I19N00846-SAR_5

FCC ID: R38YLCP3648A

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No.I19N00846-SAR Page 244 of 292 ANNEX J Dipole Calibration Certificate 750 MHz Dipole Calibration Certificate ©Copyright. All rights reserved by SAICT.

m wnvemn ncvronaze o wi 2 urze non n e n en e e e e e n en > I Shenzhen Academy of Information and Communications Technology Calibration Laboratory of S Schweizerischer Kalibrierdienst Schmid & Partner Service suissed‘étalonnage Engineering AG C Servizio svizzero di taratura Zeughausstrasse 43, 8004 Zurich, Switzerland S swiss Calibration Service Accredited by the Swiss Accreditation Service (SAS) Accreditation No.: SCS 0108 The Swiss Accreditation Service is one of the signatories to the EA Multilateral Agreement for therecognition of calibration certificates Glossary: TSL tissue simulating liquid ConvF sensitivity in TSL / NORM x,y,z N/A not applicable or not measured Calibration is Performed According to the Following Standards: a) IEEE Std 1528—2013, "EEE 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) 1EC 62209—1, "Procedure to measure the Specific Absorption Rate (SAR) for hand—held devices used in close proximity to the ear (frequency range of 300 MHz to 3 GHz)", February 2005 c) 1EC 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) KDB 865664, "SAR Measurement Requirements for 100 MHz to 6 GHz" Additional Documentation: e) DASY4/5 System Handbook Methods Applied and Interpretation of Paraméters: e Measurement Conditions: Further details are available from the Validation Report at the end of the certificate. All figures stated in the certificate are valid at the frequency indicated. e Antenna 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 filled 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. e Electrical Delay: One—way delay between the SMA connector and the antenna feed point. No uncertainty required. e SAR measured: SAR measured at the stated antenna input power. e 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 probability of approximately 95%. Certificate No: D750V3—1163_Sep16 Page 2 of 8

anvemneeronaze na wi 2 urze 2A ICI Shenzhen Academy of Information and Communications Technology Measurement Conditions DASY system configuration, as far as not given on page 1. DASY Version DASY5 V52.8.8 Extrapolation Advanced Extrapolation Phantom Modular Flat Phantom Distance Dipole Center — TSL 15 mm with Spacer Zoom Scan Resolution dx, dy, dz =5 mm Frequency 750 MHz & 1 MHz Head TSL parameters The following parameters and calculations were applied. Temperature Permittivity Conductivity Nominal Head TSL parameters 22.0 °C 41.9 0.89 mho/m Measured Head TSL parameters (22.0 £0.2) °C 41.0 26 % 0.91 mho/m £ 6 % Head TSL temperature change during test <0.5 °C me+ sn SAR result with Head TSL SAR averaged over 1 em‘ (1 g) of Head TSL Condition SAR measured 250 mW input power 2.11 Wikg SAR for nominal Head TSL parameters normalized to 1W 8.26 Wikg x 17.0 % (k=2) SAR averaged over 10 cm‘ (10 g) of Head TSL condition SAR measured 250 mW input power 1.38 Wkg SAR for nominal Head TSL parameters normalized to 1W 5.43 Wikg £16.5 % (k=2) Body TSL parameters The following parameters and calculations were applied. Temperature Permittivity Conductivity Nominal Body TSL parameters 22.0 °C 55.5 0.96 mho/m Measured Body TSL parameters (22.0 £ 0.2) °C 54.9 +6 % 0.99 mho/m + 6 % Body TSL temperature change during test <0.5°C ——— «o+ SAR result with Body TSL SAR averaged over 1 cm‘ {1 g) of Body TSL Condition SAR measured 250 mW input power 2.20 W/kg SAR for nominal Body TSL parameters normalized to 1W 8.58 Wikg # 17.0 % (k=2) SAR averaged over 10 cm(10 g) of Body TSL condition SAR measured 250 mW input power 1.44 W/kg SAR for nominal Body TSL parameters normalized to 1W 5.64 Wikg + 16.5 % (k=2) Certificate No: D750V3—1163_Sep16 Page 3 of 8

m wnvenn neronae na wi 2 urze ooo I Shenzhen Academy of Information and Communications Technology Appendix (Additional assessments outside the scope of SCS 0108) Antenna Parameters with Head TSL Impedance, transformed to feed point 54.5 0 — 1.8 jQ Return Loss — 26.8 dB Antenna Parameters with Body TSL Impedance, transformed to feed point 49.8 Q — 3.5 jQ Return Loss —29.0 dB General Antenna Parameters and Design l Electrical Delay (one direction) 1.032 ns After long term use with 100W radiated power, only a slight warming of the dipole near the feedpoint can be measured. The dipole is made of standard semirigid coaxial cable. The center conductor of the feeding line is directly connected to the second arm of the dipole. The antennais therefore short—cirouited for DC—signals. On some of the dipoles, small end caps are added to the dipole arms in order to improve matching when loaded according to the position as explained in the "Measurement Conditions" paragraph. The SAR data are not affected by this change. The overall dipole length is stll according to the Standard. No excessive force must be applied to the dipole arms, because they might bend orthe soldered connections near the feedpoint may be damaged. Additional EUT Data Manufactured by SPEAG Manufactured on June 23, 2016 Certificate No: D750V3—1163_Sep16 Page 4 of 8

anvem revronaue re wi 2 uze Shenzhen Academy of Information and Communications Technology DASY5 Validation Report for Head TSL Date: 19.09.2016 Test Laboratory: SPEAG, Zurich, Switzerland DUT: D750V3 — SN1163; Type: D750V3; Serial: SN1163 Communication System: UID 0 — CW; Frequency: 750 MHz Medium parameters used: f = 750 MHz; 0 = 0.91 S/m; &; =41; p = 1000 kg/m3 Phantom section: Flat Section Measurement Standard: DASYS (IEEE/IEC/ANSI C63.19—2011) DASY52 Configuration: * Probe: EX3DV4 — SN7349; ConvF(10.07, 10.07, 10.07); Calibrated: 15.06.2016; Sensor—Surface: 1.4mm (Mechanical Surface Detection) Electronics: DAE4 Sn601; Calibrated: 30.12.2015 Phantom: Flat Phantom 4.9L; Type: QDO0OP49AA; Serial: 1001 DASY52 52.8.8(1258); SEMCAD X 14.6.10(7372) Dipole Calibration for Head Tissue/Pin=250 mW, d=15mm/Zoom Scan (7x7x7)/Cube 0: Measurement grid: dx=5mm, dy=5mm, dz=5mm Reference Value = 58.31 V/m; Power Drift = 0.01 dB Peak SAR (extrapolated) = 3.16 W/kg SAR(I g) = 2.11 W/kg; SAR(10 g) = 1.38 W/kg Maximum value of SAR (measured) = 2.79 W/kg dB 0 —2.00 ~4.00 —6.00 —8.00 —10.00 0 dB = 2.79 W/kg = 4.46 dBW/kg Certificate No: D750V3—1163_Sep16 Page 5 of 8

m anvemneeronaze na wi 2 urze Shenzhen Academy of Information and Communications Technology Impedance Measurement Plot for Head TSL 19 Sep 2016 12:00:36 CHI) sii 4 U FS 11 54.461 a 7734 a 119.66 pF 750.000 000 MHz T De Ca fivg 16 H1d CH2 Ca Ay 16° HLd START $50.000 000 MHz STOP 950,000 006 MHz Certificate No: D750V3—1163_Sep16 Page 6 of 8

m wnvemn ncvronaze o wi 2 urze non n e n en e e e e e n en > I Shenzhen Academy of Information and Communications Technology DASY5 Validation Report for Body TSL Date: 19.09.2016 Test Laboratory: SPEAG, Zurich, Switzerland DUT: D750V3 — SN1163; Type: D750V3; Serial: SN1163 Communication System: UID 0 — CW; Frequency: 750 MHz Medium parameters used: f = 750 MHz; 0 = 0.99 S/m:; &, = 54.9; p = 1000 kg/m3 Phantom section: Flat Section Measurement Standard: DASYS (IEEE/IEC/ANSI €63.19—2011) DASY52 Configuration: * Probe: EX3DV4 — SN7349; ConvF(9.99, 9.99, 9.99); Calibrated: 15.06.2016; «_ Sensor—Surface: 1.4mm (Mechanical Surface Detection) * Electronics: DAEA4 $Sn601; Calibrated: 30.12.2015 * Phantom: Flat Phantom 4.9L; Type: QDOOOP49AA; Serial: 1001 «_ DASY52 52.8.8(1258); SEMCAD X 14.6.10(7372) Dipole Calibration for Body Tissue/Pin=250 mW, d=15mm/Zoom Scan (7x7x7)/Cube 0: Measurementgrid: dx=5mm, dy=5mm, dz=5mm Reference Value = 57.12 V/m; Power Drift = —0.00 dB Peak SAR (extrapolated) = 3.33 W/kg SAR(I g) = 2.2 W/kg; SAR(10 g) = 1.44 W/kg *« Maximum value of SAR (measured) = 2.94 W/kg —2.20 ~4.40 —6.60 —8.80 —11.00 0 dB = 2.94 W/kg = 4.68 dB W/kg Certificate No: D750V3—1163_Sep16 Page 7 of 8

SDAIL anvemrearonaue re wi 2 urzu Shenzhen Acadomy of Information and Communications Technology Impedance Measurement Plot for Body TSL 19 Sep 2016 ester:is CH sii i ouors 11 49.754 a —3.5439 a 59.928 pF 750.000 000 MHz Del Ca fvg % 16 ~___ H1d cH2 sii Los .5 dB/REF —20 d8 11—28.958 de 750.000 000 nHz Ca + + + + + 4 + + + { + 4 + + + 4 + 4 + } | + + 4 H1d ) + i | + + + | + | START 550.000 000 MHz SToP 950.000 000 MHz Certificate No: D750V3—1163_Sep16 Page 8 of 8

No.I19N00846-SAR Page 252 of 292 835 MHz Dipole Calibration Certificate ©Copyright. All rights reserved by SAICT.

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No.I19N00846-SAR Page 260 of 292 1750 MHz Dipole Calibration Certificate ©Copyright. All rights reserved by SAICT.

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Document Created: 2019-07-15 17:34:33
Document Modified: 2019-07-15 17:34:33
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