FCC ID: 2ACPR-CE141-2 notebook

 

notebook This device complies with part 15 of the FCC Rules. Operation is subject to the condition that this device does not cause harmful interference (1) this device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. Any changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate the equipment. NOTE: This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:

-- Reorient or relocate the receiving antenna.

-- Increase the separation between the equipment and receiver.

-- Connect the equipment into an outlet on a circuit different from that to which the receiver is connected.

-- Consult the dealer or an experienced radio/TV technician for help. FCC ID: 2ACPR-CE141-2

 

 

SHENZHEN BMORN TECHNOLOGY CO.,LTD. Agent Authorization Company: SHENZHEN BMORN TECHNOLOGY CO.,LTD. Address: 6/F, Hengfang Verteran Industrial Park, Xingye Road, Xixiang, Baoan, Shenzhen, Guangdong, China Product Name: notebook Model Number(s): TEV-CE-141-2W1640B, EV-CE-141-2 Product Description: notebook We authorize MiCOM Labs Inc., 575 Boulder Court, Pleasanton, California 94566, USA, to act on our behalf on all matters concerning the certification of above named equipment. We declare that MiCOM Labs Inc. is allowed to forward all information related to the approval and certification of equipment to the regulatory agencies as required and to discuss any issues concerning the approval application. Any and all acts carried out by MiCOM Labs on our behalf shall have the same effect as acts of our own. Signature:

Name:

Tang shaofeng Title:

Manager Date: 2019/07/25 Company: SHENZHEN BMORN TECHNOLOGY CO.,LTD.

 

 

SHENZHEN BMORN TECHNOLOGY CO.,LTD. July 29, 2019 Federal Communications Commission Equipment Authorization Division 7435 Oakland Mills Road Columbia, MD 21046 USA Attn: OET Dept. Ref:

FCC Class II Permissive change for FCC ID:2ACPR-CE141-2 Applicant:SHENZHEN BMORN TECHNOLOGY CO.,LTD. Dear Examiner, This is to request a Class II Permissive change for FCC ID:2ACPR-CE141-2originally granted on 07/17/2018 (date). The change under this application is to change the model, appearance, and hardware version and software version. Original hardware version: S133AR500 Original software version: WINDOS 10 HOME 64-bit New hardware version: S133AR700 New software version: WIN10 SMODE These changes will not affect the structure of the product and the internal circuit and other information. I attest that the certified device will not be capable of ad-hoc mode operation outside of the grant conditions. Sincerely, Name: Tang shaofeng , Date: July 29, 2019 Title: manager Signature of applicant FCC Class II PC request letter Rev1.1

 

 

< SHENZHEN BMORN TECHNOLOGY CO.,LTD. >

Office of Engineering Technology Federal Communications Commission 7435 Oakland Mills Road Columbia, MD 21046 USA Subject; Request for Confidentiality FCC ID: 2ACPR-CE141-2 Date: 2019/07/25 To Whom It May Concern, Pursuant to the provisions of the Commissions rules Title 47 Sections 0.457 and 0.459, we are requesting the Commission to withhold the following attachment(s) as confidential documents from public disclosure indefinitely. These documents contain detailed system and equipment descriptions and are considered as proprietary information in operation of the equipment. The public disclosure of these documents might be harmful to our company and would give competitors an unfair advantage in the market. Schematic Diagram Block Diagram Operational Description Security requirement In additional to above mentioned documents, in order to comply with the marketing regulations in Title 47 CFR 2.803 and the importation rules in Title 47 CFR 2.1204, while ensuring that business sensitive information remains confidential until the actual marketing of newly authorized devices, we request Short Term Confidentiality of the following attachment(s);

External Photos Test Setup Photos Internal Photos User Manual For 45 days, pursuant to Public Notice DA 04-1705. OR For 180 days pursuantto KDB 726920 D01. It is our understanding that all measurement test reports, FCC ID label format and correspondence during the certification review process cannot be granted as confidential documents and this information will be available for public review once the grant of equipment authorization is issued. Sincerely, Signature:

Name: Tang shaofeng Title: manager Email: tsf@bmorn.com

 

 

SHENZHEN BMORN TECHNOLOGY CO.,LTD. Family models declaration letter. 2019-07-25 We Company: SHENZHEN BMORN TECHNOLOGY CO.,LTD. Address: 6/F, Hengfang Verteran Industrial Park, Xingye Road, Xixiang, Bao'an, Shenzhen, Guangdong, China Product: notebook Model Name: TEV-CE-141-2W1640B, EV-CE-141-2 All models are the same circuit and RF module, except the model No. Thanks Sincerely, Signature 2019-07-25 Name: Tang shaofeng Title: Manager

 

 

TEV-CE-141-2 This device complies with part 15 of the FCC Rules. Operation is subject to the condition that this device does not cause harmful interference

(1) this device may not cause harmful interference, and

(2) this device must accept any interference received, including interference that may cause undesired operation.

 

 

Report No.: S19061201022002 RADIO TEST REPORT FCC ID: 2ACPR-CE141-2 Product: notebook Trade Mark: N/A Model No.: TEV-CE-141-2 Serial Model: W1640B, EV-CE-141-2 Report No.: S19061201022002 Issue Date: 17 Jul. 2019 Prepared for SHENZHEN BMORN TECHNOLOGY CO.,LTD. 6/F, Hengfang Verteran Industrial Park, Xingye Road, Xixiang, Baoan, Shenzhen, China Prepared by Shenzhen NTEK Testing Technology Co., Ltd. 1/F, Building E, Fenda Science Park, Sanwei Community, Xixiang Street Baoan District, Shenzhen 518126 P.R. China Tel.: +86-755-6115 6588 Fax.: +86-755-6115 6599 Website:http://www.ntek.org.cn Version.1.2 Page 1 of 42 Report No.: S19061201022002 TABLE OF CONTENTS 1 TEST RESULT CERTIFICATION ............................................................................................................. 3 2 SUMMARY OF TEST RESULTS.............................................................................................................. 4 3 FACILITIES AND ACCREDITATIONS ..................................................................................................... 5 3.1 FACILITIES ....................................................................................................................................... 5 3.2 LABORATORY ACCREDITATIONS AND LISTINGS ........................................................................ 5 3.3 MEASUREMENT UNCERTAINTY .................................................................................................... 5 4 GENERAL DESCRIPTION OF EUT ........................................................................................................ 6 5 DESCRIPTION OF TEST MODES ........................................................................................................... 8 6 SETUP OF EQUIPMENT UNDER TEST ................................................................................................. 9 6.1 6.2 6.3 BLOCK DIAGRAM CONFIGURATION OF TEST SYSTEM .............................................................. 9 SUPPORT EQUIPMENT ................................................................................................................. 10 EQUIPMENTS LIST FOR ALL TEST ITEMS ................................................................................... 11 7 TEST REQUIREMENTS......................................................................................................................... 13 7.1 7.2 7.3 7.4 7.5 7.6 7.7 7.8 CONDUCTED EMISSIONS TEST .................................................................................................. 13 RADIATED SPURIOUS EMISSION ................................................................................................ 18 6DB BANDWIDTH ........................................................................................................................... 27 PEAK OUTPUT POWER ................................................................................................................. 30 POWER SPECTRAL DENSITY ...................................................................................................... 33 CONDUCTED BAND EDGE MEASUREMENT .............................................................................. 36 SPURIOUS RF CONDUCTED EMISSIONS ................................................................................... 38 ANTENNA APPLICATION ............................................................................................................... 42 Version.1.2 Page 2 of 42 1 TEST RESULT CERTIFICATION Report No.: S19061201022002 Applicants name ......................... : SHENZHEN BMORN TECHNOLOGY CO.,LTD. Address ....................................... : 6/F, Hengfang Verteran Industrial Park, Xingye Road, Xixiang, Baoan, Shenzhen, China Manufacturer's Name .................. : SHENZHEN BMORN TECHNOLOGY CO.,LTD. Address ....................................... : 6/F, Hengfang Verteran Industrial Park, Xingye Road, Xixiang, Baoan, Shenzhen, China Product description Product name .............................. : notebook Model and/or type reference ..... : TEV-CE-141-2 Family Model ............................... : W1640B, EV-CE-141-2 Measurement Procedure Used:

APPLICABLE STANDARD/ TEST PROCEDURE TEST RESULT APPLICABLE STANDARDS FCC 47 CFR Part 2, Subpart J FCC 47 CFR Part 15, Subpart C KDB 174176 D01 Line Conducted FAQ v01r01 Complied ANSI C63.10-2013 FCC KDB 558074 D01 DTS Meas Guidance v04 This device described above has been tested by Shenzhen NTEK Testing Technology Co., Ltd., and the test results show that the equipment under test (EUT) is in compliance with the FCC requirements. And it is applicable only to the tested sample identified in the report. This report shall not be reproduced except in full, without the written approval of Shenzhen NTEK Testing Technology Co., Ltd., this document may be altered or revised by Shenzhen NTEK Testing Technology Co., Ltd., personnel only, and shall be noted in the revision of the document. The test results of this report relate only to the tested sample identified in this report. Note: All test data of this report are based on the original test report SER180608008002E, dated by 2018-07-05. Date of Test 11 Jun. 2018 ~ 05 Jun. 2018

:

Testing Engineer Technical Manager Authorized Signatory

:

:

:

(Mary Hu)

(Jason Chen)

(Sam Chen) Version.1.2 Page 3 of 42 2 SUMMARY OF TEST RESULTS Report No.: S19061201022002 Standard Section Test Item Verdict Remark FCC Part15 (15.247), Subpart C 15.207 Conducted Emission 15.247 (a)(2) 6dB Bandwidth 15.247 (b) 15.209 (a) 15.205 (a) 15.247 (d) 15.247 (d) Peak Output Power Radiated Spurious Emission Power Spectral Density Band Edge Emission PASS PASS PASS PASS PASS PASS 15.247 (d) Spurious RF Conducted Emission PASS 15.203 Antenna Requirement PASS Remark:

1. 2. All test items were verified and recorded according to the standards and without any deviation during N/A denotes test is not applicable in this Test Report. the test. Version.1.2 Page 4 of 42 3 FACILITIES AND ACCREDITATIONS Report No.: S19061201022002 3.1 FACILITIES All measurement facilities used to collect the measurement data are located at 1/F, Building E, Fenda Science Park, Sanwei Community, Xixiang Street, Baoan District, Shenzhen 518126 P.R. China. The sites are constructed in conformance with the requirements of ANSI C63.7, ANSI C63.10 and CISPR Publication 22. 3.2 LABORATORY ACCREDITATIONS AND LISTINGS Site Description CNAS-Lab.

: The Laboratory has been assessed and proved to be in compliance with CNAS-CL01:2006 (identical to ISO/IEC 17025:2005) The Certificate Registration Number is L5516. IC-Registration The Certificate Registration Number is 9270A-1. FCC- Accredited Test Firm Registration Number: 463705. Designation Number: CN1184 A2LA-Lab. The Certificate Registration Number is 4298.01 This laboratory is accredited in accordance with the recognized International Standard ISO/IEC 17025:2005 General requirements for the competence of testing and calibration laboratories. This accreditation demonstrates technical competence for a defined scope and the operation of a laboratory quality management system

(refer to joint ISO-ILAC-IAF Communiqu dated 8 January 2009). Name of Firm Site Location

: Shenzhen NTEK Testing Technology Co., Ltd.

: 1/F, Building E, Fenda Science Park, Sanwei Community, Xixiang Street, Baoan District, Shenzhen 518126 P.R. China. 3.3 MEASUREMENT UNCERTAINTY The reported uncertainty of measurement yU, where expended uncertainty U is based on a standard uncertainty multiplied by a coverage factor of k=2, providing a level of confidence of approximately 95 %. No. Item Uncertainty Conducted Emission Test RF power, conducted Spurious emissions, conducted All emissions, radiated(30MHz~1GHz) All emissions, radiated(1GHz~6GHz) All emissions, radiated(6GHz) Temperature Humidity 2.80dB 0.16dB 0.21dB 2.64dB 2.40dB 2.52dB 0.5C 2%

1 2 3 4 5 6 7 8 Version.1.2 Page 5 of 42 4 GENERAL DESCRIPTION OF EUT Product Feature and Specification Report No.: S19061201022002 Equipment notebook Trade Mark N/A FCC ID 2ACPR-CE141-2 Model No. TEV-CE-141-2 Serial Model W1640B, EV-CE-141-2 Model Difference All the models are the same circuit and RF module, except the model No.. Operating Frequency 2402MHz~2480MHz Modulation GFSK Number of Channels 40 Channels Bluetooth Version BT V4.2 Antenna Type Antenna Gain Power supply The EUT has two types of antenna Main Antenna A: FPCB Antenna(Only For WLAN 2.4G) AUX Antenna B: FPCB Antenna(For WLAN 2.4G and BT) Antenna A: 2 dBi Antenna B: 2 dBi DC supply:

DC 7.6V/5000mAh from battery or DC 12V from Adapter Adapter supply:

Model:SAW30-120-2000U Input: 100-240V~50/60Hz 0.8A Output: 12V 2000mA HW Version S133AR700A SW Version WIN10 SMODE Note: Based on the application, features, or specification exhibited in User's Manual, the EUT is considered as an ITE/Computing Device. More details of EUT technical specification, please refer to the User's Manual. Version.1.2 Page 6 of 42 Report No.: S19061201022002 Revision History Report No. Version Description Issued Date SER180608008002E Rev.01 Initial issue of report 05 Jul. 2018 S19061201022002 Rev.02 Update the model Jul 17, 2019 Version.1.2 Page 7 of 42 Report No.: S19061201022002 5 DESCRIPTION OF TEST MODES To investigate the maximum EMI emission characteristics generates from EUT, the test system was pre-scanning tested base on the consideration of following EUT operation mode or test configuration mode which possible have effect on EMI emission level. Each of these EUT operation mode(s) or test configuration mode(s) mentioned above was evaluated respectively. The Transmitter was operated in the normal operating mode. The TX frequency was fixed which was for the purpose of the measurements. Test of channel included the lowest and middle and highest frequency to perform the test, then record on this report. Those data rates (1Mbps for GFSK modulation) were used for all test. The EUT was pretested with 3 orientations placed on the table for the radiated emission measurement X, Y, and Z-plane. The X-plane results were found as the worst case and were shown in this report. Carrier Frequency and Channel list:

Channel Frequency(MHz) 0 1 19 20 38 39 2402 2404 2440 2442 2478 2480 Note: fc=2402MHz+k2MHz k=0 to 39 The following summary table is showing all test modes to demonstrate in compliance with the standard. Test Item AC Conducted Emission Radiated Test Cases Conducted Test Cases Test Cases Data Rate/ Modulation Bluetooth 4.0_LE / GFSK Mode 1: normal link mode Mode 1: normal link mode Mode 2: Bluetooth Tx Ch00_2402MHz_1Mbps Mode 3: Bluetooth Tx Ch19_2440MHz_1Mbps Mode 4: Bluetooth Tx Ch39_2480MHz_1Mbps Mode 2: Bluetooth Tx Ch00_2402MHz_1Mbps Mode 3: Bluetooth Tx Ch19_2440MHz_1Mbps Mode 4: Bluetooth Tx Ch39_2480MHz_1Mbps Note:

1. The engineering test program was provided and the EUT was programmed to be in continuously transmitting mode. 2. AC power line Conducted Emission was tested under maximum output power. 3. For radiated test cases, the worst mode data rate 1Mbps was reported only, because this data rate has the highest RF output power at preliminary tests, and no other significantly frequencies found in conducted spurious emission. 4. EUT is set to continuous transmission mode. duty cycle greater than 98%. 5. EUT built-in battery-powered, the battery is fully-charged. Version.1.2 Page 8 of 42 Report No.: S19061201022002 6 SETUP OF EQUIPMENT UNDER TEST 6.1 BLOCK DIAGRAM CONFIGURATION OF TEST SYSTEM For AC Conducted Emission Mode AC PLUG C-1 E-1 EUT E-2 Adapter E-3 Earphone For Radiated Test Cases EUT For Conducted Test Cases Measurement Instrument C2 EUT Note:The temporary antenna connector is soldered on the PCB board in order to perform conducted tests and this temporary antenna connector is listed in the equipment list. Version.1.2 Page 9 of 42 Report No.: S19061201022002 6.2 SUPPORT EQUIPMENT The EUT has been tested as an independent unit together with other necessary accessories or support units. The following support units or accessories were used to form a representative test configuration during the tests. Item E-1 E-2 E-3 Equipment notebook Adapter Earphone Model/Type No. TEV-CE-141-2 SAW30-120-2000U N/A N/A N/A N/A N/A N/A Note EUT Peripherals Series No. Mfr/Brand N/A Item Cable Type Shielded Type Ferrite Core C-1 C-2 Power Cable RF Cable NO NO Notes:

NO NO Length 2.0m 0.4m

(1) The support equipment was authorized by Declaration of Confirmation.

(2) For detachable type I/O cable should be specified the length in cm inLengthcolumn.

(3) YES is means shielded with core; NO is means unshielded without core. Version.1.2 Page 10 of 42 6.3 EQUIPMENTS LIST FOR ALL TEST ITEMS Radiation& Conducted Test equipment Report No.: S19061201022002 Item Kind of Equipment Manufacturer Type No. Serial No. Last Calibrated calibration until Calibrati on period 1 2 3 4 Spectrum Analyzer Spectrum Analyzer Spectrum Analyzer Aglient E4407B MY45108040 2018.05.19 2019.05.18 1 year Agilent N9020A MY49100060 2017.10.26 2018.10.25 1 year R&S FSV40 101417 2017.10.26 2018.10.25 1 year Test Receiver R&S ESPI7 101318 2018.05.19 2019.05.18 1 year 5 Bilog Antenna TESEQ CBL6111D 31216 2018.04.08 2019.04.07 1 year 6 50 Coaxial Switch Anritsu MP59B 6200983705 2018.05.19 2020.05.18 3 year 8 9 7 Horn Antenna EM Amplifier EMC EM-AH-1018 0 EMC051835 SE Active Loop SCHWARZBE FMZB 1519 Antenna CK B 10 Power Meter DARE RPR3006W 11 12 Test Cable

(9KHz-30MHz) Test Cable

(30MHz-1GHz) High Test N/A N/A R-01 R-02 2011071402 2018.04.08 2019.04.07 1 year 980246 2017.08.09 2018.08.08 1 year 055 2017.12.06 2018.12.06 1 year 15I00041SN O84 N/A 2017.08.07 2018.08.06 1 year 2017.04.21 2020.04.20 3 year N/A 2017.04.21 2020.04.20 3 year 13 Cable(1G-40G N/A R-03 N/A 2017.04.21 2020.04.20 3 year Hz) High Test 14 Cable(1G-40G N/A R-04 N/A 2017.04.21 2020.04.20 3 year 15 16 Hz) Filter temporary antenna connector

(Note) TRILTHIC 2400MHz 29 2017.04.19 2020.04.18 3 year NTS R001 N/A N/A N/A N/A Note:

We will use the temporary antenna connector (soldered on the PCB board) When conducted test And this temporary antenna connector is listed within the instrument list Version.1.2 Page 11 of 42 AC Conduction Test equipment Report No.: S19061201022002 Item Kind of Equipment 1 Test Receiver LISN LISN Manufacturer Type No. Serial No. Last Calibrated Calibration calibration until period R&S R&S SCHWARZBE CK ESCI 101160 2018.05.19 2019.05.18 1 year ENV216 101313 2018.04.18 2019.04.19 1 year NNLK 8129 8129245 2018.05.19 2019.05.18 1 year 50 Coaxial ANRITSU Switch CORP MP59B 6200983704 2018.05.19 2020.05.18 3 year Test Cable

(9KHz-30MH z) Test Cable

(9KHz-30MH z) Test Cable

(9KHz-30MH z) N/A C01 N/A 2017.04.21 2020.04.20 3 year N/A C02 N/A 2017.04.21 2020.04.20 3 year N/A C03 N/A 2017.04.21 2020.04.20 3 year 2 3 4 5 6 7 Note: Each piece of equipment is scheduled for calibration once a year except the Test Cable& Aux Equipment which is scheduled for calibration every 3 years. Version.1.2 Page 12 of 42 7 TEST REQUIREMENTS 7.1 CONDUCTED EMISSIONS TEST 7.1.1 Applicable Standard Report No.: S19061201022002 According to FCC Part 15.207(a) and KDB 174176 D01 Line Conducted FAQ v01r01 7.1.2 Conformance Limit Frequency(MHz) 0.15-0.5 0.5-5.0 5.0-30.0 Conducted Emission Limit Quasi-peak 66-56*

56 60 Average 56-46*

46 50 Note: 1. *Decreases with the logarithm of the frequency 2. The lower limit shall apply at the transition frequencies 3. The limit decreases in line with the logarithm of the frequency in the range of 0.15 to 0.50MHz. 7.1.3 Measuring Instruments The Measuring equipment is listed in the section 6.3 of this test report. 7.1.4 Test Configuration Reference Ground EMI Receiver EUT Auxiliary Equipment Reference Ground LISN 80cm 50 80cm LISN 7.1.5 Test Procedure According to the requirements in Section 13.1.4.1 of ANSI C63.10-2013 Conducted emissions the EUT measured in the frequency range between 0.15 MHz and 30 MHz using CISPR Quasi-Peak and average detector mode. 1. The EUT was placed 0.4 meter from the conducting wall of the shielding room. 2. The EUT was placed on a table which is 0.8m above ground plane. 3. Connect EUT to the power mains through a line impedance stabilization network (LISN). All other support equipments powered from additional LISN(s). The LISN provide 50 Ohm/ 50uH of coupling impedance for the measuring instrument. Interconnecting cables that hang closer than 40 cm to the ground plane shall be folded back and forth in the center forming a bundle 30 to 40cm long. I/O cables that are not connected to a peripheral shall be bundled in the center. The end of the cable may be terminated, if required, using the correct terminating impedance. The overall length shall not exceed 1 m. 4. 5. 6. LISN at least 80 cm from nearest part of EUT chassis. 7. The frequency range from 150KHz to 30MHz was searched. 8. Set the test-receiver system to Peak Detect Function and specified bandwidth(IF bandwidth=9KHz) with Maximum Hold Mode 9. For the actual test configuration, please refer to the related Item EUT Test Photos. Version.1.2 Page 13 of 42 7.1.6 Test Results EUT Temperature Pressure Test Voltage notebook 26 1010hPa DC 12V from Adapter AC 120V/60Hz Report No.: S19061201022002 Model Name Relative Humidity 54%

Phase :

L TEV-CE-141-2 Test Mode Mode 1 Frequency Reading Level Correct Factor Measure-ment Limits Margin

(MHz) 0.1900 0.1900 0.2020 0.2020 0.2660 0.2660 0.3780 0.3780 0.5620 0.5620 23.9980 23.9980

(dBV) 50.22 35.55 50.64 36.53 46.10 34.20 41.65 28.83 37.99 23.67 39.41 34.47

(dB) 9.76 9.76 9.76 9.76 9.75 9.75 9.74 9.74 9.74 9.74 10.62 10.62

(dBV)

(dBV)

(dB) Remark 59.98 45.31 60.40 46.29 55.85 43.95 51.39 38.57 47.73 33.41 50.03 45.09 64.03 54.03 63.52 53.52 61.24 51.24 58.32 48.32 56.00 46.00 60.00 50.00

-4.05

-8.72

-3.12

-7.23

-5.39

-7.29

-6.93

-9.75

-8.27 QP AVG QP AVG QP AVG QP AVG QP

-12.59 AVG

-9.97

-4.91 QP AVG Remark:

1. All readings are Quasi-Peak and Average values. 2. Factor = Insertion Loss + Cable Loss. Version.1.2 Page 14 of 42 Report No.: S19061201022002 EUT Temperature Pressure Test Voltage notebook 26 1010hPa DC 12V from Adapter AC 120V/60Hz Model Name Relative Humidity Phase :

TEV-CE-141-2 54%

N Test Mode Mode 1 Frequency Reading Level Correct Factor Measure-ment Limits Margin

(MHz) 0.1779 0.1779 0.2419 0.2419 0.3220 0.3220 0.4380 0.4380 0.6460 0.6460 23.9980 23.9980 Remark:

(dBV) 50.27 35.76 46.01 31.93 42.05 28.21 36.42 23.12 34.51 21.61 40.34 36.18

(dB) 9.73 9.73 9.74 9.74 9.74 9.74 9.75 9.75 9.75 9.75 10.57 10.57 1. All readings are Quasi-Peak and Average values. 2. Factor = Insertion Loss + Cable Loss.

(dBV)

(dBV)

(dB) Remark 60.00 45.49 55.75 41.67 51.79 37.95 46.17 32.87 44.26 31.36 50.91 46.75 64.58 54.58 62.03 52.03 59.65 49.65 57.10 47.10 56.00 46.00 60.00 50.00

-4.58

-9.09

-6.28

-10.36

-7.86

-11.70

-10.93

-14.23

-11.74

-14.64

-9.09

-3.25 QP AVG QP AVG QP AVG QP AVG QP AVG QP AVG Version.1.2 Page 15 of 42 Report No.: S19061201022002 EUT Temperature Pressure Test Voltage notebook 26 Model Name Relative Humidity 54%

TEV-CE-141-2 1010hPa DC 12V from Adapter AC 240V/60Hz Phase :

L Test Mode Mode 1 Frequency Reading Level Correct Factor Measure-ment Limits Margin

(MHz) 0.1859 0.1859 0.2620 0.2620 0.3618 0.3618 0.4020 0.4020 0.5380 0.5380 23.9980 23.9980 Remark:

(dBV) 50.54 37.07 47.76 35.79 44.42 32.43 43.01 28.37 40.16 27.12 41.36 35.91

(dB) 9.76 9.76 9.76 9.76 9.74 9.74 9.74 9.74 9.74 9.74 10.62 10.62 1. All readings are Quasi-Peak and Average values. 2. Factor = Insertion Loss + Cable Loss.

(dBV)

(dBV)

(dB) Remark 60.30 46.83 57.52 45.55 54.16 42.17 52.75 38.11 49.90 36.86 51.98 46.53 64.21 54.21 61.36 51.36 58.69 48.69 57.81 47.81 56.00 46.00 60.00 50.00

-3.91

-7.38

-3.84

-5.81

-4.53

-6.52

-5.06

-9.70

-6.10

-9.14

-8.02

-3.47 QP AVG QP AVG QP AVG QP AVG QP AVG QP AVG Version.1.2 Page 16 of 42 Report No.: S19061201022002 EUT Temperature Pressure Test Voltage notebook 26 1010hPa DC 12V from Adapter AC 240V/60Hz Model Name Relative Humidity Phase :

TEV-CE-141-2 54%

N Test Mode Mode 1 Frequency Reading Level Correct Factor Measure-ment Limits Margin

(MHz)

(dBV) 0.1860 0.1860 0.1980 0.1980 0.3060 0.3060 0.3300 0.3300 0.4860 0.4860 23.9980 23.9980 Remark:

50.72 38.56 49.25 36.54 40.77 29.07 39.93 26.89 36.93 23.80 39.99 34.34

(dB) 9.73 9.73 9.73 9.73 9.74 9.74 9.74 9.74 9.75 9.75 10.57 10.57 1. All readings are Quasi-Peak and Average values. 2. Factor = Insertion Loss + Cable Loss.

(dBV)

(dBV)

(dB) Remark 60.45 48.29 58.98 46.27 50.51 38.81 49.67 36.63 46.68 33.55 50.56 44.91 64.21 54.21 63.69 53.69 60.08 50.08 59.45 49.45 56.24 46.24 60.00 50.00

-3.76

-5.92

-4.71

-7.42

-9.57

-11.27

-9.78

-12.82

-9.56

-12.69

-9.44

-5.09 QP AVG QP AVG QP AVG QP AVG QP AVG QP AVG Version.1.2 Page 17 of 42 7.2 RADIATED SPURIOUS EMISSION 7.2.1 Applicable Standard Report No.: S19061201022002 According to FCC Part 15.247(d) and 15.209 and ANSI C63.10-2013 7.2.2 Conformance Limit According to FCC Part 15.247(d): radiated emissions which fall in the restricted bands, as defined in 15.205(a), must also comply with the radiated emission limits specified in 15.209(a) (see 15.205(c)). According to FCC Part15.205, Restricted bands MHz 0.090-0.110 10.495-0.505 2.1735-2.1905 4.125-4.128 4.17725-4.17775 4.20725-4.20775 6.215-6.218 6.26775-6.26825 8.291-8.294 8.362-8.366 8.37625-8.38675 8.41425-8.41475 12.29-12.293 12.51975-12.52025 12.57675-12.57725 13.36-13.41 MHz 16.42-16.423 16.69475-16.69525 16.80425-16.80475 25.5-25.67 37.5-38.25 73-74.6 74.8-75.2 123-138 149.9-150.05 156.52475-156.52525 156.7-156.9 162.0125-167.17 167.72-173.2 240-285 322-335.4 MHz 399.9-410 608-614 960-1240 1300-1427 1435-1626.5 1645.5-1646.5 1660-1710 2200-2300 2310-2390 2483.5-2500 2690-2900 3260-3267 3332-3339 3345.8-3358 3600-4400 GHz 4.5-5.15 5.35-5.46 7.25-7.75 8.025-8.5 9.0-9.2 9.3-9.5 10.6-12.7 14.47-14.5 15.35-16.2 17.7-21.4 22.01-23.12 23.6-24.0 31.2-31.8 36.43-36.5

(2) 20dBc in any 100 kHz bandwidth outside the operating frequency band. In case the emission fall within the restricted band specified on 15.205(a), then the 15.209(a) limit in the table below has to be followed. Restricted Frequency(MHz) 0.009~0.490 0.490~1.705 1.705~30.0 30-88 88-216 216-960 Above 960 Field Strength (V/m) Field Strength (dBV/m) Measurement Distance 2400/F(KHz) 2400/F(KHz) 20 log (uV/m) 20 log (uV/m) 30 100 150 200 500 29.5 40 43.5 46 54 300 30 30 3 3 3 3 Limits of Radiated Emission Measurement(Above 1000MHz) Frequency(MHz) Above 1000 Class B (dBuV/m) (at 3M) PEAK 74 AVERAGE 54 Remark :1. Emission level in dBuV/m=20 log (uV/m) 2. Measurement was performed at an antenna to the closed point of EUT distance of meters. 3. Distance extrapolation factor =40log(Specific distance/ test distance)( dB);

Limit line=Specific limits(dBuV) + distance extrapolation factor. Version.1.2 Page 18 of 42 Report No.: S19061201022002 7.2.3 Measuring Instruments The Measuring equipment is listed in the section 6.3 of this test report. 7.2.4 Test Configuration

(a) For radiated emissions below 30MHz Turntable 3m EUT Test Receiver Coaxial Cable 1m to 4m Coaxial Cable 3m 1.0m 0.8 m Ground Plane

(b) For radiated emissions from 30MHz to 1000MHz

(c) For radiated emissions above 1000MHz Ground Plane Receiver Turntable 0.8m EUT Test 3m Turntable EUT 1.5m 4m 1.5m Amplifie r Test Receiver Version.1.2 Page 19 of 42 7.2.5 Test Procedure Report No.: S19061201022002 The test site semi-anechoic chamber has met the requirement of NSA tolerance 4 dB according to the standards: ANSI C63.10-2013. The test distance is 3m.The setup is according to the requirements in Section 13.1.4.1 of ANSI C63.10-2013 and CAN/CSA-CEI/IEC CISPR 22. This test is required for any spurious emission that falls in a Restricted Band, as defined in Section 15.205. It must be performed with the highest gain of each type of antenna proposed for use with the EUT. Use the following spectrum analyzer settings:

Spectrum Parameter Attenuation Start Frequency Stop Frequency Setting Auto 1000 MHz 10th carrier harmonic RB / VB (emission in restricted band) 1 MHz / 1 MHz for Peak, 1 MHz / 10Hz for Average Receiver Parameter Attenuation Start ~ Stop Frequency Start ~ Stop Frequency Start ~ Stop Frequency Setting Auto 9kHz~150kHz / RB 200Hz for QP 150kHz~30MHz / RB 9kHz for QP 30MHz~1000MHz / RB 120kHz for QP a. The measuring distance of at 3 m shall be used for measurements at frequency up to 1GHz. For frequencies above 1GHz, any suitable measuring distance may be used. b. The EUT was placed on the top of a rotating table 0.8 m for below 1GHz and 1.5m for above 1GHz the ground at a 3 meter. The table was rotated 360 degrees to determine the position of the highest radiation. c. The height of the equipment or of the substitution antenna shall be 0.8 m for below 1GHz and 1.5m for above 1GHz; the height of the test antenna shall vary between 1 m to 4 m. Both horizontal and vertical polarizations of the antenna are set to make the measurement. d. For the radiated emission test above 1GHz:

Place the measurement antenna away from each area of the EUT determined to be a source of emissions at the specified measurement distance, while keeping the measurement antenna aimed at the source of emissions at each frequency of significant emissions, with polarization oriented for maximum response. The measurement antenna may have to be higher or lower than the EUT, depending on the radiation pattern of the emission and staying aimed at the emission source for receiving the maximum signal. The final measurement antenna elevation shall be that which maximizes the emissions. The measurement antenna elevation for maximum emissions shall be restricted to a range of heights of from 1 m to 4 m above the ground or reference ground plane. e. The initial step in collecting conducted emission data is a spectrum analyzer peak detector mode pre-scanning the measurement frequency range. Significant peaks are then marked and then Quasi Peak detector mode re-measured. If the Peak Mode measured value compliance with and lower than Quasi Peak Mode Limit, the EUT shall be deemed to meet QP Limits and then no additional QP Mode measurement performed. f. g. For the actual test configuration, please refer to the related Item EUT Test Photos. Note:

Both horizontal and vertical antenna polarities were tested and performed pretest to three orthogonal axis. The worst case emissions were reported Version.1.2 Page 20 of 42 Report No.: S19061201022002 During the radiated emission test, the Spectrum Analyzer was set with the following configurations:

Frequency Band (MHz) Function Resolution bandwidth Video Bandwidth 30 to 1000 Above 1000 QP Peak Average 120 kHz 1 MHz 1 MHz 300 kHz 1 MHz 10 Hz Note: for the frequency ranges below 30 MHz, a narrower RBW is used for these ranges but the measured value should add a RBW correction factor (RBWCF) where RBWCF [dB] =10*lg(100 [kHz]/narrower RBW

[kHz]). , the narrower RBW is 1 kHz and RBWCF is 20 dB for the frequency 9 kHz to 150 kHz, and the narrower RBW is 10 kHz and RBWCF is 10 dB for the frequency 150 kHz to 30 MHz. 7.2.6 Test Results Spurious Emission below 30MHz (9KHz to 30MHz) EUT:

Model No.:

TEV-CE-141-2 notebook 20 Mode2/Mode3/Mode4 Test By:

Mary Hu Relative Humidity:

48%

Temperature:

Test Mode:

Freq.

(MHz) Ant.Pol. Emission Level(dBuV/m) Over(dB)

--

--

H/V AV

--

Note: the amplitude of spurious emission that is attenuated by more than 20dB below the permissible limit has no need to be reported. Distance extrapolation factor =20log(Specific distance/ test distance)( dB);

Limit line=Specific limits(dBuV) + distance extrapolation factor PK

--

PK

--

AV

--

Limit 3m(dBuV/m) PK

--

AV

--

Version.1.2 Page 21 of 42 Spurious Emission below 1GHz (30MHz to 1GHz) Report No.: S19061201022002 All the modulation modes have been tested, and the worst result was report as below:

EUT Temperature Pressure Test Voltage notebook 20 1010hPa Model Name Relative Humidity Test Mode TEV-CE-141-2 48%

Mode 1 DC 7.6V from battery Polar

(H/V) V V V V V V Frequency Meter Reading Factor Emission Level Limits Margin

(MHz)

(dBuV)

(dB)

(dBuV/m)

(dBuV/m)

(dB) 34.3964 196.5098 341.9786 428.0192 568.6127 857.0247 18.42 28.65 19.22 16.83 16.40 7.33 16.96 9.81 17.48 20.14 23.70 28.65 35.38 38.46 36.70 36.97 40.10 35.98 40.00 43.50 46.00 46.00 46.00 46.00

-4.62

-5.04

-9.30

-9.03

-5.90

-10.02 Remark QP QP QP QP QP QP Remark:

Absolute Level= ReadingLevel+ Factor, Margin= Absolute Level - Limit Version.1.2 Page 22 of 42 Report No.: S19061201022002 Polar

(H/V) H H H H H H Frequency Meter Reading Factor Emission Level Limits Margin Remark

(MHz)

(dBuV)

(dB)

(dBuV/m)

(dBuV/m)

(dB) 196.5098 280.0237 428.0193 513.6331 593.0497 833.3171 29.39 22.14 20.86 14.84 13.60 7.82 9.81 17.37 20.14 22.17 23.60 28.42 39.20 39.51 41.00 37.01 37.20 36.24 43.50 46.00 46.00 46.00 46.00 46.00

-4.30

-6.49

-5.00

-8.99

-8.80

-9.76 QP QP QP QP QP QP Remark:

Absolute Level= ReadingLevel+ Factor, Margin= Absolute Level - Limit Version.1.2 Page 23 of 42 Spurious Emission Above 1GHz (1GHz to 25GHz) EUT:

Model No.:

notebook 20 Mode2/Mode3/Mode4 Test By:

Mary Hu Relative Humidity:

48%

Temperature:

Test Mode:

Report No.: S19061201022002 TEV-CE-141-2 Note: (1) All Readings are Peak Value (VBW=3MHz) and AV Value (VBW=10Hz).

(2) Emission Level= Antenna Factor + Cable Loss + Read Level - Preamp Factor

(3)All other emissions more than 20dB below the limit. Version.1.2 Page 24 of 42 FrequencyReadLevelCablelossAntennaFactorPreampFactorEmissionLevelLimitsMargin(MHz)(dBV)(dB)dB/m(dB)(dBV/m)(dBV/m)(dB)4839.8064.805.2135.5944.3061.3074.00-12.70Pk4839.8043.865.2135.5944.3040.3654.00-13.64AV7206.6062.166.4836.2744.6060.3174.00-13.69Pk7206.6043.226.4836.2744.6041.3754.00-12.63AV4804.7864.445.2135.5544.3060.9074.00-13.10Pk4804.7843.835.2135.5544.3040.2954.00-13.71AV7206.4060.306.4836.2744.5258.5374.00-15.47Pk7206.4043.146.4836.2744.5241.3754.00-12.63AV4880.5461.355.2135.6644.2058.0274.00-15.98Pk4880.5443.045.2135.6644.2039.7154.00-14.29AV7320.8764.727.1036.5044.4363.8974.00-10.11Pk7320.8743.817.1036.5044.4342.9854.00-11.02AV4880.2960.655.2135.6644.2057.3274.00-16.68Pk4880.2943.545.2135.6644.2040.2154.00-13.79AV7320.7460.497.1036.5044.4359.6674.00-14.34Pk7320.7443.257.1036.5044.4342.4254.00-11.58AV4960.2763.175.2135.5244.2159.6974.00-14.31Pk4960.2743.305.2135.5244.2139.8254.00-14.18AV7440.8964.877.1036.5344.6063.9074.00-10.10Pk7440.8943.197.1036.5344.6042.2254.00-11.78AV4960.3960.655.2135.5244.2157.1774.00-16.83Pk4960.3943.295.2135.5244.2139.8154.00-14.19AV7440.6961.837.1036.5344.6060.8674.00-13.14Pk7440.6943.677.1036.5344.6042.7054.00-11.30AVRemarkCommentLow Channel (2402 MHz)-Above 1GVerticalVerticalVerticalVerticalHorizontalHorizontalHorizontalHorizontalMid Channel (2440 MHz)-Above 1GVerticalVerticalVerticalVerticalVerticalHorizontalHorizontalVerticalHorizontalHorizontalHorizontalHorizontalHorizontalHorizontalHigh Channel (2480 MHz)- Above 1GVerticalVertical Report No.: S19061201022002 Spurious Emission in Restricted Band 2310-2390MHz and 2483.5-2500MHz EUT:

Model No.:

TEV-CE-141-2 notebook 20 Mode2/ Mode4 Test By:

Mary Hu Relative Humidity:

48%

Temperature:

Test Mode:

Note: (1) All other emissions more than 20dB below the limit. Version.1.2 Page 25 of 42 FrequencyMeterReadingCableLossAntennaFactorPreampFactorEmissionLevelLimitsMarginDetector(MHz)(dBV)(dB)dB/m(dB)(dBV/m)(dBV/m)(dB)Type2310.0065.322.9727.8043.8052.2974-21.71PkHorizontal2310.0043.122.9727.8043.8030.0954-23.91AVHorizontal2310.0061.062.9727.8043.8048.0374-25.97PkVertical2310.0043.082.9727.8043.8030.0554-23.95AVVertical2390.0062.153.1427.2143.8048.7074-25.30PkVertical2390.0043.023.1427.2143.8029.5754-24.43AVVertical2390.0061.143.1427.2143.8047.6974-26.31PkHorizontal2390.0043.743.1427.2143.8030.2954-23.71AVHorizontal2483.5062.963.5827.7044.0050.2474-23.76PkVertical2483.5043.383.5827.7044.0030.6654-23.34AVVertical2483.5063.493.5827.7044.0050.7774-23.23PkHorizontal2483.5043.653.5827.7044.0030.9354-23.07AVHorizontalCommentGFSK Spurious Emission in Restricted Band 3260MMHz-18000MHz EUT:

Model No.:

notebook 20 Mode2/ Mode4 Test By:

Mary Hu Relative Humidity:

48%

Temperature:

Test Mode:

Report No.: S19061201022002 TEV-CE-141-2 Note: (1) All other emissions more than 20dB below the limit. Version.1.2 Page 26 of 42 FrequencyReading LevelCableLossAntennaFactorPreampFactorEmissionLevelLimitsMarginDetector(MHz)(dBV)(dB)dB/m(dB)(dBV/m)(dBV/m)(dB)Type326065.344.0429.5744.7054.2574-19.75PkVertical326043.954.0429.5744.7032.8654-21.14AVVertical326060.644.0429.5744.7049.5574-24.45PkHorizontal326043.784.0429.5744.7032.6954-21.31AVHorizontal333263.774.2629.8744.4053.5074-20.50PkVertical333243.184.2629.8744.4032.9154-21.09AVVertical333261.994.2629.8744.4051.7274-22.28PkHorizontal333243.114.2629.8744.4032.8454-21.16AVHorizontal1779745.3910.9943.9543.5056.8374-17.17PkVertical1779734.9210.9943.9543.5046.3654-7.64AVVertical1778846.2811.8143.6944.6057.1874-16.82PkHorizontal1778834.6111.8143.6944.6045.5154-8.49AVHorizontalComment 7.3 6DB BANDWIDTH 7.3.1 Applicable Standard Report No.: S19061201022002 According to FCC Part 15.247(a)(2) and KDB 558074 DTS 01 Meas. Guidance v04 7.3.2 Conformance Limit The minimum permissible 6dB bandwidth is 500 kHz. 7.3.3 Measuring Instruments The Measuring equipment is listed in the section 6.3 of this test report. 7.3.4 Test Setup Please refer to Section 6.1 of this test report. 7.3.5 Test Procedure The testing follows KDB 558074 DTS 01 Meas. Guidance v04 The RF output of EUT was connected to the spectrum analyzer by RF cable and attenuator. The path loss was compensated to the results for each measurement. Set to the maximum power setting and enable the EUT transmit continuously. The EUT was operating in controlled its channel. Use the following spectrum analyzer settings:

a) Set RBW = 100 kHz. b) Set the video bandwidth (VBW) 3*RBW. c) Detector = Peak. d) Trace mode = max hold. e) Sweep = auto couple. f) Allow the trace to stabilize. g) Measure the maximum width of the emission that is constrained by the frequencies associated with the two outermost amplitude points (upper and lower frequencies) that are attenuated by 6 dB relative to the maximum level measured in the fundamental emission. 7.3.6 Test Results EUT:

Temperature:

notebook 20 Model No.:

TEV-CE-141-2 Relative Humidity:

48%

Test Mode:

Mode2/Mode3/Mode4 Test By:

Mary Hu Channel Low Middle High Frequency

(MHz) 6dB bandwidth

(kHz) 2402 2440 2480 658.555 670.799 669.929 Limit

(kHz) 500 500 500 Result Pass Pass Pass Version.1.2 Page 27 of 42 Report No.: S19061201022002 6dB Bandwidth plot on channel 00 1Mbps 6dB Bandwidth plot on channel 19 1Mbps Version.1.2 Page 28 of 42 Report No.: S19061201022002 6dB Bandwidth plot on channel 39 1Mbps Version.1.2 Page 29 of 42 7.4 PEAK OUTPUT POWER 7.4.1 Applicable Standard Report No.: S19061201022002 According to FCC Part 15.247(b)(3) and KDB 558074 DTS 01 Meas. Guidance v04 7.4.2 Conformance Limit The maximum peak conducted output power of the intentional radiator for systems using digital modulation in the 2400 - 2483.5 MHz bands shall not exceed: 1 Watt (30dBm). If transmitting antenna of directional gain greater than 6dBi is used, the peak output power from the intentional radiator shall be reduced below the above stated value by the amount in dB that the directional gain of the antenna exceeds 6 dBi. In case of point-to-point operation, the limit has to be reduced by 1dB for every 3dB that the directional gain of the antenna exceeds 6dBi. 7.4.3 Measuring Instruments The Measuring equipment is listed in the section 6.3 of this test report. 7.4.4 Test Setup Please refer to Section 6.1 of this test report. 7.4.5 Test Procedure The testing follows KDB 558074 DTS 01 Meas. Guidance v04 The RF output of EUT was connected to the spectrum analyzer by RF cable and attenuator. The path loss was compensated to the results for each measurement. Set to the maximum power setting and enable the EUT transmit continuously. The EUT was operating in controlled its channel. Use the following spectrum analyzer settings:

Set the RBW DTS bandwidth. Set VBW =3*RBW. Set the span 3*RBW Set Sweep time = auto couple. Set Detector = peak. Set Trace mode = max hold. Allow trace to fully stabilize. Use peak marker function to determine the peak amplitude level. 7.4.6 Test Results EUT:

Temperature:

Test Mode:

Test Channel notebook 20 Model No.:

TEV-CE-141-2 Relative Humidity:

48%

Mode2/Mode3/Mode4 Test By:

Mary Hu Frequency

(MHz) Power Setting Peak Output Power

(dBm) LIMIT

(dBm) 00 19 39 2402 2440 2480 Default Default Default 1Mbps 1.97 2.15 1.34 30 30 30 Verdict PASS PASS PASS Version.1.2 Page 30 of 42 Report No.: S19061201022002 Peak output Power plot on channel 00 1Mbps Peak output Power plot on channel 19 1Mbps Version.1.2 Page 31 of 42 Report No.: S19061201022002 Peak output Power plot on channel 39 1Mbps Version.1.2 Page 32 of 42 7.5 POWER SPECTRAL DENSITY 7.5.1 Applicable Standard Report No.: S19061201022002 According to FCC Part 15.247(e) and KDB 558074 DTS 01 Meas. Guidance v04 7.5.2 Conformance Limit The transmitter power spectral density conducted from the transmitter to the antenna shall not be greater than 8 dBm in any 3 kHz band during any time interval of continuous transmission. 7.5.3 Measuring Instruments The Measuring equipment is listed in the section 6.3 of this test report. 7.5.4 Test Setup Please refer to Section 6.1 of this test report. 7.5.5 Test Procedure The testing follows Measurement Procedure 10.2 Method AVGPSD of FCC KDB Publication No. 558074 D01 DTS Meas. Guidance v04 This procedure shall be used if maximum peak conducted output power was used to demonstrate compliance, and is optional if the maximum conducted (average) output power was used to demonstrate compliance. The RF output of EUT was connected to the spectrum analyzer by RF cable and attenuator. The path loss was compensated to the results for each measurement. Set to the maximum power setting and enable the EUT transmit continuously. The EUT was operating in controlled its channel. a) Set analyzer center frequency to DTS channel center frequency. b) Set the span to 1.5*DTS bandwidth. c) Set the RBW to: 3 kHz RBW 100 kHz. d) Set the VBW 3 RBW. e) Detector = peak. f) Sweep time = auto couple. g) Trace mode = max hold. h) Allow trace to fully stabilize. i) Use the peak marker function to determine the maximum amplitude level within the RBW. j) If measured value exceeds limit, reduce RBW (no less than 3 kHz) and repeat. Version.1.2 Page 33 of 42 7.5.6 Test Results Report No.: S19061201022002 EUT:

Temperature:

notebook 20 Model No.:

TEV-CE-141-2 Relative Humidity:

48%

Test Mode:

Mode2/Mode3/Mode4 Test By:

Mary Hu Test Channel Frequency

(MHz) 00 19 39 2402 2440 2480 Power Density

(dBm/3KHz) 1Mbps

-13.40

-13.61

-14.24 Limit

(dBm/3KHz) 8 8 8 Verdict PASS PASS PASS Power spectral density plot on channel 00 1Mbps Version.1.2 Page 34 of 42 Report No.: S19061201022002 Power spectral density plot on channel 19 1Mbps Power spectral density plot on channel 39 1Mbps Version.1.2 Page 35 of 42 7.6 CONDUCTED BAND EDGE MEASUREMENT 7.6.1 Applicable Standard Report No.: S19061201022002 According to FCC Part 15.247(d) and KDB 558074 DTS 01 Meas. Guidance v04 7.6.2 Conformance Limit In any 100 kHz bandwidth outside the frequency band in which the spread spectrum or digitally modulated intentional radiator is operating, the radio frequency power that is produced by the intentional radiator shall be at least 20 dB below that in the 100 kHz bandwidth within the band that contains the highest level of the desired power, based on either an RF conducted or a radiated measurement, provided the transmitter demonstrates compliance with the peak conducted power limits. If the transmitter complies with the conducted power limits based on the use of RMS averaging over a time interval, as permitted under paragraph (b)(3) of this section, the attenuation required under this paragraph shall be 30 dB instead of 20 dB. 7.6.3 Measuring Instruments The Measuring equipment is listed in the section 6.3 of this test report. 7.6.4 Test Setup Please refer to Section 6.1 of this test report. 7.6.5 Test Procedure The testing follows FCC KDB Publication No. 558074 D01 DTS Meas. Guidance v04. The RF output of EUT was connected to the spectrum analyzer by RF cable and attenuator. The path loss was compensated to the results for each measurement. Set to the maximum power setting and enable the EUT transmit continuously. The EUT was operating in controlled its channel. Set RBW to 100 kHz and VBW of spectrum analyzer to 300 kHz with a convenient frequency span including 100 kHz bandwidth from band edge. Measure the highest amplitude appearing on spectral display and set it as a reference level. Plot the graph with marking the highest point and edge frequency. Repeat above procedures until all measured frequencies were complete. 7.6.6 Test Results EUT:

Temperature:

notebook 20 Model No.:

TEV-CE-141-2 Relative Humidity:

48%

Test Mode:

Mode2/Mode4 Test By:

Mary Hu Version.1.2 Page 36 of 42 Report No.: S19061201022002 GFSK mode: Band Edge-Low Channel GFSK mode: Band Edge-High Channel Version.1.2 Page 37 of 42 Date: 15.JUN.2018 17:00:23Date: 15.JUN.2018 16:58:01 7.7 SPURIOUS RF CONDUCTED EMISSIONS 7.7.1 Conformance Limit Report No.: S19061201022002 1. Below -20dB of the highest emission level in operating band. 2. Fall in the restricted bands listed in section 15.205. The maximum permitted average field strength is listed in section 15.209. 7.7.2 Measuring Instruments The Measuring equipment is listed in the section 6.3 of this test report. 7.7.3 Test Setup Please refer to Section 6.1 of this test report. 7.7.4 Test Procedure The Spurious RF conducted emissions compliance of RF radiated emission should be measured by following the guidance in ANSI C63.10-2013 with respect to maximizing the emission by rotating the EUT, measuring the emission while the EUT is situated in three orthogonal planes (if appropriate), adjusting the measurement antenna height and polarization etc. Set RBW=100kHz and VBW= 300KHz to measure the peak field strength , and measure frequeny range from 9KHz to 26.5GHz. 7.7.5 Test Results Remark: The measurement frequency range is from 9KHz to the 10th harmonic of the fundamental frequency. The lowest, middle and highest channels are tested to verify the spurious emissions and bandege measurement data. Version.1.2 Page 38 of 42 Report No.: S19061201022002 GFSK on channel 00 GFSK on channel 00 Test Plot GFSK on channel 00 GFSK on channel 00 Version.1.2 Page 39 of 42 Date: 15.JUN.2018 17:06:08Date: 15.JUN.2018 17:06:45Date: 15.JUN.2018 17:07:16Date: 15.JUN.2018 17:08:01 Report No.: S19061201022002 GFSK on channel 19 GFSK on channel 19 Test Plot GFSK on channel 19 GFSK on channel 19 Version.1.2 Page 40 of 42 Date: 15.JUN.2018 17:09:47Date: 15.JUN.2018 17:10:19Date: 15.JUN.2018 17:10:48Date: 15.JUN.2018 17:11:25 Report No.: S19061201022002 GFSK on channel 39 GFSK on channel 39 Test Plot GFSK on channel 39 GFSK on channel 39 Version.1.2 Page 41 of 42 Date: 15.JUN.2018 17:12:18Date: 15.JUN.2018 17:12:51Date: 15.JUN.2018 17:13:58Date: 15.JUN.2018 17:14:28 7.8 ANTENNA APPLICATION 7.8.1 Antenna Requirement Report No.: S19061201022002 15.203 requirement: For intentional device, according to 15.203: an intentional radiator shall be designed to ensure that no antenna other than that furnished by the responsible party shall be used with the device. 7.8.2 Result The EUT antenna is permanent attached FPC antenna (Gain: 2 dBi). It comply with the standard requirement. END OF REPORT Version.1.2 Page 42 of 42

 

 

Report No.: S19061201022003 FCC RADIO TEST REPORT FCC ID: 2ACPR-CE141-2 Product: notebook Trade Mark: N/A Model No.: TEV-CE-141-2 Serial Model: W1640B, EV-CE-141-2 Report No.: S19061201022003 Issue Date: 17 Jul. 2019 Prepared for SHENZHEN BMORN TECHNOLOGY CO.,LTD. 6/F, Hengfang Verteran Industrial Park, Xingye Road, Xixiang, Baoan, Shenzhen, China Prepared by Shenzhen NTEK Testing Technology Co., Ltd. 1/F, Building E, Fenda Science Park, Sanwei Community, Xixiang Street Baoan District, Shenzhen 518126 P.R. China Tel.: +86-755-6115 6588 Fax.: +86-755-6115 6599 Website:http://www.ntek.org.cn Version.1.2 Page 1 of 57 Report No.: S19061201022003 TABLE OF CONTENTS 1 2 3 TEST RESULT CERTIFICATION ...................................................................................................................... 3 SUMMARY OF TEST RESULTS ......................................................................................................................... 4 FACILITIES AND ACCREDITATIONS ............................................................................................................. 5 3.1 FACILITIES ........................................................................................................................................................... 5 3.2 LABORATORY ACCREDITATIONS AND LISTINGS ........................................................................................ 5 3.3 MEASUREMENT UNCERTAINTY ............................................................................................................... 5 4 GENERAL DESCRIPTION OF EUT .................................................................................................................. 6 5 DESCRIPTION OF TEST MODES ..................................................................................................................... 9 6 SETUP OF EQUIPMENT UNDER TEST ......................................................................................................... 11 6.1 6.2 6.3 BLOCK DIAGRAM CONFIGURATION OF TEST SYSTEM ..................................................................... 11 SUPPORT EQUIPMENT............................................................................................................................... 12 EQUIPMENTS LIST FOR ALL TEST ITEMS .............................................................................................. 13 7 TEST REQUIREMENTS .................................................................................................................................... 15 CONDUCTED EMISSIONS TEST ............................................................................................................... 15 7.1 RADIATED SPURIOUS EMISSION ............................................................................................................ 20 7.2 6DB BANDWIDTH ....................................................................................................................................... 29 7.3 7.4 DUTY CYCLE ............................................................................................................................................... 33 7.5 MAXIMUM OUTPUT POWER .................................................................................................................... 35 7.6 POWER SPECTRAL DENSITY ................................................................................................................... 37 CONDUCTED BAND EDGE MEASUREMENT......................................................................................... 41 7.7 SPURIOUS RF CONDUCTED EMISSIONS................................................................................................ 44 7.8 7.9 ANTENNA APPLICATION .......................................................................................................................... 57 Version.1.2 Page 2 of 57 Report No.: S19061201022003 1 TEST RESULT CERTIFICATION Applicants name ......................... : SHENZHEN BMORN TECHNOLOGY CO.,LTD. Address ....................................... : 6/F, Hengfang Verteran Industrial Park, Xingye Road, Xixiang, Baoan, Shenzhen, China Manufacturer's Name .................. : SHENZHEN BMORN TECHNOLOGY CO.,LTD. Address ....................................... : 6/F, Hengfang Verteran Industrial Park, Xingye Road, Xixiang, Baoan, Shenzhen, China Product description Product name .............................. : notebook Model and/or type reference ..... : TEV-CE-141-2 Family Model ............................... : W1640B, EV-CE-141-2 Measurement Procedure Used:

APPLICABLE STANDARD/ TEST PROCEDURE TEST RESULT APPLICABLE STANDARDS FCC 47 CFR Part 2, Subpart J FCC 47 CFR Part 15, Subpart C KDB 174176 D01 Line Conducted FAQ v01r01 Complied ANSI C63.10-2013 FCC KDB 558074 D01 DTS Meas Guidance v04 This device described above has been tested by Shenzhen NTEK Testing Technology Co., Ltd., and the test results show that the equipment under test (EUT) is in compliance with the FCC requirements. And it is applicable only to the tested sample identified in the report. This report shall not be reproduced except in full, without the written approval of Shenzhen NTEK Testing Technology Co., Ltd., this document may be altered or revised by Shenzhen NTEK Testing Technology Co., Ltd., personnel only, and shall be noted in the revision of the document. The test results of this report relate only to the tested sample identified in this report. Note: All test data of this report are based on the original test report SER180608008003E, dated by 2018-07-05. Date of Test 08 Jun. 2018 ~ Jul 05. 2018

:

Testing Engineer Technical Manager Authorized Signatory

:

:

:

(Mary Hu)

(Jason Chen)

(Sam Chen) Version.1.2 Page 3 of 57 Report No.: S19061201022003 2 SUMMARY OF TEST RESULTS Standard Section Test Item Verdict Remark FCC Part15 (15.247), Subpart C 15.207 Conducted Emission 15.247 (a)(2) 6dB Bandwidth 15.247 (b) 15.209 (a) 15.205 (a) 15.247 (d) 15.247 (d) Maximum Output Power Radiated Spurious Emission Power Spectral Density Band Edge Emission 15.203 Antenna Requirement PASS PASS PASS PASS PASS PASS PASS Remark:

1. 2. All test items were verified and recorded according to the standards and without any deviation during N/A denotes test is not applicable in this Test Report. the test. Version.1.2 Page 4 of 57 Report No.: S19061201022003 3 FACILITIES AND ACCREDITATIONS 3.1 FACILITIES All measurement facilities used to collect the measurement data are located at 1/F, Building E, Fenda Science Park, Sanwei Community, Xixiang Street, Baoan District, Shenzhen 518126 P.R. China. The sites are constructed in conformance with the requirements of ANSI C63.7, ANSI C63.10 and CISPR Publication 22. 3.2 LABORATORY ACCREDITATIONS AND LISTINGS Site Description CNAS-Lab.

: The Laboratory has been assessed and proved to be in compliance with CNAS-CL01:2006 (identical to ISO/IEC 17025:2005) The Certificate Registration Number is L5516. IC-Registration The Certificate Registration Number is 9270A-1. FCC- Accredited Test Firm Registration Number: 463705. Designation Number: CN1184 A2LA-Lab. The Certificate Registration Number is 4298.01 This laboratory is accredited in accordance with the recognized International Standard ISO/IEC 17025:2005 General requirements for the competence of testing and calibration laboratories. This accreditation demonstrates technical competence for a defined scope and the operation of a laboratory quality management system

(refer to joint ISO-ILAC-IAF Communiqu dated 8 January 2009). Name of Firm Site Location

: Shenzhen NTEK Testing Technology Co., Ltd.

: 1/F, Building E, Fenda Science Park, Sanwei Community, Xixiang Street, Baoan District, Shenzhen 518126 P.R. China. 2.3 MEASUREMENT UNCERTAINTY The reported uncertainty of measurement yU, where expended uncertainty U is based on a standard uncertainty multiplied by a coverage factor of k=2, providing a level of confidence of approximately 95 %. No. Item Uncertainty Conducted Emission Test RF power, conducted Spurious emissions, conducted All emissions, radiated(30MHz~1GHz) All emissions, radiated(1GHz~6GHz) All emissions, radiated(6GHz) Temperature Humidity 2.80dB 0.16dB 0.21dB 2.64dB 2.40dB 2.52dB 0.5C 2%

1 2 3 4 5 6 7 8 Version.1.2 Page 5 of 57 Report No.: S19061201022003 4 GENERAL DESCRIPTION OF EUT Product Feature and Specification Equipment notebook Trade Mark N/A FCC ID 2ACPR-CE141-2 Model No. TEV-CE-141-2 Serial Model W1640B, EV-CE-141-2 Model Difference All the models are the same circuit and RF module, except the model No.. Operating Frequency 2412-2462MHz for 802.11b/g/11n(HT20);

2422-2452MHz for 802.11n(HT40);

Modulation DSSS with DBPSK/DQPSK/CCK for 802.11b;

OFDM with BPSK/QPSK/16QAM/64QAM for 802.11g/n;

Number of Channels 11 channels for 802.11b/g/11n(HT20);

7 channels for 802.11n(HT40);

Antenna Type Smart system Antenna Gain Power supply The EUT has two types of antenna Main Antenna A: FPCB Antenna(Only For WLAN 2.4G) AUX Antenna B: FPCB Antenna(For WLAN 2.4G and BT) SISO for 802.11b/g/n20/n40 MIMO Antenna A: 2 dBi Antenna B: 2 dBi DC supply:

DC 7.6V/5000mAh from battery or DC 12V from Adapter Adapter supply:

Model:SAW30-120-2000U Input: 100-240V~50/60Hz 0.8A Output: 12V 2000mA HW Version S133AR700A SW Version WIN10 SMODE Note: Based on the application, features, or specification exhibited in User's Manual, the EUT is considered as an ITE/Computing Device. More details of EUT technical specification, please refer to the User's Manual. Version.1.2 Page 6 of 57 Report No.: S19061201022003 Photo 1 Main Chain 1 (Connect to Ant A for WLAN 2.4G) Aux Chain 2 (Connect to Ant B for WLAN 2.4G and BT) Version.1.2 Page 7 of 57 Report No.: S19061201022003 Revision History Report No. Version Description Issued Date SER180608008003E Rev.01 Initial issue of report Jul 05, 2018 S19061201022003 Rev.02 Update the model Jul 17, 2019 Version.1.2 Page 8 of 57 Report No.: S19061201022003 5 DESCRIPTION OF TEST MODES To investigate the maximum EMI emission characteristics generates from EUT, the test system was pre-scanning tested base on the consideration of following EUT operation mode or test configuration mode which possible have effect on EMI emission level. Each of these EUT operation mode(s) or test configuration mode(s) mentioned above was evaluated respectively. The Transmitter was operated in the normal operating mode. The TX frequency was fixed which was for the purpose of the measurements. Test of channel included the lowest and middle and highest frequency to perform the test, then record on this report. Those data rates (802.11b: 1 Mbps; 802.11g: 6 Mbps; 802.11n (HT20): MCS0; 802.11n (HT40): MCS0) were used for all test. The EUT was pretested with 3 orientations placed on the table for the radiated emission measurement X, Y, and Z-plane. The Y-plane results were found as the worst case and were shown in this report. Frequency and Channel list for 802.11b/g/n (HT20/HT40):

Channel Frequency(MHz) 1 2 5 6 10 11 2412 2417 2432 2437 2457 2462 Note: fc=2412MHz+(k-1)5MHz k=1 to 11 AC power line Conducted Emission was tested under maximum output power. EUT built-in battery-powered, the battery is fully-charged. Version.1.2 Page 9 of 57 Report No.: S19061201022003 Mode Data Rate Channel Test Mode:

Test Items AC Power Line Conducted Emissions Maximum Conducted Output Power Power Spectral Density 6dB Spectrum Bandwidth Normal Link

-

11b/CCK 11g/BPSK 11n HT20 11n HT40 11b/CCK 11g/BPSK 11n HT20 11n HT40 11b/CCK 11g/BPSK 11n HT20 11n HT40 1 Mbps 6 Mbps MCS0 MCS0 1 Mbps 6 Mbps MCS0 MCS0 1 Mbps 6 Mbps MCS0 MCS0 Radiated Emissions Below 1GHz Normal Link

-

Radiated Emissions Above 1GHz Band Edge Emissions 11b/CCK 11g/BPSK 11n HT20 11n HT40 11b/CCK 11g/BPSK 11n HT20 11n HT40 1 Mbps 6 Mbps MCS0 MCS0 1 Mbps 6 Mbps MCS0 MCS0

-

1/6/11 1/6/11 1/6/11 3/6/9 1/6/11 1/6/11 1/6/11 3/6/9 1/6/11 1/6/11 1/6/11 3/6/9

-

1/6/11 1/6/11 1/6/11 3/6/9 1/6/11 1/6/11 1/6/11 3/6/9 Ant

-

A/B A/B A/B A/B A/B A/B A/B A/B A/B A/B A/B A/B

-

A/B A/B A/B A/B A/B A/B A/B A/B Version.1.2 Page 10 of 57 Report No.: S19061201022003 6 SETUP OF EQUIPMENT UNDER TEST 6.1 BLOCK DIAGRAM CONFIGURATION OF TEST SYSTEM For AC Conducted Emission Mode AC PLUG C-1 E-1 EUT E-2 Adapter E-3 Earphone For Radiated Test Cases EUT For Conducted Test Cases Measurement Instrument C2 EUT Note:The temporary antenna connector is soldered on the PCB board in order to perform conducted tests and this temporary antenna connector is listed in the equipment list. Version.1.2 Page 11 of 57 Report No.: S19061201022003 6.2 SUPPORT EQUIPMENT The EUT has been tested as an independent unit together with other necessary accessories or support units. The following support units or accessories were used to form a representative test configuration during the tests. Item E-1 E-2 E-3 Equipment notebook Adapter Earphone Model/Type No. TEV-CE-141-2 SAW30-120-2000U N/A N/A N/A N/A N/A N/A Note EUT Peripherals Series No. Mfr/Brand N/A Item Cable Type Shielded Type Ferrite Core C-1 C-2 Power Cable RF Cable NO NO Notes:

NO NO Length 2.0m 0.4m

(1) The support equipment was authorized by Declaration of Confirmation.

(2) For detachable type I/O cable should be specified the length in cm inLengthcolumn.

(3) YES is means shielded with core; NO is means unshielded without core. Version.1.2 Page 12 of 57 Report No.: S19061201022003 6.3 EQUIPMENTS LIST FOR ALL TEST ITEMS Radiation& Conducted Test equipment Item Kind of Equipment Manufacturer Type No. Serial No. Last Calibrated calibration until Calibrati on period 1 2 3 4 Spectrum Analyzer Spectrum Analyzer Spectrum Analyzer Aglient E4407B MY45108040 2018.05.19 2019.05.18 1 year Agilent N9020A MY49100060 2017.10.26 2018.10.25 1 year R&S FSV40 101417 2017.10.26 2018.10.25 1 year Test Receiver R&S ESPI7 101318 2018.05.19 2019.05.18 1 year 5 Bilog Antenna TESEQ CBL6111D 31216 2018.04.08 2019.04.07 1 year 6 50 Coaxial Switch Anritsu MP59B 6200983705 2018.05.19 2020.05.18 3 year 7 Horn Antenna EM 8 Amplifier EMC EM-AH-1018 0 EMC051835 SE 11 Active Loop SCHWARZBE FMZB 1519 Antenna CK B 12 Power Meter DARE RPR3006W 13 14 Test Cable

(9KHz-30MHz) Test Cable

(30MHz-1GHz) High Test N/A N/A R-01 R-02 2011071402 2018.04.08 2019.04.07 1 year 980246 2017.08.09 2018.08.08 1 year 055 2017.12.06 2018.12.06 1 year 15I00041SN O84 N/A 2017.08.07 2018.08.06 1 year 2017.04.21 2020.04.20 3 year N/A 2017.04.21 2020.04.20 3 year 15 Cable(1G-40G N/A R-03 N/A 2017.04.21 2020.04.20 3 year Hz) High Test 16 Cable(1G-40G N/A R-04 N/A 2017.04.21 2020.04.20 3 year 17 18 Hz) Filter temporary antenna connector

(Note) TRILTHIC 2400MHz 29 2017.04.19 2020.04.18 3 year NTS R001 N/A N/A N/A N/A Note:

We will use the temporary antenna connector (soldered on the PCB board) When conducted test And this temporary antenna connector is listed within the instrument list Version.1.2 Page 13 of 57 AC Conduction Test equipment Report No.: S19061201022003 Item Kind of Equipment 1 Test Receiver LISN LISN Manufacturer Type No. Serial No. Last Calibrated Calibration calibration until period R&S R&S SCHWARZBE CK ESCI 101160 2018.05.19 2019.05.18 1 year ENV216 101313 2018.04.18 2019.04.19 1 year NNLK 8129 8129245 2018.05.19 2019.05.18 1 year 50 Coaxial ANRITSU Switch CORP MP59B 6200983704 2018.05.19 2020.05.18 3 year Test Cable

(9KHz-30MH z) Test Cable

(9KHz-30MH z) Test Cable

(9KHz-30MH z) N/A C01 N/A 2017.04.21 2020.04.20 3 year N/A C02 N/A 2017.04.21 2020.04.20 3 year N/A C03 N/A 2017.04.21 2020.04.20 3 year 2 3 4 5 6 7 Note: Each piece of equipment is scheduled for calibration once a year except the Test Cable& Aux Equipment which is scheduled for calibration every 3 years. Version.1.2 Page 14 of 57 7 TEST REQUIREMENTS 7.1 CONDUCTED EMISSIONS TEST 7.1.1 Applicable Standard Report No.: S19061201022003 According to FCC Part 15.207(a) and KDB 174176 D01 Line Conducted FAQ v01r01 7.1.2 Conformance Limit Frequency(MHz) 0.15-0.5 0.5-5.0 5.0-30.0 Conducted Emission Limit Quasi-peak 66-56*

56 60 Average 56-46*

46 50 Note: 1. *Decreases with the logarithm of the frequency 2. The lower limit shall apply at the transition frequencies 3. The limit decreases in line with the logarithm of the frequency in the range of 0.15 to 0.50MHz. 7.1.3 Measuring Instruments The Measuring equipment is listed in the section 6.3 of this test report. 7.1.4 Test Configuration Reference Ground EMI Receiver EUT Auxiliary Equipment Reference Ground LISN 80cm 50 80cm LISN 7.1.5 Test Procedure According to the requirements in Section 13.1.4.1 of ANSI C63.10-2013 Conducted emissions the EUT measured in the frequency range between 0.15 MHz and 30 MHz using CISPR Quasi-Peak and average detector mode. 1. The EUT was placed 0.4 meter from the conducting wall of the shielding room. 2. The EUT was placed on a table which is 0.8m above ground plane. 3. Connect EUT to the power mains through a line impedance stabilization network (LISN). All other support equipments powered from additional LISN(s). The LISN provide 50 Ohm/ 50uH of coupling impedance for the measuring instrument. Interconnecting cables that hang closer than 40 cm to the ground plane shall be folded back and forth in the center forming a bundle 30 to 40cm long. I/O cables that are not connected to a peripheral shall be bundled in the center. The end of the cable may be terminated, if required, using the correct terminating impedance. The overall length shall not exceed 1 m. 4. 5. 6. LISN at least 80 cm from nearest part of EUT chassis. 7. The frequency range from 150KHz to 30MHz was searched. 8. Set the test-receiver system to Peak Detect Function and specified bandwidth(IF bandwidth=9KHz) with Maximum Hold Mode 9. For the actual test configuration, please refer to the related Item EUT Test Photos. Version.1.2 Page 15 of 57 Report No.: S19061201022003 7.1.6 Test Results EUT Temperature Pressure Test Voltage notebook 26 1010hPa DC 12V from Adapter AC 120V/60Hz Model Name Relative Humidity 54%

Phase :

L TEV-CE-141-2 Test Mode Normal Link Frequency Reading Level Correct Factor Measure-ment Limits Margin

(MHz) 0.1900 0.1900 0.2020 0.2020 0.2660 0.2660 0.3780 0.3780 0.5620 0.5620 23.9980 23.9980

(dBV) 50.22 35.55 50.64 36.53 46.10 34.20 41.65 28.83 37.99 23.67 39.41 34.47

(dB) 9.76 9.76 9.76 9.76 9.75 9.75 9.74 9.74 9.74 9.74 10.62 10.62

(dBV)

(dBV)

(dB) Remark 59.98 45.31 60.40 46.29 55.85 43.95 51.39 38.57 47.73 33.41 50.03 45.09 64.03 54.03 63.52 53.52 61.24 51.24 58.32 48.32 56.00 46.00 60.00 50.00

-4.05

-8.72

-3.12

-7.23

-5.39

-7.29

-6.93

-9.75

-8.27 QP AVG QP AVG QP AVG QP AVG QP

-12.59 AVG

-9.97

-4.91 QP AVG Remark:

1. All readings are Quasi-Peak and Average values. 2. Factor = Insertion Loss + Cable Loss. Version.1.2 Page 16 of 57 Report No.: S19061201022003 EUT Temperature Pressure Test Voltage notebook 26 1010hPa DC 12V from Adapter AC 120V/60Hz Model Name Relative Humidity Phase :

TEV-CE-141-2 54%

N Test Mode Normal Link Frequency Reading Level Correct Factor Measure-ment Limits Margin

(MHz) 0.1779 0.1779 0.2419 0.2419 0.3220 0.3220 0.4380 0.4380 0.6460 0.6460 23.9980 23.9980 Remark:

(dBV) 50.27 35.76 46.01 31.93 42.05 28.21 36.42 23.12 34.51 21.61 40.34 36.18

(dB) 9.73 9.73 9.74 9.74 9.74 9.74 9.75 9.75 9.75 9.75 10.57 10.57 1. All readings are Quasi-Peak and Average values. 2. Factor = Insertion Loss + Cable Loss.

(dBV)

(dBV)

(dB) Remark 60.00 45.49 55.75 41.67 51.79 37.95 46.17 32.87 44.26 31.36 50.91 46.75 64.58 54.58 62.03 52.03 59.65 49.65 57.10 47.10 56.00 46.00 60.00 50.00

-4.58

-9.09

-6.28

-10.36

-7.86

-11.70

-10.93

-14.23

-11.74

-14.64

-9.09

-3.25 QP AVG QP AVG QP AVG QP AVG QP AVG QP AVG Version.1.2 Page 17 of 57 Report No.: S19061201022003 EUT Temperature Pressure Test Voltage notebook 26 1010hPa DC 12V from Adapter AC 240V/60Hz Model Name Relative Humidity 54%

Phase :

L TEV-CE-141-2 Test Mode Normal Link Frequency Reading Level Correct Factor Measure-ment Limits Margin

(MHz) 0.1859 0.1859 0.2620 0.2620 0.3618 0.3618 0.4020 0.4020 0.5380 0.5380 23.9980 23.9980 Remark:

(dBV) 50.54 37.07 47.76 35.79 44.42 32.43 43.01 28.37 40.16 27.12 41.36 35.91

(dB) 9.76 9.76 9.76 9.76 9.74 9.74 9.74 9.74 9.74 9.74 10.62 10.62 1. All readings are Quasi-Peak and Average values. 2. Factor = Insertion Loss + Cable Loss.

(dBV)

(dBV)

(dB) Remark 60.30 46.83 57.52 45.55 54.16 42.17 52.75 38.11 49.90 36.86 51.98 46.53 64.21 54.21 61.36 51.36 58.69 48.69 57.81 47.81 56.00 46.00 60.00 50.00

-3.91

-7.38

-3.84

-5.81

-4.53

-6.52

-5.06

-9.70

-6.10

-9.14

-8.02

-3.47 QP AVG QP AVG QP AVG QP AVG QP AVG QP AVG Version.1.2 Page 18 of 57 Report No.: S19061201022003 EUT Temperature Pressure Test Voltage notebook 26 1010hPa DC 12V from Adapter AC 240V/60Hz Model Name Relative Humidity Phase :

TEV-CE-141-2 54%

N Test Mode Normal Link Frequency Reading Level Correct Factor Measure-ment Limits Margin

(MHz)

(dBV) 0.1860 0.1860 0.1980 0.1980 0.3060 0.3060 0.3300 0.3300 0.4860 0.4860 23.9980 23.9980 Remark:

50.72 38.56 49.25 36.54 40.77 29.07 39.93 26.89 36.93 23.80 39.99 34.34

(dB) 9.73 9.73 9.73 9.73 9.74 9.74 9.74 9.74 9.75 9.75 10.57 10.57 1. All readings are Quasi-Peak and Average values. 2. Factor = Insertion Loss + Cable Loss.

(dBV)

(dBV)

(dB) Remark 60.45 48.29 58.98 46.27 50.51 38.81 49.67 36.63 46.68 33.55 50.56 44.91 64.21 54.21 63.69 53.69 60.08 50.08 59.45 49.45 56.24 46.24 60.00 50.00

-3.76

-5.92

-4.71

-7.42

-9.57

-11.27

-9.78

-12.82

-9.56

-12.69

-9.44

-5.09 QP AVG QP AVG QP AVG QP AVG QP AVG QP AVG Version.1.2 Page 19 of 57 Report No.: S19061201022003 7.2 RADIATED SPURIOUS EMISSION 7.2.1 Applicable Standard According to FCC Part 15.247(d) and 15.209 and ANSI C63.10-2013 7.2.2 Conformance Limit According to FCC Part 15.247(d): radiated emissions which fall in the restricted bands, as defined in 15.205(a), must also comply with the radiated emission limits specified in 15.209(a) (see 15.205(c)). According to FCC Part15.205, Restricted bands MHz 0.090-0.110 10.495-0.505 2.1735-2.1905 4.125-4.128 4.17725-4.17775 4.20725-4.20775 6.215-6.218 6.26775-6.26825 8.291-8.294 8.362-8.366 8.37625-8.38675 8.41425-8.41475 12.29-12.293 12.51975-12.52025 12.57675-12.57725 13.36-13.41 MHz 16.42-16.423 16.69475-16.69525 16.80425-16.80475 25.5-25.67 37.5-38.25 73-74.6 74.8-75.2 123-138 149.9-150.05 156.52475-156.52525 156.7-156.9 162.0125-167.17 167.72-173.2 240-285 322-335.4 MHz 399.9-410 608-614 960-1240 1300-1427 1435-1626.5 1645.5-1646.5 1660-1710 2200-2300 2310-2390 2483.5-2500 2690-2900 3260-3267 3332-3339 3345.8-3358 3600-4400 GHz 4.5-5.15 5.35-5.46 7.25-7.75 8.025-8.5 9.0-9.2 9.3-9.5 10.6-12.7 14.47-14.5 15.35-16.2 17.7-21.4 22.01-23.12 23.6-24.0 31.2-31.8 36.43-36.5

(2) 20dBc in any 100 kHz bandwidth outside the operating frequency band. In case the emission fall within the restricted band specified on 15.205(a), then the 15.209(a) limit in the table below has to be followed. Restricted Frequency(MHz) 0.009~0.490 0.490~1.705 1.705~30.0 30-88 88-216 216-960 Above 960 Field Strength (V/m) Field Strength (dBV/m) Measurement Distance 2400/F(KHz) 2400/F(KHz) 20 log (uV/m) 20 log (uV/m) 30 100 150 200 500 29.5 40 43.5 46 54 300 30 30 3 3 3 3 Limits of Radiated Emission Measurement(Above 1000MHz) Frequency(MHz) Above 1000 Class B (dBuV/m) (at 3M) PEAK 74 AVERAGE 54 Remark :1. Emission level in dBuV/m=20 log (uV/m) 2. Measurement was performed at an antenna to the closed point of EUT distance of meters. 3. Distance extrapolation factor =40log(Specific distance/ test distance)( dB);

Limit line=Specific limits(dBuV) + distance extrapolation factor. 7.2.3 Measuring Instruments The Measuring equipment is listed in the section 6.3 of this test report. Version.1.2 Page 20 of 57 7.2.4 Test Configuration Report No.: S19061201022003

(a) For radiated emissions below 30MHz Turntable 3m EUT Test Receiver Coaxial Cable 1m to 4m Coaxial Cable 3m 1.0m 0.8 m Ground Plane

(b) For radiated emissions from 30MHz to 1000MHz

(c) For radiated emissions above 1000MHz Ground Plane Receiver Turntable 0.8m EUT Test 3m Turntable EUT 1.5m 4m 1.5m Amplifie r Test Receiver Version.1.2 Page 21 of 57 7.2.5 Test Procedure Report No.: S19061201022003 The test site semi-anechoic chamber has met the requirement of NSA tolerance 4 dB according to the standards: ANSI C63.10-2013. The test distance is 3m.The setup is according to the requirements in Section 13.1.4.1 of ANSI C63.10-2013 and CAN/CSA-CEI/IEC CISPR 22. This test is required for any spurious emission that falls in a Restricted Band, as defined in Section 15.205. It must be performed with the highest gain of each type of antenna proposed for use with the EUT. Use the following spectrum analyzer settings:

Spectrum Parameter Attenuation Start Frequency Stop Frequency Setting Auto 1000 MHz 10th carrier harmonic RB / VB (emission in restricted band) 1 MHz / 1 MHz for Peak, 1 MHz / 10Hz for Average Receiver Parameter Attenuation Start ~ Stop Frequency Start ~ Stop Frequency Start ~ Stop Frequency Setting Auto 9kHz~150kHz / RB 200Hz for QP 150kHz~30MHz / RB 9kHz for QP 30MHz~1000MHz / RB 120kHz for QP a. The measuring distance of at 3 m shall be used for measurements at frequency up to 1GHz and frequencies above 1GHz, b. The EUT was placed on the top of a rotating table 0.8 m for below 1GHz and 1.5m for above 1GHz the ground at a 3 meter. The table was rotated 360 degrees to determine the position of the highest radiation. c. The height of the equipment or of the substitution antenna shall be 0.8 m for below 1GHz and 1.5m for above 1GHz; the height of the test antenna shall vary between 1 m to 4 m. Both horizontal and vertical polarizations of the antenna are set to make the measurement. d. For the radiated emission test above 1GHz:

Place the measurement antenna away from each area of the EUT determined to be a source of emissions at the specified measurement distance, while keeping the measurement antenna aimed at the source of emissions at each frequency of significant emissions, with polarization oriented for maximum response. The measurement antenna may have to be higher or lower than the EUT, depending on the radiation pattern of the emission and staying aimed at the emission source for receiving the maximum signal. The final measurement antenna elevation shall be that which maximizes the emissions. The measurement antenna elevation for maximum emissions shall be restricted to a range of heights of from 1 m to 4 m above the ground or reference ground plane. e. The initial step in collecting conducted emission data is a spectrum analyzer peak detector mode pre-scanning the measurement frequency range. Significant peaks are then marked and then Quasi Peak detector mode re-measured. If the Peak Mode measured value compliance with and lower than Quasi Peak Mode Limit, the EUT shall be deemed to meet QP Limits and then no additional QP Mode measurement performed. f. g For the actual test configuration, please refer to the related Item EUT Test Photos. Note:

Both horizontal and vertical antenna polarities were tested and performed pretest to three orthogonal axis. The worst case emissions were reported During the radiated emission test, the Spectrum Analyzer was set with the following configurations:

For peak measurement:

Set RBW=100 kHz for f < 1 GHz; VBWRBW; Sweep = auto; Detector function = peak; Trace = max hold;

Set RBW = 1 MHz, VBW= 3MHz for f1 GHz For average measurement:

VBW = 10 Hz, when duty cycle is no less than 98 percent. VBW 1/T, when duty cycle is less than 98 percent where T is the minimum transmission duration over which the transmitter is on and is transmitting at its maximum power control level for the tested mode of operation. Version.1.2 Page 22 of 57 Report No.: S19061201022003 Note: for the frequency ranges below 30 MHz, a narrower RBW is used for these ranges but the measured value should add a RBW correction factor (RBWCF) where RBWCF [dB] =10*lg(100 [kHz]/narrower RBW

[kHz]). , the narrower RBW is 1 kHz and RBWCF is 20 dB for the frequency 9 kHz to 150 kHz, and the narrower RBW is 10 kHz and RBWCF is 10 dB for the frequency 150 kHz to 30 MHz. 7.2.6 Test Results Spurious Emission below 30MHz (9KHz to 30MHz) EUT:

Temperature:

notebook 20 Model No.:

TEV-CE-141-2 Relative Humidity: 48%

Test Mode:

Mode2/Mode3/Mode4/Mode5 Test By:

Mary Hu Freq.

(MHz) Ant.Pol. Emission Level(dBuV/m) Over(dB)

--

--

H/V AV

--

Note: the amplitude of spurious emission that is attenuated by more than 20dB below the permissible limit has no need to be reported. Distance extrapolation factor =20log(Specific distance/ test distance)( dB);

Limit line=Specific limits(dBuV) + distance extrapolation factor PK

--

PK

--

AV

--

Limit 3m(dBuV/m) PK

--

AV

--

Version.1.2 Page 23 of 57 Spurious Emission below 1GHz (30MHz to 1GHz) All the modulation modes have been tested, and the worst result was report as below:

Report No.: S19061201022003 EUT Temperature Pressure Test Voltage notebook 20 1010hPa DC 7.6V from battery Model Name Relative Humidity Test Mode TEV-CE-141-2 48%

Normal Link Polar

(H/V) V V V V V V Frequency Meter Reading Factor Emission Level Limits Margin

(MHz)

(dBuV)

(dB)

(dBuV/m)

(dBuV/m)

(dB) 34.3964 196.5098 341.9786 428.0192 568.6127 857.0247 18.42 28.65 19.22 16.83 16.40 7.33 16.96 9.81 17.48 20.14 23.70 28.65 35.38 38.46 36.70 36.97 40.10 35.98 40.00 43.50 46.00 46.00 46.00 46.00

-4.62

-5.04

-9.30

-9.03

-5.90

-10.02 Remark QP QP QP QP QP QP Remark:

Absolute Level= ReadingLevel+ Factor, Margin= Absolute Level - Limit Version.1.2 Page 24 of 57 Report No.: S19061201022003 Polar

(H/V) H H H H H H Frequency Meter Reading Factor Emission Level Limits Margin

(MHz)

(dBuV)

(dB)

(dBuV/m)

(dBuV/m)

(dB) 196.5098 280.0237 428.0193 513.6331 593.0497 833.3171 29.39 22.14 20.86 14.84 13.60 7.82 9.81 17.37 20.14 22.17 23.60 28.42 39.20 39.51 41.00 37.01 37.20 36.24 43.50 46.00 46.00 46.00 46.00 46.00

-4.30

-6.49

-5.00

-8.99

-8.80

-9.76 Remark QP QP QP QP QP QP Remark:

Absolute Level= ReadingLevel+ Factor, Margin= Absolute Level - Limit Version.1.2 Page 25 of 57 Report No.: S19061201022003 Spurious Emission Above 1GHz (1GHz to 26GHz) EUT:

Temperature:

notebook 20 Model No.:

TEV-CE-141-2 Relative Humidity: 48%

802.11b/g/n20/n40 Test Mode:

Note: A(B) Represent the value of antenna A and A, The worst data is Antenna A ,only shown Antenna A Data. All the modulation modes have been tested, and the worst result was report as below:

Mary Hu Test By:

Frequency Read Level Cable loss Antenna Factor Preamp Factor Emission Level Limits Margin Remark Comment

(MHz)

(dBV)

(dB) dB/m

(dB)

(dBV/m)

(dBV/m)

(dB) 4824.347 62.13 4824.347 41.91 7236.178 56.41 7236.178 44.04 4824.167 65.25 4824.167 45.16 7236.424 63.48 7236.424 45.26 4874.563 60.23 4874.563 42.14 7311.034 60.21 7311.034 42.25 4874.178 61.15 4874.178 41.41 7311.217 57.22 7311.217 42.22 4924.568 60.11 4924.568 41.22 7386.123 60.14 7386.123 41.21 4924.54 4924.54 64.14 41.22 7386.489 59.74 Low Channel (2412 MHz)(802.11 b)--Above 1G 35.59 35.59 36.27 36.27 35.55 35.55 36.27 36.27 44.30 44.30 44.60 44.60 44.30 44.30 44.52 44.52 58.63 38.41 54.56 42.19 61.71 41.62 61.71 43.49 74.00 54.00 74.00 54.00 74.00 54.00 74.00 54.00

-15.37

-15.59

-19.44

-11.81

-12.29

-12.38

-12.29

-10.51 Middle Channel (2437 MHz)(802.11 b)--Above 1G 35.66 35.66 36.50 36.50 35.66 35.66 36.50 36.50 44.20 44.20 44.43 44.43 44.20 44.20 44.43 44.43 56.90 38.81 59.38 41.42 57.82 38.08 56.39 41.39 74.00 54.00 74.00 54.00 74.00 54.00 74.00 54.00 High Channel (2462 MHz)(802.11 b)--Above 1G 35.52 35.52 36.53 36.53 35.52 35.52 36.53 44.21 44.21 44.60 44.60 44.21 44.21 44.60 56.63 37.74 59.17 40.24 60.66 37.74 58.77 74.00 54.00 74.00 54.00 74.00 54.00 74.00

-17.10

-15.19

-14.62

-12.58

-16.18

-15.92

-17.61

-12.61

-17.37

-16.26

-14.83

-13.76

-13.34

-16.26

-15.23 5.21 5.21 6.48 6.48 5.21 5.21 6.48 6.48 5.21 5.21 7.10 7.10 5.21 5.21 7.10 7.10 5.21 5.21 7.10 7.10 5.21 5.21 7.10 Pk AV Pk AV Pk AV Pk AV Pk AV Pk AV Pk AV Pk AV Pk AV Pk AV Pk AV Pk Vertical Vertical Vertical Vertical Horizontal Horizontal Horizontal Horizontal Vertical Vertical Vertical Vertical Horizontal Horizontal Horizontal Horizontal Vertical Vertical Vertical Vertical Horizontal Horizontal Horizontal 7386.489 41.55 7.10 36.53 44.60 40.58 54.00

-13.42 AV Horizontal Note: (1) All Readings are Peak Value (VBW=3MHz) and Peak Value (VBW=10Hz).

(2) Emission Level= Antenna Factor + Cable Loss + Read Level - Preamp Factor

(3) Data of measurement within this frequency range shown -- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured.

(4)802.11b mode is the worst mode. When PK value is lower than the Average value limit, average don't record. Version.1.2 Page 26 of 57 Spurious Emission in Restricted Band 2310MHz -18000MHz All the modulation modes have been tested, and the worst result was report as below:

Report No.: S19061201022003 Version.1.2 Page 27 of 57 FrequencyMeterReadingCableLossAntennaFactorPreampFactorEmissionLevelLimitsMarginDetector(MHz)(dBV)(dB)dB/m(dB)(dBV/m)(dBV/m)(dB)Type2310.0061.102.9727.8043.8048.0774-25.93PkHorizontal2310.0042.262.9727.8043.8029.2354-24.77AVHorizontal2310.0059.252.9727.8043.8046.2274-27.78PkVertical2310.0042.142.9727.8043.8029.1154-24.89AVVertical2390.0060.153.1427.2143.8046.7074-27.3PkVertical2390.0044.543.1427.2143.8031.0954-22.91AVVertical2390.0061.323.1427.2143.8047.8774-26.13PkHorizontal2390.0041.413.1427.2143.8027.9654-26.04AVHorizontal2483.5062.153.5827.7044.0049.4374-24.57PkVertical2483.5043.213.5827.7044.0030.4954-23.51AVVertical2483.5063.263.5827.7044.0050.5474-23.46PkHorizontal2483.5043.163.5827.7044.0030.4454-23.56AVHorizontal2310.0059.512.9727.8043.8046.4874-27.52PkHorizontal2310.0041.592.9727.8043.8028.5654-25.44AVHorizontal2310.0060.232.9727.8043.8047.2074-26.8PkVertical2310.0042.142.9727.8043.8029.1154-24.89AVVertical2390.0058.263.1427.2143.8044.8174-29.19PkVertical2390.0043.253.1427.2143.8029.8054-24.2AVVertical2390.0060.323.1427.2143.8046.8774-27.13PkHorizontal2390.0041.123.1427.2143.8027.6754-26.33AVHorizontal2483.5061.873.5827.7044.0049.1574-24.85PkVertical2483.5041.653.5827.7044.0028.9354-25.07AVVertical2483.5062.643.5827.7044.0049.9274-24.08PkHorizontal2483.5041.323.5827.7044.0028.6054-25.40AVHorizontal2310.0063.222.9727.8043.8050.1974-23.81PkHorizontal2310.0041.142.9727.8043.8028.1154-25.89AVHorizontal2310.0061.912.9727.8043.8048.8874-25.12PkVertical2310.0043.252.9727.8043.8030.2254-23.78AVVertical2390.0063.233.1427.2143.8049.7874-24.22PkVertical2390.0041.473.1427.2143.8028.0254-25.98AVVertical2390.0060.443.1427.2143.8046.9974-27.01PkHorizontal2390.0042.443.1427.2143.8028.9954-25.01AVHorizontal2483.5061.343.5827.7044.0048.6274-25.38PkVertical2483.5043.283.5827.7044.0030.5654-23.44AVVertical2483.5061.343.5827.7044.0048.6274-25.38PkHorizontal2483.5042.113.5827.7044.0029.3954-24.61AVHorizontal2310.0060.312.9727.2143.8046.6974-27.31PkHorizontal2310.0042.212.9727.2143.8028.5954-25.41AVHorizontal2310.0059.922.9727.2143.8046.3074-27.70PkVertical2310.0042.762.9727.2143.8029.1454-24.86AVVertical2390.0060.953.1427.3343.8047.6274-26.38PkVertical2390.0044.373.1427.3343.8031.0454-22.96AVVertical2390.0059.993.1427.3343.8046.6674-27.34PkHorizontal2390.0043.523.1427.3343.8030.1954-23.81AVHorizontal2483.5062.513.5827.7044.0049.7974-24.21PkVertical2483.5043.783.5827.7044.0031.0654-22.94AVVertical2483.5062.523.5827.7044.0049.8074-24.20PkHorizontal2483.5044.163.5827.7044.0031.4454-22.56AVHorizontalComment802.11b802.11g802.11n20802.11n40 Report No.: S19061201022003 Spurious Emission in Restricted Bands 3260MMHz- 18000MHz All the modulation modes have been tested, the worst result was report as below:

802.11 b mode is the worst mode. When PK value is lower than the Average value limit, average don't record. Version.1.2 Page 28 of 57 FrequencyReadingLevelCableLossAntennaFactorPreampFactorEmissionLevelLimitsMarginDetector(MHz)(dBV)(dB)dB/m(dB)(dBV/m)(dBV/m)(dB)Type326062.044.0429.5744.7050.9574-23.05PkVertical326046.224.0429.5744.7035.1354-18.87AVVertical326063.254.0429.5744.7052.1674-21.84PkHorizontal326050.114.0429.5744.7039.0254-14.98AVHorizontal333262.174.2629.8744.4051.9074-22.10PkVertical333246.224.2629.8744.4035.9554-18.05AVVertical333262.244.2629.8744.4051.9774-22.03PkHorizontal333248.444.2629.8744.4038.1754-15.83AVHorizontal1779742.2210.9943.9543.5053.6674-20.34PkVertical1779732.5410.9943.9543.5043.9854-10.02AVVertical1778842.1411.8143.6944.6053.0474-20.96PkHorizontal177882811.8143.6944.6038.9054-15.10AVHorizontalComment 7.3 6DB BANDWIDTH 7.3.1 Applicable Standard Report No.: S19061201022003 According to FCC Part 15.247(a)(2) and KDB 558074 DTS 01 Meas. Guidance v04 7.3.2 Conformance Limit The minimum permissible 6dB bandwidth is 500 kHz. 7.3.3 Measuring Instruments The Measuring equipment is listed in the section 6.3 of this test report. 7.3.4 Test Setup Please refer to Section 6.1 of this test report. 7.3.5 Test Procedure The testing follows KDB 558074 DTS 01 Meas. Guidance v04 The RF output of EUT was connected to the spectrum analyzer by RF cable and attenuator. The path loss was compensated to the results for each measurement. Set to the maximum power setting and enable the EUT transmit continuously. The EUT was operating in controlled its channel. Use the following spectrum analyzer settings:

Span = the frequency band of operation RBW = 100KHz VBW 3*RBW Sweep = auto Detector function = peak Trace = max hold Version.1.2 Page 29 of 57 7.3.6 Test Results Report No.: S19061201022003 EUT:

Temperature:

notebook 20 Model No.:

TEV-CE-141-2 Relative Humidity: 48%

Test Mode:

802.11b/g/n20/n40 Test By:

Mary Hu Note: A(B) Represent the value of antenna A and B, The worst data is Antenna A ,only shown Antenna A Plot. Mode Channel Frequency

(MHz) 6dB bandwidth

(MHz) Antenna A Antenna B Limit

(kHz) Result 802.11b 802.11g Low Middle High Low Middle High Low 802.11n20 Middle High Low Middle High 802.11n40 2412 2437 2462 2412 2437 2462 2412 2437 2462 2422 2437 2452 9.159 9.164 10.04 15.14 15.14 15.16 15.14 15.14 15.15 35.18 35.16 35.15 9.149 9.168 10.06 14.21 15.04 15.17 15.12 15.07 15.06 35.16 35.14 35.16 500 500 500 500 500 500 500 500 500 500 500 500 Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Version.1.2 Page 30 of 57 Report No.: S19061201022003 Test plot

(802.11b) 6dB Bandwidth plot on channel 1

(802.11g) 6dB Bandwidth plot on channel 1

(802.11b) 6dB Bandwidth plot on channel 6

(802.11g) 6dB Bandwidth plot on channel 6

(802.11b) 6dB Bandwidth plot on channel 11

(802.11g) 6dB Bandwidth plot on channel 11 Version.1.2 Page 31 of 57 Report No.: S19061201022003 Test plot

(802.11 N20) 6dB Bandwidth plot on channel 1

(802.11 N40) 6dB Bandwidth plot on channel 3

(802.11 N20) 6dB Bandwidth plot on channel 6

(802.1140) 6dB Bandwidth plot on channel 6

(802.11N20) 6dB Bandwidth plot on channel 11

(802.1140) 6dB Bandwidth plot on channel 9 Version.1.2 Page 32 of 57 7.4 DUTY CYCLE 7.4.1 Applicable Standard Report No.: S19061201022003 According to KDB 558074)6)b), issued April 5, 2017 7.4.2 Conformance Limit No limit requirement. 7.4.3 Measuring Instruments The Measuring equipment is listed in the section 6.3 of this test report. 7.4.4 Test Setup Please refer to Section 6.1 of this test report. 7.4.5 Test Procedure The zero-span mode on a spectrum analyzer or EMI receiver if the response time and spacing between bins on the sweep are sufficient to permit accurate measurements of the on and off times of the transmitted signal. Set the center frequency of the instrument to the center frequency of the transmission. Set RBW OBW if possible; otherwise, set RBW to the largest available value. Set VBW RBW. Set detector = peak or average. The zero-span measurement method shall not be used unless both RBW and VBW are > 50/T and the number of sweep points across duration T exceeds 100. (For example, if VBW and/or RBW are limited to 3 MHz, then the zero-span method of measuring duty cycle shall not be used if T 16.7 microseconds.) The transmitter output is connected to the Spectrum Analyzer. We tested accroding to the zero-span measurement method, 6.0)b) in KDB 558074 The largest availble value of RBW is 8 MHz and VBW is 50 MHz. The zero-span method of measuring duty cycle shall not be used if T 6.25 microseconds. (50/6.25 = 8) The zero-span method was used because all measured T data are > 6.25 microseconds and both RBW and VBW are > 50/T. The RF output of EUT was connected to the spectrum analyzer by RF cable and attenuator. The path loss was compensated to the results for each measurement. Set to the maximum power setting and enable the EUT transmit continuously. The EUT was operating in controlled its channel. Use the following spectrum analyzer settings:

Span = Zero Span RBW = 8MHz(the largest available value) VBW = 8MHz ( RBW) Number of points in Sweep >100 Detector function = peak Trace = Clear write Measure Ttotal and Ton Calculate Duty Cycle = Ton / Ttotal Version.1.2 Page 33 of 57 7.4.6 Test Results Report No.: S19061201022003 EUT:

Temperature:

notebook 20 Model No.:

TEV-CE-141-2 Relative Humidity: 48%

Test Mode:

802.11b/g/n20/n40 Test By:

Mary Hu Antenna A Mode Data rate Channel Ton Ttotal Duty Cycle 802.11b 802.11g 1Mbps 6Mbps 802.11n HT20 MCS0 802.11n HT40 MCS0 6 6 6 6

-

-

-

-

-

-

-

-

Antenna B 100%

100%

100%

100%

Mode Data rate Channel Ton Ttotal Duty Cycle 802.11b 802.11g 1Mbps 6Mbps 802.11n HT20 MCS0 802.11n HT40 MCS0 6 6 6 6

-

-

-

-

-

-

-

-

100%

100%

100%

100%

Duty Cycle Factor

(dB) 0 0 0 0 Duty Cycle Factor

(dB) 0 0 0 0 VBW Setting 10Hz 1KHz 1KHz 3KHz VBW Setting 10Hz 1KHz 1KHz 3KHz Note: All the modulation modes were tested, the data of the worst mode are described in the following table. Version.1.2 Page 34 of 57 7.5 MAXIMUM OUTPUT POWER 7.5.1 Applicable Standard Report No.: S19061201022003 According to FCC Part 15.247(b)(3) and KDB 558074 DTS 01 Meas. Guidance v04 7.5.2 Conformance Limit The maximum peak conducted output power of the intentional radiator for systems using digital modulation in the 2400 - 2483.5 MHz bands shall not exceed: 1 Watt (30dBm). If transmitting antenna of directional gain greater than 6dBi is used, the peak output power from the intentional radiator shall be reduced below the above stated value by the amount in dB that the directional gain of the antenna exceeds 6 dBi. In case of point-to-point operation, the limit has to be reduced by 1dB for every 3dB that the directional gain of the antenna exceeds 6dBi. 7.5.3 Measuring Instruments The following table is the setting of the power meter. Power meter parameter Detector Setting Peak 7.5.4 Test Setup 7.5.5 Test Procedure The maximum peak conducted output power may be measured using a broadband peak RF power meter. The power meter shall have a video bandwidth that is greater than or equal to the DTS bandwidth and shall utilize a fast-responding diode detector. 7.5.6 EUT opration during Test The EUT was programmed to be in continuously transmitting mode. Version.1.2 Page 35 of 57 7.5.7 Test Results Report No.: S19061201022003 EUT:

Temperature:

notebook 20 Model No.:

TEV-CE-141-2 Relative Humidity: 48%

Test Mode:

802.11b/g/n20/n40 Test By:

Mary Hu Test Frequency Channel

(MHz) Power Setting Duty Cycle Factor

(dB) 1 6 11 1 6 11 1 6 11 3 6 9 2412 2437 2462 2412 2437 2462 2412 2437 2462 2422 2437 2452 Default Default Default Default Default Default Default Default Default Default Default Default 0 0 0 0 0 0 0 0 0 0 0 0 Peak Output Power(dBm) Total ANT A 802.11b 13.5 14.1 14.1 802.11g 13.5 13.6 13.8 802.11n HT20 13.5 13.6 13.8 802.11n HT40 12.9 13.3 13.5 ANT B

(dBm) 13.2 13.6 13.7 13.6 12.9 13.0 12.9 13.8 13.4 12.6 12.6 13.2

-

-

-

-

-

-

-

-

-

-

-

-

LIMIT

(dBm) Verdict 30 30 30 30 30 30 30 30 30 30 30 30 PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS

-

-

-

-

-

-

-

-

-

-

-

-

Version.1.2 Page 36 of 57 7.6 POWER SPECTRAL DENSITY 7.6.1 Applicable Standard Report No.: S19061201022003 According to FCC Part 15.247(e) and KDB 558074 DTS 01 Meas. Guidance v04 7.6.2 Conformance Limit The transmitter power spectral density conducted from the transmitter to the antenna shall not be greater than 8 dBm in any 3 kHz band during any time interval of continuous transmission. 7.6.3 Measuring Instruments The Measuring equipment is listed in the section 6.3 of this test report. 7.6.4 Test Setup Please refer to Section 6.1 of this test report. 7.6.5 Test Procedure This procedure shall be used if maximum peak conducted output power was used to demonstrate compliance, and is optional if the maximum conducted (average) output power was used to demonstrate compliance. a) Set analyzer center frequency to DTS channel center frequency. b) Set the span to 1.5 times the DTS bandwidth. c) Set the RBW to: 3 kHz RBW 100 kHz. d) Set the VBW 3 *RBW. e) Detector = peak. f) Sweep time = auto couple. g) Trace mode = max hold. h) Allow trace to fully stabilize. i) Use the peak marker function to determine the maximum amplitude level within the RBW. j) If measured value exceeds limit, reduce RBW (no less than 3 kHz) and repeat. Version.1.2 Page 37 of 57 7.6.6 Test Results Report No.: S19061201022003 EUT:

Temperature:

notebook 20 Model No.:

TEV-CE-141-2 Relative Humidity: 48%

Test Mode:

802.11b/g/n20/n40 Test By:

Mary Hu Note: EUT has antenna A and B, The worst data is Antenna A ,only shown Antenna A Plot. Test Channel Frequency

(MHz) Duty Cycle Factor(dB) Peak Power Density

(dBm/3KHz) Antenna A Antenna B Limit

(dBm/3KHz) Verdict 1 6 11 1 6 11 1 6 11 3 6 9 2412 2437 2462 2412 2437 2462 2412 2437 2462 2422 2437 2452 0 0 0 0 0 0 0 0 0 0 0 0 802.11b

-12.66

-13.29

-12.81 802.11g

-14.66

-14.66

-13.00 802.11n HT20

-14.63

-13.04

-13.42 802.11n HT40

-15.54

-17.54

-17.70

-13.38

-12.06

-12.73

-13.46

-13.05

-12.88

-13.73

-12.72

-12.82

-16.31

-15.60

-14.91 8 8 8 8 8 8 8 8 8 8 8 8 PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS Version.1.2 Page 38 of 57 Report No.: S19061201022003 Test plot

(802.11b) PSD plot on channel 1

(802.11g) PSD plot on channel 1

(802.11b) PSD plot on channel 6

(802.11b) PSD plot on channel 11

(802.11g) PSD plot on channel 6

(802.11g) PSD plot on channel 11 Version.1.2 Page 39 of 57 Date: 25.JUN.2018 10:05:15Date: 25.JUN.2018 10:13:24Date: 25.JUN.2018 10:06:40Date: 25.JUN.2018 10:12:39Date: 25.JUN.2018 10:10:27Date: 25.JUN.2018 10:11:37 Report No.: S19061201022003 Test plot

(802.11n20) PSD plot on channel 1

(802.11n40) PSD plot on channel 3

(802.11n20) PSD plot on channel 6

(802.11n20) PSD plot on channel 11

(802.11n40) PSD plot on channel 6

(802.11n40) PSD plot on channel 9 Version.1.2 Page 40 of 57 Date: 25.JUN.2018 10:15:26Date: 25.JUN.2018 10:22:49Date: 25.JUN.2018 10:16:08Date: 25.JUN.2018 10:23:32Date: 25.JUN.2018 10:16:57Date: 25.JUN.2018 10:24:19 Report No.: S19061201022003 7.7 CONDUCTED BAND EDGE MEASUREMENT 7.7.1 Applicable Standard According to FCC Part 15.247(d) and KDB 558074 DTS 01 Meas. Guidance v04 7.7.2 Conformance Limit In any 100 kHz bandwidth outside the frequency band in which the spread spectrum or digitally modulated intentional radiator is operating, the radio frequency power that is produced by the intentional radiator shall be at least 20 dB below that in the 100 kHz bandwidth within the band that contains the highest level of the desired power, based on either an RF conducted or a radiated measurement, provided the transmitter demonstrates compliance with the peak conducted power limits. If the transmitter complies with the conducted power limits based on the use of RMS averaging over a time interval, as permitted under paragraph (b)(3) of this section, the attenuation required under this paragraph shall be 30 dB instead of 20 dB. 7.7.3 Measuring Instruments The Measuring equipment is listed in the section 6.3 of this test report. 7.7.4 Test Setup Please refer to Section 6.1 of this test report. 7.7.5 Test Procedure The testing follows FCC KDB Publication No. 558074 D01 DTS Meas. Guidance v04. The RF output of EUT was connected to the spectrum analyzer by RF cable and attenuator. The path loss was compensated to the results for each measurement. Set to the maximum power setting and enable the EUT transmit continuously. The EUT was operating in controlled its channel. Set RBW to 100 kHz and VBW of spectrum analyzer to 300 kHz with a convenient frequency span including 100 kHz bandwidth from band edge. Measure the highest amplitude appearing on spectral display and set it as a reference level. Plot the graph with marking the highest point and edge frequency. Repeat above procedures until all measured frequencies were complete. Version.1.2 Page 41 of 57 7.7.6 Test Results Report No.: S19061201022003 EUT:

Temperature:

notebook 20 Model No.:

TEV-CE-141-2 Relative Humidity: 48%

Test Mode:

802.11b/g/n20/n40 Test By:

Mary Hu Note: EUT has antenna A and B, The worst data is Antenna A, only shown Antenna A Plot. Test plot For 802.11b: Band Edge-Low Channel 802.11g: Band Edge-Low Channel 802.11b: Band Edge-High Channel 802.11g: Band Edge-High Channel Version.1.2 Page 42 of 57 Date: 22.JUN.2018 15:36:02Date: 22.JUN.2018 15:37:52Date: 22.JUN.2018 15:43:56Date: 22.JUN.2018 15:42:45 Report No.: S19061201022003 Test plot For 802.11n20: Band Edge-Low Channel 802.11n40: Band Edge-Low Channel 802.11n20: Band Edge-High Channel 802.11n40: Band Edge-High Channel Version.1.2 Page 43 of 57 Date: 22.JUN.2018 15:39:04Date: 22.JUN.2018 15:48:21Date: 22.JUN.2018 15:41:14Date: 22.JUN.2018 15:46:21 Report No.: S19061201022003 7.8 SPURIOUS RF CONDUCTED EMISSIONS 7.8.1 Conformance Limit 1. Below -20dB of the highest emission level in operating band. 2. Fall in the restricted bands listed in section 15.205. The maximum permitted average field strength is listed in section 15.209. 7.8.2 Measuring Instruments The Measuring equipment is listed in the section 6.3 of this test report. 7.8.3 Test Setup Please refer to Section 6.1 of this test report. 7.8.4 Test Procedure The Spurious RF conducted emissions compliance of RF radiated emission should be measured by following the guidance in ANSI C63.10-2013 with respect to maximizing the emission by rotating the EUT, measuring the emission while the EUT is situated in three orthogonal planes (if appropriate), adjusting the measurement antenna height and polarization etc. Set RBW=100kHz and VBW= 300KHz to measure the peak field strength , and measure frequency range from 9KHz to 26.5GHz. 7.8.5 Test Results Remark: The measurement frequency range is from 9KHz to the 10th harmonic of the fundamental frequency. The lowest, middle and highest channels are tested to verify the spurious emissions and bandege measurement data. Note: EUT has antenna A and B, The worst data is Antenna A , only shown Antenna A Plot. Version.1.2 Page 44 of 57 Report No.: S19061201022003 Test Plot 802.11b on channel 01 802.11b on channel 01 802.11b on channel 01 802.11b on channel 01 Version.1.2 Page 45 of 57 Date: 22.JUN.2018 15:53:38Date: 22.JUN.2018 15:54:24Date: 22.JUN.2018 15:54:55Date: 22.JUN.2018 15:55:32 Report No.: S19061201022003 Test Plot 802.11b on channel 06 802.11b on channel 06 802.11b on channel 06 802.11b on channel 06 Version.1.2 Page 46 of 57 Date: 22.JUN.2018 15:57:47Date: 22.JUN.2018 15:57:47Date: 22.JUN.2018 15:58:24Date: 22.JUN.2018 15:59:00 Report No.: S19061201022003 Test Plot 802.11b on channel 11 802.11b on channel 11 802.11b on channel 11 802.11b on channel 11 Version.1.2 Page 47 of 57 Date: 22.JUN.2018 16:00:41Date: 22.JUN.2018 16:01:32Date: 22.JUN.2018 16:02:01Date: 22.JUN.2018 16:02:37 Report No.: S19061201022003 Test Plot 802.11g on channel 01 802.11g on channel 01 802.11g on channel 01 802.11g on channel 01 Version.1.2 Page 48 of 57 Date: 22.JUN.2018 16:05:10Date: 22.JUN.2018 16:06:56Date: 22.JUN.2018 16:07:32Date: 22.JUN.2018 16:11:37 Report No.: S19061201022003 Test Plot 802.11g on channel 06 802.11g on channel 06 802.11g on channel 06 802.11g on channel 06 Version.1.2 Page 49 of 57 Date: 22.JUN.2018 16:09:38Date: 22.JUN.2018 16:10:20Date: 22.JUN.2018 16:11:00Date: 22.JUN.2018 16:11:37 Report No.: S19061201022003 Test Plot 802.11g on channel 11 802.11g on channel 11 802.11g on channel 11 802.11g on channel 11 Version.1.2 Page 50 of 57 Date: 22.JUN.2018 16:13:14Date: 22.JUN.2018 16:14:03Date: 22.JUN.2018 16:14:40Date: 22.JUN.2018 16:15:15 Report No.: S19061201022003 Test Plot 802.11n20 on channel 01 802.11n20 on channel 01 802.11 n20 on channel 01 802.11 n20 on channel 01 Version.1.2 Page 51 of 57 Date: 22.JUN.2018 16:18:15Date: 22.JUN.2018 16:18:54Date: 22.JUN.2018 16:19:23Date: 22.JUN.2018 16:20:01 Report No.: S19061201022003 Test Plot 802.11 n20 on channel 06 802.11 n20 on channel 06 802.11 n20 on channel 06 802.11 n20 on channel 06 Version.1.2 Page 52 of 57 Date: 22.JUN.2018 16:21:26Date: 22.JUN.2018 16:22:05Date: 22.JUN.2018 16:22:41Date: 22.JUN.2018 16:23:36 Report No.: S19061201022003 Test Plot 802.11 n20 on channel 11 802.11 n20 on channel 11 802.11 n20 on channel 11 802.11 n20 on channel 11 Version.1.2 Page 53 of 57 Date: 22.JUN.2018 16:25:05Date: 22.JUN.2018 16:25:52Date: 22.JUN.2018 16:26:25Date: 22.JUN.2018 16:27:00 Report No.: S19061201022003 Test Plot 802.11n40 on channel 03 802.11n40 on channel 03 802.11n40 on channel 03 802.11n40 on channel 03 Version.1.2 Page 54 of 57 Date: 22.JUN.2018 16:29:29Date: 22.JUN.2018 16:30:22Date: 22.JUN.2018 16:31:02Date: 22.JUN.2018 16:31:37 Report No.: S19061201022003 Test Plot 802.11n40 on channel 06 802.11 n40 on channel 06 802.11 n40 on channel 06 802.11 n40 on channel 06 Version.1.2 Page 55 of 57 Date: 22.JUN.2018 16:32:50Date: 22.JUN.2018 16:33:41Date: 22.JUN.2018 16:34:16Date: 22.JUN.2018 16:34:54 Report No.: S19061201022003 Test Plot 802.11 n40 on channel 9 802.11 n40 on channel 9 802.11 n40 on channel 9 802.11 n40 on channel 9 Version.1.2 Page 56 of 57 Date: 22.JUN.2018 16:36:15Date: 22.JUN.2018 16:36:50Date: 22.JUN.2018 16:37:18Date: 22.JUN.2018 16:38:01 7.9 ANTENNA APPLICATION 7.9.1 Antenna Requirement Report No.: S19061201022003 15.203 requirement: For intentional device, according to 15.203: an intentional radiator shall be designed to ensure that no antenna other than that furnished by the responsible party shall be used with the device. 7.9.2 Result The EUT antenna is permanent attached FPC antenna(Gain:2 dBi). It comply with the standard requirement. END OF REPORT Version.1.2 Page 57 of 57

 

 

Page 1 of 58 Report No.: S19061201022004 FCC SAR EVALUATION REPORT In accordance with the requirements of FCC 47 CFR Part 2(2.1093), ANSI/IEEE C95.1-1992 and IEEE Std 1528-2013 Product Name notebook Trademark N/A Model Name TEV-CE-141-2 Serial Model W1640B, EV-CE-141-2 Report No. S19061201022004 FCC ID 2ACPR-CE141-2 Prepared for SHENZHEN BMORN TECHNOLOGY CO.,LTD. 6/F, Hengfang Verteran Industrial Park, Xingye Road, Xixiang, Baoan, Shenzhen, China Prepared by Shenzhen NTEK Testing Technology Co., Ltd. 1/F, Building E, Fenda Science Park, Sanwei Community, Xixiang Street, Baoan District, Shenzhen 518126 P.R.China. Tel.: +86-755-6115 6588 Fax.: +86-755-6115 6599 Website: http://www.ntek.org.cn Page 2 of 58 Report No.: S19061201022004 TEST RESULT CERTIFICATION Applicants name ................. : SHENZHEN BMORN TECHNOLOGY CO.,LTD. Address .................................. :

Baoan, Shenzhen, China 6/F, Hengfang Verteran Industrial Park, Xingye Road, Xixiang, Manufacturer's Name ........... : SHENZHEN BMORN TECHNOLOGY CO.,LTD. Address .................................. :

Baoan, Shenzhen, China 6/F, Hengfang Verteran Industrial Park, Xingye Road, Xixiang, Product description Product name ......................... : notebook Trademark ............................ : N/A Model and/or type reference . : TEV-CE-141-2 Serial Model ........................... : W1640B, EV-CE-141-2 FCC 47 CFR Part 2(2.1093) Standards ............................. :

ANSI/IEEE C95.1-1992 IEEE Std 1528-2013 Published RF exposure KDB procedures This device described above has been tested by Shenzhen NTEK. In accordance with the measurement methods and procedures specified in IEEE Std 1528-2013 and KDB 865664 D01. Testing has shown that this device is capable of compliance with localized specific absorption rate

(SAR) specified in FCC 47 CFR Part 2(2.1093) and ANSI/IEEE C95.1-1992. The test results in this report apply only to the tested sample of the stated device/equipment. Other similar device/equipment will not necessarily produce the same results due to production tolerance and measurement uncertainties. This report shall not be reproduced except in full, without the written approval of Shenzhen NTEK, this document may be altered or revised by Shenzhen NTEK, personal only, and shall be noted in the revision of the document. Date of Test Date (s) of performance of tests ............. : Jun. 22, 2018 Date of Issue .......................................... : Jul. 17, 2019 Test Result .............................................. : Pass Note: All test data of this report are based on the original test report SER180611004001E, dated by 2018-07-06. Prepared By

(Test Engineer) Approved By

(Lab Manager)

:

:

(Cheng Jiawen)

(Sam Chen) Page 3 of 58 Report No.: S19061201022004 Revision History REV. DESCRIPTION ISSUED DATE REMARK Rev.1.0 Initial Test Report Release Jul. 06, 2018 Cheng Jiawen Rev.2.0 Update the model Jul. 17, 2019 Cheng Jiawen Page 4 of 58 Report No.: S19061201022004 TABLE OF CONTENTS 1. General Information .......................................................................................... 6 1.1. RF exposure limits .................................................................................. 6 1.2. Statement of Compliance ....................................................................... 7 1.3. EUT Description ..................................................................................... 7 1.4. Test specification(s) ................................................................................ 8 1.5. Ambient Condition ................................................................................. 8 2. SAR Measurement System ................................................................................. 9 2.1. SATIMO SAR Measurement Set-up Diagram ........................................... 9 2.2. Robot ................................................................................................... 10 2.3. E-Field Probe ........................................................................................ 11 2.3.1. E-Field Probe Calibration ................................................................ 11 2.4. SAM phantoms .................................................................................... 12 2.4.1. Technical Data ................................................................................ 12 2.5. Device Holder ...................................................................................... 14 2.6. Test Equipment List .............................................................................. 15 3. SAR Measurement Procedures ........................................................................ 17 3.1. Power Reference.................................................................................. 17 3.2. Area scan & Zoom scan ........................................................................ 17 3.3. Description of interpolation/extrapolation scheme ............................. 19 3.4. Volumetric Scan ................................................................................... 19 3.5. Power Drift .......................................................................................... 19 4. System Verification Procedure ......................................................................... 19 4.1. Tissue Verification ................................................................................ 19 4.1.1. Tissue Dielectric Parameter Check Results ..................................... 20 4.2. System Verification Procedure ............................................................. 20 4.2.1. System Verification Results ............................................................ 21 5. SAR Measurement variability and uncertainty ................................................. 22 5.1. SAR measurement variability ............................................................... 22 5.2. SAR measurement uncertainty ............................................................. 22 6. RF Exposure Positions ...................................................................................... 22 7. RF Output Power ............................................................................................. 23 7.1. WLAN Output Power ............................................................................ 23 7.2. Bluetooth Output Power ...................................................................... 23 8. Antenna Location ............................................................................................. 24 9. Stand-alone SAR test exclusion ........................................................................ 25 10. SAR Results ................................................................................................... 26 10.1. SAR measurement results .................................................................. 26 10.1.1. SAR measurement Result of WLAN 2.4G ...................................... 26 10.2. Simultaneous Transmission Possibilities ............................................. 27 Page 5 of 58 Report No.: S19061201022004 11. Appendix A. Photo documentation ............................................................... 28 12. Appendix B. System Check Plots ................................................................... 29 13. Appendix C. Plots of High SAR Measurement ............................................... 32 14. Appendix D. Calibration Certificate ............................................................... 37 Page 6 of 58 Report No.: S19061201022004 1. General Information 1.1. RF exposure limits

(A).Limits for Occupational/Controlled Exposure (W/kg) Whole-Body Partial-Body Hands, Wrists, Feet and Ankles 0.4 8.0 20.0

(B).Limits for General Population/Uncontrolled Exposure (W/kg) Whole-Body Partial-Body Hands, Wrists, Feet and Ankles 0.08 1.6 4.0 NOTE: Whole-Body SAR is averaged over the entire body, partial-body SAR is averaged over any 1 gram 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. Occupational/Controlled Environments:

Are defined as locations where there is exposure that may be incurred by people who are aware of the potential for exposure, (i.e. as a result of employment or occupation). General Population/Uncontrolled Environments:

Are defined as locations where there is the exposure of individuals who have no knowledge or control of their exposure. NOTE HEAD AND TRUNK LIMIT 1.6 W/kg APPLIED TO THIS EUT 1.2. Statement of Compliance Page 7 of 58 Report No.: S19061201022004 The maximum results of Specific Absorption Rate (SAR) found during testing for TEV-CE-141-2 are as follows. Band WLAN 2.4G Max Reported SAR Value(W/kg) 1-g Body

(Separation distance of 0mm) 0.116 NOTE: This device is in compliance with Specific Absorption Rate (SAR) for general population /

uncontrolled exposure limits (1.6 W/kg) specified in FCC 47 CFR Part 2(2.1093) and ANSI/IEEE C95.1-1992, and had been tested in accordance with the measurement methods and procedures specified in IEEE Std 1528-2013 & Published RF exposure KDB procedures. 1.3. EUT Description Device Information Product Name Trademark Model Name Serial Model FCC ID Device Phase notebook N/A TEV-CE-141-2 W1640B, EV-CE-141-2 2ACPR-CE141-2 Identical Prototype Exposure Category General population / Uncontrolled environment Antenna Type FPC Antenna Battery Information DC 7.6V, 5000mAh Device Operating Configurations Supporting Mode(s) Test Modulation Operating Frequency Range(s) WLAN 2.4G, Bluetooth WLAN(DSSS/OFDM), Bluetooth(GFSK, /4-DQPSK, 8DPSK) Band WLAN 2.4G Bluetooth Tx (MHz) Rx (MHz) 2412-2462 2402-2480 Test Channels (low-mid-high) 1-3-6-9-11(WLAN 2.4G) Page 8 of 58 Report No.: S19061201022004 1.4. Test specification(s) FCC 47 CFR Part 2(2.1093) ANSI/IEEE C95.1-1992 IEEE Std 1528-2013 KDB 865664 D01 SAR measurement 100 MHz to 6 GHz KDB 865664 D02 RF Exposure Reporting KDB 447498 D01 General RF Exposure Guidance KDB 248227 D01 802.11 Wi-Fi SAR KDB 616217 D04 SAR for laptop and tablets 1.5. Ambient Condition Ambient temperature Relative Humidity 20C 24C 30% 70%

Page 9 of 58 Report No.: S19061201022004 2. SAR Measurement System 2.1. SATIMO SAR Measurement Set-up Diagram These measurements were performed with the automated near-field scanning system OPENSAR from SATIMO. The system is based on a high precision robot (working range: 901 mm), which positions the probes with a positional repeatability of better than 0.03 mm. The SAR measurements were conducted with dosimetric probe (manufactured by SATIMO), designed in the classical triangular configuration and optimized for dosimetric evaluation. The first step of the field measurement is the evaluation of the voltages induced on the probe by the device under test. Probe diode detectors are nonlinear. Below the diode compression point, the output voltage is proportional to the square of the applied E-field; above the diode compression point, it is linear to the applied E-field. The compression point depends on the diode, and a calibration procedure is necessary for each sensor of the probe. The Keithley multimeter reads the voltage of each sensor and send these three values to the PC. The corresponding E field value is calculated using the probe calibration factors, which are stored in the working directory. This evaluation includes linearization of the diode characteristics. The field calculation is done separately for each sensor. Each component of the E field is displayed on the

''Dipole Area Scan Interface'' and the total E field is displayed on the ''3D Interface''

2.2. Robot Page 10 of 58 Report No.: S19061201022004 The SATIMO SAR system uses the high precision robots from KUKA. For the 6-axis controller system, the robot controller version (KUKA) from KUKA is used. The KUKA robot series have many features that are important for our application:

High precision (repeatability 0.03 mm) High reliability (industrial design) Jerk-free straight movements Low ELF interference (the closed metallic construction shields against motor control fields) Page 11 of 58 Report No.: S19061201022004 2.3. E-Field Probe This E-field detection probe is composed of three orthogonal dipoles linked to special Schottky diodes with low detection thresholds. The probe allows the measurement of electric fields in liquids such as the one defined in the IEEE and CENELEC standards. For the measurements the Specific Dosimetric E-Field Probe SN 08/16 EPGO287 with following specifications is used

- Dynamic range: 0.01-100 W/kg

- Tip Diameter : 2.5 mm

- Distance between probe tip and sensor center: 1 mm

- Distance between sensor center and the inner phantom surface: 2 mm (repeatability better than 1 mm).

- Probe linearity: 0.08 dB

- Axial isotropy: <0.25 dB

- Hemispherical Isotropy: <0.50 dB

- Calibration range: 650MHz to 5900MHz for head & body simulating liquid.

- Lower detection limit: 7mW/kg Angle between probe axis (evaluation axis) and surface normal line: less than 30. 2.3.1. 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 0.25dB. The sensitivity parameters (Norm X, Norm Y, and Norm Z), the diode compression parameter (DCP) and the conversion factor (Conv F) of the probe are tested. The calibration data can be referred to appendix D of this report. 2.4. SAM phantoms Page 12 of 58 Report No.: S19061201022004 Photo of SAM phantom SN 16/15 SAM119 The SAM phantom is used to measure the SAR relative to people exposed to electro-magnetic field radiated by mobile phones. 2.4.1. Technical Data Serial Number SN 16/15 SAM119 Shell thickness Filling volume Dimensions Length:1000 mm 2 mm 0.2 mm 27 liters Width:500 mm Height:200 mm Positionner Material Gelcoat with fiberglass Permittivity Loss Tangent 3.4 0.02 Page 13 of 58 Report No.: S19061201022004 Serial Number Left Head Right Head Flat Part SN 16/15 SAM119 2 3 4 5 6 7 8 9 2.02 2.05 2.07 2.08 2.05 2.05 2.07 2.08 2 3 4 5 6 7 8 9 2.08 2.06 2.07 2.08 2.07 2.05 2.06 2.06 1 2 3 4 5 6 7

-

2.09 2.06 2.08 2.10 2.10 2.07 2.07

-

The test, based on ultrasonic system, allows measuring the thickness with an accuracy of 10 m. 2.5. Device Holder Page 14 of 58 Report No.: S19061201022004 The positioning system allows obtaining cheek and tilting position with a very good accuracy. In compliance with CENELEC, the tilt angle uncertainty is lower than 1 degree. Serial Number Holder Material Permittivity Loss Tangent SN 16/15 MSH100 Delrin 3.7 0.005 Page 15 of 58 Report No.: S19061201022004 2.6. Test Equipment List This table gives a complete overview of the SAR measurement equipment. Devices used during the test described are marked Manufacturer Name of Equipment Type/Model Serial Number MVG E FIELD PROBE SSE2 SN 08/16 EPGO287 Calibration Last Cal. Due Date Sep. 18, Sep. 17, 2017 2018 MVG 750 MHz Dipole SID750 MVG 835 MHz Dipole SID835 MVG 900 MHz Dipole SID900 MVG 1800 MHz Dipole SID1800 MVG 1900 MHz Dipole SID1900 MVG 2000 MHz Dipole SID2000 MVG 2450 MHz Dipole SID2450 MVG 2600 MHz Dipole SID2600 SN 03/15 DIP Apr. 19, Apr. 18, 0G750-355 2018 2021 SN 03/15 DIP Apr. 19, Apr. 18, 0G835-347 2018 2021 SN 03/15 DIP Apr. 19, Apr. 18, 0G900-348 2018 2021 SN 03/15 DIP Apr. 19, Apr. 18, 1G800-349 2018 2021 SN 03/15 DIP Apr. 19, Apr. 18, 1G900-350 2018 2021 SN 03/15 DIP Apr. 19, Apr. 18, 2G000-351 2018 2021 SN 03/15 DIP Apr. 19, Apr. 18, 2G450-352 2018 2021 SN 03/15 DIP Apr. 19, Apr. 18, 2G600-356 2018 2021 MVG 5000 MHz Dipole SWG5500 SN 13/14 WGA 33 Apr. 19, Apr. 18, 2018 2021 MVG Liquid measurement Kit SCLMP SN 21/15 OCPG 72 NCR NCR MVG Power Amplifier N.A AMPLISAR_28/14_003 NCR KEITHLEY Millivoltmeter 2000 4072790 NCR NCR NCR R&S R&S HP Universal radio communication CMU200 117858 tester Wideband radio communication CMW500 103917 tester Network Analyzer 8753D 3410J01136 Agilent PSG Analog Signal Generator E8257D MY51110112 Aug. 07, Aug. 06, 2017 2018 Oct. 26, Oct. 25, 2017 2018 Aug. 07, Aug. 06, 2017 2018 Aug. 07, Aug. 06, 2017 2018 Page 16 of 58 Report No.: S19061201022004 Agilent Agilent Agilent Power meter E4419B MY45102538 Power sensor E9301A MY41495644 Power sensor E9301A US39212148 MCLI/USA Directional Coupler CB11-20 0D2L51502 Aug. 07, Aug. 06, 2017 2018 Aug. 07, Aug. 06, 2017 2018 Aug. 07, Aug. 06, 2017 2018 Aug. 07, Aug. 06, 2017 2018 Page 17 of 58 Report No.: S19061201022004 3. SAR 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/Bluetooth power measurement, use engineering software to configure EUT WLAN/Bluetooth 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/Bluetooth output power.

<SAR measurement>

(a) Use base station simulator to configure EUT WWAN transmission in radiated connection, and engineering software to configure EUT WLAN/Bluetooth continuously transmission, at maximum RF power, in the highest power channel.

(b) Place the EUT in the positions as Appendix A demonstrates.

(c) Set scan area, grid size and other setting on the OPENSAR 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 3.1. Power Reference 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. 3.2. Area scan & Zoom scan The area scan is a 2D scan to find the hot spot location on the DUT. The zoom scan is a 3D scan above the hot spot to calculate the 1g and 10g SAR value. Page 18 of 58 Report No.: S19061201022004 Measurement of the SAR distribution with a grid of 8 to 16 mm * 8 to 16 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. 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. From the scanned SAR distribution, identify the position of the maximum SAR value, in addition identify the positions of any local maxima with SAR values within 2 dB of the maximum value that will not be within the zoom scan of other peaks; additional peaks shall be measured only when the primary peak is within 2 dB of the SAR compliance limit (e.g., 1 W/kg for 1,6 W/kg 1 g limit, or 1,26 W/kg for 2 W/kg, 10 g limit). Area scan & Zoom scan scan parameters extracted from FCC KDB 865664 D01 SAR measurement 100 MHz to 6 GHz. 3.3. Description of interpolation/extrapolation scheme Page 19 of 58 Report No.: S19061201022004 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 minimise 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 1 mm 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. 3.4. Volumetric Scan The volumetric scan consists to a full 3D scan over a specific area. This 3D scan is useful form multi Tx SAR measurement. Indeed, it is possible with OpenSAR to add, point by point, several volumetric scan to calculate the SAR value of the combined measurement as it is define in the standard IEEE1528 and IEC62209. 3.5. Power Drift All SAR testing is under the EUT install full charged battery and transmit maximum output power. In OpenSAR measurement software, the power reference measurement and power drift measurement procedures are used for monitoring the power drift of EUT 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 V/m. If the power drifts more than 5%, the SAR will be retested. 4. System Verification Procedure 4.1. Tissue Verification The following tissue formulations are provided for reference only as some of the parameters have not been thoroughly verified. The composition of ingredients may be modified accordingly to achieve the desired target tissue parameters required for routine SAR evaluation. Ingredients (% of weight) Frequency Band

(MHz) Water NaCl Head Tissue 750 835 900 1800 1900 2000 2450 2600 5200 5800 34.40 34.40 34.40 55.36 55.36 57.87 57.87 57.87 65.53 65.53 0.79 0.79 0.79 0.35 0.35 0.16 0.16 0.16 0.00 0.00 1,2-Propanediol 64.81 64.81 64.81 0.00 0.00 0.00 0.00 0.00 0.00 0.00 Triton X-100 0.00 0.00 0.00 30.45 30.45 19.97 19.97 19.97 24.24 24.24 DGBE 0.00 0.00 0.00 13.84 13.84 22.00 22.00 22.00 10.23 10.23 Page 20 of 58 Report No.: S19061201022004 Ingredients (% of weight) Frequency Band

(MHz) Water NaCl Body Tissue 750 835 900 1800 1900 2000 2450 2600 5200 5800 50.30 50.30 50.30 69.91 69.91 71.88 71.88 71.88 79.54 79.54 0.60 0.60 0.60 0.13 0.13 0.16 0.16 0.16 0.00 0.00 1,2-Propanediol 49.10 49.10 49.10 0.00 0.00 0.00 0.00 0.00 0.00 0.00 Triton X-100 0.00 0.00 0.00 9.99 9.99 19.97 19.97 19.97 11.24 11.24 DGBE 4.1.1. 0.00 0.00 0.00 19.97 19.97 7.99 7.99 7.99 9.22 9.22 Tissue Dielectric Parameter Check Results The simulating liquids should be checked at the beginning of a series of SAR measurements to determine of the dielectric parameter are within the tolerances of the specified target values. The measured conductivity and relative permittivity should be within 5% of the target values. Measured Frequency

(MHz) 2450 Tissue Type Body 2450 r (5%) 52.70

(S/m)

(5%) 1.95

(50.07~55.33)

(1.85~2.04) Target Tissue Measured Tissue r

(S/m) Temp. Liquid Test Date 52.42 1.98 21.3 C Jun. 22, 2018 NOTE: The dielectric parameters of the tissue-equivalent liquid should be measured under similar ambient conditions and within 2 C of the conditions expected during the SAR evaluation to satisfy protocol requirements. 4.2. System Verification Procedure The system verification is performed for verifying the accuracy of the complete measurement system and performance of the software. The dipole is connected to the signal source consisting of signal generator and amplifier via a directional coupler, N-connector cable and adaption to SMA. It is fed with a power of 100mW (below 5GHz) or 100mW (above 5GHz). To adjust this power a power meter is used. The power sensor is connected to the cable before the system verification to measure the power at this point and do adjustments at the signal generator. At the outputs of the directional coupler both return loss as well as forward power are controlled during the system verification to make sure that emitted power at the dipole is kept constant. This can also be checked by the power drift measurement after the test (result on plot). The system verification is shown as below picture:

Page 21 of 58 Report No.: S19061201022004 4.2.1. System Verification Results Comparing to the original SAR value provided by SATIMO, the verification data should be within its specification of 10%. Below table shows the target SAR and measured SAR after normalized to 1W input power. The table below indicates the system performance verification can meet the variation criterion and the plots can be referred to Appendix B of this report. System Verification 2450MHz Body Target SAR (1W) Measured SAR

(10%)

(Normalized to 1W) Liquid 1-g (W/Kg) 10-g (W/Kg) 49.32 22.89

(44.39~54.25)

(20.60~25.17) 1-g 10-g Temp.

(W/Kg)

(W/Kg) Test Date 51.50 23.61 21.3 C Jun. 22, 2018 Page 22 of 58 Report No.: S19061201022004 5. SAR Measurement variability and uncertainty 5.1. SAR measurement variability Per KDB865664 D01 SAR measurement 100 MHz to 6 GHz, SAR measurement variability must be assessed for each frequency band, which is determined by the SAR probe calibration point and tissue-equivalent medium used for the device measurements. The additional measurements are repeated after the completion of all measurements requiring the same head or body tissue-equivalent medium in a frequency band. The test device should be returned to ambient conditions (normal room temperature) with the battery fully charged before it is re-mounted on the device holder for the repeated measurement(s) to minimize any unexpected variations in the repeated results. 1) Repeated measurement is not required when the original highest measured SAR is < 0.80 W/kg;

steps 2) through 4) do not apply. 2) When the original highest measured SAR is 0.80 W/kg, repeat that measurement once. 3) Perform a second repeated measurement only if the ratio of largest to smallest SAR for the original and first repeated measurements is > 1.20 or when the original or repeated measurement is 1.45 W/kg (~ 10% from the 1-g SAR limit). 4) Perform a third repeated measurement only if the original, first or second repeated measurement is 1.5 W/kg and the ratio of largest to smallest SAR for the original, first and second repeated measurements is > 1.20. 5.2. SAR measurement uncertainty Per KDB865664 D01 SAR Measurement 100 MHz to 6 GHz, when the highest measured 1-g SAR within a frequency band is < 1.5 W/kg, the extensive SAR measurement uncertainty analysis described in IEEE Std 1528-2013 is not required in SAR reports submitted for equipment approval. The equivalent ratio (1.5/1.6) is applied to extremity and occupational exposure conditions. 6. RF Exposure Positions Refer to KDB616217 D04, The required minimum test separation distance for incorporating transmitters and antennas into laptop, notebook and netbook computer displays is determined with the display screen opened at an angle of 90 degree to the keyboard compartment. When antennas are incorporated in the keyboard section of a laptop computer, SAR is required for the bottom surface of the keyboard. Provided tablet use conditions are not supported by the laptop computer, SAR tests for bystander exposure from the edges of the keyboard and display screen of laptop computers are generally not required. Page 23 of 58 Report No.: S19061201022004 7. RF Output Power 7.1. WLAN Output Power Mode Channel Frequency

(MHz) Tune-up Antenna A Antenna B Output Power

(dBm) Tune-up Output Power

(dBm) 802.11b 802.11g 802.11n

(HT20) 802.11n

(HT40) 1 6 11 1 6 11 1 6 11 3 6 9 2412 2437 2462 2412 2437 2462 2412 2437 2462 2422 2437 2452 14.5 14.5 14.5 14.5 14.5 14.5 14.5 14.5 14.5 14.5 14.5 14.5 7.2. Bluetooth Output Power 13.5 14.1 14.1 13.5 13.6 13.8 13.5 13.6 13.8 12.9 13.3 13.5 14.0 14.0 14.0 14.0 14.0 14.0 14.0 14.0 14.0 14.0 14.0 14.0 13.2 13.6 13.7 13.6 12.9 13.0 12.9 13.8 13.4 12.6 12.6 13.2 Data Rates 1M 2M 3M Output Power (dBm) Tune-up 4.50 0.50 0.50 Channel 39 3.80

-0.14

-0.08 78 2.84

-1.09

-0.95 0 4.12 0.19 0.32 Channel Tune-up Output Power (dBm) 0 19 39 3.00 3.00 3.00 2.66 2.38 1.52 BR+EDR BLE Page 24 of 58 Report No.: S19061201022004 8. Antenna Location Main Chain 1 (Connect to Antenna A for WLAN 2.4G) Aux Chain 2 (Connect to Antenna B for WLAN 2.4G and BT) 9. Stand-alone SAR test exclusion Page 25 of 58 Report No.: S19061201022004 Refer to FCC KDB 447498D01, the 1-g SAR and 10-g SAR test exclusion thresholds for 100 MHz to 6 GHz at test separation distances 50 mm are determined by:

[(max. power of channel, including tune-up tolerance, mW)/(min. test separation distance, mm)][f(GHZ)]

3.0 for 1-g SAR and 7.5 for 10-g extremity SAR, where:

f(GHZ) is the RF channel transmit frequency in GHz Power and distance are rounded to the nearest mW and mm before calculation The result is rounded to one decimal place for comparison When the minimum test separation distance is < 5 mm, a distance of 5 mm is applied to determine SAR test exclusion. Mode Pmax Pmax Distance f Calculation SAR Exclusion SAR test

(dBm)

(mW)

(mm)

(GHz) Result threshold exclusion Bluetooth 4.5 2.82 5 2.480 0.89 3.0 Yes NOTE: Standalone SAR test exclusion for Bluetooth When standalone SAR test exclusion applies to an antenna that transmits simultaneously with other antennas, the standalone SAR must be estimated according to following to determine simultaneous transmission SAR test exclusion:

[(max. power of channel, including tune-up tolerance, mW)/(min. test separation distance, mm)] *

[f(GHZ)/x] W/kg for test separation distances 50mm, where x = 7.5 for 1-g SAR and x = 18.75 for 10-g SAR. When the minimum test separation distance is < 5 mm, a distance of 5 mm is applied to determine SAR test exclusion. Mode Position Pmax

(dBm) Bluetooth Body 4.5 Pmax

(mW) 2.82 Distance f

(mm)

(GHz) x 5 2.480 7.5 Estimated SAR

(W/Kg) 0.118 NOTE: Estimated SAR calculation for Bluetooth Page 26 of 58 Report No.: S19061201022004 10. SAR Results 10.1. SAR measurement results 10.1.1. SAR measurement Result of WLAN 2.4G Test SAR Value Power Conducted Tune-up Scaled Antenna A channel Test Mode

(W/kg) Drift power power SAR 1g

/Freq. 1g 10g

(5%)

(dBm)

(dBm)

(W/Kg) Test Position of bottom surface of 6/2437 802.11 b 0.106 0.051 2.64 14.10 14.50 0.116 the keyboard with 0mm Test Position of back surface of 6/2437 802.11 b 0.001 0.001 0.00 14.10 14.50 0.001 the display screen with 0mm Test SAR Value Power Conducted Tune-up Scaled Antenna B channel Test Mode

(W/kg) Drift power power SAR 1g

/Freq. 1g 10g

(5%)

(dBm)

(dBm)

(W/Kg) Test Position of bottom surface of 11/2462 802.11 b 0.079 0.035 3.00 13.70 14.00 0.085 the keyboard with 0mm Test Position of back surface of 11/2462 802.11 b 0.001 0.001 0.00 13.70 14.00 0.001 the display screen with 0mm NOTE: Because the back surface of the display screen is metal, so the SAR value is very smaller. Page 27 of 58 Report No.: S19061201022004 10.2. Simultaneous Transmission Possibilities The WLAN 2.4GHz of this device is only supports SISO. Page 28 of 58 Report No.: S19061201022004 11. Appendix A. Photo documentation Refer to appendix Test Setup photo---SAR Page 29 of 58 Report No.: S19061201022004 12. Appendix B. System Check Plots MEASUREMENT 1 - System Performance Check - 2450MHz Table of contents Page 30 of 58 Report No.: S19061201022004 MEASUREMENT 1 A. Experimental conditions. Area Scan ZoomScan Phantom Device Position Band Channels Signal dx=12mm dy=12mm, h= 5.00 mm 7x7x7,dx=5mm dy=5mm dz=5mm,Complete/ndx=12mm dy=12mm, h= 5.00 mm Validation plane Dipole CW2450 Middle CW (Crest factor: 1.0) B. SAR Measurement Results Frequency (MHz) 2450.000000 Relative permittivity (real part) 52.422600 Relative permittivity

(imaginary part) Conductivity (S/m) Variation (%) 14.524020 1.980000

-0.100000 SURFACE SAR VOLUME SAR Maximum location: X=0.00, Y=1.00 SAR Peak: 9.48 W/kg SAR 10g (W/Kg) SAR 1g (W/Kg) 2.360897 5.150207 Page 31 of 58 Report No.: S19061201022004 Z (mm) SAR

(W/Kg) 0.00 4.00 9.00 9.4704 5.7974 3.0139 14.00 1.5876 19.00 0.8500 24.00 0.4527 29.00 0.2431 3D screen shot Hot spot position Page 32 of 58 Report No.: S19061201022004 13. Appendix C. Plots of High SAR Measurement Table of contents MEASUREMENT 1 - Antenna A for WLAN 2.4G MEASUREMENT 2 - Antenna B for WLAN 2.4G Page 33 of 58 Report No.: S19061201022004 MEASUREMENT 1 A. Experimental conditions. Area Scan ZoomScan Phantom Device Position Band Channels Signal dx=12mm dy=12mm, h= 5.00 mm 7x7x7,dx=5mm dy=5mm dz=5mm,Complete/ndx=12mm dy=12mm, h= 5.00 mm Validation plane Body IEEE 802.11b ISM Middle IEEE802.b (Crest factor: 1.0) B. SAR Measurement Results Frequency (MHz) 2437.000000 Relative permittivity (real part) 52.487701 Relative permittivity

(imaginary part) Conductivity (S/m) Variation (%) 14.476120 1.959394 2.640000 SURFACE SAR VOLUME SAR Maximum location: X=-15.00, Y=-37.00 SAR Peak: 0.21 W/kg SAR 10g (W/Kg) SAR 1g (W/Kg) 0.050751 0.106462 Page 34 of 58 Report No.: S19061201022004 Z (mm) 0.00 4.00 9.00 SAR

(W/Kg) 0.2167 0.1172 0.0431 3D screen shot 14.00 0.0278 19.00 0.0154 24.00 0.0103 29.00 0.0202 Hot spot position Page 35 of 58 Report No.: S19061201022004 MEASUREMENT 2 A. Experimental conditions. Area Scan ZoomScan Phantom Device Position Band Channels Signal dx=12mm dy=12mm, h= 5.00 mm 7x7x7,dx=5mm dy=5mm dz=5mm,Complete/ndx=12mm dy=12mm, h= 5.00 mm Validation plane Body IEEE 802.11b ISM High IEEE802.b (Crest factor: 1.0) B. SAR Measurement Results Frequency (MHz) 2462.000000 Relative permittivity (real part) 52.337199 Relative permittivity

(imaginary part) Conductivity (S/m) Variation (%) 13.699300 1.993760 3.000000 SURFACE SAR VOLUME SAR Maximum location: X=-15.00, Y=34.00 SAR Peak: 0.16 W/kg SAR 10g (W/Kg) SAR 1g (W/Kg) 0.034615 0.078953 Page 36 of 58 Report No.: S19061201022004 Z (mm) SAR

(W/Kg) 0.00 4.00 9.00 0.1542 0.0857 0.0401 14.00 0.0232 19.00 0.0107 24.00 0.0085 29.00 0.0023 3D screen shot Hot spot position Page 37 of 58 Report No.: S19061201022004 14. Appendix D. Calibration Certificate Table of contents E Field Probe - SN 08/16 EPGO287 2450 MHz Dipole - SN 03/15 DIP 2G450-352 Page 38 of 58 Report No.: S19061201022004 Page 39 of 58 Report No.: S19061201022004 Page 40 of 58 Report No.: S19061201022004 Page 41 of 58 Report No.: S19061201022004 Page 42 of 58 Report No.: S19061201022004 Page 43 of 58 Report No.: S19061201022004 Page 44 of 58 Report No.: S19061201022004 Page 45 of 58 Report No.: S19061201022004 Page 46 of 58 Report No.: S19061201022004 Page 47 of 58 Report No.: S19061201022004 Page 48 of 58 Report No.: S19061201022004 Page 49 of 58 Report No.: S19061201022004 Page 50 of 58 Report No.: S19061201022004 Page 51 of 58 Report No.: S19061201022004 Page 52 of 58 Report No.: S19061201022004 Page 53 of 58 Report No.: S19061201022004 Page 54 of 58 Report No.: S19061201022004 Page 55 of 58 Report No.: S19061201022004 Page 56 of 58 Report No.: S19061201022004 Page 57 of 58 Report No.: S19061201022004 Page 58 of 58 Report No.: S19061201022004 _______________________________________END _____________________________________

 

 

SHENZHEN BMORN TECHNOLOGY CO.,LTD. 6/F,Hengfang Verteran Industrial Park, Xingye Road, Xixiang, Bao'an, Shenzhen, China. Date: Jul 25, 2019 FCC ID: 2ACPR-CE141-2 Model Number: TEV-CE-141-2W1640B, EV-CE-141-2 To:

Federal Communication Commission Authorization and Evaluation Division 7435 Oakland Mills Road Columbia, MD 21048 To Whom It May Concern, We, SHENZHEN BMORN TECHNOLOGY CO.,LTD., declare that this EUT (FCC ID:

2ACPR-T2IN1-116-2) will conduct FCC compliance testing, the SDOC part recognized test lab(Shenzhen NTEK Testing Technology Co., Ltd.( ShenZhen Lab.). 1/F, Building E, Fenda Science Park, Sanwei Community,Xixiang Street Baoan District, Shenzhen 518126 P.R. China) Please contact me if you have any question. Sincerely,

(Signed) Name / Title: Tang shaofeng / Manager Company: SHENZHEN BMORN TECHNOLOGY CO.,LTD. Address: 6/F,Hengfang Verteran Industrial Park, Xingye Road, Xixiang, Bao'an, Shenzhen, China. Phone: 0755-85266966 Fax: 0755-85266966 Email: tsf@bmorn.com