balun

Test Report SAR

E&S; International Enterprises, Inc. RATM30846 8.68 inch Tablet 2AYPE-RATM30846 2AYPERATM30846 ratm30846

E&S; International Enterprises, Inc. RATM30846 2AYPE-RATM30846 2AYPERATM30846 ratm30846

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Report No.: BL-SZ2451186-701

TEST REPORT

Applicant: Address: Equipment Type: Model Name: Brand Name: FCC ID: Test Standard:
Maximum SAR: Sample Arrival Date: Test Date: Date of Issue:

E&S International Enterprises, Inc. 7801 Hayvenhurst Avenue, Van Nuys, California 91406, United States 8.68" Tablet
RATM30846 (refer to section 2.3)
RCA
2AYPE-RATM30846 FCC 47 CFR Part 2.1093 (refer to section 3.1) Body 2.4GHz(1 g@0mm): 1.11 W/kg Body 5GHz(1 g@0mm): 1.08 W/kg Jun. 07, 2024
Jun. 07, 2024 - Jun. 08, 2024
Jul. 04, 2024

ISSUED BY: Shenzhen BALUN Technology Co., Ltd.

Tested by: Ruan Zhaoyi

Checked by: Xu Rui

Approved by: Tolan Tu (Testing Director)

_______________

_______________

_______________

Tel: +86-755-66850100

E-mail: [email protected]

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Report No.: BL-SZ2451186-701

Version Rev. 01

Revision History

Issue Date Jul. 04, 2024

Revisions Initial Issue

TABLE OF CONTENTS

1 GENERAL INFORMATION........................................................................................................ 4

1.1

Test Laboratory ............................................................................................................ 4

1.2

Test Location ................................................................................................................ 4

1.3

Test Environment Condition.......................................................................................... 4

2 PRODUCT INFORMATION ....................................................................................................... 5

2.1

Applicant Information .................................................................................................... 5

2.2

Manufacturer Information.............................................................................................. 5

2.3

General Description for Equipment under Test (EUT)................................................... 5

2.4

Ancillary Equipment ...................................................................................................... 5

2.5

Technical Information ................................................................................................... 6

3 SUMMARY OF TEST RESULT ................................................................................................. 7

3.1

Test Standards ............................................................................................................. 7

3.2

Device Category and SAR Limit ................................................................................... 8

3.3

Test Result Summary ................................................................................................... 9

3.4

Test Uncertainty ......................................................................................................... 10

4 MEASUREMENT SYSTEM ..................................................................................................... 11

4.1

Specific Absorption Rate (SAR) Definition .................................................................. 11

4.2

DASY SAR System .................................................................................................... 12

5 SYSTEM VERIFICATION ........................................................................................................ 19

5.1

Purpose of System Check .......................................................................................... 19

5.2

System Check Setup .................................................................................................. 19

6 TEST POSITION CONFIGURATIONS .................................................................................... 20

6.1

Tablet Exposure Condition.......................................................................................... 20

7 MEASUREMENT PROCEDURE ............................................................................................. 21

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E-mail: [email protected]

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7.1

Measurement Process Diagram ................................................................................. 21

7.2

SAR Scan General Requirement ................................................................................ 22

7.3

Measurement Procedure ............................................................................................ 23

7.4

Area & Zoom Scan Procedure .................................................................................... 23

8 CONDUCTED RF OUPUT POWER ........................................................................................ 24

8.1

WIFI............................................................................................................................ 24

8.2

Bluetooth .................................................................................................................... 27

9 TEST EXCLUSION CONSIDERATION ................................................................................... 28

9.1

Antenna Location Sketch ............................................................................................ 28

9.2

SAR Test Consideration Table ................................................................................... 29

10 TEST RESULT ........................................................................................................................ 32

10.1

WIFI 2.4GHz............................................................................................................... 33

10.2

WIFI 5GHz.................................................................................................................. 33

10.3

Bluetooth .................................................................................................................... 33

11 SAR Measurement Variability .................................................................................................. 34

12 SIMULTANEOUS TRANSMISSION......................................................................................... 35

12.1

Simultaneous Transmission Mode Considerations ..................................................... 35

12.2

Body Simultaneous Transmission SAR Evaluation for WLAN Antenna with Bluetooth 36

13 TEST EQUIPMENTS LIST ...................................................................................................... 37

ANNEX A SIMULATING LIQUID VERIFICATION RESULT ........................................................ 38

ANNEX B SYSTEM CHECK RESULT ........................................................................................ 39

ANNEX C TEST DATA................................................................................................................ 48

ANNEX D EUT EXTERNAL PHOTOS......................................................................................... 58

ANNEX E SAR TEST SETUP PHOTOS ..................................................................................... 58

ANNEX F CALIBRATION REPORT ............................................................................................ 58

ANNEX G TUNE-UP PROCEDURE ............................................................................................ 58

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Report No.: BL-SZ2451186-701

1 GENERAL INFORMATION

1.1 Test Laboratory

Name Address Phone Number

Shenzhen BALUN Technology Co., Ltd. Block B, 1/F, Baisha Science and Technology Park, Shahe Xi Road, Nanshan District, Shenzhen, Guangdong Province, P. R. China +86 755 6685 0100

1.2 Test Location
Name
Location
Accreditation Certificate

Shenzhen BALUN Technology Co., Ltd. Block B, 1/F, Baisha Science and Technology Park, Shahe Xi
Road, Nanshan District, Shenzhen, Guangdong Province, P. R. China
1/F, Building B, Ganghongji High-tech Intelligent Industrial Park, No. 1008, Songbai Road, Yangguang Community, Xili Sub-district, Nanshan District, Shenzhen, Guangdong Province, P. R. China The laboratory is a testing organization accredited by FCC as a accredited testing laboratory. The designation number is CN1196.

1.3 Test Environment Condition

Ambient Temperature Ambient Relative Humidity

18 to 25 30% to 70%

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2 PRODUCT INFORMATION

2.1 Applicant Information

Applicant Address

E&S International Enterprises, Inc. 7801 Hayvenhurst Avenue, Van Nuys, California 91406, United States

2.2 Manufacturer Information

Manufacturer Address

HENA GROUP COMPANY LIMITED ROOM 2205, WESTLANDS CENTRE, 20 WESTLAND ROAD, QUARRY BAY, HONG KONG

2.3 General Description for Equipment under Test (EUT)

EUT Name Model Name Under Test
Series Model Name
Description of Model name differentiation
Hardware Version Software Version Dimensions (Approx.) Weight (Approx.)

8.68" Tablet RATM30846 86QF68, RATM30846-*****, RATM30846F-*****, RATM30846K*****(The "*" in model name can be 0 to 9, A to Z, a to z, "-" or blank) All models are same with electrical parameters and internal circuit structure, but only differ in shell color and model name. (this information provided by the applicant) EM_T8123_V1.0 L20 Android 14 N/A N/A

2.4 Ancillary Equipment

Ancillary Equipment 1

Battery 1 Brand Name Model No. Serial No. Capacity Rated Voltage Limit Charge Voltage Manufacturer

Utility U2968180PV N/A 5000 mAh 3.80 V 4.35 V Shenzhen UTILITY ENERGY CO., LTD.

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2.5 Technical Information

Network and Wireless connectivity

Bluetooth (BR+EDR+BLE) 2.4G WIFI 802.11b, 802.11g and 802.11n(HT20/40) 5G WIFI 802.11a, 802.11n(HT20/40) and 802.11ac(VHT20/40/80) U-NII-1/2A/2C/3

The requirement for the following technical information of the EUT was tested in this report:

Operating Mode
Frequency Range
Antenna Type Hotspot Function Exposure Category Product Type EUT Type

2.4G WLAN, 5G WLAN, Bluetooth

802.11b/g/n(HT20/HT40)

2412 MHz ~ 2462 MHz

802.11a/ n(HT20/HT40) /ac(VHT20/VHT40/VHT80)

5150 MHz ~ 5250 MHz 5250 MHz ~ 5350 MHz 5470 MHz ~ 5725 MHz 5725 MHz ~ 5850 MHz

Bluetooth

2402 MHz ~ 2480 MHz

WLAN: PIFA Antenna

Bluetooth: PIFA Antenna

N/A

General Population/Uncontrolled exposure

Portable Device

Production unit

Identical prototype

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3 SUMMARY OF TEST RESULT

3.1 Test Standards

No.

Identity

Document Title

1 47 CFR Part 2.1093 Radiofrequency radiation exposure evaluation: portable devices

IEEE Standard for Safety Levels with Respect to Human Exposure 2 ANSI C95.1-1992
to Radio Frequency Electromagnetic Fields, 3 kHz to 300 GHz

KDB 447498 D04

3

447498 D04 Interim General RF Exposure Guidance v01

v01

KDB 865664 D01

4

SAR Measurement 100 MHz to 6 GHz

v01r04

KDB 865664 D02

5

RF Exposure Reporting

v01r02

KDB 248227 D01

6

SAR Guidance for IEEE 802.11 (Wi-Fi) Transmitters

v02r02

KDB 616217

7

SAR for laptop and tablets

D04v01r02

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3.2 Device Category and SAR Limit

This device belongs to portable device category because its radiating structure is allowed to be used within 20 centimeters of the body of the user.

Limit for General Population/Uncontrolled exposure should be applied for this device, it is 1.6 W/kg as averaged over any 1 gram of tissue.

Table of Exposure Limits:

SAR Value (W/Kg)

Body Position

General Population/

Occupational/

Uncontrolled Exposure

Controlled Exposure

Whole-Body SAR

0.08

0.4

(averaged over the entire body)

Partial-Body SAR

1.60

8.0

(averaged over any 1 gram of tissue)

SAR for hands, wrists, feet and

ankles

4.0

20.0

(averaged over any 10 grams of tissue)

NOTE:

General Population/Uncontrolled Exposure: Locations where there is the exposure of individuals who

have no knowledge or control of their exposure. 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.

Occupational/Controlled Exposure: Locations where there is exposure that may be incurred by persons who are aware of the potential for exposure, 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. This 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.

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Report No.: BL-SZ2451186-701
3.3 Test Result Summary
3.3.1 Highest SAR (1 g Value)

Equipment Class

Band

DTS U-NII-2A U-NII-2C U-NII-3
DSS

2.4G WLAN 5.3G WLAN 5.6G WLAN 5.8G WLAN
Bluetooth Limit (W/kg)
Verdict

Maximum Report SAR
(W/kg) Body (0mm)
1.11 1.08 0.65 0.31 0.76

1.60 Pass

Maximum Report SAR
(W/kg) Body (0mm)
1.11

3.3.2 Highest Simultaneous Transmission SAR Values (1 g Value)

Equipment Class

Maximum Report SAR (W/kg) Body(0mm) 1g SAR

NII

1.59

DSS

1.59

Limit (W/Kg)

1.60

Verdict

Pass

Note: The simultaneous transmission SAR detail please refer to section 12.

SPLSR
/ / 0.04 Pass

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Report No.: BL-SZ2451186-701
3.4 Test Uncertainty
According to KDB 865664 D01, when the highest measured 1 g SAR within a frequency band is < 1.5 W/kg, the extensive SAR measurement uncertainty analysis is not required in SAR reports submitted for equipment approval.
The maximum 1 g SAR for the EUT in this report is 1.11 W/kg, which is lower than 1.5 W/kg, so the extensive SAR measurement uncertainty analysis is not required in this report.

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Report No.: BL-SZ2451186-701
4 MEASUREMENT SYSTEM
4.1 Specific Absorption Rate (SAR) Definition
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/controlled and general population/uncontrolled, based on a person's awareness and ability to exercise control over his or her exposure. In general, occupational/controlled exposure limits are higher than the limits for general population/uncontrolled. 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 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 RMS electrical field strength.

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4.2 DASY SAR System
4.2.1 DASY SAR System Diagram

The DASY system for performing compliance tests consists of the following items: 1. A standard high precision 6-axis robot (Stäubli RX family) with controller and software. An arm
extension for accommodating the data acquisition electronics (DAE). 2. A dosimetric probe, i.e. an isotropic E-field probe optimized and calibrated for usage in tissue
simulating liquid. The probe is equipped with an optical surface detector system. 3. A data acquisition electronic (DAE) which performs the signal amplification, signal multiplexing, AD-
conversion, offset measurements, mechanical surface detection, collision detection, etc. The unit is battery powered with standard or rechargeable batteries. The signal is optically transmitted to the EOC. 4. A unit to operate the optical surface detector which is connected to the EOC. 5. The Electro-Optical Coupler (EOC) performs the conversion from the optical into a digital electric signal of the DAE. The EOC is connected to the DASY measurement server. 6. The DASY measurement server, which performs all real-time data evaluation for field measurements and surface detection, controls robot movements and handles safety operation. 7. DASY software and SEMCAD data evaluation software. 8. Remote control with teach panel and additional circuitry for robot safety such as warning lamps, etc. 9. The generic twin phantom enabling the testing of left-hand and right-hand usage. 10. The device holder for handheld mobile phones. 11. Tissue simulating liquid mixed according to the given recipes. 12. System validation dipoles allowing to validate the proper functioning of the system.

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Report No.: BL-SZ2451186-701
4.2.2 Robot
The Dasy SAR system uses the high precision robots. Symmetrical design with triangular core Built-in optical fiber for surface detection system For the 6-axis controller system, Built-in shielding against static charges PEEK enclosure material (resistant to organic solvents). The robot series have many features that are important for our application:
 High precision
(repeatability ±0.02 mm)
 High reliability
(industrial design)
 Low maintenance costs
(virtually maintenance free due to direct drive gears; no belt drives)
 Jerk-free straight movements
(brush less synchron motors; no stepper motors)
 Low ELF interference
(motor control _elds shielded via the closed metallic construction shields)

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4.2.3 E-Field Probe

The probe is specially designed and calibrated for use in liquids with high permittivities for the measurements the Specific Dosimetric E-Field Probe EX3DV4-SN: 7607 with following specifications is used.

Construction
Calibration Frequency Directivity
Dynamic range Dimensions
Application

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., glycolether) ISO/IEC 17025 calibration service available 4 MHz to 10 GHz; Linearity: ± 0.2 dB ± 0.2 dB in HSL (rotation around probe axis) ; ± 0.4 dB in HSL (rotation normal to probe axis) 5 W/g to > 100 mW/g; Linearity: ± 0.2 dB Overall length: 337 mm (Tip: 9 mm) Tip diameter: 2.5 mm (Body: 10 mm) Distance from probe tip to dipole centers: 1.0 mm
General dosimetry up to 3 GHz Compliance tests of mobile phones Fast automatic
scanning in arbitrary phantoms (EX3DV4)

E-Field Probe Calibration Process Probe calibration is realized, in compliance with IEC/IEEE 62209-1528 and IEEE 1528 std, with CALISAR, Antennessa proprietary calibration system. The calibration is performed with the IEC/IEEE 62209-1528 annexe technique using reference guide at the five frequencies.

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4.2.4 Data Acquisition Electronics
The data acquisition electronics (DAE) consist of a highly sensitive electrometer-grade preamplifier with auto-zeroing, a channel and gain-switching multiplexer, a fast 16 bit AD-converte and a command decoder with a control logic unit. Transmission to the measurement server is accomplished through an optical downlink for data and status information, as well as an optical uplink for commands and the clock.
 Input Impedance: 200MOhm  The Inputs: Symmetrical and Floating  Commom Mode Rejection: Above 80dB

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Report No.: BL-SZ2451186-701
4.2.5 Phantoms
For the measurements the Specific Anthropomorphic Mannequin (SAM) defined by the IEEE SCC34/SC2 group is used. The phantom is a polyurethane shell integrated in a wooden table. The thickness of the phantom amounts to 2mm +/- 0.2mm. It enables the dosimetric evaluation of left and right phone usage and includes an additional flat phantom part for the simplified performance check. The phantom set-up includes a cover, which prevents the evaporation of the liquid.
Left hand Right hand Flat phantom

Photo of Phantom SN1859

Serial Number SN 1859 SAM

Material Vinylester, glass fiber reinforced

Length 1000

Height 500

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4.2.6 Device Holder
The DASY device holder has two scales for device rotation (with respect to the body axis) and the device inclination (with respect to the line between the ear openings). The plane between the ear openings and the mouth tip has a rotation angle of 65°. The bottom plate contains three pair of bolts for locking the device holder. The device holder positions are adjusted to the standard measurement positions in the three sections. This device holder is used for standard mobile phones or PDAs only. If necessary an additional support of polystyrene material is used. Larger DUTs (e.g. notebooks) cannot be tested using this device holder. Instead a support of bigger polystyrene cubes and thin polystyrene plates is used to position the DUT in all relevant positions to find and measure spots with maximum SAR values. Therefore those devices are normally only tested at the flat part of the SAM.
The positioning system allows obtaining cheek and tilting position with a very good accuracy. Incompliance with CENELEC, the tilt angle uncertainty is lower than 1°.

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4.2.7 Simulating Liquid
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 15 cm. For head SAR testing, the liquid height from the ear reference point (ERP) of the phantom to the liquid top surface is larger than 15 cm. For body SAR testing, the liquid height from the center of the flat phantom to the liquid top surface is larger than 15 cm. The nominal dielectric values of the tissue simulating liquids in the phantom and the tolerance of 5%.

Head Liquid Depth

Body Liquid Depth

The following table gives the recipes for tissue simulating liquid and the theoretical Conductivity/Permittivity.

The following table gives the recipes for tissue simulating liquid.

TSL Head WideBand

Manufacturer / Model
SPEAG HBBL60010000V6

Freq Range (MHz)
600-10000

Main Ingredients
Ethanediol, Sodium petroleum sulfonate, Hexylene Glycol / 2-Methyl-pentane-2.4-
diol, Alkoxylated alcohol

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5 SYSTEM VERIFICATION
5.1 Purpose of System 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.
5.2 System Check Setup
In the simplified setup for system evaluation, the EUT is replaced by a calibrated dipole and the power source is replaced by a continuous wave that 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 equipment setup is shown below:

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6 TEST POSITION CONFIGURATIONS
6.1 Tablet Exposure Condition
This DUT was tested in three different positions. They are back side and top Edge in these positions, the surface of DUT is touching with phantom 0mm.

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7 MEASUREMENT PROCEDURE
7.1 Measurement Process Diagram

Repeated SAR
KDB 865664

Start

Power measurement
Exclusion Thresholds
N SAR Test consider
SAR Position Decided

KDB447498
Y
EUT FUCTION

Multiple Transmitting?
N
Not Required Y

Perform SAR Testing

SAR Result Scaled SAR

KDB447498 TUNE-UP Description

Estimate SAR

Multiple Transmitting?
Y N
Max. SAR

Sum. SAR Max. SAR

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7.2 SAR Scan General Requirement

Probe boundary effect error compensation is required for measurements with the probe tip closer than

half a probe tip diameter to the phantom surface. Boththe 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.

3GHz

>3GHz

Maximum distance from closest measurement point (geometric center of probe sensors) to phantom surface

5±1 mm

½··ln(2)±0.5 mm

Maximum probe angle from probe axis to phantom surface normal at the measurement location

30°±1°

20°±1°

 2 GHz:  15 mm 2 ­ 3 GHz:  12 mm

3­4 GHz:  12 mm 4 ­ 6 GHz:  10 mm

Maximum area scan spatial resolution: x Area , y Area

When the x or y dimension of the test device, in the measurement plane orientation, is smaller than the above, the measurement resolution must be  the corresponding x or

y dimension of the test device with at least one measurement point on the test device.

Maximum zoom scan spatial resolution: x Zoom , y Zoom

 2 GHz:  8 mm 2 ­3 GHz:  5 mm*

3­4 GHz:  5 mm* 4 ­ 6 GHz:  4 mm*

3­4 GHz:  4 mm

uniform grid: z Zoom (n)

 5 mm

4­5 GHz:  3 mm

Maximum zoom scan spatial resolution, normal to phantom surface

graded grid

z Zoom (1): between 1st two points closest to phantom surface
z Zoom (n>1): between subsequent

 4 mm

5­6 GHz:  2 mm 3­4 GHz:  3 mm 4­5 GHz:  2.5 mm 5­6 GHz:  2 mm

 1.5·z Zoom (n-1)

points

Minimum zoom scan volume

x, y, z

30 mm

3­4 GHz:  28 mm 4­5 GHz:  25 mm 5­6 GHz:  22 mm

Note:
1.  is the penetration depth of a plane-wave at normal incidence to the tissue medium; see draft standard IEEE P15282011 for details.

2. * When zoom scan is required and the reported SAR from the area scan based 1 g SAR estimation procedures of KDB

447498 is  1.4 W/kg,  8 mm,  7 mm and  5 mm zoom scan resolution may be applied, respectively, for 2 GHz to 3GHz, 3 GHz to 4 GHz and 4 GHz to 6 GHz.

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7.3 Measurement Procedure
The following steps are used for each test position a. 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 b. Measurement of the local E-field value at a fixed location. This value serves as a reference value for
calculating a possible power drift. c. 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. d. 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.
7.4 Area & Zoom Scan Procedure
First Area Scan is used to locate the approximate location(s) of the local peak SAR value(s). The measurement grid within an Area Scan is defined by the grid extent, grid step size and grid offset. Next, in order to determine the EM field distribution in a three-dimensional spatial extension, Zoom Scan is required. The Zoom Scan is performed around the highest E-field value to determine the averaged SARdistribution over 10 g. Area scan and zoom scan resolution setting follows KDB 865664 D01v01r04 quoted below. When the 1 g SAR of the highest peak is within 2 dB of the SAR limit, additional zoom scans are required for other peaks within 2 dB of the highest peak that have not been included in any zoom scan to ensure there is no increase in SAR.

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Report No.: BL-SZ2451186-701

8 CONDUCTED RF OUPUT POWER

8.1 WIFI

8.1.1 2.4G WIFI

Band (GHz)

Mode

Channel

Freq. (MHz)

Average Power Tune-up Power

(dBm)

Limit (dBm)

SAR Test Require.

1

2412

10.56

11.00

Yes

802.11b

6

2437

10.65

11.00

Yes

11

2462

10.70

11.00

Yes

1

2412

10.74

11.00

No

802.11g

6

2437

10.90

11.00

No

2.4

11

2462

10.91

11.00

No

(2.4~2.4835)

1

2412

10.60

11.00

No

802.11n(HT20)

6

2437

10.76

11.00

No

11

2462

10.85

11.00

No

3

2422

10.59

11.00

No

802.11n(HT40)

6

2437

10.89

11.00

No

9

2452

10.52

11.00

No

NoteAccording KDB 248227 D01 SAR is not required for the following 2.4 GHz OFDM conditions. 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.

Adjusted SAR = Report SAR * (max power (OFDM)/ max power (DSSS)) = 1.109 * (12.59 mw)/(12.59 mw) = 1.109 W/kg, so

the 2.4GHz OFDM SAR test is not required.

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8.1.2 5G WIFI

Band (GHz)

Mode

802.11a

802.11n(HT20)

5.2 (5.15~5.25)

802.11n(HT40)

802.11ac(VHT20)

802.11ac(VHT40) 802.11ac(VHT80)
802.11a

802.11n(HT20)

5.3 (5.25~5.35)

802.11n(HT40)

802.11ac(VHT20)

802.11ac(VHT40) 802.11ac(VHT80)
802.11a

5.6 (5.47~5.725)

802.11n(HT20) 802.11n(HT40)

802.11ac(VHT20)

Channel
36 44 48 36 44 48 38 46 36 44 48 38 46 42 52 60 64 52 60 64 54 62 52 60 64 54 62 58 100 116 140 100 116 140 102 118 134 100 116

Freq. (MHz) 5180 5220 5240 5180 5220 5240 5190 5230 5180 5220 5240 5190 5230 5210 5260 5300 5320 5260 5300 5320 5270 5310 5260 5300 5320 5270 5310 5290 5500 5580 5700 5500 5580 5700 5510 5590 5670 5500 5580

Average Power (dBm) 13.03 13.47 13.82 13.87 13.63 13.66 13.79 13.64 13.79 13.58 13.61 13.78 13.59 13.30 13.87 13.53 13.44 13.72 13.88 13.83 13.74 13.77 13.62 13.74 13.25 13.74 13.53 13.10 13.96 13.79 13.56 13.98 13.69 12.64 11.75 13.70 13.81 13.94 13.68

Tune-up Power Limit (dBm) 14.00 14.00 14.00 14.00 14.00 14.00 14.00 14.00 14.00 14.00 14.00 14.00 14.00 14.00 14.00 14.00 14.00 14.00 14.00 14.00 14.00 14.00 14.00 14.00 14.00 14.00 14.00 14.00 14.00 14.00 14.00 14.00 14.00 14.00 14.00 14.00 14.00 14.00 14.00

SAR Test Require.
No No No No No No No No No No No No No No No No No No No No No No No No No No No Yes No No No No No No No No No No No

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Report No.: BL-SZ2451186-701

140

5700

13.19

14.00

No

102

5510

13.31

14.00

No

802.11ac(VHT40)

118

5590

13.73

14.00

No

134

5670

13.83

14.00

No

106

5530

12.79

14.00

No

802.11ac(VHT80)

122

5610

13.43

14.00

Yes

149

5745

13.83

14.00

No

802.11a

157

5785

13.86

14.00

No

165

5825

13.53

14.00

No

149

5745

13.69

14.00

No

802.11n(HT20)

157

5785

13.71

14.00

No

165

5825

13.94

14.00

No

5.8

151

5755

13.69

14.00

No

802.11n(HT40)

(5.725~5.850)

159

5795

13.80

14.00

No

149

5745

13.68

14.00

No

802.11ac(VHT20)

157

5785

13.68

14.00

No

165

5825

13.92

14.00

No

151

5755

13.66

14.00

No

802.11ac(VHT40)

159

5795

13.78

14.00

No

802.11ac(VHT80)

155

5775

13.89

14.00

Yes

Note: 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, each band is tested independently for

SAR.

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Report No.: BL-SZ2451186-701

8.2 Bluetooth

Mode

GFSK

/4-DQPSK

Channel

0

39

78

0

39

78

Frequency (MHz)

2402

2441

2480

2402

2441

2480

Peak Power (dBm)

9.06

10.02

8.84

5.72

6.33

5.27

Tune-Up Limit (dBm)

11.00

11.00

11.00

7.00

7.00

7.00

SAR Test Require

No

Yes

No

No

No

No

Mode

8-DPSK

/

Channel

0

39

78

/

/

/

Frequency (MHz)

2402

2441

2480

/

/

/

Peak Power (dBm)

5.56

6.28

5.21

/

/

/

Tune-Up Limit (dBm)

7.00

7.00

7.00

/

/

/

SAR Test Require

No

No

No

/

/

/

Mode

BLE-1Mbps

BLE-2Mbps

Channel

0

19

39

1

19

38

Frequency (MHz)

2402

2440

2480

2404

2440

2478

Peak Power (dBm)

-4.12

-1.84

-3.66

-4.00

-1.86

-3.48

Tune-Up Limit (dBm)

-3.00

-1.00

-3.00

-3.00

-1.00

-3.00

SAR Test Require

No

No

No

No

No

No

Note: Since Bluetooth BR mode is the maximum output power mode, SAR measurements were performed with test software using DH5 modulation, and SAR measurement is not required for the EDR and LE. When the secondary mode is  ¼ dB

higher than the primary mode.

Note: The Bluetooth duty DH5 cycle is 76.68%, as following figure, according to 2016 Oct. TCB workshop for Bluetooth SAR scaling need further consideration and the maximum duty cycle is 100%, therefore the actual duty cycle will be scaled up to 100% for Bluetooth reported SAR calculation. Duty Cycle Bluetooth-GFSK

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Report No.: BL-SZ2451186-701
9 TEST EXCLUSION CONSIDERATION
9.1 Antenna Location Sketch

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9.2 SAR Test Consideration Table

According with FCC KDB 447498 D04, Appendix B, The SAR-based exemption formula applies for single fixed, mobile, and portable RF sources with available maximum time-averaged power or effective radiated power (ERP), whichever is greater, of less than or equal to the threshold Pth (mW).

This method shall only be used at separation distances from 0.5 cm to 40 cm and at frequencies from 0.3 GHz to 6 GHz (inclusive). The following table shows the power threshold from 5mm to 50mm.

Frequency (MHz)
300 450 835 1900 2450 3600 5800
Frequency (MHz)
300 450 835 1900 2450 3600 5800

At separation distance of 5 mm 39 mW 22 mW 9 mW 3 mW 3 mW 2 mW 1 mW
At separation distance of 30 mm 148 mW 135 mW 116 mW 92 mW 83 mW 71 mW 58 mW

Power Thresholds (mW)

At separation

At separation

distance of

distance of

10 mm

15 mm

65 mW

88 mW

44 mW

67 mW

25 mW

44 mW

12 mW

26 mW

10 mW

22 mW

8 mW

18 mW

6 mW

14 mW

At separation

At separation

distance of

distance of

35 mm

40 mm

166 mW

184 mW

158 mW

180 mW

145 mW

175 mW

122 mW

157 mW

111 mW

143 mW

96 mW

125 mW

80 mW

106 mW

At separation distance of 20 mm 110 mW 89 mW 66 mW 44 mW 38 mW 32 mW 25 mW
At separation distance of 45 mm 201 mW 203 mW 207 mW 195 mW 179 mW 158 mW 136 mW

At separation distance of 25 mm 129 mW 112 mW 90 mW 66 mW 59 mW 49 mW 40 mW
At separation distance of 50 mm 217 mW 226 mW 240 mW 236 mW 219 mW 195 mW 169 mW

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9.2.1 SAR Test Consideration

This host is a Tablet, under normal use the RF exposure scenarios are shown in the table below:

RF exposure Position

RF exposure scenarios

Back Side

Body

Left Edge

Body

Right Edge

Body

Top Edge

Body

Bottom Edge

Body

Body RF exposure scenarios

Test Position Configurations

Mode

Bluetooth

WLAN 2.4GHz

UNII-2A

UNII-2C

UNII-3

Calculated Frequency(MHz)

2480

2462

5320

5710

5825

Distance to User (mm)

5.00

Max. Peak Power (dBm)

10.50

11.00

14.00

14.00

14.00

Back Side

Max. Peak Power (mW)

11.22

12.59

25.12

25.12

25.12

Exclusion Threshold (mW)

2.72

2.73

1.47

1.39

1.37

SAR Test Required

Yes

Yes

Yes

Yes

Yes

Distance to User (mm)

90.00

Max. Peak Power (dBm)

10.50

11.00

14.00

14.00

14.00

Left Edge

Max. Peak Power (mW)

11.22

12.59

25.12

25.12

25.12

Exclusion Threshold (mW)

668.59

669.44

585.72

578.58

576.58

SAR Test Required

No

No

No

No

No

Distance to User (mm)

25.00

Max. Peak Power (dBm)

10.50

11.00

14.00

14.00

14.00

Right Edge

Max. Peak Power (mW)

11.22

12.59

25.12

25.12

25.12

Exclusion Threshold (mW)

58.28

58.47

41.29

39.99

39.63

SAR Test Required

No

No

No

No

No

Distance to User (mm)

5.00

Max. Peak Power (dBm)

10.50

11.00

14.00

14.00

14.00

Top Edge

Max. Peak Power (mW)

11.22

12.59

25.12

25.12

25.12

Exclusion Threshold (mW)

2.72

2.73

1.47

1.39

1.37

SAR Test Required

Yes

Yes

Yes

Yes

Yes

Distance to User (mm)

200.00

Max. Peak Power (dBm)

10.50

11.00

14.00

14.00

14.00

Bottom Edge

Max. Peak Power (mW)

11.22

12.59

25.12

25.12

25.12

Exclusion Threshold (mW)

3060.00 3060.00

3060.00

3060.00 3060.00

SAR Test Required

No

No

No

No

No

Note:

1. Maximum power is the source-based time-average power and represents the maximum RF output power including tune-

up tolerance among production units

2. Per KDB 447498 D04, for larger devices, the test separation distance of adjacent edge configuration is determined by

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Report No.: BL-SZ2451186-701
the closest separation between the antenna and the user. 3. Per KDB 447498 D04, standalone SAR test exclusion threshold is applied; If the distance of the antenna to the user is <
5mm, 5mm is used to determine SAR exclusion threshold 4. Per KDB 447498 D04, for separation distances from 0.5 cm to 40 cm and at frequencies from 0.3 GHz to 6 GHz
(inclusive), the threshold Pth (mW) is given by Following:

where

60



=

-10

(

)

20 

a. f(GHz) is the RF channel transmit frequency in GHz

b. d is the separation distance (cm), The result is rounded to one decimal place for comparison

c. 20 are determined by:

20() = () = {23004600

0.3   < 1.5 1.5    6

5. Per KDB 248227 D01, choose the highest output power channel to test SAR and determine further SAR exclusion.8. For each frequency band, testing at higher data rates and higher order modulations is not required when the maximum average output power for each of these configurations is less than 1/4dB higher than those measured at the lowest data rate
6. Per KDB 248227 D01 SAR is not required for the following 2.4 GHz OFDM conditions. a. When KDB Publication 447498 D04 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. 7. Per KDB 248227 D01 SAR is not required for the following U-NII-1 and U-NII-2A bands conditions.
a. 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, each band is tested independently for SAR.
b. 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, each band is tested independently for SAR.

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10 TEST RESULT
1. 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 WLAN/Bluetooth: Reported SAR(W/kg)= Measured SAR(W/kg)* Duty Cycle scaling factor * Tune-up scaling factor
2. Per KDB 447498 D04, 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 midband 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 3. Per KDB 865664 D01v01r04, for each frequency band, repeated SAR measurement is required only when the measured SAR is 0.8W/kg

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10.1WIFI 2.4GHz

Mode

Position

Dist. (mm)

Freq. Ch.
(MHz)

Power Drift (dB)

1g Meas SAR (W/kg)

Meas. Power (dBm)

Body

Back Side

0

11 2462 0.13 0.666 10.70

802.11b

Top Edge Top Edge

0

11 2462 0.02 1.030 10.70

0

1 2412 -0.11 0.583 10.56

Top Edge

0

6 2437 -0.11 0.756 10.65

Note: Refer to ANNEX C for the detailed test data for each test configuration.

Max. tune-up power (dBm)

Scaling Factor

Duty cycle (%)

11.00 11.00 11.00 11.00

1.072 1.072 1.107 1.084

99.59 99.59 99.59 99.59

Duty cycle Factor
1.004 1.004 1.004 1.004

1g Report SAR (W/kg)

Meas. No.

0.717

/

1.109 1#

0.648

/

0.823

/

10.2WIFI 5GHz

Mode

Position

Dist. (mm)

Freq. Ch.
(MHz)

Power Drift (dB)

1g Meas SAR (W/kg)

Meas. Power (dBm)

Body-5.3G

802.11 Back Side

0

58 5290 0.01 0.793 13.10

ac80

Top Edge

0

58 5290 -0.12 0.406 13.10

Body-5.6G

802.11 Back Side

0 122 5610 0.04 0.517 13.43

ac80

Top Edge

0 122 5610 -0.12 0.222 13.43

Body-5.8G

802.11 Back Side

0 155 5775 -0.18 0.193 13.89

ac80

Top Edge

0 155 5775 0.04 0.273 13.89

Note: Refer to ANNEX C for the detailed test data for each test configuration.

Max. tune-up power (dBm)

Scaling Factor

Duty cycle (%)

14.00 14.00

1.230 1.230

90.38 90.38

14.00 14.00

1.140 1.140

90.38 90.38

14.00 14.00

1.026 1.026

90.38 90.38

Duty cycle Factor
1.106 1.106
1.106 1.106
1.106 1.106

1g Report SAR (W/kg)

Meas. No.

1.079 2#

0.552

/

0.652 3#

0.280

/

0.219

/

0.310 4#

10.3 Bluetooth

Mode

Position

Dist. (mm)

Power

Freq.

Ch.

Drift

(MHz)

(dB)

1g Meas SAR (W/kg)

Meas. Power (dBm)

Body

Back Side

0

DH5

Top Edge

0

39 2441 0.01 39 2441 0.03

0.354 0.520

76.88 76.88

Note: Refer to ANNEX C for the detailed test data for each test configuration.

Max. tune-up power (dBm)

Scaling Factor

Duty cycle (%)

1.301 1.301

10.02 10.02

10.50 10.50

Duty cycle Factor
1.117 1.117

1g Report SAR (W/kg)

Meas. No.

0.514

/

0.756

5#

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Report No.: BL-SZ2451186-701

11 SAR Measurement Variability
According to KDB 865664 D01, SAR measurement variability was assessed for each frequency band, which is determined by the SAR probe calibration point and tissue-equivalent medium used for the device measurements. When both head and body tissue-equivalent media are required for SAR measurements in a frequency band, the variability measurement procedures should be applied to the tissue medium with the highest measured SAR, using the highest measured SAR configuration for that tissue-equivalent medium. Alternatively, if the highest measured SAR for both head and body tissueequivalent media are  1.45 W/kg and the ratio of these highest SAR values, i.e., largest divided by smallest value, is  1.10, the highest SAR configuration for either head or body tissue-equivalent medium may be used to perform the repeated measurement. These additional measurements are repeated after the completion of all measurements requiring the same head or body tissue-equivalent medium in a frequency band. The test device should be returned to ambient conditions (normal room temperature) with the battery fully charged before it is re-mounted on the device holder for the repeated measurement(s) to minimize any unexpected variations in the repeated results.
SAR repeated measurement procedure:
1When the highest measured SAR is < 0.80 W/kg, repeated measurement is not required.
2When the highest measured SAR is >= 0.80 W/kg, repeat that measurement once.
3If the ratio of largest to smallest SAR for the original and first repeated measurements is > 1.20, or when the original or repeated measurement is >= 1.45 W/kg, perform a second repeated measurement.
4If the ratio of largest to smallest SAR for the original, first and second repeated measurements is > 1.20, and the original, first or second repeated measurement is >= 1.5 W/kg, perform a third repeated measurement.

Frequency Band (MHz)

Wireless Band

RF Exposure Conditions

Test Position

Highest Measured
SAR (W/kg)

Repeated SAR
(Yes/No)

Repeated1th Measured SAR
(W/kg)

Largest to Smallest SAR Radio

2462

802.11 b

Body

Top Edge

1.030

Yes

0.997

1.03

Note: The ratio of largest to smallest SAR for the original and first repeated measurements is < 1.20, the second

repeated measurement. is not required.

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Report No.: BL-SZ2451186-701

12 SIMULTANEOUS TRANSMISSION
Simultaneous transmission SAR test exclusion is determined for each operating configuration and exposure condition according to the reported standalone SAR of each applicable simultaneous transmitting antenna. When the sum of SAR 1g of all simultaneously transmitting antennas in an operating mode and exposure condition combination is within the SAR limit (SAR 1g 1.6 W/kg), the simultaneous transmission SAR is not required. When the sum of SAR 1g is greater than the SAR limit (SAR 1g 1.6 W/kg), SAR test exclusion is determined by the SAR to Peak Location Ratio (SPLSR). According KDB 447498 D04, simultaneous transmission: a) SPLSR = (SAR1 + SAR2)^1.5 / Ri (min. separation distance, mm), and the peak separation distance
is determined from the square root of [(x1-x2)2 + (y1-y2)2 + (z1-z2)2], where (x1, y1, z1) and (x2, y2, z2) are the coordinates of the extrapolated peak SAR locations in the zoom scan. SAR1 is the highest reported or estimated SAR for the first of a pair of simultaneous transmitting antennas, in a specific test operating mode and exposure condition. SAR2 is the highest reported or estimated SAR for the second of a pair of simultaneous transmitting antennas, in a specific test operating mode and exposure condition as the first. b) If SPLSR  0.04, simultaneously transmission SAR measurement is not necessary. c) Simultaneously transmission SAR measurement, and the reported multi-band SAR < 1.6W/kg.

12.1Simultaneous Transmission Mode Considerations

No.

Simultaneous Tx Combination

Body

1

Bluetooth + WLAN 5GHz

Yes

Note: 1.The maximum SAR summation is calculated based on the same configuration and test position. 2.WLAN 2.4GHz will not be transmitting from at same time.

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Report No.: BL-SZ2451186-701

12.2Body Simultaneous Transmission SAR Evaluation for WLAN Antenna with Bluetooth
12.2.1 Highest Bluetooth and WLAN Sum Body SAR of Simultaneous Transmission

State Body

Position Back Side

Stand alone SAR

1

2

Bluetooth

MAX. WLAN 5GHz

0.514

1.078

SUM SAR
Sum SAR 1+2
1.593

Body

Top Edge

0.756

0.552

1.308

Note: 1: The highest Summed 1g SAR is 1.593 W/Kg < 1.6 W/kg, so Simultaneous Transmission SAR test is not required.

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Report No.: BL-SZ2451186-701

13 TEST EQUIPMENTS LIST

Description

Manufacturer

Model

Serial No./Version

Cal. Date

Cal. Due

PC

Dell

N/A

N/A

N/A

N/A

Test Software

Speag

DASY6

16.0.0.116

N/A

N/A

2450MHz Validation Dipole

Speag

D2450V2

SN: 1062

2021/07/05 2024/07/05

5GHz Validation Dipole

Speag

D5GHzV2

SN: 1333

2021/09/14 2024/09/14

E-Field Probe

Speag

EX3DV4

SN: 7607

2023/07/04 2024/07/04

Data Acquisition Electronicsr

Speag

DAE4

SN: 1711

2024/03/18 2025/03/18

Signal Generator

R&S

SMB100A

177746

2024/04/24 2025/04/24

Power Meter

R&S

NRVD-B2

835843/014

2023/09/05 2024/09/05

Power Sensor

R&S

NRV-Z4

100381

2023/09/05 2024/09/05

Power Sensor

R&S

NRV-Z2

100211

2023/09/05 2024/09/05

Network Analyzer

Agilent

E5071C

MY46103472

2023/11/14 2024/11/14

Thermometer

Elitech

RC-4

EF5238001628

2023/10/09 2024/10/09

Thermometer

Elitech

RC-4HC

EF7239002652

2023/11/17 2024/11/17

Power Amplifier

SATIMO

6552B

22374

N/A

N/A

Dielectric Probe Kit

Speag

DAK3.5

SN: 1312

N/A

N/A

Phantom

Speag

SAM

SN: 1859

N/A

N/A

Attenuator

COM-MW

ZA-S1-31

1305003187

N/A

N/A

Directional coupler

AA-MCS AAMCS-UDC

000272

N/A

N/A

Note: For dipole antennas, BALUN has adopted 3 years as calibration intervals, and on annual basis, every measurement

dipole has been evaluated and is in compliance with the following criteria:

1. There is no physical damage on the dipole;

2. System validation with specific dipole is within 10% of calibrated value;

3. Return-loss in within 20% of calibrated measurement.

4. Impedance (real or imaginary parts) in within 5 Ohms of calibrated measurement.

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Report No.: BL-SZ2451186-701

ANNEX A SIMULATING LIQUID VERIFICATION RESULT

The dielectric parameters of the liquids were verified prior to the SAR evaluation using a DAK3.5 Dielectric Probe Kit.

Date

Liquid Fre. Temp. Type (MHz) ()

Meas. Conductivity
() (S/m)

Meas. Permittivity
()

2024.06.07 Head 2450 21.2

1.83

38.88

2024.06.07 Head 5300 21.2

4.71

35.88

2024.06.08 Head 5600 21.4

5.08

34.90

2024.06.08 Head 5800 21.4

5.09

35.51

Note: The tolerance limit of Conductivity and Permittivity is±5%.

Target Conductivity
() (S/m) 1.80 4.76 5.07 5.27

Target Permittivity
()
39.20 35.87 35.53 35.30

Conductivity Tolerance (%)
1.67 -1.05 0.20 -3.42

Permittivity Tolerance
(%)
-0.82 0.03 -1.77 0.59

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Report No.: BL-SZ2451186-701

ANNEX B SYSTEM CHECK RESULT

Comparing to the original SAR value provided by SPEAG, the validation data should be within itsspecification of 10 %(for 1 g).

Date

Liquid Type

Freq. (MHz)

Power (mW)

2024.06.07

Head

2450

100

2024.06.07

Head

5300

100

2024.06.08

Head

5600

100

2024.06.08

Head

5800

100

Note: The tolerance limit of System validation ±10%.

Measured SAR (W/kg)
5.32 7.97 8.13 7.96

Normalized SAR (W/kg) 53.20 79.70 81.30 79.60

Dipole SAR (W/kg) 54.20 81.80 83.60 82.30

Tolerance (%) -1.85 -2.57 -2.75 -3.28

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Report No.: BL-SZ2451186-701

System Performance Check Data (2450MHz)
Device under Test Properties

Model, Manufacturer

Dimensions [mm]

DUT Type

D2450V2, SPEAG

10.0 x 10.0 x 3.0

Dipole

Exposure Conditions

Phantom Section, TSL
Flat, HSL

Position, Test Distance [mm]

Band

Group, UID

D2450 CW, 0--

Frequency [MHz], Channel Number 2450.0, 2450

Conversion Factor

TSL Conductivi ty [S/m]

TSL Permittivit y

7.47

1.83

38.9

Ambient Temperatu re [] 22.4

Liquid Temperatu re [] 21.2

Hardware Setup

Phantom

TSL, Measured Date

Twin-SAM V5.0 (30deg probe HBBL-600-10000 2024-06-07 tilt) - 1859

Probe, Calibration Date EX3DV4 - SN7607, 2023-07-04

DAE, Calibration Date DAE4 Sn1711, 2024-03-18

Scan Setup
Grid Extents [mm] Grid Steps [mm] Sensor Surface [mm] Graded Grid Grading Ratio MAIA Surface Detection Scan Method

Area Scan 80.0 x 80.0 10.0 x 10.0
3.0
Yes 1.5 N/A VMS + 6p Measured

Zoom Scan 30.0 x 30.0 x 30.0
5.0 x 5.0 x 1.5 1.4
Yes 1.5 N/A VMS + 6p Measured

Measurement Results

Area Scan

Date

2024-06-07

psSAR1g [W/kg]

5.33

psSAR10g

2.49

[W/kg]

Power Drift [dB]

-0.04

Power Scaling

Disabled

Scaling Factor

[dB]

TSL Correction

No correction

M2/M1 [%]

Dist 3dB Peak

[mm]

Zoom Scan 2024-06-07
5.32 2.48
0.01 Disabled
No correction 80.7 8.8

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Report No.: BL-SZ2451186-701

System Performance Check Data (5300MHz)
Device under Test Properties

Model, Manufacturer D5GHZV2, SPEAG

Dimensions [mm] 10.0 x 10.0 x 3.0

DUT Type Dipole

Exposure Conditions

Phantom Section, TSL
Flat, HSL

Position, Test Distance [mm]

Band

Group, UID

Validati CW, on band 0--

Frequency [MHz], Channel Number 5300.0, 5200

Conversio n Factor
5.41

TSL Conductiv ity [S/m]
4.71

TSL Permittivit y
35.9

Ambient Liquid

Temperatu Temperatu

re

re

[]

[]

22.4

21.2

Hardware Setup

Phantom

TSL, Measured Date

Twin-SAM V5.0 (30deg probe HBBL-600-10000 2024-06-07 tilt) - 1859

Probe, Calibration Date EX3DV4 - SN7607, 2023-07-04

DAE, Calibration Date DAE4 Sn1711, 2024-03-18

Scan Setup
Grid Extents [mm] Grid Steps [mm] Sensor Surface [mm] Graded Grid Grading Ratio MAIA Surface Detection Scan Method

Area Scan 80.0 x 80.0 10.0 x 10.0
3.0
Yes 1.5 N/A VMS + 6p Measured

Zoom Scan 22.0 x 22.0 x 22.0
4.0 x 4.0 x 1.4 1.4
Yes 1.4 N/A VMS + 6p Measured

Measurement Results

Area Scan

Date

2024-06-07

psSAR1g [W/kg]

7.84

psSAR10g

2.20

[W/kg]

Power Drift [dB]

-0.02

Power Scaling

Disabled

Scaling Factor

[dB]

TSL Correction

No correction

M2/M1 [%]

Dist 3dB Peak

[mm]

Zoom Scan 2024-06-07
7.97 2.34
0.08 Disabled
No correction 64.7 6.9

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Report No.: BL-SZ2451186-701

System Performance Check Data (5600MHz)
Device under Test Properties

Model, Manufacturer

Dimensions [mm]

DUT Type

D5GHZV2, SPEAG

10.0 x 10.0 x 3.0

Dipole

Exposure Conditions

Phantom Section, TSL
Flat, HSL

Position, Test Distance [mm]

Band

Group, UID

Validati CW, on band 0--

Frequency [MHz], Channel Number 5600.0, 5600

Conversio n Factor
4.58

TSL Conductiv ity [S/m]
5.08

TSL Permittivit y
34.9

Ambient Liquid

Temperatu Temperatu

re

re

[]

[]

22.3

21.4

Hardware Setup

Phantom

TSL, Measured Date

Twin-SAM V5.0 (30deg probe HBBL-600-10000 2024-06-08 tilt) - 1859

Probe, Calibration Date EX3DV4 - SN7607, 2023-07-04

DAE, Calibration Date DAE4 Sn1711, 2024-03-18

Scan Setup
Grid Extents [mm] Grid Steps [mm] Sensor Surface [mm] Graded Grid Grading Ratio MAIA Surface Detection Scan Method

Area Scan 80.0 x 80.0 10.0 x 10.0
3.0
Yes 1.5 N/A VMS + 6p Measured

Zoom Scan 22.0 x 22.0 x 22.0
4.0 x 4.0 x 1.4 1.4
Yes 1.4 N/A VMS + 6p Measured

Measurement Results

Area Scan

Date

2024-06-08

psSAR1g [W/kg]

7.86

psSAR10g

2.18

[W/kg]

Power Drift [dB]

-0.10

Power Scaling

Disabled

Scaling Factor

[dB]

TSL Correction

No correction

M2/M1 [%]

Dist 3dB Peak

[mm]

Zoom Scan 2024-06-08
8.13 2.47
0.07 Disabled
No correction 64.6 6.8

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Report No.: BL-SZ2451186-701

System Performance Check Data (5800MHz)
Device under Test Properties

Model, Manufacturer

Dimensions [mm]

DUT Type

D5GHZV2, SPEAG

10.0 x 10.0 x 3.0

Dipole

Exposure Conditions

Phantom Section, TSL
Flat, HSL

Position, Test Distance [mm]

Band

Group, UID

Validati CW, on band 0--

Frequency [MHz], Channel Number 5800.0, 5800

Conversio n Factor
4.78

TSL Conductiv ity [S/m]
5.09

TSL Permittivit y
35.5

Ambient Liquid

Temperatu Temperatu

re

re

[]

[]

22.3

21.4

Hardware Setup
Phantom Twin-SAM V5.0 (30deg probe tilt) - 1859

TSL, Measured Date HBBL-600-10000 2024-06-08

Probe, Calibration Date EX3DV4 - SN7607, 2023-07-04

DAE, Calibration Date DAE4 Sn1711, 2024-03-18

Scan Setup
Grid Extents [mm] Grid Steps [mm] Sensor Surface [mm] Graded Grid Grading Ratio MAIA Surface Detection Scan Method

Area Scan 80.0 x 80.0 10.0 x 10.0
3.0
Yes 1.5 N/A VMS + 6p Measured

Zoom Scan 22.0 x 22.0 x 22.0
4.0 x 4.0 x 1.4 1.4
Yes 1.4 N/A VMS + 6p Measured

Measurement Results

Area Scan

Date

2024-06-08

psSAR1g [W/kg]

7.85

psSAR10g

2.22

[W/kg]

Power Drift [dB]

-0.01

Power Scaling

Disabled

Scaling Factor

[dB]

TSL Correction

No correction

M2/M1 [%]

Dist 3dB Peak

[mm]

Zoom Scan 2024-06-08
7.96 2.24
-0.08 Disabled
No correction 61.4 7.4

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Report No.: BL-SZ2451186-701

ANNEX C TEST DATA

Meas.1 Body Plane with Top Edge 0mm on 11 Channel in IEEE802.11b mode with Antenna 1

Device under Test Properties

Model, Manufacturer RATM30846

Dimensions [mm] 210.0 x 126.0 x 8.0

DUT Type Tablet

Exposure Conditions

Phanto m Section, TSL Flat, HSL

Position , Test Distanc e [mm] EDGE TOP, 0.00

Band
WLAN 2.4GH z

Group Frequenc

,

y [MHz],

UID

Channel

Number

WLAN 2462.0,

,

11

10012-

CAB

Conversio n Factor
7.47

TSL Conductivit y [S/m]
1.85

TSL Permittivit y
38.7

Ambient Temperatur e [] 22.4

Liquid Temperatur e [] 21.2

Hardware Setup
Phantom Twin-SAM V5.0 (30deg probe tilt) - 1859

TSL, Measured Date HBBL-600-10000 2024-06-07

Probe, Calibration Date EX3DV4 - SN7607, 2023-07-04

DAE, Calibration Date DAE4 Sn1711, 2024-03-18

Scan Setup
Grid Extents [mm] Grid Steps [mm] Sensor Surface [mm] Graded Grid Grading Ratio MAIA Surface Detection Scan Method

Area Scan 120.0 x 120.0
12.0 x 12.0 3.0
Yes 1.5 N/A All points
Measured

Zoom Scan 30.0 x 30.0 x 30.0
5.0 x 5.0 x 5.0 1.4
Yes 1.5 N/A All points
Measured

Measurement Results

Area Scan

Date

2024-06-07

psSAR1g

0.830

[W/kg]

psSAR10g

0.291

[W/kg]

Power Drift [dB]

0.01

Power Scaling

Disabled

Scaling Factor

[dB]

TSL Correction

No correction

M2/M1 [%]

Dist 3dB Peak

[mm]

Zoom Scan 2024-06-07
1.03
0.326
0.02 Disabled
No correction 36.4 4.5

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Report No.: BL-SZ2451186-701

Meas.2 Body Plane with Back Side 0mm on 58 Channel in IEEE802.11ac80 mode with Antenna 1

Device under Test Properties

Model, Manufacturer RATM30846

Dimensions [mm] 210.0 x 126.0 x 8.0

DUT Type Tablet

Exposure Conditions

Phanto m Section, TSL Flat, HSL

Position , Test Distanc e [mm] BACK, 0.00

Band
WLA N 5GHz

Group Frequenc

,

y [MHz],

UID

Channel

Number

WLAN, 5290.0,

10544- 58

AAC

Conversio n Factor
5.41

TSL Conductivit y [S/m]
4.69

TSL Permittivit y
36.0

Ambient Temperatur e [] 22.4

Liquid Temperatur e [] 21.2

Hardware Setup
Phantom Twin-SAM V5.0 (30deg probe tilt) - 1859

TSL, Measured Date HBBL-600-10000 2024-06-07

Probe, Calibration Date EX3DV4 - SN7607, 2023-07-04

DAE, Calibration Date DAE4 Sn1711, 2024-03-18

Scan Setup
Grid Extents [mm] Grid Steps [mm] Sensor Surface [mm] Graded Grid Grading Ratio MAIA Surface Detection Scan Method

Area Scan 100.0 x 100.0
10.0 x 10.0 3.0
Yes 1.5 N/A VMS + 6p
Measured

Zoom Scan 24.0 x 24.0 x 22.0
4.0 x 4.0 x 2.0 1.4
Yes 1.4 N/A VMS + 6p
Measured

Measurement Results

Area Scan

Date

2024-06-07

psSAR1g

0.729

[W/kg]

psSAR10g

0.225

[W/kg]

Power Drift [dB]

0.09

Power Scaling

Disabled

Scaling Factor

[dB]

TSL Correction

No correction

M2/M1 [%]

Dist 3dB Peak

[mm]

Zoom Scan 2024-06-07
0.793
0.232
0.01 Disabled
No correction 48.9 4.8

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Add: Block B, 1/F, Baisha Science and Technology Park, Shahe Xi Road, Nanshan District, Shenzhen, Guangdong Province, P. R. China

Report No.: BL-SZ2451186-701

Meas.3 Body Plane with Back Side 0mm on 122 Channel in IEEE802.11ac80 mode with Antenna 1

Device under Test Properties

Model, Manufacturer RATM30846

Dimensions [mm] 210.0 x 126.0 x 8.0

DUT Type Tablet

Exposure Conditions

Phanto m Section, TSL Flat, HSL

Position , Test Distanc e [mm] BACK, 0.00

Band
WLA N 5GHz

Group Frequenc

,

y [MHz],

UID

Channel

Number

WLAN, 5610.0,

10402- 122

AAE

Conversio n Factor
4.58

TSL Conductivit y [S/m]
5.09

TSL Permittivit y
34.7

Ambient Temperatur e [] 22.3

Liquid Temperatur e [] 21.4

Hardware Setup
Phantom Twin-SAM V5.0 (30deg probe tilt) - 1859

TSL, Measured Date HBBL-600-10000 2024-06-08

Probe, Calibration Date EX3DV4 - SN7607, 2023-07-04

DAE, Calibration Date DAE4 Sn1711, 2024-03-18

Scan Setup
Grid Extents [mm] Grid Steps [mm] Sensor Surface [mm] Graded Grid Grading Ratio MAIA Surface Detection Scan Method

Area Scan 100.0 x 100.0
10.0 x 10.0 3.0
Yes 1.5
Y VMS + 6p
Measured

Zoom Scan 24.0 x 24.0 x 22.0
4.0 x 4.0 x 2.0 1.4
Yes 1.4 N/A VMS + 6p
Measured

Measurement Results

Area Scan

Date

2024-06-08

psSAR1g

0.445

[W/kg]

psSAR10g

0.130

[W/kg]

Power Drift [dB]

0.17

Power Scaling

Disabled

Scaling Factor

[dB]

TSL Correction

No correction

M2/M1 [%]

Dist 3dB Peak

[mm]

Zoom Scan 2024-06-08
0.517
0.136
0.04 Disabled
No correction 43.1 4.0

Tel: +86-755-66850100

E-mail: [email protected]

Page No. 52 / 59

Web: www.titcgroup.com

Template No.: TRP-FCC DASY-Body-2 (2023-01-30)

Add: Block B, 1/F, Baisha Science and Technology Park, Shahe Xi Road, Nanshan District, Shenzhen, Guangdong Province, P. R. China

Report No.: BL-SZ2451186-701

Tel: +86-755-66850100

E-mail: [email protected]

Page No. 53 / 59

Web: www.titcgroup.com

Template No.: TRP-FCC DASY-Body-2 (2023-01-30)

Add: Block B, 1/F, Baisha Science and Technology Park, Shahe Xi Road, Nanshan District, Shenzhen, Guangdong Province, P. R. China

Report No.: BL-SZ2451186-701

Meas.4 Body Plane with Top Edge 0mm on 155 Channel in IEEE802.11ac80 mode with Antenna 1

Device under Test Properties

Model, Manufacturer RATM30846

Dimensions [mm] 210.0 x 126.0 x 8.0

DUT Type Tablet

Exposure Conditions

Phanto m Section, TSL Flat, HSL

Position , Test Distanc e [mm] EDGE TOP, 0.00

Band
WLA N 5GHz

Group Frequenc

,

y [MHz],

UID

Channel

Number

WLAN, 5775.0,

10544- 155

AAC

Conversio n Factor
4.78

TSL Conductivit y [S/m]
5.06

TSL Permittivit y
35.6

Ambient Temperatur e [] 22.3

Liquid Temperatur e [] 21.4

Hardware Setup
Phantom Twin-SAM V5.0 (30deg probe tilt) - 1859

TSL, Measured Date HBBL-600-10000 2024-06-08

Probe, Calibration Date EX3DV4 - SN7607, 2023-07-04

DAE, Calibration Date DAE4 Sn1711, 2024-03-18

Scan Setup
Grid Extents [mm] Grid Steps [mm] Sensor Surface [mm] Graded Grid Grading Ratio MAIA Surface Detection Scan Method

Area Scan 60.0 x 140.0
10.0 x 10.0 3.0
Yes 1.5
Y VMS + 6p
Measured

Zoom Scan 24.0 x 24.0 x 22.0
4.0 x 4.0 x 2.0 1.4
Yes 1.4
Y VMS + 6p
Measured

Measurement Results

Area Scan

Date

2024-06-08

psSAR1g

0.229

[W/kg]

psSAR10g

0.055

[W/kg]

Power Drift [dB]

-0.17

Power Scaling

Disabled

Scaling Factor

[dB]

TSL Correction

No correction

M2/M1 [%]

Dist 3dB Peak

[mm]

Zoom Scan 2024-06-08
0.273
0.062
0.04 Disabled
No correction 46.6 4.5

Tel: +86-755-66850100

E-mail: [email protected]

Page No. 54 / 59

Web: www.titcgroup.com

Template No.: TRP-FCC DASY-Body-2 (2023-01-30)

Add: Block B, 1/F, Baisha Science and Technology Park, Shahe Xi Road, Nanshan District, Shenzhen, Guangdong Province, P. R. China

Report No.: BL-SZ2451186-701

Tel: +86-755-66850100

E-mail: [email protected]

Page No. 55 / 59

Web: www.titcgroup.com

Template No.: TRP-FCC DASY-Body-2 (2023-01-30)

Add: Block B, 1/F, Baisha Science and Technology Park, Shahe Xi Road, Nanshan District, Shenzhen, Guangdong Province, P. R. China

Report No.: BL-SZ2451186-701

Meas.5 Body Plane with Top Edge 0mm on 39 Channel in Bluetooth mode with Antenna 1

Device under Test Properties

Model, Manufacturer RATM30846

Dimensions [mm] 210.0 x 126.0 x 8.0

DUT Type Tablet

Exposure Conditions

Phanto m Section, TSL Flat, HSL

Position Ban Group, Frequenc

, Test

d

UID

y [MHz],

Distanc

Channel

e [mm]

Number

EDGE ISM Bluetooth 2441.0,

TOP,

2.4 ,

39

0.00

GHz 10032-

Band CAA

Conversio n Factor
7.47

TSL Conductivit y [S/m]
1.82

TSL Permittivit y
39.1

Ambient Temperatur e [] 22.4

Liquid Temperatur e [] 21.2

Hardware Setup
Phantom Twin-SAM V5.0 (30deg probe tilt) - 1859

TSL, Measured Date HBBL-600-10000 2024-06-07

Probe, Calibration Date EX3DV4 - SN7607, 2023-07-04

DAE, Calibration Date DAE4 Sn1711, 2024-03-18

Scan Setup
Grid Extents [mm] Grid Steps [mm] Sensor Surface [mm] Graded Grid Grading Ratio MAIA Surface Detection Scan Method

Area Scan 72.0 x 168.0
12.0 x 12.0 3.0
Yes 1.5 N/A VMS + 6p
Measured

Zoom Scan 30.0 x 30.0 x 30.0
5.0 x 5.0 x 5.0 1.4
Yes 1.5 N/A VMS + 6p
Measured

Measurement Results

Area Scan

Date

2024-06-07

psSAR1g

0.398

[W/kg]

psSAR10g

0.164

[W/kg]

Power Drift [dB]

-0.37

Power Scaling

Disabled

Scaling Factor

[dB]

TSL Correction

No correction

M2/M1 [%]

Dist 3dB Peak

[mm]

Zoom Scan 2024-06-07
0.520
0.190
0.03 Disabled
No correction 37.9 4.0

Tel: +86-755-66850100

E-mail: [email protected]

Page No. 56 / 59

Web: www.titcgroup.com

Template No.: TRP-FCC DASY-Body-2 (2023-01-30)

Add: Block B, 1/F, Baisha Science and Technology Park, Shahe Xi Road, Nanshan District, Shenzhen, Guangdong Province, P. R. China

Report No.: BL-SZ2451186-701

Tel: +86-755-66850100

E-mail: [email protected]

Page No. 57 / 59

Web: www.titcgroup.com

Template No.: TRP-FCC DASY-Body-2 (2023-01-30)

Add: Block B, 1/F, Baisha Science and Technology Park, Shahe Xi Road, Nanshan District, Shenzhen, Guangdong Province, P. R. China

Report No.: BL-SZ2451186-701
ANNEX D EUT EXTERNAL PHOTOS
Please refer the document "BL-SZ2451186-AW.pdf".
ANNEX E SAR TEST SETUP PHOTOS
Please refer the document "BL-SZ2451186-AS.pdf".
ANNEX F CALIBRATION REPORT
Please refer the document "BL-SZ2451186-AC.pdf".
ANNEX G TUNE-UP PROCEDURE
Please refer the document "BL-SZ2451186-AT.pdf".

Tel: +86-755-66850100

E-mail: [email protected]

Page No. 58 / 59

Web: www.titcgroup.com

Template No.: TRP-FCC DASY-Body-2 (2023-01-30)

Add: Block B, 1/F, Baisha Science and Technology Park, Shahe Xi Road, Nanshan District, Shenzhen, Guangdong Province, P. R. China

Report No.: BL-SZ2451186-701
Statement
1. The laboratory guarantees the scientificity, accuracy and impartiality of the test, and is responsible for all the information in the report, except the information provided by the customer. The customer is responsible for the impact of the information provided on the validity of the results. 2. The report without China inspection body and laboratory Mandatory Approval (CMA) mark has no effect of proving to the society. 3. For the report with CNAS mark or A2LA mark, the items marked with "" are not within the accredited scope. 4. This report is invalid if it is altered, without the signature of the testing and approval personnel, or without the "inspection and testing dedicated stamp" or test report stamp. 5. The test data and results are only valid for the tested samples provided by the customer. 6. This report shall not be partially reproduced without the written permission of the laboratory. 7. Any objection shall be raised to the laboratory within 30 days after receiving the report.
--END OF REPORT--

Tel: +86-755-66850100

E-mail: [email protected]

Page No. 59 / 59

Web: www.titcgroup.com

Template No.: TRP-FCC DASY-Body-2 (2023-01-30)

Add: Block B, 1/F, Baisha Science and Technology Park, Shahe Xi Road, Nanshan District, Shenzhen, Guangdong Province, P. R. China



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