M

Left Cheek 167300 17.50 18.00

1.122

0.176

5G NR n5/50RB#1 20M

Left Tilt

167300 17.50 18.00

1.122

0.102

Sensor off/Full Power for Bottom Antenna

5G NR n5/1RB#1 20M

Right Cheek 167300 23.52 24.00

1.117

0.047

5G NR n5/1RB#1 20M

Right Tilt 167300 23.52 24.00

1.117

0.031

5G NR n5/1RB#1 20M

Left Cheek 167300 23.52 24.00

1.117

0.059

5G NR n5/1RB#1 20M

Left Tilt

167300 23.52 24.00

1.117

0.042

5G NR n5/50RB#1 20M Right Cheek 167300 22.50 23.00

1.122

0.031

5G NR n5/50RB#1 20M

Right Tilt 167300 22.50 23.00

1.122

0.026

5G NR n5/50RB#1 20M

Left Cheek 167300 22.50 23.00

1.122

0.045

5G NR n5/50RB#1 20M

Left Tilt

167300 22.50 23.00

1.122

0.036

Sensor on/Reduced Power Level 1 for Top Antenna

5G NR n41/1RB#1 100M Right Cheek 518598 13.43 14.00

1.140

0.200

5G NR n41/1RB#1 100M

Right Tilt 518598 13.43 14.00

1.140

0.136

22# 5G NR n41/1RB#1 100M Left Cheek 518598 13.43 14.00

1.140

0.734

5G NR n41/1RB#1 100M

Left Tilt

518598 13.43 14.00

1.140

0.322

5G NR n41/1RB#1 100M Left Cheek 509202 13.27 14.00

1.183

0.682

5G NR n41/1RB#1 100M Left Cheek 513900 13.36 14.00

1.159

0.673

5G NR n41/1RB#1 100M Left Cheek 523269 13.23 14.00

1.194

0.695

5G NR n41/1RB#1 100M Left Cheek 528000 13.31 14.00

1.172

0.702

5G NR n41/135RB#1 100M Right Cheek 518598 12.55 13.00

1.109

0.161

5G NR n41/135RB#1 100M Right Tilt 518598 12.55 13.00

1.109

0.100

5G NR n41/135RB#1 100M Left Cheek 518598 12.55 13.00

1.109

0.505

5G NR n41/135RB#1 100M

Left Tilt

518598 12.55 13.00

1.109

0.219

5G NR n41/270RB#0 100M Left Cheek 518598 11.45 13.00

1.429

0.416

Sensor on/Reduced Power Level 3 for EN-DC & Simultaneous Transmission

5G NR n41/1RB#1 100M Right Cheek 518598 12.43 13.00

1.140

0.172

5G NR n41/1RB#1 100M

Right Tilt 518598 12.43 13.00

1.140

0.093

Reported SAR1g (W/kg)
0.757 0.337 0.317 0.203 0.518 0.178 0.197 0.114
0.053 0.035 0.066 0.047 0.035 0.029 0.050 0.040
0.228 0.155 0.837 0.367 0.807 0.780 0.830 0.823 0.179 0.111 0.560 0.243 0.594
0.196 0.106

MORLAB

Shenzhen Morlab Communications Technology Co., Ltd. FL1-3, Building A, FeiYang Science Park, No.8 LongChang Road, Block67, BaoAn District, ShenZhen , GuangDong Province, P. R. China

Tel: 86-755-36698555 Http://www.morlab.cn

Fax: 86-755-36698525 E-mail: [email protected]
Page 71 of 94

REPORT No.SZ22100161S02

5G NR n41/1RB#1 100M Left Cheek 518598 12.43 13.00

1.140

0.551

5G NR n41/1RB#1 100M

Left Tilt

518598 12.43 13.00

1.140

0.234

5G NR n41/135RB#1 100M Right Cheek 518598 11.55 12.00

1.109

0.146

5G NR n41/135RB#1 100M Right Tilt 518598 11.55 12.00

1.109

0.090

5G NR n41/135RB#1 100M Left Cheek 518598 11.55 12.00

1.109

0.331

5G NR n41/135RB#1 100M

Left Tilt

518598 11.55 12.00

1.109

0.123

Sensor on/Reduced Power Level 1 for Top Antenna

23# 5G NR n66/1RB#1 20M Right Cheek 349000 16.39 17.00

1.151

0.771

5G NR n66/1RB#1 20M

Right Tilt 349000 16.39 17.00

1.151

0.302

5G NR n66/1RB#1 20M

Left Cheek 349000 16.39 17.00

1.151

0.411

5G NR n66/1RB#1 20M

Left Tilt

349000 16.39 17.00

1.151

0.398

5G NR n66/1RB#1 20M Right Cheek 344000 16.20 17.00

1.202

0.692

5G NR n66/1RB#1 20M Right Cheek 354000 16.25 17.00

1.189

0.722

5G NR n66/53RB#1 20M Right Cheek 349000 15.57 16.00

1.104

0.511

5G NR n66/53RB#1 20M

Right Tilt 349000 15.57 16.00

1.104

0.211

5G NR n66/53RB#1 20M Left Cheek 349000 15.57 16.00

1.104

0.269

5G NR n66/53RB#1 20M

Left Tilt

349000 15.57 16.00

1.104

0.188

5G NR n66/106RB#0 20M Right Cheek 349000 15.20 16.00

1.202

0.521

Sensor on/Reduced Power Level 3 for EN-DC & Simultaneous Transmission

5G NR n66/1RB#1 20M Right Cheek 349000 15.39 16.00

1.151

0.472

5G NR n66/1RB#1 20M

Right Tilt 349000 15.39 16.00

1.151

0.259

5G NR n66/1RB#1 20M

Left Cheek 349000 15.39 16.00

1.151

0.216

5G NR n66/1RB#1 20M

Left Tilt

349000 15.39 16.00

1.151

0.105

5G NR n66/53RB#1 20M Right Cheek 349000 14.57 15.00

1.104

0.259

5G NR n66/53RB#1 20M

Right Tilt 349000 14.57 15.00

1.104

0.143

5G NR n66/53RB#1 20M Left Cheek 349000 14.57 15.00

1.104

0.126

5G NR n66/53RB#1 20M

Left Tilt

349000 14.57 15.00

1.104

0.084

Sensor off/Full Power for Bottom Antenna

5G NR n66/1RB#1 20M Right Cheek 349000 23.39 24.00

1.151

0.077

5G NR n66/1RB#1 20M

Right Tilt 349000 23.39 24.00

1.151

0.036

5G NR n66/1RB#1 20M

Left Cheek 349000 23.39 24.00

1.151

0.101

5G NR n66/1RB#1 20M

Left Tilt

349000 23.39 24.00

1.151

0.047

5G NR n66/53RB#1 20M Right Cheek 349000 22.57 23.00

1.104

0.066

5G NR n66/53RB#1 20M

Right Tilt 349000 22.57 23.00

1.104

0.020

5G NR n66/53RB#1 20M Left Cheek 349000 22.57 23.00

1.104

0.081

5G NR n66/53RB#1 20M

Left Tilt

349000 22.57 23.00

1.104

0.039

Sensor on/Reduced Power Level 1 for Top Antenna

5G NR n77/1RB#1 100M Right Cheek 656000 12.34 13.00

1.164

0.115

0.628 0.267 0.162 0.100 0.367 0.136
0.887 0.348 0.473 0.458 0.832 0.858 0.564 0.233 0.297 0.208 0.626
0.543 0.298 0.249 0.121 0.286 0.158 0.139 0.093
0.089 0.041 0.116 0.054 0.073 0.022 0.089 0.043
0.134

MORLAB

Shenzhen Morlab Communications Technology Co., Ltd. FL1-3, Building A, FeiYang Science Park, No.8 LongChang Road, Block67, BaoAn District, ShenZhen , GuangDong Province, P. R. China

Tel: 86-755-36698555 Http://www.morlab.cn

Fax: 86-755-36698525 E-mail: [email protected]
Page 72 of 94

REPORT No.SZ22100161S02

5G NR n77/1RB#1 100M

Right Tilt 656000 12.34 13.00

1.164

0.065

5G NR n77/1RB#1 100M Left Cheek 656000 12.34 13.00

1.164

0.268

5G NR n77/1RB#1 100M

Left Tilt

656000 12.34 13.00

1.164

0.100

5G NR n77/135RB#1 100M Right Cheek 656000 11.64 12.00

1.086

0.089

5G NR n77/135RB#1 100M Right Tilt 656000 11.64 12.00

1.086

0.031

5G NR n77/135RB#1 100M Left Cheek 656000 11.64 12.00

1.086

0.188

5G NR n77/135RB#1 100M

Left Tilt

656000 11.64 12.00

1.086

0.092

Sensor on/Reduced Power Level 3 for EN-DC & Simultaneous Transmission

5G NR n77/1RB#1 100M Right Cheek 656000 11.34 12.00

1.164

0.072

5G NR n77/1RB#1 100M

Right Tilt 656000 11.34 12.00

1.164

0.029

5G NR n77/1RB#1 100M Left Cheek 656000 11.34 12.00

1.164

0.142

5G NR n77/1RB#1 100M

Left Tilt

656000 11.34 12.00

1.164

0.063

5G NR n77/135RB#1 100M Right Cheek 656000 10.64 11.00

1.086

0.055

5G NR n77/135RB#1 100M Right Tilt 656000 10.64 11.00

1.086

0.021

5G NR n77/135RB#1 100M Left Cheek 656000 10.64 11.00

1.086

0.100

5G NR n77/135RB#1 100M

Left Tilt

656000 10.64 11.00

1.086

0.041

Sensor on/Reduced Power Level 1 for Top Antenna

5G NR n77/1RB#1 100M Right Cheek 633334 12.21 13.00

1.199

0.152

5G NR n77/1RB#1 100M

Right Tilt 633334 12.21 13.00

1.199

0.100

24# 5G NR n77/1RB#1 100M Left Cheek 633334 12.21 13.00

1.199

0.722

5G NR n77/1RB#1 100M

Left Tilt

633334 12.21 13.00

1.199

0.355

5G NR n77/1RB#1 100M Right Cheek 633334 11.55 12.00

1.109

0.122

5G NR n77/135RB#1 100M Right Tilt 633334 11.55 12.00

1.109

0.085

5G NR n77/135RB#1 100M Left Cheek 633334 11.55 12.00

1.109

0.411

5G NR n77/135RB#1 100M

Left Tilt

633334 11.55 12.00

1.109

0.188

5G NR n77/270RB#0 100M Left Cheek 633334 11.47 12.00

1.130

0.385

Sensor on/Reduced Power Level 3 for EN-DC & Simultaneous Transmission

5G NR n77/1RB#1 100M Right Cheek 633334 11.21 12.00

1.199

0.122

5G NR n77/1RB#1 100M

Right Tilt 633334 11.21 12.00

1.199

0.085

5G NR n77/1RB#1 100M Left Cheek 633334 11.21 12.00

1.199

0.402

5G NR n77/1RB#1 100M

Left Tilt

633334 11.21 12.00

1.199

0.150

5G NR n77/135RB#1 100M Right Cheek 633334 10.55 11.00

1.109

0.081

5G NR n77/135RB#1 100M Right Tilt 633334 10.55 11.00

1.109

0.042

5G NR n77/135RB#1 100M Left Cheek 633334 10.55 11.00

1.109

0.259

5G NR n77/135RB#1 100M

Left Tilt

633334 10.55 11.00

1.109

0.060

0.076 0.312 0.116 0.097 0.034 0.204 0.100
0.084 0.034 0.165 0.073 0.060 0.023 0.109 0.045
0.182 0.120 0.866 0.426 0.135 0.094 0.456 0.209 0.435
0.146 0.102 0.482 0.180 0.090 0.047 0.287 0.067

MORLAB

Shenzhen Morlab Communications Technology Co., Ltd. FL1-3, Building A, FeiYang Science Park, No.8 LongChang Road, Block67, BaoAn District, ShenZhen , GuangDong Province, P. R. China

Tel: 86-755-36698555 Http://www.morlab.cn

Fax: 86-755-36698525 E-mail: [email protected]
Page 73 of 94

REPORT No.SZ22100161S02

 WLAN Head SAR

Plot No.

Band/Mode

WLAN2.4GHz/802.11b

WLAN2.4GHz/802.11b

25#

WLAN2.4GHz/802.11b

WLAN2.4GHz/802.11b

WLAN2.4GHz/802.11b WLAN2.4GHz/802.11b WLAN2.4GHz/802.11b WLAN2.4GHz/802.11b

WLAN5.2GHz/802.11n40 WLAN5.2GHz/802.11n40 26# WLAN5.2GHz/802.11n40 WLAN5.2GHz/802.11n40

WLAN5.2GHz/802.11n40 WLAN5.2GHz/802.11n40 WLAN5.2GHz/802.11n40 WLAN5.2GHz/802.11n40

WLAN5.3GHz/802.11 n40 WLAN5.3GHz/802.11 n40 27# WLAN5.3GHz/802.11 n40 WLAN5.3GHz/802.11 n40

WLAN5.3GHz/802.11n40 WLAN5.3GHz/802.11n40 WLAN5.3GHz/802.11n40 WLAN5.3GHz/802.11n40

WLAN5.5GHz/802.11n40 WLAN5.5GHz/802.11n40 28# WLAN5.5GHz/802.11n40 WLAN5.5GHz/802.11n40

Ave. Test Position CH. Power
(dBm)
Full Power for CH0

Right Cheek

1

11.70

Right Tilt

1

11.70

Left Cheek

1

11.70

Left Tilt

1

11.70

Full Power for CH1

Right Cheek

1

11.01

Right Tilt

1

11.01

Left Cheek

1

11.01

Left Tilt

1

11.01

Full Power for CH0

Right Cheek

38

9.99

Right Tilt

38

9.99

Left Cheek

38

9.99

Left Tilt

38

9.99

Full Power for CH1

Right Cheek

38

12.73

Right Tilt

38

12.73

Left Cheek

38

12.73

Left Tilt

38

12.73

Full Power for CH0

Right Cheek

62

10.85

Right Tilt

62

10.85

Left Cheek

62

10.85

Left Tilt

62

10.85

Full Power for CH1

Right Cheek

54

12.36

Right Tilt

54

12.36

Left Cheek

54

12.36

Left Tilt

54

12.36

Full Power for CH0

Right Cheek 126

8.36

Right Tilt

126

8.36

Left Cheek

126

8.36

Left Tilt

126

8.36

Tune-up Limit (dBm)
13.50 13.50 13.50 13.50
13.00 13.00 13.00 13.00
11.50 11.50 11.50 11.50
14.50 14.50 14.50 14.50
12.50 12.50 12.50 12.50
14.00 14.00 14.00 14.00
10.00 10.00 10.00 10.00

Tune-up Scaling Factor
1.514 1.514 1.514 1.514
1.581 1.581 1.581 1.581
1.416 1.416 1.416 1.416
1.503 1.503 1.503 1.503
1.462 1.462 1.462 1.462
1.459 1.459 1.459 1.459
1.459 1.459 1.459 1.459

Meas. SAR1g (W/kg)
0.155 0.133 0.322 0.187
0.183 0.017 0.090 0.010
0.070 0.036 0.239 0.159
0.043 0.033 0.059 0.042
0.066 0.043 0.279 0.125
0.027 0.018 0.035 0.022
0.072 0.061 0.235 0.110

Reported SAR1g (W/kg)
0.235 0.201 0.487 0.283
0.289 0.027 0.142 0.016
0.100 0.051 0.340 0.226
0.065 0.050 0.089 0.063
0.097 0.063 0.410 0.184
0.040 0.026 0.051 0.032
0.105 0.089 0.344 0.161

MORLAB

Shenzhen Morlab Communications Technology Co., Ltd. FL1-3, Building A, FeiYang Science Park, No.8 LongChang Road, Block67, BaoAn District, ShenZhen , GuangDong Province, P. R. China

Tel: 86-755-36698555 Http://www.morlab.cn

Fax: 86-755-36698525 E-mail: [email protected]
Page 74 of 94

REPORT No.SZ22100161S02

Full Power for CH1

WLAN5.5GHz/802.11n40 Right Cheek 126

12.84 14.50

1.466

0.052

0.076

WLAN5.5GHz/802.11n40

Right Tilt

126

12.84 14.50

1.466

0.040

0.059

WLAN5.5GHz/802.11n40 Left Cheek

126

12.84 14.50

1.466

0.066

0.097

WLAN5.5GHz/802.11n40

Left Tilt

126

12.84 14.50

1.466

0.059

0.087

Full Power for CH0

WLAN5.8GHz/802.11n40 Right Cheek 159

7.54

9.50

1.570

0.134

0.211

WLAN5.8GHz/802.11n40

Right Tilt

159

7.54

9.50

1.570

0.099

0.156

29# WLAN5.8GHz/802.11n40 Left Cheek

159

7.54

9.50

1.570

0.286

0.451

WLAN5.8GHz/802.11n40

Left Tilt

159

7.54

9.50

1.570

0.145

0.229

Full Power for CH1

WLAN5.8GHz/802.11n40 Right Cheek 151

11.85 13.50

1.462

0.066

0.097

WLAN5.8GHz/802.11n40

Right Tilt

151

11.85 13.50

1.462

0.057

0.084

WLAN5.8GHz/802.11n40 Left Cheek

151

11.85 13.50

1.462

0.079

0.116

WLAN5.8GHz/802.11n40

Left Tilt

151

11.85 13.50

1.462

0.061

0.090

Note: 1. Per KDB 447498 D04v01, for each exposure position, if the highest output power channel
Reported SAR  0.8W/kg, other channels SAR testing is not necessary. 2. Per KDB 865664 D01v01r04, for each frequency band, repeated SAR measurement is required

when the measured SAR is  0.8W/kg.

3. Per KDB 941225 D05v02r05, 100% RB allocation SAR measurement is not required when the highest reported SAR for 1 RB and 50% RB allocation are  0.8 W/kg.
4. Per KDB 248227 D01v02r02, for 802.11b DSSS , when the reported SAR of the highest

measured maximum output power channel for the exposure configuration is  0.8 W/kg, no

further SAR testing is required in that exposure configuration. 5. Per KDB 248227 D01v02r02, OFDM SAR is not required 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.

6. According to KDB 865664 D02v01r02, SAR plot is required for the highest measured SAR in

each exposure configuration, wireless mode and frequency band combination. 7. For TDD-LTE, the reported SAR should be scaled with the duty cycle scaling factor 1.006. 8. The 2.4G WLAN reported 1g SAR (W/kg) should be scaled with the duty cycle scaling factor

1.000 and 802.11n40 with 1.004.

MORLAB

Shenzhen Morlab Communications Technology Co., Ltd. FL1-3, Building A, FeiYang Science Park, No.8 LongChang Road, Block67, BaoAn District, ShenZhen , GuangDong Province, P. R. China

Tel: 86-755-36698555 Http://www.morlab.cn

Fax: 86-755-36698525 E-mail: [email protected]
Page 75 of 94

18.3. Body SAR Data

REPORT No.SZ22100161S02

 GSM Body SAR

Plot No.

Band/Mode

Test Position

Ave. Tune-up Tune-up CH. Power Limit Scaling
(dBm) (dBm) Factor

Sensor on/Reduced Power Level 1 for Top Antenna

GPRS 850(2 TX slots)

Front Side

189

23.34 24.00

1.164

GPRS 850(2 TX slots)

Back Side

189

23.34 24.00

1.164

GPRS 850(2 TX slots)

Left Side

189

23.34 24.00

1.164

GPRS 850(2 TX slots)

Top Side

189

23.34 24.00

1.164

Sensor on/Reduced Power Level 2 for Bottom Antenna

GPRS 850(2 TX slots)

Front Side

189

29.84 30.50

1.164

30#

GPRS 850(2 TX slots)

Back Side

189

29.84 30.50

1.164

GPRS 850(2 TX slots)

Left Side

189

29.84 30.50

1.164

GPRS 850(2 TX slots)

Bottom Side 189

29.84 30.50

1.164

Sensor on/Reduced Power Level 1 for Top Antenna

GPRS 1900(2 TX slots)

Front Side

661

22.47 23.00

1.130

GPRS 1900(2 TX slots)

Back Side

661

22.47 23.00

1.130

GPRS 1900(2 TX slots)

Left Side

661

22.47 23.00

1.130

GPRS 1900(2 TX slots)

Top Side

661

22.47 23.00

1.130

Sensor on/Reduced Power Level 2 for Bottom Antenna

31#

GPRS 1900(2 TX slots)

Front Side

661

24.47 25.00

1.130

GPRS 1900(2 TX slots)

Back Side

661

24.47 25.00

1.130

GPRS 1900(2 TX slots)

Left Side

661

24.47 25.00

1.130

32#

GPRS 1900(2 TX slots)

Bottom Side 661

24.47 25.00

1.130

Meas. SAR1g (W/kg)
0.123 0.155 0.175 0.142
0.163 0.189 0.173 0.110
0.084 0.097 0.146 0.063
0.107 0.082 0.048 0.148

Reported SAR1g (W/kg)
0.143 0.180 0.204 0.165
0.190 0.220 0.201 0.128
0.095 0.109 0.165 0.072
0.121 0.093 0.054 0.167

 WCDMA Body SAR

Plot No.

Band/Mode

Ave. Tune-up Tune-up Test Position CH. Power Limit Scaling
(dBm) (dBm) Factor
Sensor on/Reduced Power Level 1 for Top Antenna

Band II/RMC 12.2Kbps

Front Side

9400 18.27 19.00

1.183

33#

Band II/RMC 12.2Kbps

Back Side

9400 18.27 19.00

1.183

34#

Band II/RMC 12.2Kbps

Left Side

9400 18.27 19.00

1.183

Band II/RMC 12.2Kbps

Top Side

9400 18.27 19.00

1.183

Sensor on/Reduced Power Level 2 for Bottom Antenna

Band II/RMC 12.2Kbps

Front Side

9400 17.27 18.00

1.183

Band II/RMC 12.2Kbps

Back Side

9400 17.27 18.00

1.183

Meas. SAR1g (W/kg)
0.079 0.115 0.226 0.056
0.114 0.098

Reported SAR1g (W/kg)
0.093 0.136 0.267 0.067
0.135 0.116

MORLAB

Shenzhen Morlab Communications Technology Co., Ltd. FL1-3, Building A, FeiYang Science Park, No.8 LongChang Road, Block67, BaoAn District, ShenZhen , GuangDong Province, P. R. China

Tel: 86-755-36698555 Http://www.morlab.cn

Fax: 86-755-36698525 E-mail: [email protected]
Page 76 of 94

REPORT No.SZ22100161S02

Band II/RMC 12.2Kbps

Left Side

9400 17.27 18.00

1.183

Band II/RMC 12.2Kbps

Bottom Side 9400 17.27 18.00

1.183

Sensor on/Reduced Power Level 1 for Top Antenna

Band IV/RMC 12.2Kbps

Front Side

1413 18.15 19.00

1.216

Band IV/RMC 12.2Kbps

Back Side

1413 18.15 19.00

1.216

Band IV/RMC 12.2Kbps

Left Side

1413 18.15 19.00

1.216

Band IV/RMC 12.2Kbps

Top Side

1413 18.15 19.00

1.216

Sensor on/Reduced Power Level 2 for Bottom Antenna

35# Band IV/RMC 12.2Kbps

Front Side

1413 20.15 21.00

1.216

Band IV/RMC 12.2Kbps

Back Side

1413 20.15 21.00

1.216

Band IV/RMC 12.2Kbps

Left Side

1413 20.15 21.00

1.216

36# Band IV/RMC 12.2Kbps Bottom Side 1413 20.15 21.00

1.216

Sensor on/Reduced Power Level 1 for Top Antenna

Band V/RMC 12.2Kbps

Front Side

4182 19.20 20.00

1.202

Band V/RMC 12.2Kbps

Back Side

4182 19.20 20.00

1.202

Band V/RMC 12.2Kbps

Left Side

4182 19.20 20.00

1.202

Band V/RMC 12.2Kbps

Top Side

4182 19.20 20.00

1.202

Sensor on/Reduced Power Level 2 for Bottom Antenna

Band V/RMC 12.2Kbps

Front Side

4182 20.20 21.00

1.202

37# Band V/RMC 12.2Kbps

Back Side

4182 20.20 21.00

1.202

Band V/RMC 12.2Kbps

Left Side

4182 20.20 21.00

1.202

Band V/RMC 12.2Kbps

Bottom Side 4182 20.20 21.00

1.202

0.055 0.168
0.082 0.103 0.166 0.085
0.138 0.131 0.065 0.218
0.079 0.131 0.161 0.026
0.130 0.166 0.133 0.082

0.066 0.199
0.099 0.125 0.202 0.103
0.168 0.159 0.080 0.265
0.095 0.157 0.194 0.031
0.156 0.200 0.160 0.099

 CDMA2000 Body SAR

Plot No.

Band/Mode

Ave. Tune-up Test Position CH. Power Limit
(dBm) (dBm)
Sensor off/Full power for Top Antenna

Tune-up Scaling Factor

BC0/RC3 SO32 (F+SCH) Front Side

384

23.34 24.00

1.164

BC0/RC3 SO32 (F+SCH) Back Side

384

23.34 24.00

1.164

Sensor off/Full power for Bottom Antenna

BC0/RC3 SO32 (F+SCH) Front Side

384

23.34 24.00

1.164

38# BC0/RC3 SO32 (F+SCH) Back Side

384

23.34 24.00

1.164

Sensor on/Reduced Power Level 1 for Top Antenna

BC1/RC3 SO32 (F+SCH) Front Side

600

19.25 20.00

1.189

39# BC1/RC3 SO32 (F+SCH) Back Side

600

19.25 20.00

1.189

Sensor on/Reduced Power Level 2 for Bottom Antenna

BC1/RC3 SO32 (F+SCH) Front Side

600

19.25 20.00

1.189

BC1/RC3 SO32 (F+SCH) Back Side

600

19.25 20.00

1.189

Meas. SAR1g (W/kg)
0.064 0.123
0.174 0.193
0.097 0.148
0.143 0.100

Reported SAR1g (W/kg)
0.074 0.143
0.203 0.225
0.115 0.176
0.170 0.118

MORLAB

Shenzhen Morlab Communications Technology Co., Ltd. FL1-3, Building A, FeiYang Science Park, No.8 LongChang Road, Block67, BaoAn District, ShenZhen , GuangDong Province, P. R. China

Tel: 86-755-36698555 Http://www.morlab.cn

Fax: 86-755-36698525 E-mail: [email protected]
Page 77 of 94

REPORT No.SZ22100161S02

 LTE QPSK Body SAR

Plot No.

Band/Mode

Ave. Tune-up Tune-up Test Position CH. Power Limit Scaling
(dBm) (dBm) Factor
Sensor on/Reduced Power Level 1 for Top Antenna

LTE Band 2/1RB#0 20M

Front Side 18900 18.14 19.00

1.219

40# LTE Band 2/1RB#0 20M

Back Side 18900 18.14 19.00

1.219

41# LTE Band 2/1RB#0 20M

Left Side

18900 18.14 19.00

1.219

LTE Band 2/1RB#0 20M

Top Side

18900 18.14 19.00

1.219

LTE Band 2/50RB#0 20M Front Side 18900 17.29 18.00

1.178

LTE Band 2/50RB#0 20M

Back Side 18900 17.29 18.00

1.178

LTE Band 2/50RB#0 20M

Left Side

18900 17.29 18.00

1.178

LTE Band 2/50RB#0 20M

Top Side

18900 17.29 18.00

1.178

Sensor on/Reduced Power Level 2 for Bottom Antenna

LTE Band 2/1RB#0 20M

Front Side 18900 18.14 19.00

1.219

LTE Band 2/1RB#0 20M

Back Side 18900 18.14 19.00

1.219

LTE Band 2/1RB#0 20M

Left Side

18900 18.14 19.00

1.219

LTE Band 2/1RB#0 20M Bottom Side 18900 18.14 19.00

1.219

LTE Band 2/50RB#0 20M Front Side 18900 17.29 18.00

1.178

LTE Band 2/50RB#0 20M

Back Side 18900 17.29 18.00

1.178

LTE Band 2/50RB#0 20M

Left Side

18900 17.29 18.00

1.178

LTE Band 2/50RB#0 20M Bottom Side 18900 17.29 18.00

1.178

Sensor on/Reduced Power Level 1 for Top Antenna

LTE Band 4/1RB#0 20M

Front Side 20175 18.16 19.00

1.213

LTE Band 4/1RB#0 20M

Back Side 20175 18.16 19.00

1.213

LTE Band 4/1RB#0 20M

Left Side

20175 18.16 19.00

1.213

LTE Band 4/1RB#0 20M

Top Side

20175 18.16 19.00

1.213

LTE Band 4/50RB#0 20M Front Side 20175 17.23 18.00

1.194

LTE Band 4/50RB#0 20M

Back Side 20175 17.23 18.00

1.194

LTE Band 4/50RB#0 20M

Left Side

20175 17.23 18.00

1.194

LTE Band 4/50RB#0 20M

Top Side

20175 17.23 18.00

1.194

Sensor on/Reduced Power Level 2 for Bottom Antenna

LTE Band 4/1RB#0 20M

Front Side 20175 14.66 15.50

1.213

42# LTE Band 4/1RB#0 20M

Back Side 20175 14.66 15.50

1.213

LTE Band 4/1RB#0 20M

Left Side

20175 14.66 15.50

1.213

43# LTE Band 4/1RB#0 20M Bottom Side 20175 14.66 15.50

1.213

LTE Band 4/50RB#0 20M Front Side 20175 13.73 14.50

1.194

LTE Band 4/50RB#0 20M

Back Side 20175 13.73 14.50

1.194

LTE Band 4/50RB#0 20M

Left Side

20175 13.73 14.50

1.194

Meas. SAR1g (W/kg)
0.065 0.105 0.209 0.044 0.048 0.078 0.155 0.032
0.102 0.049 0.043 0.090 0.115 0.035 0.031 0.066
0.069 0.099 0.149 0.076 0.050 0.072 0.109 0.056
0.115 0.124 0.075 0.181 0.086 0.093 0.056

Reported SAR1g (W/kg)
0.080 0.128 0.255 0.054 0.057 0.091 0.182 0.038
0.124 0.059 0.052 0.110 0.135 0.042 0.037 0.077
0.083 0.120 0.181 0.092 0.060 0.087 0.130 0.066
0.140 0.150 0.091 0.220 0.103 0.111 0.067

MORLAB

Shenzhen Morlab Communications Technology Co., Ltd. FL1-3, Building A, FeiYang Science Park, No.8 LongChang Road, Block67, BaoAn District, ShenZhen , GuangDong Province, P. R. China

Tel: 86-755-36698555 Http://www.morlab.cn

Fax: 86-755-36698525 E-mail: [email protected]
Page 78 of 94

REPORT No.SZ22100161S02

LTE Band 4/50RB#0 20M Bottom Side 20175 13.73 14.50

1.194

Sensor on/Reduced Power Level 1 for Top Antenna

LTE Band 5/1RB#0 10M

Front Side 20525 19.22 20.00

1.197

44# LTE Band 5/1RB#0 10M

Back Side 20525 19.22 20.00

1.197

45# LTE Band 5/1RB#0 10M

Left Side

20525 19.22 20.00

1.197

LTE Band 5/1RB#0 10M

Top Side

20525 19.22 20.00

1.197

LTE Band 5/25RB#0 10M Front Side 20525 18.35 19.00

1.161

LTE Band 5/25RB#0 10M

Back Side 20525 18.35 19.00

1.161

LTE Band 5/25RB#0 10M

Left Side

20525 18.35 19.00

1.161

LTE Band 5/25RB#0 10M

Top Side

20525 18.35 19.00

1.161

Sensor on/Reduced Power Level 2 for Bottom Antenna

LTE Band 5/1RB#0 10M

Front Side 20525 20.22 21.00

1.197

LTE Band 5/1RB#0 10M

Back Side 20525 20.22 21.00

1.197

LTE Band 5/1RB#0 10M

Left Side

20525 20.22 21.00

1.197

LTE Band 5/1RB#0 10M Bottom Side 20525 20.22 21.00

1.197

LTE Band 5/25RB#0 10M Front Side 20525 19.35 20.00

1.161

LTE Band 5/25RB#0 10M

Back Side 20525 19.35 20.00

1.161

LTE Band 5/25RB#0 10M

Left Side

20525 19.35 20.00

1.161

LTE Band 5/25RB#0 10M Bottom Side 20525 19.35 20.00

1.161

Sensor on/Reduced Power Level 1 for Top Antenna

LTE Band 7/1RB#0 10M

Front Side 21100 17.18 18.00

1.208

46# LTE Band 7/1RB#0 10M

Back Side

21100 17.18 18.00

1.208

47# LTE Band 7/1RB#0 10M

Left Side

21100 17.18 18.00

1.208

LTE Band 7/1RB#0 10M

Top Side

21100 17.18 18.00

1.208

LTE Band 7/50RB#0 10M Front Side 21100 16.38 17.00

1.153

LTE Band 7/50RB#0 10M

Back Side

21100 16.38 17.00

1.153

LTE Band 7/50RB#0 10M

Left Side

21100 16.38 17.00

1.153

LTE Band 7/50RB#0 10M

Top Side

21100 16.38 17.00

1.153

Sensor on/Reduced Power Level 2 for Bottom Antenna

LTE Band 7/1RB#0 10M

Front Side 21100 16.68 17.50

1.208

LTE Band 7/1RB#0 10M

Back Side

21100 16.68 17.50

1.208

LTE Band 7/1RB#0 10M

Left Side

21100 16.68 17.50

1.208

LTE Band 7/1RB#0 10M Bottom Side 21100 16.68 17.50

1.208

LTE Band 7/50RB#0 10M Front Side 21100 15.88 16.50

1.153

LTE Band 7/50RB#0 10M

Back Side

21100 15.88 16.50

1.153

LTE Band 7/50RB#0 10M

Left Side

21100 15.88 16.50

1.153

LTE Band 7/50RB#0 10M Bottom Side 21100 15.88 16.50

1.153

Sensor on/Reduced Power Level 1 for Top Antenna

0.136
0.101 0.129 0.169 0.024 0.075 0.095 0.125 0.018
0.112 0.128 0.152 0.089 0.083 0.095 0.112 0.066
0.133 0.211 0.390 0.015 0.098 0.156 0.289 0.011
0.049 0.057 0.009 0.093 0.036 0.042 0.006 0.069

0.162
0.121 0.154 0.202 0.029 0.087 0.111 0.145 0.021
0.134 0.153 0.182 0.106 0.096 0.110 0.131 0.076
0.161 0.255 0.471 0.019 0.114 0.180 0.333 0.013
0.059 0.069 0.011 0.112 0.041 0.048 0.007 0.079

MORLAB

Shenzhen Morlab Communications Technology Co., Ltd. FL1-3, Building A, FeiYang Science Park, No.8 LongChang Road, Block67, BaoAn District, ShenZhen , GuangDong Province, P. R. China

Tel: 86-755-36698555 Http://www.morlab.cn

Fax: 86-755-36698525 E-mail: [email protected]
Page 79 of 94

REPORT No.SZ22100161S02

LTE Band 12/1RB#0 10M Front Side 23095 20.11 21.00

1.227

48# LTE Band 12/1RB#0 10M

Back Side 23095 20.11 21.00

1.227

49# LTE Band 12/1RB#0 10M

Left Side

23095 20.11 21.00

1.227

LTE Band 12/1RB#0 10M

Top Side

23095 20.11 21.00

1.227

LTE Band 12/25RB#0 10M Front Side 23095 19.27 20.00

1.183

LTE Band 12/25RB#0 10M Back Side 23095 19.27 20.00

1.183

LTE Band 12/25RB#0 10M

Left Side

23095 19.27 20.00

1.183

LTE Band 12/25RB#0 10M Top Side

23095 19.27 20.00

1.183

Sensor on/Reduced Power Level 2 for Bottom Antenna

LTE Band 12/1RB#0 10M Front Side 23095 20.11 21.00

1.227

LTE Band 12/1RB#0 10M

Back Side 23095 20.11 21.00

1.227

LTE Band 12/1RB#0 10M

Left Side

23095 20.11 21.00

1.227

LTE Band 12/1RB#0 10M Bottom Side 23095 20.11 21.00

1.227

LTE Band 12/25RB#0 10M Front Side 23095 19.27 20.00

1.183

LTE Band 12/25RB#0 10M Back Side 23095 19.27 20.00

1.183

LTE Band 12/25RB#0 10M

Left Side

23095 19.27 20.00

1.183

LTE Band 12/25RB#0 10M Bottom Side 23095 19.27 20.00

1.183

Sensor on/Reduced Power Level 1 for Top Antenna

LTE Band 17/1RB#0 10M Front Side 23790 20.07 21.00

1.239

50# LTE Band 17/1RB#0 10M

Back Side 23790 20.07 21.00

1.239

51# LTE Band 17/1RB#0 10M

Left Side

23790 20.07 21.00

1.239

LTE Band 17/1RB#0 10M

Top Side

23790 20.07 21.00

1.239

LTE Band 17/25RB#0 10M Front Side 23790 19.16 20.00

1.213

LTE Band 17/25RB#0 10M Back Side 23790 19.16 20.00

1.213

LTE Band 17/25RB#0 10M

Left Side

23790 19.16 20.00

1.213

LTE Band 17/25RB#0 10M Top Side

23790 19.16 20.00

1.213

Sensor on/Reduced Power Level 2 for Bottom Antenna

LTE Band 17/1RB#0 10M Front Side 23790 21.07 22.00

1.239

LTE Band 17/1RB#0 10M

Back Side 23790 21.07 22.00

1.239

LTE Band 17/1RB#0 10M

Left Side

23790 21.07 22.00

1.239

LTE Band 17/1RB#0 10M Bottom Side 23790 21.07 22.00

1.239

LTE Band 17/25RB#0 10M Front Side 23790 20.16 21.00

1.213

LTE Band 17/25RB#0 10M Back Side 23790 20.16 21.00

1.213

LTE Band 17/25RB#0 10M

Left Side

23790 20.16 21.00

1.213

LTE Band 17/25RB#0 10M Bottom Side 23790 20.16 21.00

1.213

Sensor on/Reduced Power Level 1 for Top Antenna

LTE Band 18/1RB#0 15M Front Side 23925 19.15 20.00

1.216

LTE Band 18/1RB#0 15M

Back Side 23925 19.15 20.00

1.216

0.082 0.102 0.155 0.015 0.063 0.079 0.119 0.011
0.026 0.040 0.032 0.030 0.019 0.030 0.024 0.022
0.082 0.103 0.157 0.015 0.063 0.078 0.119 0.011
0.027 0.032 0.033 0.032 0.019 0.023 0.024 0.017
0.095 0.118

0.100 0.125 0.190 0.018 0.074 0.093 0.141 0.013
0.031 0.049 0.039 0.037 0.022 0.035 0.028 0.026
0.102 0.128 0.194 0.018 0.076 0.095 0.145 0.013
0.033 0.040 0.041 0.040 0.024 0.028 0.029 0.021
0.116 0.144

MORLAB

Shenzhen Morlab Communications Technology Co., Ltd. FL1-3, Building A, FeiYang Science Park, No.8 LongChang Road, Block67, BaoAn District, ShenZhen , GuangDong Province, P. R. China

Tel: 86-755-36698555 Http://www.morlab.cn

Fax: 86-755-36698525 E-mail: [email protected]
Page 80 of 94

REPORT No.SZ22100161S02

LTE Band 18/1RB#0 15M

Left Side

23925 19.15 20.00

1.216

LTE Band 18/1RB#0 15M

Top Side

23925 19.15 20.00

1.216

LTE Band 18/36RB#0 15M Front Side 23925 18.29 19.00

1.178

LTE Band 18/36RB#0 15M Back Side 23925 18.29 19.00

1.178

LTE Band 18/36RB#0 15M

Left Side

23925 18.29 19.00

1.178

LTE Band 18/36RB#0 15M Top Side

23925 18.29 19.00

1.178

Sensor on/Reduced Power Level 2 for Bottom Antenna

LTE Band 18/1RB#0 15M Front Side 23925 20.15 21.00

1.216

52# LTE Band 18/1RB#0 15M

Back Side 23925 20.15 21.00

1.216

LTE Band 18/1RB#0 15M

Left Side

23925 20.15 21.00

1.216

LTE Band 18/1RB#0 15M Bottom Side 23925 20.15 21.00

1.216

LTE Band 18/36RB#0 15M Front Side 23925 19.29 20.00

1.178

LTE Band 18/36RB#0 15M Back Side 23925 19.29 20.00

1.178

LTE Band 18/36RB#0 15M

Left Side

23925 19.29 20.00

1.178

LTE Band 18/36RB#0 15M Bottom Side 23925 19.29 20.00

1.178

Sensor on/Reduced Power Level 1 for Top Antenna

LTE Band 19/1RB#0 15M Front Side 24075 19.19 20.00

1.205

LTE Band 19/1RB#0 15M

Back Side 24075 19.19 20.00

1.205

LTE Band 19/1RB#0 15M

Left Side

24075 19.19 20.00

1.205

LTE Band 19/1RB#0 15M

Top Side

24075 19.19 20.00

1.205

LTE Band 19/36RB#0 15M Front Side 24075 18.55 19.00

1.109

LTE Band 19/36RB#0 15M Back Side 24075 18.55 19.00

1.109

LTE Band 19/36RB#0 15M

Left Side

24075 18.55 19.00

1.109

LTE Band 19/36RB#0 15M Top Side

24075 18.55 19.00

1.109

Sensor on/Reduced Power Level 2 for Bottom Antenna

LTE Band 19/1RB#0 15M Front Side 24075 20.19 21.00

1.205

53# LTE Band 19/1RB#0 15M

Back Side 24075 20.19 21.00

1.205

LTE Band 19/1RB#0 15M

Left Side

24075 20.19 21.00

1.205

LTE Band 19/1RB#0 15M Bottom Side 24075 20.19 21.00

1.205

LTE Band 19/36RB#0 15M Front Side 24075 19.55 20.00

1.109

LTE Band 19/36RB#0 15M Back Side 24075 19.55 20.00

1.109

LTE Band 19/36RB#0 15M

Left Side

24075 19.55 20.00

1.109

LTE Band 19/36RB#0 15M Bottom Side 24075 19.55 20.00

1.109

Sensor on/Reduced Power Level 1 for Top Antenna

LTE Band 26/1RB#0 15M Front Side 26865 20.22 21.00

1.197

LTE Band 26/1RB#0 15M

Back Side 26865 20.22 21.00

1.197

LTE Band 26/1RB#0 15M

Left Side

26865 20.22 21.00

1.197

LTE Band 26/1RB#0 15M

Top Side

26865 20.22 21.00

1.197

0.148 0.022 0.073 0.091 0.118 0.017
0.121 0.151 0.132 0.125 0.093 0.116 0.102 0.096
0.095 0.139 0.159 0.022 0.069 0.101 0.118 0.016
0.128 0.161 0.144 0.138 0.095 0.119 0.107 0.102
0.106 0.131 0.171 0.023

0.180 0.026 0.087 0.107 0.139 0.020
0.147 0.184 0.161 0.152 0.110 0.137 0.120 0.113
0.115 0.167 0.192 0.026 0.077 0.113 0.131 0.017
0.154 0.194 0.174 0.166 0.105 0.132 0.118 0.113
0.127 0.157 0.205 0.027

MORLAB

Shenzhen Morlab Communications Technology Co., Ltd. FL1-3, Building A, FeiYang Science Park, No.8 LongChang Road, Block67, BaoAn District, ShenZhen , GuangDong Province, P. R. China

Tel: 86-755-36698555 Http://www.morlab.cn

Fax: 86-755-36698525 E-mail: [email protected]
Page 81 of 94

REPORT No.SZ22100161S02

LTE Band 26/36RB#0 15M Front Side 26865 19.33 20.00

1.167

LTE Band 26/36RB#0 15M Back Side 26865 19.33 20.00

1.167

LTE Band 26/36RB#0 15M

Left Side

26865 19.33 20.00

1.167

LTE Band 26/36RB#0 15M Top Side

26865 19.33 20.00

1.167

Sensor on/Reduced Power Level 2 for Bottom Antenna

LTE Band 26/1RB#0 15M Front Side 26865 20.22 21.00

1.197

54# LTE Band 26/1RB#0 15M

Back Side 26865 20.22 21.00

1.197

LTE Band 26/1RB#0 15M

Left Side

26865 20.22 21.00

1.197

LTE Band 26/1RB#0 15M Bottom Side 26865 20.22 21.00

1.197

LTE Band 26/36RB#0 15M Front Side 26865 19.33 20.00

1.167

LTE Band 26/36RB#0 15M Back Side 26865 19.33 20.00

1.167

LTE Band 26/36RB#0 15M

Left Side

26865 19.33 20.00

1.167

LTE Band 26/36RB#0 15M Bottom Side 26865 19.33 20.00

1.167

Sensor on/Reduced Power Level 1 for Top Antenna

LTE Band 38/1RB#0 20M Front Side 38000 20.23 21.00

1.194

55# LTE Band 38/1RB#0 20M

Back Side 38000 20.23 21.00

1.194

56# LTE Band 38/1RB#0 20M

Left Side

38000 20.23 21.00

1.194

LTE Band 38/1RB#0 20M

Top Side

38000 20.23 21.00

1.194

LTE Band 38/50RB#0 20M Front Side 38000 19.25 20.00

1.189

LTE Band 38/50RB#0 20M Back Side 38000 19.25 20.00

1.189

LTE Band 38/50RB#0 20M

Left Side

38000 19.25 20.00

1.189

LTE Band 38/50RB#0 20M Top Side

38000 19.25 20.00

1.189

Sensor on/Reduced Power Level 2 for Bottom Antenna

LTE Band 38/1RB#0 20M Front Side 38000 20.23 21.00

1.194

LTE Band 38/1RB#0 20M

Back Side 38000 20.23 21.00

1.194

LTE Band 38/1RB#0 20M

Left Side

38000 20.23 21.00

1.194

LTE Band 38/1RB#0 20M Bottom Side 38000 20.23 21.00

1.194

LTE Band 38/50RB#0 20M Front Side 38000 19.25 20.00

1.189

LTE Band 38/50RB#0 20M Back Side 38000 19.25 20.00

1.189

LTE Band 38/50RB#0 20M

Left Side

38000 19.25 20.00

1.189

LTE Band 38/50RB#0 20M Bottom Side 38000 19.25 20.00

1.189

Sensor on/Reduced Power Level 1 for Top Antenna

LTE Band 40A/1RB#0 10M Front Side 38750 20.35 21.00

1.161

57# LTE Band 40A/1RB#0 10M Back Side 38750 20.35 21.00

1.161

58# LTE Band 40A/1RB#0 10M Left Side

38750 20.35 21.00

1.161

LTE Band 40A/1RB#0 10M Top Side

38750 20.35 21.00

1.161

LTE Band 40A/25RB#0 10M Front Side 38750 19.49 20.00

1.125

LTE Band 40A/25RB#0 10M Back Side 38750 19.49 20.00

1.125

0.082 0.101 0.139 0.017
0.129 0.173 0.145 0.082 0.095 0.121 0.107 0.061
0.054 0.092 0.128 0.015 0.040 0.069 0.096 0.011
0.042 0.054 0.014 0.078 0.032 0.041 0.010 0.059
0.057 0.092 0.128 0.020 0.044 0.061

0.095 0.118 0.162 0.020
0.154 0.207 0.174 0.098 0.111 0.141 0.125 0.071
0.065 0.111 0.154 0.018 0.048 0.083 0.115 0.014
0.051 0.065 0.016 0.094 0.038 0.049 0.012 0.070
0.066 0.107 0.150 0.023 0.049 0.069

MORLAB

Shenzhen Morlab Communications Technology Co., Ltd. FL1-3, Building A, FeiYang Science Park, No.8 LongChang Road, Block67, BaoAn District, ShenZhen , GuangDong Province, P. R. China

Tel: 86-755-36698555 Http://www.morlab.cn

Fax: 86-755-36698525 E-mail: [email protected]
Page 82 of 94

REPORT No.SZ22100161S02

LTE Band 40A/25RB#0 10M Left Side

38750 19.49 20.00

1.125

LTE Band 40A/25RB#0 10M Top Side

38750 19.49 20.00

1.125

Sensor on/Reduced Power Level 2 for Bottom Antenna

LTE Band 40A/1RB#0 10M Front Side 38750 20.35 21.00

1.161

LTE Band 40A/1RB#0 10M Back Side 38750 20.35 21.00

1.161

LTE Band 40A/1RB#0 10M Left Side

38750 20.35 21.00

1.161

LTE Band 40A/1RB#0 10M Bottom Side 38750 20.35 21.00

1.161

LTE Band 40A/25RB#0 10M Front Side 38750 19.49 20.00

1.125

LTE Band 40A/25RB#0 10M Back Side 38750 19.49 20.00

1.125

LTE Band 40A/25RB#0 10M Left Side

38750 19.49 20.00

1.125

LTE Band 40A/25RB#0 10M Bottom Side 38750 19.49 20.00

1.125

Sensor on/Reduced Power Level 1 for Top Antenna

LTE Band 40B/1RB#0 10M Front Side 39200 20.30 21.00

1.175

LTE Band 40B/1RB#0 10M Back Side 39200 20.30 21.00

1.175

LTE Band 40B/1RB#0 10M Left Side

39200 20.30 21.00

1.175

LTE Band 40B/1RB#0 10M Top Side

39200 20.30 21.00

1.175

LTE Band 40B/25RB#0 10M Front Side 39200 19.42 20.00

1.143

LTE Band 40B/25RB#0 10M Back Side 39200 19.42 20.00

1.143

LTE Band 40B/25RB#0 10M Left Side

39200 19.42 20.00

1.143

LTE Band 40B/25RB#0 10M Top Side

39200 19.42 20.00

1.143

Sensor on/Reduced Power Level 2 for Bottom Antenna

LTE Band 40B/1RB#0 10M Front Side 39200 20.30 21.00

1.175

LTE Band 40B/1RB#0 10M Back Side 39200 20.30 21.00

1.175

LTE Band 40B/1RB#0 10M Left Side

39200 20.30 21.00

1.175

LTE Band 40B/1RB#0 10M Bottom Side 39200 20.30 21.00

1.175

LTE Band 40B/25RB#0 10M Front Side 39200 19.42 20.00

1.143

LTE Band 40B/25RB#0 10M Back Side 39200 19.42 20.00

1.143

LTE Band 40B/25RB#0 10M Left Side

39200 19.42 20.00

1.143

LTE Band 40B/25RB#0 10M Bottom Side 39200 19.42 20.00

1.143

Sensor on/Reduced Power Level 1 for Top Antenna

LTE Band 41/1RB#0 20M Front Side 40620 20.22 21.00

1.197

59# LTE Band 41/1RB#0 20M

Back Side 40620 20.22 21.00

1.197

60# LTE Band 41/1RB#0 20M

Left Side

40620 20.22 21.00

1.197

LTE Band 41/1RB#0 20M

Top Side

40620 20.22 21.00

1.197

LTE Band 41/50RB#0 20M Front Side 40620 19.40 20.00

1.148

LTE Band 41/50RB#0 20M Back Side 40620 19.40 20.00

1.148

LTE Band 41/50RB#0 20M

Left Side

40620 19.40 20.00

1.148

LTE Band 41/50RB#0 20M Top Side

40620 19.40 20.00

1.148

0.082 0.015
0.070 0.049 0.007 0.021 0.053 0.037 0.005 0.016
0.058 0.080 0.116 0.013 0.043 0.059 0.086 0.010
0.078 0.023 0.008 0.031 0.059 0.017 0.006 0.023
0.057 0.092 0.129 0.014 0.042 0.069 0.097 0.011

0.092 0.017
0.081 0.057 0.008 0.025 0.060 0.042 0.006 0.018
0.069 0.095 0.137 0.016 0.050 0.068 0.099 0.011
0.092 0.027 0.010 0.037 0.067 0.019 0.007 0.026
0.068 0.110 0.155 0.017 0.049 0.079 0.112 0.012

MORLAB

Shenzhen Morlab Communications Technology Co., Ltd. FL1-3, Building A, FeiYang Science Park, No.8 LongChang Road, Block67, BaoAn District, ShenZhen , GuangDong Province, P. R. China

Tel: 86-755-36698555 Http://www.morlab.cn

Fax: 86-755-36698525 E-mail: [email protected]
Page 83 of 94

REPORT No.SZ22100161S02

Sensor on/Reduced Power Level 2 for Bottom Antenna

LTE Band 41/1RB#0 20M Front Side 40620 20.22 21.00

1.197

LTE Band 41/1RB#0 20M

Back Side 40620 20.22 21.00

1.197

LTE Band 41/1RB#0 20M

Left Side

40620 20.22 21.00

1.197

LTE Band 41/1RB#0 20M Bottom Side 40620 20.22 21.00

1.197

LTE Band 41/50RB#0 20M Front Side 40620 19.40 20.00

1.148

LTE Band 41/50RB#0 20M Back Side 40620 19.40 20.00

1.148

LTE Band 41/50RB#0 20M

Left Side

40620 19.40 20.00

1.148

LTE Band 41/50RB#0 20M Bottom Side 40620 19.40 20.00

1.148

Sensor on/Reduced Power Level 1 for Top Antenna

LTE Band 66/1RB#0 20M Front Side 132322 18.21 19.00

1.199

61# LTE Band 66/1RB#0 20M

Back Side 132322 18.21 19.00

1.199

62# LTE Band 66/1RB#0 20M

Left Side 132322 18.21 19.00

1.199

LTE Band 66/1RB#0 20M

Top Side

132322 18.21 19.00

1.199

LTE Band 66/50RB#0 20M Front Side 132322 17.15 18.00

1.216

LTE Band 66/50RB#0 20M Back Side 132322 17.15 18.00

1.216

LTE Band 66/50RB#0 20M

Left Side 132322 17.15 18.00

1.216

LTE Band 66/50RB#0 20M

Top Side

132322 17.15 18.00

1.216

Sensor on/Reduced Power Level 2 for Bottom Antenna

LTE Band 66/1RB#0 20M Front Side 132322 18.21 19.00

1.199

LTE Band 66/1RB#0 20M

Back Side 132322 18.21 19.00

1.199

LTE Band 66/1RB#0 20M

Left Side 132322 18.21 19.00

1.199

LTE Band 66/1RB#0 20M Bottom Side 132322 18.21 19.00

1.199

LTE Band 66/50RB#0 20M Front Side 132322 17.15 18.00

1.216

LTE Band 66/50RB#0 20M Back Side 132322 17.15 18.00

1.216

LTE Band 66/50RB#0 20M

Left Side 132322 17.15 18.00

1.216

LTE Band 66/50RB#0 20M Bottom Side 132322 17.15 18.00

1.216

0.042 0.031 0.011 0.089 0.031 0.023 0.008 0.066
0.065 0.092 0.159 0.016 0.050 0.066 0.122 0.012
0.090 0.088 0.068 0.104 0.069 0.068 0.051 0.079

0.051 0.037 0.014 0.107 0.036 0.026 0.010 0.076
0.078 0.110 0.191 0.019 0.061 0.081 0.149 0.015
0.108 0.106 0.081 0.125 0.084 0.083 0.062 0.096

MORLAB

Shenzhen Morlab Communications Technology Co., Ltd. FL1-3, Building A, FeiYang Science Park, No.8 LongChang Road, Block67, BaoAn District, ShenZhen , GuangDong Province, P. R. China

Tel: 86-755-36698555 Http://www.morlab.cn

Fax: 86-755-36698525 E-mail: [email protected]
Page 84 of 94

REPORT No.SZ22100161S02

 5G NR DFT-s-QPSK Body SAR

Plot No.

Band/Mode

Test Position

Ave. Tune-up Tune-up CH. Power Limit Scaling
(dBm) (dBm) Factor

Sensor on/Reduced Power Level 1 for Top Antenna

Meas. SAR1g (W/kg)

5G NR n5/1RB#1 20M

Front Side 167300 18.52 19.00

1.117

0.201

5G NR n5/1RB#1 20M

Back Side 167300 18.52 19.00

1.117

0.255

5G NR n5/1RB#1 20M

Left Side 167300 18.52 19.00

1.117

0.386

5G NR n5/1RB#1 20M

Top Side 167300 18.52 19.00

1.117

0.044

5G NR n5/50RB#1 20M

Front Side 167300 17.50 18.00

1.122

0.155

5G NR n5/50RB#1 20M

Back Side 167300 17.50 18.00

1.122

0.172

5G NR n5/50RB#1 20M

Left Side 167300 17.50 18.00

1.122

0.202

5G NR n5/50RB#1 20M

Top Side 167300 17.50 18.00

1.122

0.030

Sensor off/Full Power for Bottom Antenna

5G NR n5/1RB#1 20M

Front Side 167300 23.52 24.00

1.117

0.160

63#

5G NR n5/1RB#1 20M

Back Side 167300 23.52 24.00

1.117

0.520

5G NR n5/1RB#1 20M

Left Side 167300 23.52 24.00

1.117

0.241

5G NR n5/1RB#1 20M

Bottom Side 167300 23.52 24.00

1.117

0.161

5G NR n5/50RB#1 20M

Front Side 167300 22.50 23.00

1.122

0.133

5G NR n5/50RB#1 20M

Back Side 167300 22.50 23.00

1.122

0.186

5G NR n5/50RB#1 20M

Left Side 167300 22.50 23.00

1.122

0.162

5G NR n5/50RB#1 20M Bottom Side 167300 22.50 23.00

1.122

0.100

Sensor on/Reduced Power Level 1 for Top Antenna

5G NR n41/1RB#1 100M Front Side 518598 13.43 14.00

1.140

0.063

64# 5G NR n41/1RB#1 100M

Back Side 518598 13.43 14.00

1.140

0.144

65# 5G NR n41/1RB#1 100M Right Side 518598 13.43 14.00

1.140

0.218

5G NR n41/1RB#1 100M

Top Side 518598 13.43 14.00

1.140

0.032

5G NR n41/135RB#1 100M Front Side 518598 12.55 13.00

1.109

0.042

5G NR n41/135RB#1 100M Back Side 518598 12.55 13.00

1.109

0.123

5G NR n41/135RB#1 100M Right Side 518598 12.55 13.00

1.109

0.166

5G NR n41/135RB#1 100M Top Side 518598 12.55 13.00

1.109

0.025

Sensor on/Reduced Power Level 3 for EN-DC & Simultaneous Transmission

5G NR n41/1RB#1 100M Front Side 518598 12.43 13.00

1.140

0.051

5G NR n41/1RB#1 100M Back Side 518598 12.43 13.00

1.140

0.111

5G NR n41/1RB#1 100M Right Side 518598 12.43 13.00

1.140

0.152

5G NR n41/1RB#1 100M

Top Side 518598 12.43 13.00

1.140

0.020

5G NR n41/135RB#1 100M Front Side 518598 11.55 12.00

1.109

0.036

5G NR n41/135RB#1 100M Back Side 518598 11.55 12.00

1.109

0.096

5G NR n41/135RB#1 100M Right Side 518598 11.55 12.00

1.109

0.108

Reported SAR1g (W/kg)
0.224 0.285 0.431 0.049 0.174 0.193 0.227 0.034
0.179 0.581 0.269 0.180 0.149 0.209 0.182 0.112
0.072 0.164 0.249 0.036 0.047 0.136 0.184 0.028
0.058 0.127 0.173 0.023 0.040 0.106 0.120

MORLAB

Shenzhen Morlab Communications Technology Co., Ltd. FL1-3, Building A, FeiYang Science Park, No.8 LongChang Road, Block67, BaoAn District, ShenZhen , GuangDong Province, P. R. China

Tel: 86-755-36698555 Http://www.morlab.cn

Fax: 86-755-36698525 E-mail: [email protected]
Page 85 of 94

REPORT No.SZ22100161S02

5G NR n41/135RB#1 100M Top Side 518598 11.55 12.00

1.109

0.018

Sensor on/Reduced Power Level 1 for Top Antenna

5G NR n66/1RB#1 20M

Front Side 349000 16.39 17.00

1.151

0.144

5G NR n66/1RB#1 20M

Back Side 349000 16.39 17.00

1.151

0.263

5G NR n66/1RB#1 20M

Left Side 349000 16.39 17.00

1.151

0.494

5G NR n66/1RB#1 20M

Top Side 349000 16.39 17.00

1.151

0.086

5G NR n66/53RB#1 20M Front Side 349000 15.57 16.00

1.104

0.100

5G NR n66/53RB#1 20M

Back Side 349000 15.57 16.00

1.104

0.202

5G NR n66/53RB#1 20M

Left Side 349000 15.57 16.00

1.104

0.315

5G NR n66/53RB#1 20M

Top Side 349000 15.57 16.00

1.104

0.062

Sensor on/Reduced Power Level 3 for EN-DC & Simultaneous Transmission

5G NR n66/1RB#1 20M

Front Side 349000 15.39 16.00

1.151

0.123

5G NR n66/1RB#1 20M

Back Side 349000 15.39 16.00

1.151

0.088

5G NR n66/1RB#1 20M

Left Side 349000 15.39 16.00

1.151

0.210

5G NR n66/1RB#1 20M

Top Side 349000 15.39 16.00

1.151

0.071

5G NR n66/53RB#1 20M Front Side 349000 14.57 15.00

1.104

0.099

5G NR n66/53RB#1 20M

Back Side 349000 14.57 15.00

1.104

0.044

5G NR n66/53RB#1 20M

Left Side 349000 14.57 15.00

1.104

0.150

5G NR n66/53RB#1 20M

Top Side 349000 14.57 15.00

1.104

0.031

Sensor off/Full Power for Bottom Antenna

5G NR n66/1RB#1 20M

Front Side 349000 23.39 24.00

1.151

0.215

66# 5G NR n66/1RB#1 20M

Back Side 349000 23.39 24.00

1.151

0.396

5G NR n66/1RB#1 20M

Left Side 349000 23.39 24.00

1.151

0.248

67#

5G NR n66/1RB#1 20M Bottom Side 349000 23.39 24.00

1.151

0.689

5G NR n66/53RB#1 20M Front Side 349000 22.57 23.00

1.104

0.159

5G NR n66/53RB#1 20M

Back Side 349000 22.57 23.00

1.104

0.222

5G NR n66/53RB#1 20M

Left Side 349000 22.57 23.00

1.104

0.162

5G NR n66/53RB#1 20M Bottom Side 349000 22.57 23.00

1.104

0.366

Sensor on/Reduced Power Level 1 for Top Antenna

5G NR n77/1RB#1 100M Front Side 656000 12.34 13.00

1.164

0.069

5G NR n77/1RB#1 100M

Back Side 656000 12.34 13.00

1.164

0.170

5G NR n77/1RB#1 100M Right Side 656000 12.34 13.00

1.164

0.255

5G NR n77/1RB#1 100M

Top Side 656000 12.34 13.00

1.164

0.039

5G NR n77/135RB#1 100M Front Side 656000 11.64 12.00

1.086

0.051

5G NR n77/135RB#1 100M Back Side 656000 11.64 12.00

1.086

0.123

5G NR n77/135RB#1 100M Right Side 656000 11.64 12.00

1.086

0.175

5G NR n77/135RB#1 100M Top Side 656000 11.64 12.00

1.086

0.020

Sensor on/Reduced Power Level 3 for EN-DC & Simultaneous Transmission

0.020
0.166 0.303 0.568 0.099 0.110 0.223 0.348 0.068
0.142 0.101 0.242 0.082 0.109 0.049 0.166 0.034
0.247 0.456 0.285 0.793 0.176 0.245 0.179 0.404
0.080 0.198 0.297 0.045 0.055 0.134 0.190 0.022

MORLAB

Shenzhen Morlab Communications Technology Co., Ltd. FL1-3, Building A, FeiYang Science Park, No.8 LongChang Road, Block67, BaoAn District, ShenZhen , GuangDong Province, P. R. China

Tel: 86-755-36698555 Http://www.morlab.cn

Fax: 86-755-36698525 E-mail: [email protected]
Page 86 of 94

REPORT No.SZ22100161S02

5G NR n77/1RB#1 100M Front Side 656000 11.34 12.00

1.164

0.056

5G NR n77/1RB#1 100M

Back Side 656000 11.34 12.00

1.164

0.141

5G NR n77/1RB#1 100M Right Side 656000 11.34 12.00

1.164

0.200

5G NR n77/1RB#1 100M

Top Side 656000 11.34 12.00

1.164

0.025

5G NR n77/135RB#1 100M Front Side 656000 10.64 11.00

1.086

0.042

5G NR n77/135RB#1 100M Back Side 656000 10.64 11.00

1.086

0.110

5G NR n77/135RB#1 100M Right Side 656000 10.64 11.00

1.086

0.151

5G NR n77/135RB#1 100M Top Side 656000 10.64 11.00

1.086

0.017

Sensor on/Reduced Power Level 1 for Top Antenna

5G NR n77/1RB#1 100M Front Side 633334 12.21 13.00

1.199

0.166

68# 5G NR n77/1RB#1 100M

Back Side 633334 12.21 13.00

1.199

0.314

69# 5G NR n77/1RB#1 100M Right Side 633334 12.21 13.00

1.199

0.544

5G NR n77/1RB#1 100M

Top Side 633334 12.21 13.00

1.199

0.067

5G NR n77/135RB#1 100M Front Side 633334 11.55 12.00

1.109

0.102

5G NR n77/135RB#1 100M Back Side 633334 11.55 12.00

1.109

0.211

5G NR n77/135RB#1 100M Right Side 633334 11.55 12.00

1.109

0.366

5G NR n77/135RB#1 100M Top Side 633334 11.55 12.00

1.109

0.044

Sensor on/Reduced Power Level 3 for EN-DC & Simultaneous Transmission

5G NR n77/1RB#1 100M Front Side 633334 11.21 12.00

1.199

0.135

5G NR n77/1RB#1 100M

Back Side 633334 11.21 12.00

1.199

0.202

5G NR n77/1RB#1 100M Right Side 633334 11.21 12.00

1.199

0.314

5G NR n77/1RB#1 100M

Top Side 633334 11.21 12.00

1.199

0.060

5G NR n77/135RB#1 100M Front Side 633334 10.55 11.00

1.109

0.094

5G NR n77/135RB#1 100M Back Side 633334 10.55 11.00

1.109

0.133

5G NR n77/135RB#1 100M Right Side 633334 10.55 11.00

1.109

0.233

5G NR n77/135RB#1 100M Top Side 633334 10.55 11.00

1.109

0.032

0.065 0.164 0.233 0.029 0.046 0.120 0.164 0.018
0.199 0.377 0.653 0.080 0.113 0.234 0.406 0.049
0.162 0.242 0.377 0.072 0.104 0.148 0.258 0.035

MORLAB

Shenzhen Morlab Communications Technology Co., Ltd. FL1-3, Building A, FeiYang Science Park, No.8 LongChang Road, Block67, BaoAn District, ShenZhen , GuangDong Province, P. R. China

Tel: 86-755-36698555 Http://www.morlab.cn

Fax: 86-755-36698525 E-mail: [email protected]
Page 87 of 94

REPORT No.SZ22100161S02

 WLAN Body SAR

Plot No.

Band/Mode

WLAN2.4GHz/802.11b WLAN2.4GHz/802.11b WLAN2.4GHz/802.11b WLAN2.4GHz/802.11b
WLAN2.4GHz/802.11b 70# WLAN2.4GHz/802.11b 71# WLAN2.4GHz/802.11b
WLAN5.2GHz/802.11n40 72# WLAN5.2GHz/802.11n40
WLAN5.2GHz/802.11n40 WLAN5.2GHz/802.11n40
WLAN5.2GHz/802.11n40 WLAN5.2GHz/802.11n40 WLAN5.2GHz/802.11n40 WLAN5.2GHz/802.11n40
WLAN5.3GHz/802.11n40 73# WLAN5.3GHz/802.11n40
WLAN5.3GHz/802.11a WLAN5.3GHz/802.11a
WLAN5.5GHz/802.11a 74# WLAN5.5GHz/802.11a
WLAN5.5GHz/802.11n40 WLAN5.5GHz/802.11n40
WLAN5.8GHz/802.11a 75# WLAN5.8GHz/802.11a
WLAN5.8GHz/802.11a

Test Position

Ave.

CH.

Power

(dBm)

Full Power for CH0

Front Side

1

11.70

Back Side

1

11.70

Right Side

1

11.70

Top Side

1

11.70

Full Power for CH1

Front Side

1

11.01

Back Side

1

11.01

Right Side

1

11.01

Full Power for CH0

Front Side

38

9.99

Back Side

38

9.99

Right Side

38

9.99

Top Side

38

9.99

Full Power for CH1

Front Side

38

12.73

Back Side

38

12.73

Right Side

38

12.73

Top Side

38

12.73

Full Power for CH0

Front Side

62

10.85

Back Side

62

10.85

Full Power for CH1

Front Side

54

12.36

Back Side

54

12.36

Full Power for CH0

Front Side

126

8.36

Back Side

126

8.36

Full Power for CH1

Front Side

126

12.84

Back Side

126

12.84

Full Power for CH0

Front Side

159

7.54

Back Side

159

7.54

Right Side

159

7.54

Tune-up Limit (dBm)
13.50 13.50 13.50 13.50
13.00 13.00 13.00
11.50 11.50 11.50 11.50
14.50 14.50 14.50 14.50
12.50 12.50
14.00 14.00
10.00 10.00
14.50 14.50
9.50 9.50 9.50

Tune-up Scaling Factor
1.514 1.514 1.514 1.514
1.581 1.581 1.581
1.416 1.416 1.416 1.416
1.503 1.503 1.503 1.503
1.462 1.462
1.459 1.459
1.459 1.459
1.466 1.466
1.570 1.570 1.570

Meas. SAR1g (W/kg)
0.127 0.086 0.037 0.051
0.090 0.122 0.124
0.056 0.123 0.066 0.044
0.044 0.105 0.050 0.025
0.050 0.063
0.041 0.056
0.081 0.087
0.056 0.070
0.085 0.138 0.054

Reported SAR1g (W/kg)
0.192 0.131 0.056 0.078
0.142 0.193 0.196
0.080 0.175 0.094 0.063
0.066 0.158 0.075 0.038
0.074 0.093
0.060 0.082
0.119 0.127
0.082 0.103
0.134 0.218 0.085

MORLAB

Shenzhen Morlab Communications Technology Co., Ltd. FL1-3, Building A, FeiYang Science Park, No.8 LongChang Road, Block67, BaoAn District, ShenZhen , GuangDong Province, P. R. China

Tel: 86-755-36698555 Http://www.morlab.cn

Fax: 86-755-36698525 E-mail: [email protected]
Page 88 of 94

REPORT No.SZ22100161S02

WLAN5.8GHz/802.11a

Top Side

159

7.54

9.50

1.570

0.039

0.061

Full Power for CH1

WLAN5.8GHz/802.11n40 Front Side

151

11.85 13.50

1.462

0.020

0.029

WLAN5.8GHz/802.11n40 Back Side

151

11.85 13.50

1.462

0.118

0.173

WLAN5.8GHz/802.11n40 Right Side

151

11.85 13.50

1.462

0.034

0.050

WLAN5.8GHz/802.11n40

Top Side

151

11.85 13.50

1.462

0.046

0.068

Full Power for CH 0

76#

Bluetooth/DH5

Front Side

39

14.57 16.00

1.390

0.058

0.105

Bluetooth/DH5

Back Side

39

14.57 16.00

1.390

0.049

0.088

Bluetooth/DH5

Right Side

39

14.57 16.00

1.390

0.014

0.025

Bluetooth/DH5

Top Side

39

14.57 16.00

1.390

0.038

0.069

Note: 1. For TDD-LTE, the reported SAR should be scaled with the duty cycle scaling factor 1.006.

2. The 2.4G WLAN reported 1g SAR (W/kg) should be scaled with the duty cycle scaling factor 1.000, 5G WLAN 802.11n40 with 1.004.
3. The Bluetooth reported 1g SAR (W/kg) should be scaled with the duty cycle scaling factor 1.302.

18.4. Extremity SAR Assessment
 General Guidance 1. According to KDB 648747 D04v01r03 The UMPC mini-tablet procedures must also be applied to
test the SAR of all surfaces and edges with an antenna located at  25 mm from that surface or edge, in direct contact with a flat phantom, for 10-g extremity SAR according to the body-equivalent tissue dielectric parameters in KDB Publication 865664 D01 to address interactive hand use exposure conditions. 2. 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. 3. According to the user manual, the EUT diagonal size is greater than 16cm, therefore the 0mm extremity SAR of WLAN 5GHz is required. There are two types of antennas in this device, only the worst antenna was tested the extremity SAR in this report.

MORLAB

Shenzhen Morlab Communications Technology Co., Ltd. FL1-3, Building A, FeiYang Science Park, No.8 LongChang Road, Block67, BaoAn District, ShenZhen , GuangDong Province, P. R. China

Tel: 86-755-36698555 Http://www.morlab.cn

Fax: 86-755-36698525 E-mail: [email protected]
Page 89 of 94

REPORT No.SZ22100161S02

 Test Results

Plot No.

Band/Mode

Ave. Tune-up Test Position CH. Power Limit
(dBm) (dBm)
Sensor off/Full power for Top Antenna

Tune-up Scaling Factor

Meas. SAR10g (W/kg)

Reported SAR10g (W/kg)

BC0/RC3 SO32 (F+SCH) Front Side

384

23.34 24.00

1.164

0.400

0.466

BC0/RC3 SO32 (F+SCH) Back Side

384

23.34 24.00

1.164

0.522

0.608

Sensor off/Full power for Bottom Antenna

BC0/RC3 SO32 (F+SCH) Front Side

384

23.34 24.00

1.164

0.565

0.658

77# BC0/RC3 SO32 (F+SCH) Back Side

384

23.34 24.00

1.164

0.722

0.840

Sensor on/Reduced Power Level 1 for Top Antenna

BC1/RC3 SO32 (F+SCH) Front Side

600

19.25 20.00

1.189

0.396

0.471

78# BC1/RC3 SO32 (F+SCH) Back Side

600

19.25 20.00

1.189

0.549

0.652

Sensor on/Reduced Power Level 2 for Bottom Antenna

BC1/RC3 SO32 (F+SCH) Front Side

600

19.25 20.00

1.189

0.251

0.298

BC1/RC3 SO32 (F+SCH) Back Side

600

19.25 20.00

1.189

0.460

0.547

Full Power for CH0

79# WLAN5.3GHz/802.11n40 Front Side

62

10.85 12.50

1.462

0.269

0.395

WLAN5.3GHz/802.11n40 Back Side

62

10.85 12.50

1.462

0.103

0.151

Full Power for CH1

WLAN5.3GHz/802.11n40 Front Side

54

12.36 14.00

1.459

0.088

0.129

WLAN5.3GHz/802.11n40 Back Side

54

12.36 14.00

1.459

0.136

0.199

Full Power for CH0

80# WLAN5.5GHz/802.11n40 Front Side

126

8.36

10.00

1.459

0.543

0.795

WLAN5.5GHz/802.11n40 Back Side

126

8.36

10.00

1.459

0.169

0.248

Full Power for CH1

WLAN5.5GHz/802.11n40 Front Side

126

12.84 14.50

1.466

0.018

0.026

WLAN5.5GHz/802.11n40 Back Side

126

12.84 14.50

1.466

0.234

0.344

Note: The 5G WLAN 802.11n40 reported 1g SAR (W/kg) should be scaled with the duty cycle scaling factor 1.004.

MORLAB

Shenzhen Morlab Communications Technology Co., Ltd. FL1-3, Building A, FeiYang Science Park, No.8 LongChang Road, Block67, BaoAn District, ShenZhen , GuangDong Province, P. R. China

Tel: 86-755-36698555 Http://www.morlab.cn

Fax: 86-755-36698525 E-mail: [email protected]
Page 90 of 94

REPORT No.SZ22100161S02
19. Simultaneous Transmission Evaluation

19.1. Simultaneous Transmission Consideration

No.

Simultaneous Transmission Consideration

Head Body-Worn Hotspot

1 WWAN+WLAN 2.4GHz/5GHz(SISO/MIMO)

Yes

Yes

Yes

2 WWAN+WLAN 5.2GHz/5.8GHz(SISO/MIMO)

Yes

Yes

Yes

3 WWAN+WLAN 5.3GHz/5.5GHz(SISO/MIMO)

Yes

Yes

No

4 WWAN+Bluetooth

No

Yes

Yes

5 WLAN 5.2GHz/5.8GHz(CH0)+Bluetooth

No

Yes

Yes

6 WLAN 5.3GHz/5.5GHz(CH0)+Bluetooth

No

Yes

No

7 WLAN 5.2GHz/5.8GHz(CH1)+Bluetooth

No

Yes

Yes

8 WLAN 5.3GHz/5.5GHz(CH1)+Bluetooth

No

Yes

No

9 WWAN+WLAN 5.2GHz/5.8GHz(CH0)+Bluetooth

No

Yes

Yes

10 WWAN+WLAN 5.3GHz/5.5GHz(CH0)+Bluetooth

No

Yes

No

11 WWAN+WLAN 5.2GHz/5.8GHz(CH1)+Bluetooth

No

Yes

Yes

12 WWAN+WLAN 5.3GHz/5.5GHz(CH1)+Bluetooth

No

Yes

No

Note:

1. When the user enables the personal wireless router functions for the handset, actual operations

include simultaneous transmission of the WWAN and WLAN transmitters. The "Portable Hotspot"

feature on the handset was NOT activated, to ensure the SAR measurements were evaluated for

a single transmission frequency RF signal.

2. The hotspot SAR result may overlap with the body-worn accessory SAR requirements, per KDB

941225 D06, the more conservative configurations can be considered, thus excluding some

unnecessary body-worn accessory SAR tests.

3. Simultaneous Transmission SAR evaluation is not required for BT and WLAN 2.4GHz, because

the software mechanism has been incorporated to guarantee that the WLAN and Bluetooth

transmitters would not simultaneously operate.

4. Per KDB 447498D04v01, simultaneous transmission SAR evaluation procedures is as followed:

Step 1: If sum of 1 g SAR < 1.6 W/kg, Simultaneous SAR measurement is not required.

Step 2: If sum of 1 g SAR > 1.6 W/kg, ratio of SAR to peak separation distance for pair of

transmitters calculated.

Step 3: If the ratio of SAR to peak separation distance is  0.04, Simultaneous SAR measurement

is not required.

Step 4: If the ratio of SAR to peak separation distance is > 0.04, Simultaneous SAR measurement

is required and simultaneous transmission SAR value is calculated.

(The ratio is determined by: (SAR1 + SAR2) ^ 1.5/Ri  0.04,

Ri is the separation distance between the peak SAR locations for the antenna pair in mm.

MORLAB

Shenzhen Morlab Communications Technology Co., Ltd. FL1-3, Building A, FeiYang Science Park, No.8 LongChang Road, Block67, BaoAn District, ShenZhen , GuangDong Province, P. R. China

Tel: 86-755-36698555 Http://www.morlab.cn

Fax: 86-755-36698525 E-mail: [email protected]
Page 91 of 94

REPORT No.SZ22100161S02
5. 2.4G&5G MIMO SAR were combined with the standalone SAR of CH0 and CH1. 6. When it supports transmit simultaneously at WWAN+WLAN MIMO, the co-location SAR of
WWAN+WLAN (standalone SAR) would not be recorded in this report. 7. The co-location of WWAN+Bluetooth and WLAN 5GHz(SISO)+Bluetooth would not be recorded
since it is less than the combination of WWAN+ WLAN 5GHz(SISO)+Bluetooth. 8. This device does not support the combination of WWAN+WLAN 2.4GHz+WLAN 5GHz.
19.2. Simultaneous Transmission Analysis
Remark: The 5G EN-DC Data and simultaneous transmission data were recorded in annex F.

MORLAB

Shenzhen Morlab Communications Technology Co., Ltd. FL1-3, Building A, FeiYang Science Park, No.8 LongChang Road, Block67, BaoAn District, ShenZhen , GuangDong Province, P. R. China

Tel: 86-755-36698555 Http://www.morlab.cn

Fax: 86-755-36698525 E-mail: [email protected]
Page 92 of 94

20. Uncertainty Assessment

REPORT No.SZ22100161S02

According to KDB 865664 D01 SAR measurement 100 MHz to 6GHz, when the highest measured 1-g SAR is less than 1.5 W/kg and 10-g extremity SAR less than 3.75 W/kg, the expanded SAR measurement uncertainty must be less than 30% with a confidence interval of k=2. When these conditions are met, extensive SAR measurement uncertainty analysis described in IEEE 1528-2013 is not required in the SAR report and submitted for equipment approval. For this device, both the 1-g SAR is less than 1.5 W/kg and 10-g extremity SAR less than 3.75 W/kg. Therefore the measurement uncertainty table is not required in this report.

MORLAB

Shenzhen Morlab Communications Technology Co., Ltd. FL1-3, Building A, FeiYang Science Park, No.8 LongChang Road, Block67, BaoAn District, ShenZhen , GuangDong Province, P. R. China

Tel: 86-755-36698555 Http://www.morlab.cn

Fax: 86-755-36698525 E-mail: [email protected]
Page 93 of 94

Annex A General Information

REPORT No.SZ22100161S02

1. Identification of the Responsible Testing Laboratory

Laboratory Name:

Shenzhen Morlab Communications Technology Co., Ltd.

Laboratory Address:

FL.3, Building A, FeiYang Science Park, No.8 LongChang

Road, Block 67, BaoAn District, ShenZhen, GuangDong

Province, P. R. China

Telephone:

+86 755 36698555

Facsimile:

+86 755 36698525

2. Identification of the Responsible Testing Location

Name: Address:

Shenzhen Morlab Communications Technology Co., Ltd. FL.3, Building A, FeiYang Science Park, No.8 LongChang Road, Block 67, BaoAn District, ShenZhen, GuangDong Province, P. R. China

3. Facilities and Accreditations The FCC designation number is CN1192, the test firm registration number is 226174.

Note The main report is end here and the other Annex (B,C,D,E,F,G) will be submitted separately.

****** END OF MAIN REPORT ******

MORLAB

Shenzhen Morlab Communications Technology Co., Ltd. FL1-3, Building A, FeiYang Science Park, No.8 LongChang Road, Block67, BaoAn District, ShenZhen , GuangDong Province, P. R. China

Tel: 86-755-36698555 Http://www.morlab.cn

Fax: 86-755-36698525 E-mail: [email protected]
Page 94 of 94



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