SMT295C Multi-band GSM/WCDMA/LTE phone with Bluetooth, WLAN I19Z60845-WMD02 Part222427 WCDMA Rev1 Test Report

Company: SAMSUNG Electronics Co., Ltd.

FCC ID: ZCASMT295C

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I19Z60845-WMD02 Part222427 WCDMA Rev1

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TEST REPORT No. I19Z60845-WMD02 for amsung Electronics Co Ltd MULTI-BAND GSM/WCDMA/LTE PHONE WITH BLUETOOTH, WLAN Model Name: SM-T295C FCC ID: ZCASMT295C with Hardware Version: REV0.4 Software Version: T295CZCU0ASEA Issued Date: 2019-07-25 Note:

The test results in this test report relate only to the devices specified in this report. This report shall not be reproduced except in full without the written approval of CTTL. The report must not be used by the client to claim product certification, approval, or endorsement by NVLAP, NIST, or any agency of the U.S.Government. Test Laboratory:

CTTL, Telecommunication Technology Labs, CAICT No. 52, Huayuan North Road, Haidian District, Beijing, P. R. China 100191. Tel:+86(0)10-62304633-2512, Fax:+86(0)10-62304633-2504 Email: cttl_terminals@caict.ac.cn, website: www.caict.ac.cn No. I19Z60845-WMD02 Page 2of 45 REPORT HISTORY Report Number Revision I19Z60845-WMD02 I19Z60845-WMD02 Rev.0 Rev.1 Description 1st edition 2nd edition Issue Date 2019-07-17 2019-07-25 Removed all the results for WCDMA IV No. I19Z60845-WMD02 Page 3of 45 CONTENTS 1. TEST LABORATORY ......................................................................................................................... 4 1.1. INTRODUCTION & ACCREDITATION ...................................................................................... 4 1.2. TESTING LOCATION .................................................................................................................... 4 1.3. TESTING ENVIRONMENT ........................................................................................................... 4 1.4. PROJECT DATA .............................................................................................................................. 4 1.5. SIGNATURE ..................................................................................................................................... 5 2. CLIENT INFORMATION ................................................................................................................... 6 2.1. APPLICANT INFORMATION ....................................................................................................... 6 2.2. MANUFACTURER INFORMATION ............................................................................................ 6 3. EQUIPMENT UNDERTEST (EUT) AND ANCILLARY EQUIPMENT (AE) .............................. 7 3.1. ABOUT EUT ..................................................................................................................................... 7 3.2. INTERNAL IDENTIFICATION OF EUT USED DURING THE TEST .................................... 7 3.3. INTERNAL IDENTIFICATION OF AE USED DURING THE TEST ....................................... 7 3.4. NORMAL ACCESSORY SETTING ............................................................................................... 8 3.5. GENERAL DESCRIPTION ............................................................................................................ 8 4. REFERENCE DOCUMENTS ............................................................................................................. 9 4.1. REFERENCE DOCUMENTS FOR TESTING ............................................................................. 9 5. LABORATORY ENVIRONMENT ................................................................................................... 10 6. SUMMARY OF TEST RESULTS ...................................................................................................... 11 6.1. SUMMARY OF TEST RESULTS .................................................................................................. 11 6.2. EXPLANATION OF RE-USE OF TEST DATA .......................................................................... 12 7. TEST EQUIPMENTS UTILIZED .................................................................................................... 13 ANNEX A: MEASUREMENT RESULTS ................................................................................................ 14 A.1 OUTPUT POWER ........................................................................................................................... 14 A.2 EMISSION LIMIT ........................................................................................................................... 19 A.3 FREQUENCY STABILITY ............................................................................................................ 25 A.4 OCCUPIED BANDWIDTH ............................................................................................................ 27 A.5 EMISSION BANDWIDTH ............................................................................................................. 32 A.6 BAND EDGE COMPLIANCE ........................................................................................................ 36 A.7 CONDUCTED SPURIOUS EMISSION ......................................................................................... 39 A.8 PEAK-TO-AVERAGE POWER RATIO ......................................................................................... 44 ANNEX B: ACCREDITATION CERTIFICATE ..................................................................................... 45 No. I19Z60845-WMD02 Page 4of 45 1. Test Laboratory 1.1. Introduction & Accreditation Telecommunication Technology Labs, CAICT is an ISO/IEC 17025:2005 accredited test laboratory under NATIONAL VOLUNTARY LABORATORY ACCREDITATION PROGRAM (NVLAP) with lab code 600118-0, and is also an FCC accredited test laboratory (CN5017), and ISED accredited test laboratory (CN0066). The detail accreditation scope can be found on NVLAP website. 1.2. Testing Location Location 1: CTTL(huayuan North Road) Address:

No. 52, Huayuan North Road, Haidian District, Beijing, P. R. China 100191 Location 2: CTTL(Shouxiang) Address:

No. 51 Shouxiang Science Building, Xueyuan Road, Haidian District, Beijing, P. R. China 100191 Location 3:CTTL (BDA) Address:

No.18A, Kangding Street, Beijing Economic-Technology Development Area, Beijing, P. R. China 100176 1.3. Testing Environment Normal Temperature:

Relative Humidity:

15-35 20-75%

1.4. Project data Testing Start Date:

Testing End Date:

2019-04-15 2019-07-16 No. I19Z60845-WMD02 Page 5of 45 1.5. Signature Dong Yuan

(Prepared this test report) Zhou Yu

(Reviewed this test report) Zhao Hui Lin Deputy Director of the laboratory

(Approved this test report) No. I19Z60845-WMD02 Page 6of 45 2. Client Information 2.1. Applicant Information Company Name:

Samsung Electronics Co Ltd Address /Post:

19 Chapin Rd.,Building D Pine Brook, NJ 07058 Contact:

Email:

Telephone:

Fax:

Jenni Chun NA NA NA 2.2. Manufacturer Information Company Name:

Jiaxing Yongrui Electron Technology Co., Ltd. Address /Post:

Contact:

Email:

Telephone:

Fax:

NO.777 Yazhong Road, Daqiao Town, Nanhu District, Jiaxing City ,Zhejiang NA NA NA NA No. I19Z60845-WMD02 Page 7of 45 3. Equipment UnderTest (EUT) and Ancillary Equipment (AE) 3.1. About EUT Description MULTI-BAND GSM/WCDMA/LTE PHONE WITH BLUETOOTH, Model Name FCC ID Antenna WLAN SM-T295C ZCASMT295C Embedded Output power 24.28dBm maximum EIRP measured for WCDMA Band II Extreme vol. Limits 3.6VDC to 4.2VDC (nominal: 3.8VDC) Extreme temp. Tolerance

-10C to +55C Note: Components list, please refer to documents of the manufacturer; it is also included in the original test record of CTTL. 3.2. Internal Identification of EUT used during the test EUT ID*

IMEI HW Version SW Version Date of receipt UT05a 356221100013137 REV0.4 T295CZCU0ASEA 2019-05-16

*EUT ID: is used to identify the test sample in the lab internally. 3.3. Internal Identification of AE used during the test AE ID* Description AE1 AE2 Battery Battery AE1 Model Manufacturer Capacitance AE2 Model Manufacturer Capacitance SWD-WT-N8 Sunwoda Electronic Co., Ltd . 4980mAh SCUD-WT-N8 SCUD(Fujian) Electronic Co., Ltd. 4980mAh

*AE ID: is used to identify the test sample in the lab internally. No. I19Z60845-WMD02 Page 8of 45 3.4. Normal Accessory setting Fully charged battery was used during the test. 3.5. General Description The Equipment Under Test (EUT) is a model of MULTI-BAND GSM/WCDMA/LTE PHONE WITH BLUETOOTH, WLAN with embedded antenna. Manual and specifications of the EUT were provided to fulfil the test. No. I19Z60845-WMD02 Page 9of 45 4. Reference Documents 4.1. Reference Documents for testing The following documents listed in this section are referred for testing. Reference Title FCC Part 24 PERSONAL COMMUNICATIONS SERVICES FCC Part 22 PUBLIC MOBILE SERVICES ANSI/TIA-603-E Land Mobile FM or PM Communications Equipment Measurement and Performance Standards Version 10-1-18 Edition 10-1-18 Edition 2016 ANSI/TIA-102.CAAA DIGITAL C4FMCQPSK TRANSCEIVER MEASUREMENT 2016

-E METHODS ANSI C63.26 American National Standard for Compliance Testing of 2015 Transmitters Used in Licensed Radio Services KDB 971168 D01 MEASUREMENT GUIDANCE FOR CERTIFICATION OF v03r01 LICENSED DIGITAL TRANSMITTERS No. I19Z60845-WMD02 Page 10of 45 5. LABORATORY ENVIRONMENT Control room / conducted chamber did not exceed following limits along the EMC testing:

Temperature Relative humidity Shielding effectiveness Electrical insulation Min. = 15 , Max. = 35 Min. =20 %, Max. = 80 %

> 110 dB

>2 M Ground system resistance Fully-anechoic chamber 2 (8.6 meters6.1 meters3.85 meters) did not exceed following limits along the EMC testing:

< 0.5 Temperature Relative humidity Shielding effectiveness Electrical insulation Ground system resistance Min. = 15 , Max. = 30 Min. = 35 %, Max. = 60 %

> 110 dB

>2 M

< 1 Site voltage standing-wave ratio (SVSWR) Between 0 and 6 dB, from 1GHz to 18GHz Uniformity of field strength Semi-anechoic chamber 2 / Fully-anechoic chamber 3 (10 meters6.7 meters6.15 meters) did not exceed following limits along the EMC testing:

Between 0 and 6 dB, from 80 to 4000 MHz Temperature Relative humidity Shielding effectiveness Electrical insulation Ground system resistance Normalised site attenuation (NSA) Min. = 15 , Max. = 30 Min. = 35 %, Max. = 60 %

> 100 dB

>2 M

< 0.5

<3.5 dB, 3 m distance Site voltage standing-wave ratio (SVSWR) Between 0 and 6 dB, from 1GHz to 18GHz Uniformity of field strength Between 0 and 6 dB, from 80 to 3000 MHz No. I19Z60845-WMD02 Page 11of 45 6. SUMMARY OF !

6.1. Summary of test results WCDMA Band II Items Test Name 1 2 3 4 5 6 7 8 Output Power Emission Limit Frequency Stability Occupied Bandwidth Emission Bandwidth Band Edge Compliance Conducted Spurious Emission Peak-to-Average Power Ratio WCDMA Band V Items Test Name Output Power Emission Limit Frequency Stability Occupied Bandwidth Emission Bandwidth Band Edge Compliance Conducted Spurious Emission 1 2 3 4 5 6 7 Terms used in Verdict column Clause in FCC rules 24.232 2.1051/24.238 2.1055 2.1049 24.238 24.238 24.238 24.232 Clause in FCC rules 22.913 2.1051/22.917 2.1055 2.1049 22.917 22.917 22.917 Verdict BR BR BR BR BR BR BR BR Verdict P P BR BR BR BR BR P NP NA BR F Pass, The EUT complies with the essential requirements in the standard. Not Perform, The test was not performed by CTTL Not Applicable,The test was not applicable Re-use test data from basic model report. Fail, The EUT does not comply with the essential requirements in the standard No. I19Z60845-WMD02 Page 12of 45 6.2. Explanation of re-use of test data The Equipment Under Test (EUT) model SM-T295C (FCC ID: ZCASMT295C) is a variant product of SM-T295 (FCC ID: ZCASMT295), according to the declaration of changes provided by the applicant and FCC KDB publication 484596 D01, spot check measurements were performed on this device, all the test results are derived from test report No.I19Z60464-WMD02. Please refer Annex A for detail spot check verification data and reference data.the spot check test results are consistent with basic model. For detail differences between two models please refer the Declaration of Changes document. 7. Test Equipments Utilized No. I19Z60845-WMD02 Page 13of 45 NO. Description TYPE series number MANUFACTURE CAL DUE DATE Calibration interval 1 2 3 EMI Antenna VULB9163 9163-235 Schwarzbeck 2019-11-20 EMI Antenna EMI Antenna Universal Radio 3117 3117 00058889 ETS-Lindgren 2020-01-12 00119024 ETS-Lindgren 2020-02-25 1 year 1 year 1 year 4 Communication CMU200 108646 R&S 2020-01-03 1 year 5 6 7 8 9 Tester Spectrum Analyzer FSU26 200030 R&S 2020-06-03 1 year EMI Antenna 9117 177 Schwarzbeck 2019-08-22 Signal Generator SMF100A 101295 Climate chamber SH-242 93008556 Test Receiver E4440A MY48250642 R&S ESPEC Agilent 2019-11-27 2019-12-21 2020-03-18 1 year 1 year 2 year 1 year Universal Radio 10 Communication CMW500 143008 R&S 2019-11-26 1 year Tester 11 Power Amplifier 5S1G4 0341863 AR

No. I19Z60845-WMD02 Page 14of 45 ANNEX A: MEASUREMENT RESULTS A.1 OUTPUT POWER A.1.1 Summary During the process of testing, the EUT was controlled via communication tester to ensure max power transmission and proper modulation. This result contains peak output power and EIRP measurements for the EUT. In all cases, output power is within the specified limits. A.1.2 Conducted A.1.2.1 Method of Measurements The EUT was set up for the max output power with pseudo random data modulation. These measurements were done at 3 frequencies, 1852.4 MHz, 1880.0MHz and 1907.6MHz for WCDMA Band II;826.4MHz, 836.6MHz and 846.6MHz for WCDMA Band V. WCDMA Band II Measurement result-QPSK WCDMA

(Band II) CH 9262 9400 9538 Frequency(MHz) output power(dBm) 1852.4 1880.0 1907.6 23.39 23.41 23.44 WCDMA Band V Measurement result-QPSK WCDMA

(Band V) CH 4132 4183 4233 Frequency(MHz) output power(dBm) 826.4 836.6 846.6 23.50 23.60 23.48 No. I19Z60845-WMD02 Page 15of 45 A.1.3 Radiated A.1.3.1 Description This is the test for the maximum radiated power from the EUT. Rule Part 24.232(b) specifies, "Mobile/portable stations are limited to 2 watts e.i.r.p. Peak power"

and 24.232(c) specifies that "Peak transmit power must be measured over any interval of continuous transmission using instrumentation calibrated in terms of an rms-equivalent voltage."

Rule Part 22.913(a) specifies The ERP of mobile transmitters and auxiliary test transmitters must not exceed 7 Watts. A.1.3.2 Method of Measurement The measurements procedures in TIA-603E-2016 are used. 1. EUT was placed on a 1.5 meter high non-conductive stand at a 3 meter test distance from the receive antenna. A receiving antenna was placed on the antenna mast 3 meters from the EUT for emission measurements. The height of receiving antenna is 1.5m. The test setup refers to figure below. Detected emissions were maximized at each frequency by rotating the EUT through 360and adjusting the receiving antenna polarization. The radiated emission measurements of all transmit frequencies in three channels (High, Middle, Low) were measured with RMS detector. 2. The EUT is then put into continuously transmitting mode at its maximum power level during the test. And the maximum value of the receiver should be recorded as (Pr). 3. The EUT shall be replaced by a substitution antenna. The test setup refers to figure below. In the chamber, a substitution antenna for the frequency band of interest is placed at the reference point of the chamber. An RF Signal source for the frequency band of interest is connected to the substitution antenna with a cable that has been constructed to not interfere No. I19Z60845-WMD02 Page 16of 45 with the radiation pattern of the antenna. A power (PMea) is applied to the input of the substitution antenna, and adjusts the level of the signal generator output until the value of the receiver reach the previously recorded (Pr). The power of signal source (PMea) is recorded. The test should be performed by rotating the test item and adjusting the receiving antenna polarization. 4. An amplifier should be connected to the Signal Source output port. And the cable should be connecting between the Amplifier and the Substitution Antenna. The cable loss (Pcl) ,the Substitution Antenna Gain (Ga) and the Amplifier Gain (PAg) should be recorded after test. The measurement results are obtained as described below:

Power (EIRP)=PMea-PAg-Pcl -Ga 5. This value is EIRP since the measurement is calibrated using an antenna of known gain (2.15 dBi) and known input power. 6. ERP can be calculated from EIRP by subtracting the gain of the dipole, ERP = EIRP -2.15dBi. Spot check Measurement Results:

WCDMA Band V-ERP Limits WCDMA Band V Measurement result-QPSK No. I19Z60845-WMD02 Page 17of 45 Burst Peak ERP (dBm) 38.45dBm Frequency(MHz) PMea(dBm) Pcl(dB) PAg(dB) Ga (dBi) ERP(dBm) Limit(dBm) Margin(dB) Polarization Correction

(dB) 826.40

-20.52 2.25 45.76 0.93 2.15 21.77 38.45 16.68 836.60

-20.10 2.26 45.66 0.82 2.15 21.97 38.45 16.48 846.60

-20.49 2.26 45.56 0.81 2.15 21.47 38.45 16.98 H H H ANALYZER SETTINGS: RBW = VBW = 5MHz Frequency: 826.40MHz Peak ERP(dBm)=PMea(-20.10dBm)-Pcl(2.26dB)-PAg(-45.66dB)-Ga (-0.82dB)-2.15dB= 21.97dBm No. I19Z60845-WMD02 Page 18of 45 Reference Measurement Results from basic model:

WCDMA Band II-EIRP Limits WCDMA Band II Measurement result-QPSK Burst Peak EIRP (dBm) 33dBm (2W) Frequency(MHz) PMea(dBm) Pcl(dB) PAg(dB) Ga (dBi) EIRP(dBm) Limit(dBm) Margin(dB) Polarization 1852.40

-22.50 2.84 43.75 4.87 23.28 33.00 9.72 1880.00

-21.94 2.85 43.75 4.82 23.78 33.00 9.22 1907.60

-21.38 2.88 43.77 4.77 24.28 33.00 8.72 H H H ANALYZER SETTINGS: RBW = VBW = 5MHz Frequency: 1907.60MHz Peak EIRP(dBm)=PMea(-21.38)-Pcl(2.88dB)-PAg(-43.77dB)-Ga (-4.77dB)= 24.28dBm WCDMA Band V-ERP Limits WCDMA Band V Measurement result-QPSK Burst Peak ERP (dBm) 38.45dBm Frequency(MHz) PMea(dBm) Pcl(dB) PAg(dB) Ga (dBi) ERP(dBm) Limit(dBm) Margin(dB) Polarization Correction

(dB) 826.40

-21.02 2.25 45.76 0.93 2.15 21.27 38.45 17.18 836.60

-21.21 2.26 45.66 0.82 2.15 20.86 38.45 17.59 846.60

-21.81 2.26 45.56 0.81 2.15 20.15 38.45 18.30 H H H ANALYZER SETTINGS: RBW = VBW = 5MHz Frequency: 826.40MHz Peak ERP(dBm)=PMea(-21.02dBm)-Pcl(2.25dB)-PAg(-45.76dB)-Ga (-0.93dB)-2.15dB= 21.27dBm Note: Expanded measurement uncertainty is U = 2.84 dB, k = 2. No. I19Z60845-WMD02 Page 19of 45 A.2 EMISSION LIMIT A.2.1 Measurement Method The measurements procedures in TIA-603E-2016 are used. The spectrum was scanned from 30 MHz to the 10th harmonic of the highest frequency generated within the equipment. The resolution bandwidth is set as outlined in Part 24.238, Part 22.917. The spectrum was scanned with the mobile station transmitting at carrier frequencies that pertain to low, mid and high channels of WCDMA Band II and WCDMA Band V. The procedure of radiated spurious emissions is as follows:

1. EUT was placed on a 1.5 meter high non-conductive stand at a 3 meter test distance from the receive antenna. A receiving antenna was placed on the antenna mast 3 meters from the EUT for emission measurements. The height of receiving antenna is 1.5m. The test setup refers to figure below. Detected emissions were maximized at each frequency by rotating the EUT through 360and adjusting the receiving antenna polarization. The radiated emission measurements of all non-harmonic and harmonics of the transmit frequency through the 10th harmonic were measured with peak detector. 2. The EUT is then put into continuously transmitting mode at its maximum power level during the test. And the maximum value of the receiver should be recorded as (Pr). 3. The EUT shall be replaced by a substitution antenna. The test setup refers to figure below. In the chamber, a substitution antenna for the frequency band of interest is placed at the reference point of the chamber. An RF Signal source for the frequency band of interest is connected to the substitution antenna with a cable that has been constructed to not interfere with the radiation pattern of the antenna. A power (PMea) is applied to the input of the No. I19Z60845-WMD02 Page 20of 45 substitution antenna, and adjusts the level of thesignal generator output until the value of the receiver reach thepreviously recorded (Pr). The power of signal source (PMea) is recorded. The test should be performed by rotating the test item and adjusting the receiving antenna polarization. 4. The Path loss (Ppl) between the Signal Source with the Substitution Antenna and the Substitution Antenna Gain (Ga) should be recorded after test. A amplifier should be connected in for the test. The Path loss (Ppl) is the summation of the cable loss and the gain of the amplifier. The measurement results are obtained as described below:

Power (EIRP)=PMea-Ppl-Ga 5. This value is EIRP since the measurement is calibrated using an antenna of known gain (2.15 dBi) and known input power. 6. ERP can be calculated from EIRP by subtracting the gain of the dipole, ERP = EIRP -2.15dBi. A.2.2 Measurement Limit Part 24.238 and Part 22.917 specify that the power of any emission outside of the authorized operating frequency ranges must be attenuated below the transmitting power (P) by a factor of at least 43 + 10log(P) dB. The specification that emissions shall be attenuated below the transmitter power (P) by at least 43

+ 10 log (P) dB, translates in the relevant power range (1 to 0.001 W) to -13 dBm. At 1 W the specified minimum attenuation becomes 43 dB and relative to a 30 dBm (1 W) carrier becomes a limit of -13 dBm. At 0.001 W (0 dBm) the minimum attenuation is 13 dB, which again yields a limit of -13 dBm. In this way a translation of the specification from relative to absolute terms is carried out. A.2.3 Measurement Results Radiated emissions measurements were made only at the upper, middle, and lower carrier frequencies of WCDMA Band II (1852.4 MHz, 1880.0MHz and 1907.6MHz) and WCDMA Band V(826.4MHz, 836.6MHz and 846.6MHz). It was decided that measurements at these three carrier frequencies would be sufficient to demonstrate compliance with emissions limits because it was seen that all the significant spurs occur well outside the band and no radiation was seen from a carrier in one block of the WCDMA Band II and WCDMA Band V into any of the other blocks. The equipment must still, however, meet emissions requirements with the carrier at all frequencies over which it is capable of operating and it is the manufacturer's responsibility to verify this. A.2.4 Measurement Results Table Frequency Channel Frequency Range Result No. I19Z60845-WMD02 Page 21of 45 WCDMA Band V WCDMA Band II A.2.5 Sweep Table Working Frequency WCDMA Band V WCDMA Band II Low Middle High Low Middle High 30MHz-10GHz 30MHz-10GHz 30MHz-10GHz 30MHz-20GHz 30MHz-20GHz 30MHz-20GHz Pass Pass Pass Pass Pass Pass Subrange

(GHz) 0.03~1 1-2 2~5 5~8 8~10 0.03~1 1-2 2~5 5~8 8~11 11~14 14~18 18~20 RBW VBW Sweep time (s) 100KHz 300KHz 1 MHz 1 MHz 1 MHz 1 MHz 3 MHz 3 MHz 3 MHz 3 MHz 100KHz 300KHz 1 MHz 1 MHz 1 MHz 1 MHz 1 MHz 1 MHz 1 MHz 3 MHz 3 MHz 3 MHz 3 MHz 3 MHz 3 MHz 3 MHz 10 2 3 3 3 10 2 3 3 3 3 3 2 No. I19Z60845-WMD02 Page 22of 45 Spot check Measurement Results:

WCDMA BAND V Mode Channel 4132/826.4MHz Frequency(MHz) PMea(dBm) Path Antenna Correction Peak Limit Loss(dB) Gain(dBi)

(dB) ERP(dBm)

(dBm) Margin(dB) Polarization 1654.01 2479.00 3303.02 4102.02 4927.01 5765.01

-54.19

-53.51

-54.63

-55.50

-55.63

-54.84 3.57 4.60 5.29 6.04 6.73 7.24 5.22 6.04 7.73 9.00 9.83 10.55 2.15 2.15 2.15 2.15 2.15 2.15

-54.69

-13.00 41.69

-54.22

-13.00

-54.34

-13.00

-54.69

-13.00

-54.68

-13.00

-53.68

-13.00 41.22 41.34 41.69 41.68 40.68 H V H H V H WCDMA BAND V Mode Channel 4183/836.6MHz Frequency(MHz) PMea(dBm) Path Antenna Correction Peak Limit Loss(dB) Gain(dBi)

(dB) ERP(dBm)

(dBm) Margin(dB) Polarization 1675.01 2501.00 3336.02 4176.02 5005.01 5851.01

-53.67

-53.47

-54.55

-55.11

-56.14

-53.63 3.58 4.63 5.31 6.15 6.59 7.24 5.18 6.10 7.81 9.08 9.91 10.53 2.15 2.15 2.15 2.15 2.15 2.15

-54.22

-13.00

-54.15

-13.00

-54.20

-13.00

-54.33

-13.00

-54.97

-13.00

-52.49

-13.00 41.22 41.15 41.20 41.33 41.97 39.49 H H H V H V WCDMA BAND V Mode Channel 4233/846.6MHz Frequency(MHz) PMea(dBm) Path Antenna Correction Peak Limit Loss(dB) Gain(dBi)

(dB) ERP(dBm)

(dBm) Margin(dB) Polarization 1692.01 2546.00 3404.02 4256.02 5105.01 5940.01

-55.43

-52.51

-54.65

-56.17

-55.56

-52.74 3.59 4.66 5.37 6.23 6.79 7.47 5.15 6.18 7.97 9.16 10.05 10.51 2.15 2.15 2.15 2.15 2.15 2.15

-56.02

-13.00

-53.14

-13.00

-54.20

-13.00

-55.39

-13.00

-54.45

-13.00 43.02 40.14 41.20 42.39 41.45

-51.85

-13.00 38.85 H H V H V V No. I19Z60845-WMD02 Page 23of 45 Reference Measurement Results from basic model:

WCDMA BAND II Mode Channel 9262/1852.4MHz Frequency(MHz) PMea(dBm) Path Antenna Peak Loss(dB) Gain(dBi) EIRP(dBm) Limit(dBm) Margin(dB) Polarization 7406.01 9241.01 11131.01 12977.01 14817.00 16692.00

-54.96

-54.03

-51.89

-49.19

-45.79

-42.95 8.13 9.02 9.70 10.48 11.14 11.75 12.09 13.24 13.17 13.49 14.15 13.68

-51.00

-49.81

-48.42

-46.18

-42.78

-41.02

-13.00

-13.00 38.00 36.81 35.42 33.18 29.78 28.02 V V V H V V WCDMA BAND II Mode Channel 9400/1880MHz Frequency(MHz) PMea(dBm) Path Antenna Peak Loss(dB) Gain(dBi) EIRP(dBm) Limit(dBm) Margin(dB) Polarization 7515.01 9379.01 11261.01 13171.01 15024.00 16943.00

-55.08

-54.81

-51.86

-48.68

-45.70

-42.30 8.33 9.06 9.76 10.62 11.25 12.16 12.21 13.33 13.15 13.74 13.99 13.78

-51.20

-50.54

-48.47

-45.56

-42.96

-40.68

-13.00

-13.00 38.20 37.54 35.47 32.56 29.96 27.68 H V H V V H WCDMA BAND II Mode Channel 9538/1907.6MHz Frequency(MHz) PMea(dBm) Path Antenna Peak Loss(dB) Gain(dBi) EIRP(dBm) Limit(dBm) Margin(dB) Polarization 7645.01 9545.01 11455.01 13364.01 15275.00 17195.00

-54.75

-54.00

-51.23

-48.33

-45.76

-42.85 8.18 9.38 9.93 10.57 11.31 12.37 12.32 13.35 13.11 14.01 13.83 14.23

-50.61

-50.03

-48.05

-44.89

-43.24

-40.99

-13.00

-13.00 37.61 37.03 35.05 31.89 30.24 27.99 H H V H V H No. I19Z60845-WMD02 Page 24of 45 WCDMA BAND V Mode Channel 4132/826.4MHz Frequency(MHz) PMea(dBm) Path Antenna Correction Peak Limit Loss(dB) Gain(dBi)

(dB) ERP(dBm)

(dBm) Margin(dB) Polarization 1654.01 2463.00 3302.02 4118.02 4934.01 5762.01

-52.79

-52.92

-54.78

-55.15

-55.03

-52.79 3.57 4.59 5.29 6.04 6.72 7.25 5.22 5.99 7.72 9.02 9.83 10.55 2.15 2.15 2.15 2.15 2.15 2.15

-53.29

-13.00 40.29

-53.67

-13.00

-54.50

-13.00

-54.32

-13.00

-54.07

-13.00

-51.64

-13.00 40.67 41.50 41.32 41.07 38.64 H V H V V H WCDMA BAND V Mode Channel 4183/836.6MHz Frequency(MHz) PMea(dBm) Path Antenna Correction Peak Limit Loss(dB) Gain(dBi)

(dB) ERP(dBm)

(dBm) Margin(dB) Polarization 1675.01 2515.00 3342.02 4188.02 5021.01 5839.01

-52.08

-53.40

-54.34

-54.79

-54.94

-53.72 3.58 4.64 5.31 6.18 6.57 7.20 5.18 6.13 7.82 9.09 9.93 10.53 2.15 2.15 2.15 2.15 2.15 2.15

-52.63

-13.00

-54.06

-13.00

-53.98

-13.00

-54.03

-13.00

-53.73

-13.00

-52.54

-13.00 39.63 41.06 40.98 41.03 40.73 39.54 H H H H V V WCDMA BAND V Mode Channel 4233/846.6MHz Frequency(MHz) PMea(dBm) Path Antenna Correction Peak Limit Loss(dB) Gain(dBi)

(dB) ERP(dBm)

(dBm) Margin(dB) Polarization 1691.01 2545.00 3381.02 4244.02 5087.01 5933.01

-53.06

-52.59

-55.08

-54.71

-54.67

-52.04 3.59 4.66 5.35 6.25 6.74 7.47 5.16 6.18 7.91 9.14 10.02 10.51 2.15 2.15 2.15 2.15 2.15 2.15

-53.64

-13.00

-53.22

-13.00

-54.67

-13.00

-53.97

-13.00

-53.54

-13.00 40.64 40.22 41.67 40.97 40.54

-51.15

-13.00 38.15 H H V H H H Note: Expanded measurement uncertainty is U = 5.16 dB, k = 2. No. I19Z60845-WMD02 Page 25of 45 A.3 FREQUENCY STABILITY A.3.1 Method of Measurement In order to measure the carrier frequency under the condition of AFC lock, it is necessary to make measurements with the EUT in a call mode. This is accomplished with the use of R&S CMU200 DIGITAL RADIO COMMUNICATION TESTER. 1. Measure the carrier frequency at room temperature. 2. Subject the EUT to overnight soak at -10. 3. With the EUT, powered via nominal voltage, connected to the CMU200 and in a simulated call on mid channel of WCDMA Band II and WCDMA Band V, measure the carrier frequency. These measurements should be made within 2 minutes of Powering up the EUT, to prevent significant self-warming. 4. Repeat the above measurements at 10 increments from -10 to +50. Allow at least 1 1/2 hours at each temperature, unpowered, before making measurements. 5. Remeasure carrier frequency at room temperature with nominal voltage. Vary supply voltage from minimum voltage to maximum voltage, in 0.1Volt increments remeasuring carrier frequency at each voltage. Pause at nominal voltage for 1 1/2 hours unpowered, to allow any self-heating to stabilize, before continuing. 6. Subject the EUT to overnight soak at +50. 7. With the EUT, powered via nominal voltage, connected to the CMU200 and in a simulated call on the centre channel, measure the carrier frequency. These measurements should be made within 2 minutes of Powering up the EUT, to prevent significant self-warming. 8. Repeat the above measurements at 10 increments from -10 to +50. Allow at least 1 1/2 hours at each temperature, unpowered, before making measurements. 9. At all temperature levels hold the temperature to +/- 0.5 during the measurement procedure. The frequency stability shall be sufficient to ensure that the fundamental emission stays within the authorized frequency block. As this transceiver is considered "Hand carried, battery powered equipment" Section 2.1055(d)(2) applies. This requires that the lower voltage for frequency stability testing be specified by the manufacturer. This transceiver is specified to operate with an input voltage of between 3.6VDC and 4.2VDC, with a nominal voltage of 3.8VDC. Operation above or below these voltage limits is prohibited by transceiver software in order to prevent improper operation as well as to protect components from overstress. No. I19Z60845-WMD02 Page 26of 45 A.3.2 Measurement results WCDMA Band II Frequency Error vs Voltage-QPSK Voltage(V) Frequency error(Hz) Frequency error(ppm) 3.6 3.8 4.2

-4.04 3.68

-4.78 0.0021 0.0020 0.0025 Frequency Error vs Temperature-QPSK temperature() Frequency error(Hz) Frequency error(ppm)

-10 0 10 20 30 40 50

-3.19

-3.22 2.91

-1.80

-3.13

-2.17 2.64 0.0017 0.0017 0.0015 0.0010 0.0017 0.0012 0.0014 WCDMA Band V Frequency Error vs Voltage-QPSK Voltage(V) Frequency error(Hz) Frequency error(ppm) 3.6 3.8 4.2

-3.14 3.16 2.41 0.0038 0.0038 0.0029 Frequency Error vs Temperature-QPSK temperature() Frequency error(Hz) Frequency error(ppm)

-10 0 10 20 30 40 50 2.24

-2.82 1.74 1.72

-2.56

-1.80

-2.30 0.0027 0.0034 0.0021 0.0021 0.0031 0.0022 0.0027 No. I19Z60845-WMD02 Page 27of 45 A.4 OCCUPIED BANDWIDTH A.4.1 Occupied Bandwidth Results Occupied bandwidth measurements are only provided for selected frequencies in order to reduce the amount of submitted data. Data were taken at the extreme and mid frequencies of the US Cellular/PCS frequency bands. The table below lists the measured 99% BW. Spectrum analyzer plots are included on the following pages. The measurement method is from KDB 971168 4.2:

a) The spectrum analyzer center frequency is set to the nominal EUT channel center frequency. The frequency span for the spectrum analyzer shall be set wide enough to capture all modulation products including the emission skirts (i.e., two to five times the OBW). b) The nominal IF filter bandwidth (3 dB RBW) shall be in the range of 1 to 5 % of the anticipated OBW, and the VBW shall be at least 3 times the RBW. c) Set the reference level of the instrument as required to keep the signal from exceeding the maximum input mixer level for linear operation. In general, the peak of the spectral envelope must be at least 10log (OBW / RBW) below the reference level. d) Set the detection mode to peak, and the trace mode to max hold. e) Use the 99 % power bandwidth function of the spectrum analyzer and report the measured bandwidth. No. I19Z60845-WMD02 Page 28of 45 WCDMA Band II (99% BW)-QPSK Frequency(MHz) Occupied Bandwidth (99% BW)( KHz) 1852.4 1880.0 1907.6 4150.64 4134.62 4134.62 WCDMA Band II Channel 9262-Occupied Bandwidth (99% BW)

(cid:10) A *3DBRBW 50 kHz*VBW 200 kHzSWT 5 ms1 PKMAXHAtt 30 dBTDFRef 25.8 dBmOffset 0.8 dBCenter1.8524 GHzSpan10 MHz1 MHz/LVLSGL-70-60-50-40-30-20-10010201Marker 1 [T1 ] 18.54 dBm 1.851438462 GHzOBW 4.150641026 MHzT1Temp 1 [T1 OBW] 8.74 dBm 1.850332692 GHzT2Temp 2 [T1 OBW] 8.54 dBm 1.854483333 GHzDate: 18.APR.2019 10:11:35 Channel 9400-Occupied Bandwidth (99% BW) No. I19Z60845-WMD02 Page 29of 45

(cid:10) Channel 9538-Occupied Bandwidth (99% BW)

(cid:10) A *3DBRBW 50 kHz*VBW 200 kHzSWT 5 ms1 PKMAXHAtt 30 dBTDFRef 25.8 dBmOffset 0.8 dBCenter1.9076 GHzSpan10 MHz1 MHz/LVLSGL-70-60-50-40-30-20-10010201Marker 1 [T1 ] 18.50 dBm 1.906718590 GHzOBW 4.134615385 MHzT1Temp 1 [T1 OBW] 9.14 dBm 1.905532692 GHzT2Temp 2 [T1 OBW] 8.62 dBm 1.909667308 GHzDate: 18.APR.2019 10:13:58 A *3DBRBW 50 kHz*VBW 200 kHzSWT 5 ms1 PKMAXHAtt 30 dBTDFRef 25.8 dBmOffset 0.8 dBCenter1.88 GHzSpan10 MHz1 MHz/LVLSGL-70-60-50-40-30-20-10010201Marker 1 [T1 ] 18.55 dBm 1.880608974 GHzOBW 4.134615385 MHzT1Temp 1 [T1 OBW] 9.20 dBm 1.877932692 GHzT2Temp 2 [T1 OBW] 8.59 dBm 1.882067308 GHzDate: 18.APR.2019 10:12:47 No. I19Z60845-WMD02 Page 30of 45 WCDMA Band V(99% BW)-QPSK Frequency(MHz) Occupied Bandwidth (99% BW)( KHz) 826.4 836.6 846.6 4134.62 4134.62 4134.62 WCDMA Band V Channel 4132-Occupied Bandwidth (99% BW)

(cid:10) A *3DBRBW 50 kHz*VBW 200 kHzSWT 5 ms1 PKMAXHAtt 30 dBTDFRef 25.5 dBmOffset 0.5 dBCenter826.4 MHzSpan10 MHz1 MHz/LVLSGL-70-60-50-40-30-20-10010201Marker 1 [T1 ] 17.98 dBm 827.025000000 MHzOBW 4.134615385 MHzT1Temp 1 [T1 OBW] 8.16 dBm 824.348717949 MHzT2Temp 2 [T1 OBW] 7.90 dBm 828.483333333 MHzDate: 18.APR.2019 09:47:57 Channel 4183-Occupied Bandwidth (99% BW) No. I19Z60845-WMD02 Page 31of 45

(cid:10) Channel 4233-Occupied Bandwidth (99% BW)

(cid:10) A *3DBRBW 50 kHz*VBW 200 kHzSWT 5 ms1 PKMAXHAtt 30 dBTDFRef 25.5 dBmOffset 0.5 dBCenter846.6 MHzSpan10 MHz1 MHz/LVLSGL-70-60-50-40-30-20-10010201Marker 1 [T1 ] 17.52 dBm 845.654487179 MHzOBW 4.134615385 MHzT1Temp 1 [T1 OBW] 8.84 dBm 844.532692308 MHzT2Temp 2 [T1 OBW] 8.76 dBm 848.667307692 MHzDate: 18.APR.2019 09:50:20 A *3DBRBW 50 kHz*VBW 200 kHzSWT 5 ms1 PKMAXHAtt 30 dBTDFRef 25.5 dBmOffset 0.5 dBCenter836.6 MHzSpan10 MHz1 MHz/LVLSGL-70-60-50-40-30-20-10010201Marker 1 [T1 ] 17.50 dBm 835.622435897 MHzOBW 4.134615385 MHzT1Temp 1 [T1 OBW] 8.23 dBm 834.532692308 MHzT2Temp 2 [T1 OBW] 8.78 dBm 838.667307692 MHzDate: 18.APR.2019 09:49:09 No. I19Z60845-WMD02 Page 32of 45 A.5 EMISSION BANDWIDTH A.5.1Emission Bandwidth Results The emission bandwidth is defined as the width of the signal between two points, one below the carrier center frequency and one above the carrier center frequency, outside of which all emissions are attenuated at least 26 dB below the transmitter power. WCDMA Band II-QPSK Frequency(MHz) Emission Bandwidth ( KHz) 1852.4 1880.0 1907.6 WCDMA Band II Channel 9262-Emission Bandwidth 4711.54 4711.54 4711.54

(cid:10) A 3DBRBW 50 kHzSWT 5 ms*VBW 200 kHz*Att 30 dB*TDFRef 25.8 dBmOffset 0.8 dBCenter1.8524 GHzSpan10 MHz1 MHz/LVL1 PKVIEW-70-60-50-40-30-20-10010201Marker 1 [T1 ] 18.57 dBm 1.853025000 GHzndB [T1] 26.00 dB BW 4.711538462 MHzT1Temp 1 [T1 ndB] -7.79 dBm 1.850044231 GHzT2Temp 2 [T1 ndB] -8.11 dBm 1.854755769 GHzDate: 18.APR.2019 10:15:59 Channel 9400-Emission Bandwidth No. I19Z60845-WMD02 Page 33of 45 Channel 9538-Emission Bandwidth

(cid:10)

(cid:10) A 3DBRBW 50 kHzSWT 5 ms*VBW 200 kHz*Att 30 dB*TDFRef 25.8 dBmOffset 0.8 dBCenter1.9076 GHzSpan10 MHz1 MHz/LVL1 PKVIEW-70-60-50-40-30-20-10010201Marker 1 [T1 ] 18.27 dBm 1.906718590 GHzndB [T1] 26.00 dB BW 4.711538462 MHzT1Temp 1 [T1 ndB] -6.75 dBm 1.905244231 GHzT2Temp 2 [T1 ndB] -6.86 dBm 1.909955769 GHzDate: 18.APR.2019 10:18:23 A 3DBRBW 50 kHzSWT 5 ms*VBW 200 kHz*Att 30 dB*TDFRef 25.8 dBmOffset 0.8 dBCenter1.88 GHzSpan10 MHz1 MHz/LVL1 PKVIEW-70-60-50-40-30-20-10010201Marker 1 [T1 ] 18.41 dBm 1.880576923 GHzndB [T1] 26.00 dB BW 4.711538462 MHzT1Temp 1 [T1 ndB] -8.03 dBm 1.877644231 GHzT2Temp 2 [T1 ndB] -6.69 dBm 1.882355769 GHzDate: 18.APR.2019 10:17:11 No. I19Z60845-WMD02 Page 34of 45 WCDMA Band V-QPSK Frequency(MHz) Emission Bandwidth ( KHz) 826.40 836.60 846.60 WCDMA Band V Channel 4132-Emission Bandwidth 4727.56 4695.51 4695.51

(cid:10) A 3DBRBW 50 kHzSWT 5 ms*VBW 200 kHz*Att 30 dB*TDFRef 25.5 dBmOffset 0.5 dBCenter826.4 MHzSpan10 MHz1 MHz/LVL1 PKVIEW-70-60-50-40-30-20-10010201Marker 1 [T1 ] 18.02 dBm 827.025000000 MHzndB [T1] 26.00 dB BW 4.727564103 MHzT1Temp 1 [T1 ndB] -9.14 dBm 824.044230769 MHzT2Temp 2 [T1 ndB] -8.70 dBm 828.771794872 MHzDate: 18.APR.2019 09:52:21 Channel 4183-Emission Bandwidth No. I19Z60845-WMD02 Page 35of 45 Channel 4233-Emission Bandwidth

(cid:10)

(cid:10) A 3DBRBW 50 kHzSWT 5 ms*VBW 200 kHz*Att 30 dB*TDFRef 25.5 dBmOffset 0.5 dBCenter846.6 MHzSpan10 MHz1 MHz/LVL1 PKVIEW-70-60-50-40-30-20-10010201Marker 1 [T1 ] 17.71 dBm 847.192948718 MHzndB [T1] 26.00 dB BW 4.695512821 MHzT1Temp 1 [T1 ndB] -7.51 dBm 844.260256410 MHzT2Temp 2 [T1 ndB] -8.01 dBm 848.955769231 MHzDate: 18.APR.2019 09:54:45 A 3DBRBW 50 kHzSWT 5 ms*VBW 200 kHz*Att 30 dB*TDFRef 25.5 dBmOffset 0.5 dBCenter836.6 MHzSpan10 MHz1 MHz/LVL1 PKVIEW-70-60-50-40-30-20-10010201Marker 1 [T1 ] 17.56 dBm 835.622435897 MHzndB [T1] 26.00 dB BW 4.695512821 MHzT1Temp 1 [T1 ndB] -7.88 dBm 834.260256410 MHzT2Temp 2 [T1 ndB] -8.93 dBm 838.955769231 MHzDate: 18.APR.2019 09:53:33 No. I19Z60845-WMD02 Page 36of 45 A.6 BAND EDGE COMPLIANCE A.6.1 Measurement limit On any frequency outside frequency band of the US Cellular/PCS spectrum, the power of any emission shall be attenuated below the transmitter power (P, in Watts) by at least 43+10Log (P) dB. For all power levels +30 dBm to 0 dBm, this becomes a constant specification limit of -13 dBm. According to KDB 971168 6.0, a relaxation of the reference bandwidth is often provided for measurements within a specified frequency range at the edge of the authorized frequency block/band. This is often implemented by permitting the use of a narrower RBW (typically limited to a minimum RBW of 1% of the OBW) for measuring the out-of-band emissions without a requirement to integrate the result over the full reference bandwidth. A.6.2 Measurement result WCDMA Band II-QPSK LOW BAND EDGE BLOCK-A (WCDMA Band)-Channel 9262 No. I19Z60845-WMD02 Page 37of 45

(cid:10) HIGH BAND EDGE BLOCK-C (WCDMA Band) Channel 9538

(cid:10) A 3DBRBW 50 kHz**VBW 200 kHz*1 RMMAXHSWT 800 ms*TDFRef 25.8 dBmOffset 0.8 dBCenter1.915 GHzSpan5 MHz500 kHz/LVLAtt 20 dB*SGL-120-100-80-60-40-200201Marker 1 [T1 ] -35.93 dBm 1.916915064 GHzD1 -13 dBmF1F2Date: 18.APR.2019 10:19:52 A 3DBRBW 50 kHz**VBW 200 kHz*1 RMMAXHSWT 800 ms*TDFRef 25.8 dBmOffset 0.8 dBCenter1.85 GHzSpan5 MHz500 kHz/LVLAtt 20 dB*SGL-120-100-80-60-40-200201Marker 1 [T1 ] -23.83 dBm 1.849839744 GHzD1 -13 dBmF1F2Date: 18.APR.2019 10:19:32 WCDMA Band V-QPSK LOW BAND EDGE BLOCK-A (WCDMA Band )-Channel 4132 No. I19Z60845-WMD02 Page 38of 45

(cid:10) HIGH BAND EDGE BLOCK-C (WCDMA Band ) Channel 4233

(cid:10) A 3DBRBW 50 kHz**VBW 200 kHz*1 RMMAXHSWT 800 ms*TDFRef 25.5 dBmOffset 0.5 dBCenter849 MHzSpan5 MHz500 kHz/LVLAtt 20 dB*SGL-120-100-80-60-40-200201Marker 1 [T1 ] -25.44 dBm 849.000000000 MHzD1 -13 dBmF1F2Date: 18.APR.2019 09:56:13 A 3DBRBW 50 kHz**VBW 200 kHz*1 RMMAXHSWT 800 ms*TDFRef 25.5 dBmOffset 0.5 dBCenter824 MHzSpan5 MHz500 kHz/LVLAtt 20 dB*SGL-120-100-80-60-40-200201Marker 1 [T1 ] -24.19 dBm 824.000000000 MHzD1 -13 dBmF1F2Date: 18.APR.2019 09:55:54 No. I19Z60845-WMD02 Page 39of 45 A.7 CONDUCTED SPURIOUS EMISSION A.7.1 Measurement Method The following steps outline the procedure used to measure the conducted emissions from the EUT. 1. Determine frequency range for measurements: From CFR 2.1057 the spectrum should be investigated from the lowest radio frequency generated in the equipment up to at least the 10th harmonic of the carrier frequency. For the mobile station equipment tested, this equates to a frequency range of 13 MHz to 9 GHz, data taken from 10 MHz to 25 GHz. 2. Determine EUT transmit frequencies: below outlines the band edge frequencies pertinent to conducted emissions testing. 3. According to KDB 971168 6.0, the applicable rule part specifies the reference bandwidth for measuring unwanted emission levels (typically, 100 kHz if the authorized frequency band/block is at or below 1 GHz and 1 MHz if the authorized frequency band/block is above 1 GHz) WCDMA Band Transmitter Channel 9262 9400 9538 WCDMA Band V Transmitter Channel 4132 4183 4233 A. 7.2 Measurement Limit Frequency (MHz) 1852.40 1880.00 1907.60 Frequency (MHz) 826.40 836.60 846.60 Part 24.238 and Part 22.917 specify that the power of any emission outside of the authorized operating frequency ranges must be attenuated below the transmitting power (P) by a factor of at least 43 + 10 log(P) dB. The specification that emissions shall be attenuated below the transmitter power (P) by at least 43

(cid:10)

(cid:10) A 3DBRBW 1 MHz*SWT 125 ms*VBW 3 MHzTDFRef 5.8 dBmOffset 0.8 dBStart30 MHzStop19.15 GHz1.912 GHz/LVLAtt 20 dB**1 RMVIEW-90-80-70-60-50-40-30-20-1001Marker 1 [T1 ] 24.96 dBm 1.852773333 GHzD1 -13 dBmDate: 18.APR.2019 10:20:57 A 3DBRBW 1 MHz*SWT 125 ms*VBW 3 MHzTDFRef 5.8 dBmOffset 0.8 dBStart30 MHzStop19.15 GHz1.912 GHz/LVLAtt 20 dB**1 RMVIEW-90-80-70-60-50-40-30-20-1001Marker 1 [T1 ] 23.99 dBm 1.878266667 GHzD1 -13 dBmDate: 18.APR.2019 10:21:13 No. I19Z60845-WMD02 Page 41of 45 Channel 9538: 30MHz 19.15GHz Spurious emission limit 13dBm.

(cid:10) A 3DBRBW 1 MHz*SWT 125 ms*VBW 3 MHzTDFRef 5.8 dBmOffset 0.8 dBStart30 MHzStop19.15 GHz1.912 GHz/LVLAtt 20 dB**1 RMVIEW-90-80-70-60-50-40-30-20-1001Marker 1 [T1 ] 24.79 dBm 1.906309333 GHzD1 -13 dBmDate: 18.APR.2019 10:21:29 No. I19Z60845-WMD02 Page 42of 45 WCDMA Band V Channel 4132: 30MHz 8.49GHz Spurious emission limit 13dBm. Channel 4183: 30MHz 8.49GHz Spurious emission limit 13dBm.

(cid:10)

(cid:10) A 3DBRBW 1 MHz*SWT 125 ms*VBW 3 MHzTDFRef 5.5 dBmOffset 0.5 dBStart30 MHzStop8.49 GHz846 MHz/LVLAtt 20 dB**1 RMVIEW-90-80-70-60-50-40-30-20-1001Marker 1 [T1 ] 24.54 dBm 826.932000000 MHzD1 -13 dBmDate: 18.APR.2019 09:57:19 A 3DBRBW 1 MHz*SWT 125 ms*VBW 3 MHzTDFRef 5.5 dBmOffset 0.5 dBStart30 MHzStop8.49 GHz846 MHz/LVLAtt 20 dB**1 RMVIEW-90-80-70-60-50-40-30-20-1001Marker 1 [T1 ] 24.41 dBm 837.084000000 MHzD1 -13 dBmDate: 18.APR.2019 09:57:34 No. I19Z60845-WMD02 Page 43of 45 Channel 4233: 30MHz 8.49GHz Spurious emission limit 13dBm.

(cid:10) A 3DBRBW 1 MHz*SWT 125 ms*VBW 3 MHzTDFRef 5.5 dBmOffset 0.5 dBStart30 MHzStop8.49 GHz846 MHz/LVLAtt 20 dB**1 RMVIEW-90-80-70-60-50-40-30-20-1001Marker 1 [T1 ] 24.30 dBm 845.262000000 MHzD1 -13 dBmDate: 18.APR.2019 09:57:50 No. I19Z60845-WMD02 Page 44of 45 A.8 PEAK-TO-AVERAGE POWER RATIO The peak-to-average power ratio (PAPR) of the transmitter output power must not exceed 13 dB. The PAPR measurements should be made using either an instrument with complementary cumulative distribution function (CCDF) capabilities to determine that PAPR will not exceed 13 dB for more than 0.1 percent of the time or other Commission approved procedure. The measurement must be performed using a signal corresponding to the highest PAPR expected during periods of continuous transmission. According to KDB 971168:

a)Refer to instruments analyzer instruction manual for details on how to use the power statistics/CCDF function;

b) Set resolution/measurement bandwidth signals occupied bandwidth;

c) Set the number of counts to a value that stabilizes the measured CCDF curve;

d) Set the measurement interval to 1 ms e)Record the maximum PAPR level associated with a probability of 0.1%

A.8.1 Measurement limit not exceed 13 dB A.8.2 Measurement results WCDMA Band II-QPSK Measurement result CH 9400 Frequency(MHz) PAPR(dB) 1880.0 3.88 No. I19Z60845-WMD02 Page 45of 45 ANNEX B: Accreditation Certificate

***END OF REPORT***

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