RF Exposure Power Density Appendix C

FCC ID: MSQI001D

RF Exposure Info

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FCCID_4379000

Calibration Laboratory of Schmid & Partner s Schweizerischer Kalibrierdienst C Service suisse d'etalonnage Engineering AG 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 the recognition of calibration certificates Client Sporton Certificate No: 5G-Veri60-1009_Apr~ 1 9~~ I CALIBRATION CERTIFICATE Object 5G Verification $6urce ·60GHz- SN: 1"009 Calibration procedure(s) QA CAL-45.v2 Calibration procedure for sources in air above 6 GHz ! Calibration date: April 24, 2019 This calibration certificate documents the traceability to national standards, which realize the physical units of measurements (SI). 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 (Certificate No.) Scheduled Calibration Reference Probe EUmmWV3 SN: 9374 31-Dec-18 (No. EUmmWV3-9374_Dec18) Dec-19 DAE4 SN: 1215 22-Feb-19 (No. DAE4-1215_Feb19) Feb-20 Secondary Standards ID# Check Date (in house) Scheduled Check Name Function Signature Calibrated by: Leif Klysner Laboratory Technician I ...... -····- - - Approved by: Katja Pokovic Technical Manager I Issued: April 24, 2019 This calibration certificate shall not be reproduced except in full without written approval of the laboratory. Certificate No: 5G-Veri60-1009_ Apr19 Page 1 of 4

Calibration Laboratory of 5 Schweizerischer Kalibrierdienst Schmid & Partner Service suisse d'etalonnage C Engineering AG 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 the recognition of calibration certificates Glossary cw Continuous wave Calibration is Performed According to the Following Standards • Internal procedure QA CAL-45-5Gsources • IEC TR 63170 ED1, "Measurement procedure for the evaluation of power density related to human exposure to radio frequency fields from wireless communication devices operating between 6 GHz and 100 GHz", January 2018 Methods Applied and Interpretation of Parameters • Coordinate System: z-axis in the waveguide horn boresight, x-axis is in the direction of the E-field, y-axis normal to the others in the field scanning plane parallel to the horn flare and horn flange. • Measurement Conditions: (1) 10 GHz: The forward power to the horn antenna is measured prior and after the measurement with a power sensor. During the measurements, the horn is directly connected to the cable taking into account the 0.2dB horn loss. (2) 30, 60 and 90 GHz: The verification sources are switched on for at least 30 minutes. Absorbers are used around the probe cub and at the ceiling to minimize reflections. • Horn Positioning: The waveguide horn is mounted vertically on the flange of the waveguide source to allow vertical positioning of the EUmmW probe during the scan. The plane is parallel to the phantom surface. Probe distance is verified using mechanical gauges positioned on the flare of the horn. • E- field distribution: E field is measured in two x-y-plane (10mm, 10mm + A/4) with a vectorial E-field probe. The E-field value stated as calibration value represents the E-field- maxima and the averaged ( 1cm 2 and 4cm 2 ) power density values at 10mm in front of the horn. • Field polarization: Above the open horn, linear polarization of the field is expected. This is verified graphically in the field representation. Calibrated Quantity • Local peak E-field (V/m) and peak values of the total and normal component of the poynting vector IRe{S}I and n.Re{S} averaged over the surface area of 1 cm 2 (pStotavg1 cm 2 and pSnavg1 cm 2 ) and 4cm 2 (pStotavg4cm 2 and pSnavg4cm 2 ) at the nominal operational frequency of the verification source. 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: 5G-Veri60-1009_Apr19 Page 2 of 4

Measurement Conditions DASY system configuration, as far as not given on page 1. DASY Version cDASY6 Module mmWave V1.6 Phantom 5G Phantom Distance Horn Aperture - plane 10 mm XY Scan Resolution dx, dy = 1.25 mm Number of measured planes 2 (10mm, 10mm + A./4) Frequency 60 GHz± 10 MHz Calibration Parameters, 60 GHz Distance Horn Aperture Prad1 Max E-field Uncertainty Avg Power Density Uncertainty to Measured Plane (mW) (V/m) (k =2) n.Re{S}, IRe{S}I (k =2) (W/m2) 1 cm 2 4cm 2 10 mm 128.2 427 1.27 dB 367,369 245,247 1.28 dB 1 derived from far-field data Certificate No: 5G-Veri60-1009_Apr19 Page 3 of 4

DASY Report Measurement Report for SG Verification Source 60 GHz, UID O -, Channel 60000 (60000.0MHz) Device under Test Properties Name, Manufacturer Dimensions [m1r1] IMEI DUTType 5G Verification Source 60 GHz 100.0 X 100.0 X 100.0 SN: 1009 Exposure Conditions Phantom Section Position, Test Distance Band Group, Frequency [MHz], Conversion Factor [mm] Channel Number 5G - 5.55 mm Validation band cw 60000.0, 1.0 60000 Hardware Setup Phantom Medium Probe, Calibration Date DAE, Calibration Date 5G Phantom Air EUmmWV3 - SN9374, 2018-12-31 DAE4 Sn1215, 2019-02-22 Scan Setup Measurement Results SG Scan SG Scan Grid Extents [mm] 32.5 X 32.5 Date 2019-04-24, 09:42 Grid Steps [lambda] 0.25 X 0.25 Avg. Area [cm 2] 1.00 Sensor Surface [mm] 5.55 pS101 avg [W/m 2] 369 MAIA MAIA not used pSn avg [W /m 2] 367 Epeak [V/m] 427 Power Drift [dB] 0.03 Certificate No: 5G-Veri60-1009_Apr19 Page 4 of 4

probabilty aregiven on the following pages and are partof the certificate. environment temperature(22+ 3)°Candhumidity < 70%.


EUmmWV3 — SN: 9413 February13,2019 DASY — Parameters of Probe: EUmmWV3 — SN:9413

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EUmmWV3 — SN: 9413 February 13, 2019 Appendix: Modulation Calibration Parameters

EUmmWV3— SN: 9413 February 13, 2019

EUmmWV3 — SN: 9413 February 13, 2019 IEEE

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EUmmWV3 — SN: 9413 February 13, 2019 Mops, duty 19 WiFi 2.4 GHz (DSSS—OFDM, 12 Mbps, 99pc duty 18 Mbps, duty 24 duty 48 99pc 2.4 GHz (DSSS—OFDM, 54 Mbps, 9pc duty

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Calibration Laboratory of Schmid & Partner s Schweizerischer Kalibrierdienst C Service suisse d'etalonnage Engineering AG 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 the recognition of calibration certificates Client Auden Certificate No: DAE4-918_Jun18 CALIBRATION CERTIFICATE Object DAE4 - SD 000 D04 BK - SN: 918 Calibration procedure(s) QA CAL-06.v29 Calibration procedure for the data acquisition electronics (DAE) Calibration date: June 20, 2018 This calibration certificate documents the traceability to national standards , which realize the physical units of measurements (SI). 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 Cal Date (Certificate No.) Scheduled Calibration Keithley Multimeter Type 2001 ISN: 0810278 31-Aug-17 (No:21092) Aug-18 Secondary Standards ID # Check Date (in house) Scheduled Check Auto DAE Calibration Unit SE UWS 053 AA 1001 04-Jan-18 (in house check) In house check: Jan-19 Calibrator Box V2.1 SE UMS 006 AA 1002 04-Jan-18 (in house check) In house check: Jan-19 Name Function Signature Calibrated by: Eric Hainfeld Laboratory Technician ~;>~ Approved by: Sven Kuhn Deputy Manager Issued: June 20, 2018 This calibration certificate shall not be reproduced except in full without written approval of the laboratory. Certificate No: DAE4-918_Jun18 Page 1 of 5

Calibration Laboratory of $ Schweizerischer Kalibrierdienst Schmid & Partner Service suisse d'etalonnage 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 the recognition of calibration certificates 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 • 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. • Connector angle: The angle of the connector is assessed measuring the angle mechanically by a tool inserted. Uncertainty is not required. • The following parameters as documented in the Appendix contain technical information as a result from the performance test and require no uncertainty. • DC Voltage Measurement Linearity: Verification of the Linearity at + 10% and -10% of the nominal calibration voltage. Influence of offset voltage is included in this measurement. • Common mode sensitivity: Influence of a positive or negative common mode voltage on the differential measurement. • Channel separation: Influence of a voltage on the neighbor channels not subject to an input voltage. • AD Converter Values with inputs shorted: Values on the internal AD converter corresponding to zero input voltage • Input Offset Measurement Output voltage and statistical results over a large number of zero voltage measurements. • Input Offset Current: Typical value for information; Maximum channel input offset current, not considering the input resistance. • Input resistance: Typical value for information: DAE input resistance at the connector, during internal auto-zeroing and during measurement. • Low Battery Alarm Voltage: Typical value for information. Below this voltage, a battery alarm signal is generated. • Power consumption: Typical value for information . Supply currents in various operating modes. Certificate No: DAE4-918_Jun18 Page 2 of 5

DC Voltage Measurement AID - Converter Resolution nominal High Range: 1LSB = 6.1µV , full range= -100 ... +300 mV Low Range: 1LSB = 61 nV , full range= -1.. .....+3mV DASY measurement parameters: Auto Zero Time: 3 sec; Measuring time: 3 sec Calibration Factors X y z High Range 404.292 ± 0.02% (k=2) 404.471 ± 0.02% (k=2) 404.000 ± 0.02% (k=2) Low Range 4 .01048 ± 1.50% (k=2) 3.99008 ± 1 .50% (k=2) 4.00845 ± 1.50% (k=2) Connector Angle Connector Angle to be used in DASY system 320.5 ° ± 1 ° Certificate No: DAE4-9 18_Jun18 Page 3 of 5

Appendix (Additional assessments outside the scope of SCS0108) I 1. DC VotaQe L"meantv High Range Reading (µV) Difference (µ V) Error(%) ChannelX + Input 199995.21 -2.10 -0.00 Channel X + Input 20001.90 -0.02 -0.00 ChannelX - Input -19998.43 2.67 -0.01 ChannelY + Input 199997.45 0.04 0.00 ChannelY + Input 20000.13 -1 .84 -0.01 ChannelY - Input -20002 .53 -1.31 0.01 Channell + Input 199998.07 0.90 0.00 Channell + Input 20000.07 -1.82 -O.Q1 Channell - Input -20002.88 -1.51 0.01 Low Range Reading (µV) Difference (µ V) Error(%) ChannelX + Input 2002.15 0.71 0.04 ChannelX + Input 201 .89 0.17 0.09 ChannelX - Input -198.28 -0.11 0.06 ChannelY + Input 2000.77 -0.64 -0 .03 ChannelY + Input 201 .50 -0.14 -0 .07 ChannelY - Input -198.61 -0.36 0.18 Channell + Input 2001.31 -0.10 -0 .01 Channell + Input 200.36 -1.18 -0.59 Channell - Input -199.37 -1.01 0.51 2. Common mode sensitivity DASY measurement parameters: Auto Zero Time: 3 sec; Measurina time : 3 sec Common mode High Range Low Range Input Voltage (mV) Average Reading (µV) Average Reading (µV) ChannelX 200 4.32 2.70 - 200 -2.19 -4.37 ChannelY 200 11.36 11.41 - 200 -12 .35 -1 2.96 Channell 200 -13.98 -14.32 - 200 13.11 12.07 3. Channel separation DASY measurement parameters: Auto Zero T ime: 3 sec; Measurina time: 3 sec Input Voltage (mV) Channel X (µ V) Channel Y (µ V) Channell (µV) ChannelX 200 - -0.68 -5.41 ChannelY 200 7.71 - 0.61 Channell 200 10.01 5.69 - Certificate No: DAE4-918_Jun1 8 Page 4 of 5

4. AD-Converter Values with inputs shorted DASY measurement paramet ers: Auo t Zero T 1me: 3 sec; Measunng 1me: 3 sec High Range (LSB) Low Range (LSB) ChannelX 15930 14966 ChannelY 16009 15983 ChannelZ 16005 17407 5. Input Offset Measurement DASY measurement parameters: Auto Zero Time: 3 sec; Measuring time: 3 sec Input 10MQ Average (µV) Std. Deviation min. Offset (µV) max. Offset (µ V) (µV) ChannelX -0.01 -2.00 1.96 0.70 ChannelY 1.43 0.40 2.68 0.39 ChannelZ -0.70 -1.89 0.85 0.46 6. Input Offset Current Nominal Input circuitry offset current on all channels : <25fA 7. I npu t Res1s . tance (Typical values for information) Zeroing (kOhm) Measuring (MOhm) ChannelX 200 200 ChannelY 200 200 ChannelZ 200 200 8. Low 8 attery Al arm V0 Itage (Typical values for information) Typical values Alarm Level (VDC) Supply(+ Vee) +7.9 Supply (- Vee) -7.6 9. Power Consumpt1on (Typical values for information) Typical values Switched off (mA) Stand by (mA) Transmitting (mA) Supply(+ Vee) +0.01 +6 +14 Supply (- Vee) -0.01 -8 -9 Certificate No: DAE4-918_Jun18 Page 5 of 5


Document Created: 2019-07-22 18:07:56
Document Modified: 2019-07-22 18:07:56
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