Test Report -4G

FCC ID: 2ARTX-LN9910

Test Report

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FCCID_4367852

NTEKIEM> I "h="" certificate#4298.01 Report No.: STR190523002004E FCC CFR47 PART 22H and 27 CERTIFICATION TEST REPORT FCC ID: 2ARTX—LN99102GB Product: Mobile Phone Trade Mark: LAAA XOLO Model Number: LN99102GB Family Model: N/A Report No.: STR190606003004E Prepared for LAVA International Limited A—56, Sector 64, Noida 201301, U.P., India Prepared by Shenzhen NTEK Testing Technology Co., Ltd. 1/F, Building E, Fenda Science Park, Sanwei Community, Xixiang Street Bac‘an District, Shenzhen 518126 P.R. China Tel.: +86—755—6115 6588 Fax.: +86—755—6115 6599 Website:http://www.ntek.org.cn

2 a NTEKIEII °* *a3 190 « x 2A iacevrA 1 "hntn""" cortificate #4298.01 Report No.: $TR1906060 03004E TEST RESULT CERTIFICATION Applicant‘s name ................... : LAVA International Limited AUQF@SS..........ccccceeeeeeeeeeeeee} : A—56, Sector 64, Noida 201301, U.P., India Manufacturer‘s Name............. : LAVA International Limited fole [o o e > A—56, Sector 64, Noida 201301, U.P., India PrOGuCt N@M@.............lccclllle : Mobile Phone Model and/or type reference ..: LN9910_2GB Family Model: N/A Standards................l.l.l.lll. : FCC CFR 47 Part 22H and 27 Test POC@UU® ... : ANSI C63.26:2015 ANSI/TIA—603—E—2016 This device described above has been tested by NTEK, 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 NTEK, this document may be altered or revised by NTEK, personal only, and shall be noted in the revision of the document. D@t@ Of T@St ... Date (s) of performance of tests............ Jun. 10, 2019 ~ Jul. 09, 2019 D&t@ Of ISSU® ... Jul. 09, 2019 TeSt RESUI ...........l.lcceeeemeeeere. Pass Testing Engineer : k. J’ij Jiawmen (/-\ — (Cheng Jiawen) Technical Manager : j‘(flfifi'fl chen (Jason Chen) Authorized Signatory : QM/ — Ofan‘ (Sam Chen) 2 / 30

ssm Jn \E///'/ N ' EK jbl ""n"" 4////—\\\\3?‘ cortificate ies #4298.01 Report No.: STR190606003004E TABLE OF CONTENTS 1. GENERAL INFORMATION....... .. .. cnnn mm eeeeeeeeeeecennnnnnnnnnnnnnnn rerrrrrrrrrrnne cce rrrrrrrrrn en ce errrrrr en e nnnnnnnnnnnnnnnn nne 5 1. GENERAL INFORMATION....... .. .. cnnn mm eeeeeeeeeeecennnnnnnnnnnnnnnn rerrrrrrrrrrnne cce rrrrrrrrrn en ce errrrrr en e nnnnnnnnnnnnnnnn nne 5 1.1 PRODUCT DESCRIPTION 5 1.2 RELATED SUBMITTAL(S) / GRANT (S) 6 1.3 TEST METHODOLOGY 6 1.4 TEST FACILITY 6 1.5 SPECIAL ACCESSORIES 6 1.6 WORST—CASE CONFIGURATION AND MODE 6 2. SYSTEM TEST CONFIGURATION .. ..... ... ccc00000000mmmmmmrrrerrrrrrrrrrrrrrrreeerrrrrrrrrrrrrennnnenerrrrrrennnnnnnnnnnnnnnnnnnnnnnnnnnnneenee 6 2.1 EUT CONFIGURATION 6 2.2 EUT EXERCISE 7 2.3 CONFIGURATION OF EUT SYSTEM 7 2.4 TEST SETUP 8 3.TEST AND MEASUREMENT EQUIPMEN T .. ... .. 0000000000 e e eerrrrrrrrrrrerennnnnrerererennnnnnnnnnnnnnnnrnnnnnnnnnnnnneenee 9 4. OUTPUT POWER...... .. cce mm eeeeeeeeeeeecenmmmnnnnnnnnnnnn rnnnnnnnnnnnnne cce rerrr en n nere en nnnnnnnnnnnnnnnn nnnnnnnnnnnn en e 10 4.1 OUTPUT POWER MEASUREMENT 10 Test data reference attachment 11 5. OCCUPIED BANDWIDTH ....... ... .nn ec00000000eeece66rrrrrrrrrrererrrrrrrrrrrrre ce rrrrrrrrr en n nerrrrr en nnnnnnnnnnnnn nnnnnnnnnnnnnnnn e 12 6. BANDEDGE AND EMISSION MASK ........ ... . c anneeeeeemmmmnnrerrrrrrrrrrrrreerrrrrrrrrrrrrernnnrererrrrennnnnnnnnnnnnnnnnnnnnnnnnnn en en 13 7. OUT OF BAND EMISSIONS .......... ... cccc00000000000e666rrrrrrrrerrerrrrrrrrrrrrre e rrrrrrrrrrrre en nerrrrrerennnnnnnnnnnnnnnnnnnnnnnnnnnnnn e 15 7.1 MEASUREMENT METHOD 15 8. RADIATED MEASUREMENT ....... ...« e000000000000000000mmrrrrrrererrrrrrrrrrrr e eeerrrrrrrrr en n nerrrrr en nnnnnnnnnnnnn nnnnnnnnnnnnnnnn e 16 8.1. RADIATED POWER (ERP & EIRP) 16 8.2 LTE BAND 5 17 8.3 LTE BAND 41 19 3 /30

‘n, 256 CA N "‘ EK j b inl ’/’//:?\?\ &%fil Report No.: STR190606003004E 9. SPURIOUS RADIATION EMISSION ............... .nn rmmmmmmrrrrrrrrerrrrrrrrrrrrrrnnnnnnnerrrrrrnnnnnnnnnnnnnnnnnrerrrrrnnnn en en21 9.1 LTE BAND 5 23 9.2 LTE BAND 41 24 10. FREQUENCY STABILITY ........ ... cnmmmmmmmmmmmmmmmemmmrmeermennnnnnnnnnnnnnnrerrrrrrrrrrrreenrrrrrrrrrrrrreeerrrrrrrrrrnnnnnnnnnnnnnnnnn e25 10.1 LTE BAND 5 26 10.2 LTE BAND 41 28 11. PEAK—TO—AVERAGE RATIO........ ... cmmmmmmmmmmmmmmemmmmrmeermennnnnnnnnnnnnnnnrerrrrrrrrrrrreenrrrrrrrrrrrrreeerrrrrrrrrrnnnnnnnnnnnnnnnnnn e30 11.1 Description of the PAR Measurement 30 11.2 Measuring Instruments 30 11.3 Test Procedures 30 11.4 Test Setup 30 4 / 30

NTEKIEB **A Q/ 2z * 1 Trlnts®"" conificate #4298.01 Report No.: STR190606003004E 1. GENERAL INFORMATION 11 PRODUCT DESCRIPTION A major technical description of EUT is described as following: Product Designation: Mobile Phone Trade Mark LAVA XOLO Model Name LNg910_2GB Family Model N/A Model Difference N/A FCC ID: 2ARTX—LN99102GB U.S. Bands: Frequency Bands: Eq LTE FDD Band 5; LTE TDD Band 41 LTE FDD Band 5 Uplink: 824MHz—849MHz, Frequency Range: Downlink: 869MHz—894MHz; LTE TDD Band 41 Notez Type of Modulation: QPSK/16QAM Antenna: PIFA Antenna Antenna gain: —2.10Bi Power Supply: DC 3.85V/3000mAh from Battery or DC 5V from USB Port. Model:CLV—15 Adapter: Input: 100—240V~50/60Hz 0.2A Output: 5.0V———1.0A Extreme Vol. Limits: DC 3.4V to 4.2V (Nominal DC 3.85V) Note1 Extreme Temp. 10°C to +40°C HW Version OP29_MB_V1.0 SW Version TEST_LAVA_LN99101_16_V1.0S101_20190510_ENG_INT ** Note: 1. The High Voltage 4.2V and Low Voltage 3.4V was declared by manufacturer, The EUT couldn‘t be operate normally with higher or lower voltage. 2. Frequency Range: Test Frequency ID Bandwidth(MHz) EARFCN Frequency (UL and DL) (MHz) 5 40265 2557.5 10 40290 2560 Low Range 15 40315 2562.5 20 40340 2565 Mid Range 5/10/15/20 40740 2605 5 41215 2652.5 High Range 10 41190 2650 15 41165 2648.5 20 41140 2645 5 / 30

«m NTEKIEB **A \:\‘ 'v 2 y 1 "hntn""" cortificate #4298.01 Report No.: STR190606003004E 1.2 RELATED SUBMITTAL(S) / GRANT (S) This submittal(s) (test report) is intended for FCC ID: 2ARTX—LN99102GB filing to comply with the FCC Part 22H and 27. 1.3 TEST METHODOLOGY The tests documented in this report were performed in accordance with ANSV/TIA—603—E—2016, FCC CFR 47 Part 2, Part 22H and 27, ANSI C63.26:2015. 1.4 TEST FACILITY The test site used to collect the radiated data is located at: ShenZhen NTEK Testing Technology Co., Ltd. 1/F, Building E, Fenda Science Park, Sanwei Community, Xixiang Street, Bao‘an District, Shenzhen 518126 P.R.China. The test site is constructed and calibrated to meet the FCC requirements in documents ANSI C63.26:2015& ANSI C63.4: 2014. FCC Registration No.:463705 IC Registration No.:9270A—1, CNAS Registration No.:L5516 1.5 SPECIAL ACCESSORIES The battery and the charger, earphone supplied by the applicant were used as accessories and being tested with EUT intended for FCC grant together. 1.6 WORST—CASE CONFIGURATION AND MODE The worst—case scenario for all measurements is based on the investigation results. The device has LTE Bands of: LTE FDD Band 5, LTE TDD Band 41 The RB Size was selected to measure for peak or average ERP and EIRP, which was based on the conducted power verification baseline data. For the fundamental investigation of radiated emissions, the EUT is investigated for vertical and horizontal antenna orientations and X Y and Z orientations of the EUT alone. After the investigations the worst case was determined to be at X orientation for all LTE bands. 2. SYSTEM TEST CONFIGURATION 2.1 EUT CONFIGURATION The EUT configuration for testing is installed on RF field strength measurement to meet the Commission‘s requirement and operating in a manner which intends to maximize its emission characteristics in a continuous normal application. 6 / 30

bcws, t < NTEKIEII °* *3 1 Zdutals® Certificate #4298.01 Report No.: STR190606003004E 2.2 EUT EXERCISE The Transmitter was operated in the maximum output power mode through Communication Tester. The TX frequency was fixed which was for the purpose of the measurements. 2.3 CONFIGURATION OF EUT SYSTEM Table 2—1 Equipment Used in EUT System Item Equipment Model No. Series No. Note 1 Mobile Phone LN9910_2GB N/A EUT Note: All the accessories have been used during the test. the following "EUTin setup diagram means EUT system. 7 /30

NTEKjEM* *a 1 // 8 N Certificate #4298.01 Report No.: STR190606003004E 2.4 TEST SETUP CONDUCTED SETUP DIAGRAM FOR TESTS EUT 2 directional al Communications Coupler Test Set 2 4 DC Power Spectrum Supply Analyzer 4 1 1 AC MAIN RADIATED SETUP DIAGRAM FOR TESTS | 1 4—— EUT L. | Call Box 8 / 30

ssm Jn \E///'/ NTEKJE:W //,:\\\f % \ Zalutals® AccrepiteD Certificate #4298.01 Report No.: STR190606003004E 3.TEST AND MEASUREMENT EQUIPMENT The following test and measurement equipment was utilized for the tests documented in this report: NAME OF EQUIPMENT MANUFACTURER| MODEL SERIAL NUMBER |NEXT CAL. DATE SPECTRUM ANALYZER AGILENT N9020A my49100060 2019.10.07 TEST RECEIVER R&s EsCI 101318 2020.05.12 COMMUNICATION TESTER R&s CMU200 117858 2020.05.12 COMMUNICATION TESTER R&s CMW500 148500 2020.05.12 TEST RECEIVER R&s FCKL1528 A0304230 2020.05.12 LISN SCHWARZBECK| NSLK8127 A0304233 2020.05.12 CLIMATE CHAMBER ALBATROSS 2020.05.12 Bilogical Antenna A.H. Systems Inc.| SAS—521—4 N/A 2020.05.12 Horn Antenna EM EM—AH—10180| 2011071402 2020.05.12 DCSource Power N/A PS—6005D 20170402923 2020.05.12 9 / 30

F. im E2L /s NTEKIE:M "" 33 1 ibexeA 4 Ne ® ® Certificate #4298.01 Report No.: STR190606003004E 4. OUTPUT POWER 4.1 OUTPUT POWER MEASUREMENT LTE Measurement Procedure: All LTE bands conducted power peak and average are obtained from the CMWS500 telecommunication test set. The following tests were conducted according to the test requirements outlined in section 6.2 of the SGPP TS36.101 specification. UE Power Class: 3 (23 +/— 2d4Bm). The allowed Maximum Power Reduction (MPR) for the maximum output power due to higher order modulation and transmit bandwidth configuration (resource blocks) is specified in Table 6.2.3—1 of the 3GPP TS36.101. Table 6.2.3—1: Maximum Power Reduction (MPR) for Power Class 3 Modulation Channel bandwidth / Transmission bandwidth (RB) MPR (dB) 1.4 3.0 5 10 15 20 MHz MHz MHz MHz MHz MHz QPSK >5 >4 >8 > 12 > 16 > 18 s1 16 QAM <5 54 <8 s12 s16 s 18 s1 16 QAM >5 >4 >8 >12 >16 > 18 <2 The allowed A—MPR values specified below in Table 6.2.4.—1 of 3GPP TS36.101 are in addition to the allowed MPR requirements. All the measurements below were performed with A—MPR disabled, by using Network Signaling Value of "NS_O1".3 10 / 30

C ol waw s7* s—_2 eo ibexeA Loo r I z7@ m\ [accrepiteo) 1 "hl\"=— cortificate #4208.01 Report No.: STR190606003004E Table 6.2.4—1: Additional Maximum Power Reduction (A—MPR) Network Requirements E—UTRA Band Channel Resources A—MPR (dB) Signalling (sub—clause) bandwidth Blocks (Nzrs) value (MHz) ms_o1 6.6.21.1 Table 5.51 14.15. 8. 5.59 20 Table 5.641 Na 3 >5 s1 5 >6 s1 2. 4,10, 23, 25, NS_O3 6.6.2.2.1 35. 36 10 >6 s1 15 >B s1 20 >10 s1 5 >6 <1 NS_O4 66222 41 10, 15, 20 See Table 6.2.4—4 NS_O5 6.6.3.3.1 1 10,15,20 > 50 s1 NSs_O6 6.6.2.2.3 12, 18. 14. 17 1.4. 3. 5.10 Table 5.6—1 n/a 6.6.2.2.3 Ns_O7 13 10 Table 6.2.4—2 Table 6.2.4—2 6.6.3.3.2 Ns_O8 6.6.3.3.3 19 10. 15 > 44 <3 > 40 s1 Ns_O09 6.6.3.3.4 21 10. 15 > 55 <3 Ns_10 20 15. 20 Table 6.2.4—3 Table 6.2.4—3 NS_11 6.6.2.2.1 23" 1.4,3,5, 10 Table 6.2.4—5 Table 6.2.4—5 NS_32 — — — — — Note 1: Applies to the lower block of Band 23, i.e. a carrier placed in the 2000—2010 MHz region. Test data reference attachment 11 /30

N"‘EKjb:1 I ‘//Q\ o melineg "hntn""" cortificate #4298.01 Report No.: STR190606003004E 5. OCCUPIED BANDWIDTH RULE PART(S) FCC: §2.1049 LIMITS For reporting purposes only TEST PROCEDURE The transmitter output was connected to a calibrated coaxial cable and coupler, the other end of which was connected to a spectrum analyzer. The occupied bandwidth was measured with the spectrum analyzer at the low, middle and high channel in each band. The —26dB bandwidth was also measured and recorded. MODES TESTED LTE Band 5 L LTE Band 41 RESULTS PASS Test data reference attachment 12 / 30

«m \:\‘ 'v 2 NTEKiE@ * *A 1 y "hntn""" cortificate #4298.01 Report No.: STR190606003004E 6. BANDEDGE AND EMISSION MASK RULE PART(S) FCC: §2.1051, §22.901, §22.917, §22.359, §27.53 LIMITS FCC: §27.53, §22.359 {m)(6) Measurement procedure. Compliance with these rules is based on the use of measurement instrumentation employing a resolution bandwidth of 1 megahertz or greater. However, in the 1 MHz bands immediately outside and adjacent to the frequency block a resolution bandwidth of at least one percent of the emission bandwidth of the fundamental emission of the transmitter may be employed; for mobile digital stations, in the 1 megahertz bands immediately outside and adjacent to the frequency block a resolution bandwidth of at least two percent may be employed, except when the 1 megahertz band is 2495—2496 MHz, in which case a resolution bandwidth of at least one percent may be employed. A narrower resolution bandwidth is permitted in all cases to improve measurement accuracy provided the measured power is integrated over the full required measurement bandwidth (i.e. 1 megahertz or 1 percent of emission bandwidth, as specified; or 1 megahertz or 2 percent for mobile digital stations, except in the band 2495—2496 MHz). 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. With respect to television operations, measurements must be made of the separate visual and aural operating powers at sufficiently frequent intervals to ensure compliance with the rules. {m)(4) For mobile digital stations, the attenuation factor shall be not less than 40 + 10 log (P) dB on all frequencies between the channel edge and 5 megahertz from the channel edge, 43 + 10 log (P) dB on all frequencies between 5 megahertz and X megahertz from the channel edge, and 55 + 10 log (P) dB on all frequencies more than X megahertz from the channel edge, where X is the greater of 6 megahertz or the actual emission bandwidth as defined in paragraph (m)(6) of this section. In addition, the attenuation factor shall not be less that 43 + 10 log (P) dB on all frequencies between 2490.5 MHz and 2496 MHz and 55 + 10 log (P) dB at or below 2490.5 MHz. Mobile Satellite Service licensees operating on frequencies below 2495 MHz may also submit a documented interference complaint against BRS licensees operating on channel BRS Channel 1 on the same terms and conditions as adjacent channel BRS or EBS licensees.Show citation box. 13 / 30

NTEKIEm **2 ho m < 1 nt®®©®" corigicate #4798,.01 Report No.: STR190606003004E TEST PROCEDURE The transmitter output was connected to a CMWS500Test Set and configured to operate at maximum power. The band edge emissions were measured at the required operating frequencies in each band on the Spectrum Analyzer. For each band edge measurement: Set the spectrum analyzer span to include the block edge frequency. Set a marker to point the corresponding band edge frequency in each test case. Set display line at —13 dBm Set resolution bandwidth to at least 1% of emission bandwidth. MODES TESTED L_ LTE Band 5 LTE Band 41 RESULTS Test data reference attachment 14 / 30

$©(U9m J NTEKIEI **A \E///'/ 1 "hntn""" cortificate #4298.01 Report No.: STR190606003004E 7. OUT OF BAND EMISSIONS RULE PART(S) FCC: §2.1051, §22.901, §22.917, §22.359, §27.53 LIMITS 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. TEST PROCEDURE The RF output of the transmitter was connected to a spectrum analyzer through a calibrated coaxial cable. Sufficient scans were taken to show the out—of—band Emissions, if any, up to 10th harmonic. Multiple sweeps were recorded in maximum hold mode using a peak detector to ensure that the worst—case emissions were caught. For each out of band emissions measurement: L. Set display line at—13 dBm L. Set RBW & VBW to 100 kHz for the measurement below 1 GHz, and 1 MHz for the measurement above 1 GHz. MODES TESTED L__ LTE Band 5 LTE Band 41 7.1 MEASUREMENT METHOD The test set up and general procedure is similar to conducted peak output power test. Only different for setting the measurement configuration of the measuring instrument of Spectrum Analyzer. Test data reference attachment 15 / 30

$©(U9m J \E///'/ w :“: ibeis fe C€#R ACEREDUES N' EK 1 /’////\\\:\? ""n"" cortificate #4298.01 Report No.: STR190606003004E 8. Radiated Measurement 8.1. RADIATED POWER (ERP & EIRP) RULE PART(S) FCC: §2.1046, §22.901, §22.917, §22.359, §27.50 LIMITS: 27.50 (c) (10) the following power and antenna height requirements apply to stations transmitting in the 698—746 MHz band, the portable stations (hand—held devices) are limited to 3 watts ERP. 27.50 (b)(10) Portable stations (hand—held devices) transmitting in the 746—757 MHz, 758—763 MHz, 776—793 MHz, and 805—806 MHz bands are limited to 3 watts ERP. 27.50 (d)(4) The following power and antenna height requirements apply to stations transmitting in the 1710—1755 MHz and 2110—2155 MHz bands: Fixed, mobile, and portable (hand—held) stations operating in the 1710—1755 MHz band are limited to 1 watt EIRP. TEST PROCEDURE ANSV/TIA—603—E Clause 2.2.17 KDB 971168 v02r01 RF power output using broadband peak and average power meter method. KDB 971168 DO1 Power Meas License Digital Systems v02r01, "Measurement Guidance for Certification of Licensed Digital Transmitters" TESTED_ L_LTE Band 5 LTE Band 41 RESULTS PASS 16 / 30

NTEKiEm *= *A 1 "Tnln®" cortificate #4298.01 Report No.: STR190606003004E 8.2 LTE BAND 5 Radiated Power (ERP) for Band 5 Result RB/ SG Cable Anten Max. Max. Polarizati Mode RB Freque Level Loss na Corre ERP ERP on Of Conclu ney {(dBm) (dBm) Gain ction Averag Averag Max. ERP sion SIZE (dB) e e (dB) {dBm) {mW) 1. 4MHz 824.7 4.13 2.01 19.68 215 19.65 92.308 Horizontal Pass Band 6/0 836.5 417 2.01 19.77 215 19.78 95.165 Horizontal Pass QPSK 848.3 4.05 2.02 19.82 215 19.70 93.282 Horizontal Pass 3.0MHz 825.5 4.14 2.01 19.7 215 19.68 92.874 Horizontal Pass Band 1570 836.5 4.18 2.01 19.77 215 19.79 95.170 Horizontal Pass QPSK 847.5 3.98 2.02 19.81 215 19.62 91.589 Horizontal Pass 5.0MHz 826.5 3.98 2.01 19.71 215 19.53 89.696 Horizontal Pass Band 25/0 836.5 3.91 2.01 19.77 215 19.52 89.569 Horizontal Pass QPSK 846.5 3.94 2.02 19.79 215 19.56 90.350 Horizontal Pass 10.0MH 829 3.94 2.01 19.73 215 19.51 89.238 Horizontal Pass z Band 50/0 836.5 3.95 2.01 19.77 215 19.56 90.374 Horizontal Pass QPSK 844 3.89 2.02 19.78 215 19.50 89.157 Horizontal Pass 1.4AMHz 824.7 4.14 2.01 19.68 215 19.66 92.395 Vertical Pass Band 6/0 836.5 4.13 2.01 19.77 215 19.74 94.162 Vertical Pass QPSK 848.3 4.02 2.02 19.82 215 19.67 92.662 Vertical Pass 3.0MHz 825.5 412 2.01 19.7 215 19.66 92.399 Vertical Pass Band 1570 836.5 4.04 2.01 19.77 215 19.65 92.272 Vertical Pass QPSK 847.5 4.00 2.02 19.81 215 19.64 92.017 Vertical Pass 5.0MHz 826.5 3.89 2.01 19.71 215 19.44 87.918 Vertical Pass Band 25/0 836.5 3.84 2.01 19.77 215 19.45 88.148 Vertical Pass QPSK 846.5 4.07 202 19.79 215 19.69 93.005 Vertical Pass 10.0MH 829 4.06 2.01 19.73 215 19.63 91.747 Vertical Pass z Band 50/0 836.5 3.92 2.01 19.77 215 19.53 89.829 Vertical Pass QPSK 844 4.23 2.02 19.78 215 19.84 96.447 Vertical Pass Note: SG Level= Signal generator output Max. ERP Average (dBm)= Antenna Gain(dB)+ SG Level (dBm)— Cable Loss(dBm)—2.15 17 / 30

NTEKiEm *= *A 1 "Tnln®" cortificate #4298.01 Report No.: STR190606003004E Radiated Power (ERP) for Band 5 Result RB/ SG Cable Anten Max. Max. Polarizati Mode RB Freque Level Loss na Corre ERP ERP on Of Conclu ney {dBm) (dBm) Gain ction Averag Averag Max. ERP sion SIZE (dB) e e (dB) {dBm) {mW) 1.4MHz 824.7 2.89 2.01 19.68 215 18.41 69.384 Horizontal Pass Band 16 6/0 836.5 2.99 2.01 19.77 215 18.60 72.485 Horizontal Pass QAM 848.3 2.99 2.02 19.82 215 18.64 73.082 Horizontal Pass 3.0MHz 825.5 3.29 2.01 19.7 215 18.83 76.352 Horizontal Pass Band 16 15/0 836.5 315 2.01 19.77 215 18.76 75.096 Horizontal Pass QAM 847.5 2.94 2.02 19.81 215 18.58 72.108 Horizontal Pass 5.0MHz 826.5 3.04 2.01 19.71 215 18.59 72.201 Horizontal Pass Band 16 25/0 836.5 3.13 2.01 19.77 215 18.74 74.783 Horizontal Pass QAM 846.5 2.99 2.02 19.79 215 18.61 72.599 Horizontal Pass 10.0MH 829 3.28 2.01 19.73 215 18.85 76.666 Horizontal Pass z Band 50/0 836.5 3.17 2.01 19.77 215 18.78 75.484 Horizontal Pass 16 QAM 844 3.13 2.02 19.78 215 18.74 74.861 Horizontal Pass 1.4AMHz 824.7 3.11 2.01 19.68 215 18.63 72.862 Vertical Pass Band 16 6/0 836.5 3.02 2.01 19.77 215 18.63 72.956 Vertical Pass QAM 848.3 2.98 2.02 19.82 215 18.63 72.964 Vertical Pass 3.0MHz 825.5 3.06 2.01 19.7 215 18.60 72.378 Vertical Pass Band 16 15/0 836.5 316 2.01 19.77 215 18.77 75.251 Vertical Pass QAM 847.5 2.97 2.02 19.81 215 18.61 72.598 Vertical Pass 5.0MHz 826.5 3.10 2.01 19.71 215 18.65 73.317 Vertical Pass Band 16 25/0 836.5 3.11 2.01 19.77 215 18.72 74.431 Vertical Pass QAM 846.5 2.99 2.02 19.79 215 18.61 72.668 Vertical Pass 10.0MH 829 3.23 2.01 19.73 215 18.80 75.806 Vertical Pass z Band 50/0 836.5 3.26 2.01 19.77 215 18.87 77.145 Vertical Pass 16 QAM 844 3.18 202 19.78 215 18.79 75.669 Vertical Pass Note: SG Level= Signal generator output Max. ERP Average (dBm)= Antenna Gain(dB)+ SG Level (dBm)— Cable Loss(dBm)—2.15 18 / 30

NTEKJIEGiI 1 53 Certificate #4298.01 Report No.: STR190606003004E 8.3 LTE BAND 41 Radiated Power (EIRP) for Band 41 Result RB/ SG Cable Antenn Max. Max. Polarizati Mode RB Frequency Level Loss a Gain EIRP EIRP on Of Conclusio SIZE (d)Bm {dBm) (dB) Avera Average Max. ERP n ge (dBm) {mW) 5.0MHz 2537.5 —3.83 3.661 28.31 20.81 120.640 Vertical Pass Band 2570 2595 —3.73 3.758 28.22 20.74 118.462 Vertical Pass QPSK 2652.5 —3.86 3.912 28.2 20.43 110.451 Vertical Pass 10.0MH 2540 4.21 3.901 28.33 20.22 105.114 Vertical Pass z Band 50/0 2595 4.14 3.776 28.22 20.31 107.308 Vertical Pass QPSK 2650 —3.97 3.871 2819 20.35 108.393 Vertical Pass 15.0MH 2542.5 —3.79 3.894 28.34 20.65 116.266 Vertical Pass z Band 7570 2595 —3.40 3.997 28.22 20.82 120.781 Vertical Pass QPSK 2647.5 —3.83 3.94 2818 20.41 109.908 Vertical Pass 20.0MH 100 2545 —3.84 3.939 28.35 20.58 114159 Vertical Pass z Band 2595 —4.33 3.836 28.22 20.06 101.310 Vertical Pass QPSK 0 2645 —3.17 4174 2816 20.82 120.695 Vertical Pass 5.0MHz 2537.5 ~4.50 3.71 28.31 20.11 102.484 Horizontal Pass Band 2570 2595 —3.77 3.93 28.22 20.52 112.613 Horizontal Pass QPSK 2652.5 ~4.05 4.03 28.2 2012 102.731 Horizontal Pass 10.0MH 2540 —4.01 3.96 28.33 20.35 108.467 Horizontal Pass z Band 50/0 2595 —3.41 415 28.22 20.66 116.491 Horizontal Pass QPSK 2650 —3.79 3.92 2819 20.48 111.665 Horizontal Pass 15.0MH 2542.5 —3.58 3.98 28.34 20.78 119.555 Horizontal Pass z Band 7570 2595 ~4.26 3.81 28.22 20.14 103.343 Horizontal Pass QPSK 2647.5 —3.48 4.15 28.18 20.54 113.322 Horizontal Pass 20.0MH 100/ 2545 —4.21 3.70 28.35 20.44 110.748 Horizontal Pass z Band 0 2595 —3.81 4.05 28.22 20.37 108.873 Horizontal Pass QPSK 2645 —3.04 4.18 28.16 20.94 124.268 Horizontal Pass Note: SG Level= Signal generator output Max. EIRP Average (dBm)= Antenna Gain(dB)+ SG Level (dBm)— Cable Loss(dBm) 19 / 30

NTEKJE:W ACCREDITED Certificate #4298.01 Report No.: STR190606003004E Radiated Power (EIRP) for Band 41 Result RB/ SG Cable Anten Max. Max. Polarizati Mode RB Frequency Level Loss na_ eIRP EIRP on Of Conclusion {(dBm (dBm) Gain Average Averag Max. ERP SIZE ) (dB) e {dBm) {mW) 5.0MHz 2537.5 —5.20 3.80 28.31 19.31 85.354 Vertical Pass Band 16 25/0 2595 4.67 3.85 28.22 19.69 93.158 Vertical Pass QAM 2652.5 —5.22 3.83 28.2 19.15 82.215 Vertical Pass 10.0MH 2540 4.82 3.93 28.33 19.58 90.731 Vertical Pass z Band 50/0 2595 4.23 4.07 28.22 19.92 98.088 Vertical Pass 16 QAM 2650 —4.36 3.99 2819 19.84 96.327 Vertical Pass 15.0MH 2542.5 —4.96 3.84 28.34 19.55 90.062 Vertical Pass z Band 7570 2595 —5.15 4.10 28.22 18.97 78.823 Vertical Pass 16 QAM 2647.5 —5.16 3.94 2818 19.07 80.767 Vertical Pass 20.0MH 100/ 2545 —4.80 3.90 28.35 19.65 92.269 Vertical Pass z Band o 2595 ~4.98 3.80 28.22 19.43 87.784 Vertical Pass 16 QAM 2645 442 3.86 2816 19.88 97.370 Vertical Pass 5.0MHz 2537.5 —5.50 3.69 28.31 19.12 81.641 Horizontal Pass Band 16 25/0 2595 447 3.79 28.22 19.96 99.183 Horizontal Pass QAM 2652.5 —5.18 4.09 28.2 18.93 78.145 Horizontal Pass 10.0MH 2540 —5.45 3.86 28.33 19.02 79.776 Horizontal Pass z Band 50/0 2595 4.62 3.82 28.22 19.78 95.039 Horizontal Pass 16 QAM 2650 —4.64 3.96 2819 19.58 90.838 Horizontal Pass 15.0MH 2542.5 —5.44 3.83 28.34 19.07 80.778 Horizontal Pass z Band 7570 2595 ~4.47 4.02 28.22 19.73 93.999 Horizontal Pass 16 QAM 2647.5 4.29 4.06 28.18 19.82 96.033 Horizontal Pass 20.0MH 100/ 2545 4.43 3.88 28.35 20.04 100.902 Horizontal Pass z Band 0 2595 —4.53 3.86 28.22 19.82 96.023 Horizontal Pass 16 QAM 2645 —4.86 3.95 2816 19.36 86.260 Horizontal Pass Note: SG Level= Signal generator output Max. EIRP Average (dBm)= Antenna Gain(dB)+ SG Level (dBm)— Cable Loss(dBm) 20 / 30

«m \:\‘ 'v 2 NTEKiE@ * *A 1 y "hntn""" cortificate #4298.01 Report No.: STR190606003004E 9. SPURIOUS RADIATION EMISSION RULE PART(S) FCC: §2.1053, §27.53 LIMIT §22.917 (e) and §24.238 (a): Out of band emissions. 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. §27.53 (g) For operations in the 698—746 MHz band, the power of any emission outside a licensee‘s frequency band(s) of operation shall be attenuated below the transmitter power (P) within the licensed band(s) of operation, measured in watts, by at least 43 + 10 log (P) dB. §27.53 (h) For operations in the 1710—1755 MHz and 2110—2155 MHz bands, the power of any emission outside a licensee‘s frequency block shall be attenuated below the transmitter power (P) by at least 43 + 10 log10(P) dB. TEST PROCEDURE For Cellular equipment — Compliance with these rules is based on the use of measurement instrumentation employing a resolution bandwidth of 100 kHz or greater. In the 1 MHz bands immediately outside and adjacent to the frequency block a resolution bandwidth of at least one percent of the emission bandwidth of the fundamental emission of the transmitter may be employed. A narrower resolution bandwidth is permitted in all cases to improve measurement accuracy provided the measured power is integrated over the full required measurement bandwidth (i.e. 100 kHz or 1 percent of emission bandwidth, as specified). 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. For PCS equipment — Compliance with these rules is based on the use of measurement instrumentation employing a resolution bandwidth of 1 MHz or greater. However, in the 1 MHz bands immediately outside and adjacent to the frequency block a resolution bandwidth of at least one percent of the emission bandwidth of the fundamental emission of the transmitter may be employed. A narrower resolution bandwidth is permitted in all cases to improve measurement accuracy provided the measured power is integrated over the full required measurement bandwidth ( i.e. 1 MHz or 1 percent of emission bandwidth, as specified). 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. The unwanted emission power shall be measured with a resolution bandwidth of at least 1% of the occupied bandwidth in the 1 MHz band immediately outside and adjacent to the channel edge of the equipment. Beyond the 1 MHz band immediately outside the channel edge of the equipment, a resolution bandwidth of 1 MHz shall be employed. A narrower resolution bandwidth is allowed to be used provided that the measured power is integrated over the full required measurement bandwidth of 1 MHz or 1% of the occupied bandwidth as applicable. 21 / 30

NTEKIE3 *= *A 1 frlite©"" cortificate #4298.01 Report No.: STR190606003004E The power of any unwanted emissions measured from the channel edge of the equipment shall be attenuated below the transmitter power, P (dBW), as follows: a. for base station and subscriber equipment, other than mobile subscriber equipment, the attenuation shall not be less than 43 + 10 Log10 (p), dB; and b. for mobile subscriber equipment, the attenuation shall not be less than 43 + 10 Log10 (p), dB at the channel edges and 55 + 10 Log10 (p) at 5.5 MHz away and beyond the channel edges where p in (a) and (b) is the transmitter power measured in watts. MODES TESTED L_LTE Band 5 LTE Band 41 RESULTS PASS 22 / 30

NTEKIE® > 5 (Accrepitep Certificate #4298.01 Report No.: STR190606003004E 9.1 LTE BAND 5 QPSK EIRP POWER FOR LTE BAND 5 (1.4MHZ BANDWIDTH) Test Results for Low Channel 824.7MHz SG Cable Antenna Absolute Limit , , Frequency{MHz) Level(dBm) Loss(dB) Gain(dB) Level{dBm) (dBm) ols 1649.4 —53.53 2.78 27.50 —28.81 —13 —15.81 Horizontal 1649.4 —47.43 2.78 27.50 —22.71 —13 —9.71 Vertical 2474.1 —50.50 2.90 27.80 —25.60 —13 —12.60 Vertical 2474.1 —51.57 2.90 27.80 —26.67 —13 —13.67 Horizontal Test Results For Mid Channel 836.5MHz 1673.0 —53.81 2.80 27.48 —29.13 —13 —16.13 Horizontal 1673.0 —51.71 2.80 27.48 —27.03 —13 —14.03 Vertical 2509.5 —55.22 2.91 27.70 —30.43 —13 —17.43 Vertical 2509.5 —51.22 2.91 27.70 —26.43 —13 —13.43 Horizontal Test Results for High Channel 848. 3MHz 1696.6 —52.45 2.82 27.43 —27.84 —13 —14.84 Horizontal 1696.6 —52.58 2.82 27.43 —27.97 —13 —14.97 Vertical 2544.9 —48.60 2.92 27.74 —23.78 —13 —10.78 Vertical 2544.9 —53.61 2.92 27.74 —28.79 —13 —15.79 Horizontal QPSK EIRP POWER FOR LTE BAND 5 (10MHZ BANDWIDTH) Test Results for Low Channel 829MHz SG Cable Antenna Absolute Limit , , io e Level(dBm) Loss(dB) Gain(dB) Level(dBm) (dBm) Margin{dBm) ol 1658.0 —51.83 2.78 27.50 —27.11 —13 —14.11 Horizontal 1658.0 —55.11 2.78 27.50 —30.39 —13 —17.39 Vertical 2487.0 —54.34 2.90 27.80 —29.44 —13 —16.44 Vertical 2487.0 —46.86 2.90 27.80 —21.96 —13 —8.96 Horizontal Test Results For Mid Channel 836.5MHz 1673.0 —51.44 2.80 27.48 —26.76 —13 —13.76 Horizontal 1673.0 —53.53 2.80 27.48 —28.85 —13 —15.85 Vertical 2509.5 —54.54 2.91 27.70 —29.75 —13 —16.75 Vertical 2509.5 —54.29 2.91 27.70 —29.50 —13 —16.50 Horizontal Test Results for High Channel 844MHz 1688.0 —52.54 2.82 27.43 —27.93 —13 —14.93 Horizontal 1688.0 —54.27 2.82 27.43 —29.66 —13 —16.66 Vertical 2532.0 —52.47 2.92 27.74 —27.65 —13 —14.65 Vertical 2532.0 —54.88 2.92 27.74 —30.06 —13 —17.06 Horizontal Note: PMea(dBm)= Power(dBm)+ ARp! (dBm) Over Limit= : PMea(dBm})—Limit(dEBm) We test both H direction and V direction, recorded worst case direction. 23 / 30

NTEKIE® > 5 (Accrepitep Certificate #4298.01 Report No.: STR190606003004E 9.2 LTE BAND 41 QPSK EIRP POWER FOR LTE BAND 41 (5SMHZ BANDWIDTH) Test Results for Low Channel 2557.5MHz SG Cable Antenna Absolute Limit , , mt Level(dBm) Loss(dB) Gain(dB) Level{dBm) (dBm) ols 5075.0 —48.81 4.04 33.51 —19.34 —13 —6.34 Horizontal 5075.0 —50.95 4.04 33.51 —21.48 —13 —8.48 Vertical 7612.5 —54.72 5.24 35.84 —24.12 —13 11.12 Vertical 7612.5 —65.20 5.24 35.84 —34.60 —13 —21.60 Horizontal Test Results for Mid Channel 2605MHz 5190.0 —49.79 4.04 33.56 —20.27 —13 —7.27 Horizontal 5190.0 —50.19 4.04 33.56 —20.67 —13 —7.67 Vertical 7785.0 —51.39 5.24 35.91 —20.72 —13 —7.72 Vertical 7785.0 —53.38 5.24 35.91 —22.71 —13 —9.71 Horizontal Test Results for High Channel 2652.5MHz 5305.0 —50.66 4.04 34.00 —20.70 —13 —7.70 Horizontal 5305.0 —52.68 4.04 34.00 —22.72 —13 —9.72 Vertical 7957.5 —53.86 5.24 36.04 —23.06 —13 —10.06 Vertical 7957.5 —54.24 5.24 36.04 —23.44 —13 —10.44 Horizontal QPSK EIRP POWER FOR LTE BAND 41 (20.0MHZ BANDWIDTH) Test Results for Low Channel 2565MHz SG Cable Antenna Absolute Limit , , io e Level(dBm) Loss(dB) Gain(dB) Level(dBm) (dBm) Margin{dBm) ol 5090.0 —54.11 4.07 33.54 —24.64 —13 —11.64 Horizontal 5090.0 —49.37 4.07 33.54 —19.90 —13 —6.90 Vertical 7635.0 —55.87 5.28 35.86 —25.29 —13 —12.29 Vertical 7635.0 —56.65 5.28 35.86 —26.07 —13 —13.07 Horizontal Test Results for Mid Channel 2605MHz 5190.0 —53.26 4.04 33.56 —23.74 —13 —10.74 Horizontal 5190.0 —50.49 4.04 33.56 —20.97 —13 —7.97 Vertical 7785.0 —55.28 5.24 35.91 —24.61 —13 —11.61 Vertical 7785.0 —55.92 5.24 35.91 —25.25 —13 —12.25 Horizontal Test Results for High Channel 2645MHz 5290.0 —52.88 4.04 34.00 —22.92 —13 —9.92 Horizontal 5290.0 —53.56 4.04 34.00 —23.60 —13 —10.60 Vertical 7935.0 —55.59 5.24 36.04 —24.79 —13 —11.79 Vertical 7935.0 —52.31 5.24 36.04 —21.51 —13 —8.51 Horizontal Note: PMea(dBm)= Power(dBm)+ ARp! (dBm) Over Limit= : PMea(dBm})—Limit(dBm) We test both H direction and V direction, recorded worst case direction. 24 / 3 0

im «/s NTEKIEiM **3 izA 1 "hntn""" cortificate #4298.01 Report No.: STR190606003004E 10. FREQUENCY STABILITY RULE PART(S) FCC: §2.1055, §27.54 LIMITS §27.54 — The frequency stability shall be sufficient to ensure that the fundamental emission stays within the authorized frequency block. TEST PROCEDURE Use CMW 500 with Frequency Error measurement capability. L Temp. =—30° to +50°C L_ Voltage =low voltage, DC 3.2V, Normal, DC 3.85V and High voltage, DC 4.4V. Frequency Stability vs Temperature: The EUT is place inside a temperature chamber. The temperature is set to —30°C and allowed to stabilize. After sufficient soak time, the transmitting frequency error is measured. The temperature is increased by 10 degrees, allowed to stabilize and soak, and then the measurement is repeated. This is repeated until +50°C is reached. Frequency Stability vs Voltage: The peak frequency error is recorded (worst—case). MODES TESTED L_ LTE Band 5 LTE Band 41 RESULTS See the following pages. 25 / 30

NTEKJE:A * 1 frlite©"" w [accrepiten cortificate #4298.01 Report No.: STR190606003004E 10.1 LTE BAND 5 QPSK, (10MHz BANDWIDTH Frequency error vs. Voltage Voltage Frequency Frequency* Frequency Limit [Vde] [MHz] Error[Hz] Error[ppm] [ppm] BAND 5 QPSK, (CH 20525 RB size 50 RB Offset 0 10MHz BANDWIDTH) 3.4 836.5 1.15 0.001375 2.5 3.85 836.5 112 0.001339 2.5 4.2 836.5 1.11 0.001327 2.5 Frequency error vs. Temperature Temperature Frequency Frequency* Frequency Limit [°* C] [MHz] Error[Hz] Error[ppm] [ppm] BAND 5 QPSK, (CH 20525 RB size 50 RB Offset 0 10MHz BANDWIDTH) Normal (25C) 836.5 1.06 0.001267 2.5 Extreme (500) 836.5 1.16 0.001387 2.5 Extreme (400) 836.5 1.11 0.001327 2.5 Extreme (30C) 836.5 1.09 0.001303 2.5 Extreme (10C) 836.5 1.08 0.001291 2.5 Extreme (0C) 836.5 1.07 0.001279 2.5 Extreme (—10C) 836.5 1.13 0.001351 2.5 Extreme (—20C) 836.5 1.21 0.001447 2.5 Extreme (—30C) 836.5 1.13 0.001351 2.5 26 / 30

NTEKJE:W OS (Acerebitep Certificate #4298.01 Report No.: STR190606003004E 16QAM, (10MHz BANDWIDTH Frequency error vs. Voltage Voltage Frequency Frequency* Frequency Limit [Vde] [MHz] Error[Hz] Error[ppm] [ppm] BAND 5 16QAM, (CH 20525 RB size 50 RB Offset 0 10MHz BANDWIDTH) 3.4 836.5 0.47 0.000562 2.5 3.85 836.5 0.35 0.000418 2.5 4.2 836.5 0.39 0.000466 2.5 Frequency error vs. Temperature Temperature Frequency Frequency* Frequency Limit [* C] [MHz] Error[Hz] Error[ppm] [ppm] BAND 5 16QAM, (CH 20525 RB size 50 RB Offset 0 10MHz BANDWIDTH) Normal (25C) 836.5 0.38 0.000454 2.5 Extreme (500) 836.5 0.29 0.000347 2.5 Extreme (400) 836.5 0.29 0.000347 2.5 Extreme (30C) 836.5 0.31 0.000371 2.5 Extreme (100C) 836.5 0.33 0.000395 2.5 Extreme (0C) 836.5 0.33 0.000395 2.5 Extreme (—10C) 836.5 0.31 0.000371 2.5 Extreme (—200) 836.5 0.39 0.000466 2.5 Extreme (—30C) 836.5 0.38 0.000454 2.5 *Note: Frequency error measurements were made by using the build—in capability of the Wireless Communication Test Set. 27 / 30

NTEKJCiW > 1 frlite©"" w [accrepiten cortificate #4298.01 Report No.: STR190606003004E 10.2 LTE BAND 41 QPSK, (20MHz BANDWIDTH Frequency error vs. Voltage Voltage Frequency Frequency* Frequency Limit [Vde] [MHz] Error[Hz] Error[ppm] [ppm] QPSK, (CH 40740 RB size 100 RB Offset 0 20MHz BANDWIDTH) 3.4 2595 —29.62 —0.011414 2.5 3.85 2595 —26.83 —0.010339 2.5 4.2 2595 —26.47 —0.010200 2.5 Frequency error vs. Temperature Temperature Frequency Frequency* Frequency Limit [°* C] [MHz] Error[Hz] Error[ppm] [ppm] QPSK, (CH 40740 RB size 100 RB Offset 0 20MHz BANDWIDTH) Normal (25C) 2595 —26.37 —0.010162 2.5 Extreme (500) 2595 —26.11 —0.010062 2.5 Extreme (400) 2595 —26.24 —0.010112 2.5 Extreme (30C) 2595 —26.27 —0.010123 2.5 Extreme (10C) 2595 —25.83 —0.009954 2.5 Extreme (0C) 2595 —26.91 —0.010370 2.5 Extreme (—10C) 2595 —27.17 —0.010470 2.5 Extreme (—200) 2595 —26.63 —0.010262 2.5 Extreme (—30C) 2595 —26.77 —0.010316 2.5 28 / 30

NTEKJE:W OS (Acerebitep Certificate #4298.01 Report No.: STR190606003004E 16QAM, (20MHz BANDWIDTH Frequency error vs. Voltage Voltage Frequency Frequency* Frequency Limit [Vde] [MHz] Error[Hz] Error[ppm] [ppm] GQAM, (CH 40740 RB size 100 RB Offset 0 20MHz BANDWIDTH) 3.4 2595 —36.29 —0.013985 2.5 3.85 2595 —34.83 —0.013422 2.5 4.2 2595 —34.97 —0.013476 2.5 Frequency error vs. Temperature Temperature Frequency Frequency* Frequency Limit [* C] [MHz] Error[Hz] Error[ppm] [ppm] 16QAM, (CH 40740 RB size 100 RB Offset 0 20MHz BANDWIDTH) Normal (25C) 2595 —34.27 —0.013206 2.5 Extreme (500) 2595 —34.76 —0.013395 2.5 Extreme (400) 2595 —34.21 —0.013183 2.5 Extreme (30C) 2595 —35.38 —0.013634 2.5 Extreme (10C) 2595 —34.47 —0.013283 2.5 Extreme (0C) 2595 —35.19 —0.013561 2.5 Extreme (—10C) 2595 —33.93 —0.013075 2.5 Extreme (—200) 2595 —33.56 —0.012933 2.5 Extreme (—300) 2595 —34.27 —0.013206 2.5 *Note: Frequency error measurements were made by using the build—in capability of the Wireless Communication Test Set. 29 / 30

F.nWpZ> E2L NTEKIE:M "" 33 * Ne / s 1 ® Certificate #4298.01 Report No.: STR190606003004E 11. Peak—to—Average Ratio 11.1 Description of the PAR Measurement The peak—to—average ratio (PAR) of the transmission may not exceed 13 dB. 11.2 Measuring Instruments See list of measuring instruments of this test report. 11.3 Test Procedures 1. The EUT was connected to Spectrum Analyzer and Base Station via power divider. 2. 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. 3. For GSM/EGPRS operating modes: a. Set the RBW = 1MHz, VBW = 1MHz, Peak detector in spectrum analyzer. b. Set EUT in maximum power output, and triggered the burst signal. c. Measured respectively the Peak level and Mean level, and the deviation was recorded as Peak to Average Ratio. 4. For UMTS operating modes: a. Set the CCDF (Complementary Cumulative Distribution Function) option in spectrum analyzer. b. The highest RF powers were measured and recorded the maximum PAPR level associated with a probability of 0.1 %. 11.4 Test Setup CS System Simulater Power Divider EUT C—]— Spectrum Analyzer MODES TESTED L LTE Band5 LTE Band 41 Test data reference attachment ————END OF REPORT———— 30 / 30


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Document Modified: 2019-07-19 14:23:15
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