SAR report part 2

FCC ID: 2AJOTTA-1071

RF Exposure Info

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M ||'" P mm® |n Collsboration with \&‘\y/’> M P EiaJ ®‘7/"/"J, a jx eon w‘ //_\\\CNAS&?E CALIBRATION LABORATORY [zel & o CALIBRATION I,/, Add: No.51 Xueyuan Road, Haidian District, Beijing, 100191, China ’/"/,fi\\“ v CNAS LO570 Tel: +86—10—62304633—2218 Fax: +86—10—62304633—2209 ul E—mail: cttl@chinattl.com Hittp:/www.chinattl.cn Client : Sporton International INC Certificate No: Z217—97245 CALIBRATION CERTIFICATE Object DAE4 — SN: 1338 Calibration Procedure(s) FF—Z11—002—01 Calibration Procedure for the Data Acquisition Electronics (DAEx) Calibration date: December 04, 2017 This calibration Certificate documents the traceability to national standards, which realize the physical units of measurements(Sl). The measurements and the uncertainties with confidence probability are given on the following pages and are part of the certificate. All calibrations have been conducted in the closed laboratory facility: environment temperature(22+3)‘Cc and humidity<70%. Calibration Equipment used (M&TE critical for calibration) Primary Standards ID # Cal Date(Calibrated by, Certificate No.) Scheduled Calibration Process Calibrator 753 1971018 27—Jun—17 (CTTL, No.J17X05859) June—18 Name Function Signature Calibrated by: Yu Zongying SAR Test Engineer Reviewed by: Lin Hao SAR Test Engineer /fiifibw 7/4{7 Approved by: Qi Dianyuan SAR Project Leader trraeC1 Issued: December 05, 2017 This calibration certificate shall not be reproduced except in full without written approval of the laboratory. Certificate No: Z17—97245 Page 1 of 3

e© in Colisboration with a=_‘/"/‘[, ~@imaaaye»" a CALIBRATION LABORATORY Add: No.51 Xueyuan Road, Haidian District, Beijing, 100191, China Tel: +86—10—62304633—2218 Fax: +86—10—62304633—2209 E—mail: cttl@chinattl.com Http:/www.chinattl.en Glossary: DAE data acquisition electronics Connector angle information used in DASY system to align probe sensor X to the robot coordinate system. Methods Applied and Interpretation of Parameters: e DC Voltage Measurement: Calibration Factor assessed for use in DASY system by comparison with a calibrated instrument traceable to national standards. The figure given corresponds to the full scale range of the voltmeter in the respective range. e Connector angle: The angle of the connector is assessed measuring the angle mechanically by a tool inserted. Uncertainty is not required. e The report provide only calibration results for DAE, it does not contain other performance test results. Certificate No: Z17—97245 Page 2 of 3

In Collaboration with Add: No.51 Xueyuan Road, Haidian District, Beijing, 100191, China Tel: +86—10—62304633—2218 Fax: +86—10—62304633—2209 E—mail: cttl@chinattl.com Http:/www.chinattl.en DC Voltage Measurement A/D — Converter Resolution nominal High Range: 1LSB = 6.A1uV , full range = —100...+300 mV Low Range: 1LSB = 61inV , full range = ~A1.2.222.. +3mV DASY measurement parameters: Auto Zero Time: 3 sec; Measuring time: 3 sec Calibration Factors X Y Z. High Range 403.689 + 0.15% (k=2) 404.263 + 0.15% (k=2) 404.219 + 0.15% (k=2) Low Range 3.97174 + 0.7% (k=2) 3.97734 + 0.7% (k=2) 3.97338 + 0.7% (ic=2) Connector Angle Connector Angle to be used in DASY system 64° +1 ° Certificate No: Z17—97245 Page 3 of 3

5in hon wih «J3 m xn ETTL v‘a mem@GNASE®" CAHBRATION tABoRiONN KZ7zy cmmnon Add: No.51 Xueyuan Road, Haid ict.Belling, 100191, China »/“;"\ CNAS LO570 Tel: «6—10—62304633—2218 Fax: +86—10—62301633—2200 E—mail:cl@chinattl.com tipohinkd L Client Sporton InternationalINC Certificate No: 217—97152 CALIBRATION CERTIFICATE Object ES3DV3 — SN:3203 Calibration Procedure(s) EF—211—004—01 Callbration Procedures for Dosimetric E—field Probes Calbration date: September 25, 2017 This calibration Certificate documents the traceabiity to national standards, which realize the physical units of measurements(S)). The measurements and the uncertainties with confidence probabilty are given on the following pages and are part of the certificate. All calibrations have been conducted in the closed laboratory facilty: environment temperature(@22s3)© and humidity<70%. Calibration Equipment used (M&TE critical for callbration) Primary Standards D# Cal Date(Calibrated by, Certificate No.) Scheduled Calibration Power Meter NRP2 101919 27—Jun—17 (CTTL, No.J17X05857) Jun—18 Power sensor NRP—291 101547 27—Jun—17 (CTTL, No.J17X05857) Jun—18 Power sensor NRP—291 101548 27—Jun—17 (CTTL, No.J17X05857) Jun—18 Reference10dBAttenuator 18N50W—10d8 13—Mar—16(CTTLNo.J16X01547) Mar—18 Reference20dBAttenuator 18N50W—200B 13—Mar—16(CTTL, No.J16X01548) Mar—18 Reference Probe EX3DV4 SN 7433 26—Sep—16(SPEAG,No.EX3—7433_Sep16) Sep—17 DAE4 SN 549 13—Dec—16(SPEAG, No.DAE4—549_Dec16) Dec—17 Secondary Standards ID # Cal Date(Calibrated by, Certiicate No.) Scheduled Calibration SignalGeneratorMG3700A 6201052605 27—Jun—17 (CTTL, No.J17X05858) Jun—18 Network Analyzer ES071C MY46110673 13—Jan—17 (CTTL, No.J17X00285) Jan—18 Name Function Signature Calbrated by: Yu Zongying SAR Test Engineer Reviewed by: Zhao Jing SAR Test Engineer gz/ Approved by: Oii Dian Dianyuan SAR Project roject LLeader % Issued: September 27, 2017 This callbration certificate shall not be reproduced except in full without written approval of the laboratory. Certificate No: Z17—97152 Page 1 of 11

"— in Collaborationwith causranon Lagorarory Add: No.S1 Xueywan Road. Hnidian District, BeiJing, 100191, China +o10—ea30d633—2218 Fav +86—10—02304603—2200 E—mall citl@chinatl.com Hips/hnwnchinatl.on Glossary: TSL tissue simulating liquid NORMxy.z sensitivity in free space ConvF sensitivity in TSL / NORMxy,z DCP diede compression point CF crest factor (1/duty_cycle) of the RF signal AB.C,D modulation dependent linearization parameters Polarization ® ©® rotation around probe axis Polarization 0 8 rotation around an axis that is in the plane normal to probe axis (at measurement center) 8=0 is normal to probe axis Con nector Angle information used in DASY system to align probe sensor X to the robot coordinate system 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: Measurement Techniques®, June 2013 b) IEC 62209—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) IEC 62209—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) K DB 865664, "SAR Measurement Requirements for 100 MHz to 6 GHz" Methods Applied and Interpretation of Parameters: NORMs,y,z: Assessed for E—field polarization 6=0 (fs900MHz in TEM—cell; {> 1800MHz: waveguide), NORMx.y,z are only intermediate values, i.e., the uncertainties of NORMx,y,z does not effect the E" field uncertainty inside TSL (see below ConvF) NORM(Dx,y.z IORMx.y,2" frequency_response (see Frequency Response Chart). This linearization is implemented in DASY4 software versions later than 4.2. The uncertainty of the frequency response is included in the stated uncertainty of ConvF. DCPx.y,z: DCP are numerical linearization parameters assessed based on the data of power sweep (no uncertainty required). DCP does not depend on frequency nor media. PAR: PAR is the Peak to Average Ratio that is not calibrated but determined based on thesignal characteristics. Axy.z; Bx.y.z; Cxy,2z; VRXy.2:A,B,C are numerical linearization parameters assessed based on the data of power sweep for specific modulation signal. The parameters do not depend on frequency nor media. VR is the maximum calibration range expressed in RMS voltage across the diode. ConvF and Boundary Effect Parameters: Assessed in flat phantom using E—field (or Temperature Transfer Standard for f5800MHz) and inside waveguide using analytical field distributions based on power measurements for f »800MHz. The same setups are used for assessment of the parameters applied for boundary compensation (alpha, depth) of which typical uncertainty valued are given. These parameters are used in DASY4 software to improve probe accuracy close to the boundary. The sensitivity in TSL corresponds to NORMx,y,z* Conv whereby the uncertainty corresponds to that given for ConvF. A frequency dependent Convr is used in DASY version 4.4 and higher which allows extending thevalidity from::50MHz tos100MHz. Spherical isotropy (3D deviation from isotropy); in a field of low gradients realized using a flat phantom exposed by a patch antenna. Sensor Offset: The sensor offset corresponds to theoffset of virtual measurement center from the probe tip (on probe axis). No tolerance required. Connector Angle: The angle is assessed using the information gained by determining the NORMx (no uncertainty required) Certi ficate No: Z17—97152 Page 2 of11

Tel: «86—10— P +86—10—62301633—2200 E—mail: ul Mitpihwwschinathen Probe ES3DV3 SN: 3293 Calibrated: September 25, 2017 Calibrated for DASY/EASY Systems (Note: non—compatible with DASY2 system!) Certificate No: 217—97152 Page 3 of11

°in Collboration with causranon Lasoratory Add: No.51 Xueyuan Road. Haidian District, Beijing. 100191, China Tel: +86—10—62304633—2218 Fax: +86—10—62304633—2200 E—mail: ctl@chinatl.com Hipcwschinatlen DASY/EASY — Parameters of Probe: ES3DV3 — SN: 3293 Basic Calibration Parameters Sensor X SensorY Sensor Z Un (k=2) Norm(pVi(Vim)®) 112 0.90 0.76 £10.0% DCP(mV)® 1055 108.7 109.8 Modulation Calibration Parameters uin Communication A B c p VR Une® System Name dB dByuV dB mV (k=2) 0 ow x |0.0 0.0 1.0 0.00 |286.1 12.8% vy _|0.0 0.0 1.0 254.6 2 0.0 0.0 1.0 232.5 The reported uncertainty of measurement is stated as the standard uncertainty of Measurement muftiplied 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 affect the E*—field uncertainty inside TSL (see Page 5 and Page 6). * Numerical linearization parameter: uncertainty not required. © Uncertainly is determined using the max. deviation from linear response applying rectangular distribution and is expressed for the square of the field value. Certificate No: 21797152 Page 4 of 11

" in Collaborationwith TTL a Add: No.51 Xueyuan Rood, Haidian Distrct Beijing, 100191, China ‘els rb6—10—62304633—2218 Paxc +86—10—02304633—2200 t—mail: l @rchinatl.com Hipi/nwchinatilen DASY/EASY — Parameters of Probe: ES3DV3 — SN: 3293 Calibration Parameter Determined in Head Tissue Simulating Media & t mkz© Pe:';:::;y g c""‘::f:‘)’i" ConvF X ConvF Y GonvF 2 Alpha® r‘::""':', :‘k:;: T50 a10 se a4ar 647 647| 060 115| +121% 835 415 0.90 630 630 630| 041| 147_| +121% 900 a15 nor 6x es es 041| 149 |+121% 1450 405 120 545 545 545 032 187 121% 1750 401 137 a32 532 532 06 125 +121% 1900 a0.0 140 s23 523 523 o6§ 123 +121% 2000 20.0 140 ase 408 498 043 160 £121% 2300 305 167 aso 490 490| 090 110| £121% 2450 302 180 ars 47 a73 o%8 114| 121% 2600 300 196 aso 450 450| 080 110| +121% © Frequency validity above 300 MHz of £100MHz only apples for DASY v4.4 and higher(Page 2), else it is restricted to #50MHz. The uncertainty is the RSS of Conve uncertainty at calibration frequency and the uncertainty for the indicated frequency band. Frequency validity below 300 MHz is + 10, 25, 40, 50 and 70 MHz for ConvF assessments at 30, 64, 128, 150 and 220 MHz respectively. Above 5 GHz frequency valdity can be extended to + 110 MHz "At frequency below 3 GHz, the validty of tissue parameters (c and 0) can be relaxed to 210% if liquid compensation formula is applied to measured SAR values. At frequencies above3 GHz, the validity of tissue parameters (e and 0) is restricted to +5%. The uncertainty is the RSS of the Conv uncertainty for indicated target tissue parameters. ° Alpha/Depth are determined during callbration. SPEAG warrants that the remaining deviation due to the boundary effect after compensation is alwaysless than + 1% for frequencies below 3 GHz and below + 2% for the frequencies between 3—6 GHzat any distance farger than half the probe tip diameter from the boundary. Certificate No: Z17—97152 Page S of 11

Add: No.S1 Xueyuan Road. Haidian District, Beiling, 100191, China Tels +86—10—62304633—2218 Fac +86—10—6230403—2200 E—mail: etl@@chinattl.com Hitpi/wnchinatiien DASY/EASY — Parameters of Probe: ES3DV3 — SN: 3293 Calibration Parameter Determinedin Body Tissue Simulating Media s f uHz® Fe::"::::;y , c°"°:;f:‘;','y ConvF X ConvF Y ConvF 2 Alpha® D:“":) :i::') Tso 55.5 0.96 643 643 643 o0 125 +121% 35 55.2 o7 e1g a19 a19 040 1160 £121% 1750 534 149 s0s 505 505 o6é 127 £121% 1900 533 152 ase 48e ase om 117 +121% 2450 527 195 aso ase ase ore 131 +121% 2600 525 216 a16 a16 416 080 115| £121% © Frequency validity above 300 MHz of +100MHz only apples for DASY v4.4 and higher (Page 2), else it is restricted to #50MHz. The uncertainty is the RSS of ConvF uncertainty at callbration frequency and the uncertainty for the indicated frequency band. Frequency validity below 300 MHz is + 10, 25, 40, 50 and 70 MHz for Convr assessments at 30, 64, 128, 150 and 220 MHz respectively. Above 5 GHz frequency valldity can be extended to # 110 MHz. "At frequency below 3 GHz, the validity of tssue parameters (¢ and 0) can be relaxed to £10% if liquid compensation formula is applied to measured SAR values. Atfrequencies above 3 GHz,the validity of tissue parameters ( and 0) is restricted to £5%. The uncertainty is the RSS of the Convr uncertainty for indicated target tissue parameters ©Aipha/Depth are determined during calibration. 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 the frequencies between 3—6 GHz at any distance larger than half the probe tip diameter from the boundary. Certificate No: Z17—97152 Page 6 of 11

°in Collborationwith u/"7°"J, a causRAnon LaBORArORY Add: No.51 Xueyuan Road, Haidian District, Bejing. 100191, China Tel: +86—10—62304633—2218 Fax +86—10.62304633—2200 E—mail:tl@@chinatl.com Bipi/twwchinatt.en Frequency Response of E—Field (TEM—Cell: ifi110 EXX, Waveguide: R22) Frequency response (normalized) s oi s n — s s o o e e e s ~ e a 8 in 0 500 1000 1500 2000 2500 3000 E23 f [(MHz oo TEM I ul Raz Uncertainty of Frequency Response of E—field: £7.4% (k=2) Certificate No: 217—97152 Page 7 of 11

rot3—2218 Fix: +86—10—62304033—2200 E—mail: l@chinatt.com MipeAwwncchinatilen Receiving Pattern (®), 0=0° f=600 MHz, TEM f=1800 MHz, R22 t t t «1so «100 «o o so 100 150 Uncertainty of Axial Isotropy Assessment: £1.2% (k=2) Certificate No: Z17—97152 Page 8 of 11

r\' in Collaboration with ‘TTL! p_ e a g Add: No.51 Xueyuan Road. Haidian District, Beljng, 100191, China Tel: +86—10—62304638—2218 Fan+86—10—62304633—2200 E—mail: e@chinat.com Hipuhiosscchinat Dynamic Range f(SARneaq) i 10° 10° 10° 10 10° SAR[mW/cm‘] FW—}not compensated —@~ compensated 1:)' 5 SAR[mWiem‘ [__T—=—Inot compensated —e— compensated _] Uncertainty of Linearity Assessment: £0.9% (k=2) Certificate No: 217—97152 Page 9 of 11

Add: No.31 Xueyuan Road. Haidian Distrit, Beijing. 100191, China Tel: +86—10—62304633—2218 Fax n—6e2301633—2200 E—mal: ctl@chinat.com pilwwchinailco Conversion Factor Assessment f=835 MHz, WGLS R9(H_convF) f=1750 MHz, WGLS R22(H_convF) aso se ase aso sanpgyy 200 1so 100 ase aco zoo [~<e—messired——wrabed 10 o8 cs o« 02 oo 02 o4 «s «8 14 40 am com omm ze o o7 o« om om io Uncertainty of Spherical Isotropy Assessment: £3.2% (K=2) Certificate No: Z17—97152 Page 10 of 11

Add: No.51 Xueyuan Road. HaidianDisrict, Beijing, 100191, China Tels +86—10—62304033—2218 Fax: +86—10—62301603—2200 —mail: ctl@chinatl.com Httpshwchinatt.en DASY/EASY — Parameters of Probe: ES3DV3 — SN: 3293 Other Probe Parameters Sensor Arrangement Triangular Connector Angle (°) 7.2 Mechanical Surface Detection Mode enabled Optical Surface Detection Mode disable Probe Overall Length 337mm Probe Body Diameter 10mm Tip Length 10mm Tip Diameter 4mm Probe Tip to Sensor X Calibration Point 2mm Probe Tip to Sensor Y Calibration Point 2mm Probe Tip to Sensor Z Calibration Point 2mm Recommended Measurement Distance from Surface 3mm Certificate No: 217—97152 Page 11 of 11

;a uctusiom T& mm t TH causranion Lasoratory 7 /\ & CNAs a’lwflon Add: No 51 Xueyuan Road. Haidian Distrct Beiing, 100191, China % '»@\“e CNAS L570 Tel: +86—10—62304633—2218 Facc +86—10—62304633—2200 E—mail: ct@chinatl.com chinatl.en Client Auden Certificate No: Z17—97052 Object EX3DV4 — SN:3763 Calibration Procedure(s) EF—Z11—004—01 Calbration Procedures for Dosimetric E—field Probes Calibration date: May 05, 2017 This calibration Certificate documents the traceabiity to national standards, which realize the physical units of measurements(S)). The measurements and the uncertainties with confidence probability are given on the following pages and are part of the certificate. All calibrations have been conducted in the closed laboratory facility: environment temperature(@22:3)C and humidity<70%. Calibration Equipment used (M&TE critical for calibration) Primary Standards ID # Cal Date(Calibrated by, Certificate No.) Scheduled Calibration Power Meter NRP2 101919 27—Jun—16 (CTTL, No.J16X04777) Jun—17 Power sensor NRP—Z291 101547 27—Jun—16 (CTTL, No.J16X04777) Jun—17 Power sensor NRP—Z291 101548 27—Jun—16 (CTTL, No.J16X04777) Jun—17 Reference10dBAttenuator 18N5OW—1048 13—Mar—16(CTTL.No.J16X01547) Mar—18 Reference20dBAttenuator 18N5OW—200B 13—Mar—16(CTTL, No.J16X01548) Mar—18 Reference Probe EX3DV4 SN 7433 26—Sep—16(SPEAGNo.EX3—7433_Sep16) Sep—17 DAE4 SN 549 13—Dec—16(SPEAG, No.DAE4—549_Dec16) Dec—17 Secondary Standards iD # Cal Date(Calibrated by, Certificate No.) Scheduled Calibration SignalGeneratorMG3700A 6201052605 27—Jun—16 (CTTL, No.J16X04776) Jun—17 Network Analyzer ES071G MY46110673 13—Jan—17 (CTTL, No.J17X00285) Name Function Calibrated by: Yu Zongying SAR Test Engineer Reviewed ty Lin Hao SAR Test Engineer Approved by: Qi Dianyuan SAR Project Leader Issued: May 06, 2017 This callbration certificate shall not be reproduced except in full without written approval of the laboratory. Certificate No: Z17—97052 Page 1 of 11

causranon Lasoratory Add: No.51 Xueyuan Road. Haidian District, Beiing, 100191, China Tel: +86—10—62304633—2218 Fax: +86—10—62304033—2200 E—mail:ct@chinat.com Htphoowchinatilen Glossary: TSL tissue simulating liquid NORMxy,z sensitivity in free space ConvF sensitivity in TSL / NORMxy.z DCP diede compression point CF crest factor (1/duty_cycle) of the RF signal AB.C.D modulation dependent linearization parameters Polarization ® ©® rotation around probe axis Polarization 0 8 rotation around an axis that is in the plane normal to probe axis (at measurement center), i 8=0 is normal to probe axis Connector Angle information used in DASY system to align probe sensor X to the robot coordinate system Calibration is Performed According to the Following Standards: a) IEEE Std 1528—2013, "IEEE Recommended Practice for Determining the Peak Spatia—Averaged Specific Absorption Rate (SAR) in the Human Head from Wireless Communications Devices: Measurement Techniques", June 2013 b) IEC 62208—1, Procedure to measure the Specific Absorption Rate (SAR) for hand—held devices used in close proximity to the ear(frequency range of 300MHz to 3GHz), February 2005 c) IEC 62208—2, "Procedure to determine the Specific Absorption Rate (SAR) for wireless communication devices used in close proximity to the human body (frequency rangeof 30 MHz to 6 GHz), March 2010 d) KDB 865664, "SAR Measurement Requirements for 100 MHz to 6 GHz" Methods Applied and Interpretation of Parameters: * NORMxy,z: Assessed for E—field polarization 0=0 (fs900MHz in TEM—cell; {> 1800MHz: waveguide}. NORMxy,z are only intermediate values, i.e., the uncertainties of NORMx,y,z does not effect the E" feld uncertainty inside TSL (see below ConvF). * NORM(xy2 = NORMx.y,2" frequency_response (see Frequency Response Chart). This linearization is implemented in DASY4 software versions later than 4.2. The uncertainty of the frequency response is included in the stated uncertainty of ConvF. * DCPx,y,2: DCP are numerical linearization parameters assessed based on the data of power sweep (no uncertainty required). DCP does not depend on frequency nor media. «_ PAR: PAR is the Peak to Average Ratio that is not calibrated but determined based on the signal characteristics. * Axyz; Buy.z: Coyz;VRxy,z:A,B,C are numericallinearization parameters assessed based on the data of power sweep for specific modulation signal. The parameters do not depend on frequency nor media, VR is the maximum calibration range expressed in RMS voltage across the diode. * ConvF and Boundary Effect Parameters: Assessed in flat phantom using E—field (or Temperature Transfer Standard for fs800MHz) and inside waveguide using analytical field distributions based on power measurements for f >B0OMHz. The same setups are used for assessment of the parameters applied for boundary compensation (alpha, depth) of which typical uncertainty valued are given. These parameters are used in DASY4 software to improve probe accuracy close to the boundary. The sensitivity in TSL corresponds to NORMx,y,z* Conywhereby the uncertainty corresponds to that given for ConvF. A frequency dependent ConvF is used in DASY version 4.4 and higher which allows extending the validity from«50MHz to*100MHz. * Spherical isotropy (3D deviation from isotropy): in a field of low gradients realized using a fiat phantom exposed by a patch antenna. * Sensor Offset: The sensor offset corresponds to the offset of virtual measurement center from the probe tip (on probe axis). No tolerance required. * Connector Angle: The angle is assessed using the information gained by determining the NORMx (no uncertainty required). Certificate No: Z17—97052 Page 2 of 11

causranon LasorAtory Add: No.51 Xueyun Road, Haidian Distict, Beiing. 100191, China Tel: +86—10—62304633—2218 Fac: +86—10—62304633—2209 E—mail: ctl@chinatl.com ftpohoww chinat.en Probe EX3DV4 SN: 3753 Calibrated: May 05, 2017 Calibrated for DASY/EASY Systems (Note: non—compatible with DASY2 system!) Certificate No: Z17—97052 Page 3 of 11

Add: No.51 Xueyuan Road. Haidian District, Beiing, 100|9| China Tel: +86—10—62304633.2218 Faxc +86— E—mail: cl@chinat.com Htpshwsewchinatton DASY/EASY — Parameters of Probe: EX3DV4 — SN: 3753 Basic Calibration Parameters Sensor X Sensor Y Sensor Z Unc (k22) Norm(gVi(Vim))* 0.47 0.30 0.46 £10.0% DGP(mV)® 1014 107.2 104.5 Modulation Calibration Parameters uin Communication A C c p VR Unc® System Name dB dB—pV dB mV (k22) 0 Cw x 0.0 0.0 1.0 0.00 185.8__| 22.0% Y 0.0 0.0 1.0 1414 2 0.0 0.0 1.0 182.6 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 affect the E*—field uncertainty inside TSL (see Page 5 and Page 6). *2 Numericallinearization parameter: uncertainty not required. © Uncertainly is determined using the max. deviation from linear response applying rectangular distribution and is expressed for the square of the field value. Certificate No: Z17—97052 Pages of 11

i1 in Colliboretion vith uxT"TI a Clz CAUIERATION LABORATORY Add: No.51 Xueyuan Road. Haidian Distrct Beijing. 100191, China Te+86—10—62304633—2218 Fax: +86—10—62301633—2209 E—mal: et@chinatt.com Hiphwwwchinatilen DASY/EASY — Parameters of Probe: EX3DV4 — SN: 3753 Calibration Parameter Determined in Head Tissue Simulating Media 6 t ukz) Pe:';:::;y — c°"‘::7:‘)’f' ConvF X ConvF Y ConvF 2Z Alpha® D(::’:; :i':;‘ Tso 419 use oz o2 o4z oso_| 080 £121% a35 a15 o.80 ais ais ais of2 148| 121% 2oo a15 o7 a20 a20 920 015| 142 £121% 1750 401 137 si6 816 _|_a16_| o2 112 £121% 1900 0.0 140 77e 7e 17e om 115 £121% 2000 40.0 140 7.80 7.80 7.80 0.19 1.18 £12.1% 2450 302 180 Tzs 12 128 os1_| on £121% 2600 300 196 Tzo 120 120 061 068 £121% 3500 arg 291 Tor 1or 702| oS6 085 £133% 5250 350 am s25 525 525 045 120 £133% 5600 355 507 a7s 475 475 045 130 £133% 5750 En 5.22 are a76_| ar6_| 045 130 £133% © Frequency validity above300 MHz of +100MHz only applies for DASY v4.4 and higher (Page 2), else it is restricted to 50MHz. The uncertainty is the RSS of ConvF uncertainty at calibration frequency and the uncertainty for the indicated frequency band. Frequency validity below 300 MHz is + 10, 25, 40, 50 and 70 MHz for Conv assessments at 30, 64, 128, 150 and 220 MHiz respectively. Above 5 GHz frequency validity can be extended to + 110 MHz. "Atfrequency below 3 GHz, the validity of tissue parameters (e and 0) can be relaxed to +10% if iquid compensation formula is applied to measured SAR values. At frequencies above 3 GHz, the validity of tissue parameters (c and 0) is restricted to £5%. The uncertainty is the RSS of the Conv uncertainty for indicated target tissue parameters GAlphalDepzh are determined during callbration. SPEAG warrants that the remaining deviation due to the boundary effect after compensation is always less than 2 1% for frequencies below 3 GHz and below + 2% for the frequencies between 3—6 GHz at any distance larger than half the probe tip diameter from the boundary. Certificate No: Z17—97052 Page 5 of 11

In Colleboration with %“TTL a Add: No.51 Xueyuan Road. Haidian Distric, Beijing. 100191 China Tel: +86—10—62304633—2218 Fax:+86—10—62301633—2209 E—mailetl@chinatt.com itp:fwwnchinattien DASY/EASY — Parameters of Probe: EX3DV4 — SN: 3753 Calibration Parameter Determined in Body Tissue Simulating Media x t mb P"::’;‘::;y, c°"‘::,°:‘)’fy ConvF X ConvF Y ConvF Z Alpha® D(:f:; :L':;; Tso 555 096 a4s ads o43 oso 080 £121% ses 552 oar ar am am oir 130 £121% 200 s50 105 ars ars am orm 116 |£121% 1750 534 149 Ter 1er 187 020 118 £121% 1900 s33 152 Tss 156 758 017 132 £121% 2000 sa3 152 Teo Tso 760 o7 141 £121% 2450 527 195 Tar 12 122 02e 146 £121% 2600 s25 216 T14 714 714 031| 126 £121% 3500 513 331 64s 648 646 oss oss £133% 5250 489 5.36 487 487 487 055 120 £133% 5600 455 577 a2r 42 422 oss 130| £133% 5750 483 5.94 as2 as2 452 055 1.60 £133% © Frequency validty above 300 MHz of £100MHz only applies for DASY v4.4 and higher (Page 2), else it is restricted to #50MHz. The uncertainty is the RSS of ConvF uncertainty at calibration frequency and the uncertainty for the indicated frequency band. Frequency valiity below 300 MHz is + 10, 25, 40, 50 and 70 MHz for Conv assessments at 30, 64, 128, 150 and 220 MHz respectively. Above 5 GHz frequency validity can be extended to £ 110 MHz "At frequency below 3 GHz, the validity of tssue parameters (¢ and 0) can be relaxed to +10% if iquid compensation formula is applied to measured SAR values. At frequencies above 3 GHz, the valdity of tissue parameters (c and 0is restricted to +5%. The uncertainty is the RSS of the ConvF uncertainty for indicated target tissue parameters. ©Alpha/Depth 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 the frequencies between 3—6 GH at any distance larger than half the probe tip diameter from the boundary. Certificate No: Z17—97052 Page 6 of 11

SS in Coliibcretion vith \igmzzzme~~ CAUIBRATION LABORATORY Add: No.31 Xuyuan Road. Haidian District, Beiing. 100191, China Tel: +86—10—62304633—2218 Fac +86—10—62304033—2200 E—mailett@chinatt.com Hitpilhiwschinattlen Frequency Response of E—Field (TEM—Cell: ifi110 EXX, Waveguide: R22) s a 2 Frequency response (normalized) s 6 ob n s 2 s o s b s e s \ e 0 T T y T o in 0 500 1000 1500 2000 2500 3000 E9 _ Tem Limra) S Uncertainty of Frequency Response of E—field: £7.4% (k=2) Certiicate No: Z17—97052 Page 7 of 11

Add: No31 Xueyuan Road, Haidian District, Beiing, 100191, China ‘Tel: +86—10—62304633—2218 Fac: +86—10—62304033—2200 E—mail:cil@chinatl.com Itphnwwchinattlen Receiving Pattern (®), 0=0° f=600 MHz, TEM f=1800 MHz, R22 s Q_.\’. a /X + + + m———i————i——— 150 100 EJ 0 so 100 150 I~«—[1O0MHz _—+—60OMHz ——— 1800MHz ———2500MHz Uncertainty of Axial Isotropy Assessment: £1.2% (k=2) Certificate No: Z17—97052 Page 8 of 11

SW1 io Colsboration vith i/ causranion Lasorstory Add: No.51 Xueyuan Road. Haidian Distrct, Beijing, 100191, China "Tel: +86—10—62304633—2218 Fax +86—10—62301633—2200 E—mail: ctl@chinat.com Atpihowwchinatlcn Dynamic Range f(SARneaq) (TEM cell, f = 900 MHz) 10‘ 4 E 10°4 m C R C ¥% a & 10° 10° T T T T 1 10° 10° 10° 10‘ 10° 10° SAR[mW/cm‘] EW—not compensated —@— compensated 24 T T r T T : 1 10 10 10° 410 10 10 SAR[mWicm ] [___E®—\not compensated —s— compensated _| Uncertainty of Linearity Assessment: £0.9% (k=2) Certificate No: Z17—97052 Page 9 of 11

r\’ in Collboration with e=‘7"7‘J, a Add: No.51 Xueywan Road. Haidian Distrc, Beiing, 100191, China Tel: +86—10—62304633—2218 Fax: +86—10—62304633—2209 E—mail: cti@chinatl.com lip:/wwvchinati.en Conversion Factor Assessment f=900 MHz, WGLS R9(H_convF) f=1750 MHz, WGLS R22(H_convF) «s z0 y # k—————————— s _ < | T 30 ———}— mm : _ 5* t 1154 |%i | L I F $i» t —!— § 100 |—¥: —/— §.! AX__| _‘ § ta00 | — | as imcicct *TR T 1 sn o a © w m im Htral aton) _ [—<t—measires _—anricd Deviation from Isotropy in Liquid sz zis 04 «o8 s ,1550 no oe0 om o4 am 0 o2 o4 o% om 10 Uncertainty of Spherical Isotropy Assessment: £3.2% (K=2) Certificate No: Z17—97052 Page 10 of 11

<TTL LnLn_ Add: No.51 Xueywan Road. Haidian Distict, Beling, 100191, China Tel: +86—10—62304633—2218 Fax: +86—10—62304633—2209 E—mai:etd@chinat.com Hitpihewwchinat.cn DASY/EASY — Parameters of Probe: EX3DV4 — SN: 3753 Other Probe Parameters Sensor Arrangement Triangular Connector Angle (°) 36.9 Mechanical Surface Detection Mode enabled Optical Surface Detection Mode disable Probe Overall Length 337mm Probe Body Diameter 10mm Tip Length 9mm Tip Diameter 2.5mm Probe Tip to Sensor X Calibration Point 1mm Probe Tip to Sensor Y Calibration Point 1mm Probe Tip to Sensor Z Calibration Point 1mm Recommended Measurement Distance from Surface 14mm Certificate No: Z17—97052 Page 11 of 11


Document Created: 2018-02-14 11:03:12
Document Modified: 2018-02-14 11:03:12
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