SAR Test Report Part II

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RF Exposure Info

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Calibration Laboratory of «un g. Schveiseitchr albrarciont Schmid & Partner g. Seviee susse tainage Engineering AG g. inionimedtnue Hovnhavssvanse 436004 turch, Sviorond SuissCativatonSeice Acustod y e Suis Acrstaion Sevee 689) Accrestaton o SCS 0108 The Sss Accrostation Service is oneof hesignatores o the EA MitiaratAgrcoment o threcoqnitono catbratoncerifetos ciem ‘Oniétech (Dymstee) Catifcaiene: EX3—3032_Feb19 CALIBRATION CERTIFICATE Ome exsove — shiasse Cottratonncensiet) OA CAL—0149, OA CAL—1240, OA CAL—14v$, OA CAL—23v8, OA CAL2507 Callbratin procedure for dosimetric E—feld probes Cattatontte February 27, 2019 Thiscaivaion cutfeadoumens m vaceasity tonaoral tandarts, wich eaze e oyseal uns o measrenents 90 Tremeosrenont andine crceainis uin contdarc rotadity areaven on h ofoung ces and av pao thecontcate Alcaltvatons have been conuces in hacoseslabontay ocenvromenumpeie(2237C and humay «on CaltatenEadement ied (MATE ercaltrcattaton) memtran aaes sio cnpeCeneneme) enmentines— mss hy is feaomae, ie inoae ntnemrae t.. Te ns mes ie m ieies fnoemie werescam —|caere Mrommems— ts fietiereuttnt fart se Femnie Eons Snin CE———] memares reapemeontnB amager nmeeden in fnmmerinten fmeiin— ies umt mnmngmmmrnnnneiy Wrlb —|nmapennes inandiesAnih nmngin hase mmurmnne meonts— inviaoumt itmar —|nepmemmnenind —nmmaetnes Enrenrmmmememinerrcn cumamsm Cansumer nnfgmees j‘ Apooresty rampoore Tichna Maviger % isuns Fatray 20. 2010 Thicaltaion cutfs shlnothe esrssend mortin l ibout witen anoontotteavontoy Cortfeate No Exs—3esz ronto Page tot20

r Calibration Laboratory of . Sehveizenscher Kib Schmid & Partner . Sericesuise Engineering AG g. Sntesimeedunin iovghavsstaase 43 6004 2urch, Suteo Swies Cattraton Serice Acnste by e Siss AcrusatonServce 6AS) Aecredtaton no: SCS 0108 Te Swiss Accedtaton Sarice on otthesinatorest tEA Muatistrt Agreementortherecognitonofctbraton cotents Glossary: Tst issue simulatng lqud NoRMcyz sensitviy in free space Cont sensitviy in TSL / NORMicyiz oce diode compression point C erest facto(1idty_cyele) f the RF signal A.8.c.0 modiaton dependent Incarization parameters Pobarzationy o rotation around probe ax‘s Polarzation 8 8 rotationaround an ax‘s that is in the plane normal o probe axis(at measurement cented. ie., 0 is nommal t probe as Comector Angle information used in DASY system to algn probe sensorX to therobot coordinate system Calibration is Performed According to the Following Standards: a). IEEE Sid 1528—2019, EBE Recommended Practic for Dotormining the Poak Spatal—Averaged Speciic Absorption Rate (GAR) n the Human Head from Wireloss Communicatons Devices: Measurement Techniques®, Jine 2013 b) 120 62200—1, ‘Measurement procedureforthe assessmentof Spociic Absoriion Rate (SAR) fom hand— held and body—mounted devices used next to the ear (requency range of 300 Niz 6 GHiz), Juy 2016 e). 120 62200—2, "Procedureto determine the Specife Absorpton Rate (GAR)for wreless communication devices used in close proximit o the human body (reauency range of 30 iz o 6 GHiz‘, March 2010 4) KDB 865064, SAR Measurement Requirements for 100 Niz o 6 Gitz Methods Applied and Interpretation of Parameters: NORMyz: Assessed for E—feld polanzation8 = 0 (fs 900 MHzi TEN—calt {> 1800 MHHz: R22 waveguide) NORMicy.z are onlyintermedate values,ie.the uncertaintes of NORV does not affec he E—feld uncertinty nside TSL (sce below Cony). NORM(Dy.a = NORMxyx * requency.response (see Erequency Respanse Char). This incarzatonis implemented in DASY4 software versions lterthan 4.2. The uncertaity of the requency response is included in the stated uncertainty of Convs DGPry:2: DCP are numerical incarization paramaters assessed based on the data of power sweep with CW sigal (ro uncertaintyrequired). DCP does not depend on fequency nor media PAR: PRR is the Peak to Average Ratlo that is not calbrated but determined based on the signal characterstcs Any; Buy.a: Ciy.x: Dey.z: VRxy.a: A B, C, D are numenicalInearization parameters assessed based on the data of power sweep for specifc modulaton signal. The parameters do not depend on frequency nor meeia. VRisthe maximum calbration range expressed in RNMG vollage across the clade. CormP und Boundary Effect Parammaters Assessd in fut pranlom using E—lld (or Temperature Transter Standard for? = 800 NMFz) and insde wavequide using analytcalfld distibutions based on power measurementsfo{> 00 MHe. The same setups are used for assessment ofthe parameters appled for boundary compensation (alsha, depih)of which tysical uncertintvalues are gven. These paramaters are used in DASY4 software to improve probe accuracy close t the boundary. The sensitviy in TSL corresponds to NORMx3.z * Convwhereby tuncertainty corespands to hat given or Cony£. A frequency dependent ConvE is used in DASY version 4.4 and higher which allows extending the valdty from 2 50 MHz t+ 100 ie Sphericaisotrapy (30 deviaton from isotrapy}in a feld oflow gradientsrealized using a fat phantom exposed by a patch antemna. Sensor Offet The sensoroffset comesponds to the offse f vitual measurement cente from the probe t (on probe axis). No toerance requred Connector Angle: The angle is assessed using the information gained by determining the NOR(no uncertaintrequred) Centcate No: 9—3802.robto Page 2t 20

EX3DV4 — SN:3832 February 27, 2019 DASY/EASY — Parameters of Probe: EX3DV4 — SN:3832 Basic Calibration Parameters Sensor X Sensor Y Sensor 2 Une(k=2) Norm (uV/(V/im)") 0.44 0.44 0.57 £10.1% DCP (mV)" 1021 100.2 1035 Calibration Results for Modulation Response UiD Communication System Name A s & D vr Max Max aB aBapy as my dev. Unc® (k2) 0 Cw x ooo |_0.00 100 oo0 iée1_| £30% £47% y aco 000 100 1736 z oco o00 100 T795 10352— Pulse Waveform (200Hz, 10%) x is0o seor 2138 1000 600| £31% £86% AAA y is00 8773 2050 60.0 z is00 so44 2120 60.0 10363— Pulse Waveform (200Hz, 20%) X isoo see2 2ose 609 |_s00 i14% £96% AAA Y 1500 sasr 19.3 €0.0 z isoo sosr 2071 s0.0 10354— Pulse Waveform (200Hz, 40%) x fsoo sisr 215 a0s 50 +12% +96% AAA Y 1500 saee 1791 95.0 z is00 sas1 2083 95.0 10355— Pulse Waveform (200Fiz, 60%) x is00 fozi? Pasr 222 1200 £12% +96% AAA Y 1500 sess 15.16 120.0 2 is00 8808 2167 120.0 10387— QPSK Waveform, 1 MHz x oss sser iz03 ooo 1500 £29% +96% AAA y oss so00 727 150.0 z oso sa14 1024 150.0 10386 QPSK Waveform, 10 MHz X 2ss foss irir| o00 is00 113% £96% AAA y 2os s6ar 1493 150.0 Z 235 6006 1618 150.0 10396 64—QANM Waveform, 100 khz x se3 Tser 2o23 a01 1500 207% 196% AAA Y 2ee sose 1820 150.0 2 s5e Toas i093 150.0 10309— 64—0AM Waveform, 40 MHz X see seis 1641_| o00 1500 223% £96% AAA y s40 soee 1546 150.0 2 s44 aro2 1569 150.0 10414—— WLAN CCDF, 64—OANM, 40MHz x 4ss sei1 isge ooo is00 244% 206 % AAA y 470 ss4o 1543 150.0 z ar ssat 1536 150.0 Note: For details on UID parameters see Appendix The reported uncertainty of measurement is stated as the standard uncertainty of measurement multiplied by the coverage factor k=2, which for a normal distribution corresponds to a coverage probability of approximately 95%. * The uncertainties of Norm X‘Y,Z do not afect the E—fild uncertainty inside TL (see Pages 5 and 6). * Numerical inearization paremeter. uncertainty not requred * Uncertainty is determined using the max. deviation from Iinear response applying rectangular distrbution and is expressed for the square of the field value. Certficate No: EX3—3832_Feb19 Page 3 of 20

EX3DV4— SN:3832 February 27, 2019 DASY/EASY — Parameters of Probe: EX3DV4 — SN:3832 Sensor Model Parameters ci C2 a T T2 Ts T4 T5 To | is fF in ms.V* ms.V~‘ ms 2 y X 49.2 363.41 35.01 18.01 0.76 5.08 1.15 0.40 1.01 ¥ 44.4 340.08 37.15 13.78 0.85 5.08 0.00 0.61 1.01 2 47.5 346.99 34.23 20.04 0.38 5.10 143 0.31 1.01 Other Probe Parameters Sensor Arrangement Triangular Connector Angle (°) 55.8 Mechanical Surface Detection Mode enabled Optical Surface Detection Mode disabled Probe Overall Length 337 mm Probe Body Diameter 10 mm Tip Length 9 mm Tip Diameter 2.5 mm Probe Tip to Sensor X Calibration Point 1 mm Probe Tip to Sensor Y Calibration Point 1 mm Probe Tip to Sensor Z Calibration Point 1 mm Recommended Measurement Distance from Surface 1.4 mm Certficate No: EX3—3832_Feb19 Page 4 of 20

EX3DV4— SN:3832 February 27, 2019 DASY/EASY — Parameters of Probe: EX3DV4 — SN:3832 Calibration Parameter Determined in Head Tissue Simulating Media Relative Conductivity Depth ° Une £(MHz)®_|_Permitivity" (S/m)" ConvFX ConyFY ConvFZ Alpha® |__(mm) (k=2) 150 523 0.76 11.50 11.50 11.50 0.00 1.00 £133% 300 45.3 0.87 10.87 10.87 10.87 0.07 130 £133% 450 435 0.87 10.21 10.21 1021 0.15 130 £133% 750 41.9 0.89 9.97 9.97 9.97 0.52 0.80 £120% 835 415 0.90 9.19 9.19 9.19 o.54 085 £120% 900 41.5 0.97 9.05 9.05 9.05 0.40 0.05 £120% 1750 40.1 1.37 8.10 8.10 8.10 0.36 0.85 £120% 1950 40.0 1.40 7.78 7.78 7.78 0.30 085 £120% 2300 s0.5 1.67 737 737 73r o.37 085 £120% 2450 30.2 1.80 zm 711 L 0.34 088 £120% 2600 30.0 1.96 7.00 7.00 7.00 0.41 085 £120% 3500 37.9 2.91 6.80 6.80 6.80 0.23 120 £13.1% 3700 37.7 3.12 6.60 6.60 6.60 0.23 1.20 *13.1 % 5200 36.0 4.66 5.18 5.18 5.18 0.40 1.80 £13.1% 5300 36.9 4.16 5.05 5.05 5.05 0.40 1.80 £131% 5500 35.6 4.96 4.1 4.m 4.m 0.40 1.80 £131% 5600 35.5 5.07 4.59 4.59 4.59 0.40 1.80 £131% 5800 35.3 527 4.67 4.67 4.67 0.40 1.80 £131% © Frequency validity above 300 MHz of + 100 MHz only applies for DASY v¥.4 and higher (see Page 2), else t is restrcted to + 50 MHz. The uncertainty is the RSS of the Conv uncertainty at callbrtion frequency and the uncertaintyfor the indicated frequency band. Frequency validty below 300 itz is + 10, 25, 40, 50 and 70 MHz for ConvE asseesments at 30, 64, 128, 150 and 220 MHz respectively. Validty of Conv‘: assessed at 8 MHz is 4.9 MHz, and ConvF assessed at 13 MHis 9—19 MHz. Above 5 GHz frequency vality can be extended to + 110 MHz. * At frequencies below 3 GHz, the validity of tissue parameters (e and a) can be relaxed to + 10% i liquid compensation formula is applied to measured SAR values. Atfrequencies above 3 GHz,the valldty of tssue parameters ( and a)is restricted to + 5%. The uncertainty s the RSS of the Corv uncertainty for indicated target tssue parameters ® AlphaDepth are determined during callbration. SPEAG warrants that the remaining deviation due to the boundary effect after compensation is always less than + 1% for frequencies below 3 GHz and below + 2% for frequencies between 3.GHz at any distance larger than halfthe probe tip diameter from the boundary: Certficate No: EX3—3832_Feb19 Page 5 of 20

EX3DV4— SN:3832 February 27, 2019 DASY/EASY — Parameters of Probe: EX3DV4 — SN:3832 Calibration Parameter Determined in Body Tissue Simulating Media Rel Conductivity Depth Une £ (Mia) C (Sm)" ConvFX ConvF¥ ConvFZ Aipha® (mm) (ke2) 150 61.9 0.80 11.05 11.05 11.05 0.00 1.00 £133% 300 58.2 0.92 10.61 10.61 10.61 0.04 130 £133% 450 56.7 0.94 10.46 10.46 10.46 0.09 130 £133% 750 55.5 0.96 9.36 9.36 9.36 o.54 0.80 £120% 835 55.2 o.97 9.13 9.13 9.13 0.48 0.81 +12.0 % 200. 55.0 1.05 8.93 8.93 8.93 o.44 0.88 £120% 1750 534 149 762 7.62 7.62 0.42 0.85 £120% 1950 53.3 1.52 per 757 7.67 0.32 0.99 £120% 2300 52.9 1.81 723 723 723 0.43 0.86 £120% 2450 52.7 1.95 7.19 7.19 7.19 0.42 0.89 £12.0 % 2600 525 216 7.14 714 7.14 0.31 0.90 £120% 3500 51.3 331 6.56 5.56 6.56 025 125 £13.1% 3700 51.0 $.55 6.29 6.29 6.29 0.25 1.25 £19.1% 5200 49.0 5.30 4.69 4.69 4.69 0.50 190 £131% 5300 48.9 542 4.54 4.54 4.54 0.50 1.90 £13.1% 5500 48.6 5.65 4.14 4.14 4.14 0.50 1.90 131 % 5600 48.5 5.77 4.04 4.04 4.04 0.50 190 £13.1% 5800 48.2 6.00 4.12 4.12 4.12 0.50 1.90 £19.1% © Frequency valiity above 300 MHz of + 100 MHz only applies for DASY v4.4 and higher (see Page 2), else t is restricted to + 50 MHz. The uncertainty is the RSS of the Conv: uncertainty at calibration frequency and the uncertainty forthe indicated frequency band. Frequency valiity below 300 WHz is + 10, 25, 40, 50 and 70 MHz for ConvE: assessments at 30, 64, 128, 150 and 220 MHz respectively. Vality of Gonv: assessed at 8 MHz is 4—9 MHz, and Convassessed at 13 MHz is 9—19 MHz. Above 5 GHz frequency validty can be extended to = 110 MHz. "Atfrequencies below 3 GHz, the validty of issue parameters (c and a) can be relaxed to + 10% ifiquid compensation formula is applied to measured SAR values. Atfrequencies above 3 GHz, the valldty of tsue parameters (t and a) is restreted to + 5%. The uncertainty is the RSS of the ConvE uncertainty for indicated target issue parameters © AlphaTDepth are determined during calibration. SPEAG warrants that the remaining deviation due to the boundary effect ater compensation is always less than + 1% forfrequencies below 3 GHz and below + 2% for frequencias between 3—6 GHz at any distance larger than half the probe tip diameter from the boundary. Certficate No: EX3—3832_Fob19 Page 6 of 20

exsov—cusese Fobruary 272010 Frequency Response of E—Field ¥of : 8 ; : 5 (TEM—Cellsif110 EXX, Waveguide: R22) Frequeney response (normalized) 3 & & e Cortfcate No: xo—a002.reoto Page o 20

exsov—snaese Foomany 27, 2010 Receiving Pattern (¢), 3 = 0° £=600 MHz.TEM (=1800 MHz.R22 ns <« x« % x Brortatt ash E3 4 i 4 o Rat] ec a nifihe Uncertainty of Axial sotropy Assossment: £ 0.5% (ke2) Contcate No: x9—3802.robro Page sot 20

ecov—susese Febuary 27, 2010 Dynamic Range f(SARner) (TEM cell , fo,= 1900 MHz) fe 10 3 10 &$ £c0 10 + + io to 10 io 10 10 SA [mWems) o rotcompansated compensated € & io tos tor to to io 10 SAR [ntWlemd] eal ) retcongansates compersates Uncertainty of Linearity Assessmant:£ 0.6% (ke2) Centtcate No: .320zFeoto Page aotz0

exaov~ snause Fabruary 27. 2010 Conversion Factor Assessment 1= 900 hkz wGLS Ro (1_come) 1= t7s0 Mz WaLs Ra® (4_contt) «> ahe * #. 3. Deviation from Isotropy in Liquid Error (6, 9), £= 900 MHz Devaim —0 cos cas o« »or. ce o2 or os os 19 Uncertainty of Spherical Isotropy Assessment: 2.6% (ke2) Certfcate No: Exo—a802reoto Page 10 ot 20

EX3DV4~ SN:3832 February 27, 2019 Appendix: Modulation Calibration Parameters uio Rev Communication System Name | Group PAR Une" (dB) (2) 0 Cw CW 0.00 £4.7 % 10010 CAA SAR Validation (Gquare, 100ms, 10ms) Test 10.00 £9.6 % 10011 CAB UMTS—FDD (WCDMA) WCDMA 2.91 £9.6% 10012__| CAB IEEE 802.1th WiFi 2.4 GHz (DSSS, 1 Mbps) WLAN 167 £96% 10013 CAB IEEE 802.119 WiFi 2.4 GHz (DSSS—OFDM. 6 Mbps) WLAN 9.46 +9.6% 10021 DAG GSM—FDD (TDMA, GMSK) GSM 9.39 £9.6 % 10023 DAG GPRS—FDD (TDMA, GMSK, TN 0) GSM 9.57 £9.6 % 10024 DAG GPRS—FDD (TDMA, GMSK, TN0—1) GSM 6.56 £9.6 % 10025 DAC EDGE—FDD (TDMA, BPSK, TN 0) GSM 1262 £96% 10026 DAG EDGE—FDD (TDMA, 8PSK, TN 0—1) GSM 9.55 £9.6 % 10027 DAG GPRS—FDD (TDMA, GMSK, TN 0—1—2) GSM 4.80 £9.6% 10028 DAG GPRS—FDD (TDMA, GMSK, TN 0—1—2—3) GSM 3.55 £9.6 % 10029 DAC EDGE—FDD (TDMA, 8RSK, TN 0—1—2) GSM 7.78 +9.6% 10030 CAA IEEE 802.15.1 Bluetooth (GFSK, DH1) Bluetooth 5.30 £96% 10031 CAA IEEE 802.15.1 Bluetooth (GFSK, DH3) Bluetooth: 1.87 £9.6 % 10032 CAA IEEE 802.15.1 Bluetooth (GFSK, DH5) Bluetooth: 1.16 £9.6% 10033 CAA IEEE 802.15.1 Bluetooth (PU4—DQPSK, DH1) Bluetooth 7.14 296 % 10034 CAA IEEE 802.15.1 Bluetooth (PI4—DQPSK, DH3) Bluetooth: 4.53 +9.0 % 10035 CAA IEEE 802.15.1 Bluetooth (PUd—DQPSK, DHS) Bluetooth 3.83 £9.0% 10036 CAA IEEE 802.15.1 Bluetooth (8—DPSK, DH1) Bluetooth 8.01 £9.6 % 10037 CAA_| IEEE 802.15.1 Bluetooth (6—DPSK, DH3) Bluetooth 4.77 29.6 % 10038 CAA IEEE 802.15.1 Bluetooth (6—DPSK, DHS) Bluetooth 4.10 +9.0 % 10039 CAB CDMA2000 (1xRTT, RC1) CDMA2000 4.57 £9.6% 10042 CaAB 16—54 / 15—136 FDD (TDMA/FDM, PI4—DGPSK, Halfrate) AMPS 7.78 196 % 10044 CAA 15—91/EIA/TIA—553 FDD (FDMAFM) AMPS 0.00 +9.6 % 10048 CAA DECT (TDD, TOMA/FDM, GFSK, Full Slot, 24) DECT. 1380 £96% 10049 CAA DECT (TDD, TOMA/FDM, GFSK, Double Slot 12) DECT 10.79_| £9.6% 10056 CAA UMTS—TDD (TD—SCDMA, 1.28 Mops) TO—SCDMA 11.01 £9.0 % 10058 DAC EDGE—FDD (TDMA, 8RSK, TN 0—1—2—3) GSM 6.52 £9.6 % 10059 CAB IEEE 802.11b WiFi 2.4 GHz (DSSS, 2 Mops) WLAN 2.12 £9.6 % 10060 CAB IEEE 802.11b WiFi 2.4 GHz (DSSS, 5.5 Mbps) WLAN 283 £9.6 % 10061 CAB IEEE 802.1t6 WiFi 2.4 GHz (DSSS, 11 Mops) WLAN 3.60 196 % 10062 CAG IEEE 802.1 taihWiFI 5 GHz (OFDM, 6 Mops) WLAN 8.68 £9.0 % 10063 CAG IEEE 802.11a/hWiFi 5 GHz (OFDM, 9 Mops) WLAN 8.63 29.6 % 10064 CAG IEEE 802.11a/h WiFi 6 GHz (OFDM, 12 Mbps) WLAN 9.09 296 % 10065 CAG IEEE 802.1 1/ WiFi 5 GHez (OFDM, 18 Mops) WLAN 9.00 £9.6% 10066 CAG IEEE 802.1a/h WiFi 5 GHz (OFDM, 24 Mbps) WLAN 9.38 +9.0 % 10067 CAG__| IEEE 802.1a/h WiFi 5 GHe (OFDM. 36 Mbps) WLAN 10.12 +96% 10068 CAG IEEE 802.11a/h WiFi 5 GHez (OFDM, 48 Mbps) WLAN 10.24 £86% 10069 CAC IEEE 802.11a/h WiFi 5 GHe (OFDM, 54 Mbps) WLAN 10.56 £9.6% 10071 CAB IEEE 802.119 WiFi 2.4 GHz (DSSS/OFDM, 9 Mbps) WLAN 9.83 £9.6 % 10072 CaAB IEEE 802.119 WiFi 2.4 GHz (DSSS/OFDM; 12 Mbps) WLAN 9.62 +9.0 % 10073 CaB IEEE 802.119 WiFi 2.4 GHz (DSSS/OFDM, 18 Mops) WLAN 9.94 £9.6% 10074 CAB IEEE 802.119 WiFi 2.4 GHe (DSSS/OFDM, 24 Mops) WLAN 10.30_| £9.6% 10075 CaAB IEEE 802.119 WiFi 2.4 GHz (DSSS/OFDM, 36 Mops) WLAN 10.77 296% 10076 CAB IEEE 802.119 WiFi 2.4 GHz (DGSSIOFDM48 Mbps) WLAN 10.94 £9.6% 10077 CAB IEEE 802.119 WiFi 2.4 GHz (DSSS/OFDM, 54 Mbps) WLAN 11.00 29.6% 10081 CAB CDMA2000 (1xRTT, RG3) GDMA2000 3.97 296 % 10082 CAB 15—54 / 15—136 FDD (TDMAIFDM, PI4—DGPSK, Fullrate) AMPS 4.77 £9.6% 10090 DAG GPRS—FDD (TDMA, GMSK, TN 0—4) GSM 6.96 £9.6 % 10097 CAB UMTS—FDD (HSDPA) WGDMA 3.98 £9.6% 10098 CAB UMTS—FDD (HSUPA, Subtest 2) WCDMA 3.98 £9.6 % 10099 DAG EDGE—FDD (TDMA, 8PSK, TN 0—4) GSM 9.55 +9.0 % 10100 CAE LTE—FDD (SG—FDMA, 100% RB, 20 MHz. QPSK) LTE—FDD 5.07 £9.6 % 10101 CAE LTE—FDD (SG—FDMA, 100% RB, 20 MHz. 16—QAM) LTE—FDD 6.42 +9.0 % 10102 CAE LTE—FDD (SC—FDMA, 100% RB, 20 MHz, 64—0AM) LTE—FDD 6.60 +9.6% 10103 CAG_| LTE—TDD (SG—FDMA, 100% RB, 20 MHz. GPSK) LTE—TDD 9$.29 +9.0 % 10104 CAG_| LTE—TDD (SC—FDMA, 100% RB. 20 MHz. 16—0AM) LTE—TDD 9.97 +9.6 % 10105 CAG_| LTE—TDD (SG—FDMA, 100% RB, 20 MHz. 64—GAM) LTE—TDD 10.01 +9.6% 10108 CAG LTE—FDD (SC—FDMA, 100% RB, 10 MHz. GPSK) LTE—FDD 5.80 £9.6 % Certficate No: EX3—3832_Feb19 Page 11 of 20

EX3DV4— SN:3832 February 27, 2019 10109 CAG_| LTE—FDD (SG—FDMA, 100% RB, 10 MHz. 16—G0AM) LTE—FDD _| 6.43 £9.0% 10110 CAG_| LTE—FDD (SG—FDMA, 100% RB, 5 MHz. QPSK) LTE—FDD _| 5.75 £9.6% 10111 CAG LTE—FDD (SC—FDMA, 100% RB. 5 MHz. 16—QAM) LTE—FDD 644 £9.6% 10112 CAG LTE—FDD (SC—FDMA, 100% RB, 10 MHiz. 64—QAM) LTE—FDD 6.59 +9.6% 10113 CAG LTE—FDD (SC—FDMA, 100% RB. 5 MHz. 64—QAM) LTE—FDD 6.62 +9.0 % 10114 CAG IEEE 802.11n (HT Greenfield. 13.5 Mops, BPSK) WLAN 8.10 +96% 10115 CAG IEEE 802.11n (HT Greenfield, 81 Mops, 16—QANM) WLAN 8.46 +9.0 % 10116 CAG IEEE 802.11n (HT Greenfield, 135 Mbps, 64—GAM) WLAN 8.15 +9.6 % 10117 CAG IEEE 802.11n (HT Mixed, 13.5 Mbps, BPSK) WLAN 8.07 +9.6 % 10118 CAG IEEE 802.11n (HT Mixed, 81 Mbps, 16—QAM) WLAN 8.59 1+9.6 % 10119 CAG IEEE 802.11n (HT Mixed, 135 Mbps, 64—QAM) WLAN: 8.13 +968 % 10140 CAE LTE—FDD (SC—FDMA, 100% RB, 15 MHz. 16—QAM) LTE—FDD 6.49 £9.6 % 10141 CaE LTE—FDD (SC—FDMA, 100% RB, 15 MHz. 64—GAM) LTE—FDD 6.53 196 % 10142 CAE LTE—FDD (GC—FDMA, 100% RB, 3 MHiz, OPSK) LTE—FDD 5.73 1+9.6 % 10143 CAE LTE—FDD (SG—FDMA, 100% RB, 3 MHz, 16—0ANM) LTE—FDD 6.35 +9.6 % 10144 CAE LTE—FDD (SG—FDMA, 100% RB, 3 MHz, 64—0AM) LTE—FDD 6.65 £9.6 % 10145 CaF LTE—FDD (SC—FDMA, 100% RB, 1.4 MHz, QPSK) LTE—FDD 5.76 196 % 10146 CAF_| LTE—FDD (SG—FDMA, 100% RB. 1.4 MHz, 16—QAM) LTE—FDD 641 196 % 10147 Car LTE—FDD (SC—FDMA, 100% RB, 1.4 MHz, 64—QAM) LTE—FDD 6.72 196 % 10149 CAE LTE—FDD (SG—FDMA, 50% RB, 20 MHiz, 16—QAM) LTE—FDD 642 296 % 10150 CAE LTE—FDD (SC—FDMA, 50% RB. 20 MHz. 64—QAM) LTE—FDD 6.60 196 % 10151 CAG LTE—TDD (SC—FDMA, 50% RB. 20 MHz,_QPSK) LTE—TDD 9.28 296 % 10152 CAG LTE—TDD (SC—FDMA, 50% RB. 20 MHz. 16—QAM) LTE—TDD 9.92 +936 % 10153 CAG_| LTE—TDD (SG—FDMA, 50% RB, 20 MHz. 64—QANM) LTE—TDD 10.05 £96% 10154 CAG LTE—FDD (SC—FDMA, 50% RB, 10 Mriz, QPSK) LTE—FDD 5.75 £96% 10155 CAG_| LTE—FDD (SG—FDMA, 50% RB, 10 MHz. 16—QAM) LTE—FDD 645 296 % 10156 CAG_| LTE—FDD (SG—FDMA, 50% RB, 5 MHz, QPSK) LTE—FDD 5.79 1+96 % 10157 CAG LTE—FDD (SC—FDMA, 50% RB, 5 MHz, 16—QAM) LTE—FDD 6.49 +96 % 10158 CAG LTE—FDD (SG—FDMA, 50% RB, 10 MHz. 64—0AM) LTE—FDD 6.62 196 % 10159 CAG LTE—FDD(SC—FDMA, 50% RB, 5 MHz, 64—GAM) LTE—FDD 6.56 +9.6 % 10160 CAE LTE—FDD (GG—FDMA, 50% RB, 15 MHz, OPSK) LTE—FDD 5.82 196 % 10161 CAE LTE—FDD (GG—FDMA, 50% RB, 15 MHz, 16—0AM) LTE—FDD 643 +9.6 % 10162 CaE LTE—FDD (SC—FDMA, 50% RB, 15 MHz, 64—0AM) LTE—FDD 6.58 £9.6 % 10166 Car LTE—FDD (SC—FDMA, 50% RB, 1.4 MHz, QPSK) LTE—FDD 5.46 £9.6 % 10167 CaF LTE—FDD (SC—FDMA, 50% RB, 1.4 MHz, 16—0AM) LTE—FDD 6.21 +9.0 % 10168 Car LTE—FDD (SC—FDMA, 50% RB, 1.4 MHz64—QAM) LTE—FDD 6.79 +9.0 % 10169 CAE LTE—FDD (SG—FDMA, 1 RB, 20 MHz, OPSK) LTE—FDD 5.73 +9.0 % 10170 CAE LTE—FDD (SC—FDMA, 1 R&, 20 MHz, 16—QAM) LTE—FDD 6.52 +9.0 % 10171 AAE LTE—FDD (SC—FDMA, 1 RB, 20 MHz, 64—0ANM) LTE—FDD 6.49 £96 % 10172 CAG_| LTE—TDD (SG—FDMA. 1 R&, 20 MHz. QPSK) LTe—TDD $21 +9.0 % 10173 CaG_| LTE—TDD (SG—FDMA, 1 R&, 20 MHz, 16—QAM) LTE—TDD 9.48 +9.0 % 10174 CAG_| LTE—TDD (SC—FDMA 1 R&, 20 MHz. 64—QAM) LTE—TBD 10.25 £96% 10175 CAG_| LTE—FDD (SC—FDMA, 1 R&, 10 MHz, GPSK) LTE—FDD 5.72 +906 % 10176 CAG_| LTE—FDD (SC—FDMA, 1 RB, 10 MHz, 16—QAM) LTE—FDD 6.52 £9.6 % 10177 CAl LTE—FDD (SC—FDMA 1 RB, 5 MHz. QPSK) LTE—FDD 5.73 29. % 10178 CAG LTE—FDD (SC—FDMA, 1 RB, 5 MHz, 16—QAM) LTE—FDD 6.52 +9.0 % 10179 CAG LTE—FDD (SC—FDMA 1 RB, 10 MHz, 64—QAM) LTE—FDD 6.50 £96 % 10180 CAG_| LTE—FDD (GG—FDMA 1 RB, 5 MHz. 64—QAM) LTE—FDD 6.50 £9.6 % 10181 CAE LTE—FDD (SC—FDMA. 1 RB, 15 MHz, QPSK) LTE—FDD 5.72 +9.0 % 10182 CAE LTE—FDOD (GG—FDMA, 1 R8, 15 MHz. 16—QAM) LTE—FDD 6.52 £9.6 % 10183 AAD LTE—FDD(SG—FDMA. 1 RB, 15 MHz, 64—QAM) LTE—FDD 6.50 +9.0 % 10184 CAE LTE—FDD (SG—FDMA, 1 RB, 3 MHz. QPSK) LTE—FDD 5.73 +9.0 % 10185 CAE LTE—FDD (GG—FDMA, 1 RB, 3 MHz, 16—QAM) LTE—FDD 6.51 +9.0 % 10186 AAE LTE—FDD (SG—FDMA, 1 RB, 3 MHz, 64—QAM) LTE—FDD 6.50 £9.6 % 10187 CaF LTE—FDD (SG—FDMA, 1 RB, 1.4 MHz, GPSK) LTE—FDD 5.73 +9.0 % 10188 CaF_| LTE—FDD (SC—FDMA, 1 RB, 1.4 MHz, 16—0AM) LTE—FDD 6.52 +9.0 % 10189 AAF_| LTE—FDD (SG—FDMA, 1 RB 1.4 MHz. 64—GAM) LTE—FDD 6.50 £9.6 % 10193 CAG IEEE 802.1In (HT Greenfield, 6.5 Mbps, BPSK) WLAN 8.09 +9.0 % 10194 CAG IEEE 802.11n (HT Greenfield, 39 Mops, 16—GAM) WLAN 8.12 £9.6 % 10195 CAG__| IEEE 802.1 n (HT Greenfield, 65 Mbps, 64—QAM) WLAN 821 +9.0 % 10196 CAG IEEE 802.11n (HT Mixed, 6.5 Mops, BPSK) WLAN: 8.10 +906 % 10197 CAG IEEE 802.11n (HT Mixed, 39 Mbps, 16—QAM) WLAN 8.13 196 % 10198 CAG IEEE 802.11n (HT Mixed, 65 Mbps, 64—QAM) WLAN 827 +9.0 % 10219 CAG IEEE 802.11n (HT Mixed, 7.2 Mops, BPSK) WLAN: 5.03 196 % Certficate No: EX3—3832_Feb19 Page 12 of 20

exsov— susese Fabruany 27,2019 Teaze on iesE sor im iT Mhasa53 hss teon wow am Tissx Toze1 ChG eE 200—11n (iT Mund722 Nes St—GAA wow s2r 96% Tez ChG eE 200 11 (iT Manc15 tbps. BPSk) ww «00| z068 Tezzs one ieE e021i (iT ho 90 bss. 160A wow a4s 296% iez Ch 16E 2021t (iT hMaea. 150 es G—GAD wow a0 esn toass ons uutsroo pieeas weoun sar zoen Teas_| ow tre—roo erom 1 Re. ra me. 13000 vie00 s40 z00% iess_| o Cre—roo sc—rolm 1 Ro,1a mee."oe—on0 cetoo 1026 +068 teas—| o cre—oo sc rown 1 Re. 1a wee orer vierco 52 |res% eass chG tre—roo crol 1 ho. sme. oarin tietco promiecrs3 ferso cic re—oo c roln. 1 Re, s i. seaai tetoo—| 1o2s 2068 1ors _| ons cre—roo scrom 1 Ro.3 e orsin treo s10 coex iess cir tre—roo croun 1 ho.s ine. tooain temo sis ro6% es onr re—to0 scrown. 1 ho.s in Sroni ceteo tozs +e6% iers chr cre—100scrow 1 ho. s im. areeo cereo sz |rse% es onr tre—oo (Gcroun 1 re. tome. toomn tretoo sas 68 ozse onr cre—too scrown 1 re. o me. Gcomn ceroo to2s +06% forsr onr tre—oo scrol 1 ro. 10. arsty treoo o2 re5% es onr cre—zoo cerol 1 ho. is. toonn tetoo |sas o8% torss onr cre—too (Gc—rows 1 re. ts we. scoan cereo tors 2965 teaso_| cAr cre—roo croim. 1 R. is We apsr) tietoo |o2i +068 Toan ou| re—too (Gc—roun 5oho. 1a ue. 16008 cetoo o6 +e65. foss ow tre—roo (Gcolsos ho. 1a we. xoi treteo ie «a6% feass ow cre—roo (Gcroln. sn ho. 1a ie ara tetoo ou6 «a6% iess chG cre—r00 (scrown son hos imz 16008 cetoo 1006 +«6% fesis chG tre—roo croun. son ho s wss anin tieoo tods «a6% eais ic cre—too @crown. son nes im ans gero~|oa0 «e6% tessr cie tre—roo scroun. son no.s ina. 16onin ces ser «se Teais onr cre—oo sc row son no.s ie sr—omn tietoo 1000 »a6% Tess chF tre—0o serow son hosime_areiy ceroo |o2e +s6% Terso onr tre—roo Gorom sos no towes. o8 tereo se as6% oi on re—zoo (Gcroun son no. ome. Gcot) ueto~| noi7 e6% eass cAF tre—roo crown sou ho. oiz. ars uEts |_oa +a6% 1oass cAF ure—oo sc—rou sou ho. toue. 160 tietoo _|_o% «o0% torss on cre—roo (Gc—rouw. son ho. is i. Gcomt) uts fo t +068 eass cA tre—too ocrolw. sox ho. ts warey cereo oz0 »e6% Terse om cre—oo (Gcrolw, oo% RB. 1a io. 1€—G000 tretoo _|_ose «e6% Torsr ow cre—oo crown. oos re. 14 we. seoan ceroo tone +965 teese ow tre—t0o Gorows oos re. 1« we. ars teme |_om reo% erse onc cre—t00 scroun. oos ro. siee. rooan ces _|_sse »e6% iess ons tre—100 se rom. 1oox ro. s im ovin uEts |_ser «e6% ess1 onc tre—roo scrouw, toos ro. s im orso ces |_om »e6% tosss one tre—oo (Gcroun. ons ho. sine. 16c ces |_om »s6% iess on tre—00 scrol. oow Ro. imz Saon ceo lo16 965 Tess on tre—oo crolw, toos ro. in ars tiezoo |_ozs «a6% iess on cre—o0(Gc—row. oo Re. o i. 160000 tieoo |oss »a6% Tease on tte—too (Gc—rown. oos re. To . sromn ceroo 1oor +065 torer on ure—oo crolw, oos Re. to . ars) tieoo |_630 «a6% lease onr tre—roo crolw, toow Ro. 1s i. 160000 tETeo 1006 +e6% ows oar tre—too (sc—rown. on m to i. n ces n | «a5% Teer on ure—roo crouw. oo% Re. s ine Groi) tietoo _|_ose ro6% Torne cA uitr00 mieurh Suves 53GPF h10 weoua 487| ssen Tez~| on uitoroo (reurh Suiest 5. Gpr Reled) weoun 200| 206% Toa ow is (greny me mar| roes Teare om rus (aree ow esainenevoros, s ma1 z068 Tozrs om Fis (Greicow sainer notet036) mis T2 18 296x Terso an@ comreono Re1, $0%s, FurRare coumsenn |as1 +a6% Toev1 an@ comnzonn Res. 055. FutRate comsans |—s48 +965 Tozss ann comnsoonRes. 002. Fut Rate comsonn |330 +a6% Torss ann comngonnRes. 00. Furre comsans 250 o6 Torss anr comnsonn rer. sos. ven new 35% comsans 1240 +e6% Teer Mo crEFbo (Gc—rolw so% Ro, o we, arSy trervo sai «a6% torse mo crerno (sc—rows. son e‘ s in Grsry trervo 572| o6% 1oms anb cerbo (Gcroun.son ro. s imtc—ou8 uierpo 636 e6% Ceriicate No: EX3—2002.Febto Page 13ot20

EX3DV4— SN:3832 February 27, 2019 10300 AAD LTE—FDD (SC—FDMA, 50% RB, 3 MHz, 64—QAM) LTE—FDD 6.60 196 % 10301 AAA IEEE 802.16e WiMAX (29:18, Sms, 10MHz, GPSK, PUSC) WiMAX 1203 196 % 10302 AAA IEEE 802.16e WiMAX (29:18, Sms, 10MHz, QPSK, PUSC, 3 CTRL WiMAX 1257 £96% symbols) 10303 AAA__| IEEE 802.16e WiMAX (31:15, Sms, 10MHz. 64QAM, PUSC) WiMAX 1252 +96% 10304 AAA IEEE 802.16e WiMAX (29:18, Sms, 10MHz. G4QAM, PUSC) WiMAX 11.86 +96% 10305 AAA IEEE 802.168 WiMAX (31:15, 10ms, 10MHz, 4OAM, PUSC, 15 WiMAX 15.24 £96% symbols) 10306 AAA IEEE 802.16e WiMAX (29:18, 10ms, 10MHz, 6AQAM, PUSC, 18 WiMAX 14.67 £96% symbols) 10307 AAA IEEE 802.16e WIMAX (29:18, 10ms, 10MHz, QPSK, PUSC, 18 WiMAX 14.49 296% symbols) 10308 AAA__| IEEE 802.16e WiMAX (29:18, 10ms, 10MHe. 16QAM, PUSC) WiMAX 14.46 £96% 10309 AAA IEEE 802.16e WiMAX (29:18, 10ms, 10MHz, 16QAM, AMC 23, 18 WiMAX 14.58 296% symbols) 10310 AAA IEEE 802.16e WiMAX (29:18, 10ms, 10MHz, OPSK, AMC 2x3, 18 WiMAX 14.57 £96% symbols) 10311 AAD__| LTE—FDD (SC—FDMA, 100% RB, 15 MHz. QPSK) LTE—FDD 6.06 £9.0% 10313 AAA iDEN 1:3 iDEN 10.51 £96% 10314 AAA iDEN 1:6 iDEN 1348 +96% 10315 AAB IEEE 802.11b WiFi 2.4 GHz (DSSS, 1 Mbps, 96e duty cycle) WLAN 1.71 +9.0 % 10316 AAB IEEE 802.11g WiFi 2.4 GHz (ERP—OFDM, 6 Mops. 96pc duty oycle)_| WLAN 836 £06% 10317 AAG__| IEEE 802.1 ta WiFi 5 GHz (OFDM, 6 Mops, 96pc duty cycle) WLAN 8.36 £9.6 % 10362 AAA Pulse Waveform (200Hz, 10%) Generic 10.00 £9.6% 10353 AAA Pulse Waveform (200Hz, 20%) Generic 6.99 +96% 10354 AAA Pulse Waveform (200Hz, 40%) Generic 3.98 £96% 10355 AAA Pulse Waveform (200Hz. 60%) Generic 2.22 196 % 10356 AAA Pulse Waveform (200Hz, 80%) Generic 0.97 £9.6 % 10387 AAA GPSK Waveform, 1 MHz Generic 5.10 196 % 10388 AAA QPSK Waveform. 10 Mz Generic 5.22 +9% 10396 AAA 64—QAM Waveform, 100 kHz Generic 6.27 196 % 10399 AAA 64—OAM Waveform, 40 MHz Generic 6.27 £96% 10400 AAD IEEE 802.11ac WiFi (20MHz, 64—QAM, 99pe duty cycle) WLAN 8.37 £9.6 % 10401 AAD__| IEEE 802.11ac WiFI(40MHez. 64—QAM, 89pc duty cycle) WLAN 8.60 +9. % 10402 AAD_| IEEE 802.11ac WiFi (BOMHz. 64—QAM, 99pe duty cycle) WLAN 8.53 £96 % 10403 AAB CDMAZ00D (1xEV—DO, Rev. 0) GDMA2000 3.6 £96% 10404 AAB CDMA2000 (1xEV—DO, Rev. A) GDMA2000 3.77 +96% 10406 AAB CDMA2000, RC3, $032, SCHO, Full Rate CDMA2000 5.22 £96% 10410 AAF| LTE—TDD (SC—FDMA, 1 RB, 10 MHz, QPSK, UL LTE—TDD 7.82 £96 % Subframe=2,3.4.7.8.9, Subframe Conf=4)_ 10414 AAA WLAN GGDF, 64—OAM, 40MHz Generic 8.54 £9.6% 10415 AAA_| IEEE 802.1 1b Wiri 2.4 GHz (DSSS, 1 Mbps, 99pc duly cycle) WLAN 194 £9.6 % 10416 AAA IEEE 802.119 Wiri 2.4 GHz (ERP—OFDM, 6 Mbps, 99pc duty cycle) WLAN 8.23 296 % 10417 AAB IEEE 802.11a/h WiFi 5 GHz (OFDM, 6 Mbps, 99pc duty cycle) WLAN 5.23 296 % 10418 AAA IEEE 802.119 WiFi 2.4 GHz (DSSS—OFDM, 6 Mops, 9¥pc duty cycle, WLAN 8.14 £96% Long preambule) 10419 AAA iEEE 802119 Wiri 2.4 GHz (DSSS—OFDN, 6 Mbps, Spc duly cyele, WLAN 819 i96% Short preambule) 10422 AAB_| IEEE 802.11n (HT Greenfield, 7.2 Mops. BPSK) WEAN 5.32 +9.0 % 10423 AAB_| IEEE 802.11n (HT Greenfield, 43.3 Mbps, 16—QAM) WLAN |_ 847 +96% 10424 AAB_| IEEE 802.11n (HT Greenfield, 72.2 Mops, 64—OAM) WLAN [ 840 +986 % 10425 AAB_| IEEE 802.11n (HT Greenfield. 15 Mops, BPSK) WLAN 841 +9.6% 10426 AAB_| IEEE 802.11n (HT Greenfield. 90 Mops, 16—QAM) WLAN 845 +9.0 % 10427 AAB IEEE 802.11n (HT Greenfield. 150 Mbps, 64—QAM) WEAN 841 £9.6 % 10430 AAD_| LTE—FDD (OFDMA 5 MHz. E—TM 3.1) LTE—FDD 8.28 +9.0 % 10431 AAD LTE—FDD (OFDMA, 10 MHz, E—TM 3.1) LTE—FDD 5.38 +9.0 % 10432 AAG LTE—FDD (OFDMA, 15 MHz, E—TM 3.1) LTE—FDD 8.34 1£9.6 % 10433 AAG LTE—FDD (OFDMA. 20 MHz. E—TM 3.1) LTE—FDD 5.34 296 % 10434 AAA W—CDMA (BS Test Model 1. 64 DPCH) WCDMA 8.60 £96% 10435 AAF LTE—TDD (SC—FDMA, 1 R&, 20 MHz, QPSK, UL LTE—TDD 742 £96% Subtrame=2.3.4.7.8.9) 10447 AAD LTE—FDD (OFDMA, 5 MHz, E—TM 3.1. Clipping 44%) LTE—FDD 7.56 196 % 10448 AAD_| LTE—FDD (OFDMA, 10 MHz. E—TM 3.1, Clippin 44%) LTE—FDD 7.53 £96% 10449 AAG LTE—FDD (OFDMA, 15 MHz, E—TM 3.1. Cliping 44%) LTE—FDD 7.51 £9.6% 10450 AAG LTE—FDD(OFDMA, 20 MHz, E—TM 3.1, Clipping 44%) LTE—FDD 748 +9.6 % Certificate No: EX3—3832_Feb19 Page 14 of 20

EX3DV4— SN:3832 Fabruary 27, 2019 10451 AAA W—CDMA (BS Test Model 1. 64 DPCH, Clipping 44%) WGDMA 7.59 1296 % 10456 AAB IEEE 802.1 fac WiFi (160MHz, 64—QAM, 99pc duty cycie) WLAN 8.63 +9.0 % 10457 AAA UMTS—FDD (DC—HSDPA) WCDMA 6.62 +9.0 % 10458 AAA CDMA2000 (TxEV—DO, Rev. B. 2 carriers) CDMA2000 6.55 £9.6 % 10459 AAA CDMA2000 (IxEV—DO, Rev. B, 3 carriers) CDMA2000 825 296 % 10460 AAA UMTS—FDD (WCDMA, AMR) WCDMA 239 £9.6 % 10461 AAA LTE—TDD (SC—FDMA, 1 RB, 1.4 MHz, OPSK, UL LTE—TOD 762 £9.6 % Subtrame=2.3.4.7.8.9) 10462 AAA LTE—TDD (SC—FDMA, 1 RB, 1.4 MHz, 16—QAM, UL LTE—TDD 8.30 £9.6 % Subtrame=2,3.4.7.8,0) 10463 AAA LTE—TDD (SC—FDMA, 1 RB, 1.4 MHz, 64—QAM, UL LTE—TDD 8.56 £9.6% Subtrame=2.3.4,7.8,9) 10464 AAB| LTE—TDD (SC—FDMA, 1 RB, 3 MHz, OPSK, UL LTE—TDD 782 £9.6% Subframe=2.3.4,7.8.9) 10465 AAB| LTE—TDD (SC—FDMA, 1 RB, 3 MHz, 16—QAM, UL LTE—TDD 8.32 1£9.6 % Subframe=2.3.4.7.8.9) 10466 AAB| LTE—TDD (SC—FDMA, 1 RB, 3 MHz, 64—QAM, UL LTE—TDD 8.57 £9.6 % Subframe=2.9.4,7.8.9) 10467 AAE LTE—TDD (SC—FDMA, 1 RB, 5 MHz, OPSK, UL LTE—TDD 7.82 £9.6 % Subtrame=2.3.4.7.8.9) 10468 AAE LTE—TDD (SC—FDMA, 1 RB, 5 MHz, 16—QAM, UL LTE—TDD 8.32 £9.0 % Subtrame=2.3.4,7.8.9) 10469 AAE| LTE—TDD (SC—FDMA, 1 RB, 5 MHz, 64—QAM, UL LTE—TDD 8.56 £9.0 % Subframe=2.3.4.7.8.9) 10470 AAE: LTE—TDD (SC—FDMA, 1 RB, 10 MHz, QPSK, UL LTE—TOD 7.82 £9.6 % Subframe=2.3.4,7,8.9) 10471 AAE LTE—TDD (SC—FDMA, 1 RB, 10 MHz, 16—GAM, UL LTE—TDD 8.32 £9.6 % Subtrame=2.3.4.7.8.9) 10472 AAE LTE—TDD (SC—FDMA, 1 RB, 10 MhHz, 64—QAM, UL LTE—TOD 8.57 £9.6 % Subtrame=2.3.4,7.8.9) 10473 AAE LTE—TDD (SC—FDMA, 1 RB, 15 MhHz, GPSK, UL LTE—TDD 7.82 £9.6 % Subtrame=2.3.4,7.8.9) 10474 AAE LTE—TDD (SC—FDMA, 1 RB, 15 MHz, 16—QAM, UL LTE—TDD 8.32 £9.6 % Subframe=2,3.4,7.8.9) 10475 AAE LTE—TOD (SC—FDMA, 1 RB, 15 MHz, 64—QAM, UL LTE—TDD 8.57 £9.6 % Subtrame=2,3.4,7.8.9) 10477 AAF LTE—TDD (SC—FDMA, 1 RB, 20 MHz, 16—QAM, UL LTE—TDD 8.32 +9.6 % Subtrame=2,3.4,7.8.9) 10478 AAF| LTE—TOD(SC—FDMA, 1 RB, 20 MHz, 64—QAM, UL LTE—TDD 8.57 £9.6 % Subframe=2.3.4.7.8.9) 10470 LTE—TDD (SC—FDMA, 50% RB, 1.4 MHz, QPSK, UL LTE—TDD 7.74 £9.6% Subframe=2.3.4.7.8.9) 10480 AAA LTE—TDD (SC—FDMA, 50% RB, 1.4 MHz, 16—QAM, UL LTE—TDD 8.18 £9.6% Subframe=2.3.4,7.8.9) 10481 LTE—TDD (SC—FDMA, 50% RB, 1.4 MHz, 64—GAM, UL LTE—TDD 8.45 £9.6 % Subtrame=2.3.4,7.8.9) 10482 AAB LTE—TDD (SC—FDMA, 50% RB, 3 MHz, OPSK, UL LTE—TDD 17 £9.6 % Subframe=2.3.4.7.8.9) 10483 AAB LTE—TDD (SC—FDMA, 50% RB, 3 MHz, 16—QAM, UL LTE—TDD 8.39 £9.6 % Subtrame=2,3.4,7.8.9) 10484 AAB LTE—TDD (SC—FDMA, 50% RB, 3 MHz, 64—QAM, UL LTE—TDD 847 £9.6 % Subframe=2.3.4,7.8.9) 10485 AAE: LTE—TDD (SC—FDMA, 50% RB, 5 MHz, QPSK, UL LTE—TDD 7.59 £9.6% Subframe=2.3.4.7.8.9) 10486 AAE LTE—TDD (SC—FDMA, 50% RB, 5 MHz, 16—QAM, UL LTE—TDD 8.38 £9.6% Subframe=2.3.4.7.8.9) 10487 AAE LTE—TDD (SC—FDMA, 50% RB, 5 MHz, 64—QAM, UL LTE—TDD 8.60 £9.6 % Subtrame=23.4,7.8.9) 10488 AAE LTE—TDD (SC—FDMA, 50% RB, 10 MHz, QPSK, UL LTE—TDD 7.70 £9.6 % Subtrame=2,3.4,7.8.0) 10489 AAE LTE—TDD (SC—FDMA, 50% RB, 10 MHz, 16—QAM, UL LTE—TDD 8.31 £9.6 % Subtrame=2.3.4,7,8.9) 10490 AAE LTE—TDD (SC—FDMA, 50% RB, 10 MHz, 64—QAM, UL LTE—TDD 8.54 £9.0 % Subtrame=2.3.4.7.8.9) 10491 AAE LTE—TDD (SC—FDMA, 50% RB, 15 MHz, QPSK, UL LTE—TDD 7.74 £9.6 % Subtrame=2.3.4.7.8.9) Certficate No: EX3—3832_Feb19 Page 15 of 20

EX3DV4— SN:3832 February 27, 2019 10492 AAE| LTE—TDD (SC—FDMA, 50% RB, 15 MHz, 16—QAM, UL LTE—TDD 841 £9.6 % Subtrame=2.3.4.7.8.9) 10493 AAE: LTE—TDD (SC—FDMA, 50% RB, 15 MHz, 64—QAM, UL LTE—TDD 8.55 £9.6 % Subtrame=2.3.4,7,8.9) _ 10494 AAF| LTE—TDD (SC—FDMA, 50% RB, 20 MHz, OPSK, UL LTE—TDD 7.74 +9.0 % Subirame=2.3.4.7.8.0) 10495 AAF| LTE—TDD (SC—FDMA, 50% RB, 20 MHz, 16—QAM, UL LTE—TDD 8.97 £9.6 % Subtrame=2.3.4.7.8.9) 10496 AAF LTE—TDD (§C—FDMA, 50% RB, 20 MHz, 64—QAM, UL LTE—TDD 8.54 £9.0 % Subframe=2.3.4.7.8.9) 10497 AAA LTE—TDD (SC—FDMA, 100% RB, 1.4 MHz, OPSK, UL LTE—TDD 7.67 £9.6 % Subframe=2.3.4.7.6.9) 10498 AAA LTE—TDD (SC—FDMA, 100% RB, 1.4 MHz, 16—0AM, UL LTE—TDD 840 £9.6 % Subframe=2.3.4.7.0.9) 10499 AAA LTE—TDD (SC—FDMA, 100% RB, 1.4 Mriz, 64—QAM, UL LTE—TDD 8.68 ‘ £9.6 % Subtrame=2.3.4.7.8.9) 10500 AAB LTE—TDD (SC—FDMA, 100% RB, 3 MHz, QPSK, UL LTE—TDD 767 £9.6 % Subframe=2.3.4,7.6.9) 10501 AAB LTE—TDD (SC—FDMA, 100% RB, 3 MHz, 16—QAM, UL LTE—TDD 844 196 % Subframe=2.3.4.7.8.9) 10502 AAB| LTE—TOD (SC—FDMA, 100% RB, 3 MHz, 64—QAM, UL LTE—TDD 8.52 £9.6 % Subframe=2.3.4,7.8.9) 10503 AAE LTE—TDD (SC—FDMA, 100% RB, 5 MHz, QPSK, UL LTE—TDD 7.72 £9.6 % Subframe=2.3 8.9) 10504 LTE—TDD (SC—FDMA, 100% RB, 5 MHz, 16—QAM, UL LTE—TDD 8.31 +9. % Subframe=2.3.4.7.8.9) 10505 AAE LTE—TDD (SC—FDMA, 100% RB, 5 MHz, 64—QAM, UL LTE—TDD 8.54 +986 % Subtrame=2.3.4.7.8.9) 10506 LTE—TDD (SC—FDMA, 100% RB, 10 MHz, OPSK, UL LTE—TDD 7.74 £9.0 % Subtrame=2.3.4.7.8.9) 10507 AAE LTE—TDD (SC—FDMA, 100% RB, 10 MHz, 16—QAM, UL LTE—TDD 8.36 £9.6 % Subtrame=2.3.4.7.8.9) 10508 AAE| LTE—TDD (SC—FDMA, 100% RB, 10 MHz, 64—QAM, UL LTE—TDD 8.55 196 % Subtrame=2,3.4,7.8.9) 10509 AAE LTE—TDD (SC—FDMA, 100% RB, 15 MHz, QPSK, UL LTE—TDD 7.99 +96 % Subtrame=2.3.4.7..9) 10510 AAE LTE—TDD (SC—FDMA, 100% RB, 15 MHz, 16—QAM, UL LTE—TDD 849 £96% Subtrame=2.3.4.7.8.9) 10511 AAE LTE—TDD (SC—FDMA, 100% RB, 15 MHz, 64—QAM, UL LTE—TDD 8.51 £96% Subtrame=2.3 8.9) 10512 AAF LTE—TDD (SC—FDMA, 100% RB, 20 MHz, OPSK, UL LTE—TDD 7.74 £9.6% Subtrame=2.3.4.7.8.9) 10513 AAF LTE—TDD (SC—FDMA, 100% RB, 20 MHz, 16—QAM, UL LTE—TDD 842 £9.6 % Subtrame=2.3.4.7.6.9) 10514 AAF LTE—TDD (SC—FDMA, 100% RB, 20 MHz, 64—QAM, UL LTE—TDD 8.45 £9.0 % Subtrame=2.3 8.9) 10515 AAA IEEE 802.1 1b WiFi 2.4 GHz (DSSS, 2 Mops, 99peduty oycle) WEAN 1.58 196 % 10516 AAA IEEE 802.11b WiFi 2.4 GHz (DSSS, 5.5 Mbps. 99pc duly cycle) WLAN 1.57 £96% 10517 AAA IEEE 802.11b WiFi 2.4 GHz (DSSS, 11 Mops. 99pe duly cyole) WLAN 158 296 % 10518 AAB IEEE 802.11ah WiFi 5 GHz (OFDM, 9 Mops, 99pc duly cycle) WEAN 823 £9.6 % 10519 AAB IEEE 802.11a/h WiFi 5 GHz (OFDM, 12 Mops. 99pe duty cycle) WLAN 8.39 £9.6 % 10520 AAB IEEE 802.11a/h WiFi 5 GHz (OFDM, 18 Mops, 99pc duty cycie) WLAN 8.12 1296 % 10521 AAB IEEE 802.11a/h WiFi 5 GHz (OFDM, 24 Mops, 99pc duty cycle) WLAN 7.97 £9.6 % 10522 AAB IEEE 802.11a/h WiFi 5 GHz (OFDM, 36 Mops, 99pc duty cycle) WLAN 845 +96% 10523 AAB_| IEEE 802.11aih WiFI 5 GHz (OFDM, 48 Mops, 99pc duty cycle) WLAN 8.08 +9.6% 10524 AAB IEEE 802.11ath WiFi 5 GHz (OFDM, 54 Mops, 99pc duly cycle) WLAN 8.27 +9.6 % 10525 AAB_| IEEE 802.11ac WiFi (20MHz, MCSO, 99pe duty cycle) WLAN 8.36 +9.6% 10526 AAB_| IEEE 802.11ac WiFi (20MHz, MCS1, 99pe duty cycle) WLAN 842 +9.0 % 10527 AAB IEEE 802.1 tac WiFi (2OMHz, MCS2, 99pe duty cycle) WLAN 821 29.6% 10528 AAB_| IEEE 802.1 tac WiFi (20MHz, MCS3, 99pe duty oycle) WLAN 8.36 196 % 10529 AAB IEEE 802.1 tac WiFi (20MHz, MCSA, 99peduty cycle) WLAN 8.36 +9.6 % 10531__| AAB_| IEEE 802.1 tac WiFi (20MHz, MGS6, 99pe duty cycle) WLAN 843| 196% 10532 AAB_| IEEE 802.1 tac WiFi (20MHz, MCS7, 99pe duty cycle) WLAN 8.29 1296 % 10533 AAB IEEE 802.1 fac WiFi (20MHz, MCSB, 99pe duty cycle) WEAN: 8.3 196 % 10534 AAB IEEE 802.1fac WiFi(4OMHz, MCSO, 99pe duty cycle) WLAN 8.45 +9.6% Certficate No: EX3—3832_Feb19 Page 16 of 20

EX3DV4— SN:3832 February 27, 2019 10535 AAB_| IEEE 802.11aWiFi (40MHz, MCS1, 99pe duty cycle) WLAN 8.45 1£9.6 % 10536 AAB IEEE 802.11ac Wiri (40MHz, MCS2, 99pe duty cycle) WLAN 8.32 £9.6 % 10537 AAB_| IEEE 802.1ac Wini (40MHz, MCS3, 99peduty cycle) WLAN 8.44 £9.6 % 10538 AAB IEEE 802.11ac WiFi(40MHz, MGS4, 99pe duty cycle) WLAN 8.54 £9.6 % 10540 AAB IEEE 802.11ac WiFi (40MHz, MCSG, 99pc duly cycle) WLAN 5.39 £9.0 % 10541 AAB IEEE 802.11ac WiFi (A0MHz, MCST, 99pe duty cycle) WEAN 846 £9.6 % 10542 AAB IEEE 802.11ac WiFi (40MHz, MCSB, 99pc duly cycle) WEAN 8.05 £9.6 % 10543 AAB IEEE 802.11ae WiFi (40MHz, MCS9, 29pe duty oycie) WLAN 5.05 +9.0 % 10544 AAB IEEE 802.11ac WiFi (BOMHz, MCSO, 99pe duty cycle) WEAN 647 £9.6 % 10545 AAB IEEE 802.1ac WiFi (BOMHz, MGS1. 99pe duty cycle) WEan 855 £06% 10546 AAB IEEE 802.11ac WiFi (BOMHz, MCS2, 99pc duty cycle) WEAN: 5.35 +9.0 % 10547 AAB IEEE 802.11ac WiEI(GOMHz, MCS3. 99pc duty cycle) WLAN 8.49 +9.0 % 10548 AAB IEEE 802.1ac WiFi (GOMHz, MCS4, 99pc duty cycle) WLAN 5.37 +9.6 % 10550 AAB IEEE 802.11ac WiFi (BOMHz, MCSG, 99pe duty cycle) WLAN 8.38 £9.6 % 10551 AAB IEEE 802. 1ac WiFi (BOMHz, MGST, 99pc dutycycle) WLAN 8.50 29.6 % 10552 AAB IEEE 802.1ac WiFi(GOMHz, MCSB, 99pe duty cycle) WLAN 8.42 £0.6 % 10553 AAB IEEE 802. Mac WiFi (GOMHz, MCSO, 99pe duty oycle) WLAN 8.45 £9.6 % 10554 AAG IEEE 802.1ac WiFi (160MHz, MCSO, 99pc duty oycle) WLAN 8.48 +9.6 % 10555 AAG__| IEEE 802.11ac WiFi (160MHz, MCS1, 99pe duty cycle) WLAN 8.47 £9.6 % 10556 AAG_| IEEE 802.1ac WiFi (160MHz, MCS2, 99pe duty cycle) WLAN 8.50 £9.6% 10557 AAG IEEE 802.1ac WiFi (160MHz, MCS3, S9pe duty cycle) WEAN 8.52 £9.6 % 10558 AAG IEEE 802.1ac WiFi (160MHz. MGS4. 99ps duty cycle) WLAN 8.01 £9.6 % 10560 AAG IEEE 802.1a WiFi (160MHz, MCSG, 99pe duty cycle) WLAN 5.73 £9.0 % 10561 AAG IEEE 802.1Mac WiFi (160MHz, MCS7, 99pc duty cycle) WLAN: 8.56 £9.6 % 10562 AAG IEEE 802.11ac WiFi (190MHz, MCSB, 99po duty cycle) WEAN 8.69 £9.6% 10563 AAG_| IEEE 802.1ac WiFi (160MHz, MGSS, 99pe duty cycie) WLAN 6.77 +9.0 % 10564 AAA IEEE 802.119 WiFi 2.4 GHz (DSSS—OFDM, 9 Mops, $9pe duty WLAN 8.25 £9.6 % cycle) 10565 AAA| IEEE 802.119 WiFi 2.4 GHz (DSSS—OFDM, 12 Mbps, 9pe duty WLAN 8.45 £9.6 % cycle) 10566 AAA IEEE 802.119 WiFi 2.4 GHz (DSSS—OFDM, 18 Mbps, 9pe duty WLAN 8.13 £9.6 % cycle) 10567 AAA| IEEE 802.119 WiFi 2.4 GHz (DSSS—OFDM, 24 Mbps, $9pe duty WLAN 8.00 29.6 % cycle) 10568 AAA IEEE 802.119 WiFi 2.4 GHz (DSSS—OFDM, 36 Mbps, 99pe duty WLAN 8.37 +9.0 % cycle) 10569 AAA| IEEE 802.119 WiFi 2.4 GHz (DSSS—OFDM, 48 Mbps, $9pe duty WLAN 8.10 +9.0 % cycle) 10570 AAA| IEEE 802.119 WiFi 2.4 GHz (DSSS—OFDM, 54 Mbps, 9pe duty WLAN 8.30 £9.6 % cycle) 10571 AAA IEEE 802.11b WiFi2.4 GHz (DSSS, 1 Mops. 9Ope duty oyole) WLAN 1.99 £9.6 % 10572 AAA IEEE 802.11b WiFi 2.4 GHe (DSSS, 2 Mbps. 9Ope duly oycle) WLAN 1.99 £9.6 % 10573 AAA IEEE 802.11b WiFi 2.4 GHz (DSSS, 5.5 Mbps, 9Opo duty oycle) WLAN 1.98 +9.0 % 10574 AAA IEEE 802.11b WiFi2.4 GHz (DSSS, 11 Mbps, 90pc duty cycle) WLAN 1.98 £9.6 % 10575 AAA| IEEE 802.119 WiFi 2.4 GHz (DSSS—OFDM, 6 Mops, 9Ope duty WLAN 8.59 £9.6 % cycle) 10576 AAA IEEE 802.119 WiFi 2.4 GHz (DSSS—OFDM, 9 Mbps, 80pe duty WLAN 8.60 £9.6 % cycle) 10577 AAA| IEEE 802.119 WiFi 2.4 GHz (DSSS—OFDM, 12 Mbops, $Ope duty WLAN 8.70 £9.6 % cycle) 10578 AAA| IEEE 802.119 WiFi 2.4 GHz (DSSS—OFDM, 18 Mops, $Ope duty WLAN 8.49 £9.6 % cycle) 10578 AAA IEEE 802.119 WiFi 2.4 GHz (DSSS—OFDM, 24 Mbps, $Ope duty WLAN 8.36 £9.6 % cycle) 10580 AAA IEEE 802.119 WiFi 2.4 GHz (DSSS—OFDM, 36 Mbps, $Ope duty WLAN 8.76 £9.6 % cycte) 10581 AAA| IEEE 802.119 WiFi 2.4 GHz (DSSS—OFDM, 48 Mbps, $Ope duty WLAN 8.35 £9.6 % cycle) 10582 AAA| IEEE 802.119 WiFi 2.4 GHz (DSSS—OFDM, 54 Mops, $Ope duty WLAN 8.07 +9. % cycle) 10583 AAB IEEE 802.11a/h WiFi 5 GHz (OFDM, 6 Mbps, 90pc duty cycle) WLAN 8.59 +9.6 % 10584 AAB IEEE 802.11a/h WiFi 5 GHz (OFDM, 9 Mops, $0pc duty cycle) WLAN 8.60 +90% 10585 AAB IEEE 802.1 taih WiFi5 GHz (OFDM, 12 Mbps. 90pc duty oycle) WLAN 8.70 +96% 10586 AAB IEEE 802.11a/h WiFi 5 GHz (OFDM; 18 Mbps. 9Opc duty cycle) WLAN 8.49 £9.6 % 10587 AAB IEEE 602.11a/h WiFi 5 GHz (OFDM, 24 Mbps, 9Ope duty cycle) WLAN 8.36 £9.6 % Certficale No: EX3—3832_Feb19 Page 17 of 20

EX3DV4— SN:3832 February 27, 2019 10588 AAS 1EEE 802Tiah Wini 5 GHz (OFDNM, 36 Mops. 90pe duly eyde) WEAn 876 296 % 10589 AAs 1EEE 802.1iah Wiri 5 GHz (OFDM, 48 Mops, $Ope duty oycle) WeAn 835 196 % 10590 AAs IEEE 802.1iah Wii 5 GHz (OFDM, 54 Mbps, $0pe duly eycle) WEAn 867| 196 % 10591 AAB 1EEE 802.11n (HT Mixed, 20MHz, MCSO, 20pc duty cycle) WEAN 863| 196 % 10592 AAB IEEE 802.11n (HT Mixed, 20MHiz, MCS1, SOpc duly cycle) WEAN 8.79 296% 10593 AAs IEEE 802.11n (HT Mixed, 20MHz, MCS2, Opc duly cycle) WEAn 854| 106 % 10594 AAS IEEE 802.11n (HT Mixed, 20MHz, MGS3, 9Opc duty cycle) WeAn 874| 296 % 10505 AAS IEEE 802.11n (HT Mixed, 20MHz, MGS4, SOpe duly eycle) Wean a.74 296% 10596 AAS_| IEEE 802 1n (HT Mixed, 20MHz, MGS5, 90pe duly cycle) WEAn 8.71 196 % 10597 AAB_| IEEE 802 1n (HT Mixed, 20MHz. MGS6. 90pc duty cycle) WEan 5.72 296 % 10598 AAB_| IEEE 802.11n (HT Mixed, 20MHz, MGS7, 9Opc duly cycle) Wean 8.50_| £96% 10599 AAB IEEE 802 11n (HT Mixed. 40MHz, MCSO, 90pc duly eycle) WeA .79 +96% 10600 AAB IEEE 80211n (HT Mixed, dOMHz, MCS1, S0pc duly cycle) wos 5s 296 % 10601 AAB IEEE 802.11n (HT Mixed. 40MHz, MGS2, 90pc duly cycle) Wian a62 +90% 10602 AAS IEEE 802.11n (HT Mixed, dOMHz, MCS3, 90pc duly cycle) wean 694| +00% 10608 AAB_| IEEE 802.11n (HT Mixed. 40MHz, MGS4, 20pc duly cycle) Wian a0s +96% 10604 AAB IEEE 802.11n (HT Mixed. 40MHz, MCS5. 90pc duty cycle) Wean a.76 296% 10605 AAS IEEE 802.11n (HT Mixed, 40MHz, MCS6. 20pc duty cycle) Wian 897 296 % 10606__| AAB IEEE 802.11n (HT Mixed, dOMHz, MCS7, 9Opc duly cycle) Wean 52| +00% 10607 AAB IEEE 802. Tiac Wiri (2OMHz, MCSO, SOpe duty cyeie) WeAn 864| +90% 10608 AAB IEEE 802.11ac Wii (20MHz. MCS1, 9Ope duty cycle) WLAN a.77 200% 10609 AAs IEEE 802.11ac Wiri (20Miiz, MCS2, SOpe duty cycle) Wean 857 196% 10610 AAS IEEE 802.Tiac WiFi (20MHz, MCS3, 9Ope duty cycle) Wean 8.79 196 % 10011 AAS_| IEEE 802.1ac Wisi (20Miz, MCS4, SOpe duty cycle) wean 8.70 296 % 10612 AAs 1EEE 802 Tiac Wisi (20MHz, MCSS, SOpe duty cycle) Wean 5.77 296 % 10513 AAS IEEE 802 11ac Wisi (2OMHz. MCS6, 9Ope duty cycle) WweAn 894| 196% 10614 AAS IEEE 802.1iac Wisi (20Miz, MGS7, 9Ope duty cycle) Wean 859| 296% 10615 AAS IEEE 802.11ac Wisi (20MiHz, MCS8, 9Ope duty cycle) Wean a.42 +00% 10616 AA8 IEEE 802.11a0 WiFi (4OMHz. MCSO, 9Ope duty cycle) WLan 842| +00% 10617 AAs IEEE 802.1iac Wisi (d0MHz, MCS1, SOpo duty cycle) Wean sa1 196 % 10618__| AAS IEEE 802.11ac Wii (40MHz, MGS2, 9Ope duty cycle) WEan 858| 206 % 10619 AAB IEEE 802.1iac Wini(40Mrz, MCS3, 9Ope duty cycle) WEAN 886 296 % 10620 AAB_| IEEE 802.11ac Wii (40MHz, MGS4, 90pe duty cycle) Wean a87 +90% 10621 AAB IEEE 802 11ac WiFi (40MHz, MCSS. 9Ope duty cycle) Wean 877| 196 % 10622 AAB IEEE 802.11ac Wiri (40MHz, MCS6, SOpe duty cycle) Wwean aes +90% 10623 AAB IEEE 802 11ac Wii (40MHz, MCST, 9Ope duty cycle) WEA 882| +06% 10524 AAB IEEE 802 11ac Wiri (40MHz. MCSB, 9Ope duty cycle) wean 8.96 +096 % 10625 AAB IEEE 802 11ac Witi(40MHz. MCSS, 9Ope duty cycle) Wean 896| +90% 10526 AAB IEEE 802 11ac Wiri (BOMHz, MCSO, 9Ope duty cycle) Wian s83 +96% 10627 AAB_| IEEE 802.11ac Wiri (GOMHz, MCS1. 9Opc duty cycle) Wean se8 +96% 10628 AAB IEEE 802.11ae Wihi (GOMHz, MCS2, 9Ope duty cyce) Wian a.71 £90% 10520 AAB IEEE 802.11ac Wiri (BOMHz. MCS3, 9Ope duty cycle) Wean 885 +00% 10630 AAS 1EEE 802.1iac Wiri (GOMrHz, MCS4, Sope duty cycle) Wwian 6.72 190 % 10631 AAS IEEE 802.1ac Wiri (BOMHz, MCSS, 9Ope duty cycle) WeAn 881| 196 % 10632 AA8 IEEE 802.11ac Wiri (BOMHz. MCS6, 9Ope duty cycle) Wean 5.74 296 % 10633 AAB_| IEEE 802.11ac Wini (GOMHz, MGS7, IOpe duty cycle) Wwean s63 +00% 10634 AAB IEEE 802.11a0 Wini (BOMHz, MCSS, 90pe duty cycie) WEAN s.50 £96% 10635 AAB IEEE 802.11ae Wini (BOMHz, MCS9, 9Ope duty cycle) WEAN 881| 296% 10636 AAG_| IEEE 802.11a0 Wini (160MHz. MCSO. 90pe duly oycle) WLAN 883| +96% 10637 AAG_| IEEE 802.11ae Wini (160MHz. MCS1, 90pe duty cycle) WeAn a79 +96% 10638 AAG_| IEEE 802.11a0 WiFi (160MHz. MGS2, 90pe duty cycle) WEAN 880 +906 % 10639 AAG_| IEEE 802.11ae Wini (160MHz, MGS3, 9Ope duty cycle) Wwean 885| 196 % 10640 AAG_| IEEE 802.11a0 WiFi (160Mz. MCS4, 90pe duty oycle) WEAN 898 +906 % 10641 AAG_| IEEE 802.1tae Wini (160MHz, MCSS, 90pe duty cycle) Wian 305 196 % 10642 AAG_| IEEE 802.11a0 Wini (160Mz. MCS6, 90pe duty cycle) Wean 306 £96% 10643 AAC_| IEEE 802.11ae Wihi (160MHz, MCS7, 90pe duty cycle) WEAN 889| 196 % 10644 AAG_| IEEE 802.11ae Wini (160MHz. MGSS, 9Ope duty cycle) Wean a05_| 196 % 10645 AAC_| IEEE 802.11ae Wini (160MFz, MCSO, 9Ope duty cycle) WiAn 9.11_| 196 % 10546 AAF LTE—TDD (SC—FDMA. 1 RB. 5 MHz, QPSK, UL Subframs=2.7) LTe—ToD 1195 190 % 10647 AAF_| LTE—TDD (SC—FDMA, 1 RB, 20 MHz, OPSK, UL Subframe=2.7) LTe—ToD 11.90 290 % 10648 AAA|_CDMAZ00D (1x Advanced) CbMaAzo00 |_3.45 +926 % 10652 AAD_| LTE—TDD (OFDMA. 5 MHz. E—TM 3.1, Clipping 44%) LTe—Too 691| 200% 10553 AAD LTE—TDD (OFDMA, 10 MHz, E—TM 3.1. Clipping 44%) LTe—ToD 742| 196% 10654 AAD_| LTE—TDD (OFDMA, 15 MHz, E—TM 3.1. Clipping 44%) LTe—Too 600| £96% Certficate No: EX3—3832_Feb19 Page 18 of 20

EX3DV4— SN:3832 February 27, 2019 10655 AAE LTE—TDD (OFDMA, 20 MHz, E—TM 3.1, Clipping 44%) LTE—TDD 7.21 £9.6% 10658 AAA Pulse Waveform (200Hz, 10%) Test 10.00 £9.6% 10659 AAA Pulse Waveform (200Hz, 20%) Test 6.99 296 % 10660 AAA Pulse Waveform (200Hz, 40%) Test 3.98 £9.6% 10661 AAA Puise Waveform (200Hz, 60%) Test 2.22 £9.6 % 10662 AAA Pulse Waveform (200Hz, 80%) Test 0.97 £9.6 % 10670 AAA__| Bluetooth Low Energy Bluetooth 219 196 % 10671 AAA IEEE 802.1 tax (2OMHz, MGSO, S0pc duty eycle) WLAN 9.09 +9.0 % 10672 AAA IEEE 802. Tax (20MHz, MCS1, 90pc duty cycle) WLAN 8.57 196 % 10673 AAA IEEE 802.1Tax (20MHz, MGS2, 90pc duty cycle) WLAN 8.70 19.6 % 10674 AAA IEEE 802.11ax (20MHz, MCS3, 90pc duty cycie) WLAN 8.74 196 % 10675 AAA IEEE 802.11ax (20MHz, MCS4, 90pc duty cycle) WLAN 8.90 £9.6 % 10676 AAA IEEE 802.11ax (20MHz, MCS5, 90pc duty cycle) WEAN 5.77 £96% 10677 AAA IEEE 802. 11ax (20MHz, MCSG, 90pe duty cycie) WLAN 8.73 £9.6 % 10678 AAA IEEE 802.1ax (20MHz, MCST, 90pc duty oycie) WLAN: 5.78 £9.6 % 10679 AAA IEEE 802. ax (20MHz, MCSB, 90pc duty oycle) WLAN 5.89 £9.6 % 10080 AAA IEEE 802.11ax (20MHz, MCSI. 90pc duty cycie) WLAN 5.80 £9.6 % 10681 AAA_| IEEE 802.1Max (20MHz, MCS10, $0pc duty cycle) WLAN 862| +96% 10082 AAA IEEE 802.1ax (20MHz, MCS11, 90pc duty cycle) WLAN 5.83 £9.6% 10683 AAA IEEE 802.1Max (20MHz, MCSO, 99pc duty cycle) WLAN 8.42 +9.6% 10684 AAA IEEE 802.11ax (20MHz, MCS1, 99pc duty cycle) WLAN 8.26 £9.6% 10685 AAA IEEE 802.11ax (20MHz, MCS2, 99pc duty eycle) WLAN 833| +96% 10686 AAA IEEE 802.11ax (20MHz, MCS3, 99pe duty cycle) WEAN a28 +96% 10687 AAA IEEE 802.1 tax (20MHz, MCS4, 99pe duty cycle) WLAN 8.45 £96% 10688 AAA IEEE 802.1ax (20MHz, MCSS, 99pe duty eycle) WLAN 8.29 £96% 10689 AAA IEEE 802.1ax (20MHz, MCSG, 99pe duty cycle) WLAN 8.55 1£9.6% 10690 AAA IEEE 802. 1ax (20MHz, MCST, 99pc duty cyole) WLAN 8.29 £96% 10691 AAA IEEE 802.1ax (20MHz, MCSB, 99pe duty cycle) WLAN 8.25 £9.6% 10692 AAA IEEE 802. ax (20MHz, MCSS, 99pc duty cycle) WLAN 8.29 £9.6 % 10693 AAA IEEE 802.1ax (20MHz, MCS10, 99pe duty cycle) WLAN 8.25 +9.0 % 10694 AAA IEEE 802.1 ax (20MHz, MCS11, 99pc duty cycle) WLAN 857 £96% 10695 AAA IEEE 802.11ax (40MHz, MCSO, 90pc duty cycle) WLAN §.76 £96% 10696 AAA IEEE 802.1ax (40MHz, MCS1, 9Opc duty eycle) WLAN 6.91 £9.6 % 10697 AAA IEEE 802.1ax (40MHz, MCS2, 90pe duty cycle) WLAN 8.61 1296 % 10698 AAA IEEE 802. 1 ax (40MHz, MCS3, 90pe duty cycle) WLAN 8.89 +9.6 % 10699 AAA IEEE 802.1ax (40MHz. MCS4, 90pe duty cycle) WLAN, 8.82 £9.6 % 10700 AAA IEEE 802.1ax (40MHz, MCSS. 9Opc duty cycle) WLAN 8.3 1£9.6 % 10701__| AAA IEEE 802.11ax (40MHz. MCSG, 80pe duty eycle) WLAN 8.56 +906 % 10702_| AAA IEEE 802.1ax (€0MHz, MGST, 90pc duty eycle) Wean 8.70 +9.6% 10703 AAA IEEE 802. ax (40MHz, MCSB, 90pe duty cycle) WLAN 8.82 1£9.6 % 10704 AAA 1EEE 802.1ax (€0MHz, MGSO, 9Ope duty cycie) WLan 8560 _| +96% 10705 AAA IEEE 802.11ax (40MHz. MCS10, 90pc duty cycle) Wian 869 +96% 10706 AAA 1EEE 802.1ax (€0MHz, MGS11, 90pe duty cycle) Wian B60 £9.6% 10707 AAA IEEE 802. 1Max (40MHz, MCSO, 99pc duty cycle) WLAN 8.32 £9.6 % 10708 AAA IEEE 802.1Max(40MHz. MCS1, 99pc duty oycle) WLAN 8.55 +986 % 10709 AAA IEEE 802.1ax (40MHz, MCS2, 99pe duty oycle)_ WLAN 8.33 £9.6 % 10710 AAA IEEE 802.1Max (40MHz, MCS3, 99pc duty cycle) WLAN 8.29 +9.0 % 10711__| AAA IEEE 802.11ax (€0MHz, MGSA, 99pc duty oycle) WEAN 8.39 £96% 10712__| AAA IEEE 802.11ax (€0MHz, MCSS5, 89pe duty cycle) WLAN 807| £96% T0713 AAA IEEE 802.11ax (d0MHz, MCSS, S9pe duty eycle) WEAN .33 £90% 10714 AAA IEEE 802.11ax (40MHz, MCST. 89pe duty cycle) WLAN 5.26 29.6 % 10715 AAA_| IEEE 802. 1ax (40MHz, MCSB, 99pc duty oycie) WLAN 5.45 £9.0 % 10716 AAA IEEE 802.1Max (40MHz, MCS®. 99pc duty oycle) WEAN 8.30 296 % 10717 AAA IEEE 802.11ax (40MHz, MCS10, 99pc duty cycle) WEAN 8.48 296 % 10718 AAA IEEE 802. Max (40MHz, MCS11, 99pc duty cycle) WLAN 8.24 1+9.6 % 10719 AAA IEEE 802.11ax (BOMHz, MCSO, 90pc duty cycie) WLAN 8.81 £9.6% 10720 AAA IEEE 802.11ax (BOMHz, MCS1, 90pc duty cycle) WEaN 887 +96% 10721 AAA IEEE 802.11ax (BOMHz, MCS2, 90pc duty oycle) WLAN 5.76 £9.6% 10722__| AAA_| IEEE 802.1ax (BOMbHz, MCS3, 9Ope duty cycle) WLAN 8.55 296 % 10723 AAA IEEE 802.11ax (BOMHz, MCSA, 9Ope duty oycle) WLAN 8.70 +986 % 10724 AAA IEEE 602.11ax (GOMHz, MCSS, 90pc duty cycle) WLAN 8.90 £9.6% 10725 AAA IEEE 802.11ax (GOMHz, MCSG, 90pc duty cycle) WLAN 8.74 £9.6 % 10726 AAA_| IEEE 602.11ax (GOMHz, MCST, 90pc uty cycle) WLAN 8.72 19.6 % 10727 AAA_| IEEE 802.1Max (BOMHz, MCS8, 9Ope: duty oycle) WLAN 5.66 196 % Certficate No: EX3—3832_Feb19 Page 19 of 20

EX3DV4— SN:Ses2 February 27, 2019 10728 AAA_| 1EEE 802 Tiax (BoMHz. MCSS, S0pe duly oyole) WEan a65 100% 10729 AAA 1EEE 80211ax (8OMHz. MCS10, 90pe duty cycle) WEAN a64 £96% 10730 AAA IEEE 802{1ax (BOMHz, MCS11, $Ope duty cycle) WLAN aaer_| +90% 10731 AAA IEEE 802.11ax (BOMFHz. MCSO. 99pe duty cycle) WLAN 842| +96% 10732 AAA 1EEE 802Tiax (OMHz, MCS1, 9¥pe duty cycle) WEAN 846| 196 % 10733 AAA IEEE 802.1iax (BOMFHz, MCS2, 99pe duty cycle) WEAN 840| 196 % 10734 AAA| IEEE 802.11ax (G0MrHz, MGS3, 99pe duty cycle) WEAN 825| +906 % 10735 AAA IEEE 80211ax (BoMbz. MCS4, 99pe duty cycle) WEAN 833 196 % 10736 AAA IEEE 802.1ax (GOMFHz, MCSS, 99pe duty cycle) WEAN 6.27 £96% 10737 AAA IEEE 802.11ax (GOMHz, MCS6, 99pe duty cycle) WEAN 5.30 296 % 10738 AAA IEEE 802 11ax (GOMFz, MGCST, 99pe duty cycle) WEAN 842| +96% 10739 AAA IEEE 802 11ax (BOMHz. MCS8. 99pe duty cycle) WEAN 820| £96% 10740 AAA IEEE 802 11ax (B0MFz, MGS9, 9pe duty cycle) WEAN 845| +90% 10741 AAA IEEE 802.11ax (BOMHz. MCS10, 99pe duly eycle) WEAN 840| +06% 10742 AAA IEEE 802.11ax (GOMrz, MCS11, 99pe duly cycle) WEAN a45 +00% 10743 AAA IEEE 802 1ax (160MkHz. MCSO, 9Ope duty oycle) WEAN a.94 200% 10744 AAA| IEEE 802.11ax (160MHz, MCS1, $0pe duty cycle) WEAN 916 +96% 10745 AAA IEEE 802.11ax (160MkHz, MCS2, $Ope duty oycle) WEAN 95 +90% 10746 AAA IEEE 802 11ax (160MHz, MCS3, 9Ope duty oycle) WEAN a11_| +96% Torar AMA_| 1EEE 80211ax (160MkHz, MCS4, 9Ope duty oycle) WEAN 204| +96% 10748 AAA 1EEE 802.11ax (160MHz. MCSS, $Ope duty cycle) WEAN a9s +90% 10749 AAA| IEEE 802.11ax (160MHz, MGS6, $0pe duty cycle) WEAN a.90| +96% 10750 AAA_| 1EEE 802.11ax (160MHz, MCST, $0pe duly cycle) WEAN a.79 296 % 10781 AAA IEEE 802.11ax (160MHz. MGSS. $Ope duty oycle) WEAN a82_| +96% 10752 AAA IEEE 802.11ax (160MHz. MCS9, $Ope duty cycle) WEAN a81_| +96% 10753 AAA IEEE 802.11ax (160MHz, MCS10, 0pc duly oyole) WEAN a.00_| +96% 10754 AAA 1EEE 802.11ax (160MHz, MCS11, 90pc duly eycle) WEAN 804| +90% 10755 AAA IEEE 802.11ax (160MHz, MGSD, 29pe duty cycle) WEAN 804| +90% 10756_| AAA iEeE 802.11ax (160MHz, MCS1, 99pe duty eycle) WEAN 8.77 196 % 1o75r AAA 1EEE 802.11ax (160Mz, MGS2, 89pe duty cycle) WEAN a.77 196% 10758 AAA_| IEEE 802.11ax (160MhHz, MGS3, 99pe duty cycle) WEAN 5.600 196 % 10789 AAA 1EEE 802.11ax (1ooMHz, MGS4, S9pe duty eycle) WEAN 859| 296 % 10760 AAA IEEE 802.11ax (160MHz, MCS5, 89pe duty oycle) WEAN 6.49 £96% 10761 AAA IEEE 802.1 1x (160MHz, MCSG. 99pe duty cycle) WEAN a.55_| £96% 10762 AAA 1EEE 802.{1ax (160Mkz, MGST, 99pe duty eycle) WEAN 849| £96% 10763 AAA 1EEE 802.11ax (160MHz, MCSS. 99pe duty cycle) WEAN a53 196 % Tored AAA_| 1EEE 802.11ax (16oMHz, MGSo, 99pe duty oycle) WEAN a.54 £96% 10765 AAA IEEE 802.11ax (160MkHz. MCS10, 99pe duly oycle) WEAN a.54 £96% 10766 AAA IEEE 802.11ax (160MHz, MCS11, 99pe duly eycle) WLAN 51| +96% * Uncertainty is determined using the max. deviation from linear response applying rectangular distribution and is expressed for the square of the field value Certficate No: EX3—3832_Feb19 Page 20 of 20

Calibration Laboratory of Schwelzerischr Kabieronst Schmid & Partner papmmennetimni Engineering AG C sevie anems ttrstire Raghavistuse £0, 6004 2urich, Snttrtand S Swies Cattvation Service Accsudted ty t Sniss Accedtaton Sevce (BAG) Acemataton io: SCS 0108 ‘The Swiss Accredtion Servie is one ofthe aignatoristo the EA Mulateral Agreementfrth recognton of caltration conticats ciem Onetech (Dymstes) Coiicane: D7SOV3—1181_Feb18 |CALIBRATION CERTIFICATE Otjet D7s0Vs — SN:1181 Cattatonprecedels) OA CALOSv9 Calloration procedure for dipole valldation kits above 700 MHz Castratondae February 23, 2018 ‘Tiscatvaton cerfcate documents h vaceabity tonateralsandart, wich reatze h stylca uo of measurements (S) ‘The measiements and t unceaniesuihcontdanc robanity ze guven on th toloingpagesand ar par of tcontcale Alcaltratonshave en conductn i the cloed abortay acit evronnnttanporai (2 a 2C and humidy «701 CatbratonEaupment used (MBTE erteao caitator) prman, Suncarts o« CalDie (Conta o) Posenote NRP sit ome 6t2017 (to avreassuiesen Pove sesr hsPz3t sn rosese orrset? io arzeasen) Soors Pove semor Rp2z on ts ctaperr io arzeesen Soors Reternce 20 0B Atorste snsose oo ardper7 t 2rzeason Lad Topetimamath continaton sncsorra ossar or—pet7 o 2trense Apoie Relomrce Pote Exaove strew 30tvet7is Bxa—reun.pectr) Deoe vaee se 250017 io. asssorcatm oo seconday Sundats o« cresk Dat (ntouse) seneded Chack Pose name Erucsirh sn commores orais (nrowecearon in inhouse sc Gotio Powe semso isetth stusmmens oroais ntomecieacOa10) inhouse ctndc Cc18 Pove sersoH Beeth suinarmait orocis ntowecteccOc18) inouse ce oc—to AF gererior ns surs on toome 15—15 in house check Oct15) inhause ctrdc Oo—18 Nemwod Araizer 9 arsse sncussraoosts 180001 (nhowecteccOct) inhouse ctedc Oa—t8 Name Furcion Squive Catbatedby MicrootWeber Latortor Tecicin Aovomaty rate rotove Techicaiiarager /f{f_ issunt Fxbwary 2s 2018 This caraton uitcshalnothe repodiend excest n it wthout witen aoprovao he abortoy Coriicate No: D7SOV2—1181_Febts Page 1 o8

Calibration Laboratory of .. Setweizeischor Kaiierconst Schmid & Partner Service suissetitlonnage Engineering AG C Sonia terer d tratura Zoognsusntaase 1, 6004 urch, Suiserind $ sCatbration Sevice Acsrdted ty ha Sss Acertaton Sevice (SAS) sccredtaton No: SCS 0108 ‘Te Swiss Aceredtation Sevice i one ofhe signatoriesto the EA MoittaeratAgreamentforth recognitn o caltraton conifates Glossary: TSL tissue simulating liquid ConvF sensitvity in TSL/ NORM xy,z NA not applicable or not measured Calibration is Performed According to the Following Standards: a) IEEE Std 1528—2013, "IEEE Recommended Practice for Determining the Peak Spatial— Averaged Specific Absorption Rate (SAR) in the Human Head from Wireless Communications Devices: MeasurementTechniques‘, June 2013 b) 1EC 62200—1, "Measurement procedure for the assessment of Specific Absorption Rate (SAR) from hand—held and body—mounted devices used next to the ear (frequency range of 300 MHz to 6 GHz)®, July 2016 c) EC 62200—2, ‘Procedure to determine the Specific Absorption Rate (SAR) for wireless communication devices used in close proximity to the human body (frequency range of 30 MHz to 6 GHz}*, March 2010 d) KDB 865664, "SAR Measurement Requirements for 100 MHz to 6 GHz" Additional Documentation: e) DASY4/5 System Handbook Methods Applied and Interpretation of Parameters: * MeasurementConditions: Further details are available from the Validation Report at the end of the certficate. Allfigures stated in the certficate are vald at the frequency indicated. * Antenina Parameters with TSL: The dipole is mounted with the spacer to position its feed point exactly below the center marking of the flat phantom section, with the arms oriented parallel to the body axis. * Feed Point Impedance and Return Loss: These parameters are measured with the dipole positioned under the liquid filed phantom. The impedance stated is transformed from the measurement at the SMA connector to the feed point. The Return Loss ensures low reflected power. No uncertainty required. * Electrical Delay: One—way delay between the SMA connector and the antenna feed point. No uncertainty regquired. + SAR measured: SAR measured at the stated antenna input power. * SAR normalized: SAR as measured, normalized to an input power of 1 W at the antenna connector. + SAR for nominal TSL parameters: The measured TSL parameters are used to calculate the nominal SAR result The reported uncertainty of measurement is stated as the standard uncertainty of measurement multiplied by the coverage factor k=2, which for a normal distribution corresponds to a coverage probabiliy of approximately 95%. Cerifcate No: D7S0OV3—1181_.Fobte Page 20t8

Measurement Conditions DASY system conguraton, as ar as not gven on page 1 DASY version basys vsetoo Extrapolation Acvanced Extapolation Phantom Modular Fat Phantom Distance Dipole Conter— TSL 18 mm with Spacer Zoom Sean Resolution d dy. dz =5 mm Frequeney 750 Miiza 1 Mite Head TSL parameters ‘The foloning parameters and calculatons were appled Temperature Pormitivity Conductiviy NominalHead TSL parameters z0e «19 089 mhaim Measured Head TSL parameters @zoz02)°C 41426% 080 mhoim«6% Head TSL temperature change during tost <as‘c — « SAR result with Head TSL SA averaged over 1 on? (1 ) of Head TSL Condiion SA measured 250 mW inout power 206 w SAfor nominal Head TSL paramoters normalized to 1W 22 Wika 217.% (ke2) SAR averaged over 10 em(10 g)of Head TSL condiion SAR measured 250 mW input power 135 Who SA for nominal Hoad TSL parameters nommalized to 1W 5.3 Whg # 165 % (ex2) Body TSL parameters Te foloning parameters and calculatons were appled Temperature Pormittivity Conguctiviy Nominal Body TSL parameters zo‘e sss 0.96 mhoim Measured Body TSL parameters @20 02)°C 55216 % 096 mhoim«6% Body TSL temperature change during tost <os‘c — — SAR result with Body TSL SA averaged over 1 on (1 g)o Body TSL Gon SAR measured 260 mW inout power 215 ¥ikg SA for nomnal Body TSL paramaters nomalized to 1W a.50 wing =17.0 % (ce2) SAR averaged over 10 em? (10 g)of Body TSL condiion SAR measured 250 mW inout power 1iewho SA fonominal Body TSL parameters normalized to 1W 5.8 Why 165 % (ee2) CerticateNo: Drsovs—1181_Fob18 Pageaote

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DASY5 Validation Report for Head TSL Date: 23022018 Test Laboratory: SPEAG, Zurich, Switzerland DUT: Dipole 750 MHz; Type: D7S0V3; Serial: D750V3 — SN:L181 Communication System: UID 0 — CW; Frequency: 750 MHz Medium parameters used: f=750 MHe: a = 0.89 $/m; e;= 41.4; p = 1000 kg/m! Phantom section: Flat Section Measurement Standard: DASYS (IEEETEC/ANST C63.19—201 1y DASY52 Configuration: + Probe: EX3DV4 — SN7349; ConvB(10.22, 10.22, 10.22); Calibrated: 30.12.2017; Sensor—Surface: 1.4mm (Mechanical Surface Detection) Electront s: DAEA Sn601; Calibrated: 26.10.2017 Phantom: Flat Phantom 4.9 (fronty Type: QD 00L P49 AA; Serial: 1001 DaSY52 52.10.0(1446); SEMCAD X 14.6.10(7417) Dipole Calibration for Head Tissue/Pin=250 mW, d=15mm/Zoom Scan (7x7x7)/Cube 0: Measurement grid: d=Smm, dy=Smm, d Reference Value = 59.07 V/m; Power Drift Peak SAR (extrapolated) =3.07 Wikg SARC ) =2.06 We SARCIO g) 1.38 We Maximum value of SAR (measured) 2.74 Whke ah o 240 480 420 —8.00 "12.00 0 dB =2.74 Wike =4.38 dBWhz Certicate No: rsovs—t181_Fobte Page Sot8

Impedance Measurement Plot for Head TSL m res ns smancne xn sn aure asuass cussese yasees sonarer rstaneoce mz e & me cre me Sroe sseoen soe we Corticate No: D7S0V2—1181_Fobte Page 6ct8

DASY5 Validation Report for Body TSL Date: 23022018 Test Laboratory: SPEAG, Zurich, Switzerland DUT: Dipole 750 MHz; Type: D750V3; Serials D750V3 — SN:L181 Communication System: UID 0 — CW; Frequency: 750 MHz Medium parameters used:f= 750 MHz; a = 0.96 S/m; e, = 55.2; p = 1000 ke/m! Phantom section: Flat Section Measurement Standard: DASYS (IEEEAEC/ANSI C63.19—2011) DASY52 Configuration: + Probe: EX3DV4 — SN7349; ConvB(10.19, 10.19, 10.19); Calibrated: 30.12.2017; Sensor—Surface: 1 Amm (Mechanical Surface Detection) Electronies: DAE4 $n601; Calibrated: 26.10.2017 Phantom: Flat Phantom 4.9 (Back); Type: QD 0OR P49 AA; Serial: 1008 DASY52 52.10.0(1446); SEMCAD X 14.6.10(7417) Dipole Calibration for Body Tissue/Pin=250 mW, d=15mm/Zoom Scan (7x7x7)/Cube 0: Measurement grid: dx=Smm, dy=3mm, de=Smm Reference Value = 57.84 V/m; Power Drift =—0.08 dB Peak SAR (extrapolated) =3.18 W/kg SARCT g) =2.15 W/kg: SAR(IO g) = 142 Why Maximum value of SAR (measured) = 2.85 We 480 120 —3.00 12.00 0 dB =2.85 Wikg = 4.55 dBWAg Centicate No: D75OV3—1181_Fobte Page? ota

Impedance Measurement Plot for Body TSL m re mas isceus can sn aurs wessee mames ~ormsre anasopr rsto0o one mz hy & me cre me Staet Ssanes ooo me Sree ssaoee sce we Coriicate No: D7s0V2—1181_Fobt8 Page sot

onETECH \/ Page 1 of 4 Certification of Calibration Object D7S0V3 — SN: 1181 Calibration procedure(s) Procedure for Calloration Extension for SAR Dipoles. Extended Calibration date :. February 15, 2019 Description SAR Valdation Dipole at 750 MHz Calibration Equipment used: Wandacter woon Descnpton Caome conertes Spess ecove sntPote zosoon zomcen s Spess se DataMenuston Becuones 2otets mons in Spase orso‘s beserviews mos meosess e e sse Rr SuralGeneutcr 20r80625 mronl aoroceas srevrsee sivcsm moot RF PovetAnoiter 2or00528 Amoni 20100028 1 Rgien Exiros Poveriir zisos2r on_| soce2r mmasnoors Rgien Esuse Poverinlr zore0e27| ow soraoser mrasrosass ie som PoverSerscr zors0027 ons rorsasar sorenmzen re Pm Pover sersor zomsoe2r |_tonat rersos2r ussrzsout ie sem PoveSersor zorea827| ons zoreaser sorerenss ie mso DiilDrecionalComer 2oré0627 Amual 2sore0s27 ies Bea soarumnce m 20r80027 »eusl rorosser m re sorm Atersmor zreos2s |_Amel sorsssze esre winwment wussecostr To Pass i: zmosse zomosse 1 Em oness DaleareAesessnenita_| 20161120 zormas m Rgjent emone cammionia zeosie mmon moame Rgjen esom Neoatiner zor80027 zors0s2r ustoroe U Eectone Gnbl DTW300Spenal |_Pandted Tremonetan._| 20180525 zsosss |__sur ons m Tenpere mgomate 20100020 zcss roum us mors coronensumte serssiss |_remm sormorss |_oxesses Hete: CBT (Caliation Before Tesing) Prioto tesing,he measurement paths containing a cabl, ampiffr, atenvato, coupter or Hiter were connected toa caibrted source (.e. a signalgeneratoy to determinete losses of the measurement path Measurement Uncertainty = 2: 20 % (k=2) Name Function Stanature Callbrated By (Tested By}:| Jung Hun Park Engineer ) z7 Approved By: Jung Wook Kim Technical Manager VJ Object: D750V3 ~ SN: 1181 Issued date: 2019—02—15

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Document Created: 2019-03-27 22:29:37
Document Modified: 2019-03-27 22:29:37
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