Test report 77GHz Radar - report

FCC ID: W34UMRR1184

Test Report

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FCCID_4220027

TEST REPORT No.: 18-1-0093201T01a-C1 According to: 47 CFR Part 95 RSS-Gen Issue 5 RSS-251 Issue 2 for s.m.s. smart microwave sensors GmbH UMRR-11 Type 132 radar sensor FCC ID: W34UMRR1184 IC: 10652A-UMRR1184 Laboratory Accreditation accredited according to DIN EN ISO/IEC 17025 CETECOM GmbH Laboratory Radio Communications & Electromagnetic Compatibility Im Teelbruch 116 • 45219 Essen • Germany Registered in Essen, Germany, Reg. No.: HRB Essen 8984 Tel.: + 49 (0) 20 54 / 95 19-954 • Fax: + 49 (0) 20 54 / 95 19-964 E-mail: info@cetecom.com • Internet: www.cetecom.com Page 1 of 30 The test results relate only to the individual items which have been tested. This report shall not be reproduced in parts without the written approval of the testing laboratory © Copyright: All rights reserved by CETECOM

Test Report 18-1-0093201T01a-C1, Page 2 of 30 Table of contents 1. SUMMARY OF TEST RESULTS................................................................................................................... 3 1.1. Tests measurement overview according of US CFR Title 47, Subpart 95: .................................................. 3 1.2. Attestation:.................................................................................................................................................... 4 2. ADMINISTRATIVE DATA ............................................................................................................................ 5 2.1. Identification of the testing laboratory .......................................................................................................... 5 2.2. Test location ................................................................................................................................................. 5 2.3. Organizational items ..................................................................................................................................... 5 2.4. Applicant’s details ........................................................................................................................................ 5 2.5. Manufacturer’s details .................................................................................................................................. 5 3. EQUIPMENT UNDER TEST (EUT) .............................................................................................................. 6 3.1. TECHNICAL DATA OF MAIN EUT DECLARED BY APPLICANT* .................................................... 6 3.2. EUT: Type, S/N etc. and short descriptions used in this test report* ........................................................... 6 3.3. Auxiliary Equipment (AE): Type, S/N etc. and short descriptions ............................................................... 6 3.4. EUT set-ups .................................................................................................................................................. 7 3.5. EUT operating modes ................................................................................................................................... 7 4. DESCRIPTION OF TEST SYSTEM SET-UP’S ........................................................................................... 8 4.1. Test system set-up for radiated magnetic field measurements below 30 MHz ............................................. 8 4.2. Test system set-up for radiated electric field measurement 30 MHz to 960MHz ......................................... 9 4.3. Test system set-up for radiated electric field measurement above 960MHz .............................................. 10 5. MEASUREMENTS ........................................................................................................................................ 11 5.1. The maximum peak power EIRP/ peak EIRP spectral density. The maximum power EIRP/ average EIRP. ........................................................................................................................................................................... 11 5.2. Modulation characteristics .......................................................................................................................... 13 5.3. Occupied bandwidth ................................................................................................................................... 16 5.4. Field strength of emissions (band edge) ..................................................................................................... 17 5.5. Radiated field strength emissions (below 30 MHz) .................................................................................... 18 5.6. Radiated field strength emissions, 30 MHz – 960 MHz ............................................................................. 20 5.7. Radiated field strength emissions, 960 MHz – 40 GHz .............................................................................. 22 5.8. Radiated field strength emissions, above 40 GHz ...................................................................................... 23 5.9. Measurement uncertainties ...................................................................................................................... 25 6. ABBREVIATIONS USED IN THIS REPORT ............................................................................................ 26 7. ACCREDITATION DETAILS OF CETECOM’S LABORATORIES AND TEST SITES .................... 26 8. INSTRUMENTS AND ANCILLARY ........................................................................................................... 27 8.1. Used equiment “CTC” ............................................................................................................................. 27 9. VERSIONS OF TEST REPORTS (CHANGE HISTORY) ........................................................................ 30 Table of annex Separate document annex 1: Measurement diagrams Separate document annex 2: External photographs of EUT Separate document annex 3: Test set-up photographs The listed attachments are an integral part of this report. Separate document annex 4: Internal photographs of EUT to be supplied by the customer. CETECOM_TR18_1_0093201T01a-C1

Test Report 18-1-0093201T01a-C1, Page 3 of 30 1. Summary of test results The test results apply exclusively to the test samples as presented in this report. The CETECOM GmbH does not assume responsibility for any conclusions and generalizations taken in conjunction with other specimens or samples of the type of the item presented to tests. Also we refer on special conditions which the applicant should fulfill according §2.927 to §2.948, special focus regarding modification of the equipment and availability of sample equipment for market surveillance tests. 1.1. Tests measurement overview according of US CFR Title 47, Subpart 95: References & Limits Test EUT EUT conditions opera- Test cases set- Result Standard Test Limit (temperature ting up and voltage) mode Max. peak FCC §95.3367 (a) 50 dBm (Average) power EIRP/ (b) 55 dBm (Peak) peak EIRP Nominal and 1,2 + spectral 1 passed RSS-251 (Section 8 50 dBm (Average) extreme 3,4 density. Max. and 9) 55 dBm (Peak) power EIRP/ average EIRP FCC §2.1047 (d) - Modulation Nominal 1 1,2,3,4 passed characteristics RSS-251 (Section - 6b) FCC §95.3379 (b) 76 GHz - 81 GHz Occupied Nominal and 1,2 + 1 passed bandwidth extreme 3,4 RSS-251 (Section 7) 76 GHz - 81 GHz FCC §95.3379 Field strength 600 pW/cm2 ~ -1.7 dBm (a)(2)(i) of emissions Nominal 1 1,2,4 passed RSS-251 (Section lower BE: 0 dBm (band edge) 10) upper BE: -30 dBm 9 kHz – 40 GHz: see section 5.5. in the report 40 GHz – 200 GHz: 600 FCC §95.3379 (a) pW/cm2 ~ -1.7 dBm Field strength 200 GHz – 231 GHz: 1000 of emissions pW/cm2 ~ 0.5 dBm Nominal 1 1,2 passed (radiated 9 kHz – 40 GHz: see section spurious) 5.5. in the report RSS-251 (Section 40 GHz – 162 GHz*: -30 dBm 10) Here 73.5 GHz – 76 GHz: 0 dBm FCC §95.3379 (b) - Frequency Nominal and 1 1,2 passed stability RSS-251 (Section extreme RSS-251 (Subsection 11.2) 11) CETECOM_TR18_1_0093201T01a-C1

Test Report 18-1-0093201T01a-C1, Page 4 of 30 1.2. Attestation: I declare that all measurements were performed by me or under my supervision and that all measurements have been performed and are correct to my best knowledge and belief to Industry Canada standards. All requirements as shown in above table are met in accordance with enumerated standards. The current version of the Test Report 18-1-0093201T01a-C1 replaces the Test Report 18-1-0093201T01a-C1 dated 11.12.2018. The replaced Test Report is herewith invalid. Digital unterschrieben von Piotr Sardyko DN: cn=Piotr Sardyko, o=CETECOM GmbH, ou=Radio Communications & EMC, email=piotr.sardyko@cetecom. com, c=DE ...................................................... .................................................... Dipl.-Ing. Niels Jeß B.Sc. Piotr Sardyko Responsible for test section Responsible for test report CETECOM_TR18_1_0093201T01a-C1

Test Report 18-1-0093201T01a-C1, Page 5 of 30 2. Administrative Data 2.1. Identification of the testing laboratory Company name: CETECOM GmbH Address: Im Teelbruch 116 45219 Essen - Kettwig Germany Responsible for testing laboratory: Dipl.-Ing. Rachid Acharkaoui Deputy: Dipl.-Ing. Niels Jeß 2.2. Test location 2.2.1. Test laboratory “CTC” Company name: see chapter 2.1. Identification of the testing laboratory 2.3. Organizational items Responsible for test report and project leader: B.Sc. Piotr Sardyko Receipt of EUT: 2018-09-24 Date(s) of test: 2018-09-24 to 2018-10-05 Date of report: 2019-03-20 ----------------------------------------------------------------------------------------------------------------------------------------------------- Version of template: 13.02 2.4. Applicant’s details Applicant’s name: s.m.s. smart microwave sensors GmbH Address: In den Waashainen 1 38108 Braunschweig Germany Contact person: Dr. Ralph Mende 2.5. Manufacturer’s details Manufacturer’s name: please see Applicant's details Address: please see Applicant's details CETECOM_TR18_1_0093201T01a-C1

Test Report 18-1-0093201T01a-C1, Page 6 of 30 3. Equipment under test (EUT) 3.1. TECHNICAL DATA OF MAIN EUT DECLARED BY APPLICANT* Main function Universal Medium Range Radar (UMRR) Transmit frequency 76 GHz to 77 GHz Number of modes 2 (AEB and ACC) Antenna polarization linear Type of modulation FMCW Bandwidth < 1000 MHz Antenna Type  Integrated  External, no RF- connector  External, separate RF-connector Max. Transmit Power (EIRP): 55 dBm Power supply  DC power supply: 8 – 32 V Interfaces CAN V2.0b (passive) RS-485 Ethernet 100Mbit EUT sample type  Production  Pre-Production  Engineering FCC label attached  yes  no UPN Number UMRR1184 Company Number 10652A Product Marketing Name (PMN) Demo 4D/UHD Hardware Version Identification UMRR-11 Type 132 Number (HVIN) Firmware Version Identification 5 Number (FVIN) Host Marketing Name (HMN) smartmicro *: customer information 3.2. EUT: Type, S/N etc. and short descriptions used in this test report* Short S/N HW SW descrip- EUT Type EUT No serial number hardware software tion*) status status UMRR-11 Type 132 EUT A S03 Radar sensor 0x0002CD8E - 5 (radiated sample) *) EUT short description is used to simplify the identification of the EUT in this test report. *: customer information 3.3. Auxiliary Equipment (AE): Type, S/N etc. and short descriptions AE S/N HW SW short Auxiliary Equipment Type serial hardware software descrip- EUT No number status status tion *) Windows 7 + Dell Latitude DriveRecorder AE 1 Notebook S05+S06 - - E6530 SW v2.2.9862.0** AE 2 Cable harness 10 m S04 - - - - AE 3 Can USB converter S07 X889 - - - *) AE short description is used to simplify the identification of the auxiliary equipment in this test report. **) SW was installed on the customers’ notebook CETECOM_TR18_1_0093201T01a-C1

Test Report 18-1-0093201T01a-C1, Page 7 of 30 3.4. EUT set-ups EUT set-up Combination of EUT and AE Remarks no.*) Radiated RF-setup, AE1 and AE2 are connected to set. 1 EUT A + AE 1 + AE 2 the EUT during the whole measurement *) EUT set-up no. is used to simplify the identification of the EUT set-up in this test report. 3.5. EUT operating modes EUT Description of operating modes operating Additional information mode no.*) op. 1 Advanced Emergency Braking (AEB) fc=76.365 GHz, 500 MHz < BW < 600 MHz 200 MHz < Low 76.125 GHz op. 2 Adaptive Cruise Control (ACC) BW < 300 Default 76.365 GHz MHz High 76.605 GHz *) EUT operating mode no. is used to simplify the test report. CETECOM_TR18_1_0093201T01a-C1

Test Report 18-1-0093201T01a-C1, Page 8 of 30 4. Description of test system set-up’s 4.1. Test system set-up for radiated magnetic field measurements below 30 MHz Specification: ANSI C63.4-2014 §5.3, §8.2.1, §8.3.1.1+§8.3.2.1 , ANSI C63.10-2013 chapter 6.4 (§6.4.4.2) General Description: Evaluating the radiated field emissions are done first by an exploratory emission measurement and a final measurement for most critical frequencies determined. The loop antenna was placed at 1 m height above ground plane and 3 m measurement distance from set-up for investigations. Because of reduced measurement distance, correction data were applied, as stated in chapter “General Limit - Radiated field strength emissions below 30 MHz“. The tests are performed in the semi anechoic room recognized by the regulatory commission. Schematic: Testing method: Exploratory, preliminary measurement Final measurement on critical frequencies The EUT and it’s associated accessories are Based on the exploratory measurements, the most placed on a non-conductive position manipulator critical frequencies are re-measured by main- (tipping device) of 0.8 m height which is placed taining the EUT’s worst-case operation mode, on the turntable. By rotating the turntable (step cable position, etc. 90°, range 0°to 360°) and the EUT itself either on 3-orthogonal axis (portable equipment) or 2- First a frequency zoom around the critical orthogonal axis (defined operational position of frequency is done to locate the frequency more EUT), the emission spectrum was recorded. The precisely. After this step, for all identified critical loop antenna was moved at least to frequencies, the maximum peak was determined. 2-perpendicular axes (antenna vector in direction of EUT and parallel to EUT) in order to maximize Following parameters were varied: the turntable the emissions. The results are documented in a angle continuously in the range 0 to 360 degree, diagram. Critical frequencies (low margin to the EUT itself either over 3-orthogonal axis (not limit) are saved within a data reduction table for defined usage position) or 2-orthogonal axis further investigations. If various operating modes (defined usage position). are supported, further investigations are made to find the worst-case. Also the interconnection On the determined worst-case position, a final cables and equipment position were varied in measurement with necessary bandwidth and order to maximize the emissions. detector according standard has been carried out. Formula: EC = ER + AF + CL + DF - GA AF =Antenna factor CL = Cable loss M = LT-EC DF= Distance correction factor EC = Electrical field – corrected value ER = Receiver reading GA= Gain of pre-amplifier (if used) LT = Limit M = Margin All units are dB-units, positive margin means value is below limit. Distance correction: Reference for applied correction (extrapolating) factors due to reduced measurement distance: ANSI C63.10:2013, §6.4.4.2 - Equations (2) + (3) + (4) CETECOM_TR18_1_0093201T01a-C1

Test Report 18-1-0093201T01a-C1, Page 9 of 30 4.2. Test system set-up for radiated electric field measurement 30 MHz to 960MHz Specification: ANSI C63.4-2014 chapter 8.2.3, ANSI C63.10-2013 chapter 6.5 General Description: Evaluating the field emissions have to be done first by an exploratory emissions measurement and a final measurement for most critical frequencies. The tests are performed in a NSA-compliant semi anechoic room (SAR) recognized by the regulatory commissions. Schematic: Testing method: Exploratory, preliminary measurements Final measurement on critical frequencies The EUT and its associated accessories are placed Based on the exploratory measurements, the most on a non-conductive position manipulator (tipping critical frequencies are re-measured by main- device) of 0.8 m height which is placed on the taining the EUT’s worst-case operation mode, cable turntable. By rotating the turntable (range 0° to position, etc. either on 10m OATS or 3m semi- 360°, step 90°) and the EUT itself either on 3- anechoic room. orthogonal axis (portable equipment) or 2- orthogonal axis (defined operational position of First a frequency zoom around the critical frequency EUT) the emission spectrum and it’s is done to locate the frequency more precisely. After characteristics was recorded with an EMI- this step, for all identified critical frequencies, the receiver, broadband antenna and software. maximum peak was determined. Measurement antenna: horizontal and vertical, Following parameters were varied: the turntable heights: 1,0 m and 1,82 m as worst-case angle continuously in the range 0 to 360 degree, the determined by an exploratory emission EUT itself either over 3-orthogonal axis (not measurements. The results are documented in a defined usage position) or 2-orthogonal axis diagram. Critical frequencies (low margin to (defined usage position). The measurement antenna limit) are saved within a table for further height between 1 m and 4 m. investigations. If various operating modes are supported, further investigations are made to find On the determined worst-case position, a final the worst-case of them. Also the interconnection measurement with necessary bandwidth and cables and equipment position were varied in detector according standard has been carried out. order to maximize the emissions. Formula: EC = ER + AF + CL + DF - GA (1) AF = Antenna factor CL = Cable loss M = LT - EC (2) DF = Distance correction factor (if used) EC = Electrical field – corrected value ER = Receiver reading GA = Gain of pre-amplifier (if used) LT = Limit M = Margin All units are dB-units, positive margin means value is below limit. CETECOM_TR18_1_0093201T01a-C1

Test Report 18-1-0093201T01a-C1, Page 10 of 30 4.3. Test system set-up for radiated electric field measurement above 960MHz Specification: ANSI C63.10-2013, chapter 10.3 General Description: The tests are performed in a CISPR 16-1-4:2010 compliant fully anechoic room (FAR) recognized by the regulatory commission. The measurement distance was set to 1 m or 3 m. Horn antennas are used for frequency range 1 GHz to 40 GHz. The EUT is aligned within 3 dB beam width of the measurement antenna with three orthogonal axis measurements on the EUT. Schematic: Testing method: Exploratory, preliminary measurements The EUT and its associated accessories are placed on a non-conductive position manipulator (tipping device) of 1.55 m height which is placed on the turntable. By rotating the turntable continuously (range 0° to 360°) and the EUT itself either on 3-orthogonal axis (portable equipment) or 2-orthogonal axis (defined operational position of EUT) the emission spectrum and it’s characteristics was recorded with an EMI-receiver, broadband antenna and software. The measurements are performed in horizontal and vertical polarization of the measurement antennas. The results are documented in a diagram. Also the interconnection cables and equipment position were varied in order to maximize the emissions. Formula: EC = ER + AF + CL + DF - GA (1) EC = Electrical field – corrected value ER = Receiver reading M = LT - EC (2) M = Margin LT = Limit AF = Antenna factor CL = Cable loss DF = Distance correction factor (if used) GA = Gain of pre-amplifier (if used) All units are dB-units, positive margin means value is below limit. CETECOM_TR18_1_0093201T01a-C1

Test Report 18-1-0093201T01a-C1, Page 11 of 30 5. Measurements 5.1. The maximum peak power EIRP/ peak EIRP spectral density. The maximum power EIRP/ average EIRP. 5.1.1. Test location and equipment Ambient Climatic conditions Temperature: Rel. humidity: (45±15)% nominal and extreme test site FAR 2/  443 FAR Spuri  348 EMI cond.  443 EMI FAR  347 Radio.lab.  337 OATS  412 OTA1 equipment  331 HC 4055      spectr.  714 FSW67  264 FSEK  264 FSEK  584 FSU  Analys. antenna meas  574 BTA-L  289 CBL 6141  439 HL 562  549 HL 025  < 18GHz antenna meas  302 BBHA9170  13254-01 / Q-Band SAR-2309-22-S2 18-40GHz antenna meas  010001 FH-PP60 f > 40GHz antenna meas  010006 FH-PP50-75  010014 FH-PP75-110  1144 SGH-26-WR f > 50GHz antenna meas  010008 FH-PP90-140  010011 FH-PP140-220 f > 90GHz antenna meas  010024 FH-PP220-330 f > 220GHz antenna subst SGH-26-  071 HUF-Z2  020 EMCO3115  063 LP 3146  303 BBHA9170  1144  WR power meter 100  009 NRV  010 URV5-Z2  011 URV5-Z2  NRT-T110   984 Other:  Adapter Q-Band to 1.85mm Signalgener.  008 SMG  140 SMHU  263 SMP04    mixer 101 101 101 101 1010  FS-Z75  FS-Z110  FS-Z140  FS-Z220  FS-Z325 022 468 004 009 05 power meter  262 NRV-S  266 NRV-Z31  265 NRV-Z33  261 NRV-Z55  356 NRV-Z1  261 NRP-T110 multimeter  341 Fluke 112      DC power Car  086 LNG50-10  087 EA3013  354 NGPE 40  349 car battery  350  battery line voltage  230 V 50 Hz via public mains 060 120 V 60 Hz via PAS 5000 5.1.2. Reference FCC/RSS See section 1.1. ANSI C63.10-2013 5.1.3. Limits See section 1.1. in the report. 5.1.4. Test environment Temperature Nominal: 22±3 °C Extreme, min.: -40 °C Extreme, max.: -74 °C Rel. humidity (40±20)% Power supply Nominal: 12 V Extreme, min.: 8 V Extreme, max.: 32 V 5.1.5. Spectrum-Analyzer settings: Span > 1 GHz Resolution Bandwidth (RBW) 1 MHz Video Bandwidth (VBW) Minimum 3 times the resolution bandwidth Sweep time Auto-coupled Detector Peak detector with max peak search. RMS with channel power measurement. Sweep mode Repetitive Mode, MAX-HOLD, trace stabilization 5.1.6. Measurement method: All the measurements are done according to standards and rules listed in subsection 5.1.2. The measured power is EIRP*. CETECOM_TR18_1_0093201T01a-C1

Test Report 18-1-0093201T01a-C1, Page 12 of 30 The EUT is ON. At first all modes are tested with normal/nominal conditions. Mode 2 has 3 frequency bands with low, default and high center frequency. Each frequency band is also measured with nominal conditions. Then a worst case is chosen from these 3 measurements. Here frequency band LOW was chosen due to the fact, that it has the highest power and it is located close to the limit frequency. Then the EUT with mode 1 and mode 2 worst case are tested in the climate cabinet with different temperatures and voltages. * Equivalent Isotropic Radiated Power 5.1.7. Results Nominal conditions Power measurement Verdict Op. Mode: Peak detector, max peak RMS detector, channel power search (marker) measurement [dBm] [dBm] 1 26.1 41.2 Pass Low 30.9 47.7 Pass* 2 Default 30.2 46.5 Pass High 30.4 46.3 Pass Extreme conditions 1 See Annex 1 See Annex 1 Pass 2 Low See Annex 1 See Annex 1 Pass Remark: For graphical results pls. see annex 1 to this test report. * Frequency band LOW for Mode 2 shows the highest power value. This frequency band will be used furthermore for other measurements for this mode. CETECOM_TR18_1_0093201T01a-C1

Test Report 18-1-0093201T01a-C1, Page 13 of 30 5.2. Modulation characteristics 5.2.1. Test location and equipment Ambient Climatic conditions Temperature: Rel. humidity: (45±15)% nominal and extreme test site FAR 2/  443 FAR Spuri  348 EMI cond.  443 EMI FAR  347 Radio.lab.  337 OATS  412 OTA1 equipment  331 HC 4055      spectr.  714 FSW67  264 FSEK  264 FSEK  584 FSU  Analys. antenna meas  574 BTA-L  289 CBL 6141  439 HL 562  549 HL 025  < 18GHz antenna meas  302 BBHA9170  13254-01 / Q-Band SAR-2309-22-S2 18-40GHz antenna meas  010001 FH-PP60 f > 40GHz antenna meas  010006 FH-PP50-75  010014 FH-PP75-110  1144 SGH-26-WR f > 50GHz antenna meas  010008 FH-PP90-140  010011 FH-PP140-220 f > 90GHz antenna meas  010024 FH-PP220-330 f > 220GHz antenna subst SGH-26-  071 HUF-Z2  020 EMCO3115  063 LP 3146  303 BBHA9170  1144  WR power meter 100  009 NRV  010 URV5-Z2  011 URV5-Z2  NRT-T110   984 Other:  Adapter Q-Band to 1.85mm Signalgener.  008 SMG  140 SMHU  263 SMP04    mixer 101 101 101 101 1010  FS-Z75  FS-Z110  FS-Z140  FS-Z220  FS-Z325 022 468 004 009 05 power meter  262 NRV-S  266 NRV-Z31  265 NRV-Z33  261 NRV-Z55  356 NRV-Z1  261 NRP-T110 multimeter  341 Fluke 112      DC power Car  086 LNG50-10  087 EA3013  354 NGPE 40  349 car battery  350  battery line voltage  230 V 50 Hz via public mains 060 120 V 60 Hz via PAS 5000 5.2.2. Reference FCC §2.1047 (d) FCC RSS-251 (Section 6b) 5.2.3. Description: FCC §2.1047 (d): Other types of equipment. A curve or equivalent data which shows that the equipment will meet the modulation requirements of the rules under which the equipment is to be licensed. RSS-251 (Section 6b): Non-pulsed radar (e.g. frequency modulated continuous wave (FMCW)): modulation type (i.e. sawtooth, sinusoid, triangle, or square wave) and sweep characteristics (sweep bandwidth, sweep rate, sweep time). 5.2.4. Test environment Temperature Nominal: 22±3 °C Rel. humidity (40±20)% Power supply Nominal: 12 V 5.2.5. Spectrum-Analyzer settings: Span > 1 GHz Resolution Bandwidth (RBW) 1 MHz Video Bandwidth (VBW) Minimum 3 times the resolution bandwidth Sweep time Auto-coupled Detector Peak detector. Sweep mode Repetitive Mode, MAX-HOLD, trace stabilization 5.2.6. Measurement method: Start and stop frequency was measured for all operating modes and all frequency bands with nominal conditions. Wave form and sweep characteristics were supplied by applicant. 5.2.7. Results For graphical results for start and stop frequency pls. see annex 1 to this test report. The applicant supplied following information about wave form and sweep characteristics: CETECOM_TR18_1_0093201T01a-C1

Test Report 18-1-0093201T01a-C1, Page 14 of 30 The waveform consists of linear FM ramps, as shown in Figure (I). Normally Downchirps (falling frequency ramps) are used for the 2D-FFT. For classical structure or A-Waveform, as we call them, these ramps are repeated over time. Figer (I). A second waveform, we call AB-waveform, uses 2 similar ramps, which have the same timing and slope, but are shifted in frequency (ramp B has a frequency offset to ramp A – AB shift). This is shown in Figure (II). Figer (II). CETECOM_TR18_1_0093201T01a-C1

Test Report 18-1-0093201T01a-C1, Page 15 of 30 Waveform Parameters: Waveform Mode 0 - 166MHz: Waveform Mode 1 - 450MHz: CETECOM_TR18_1_0093201T01a-C1

Test Report 18-1-0093201T01a-C1, Page 16 of 30 5.3. Occupied bandwidth 5.3.1. Test location and equipment See section 5.1.1. 5.3.2. Reference FCC See section 1.1. in the report. 5.3.3. Limits See section 1.1. in the report. 5.3.4. Test environment Temperature Nominal: 22±3 °C (all modes and FB) Extreme, min.: -40 °C (mode 1 and mode 2 FB Low) Extreme, max.: -74 °C (mode 1 and mode 2 FB Low) Rel. humidity (40±20)% Power supply Nominal: 12 V (all modes and FB) Extreme, min.: 8 V (mode 1 and mode 2 FB Low) Extreme, max.: 32 V (mode 1 and mode 2 FB Low) 5.3.5. Spectrum-Analyzer settings: Span > 1 GHz Resolution Bandwidth (RBW) 1 MHz Video Bandwidth (VBW) Minimum 3 times the resolution bandwidth Sweep time Auto-coupled Detector Peak detector Sweep mode Repetitive Mode, MAX-HOLD, trace stabilization 5.3.6. Measurement method: Occupied bandwidth was measured for all operating modes and all frequency bands with nominal conditions. Mode 1 and Mode 2 FB Low are measured also with extreme conditions (see section 5.1.). Occupied bandwidth (99 %) function is activated in spectrum analyzer for this measurement. 5.3.7. Results Nominal conditions Verdict Op. Mode: Low edge [GHz] High edge [GHz] Occ. bandwidth [MHz] 1 76.135699 76.700537 564.84 Pass Low 76.038778 76.244929 206.15 Pass 2 Default 76.278578 76.527545 248.97 Pass High 76.518338 76.724239 205.9 Pass Extreme conditions 1 See Annex 1 See Annex 1 Pass 2 Low See Annex 1 See Annex 1 Pass Remark: For graphical results pls. see annex 1 to this test report. CETECOM_TR18_1_0093201T01a-C1

Test Report 18-1-0093201T01a-C1, Page 17 of 30 5.4. Field strength of emissions (band edge) 5.4.1. Test location and equipment See section 5.2.1. 5.4.2. Reference FCC See section 1.1. in the report. 5.4.3. Limits: See section 1.1. in the report. 5.4.4. Test environment Temperature Nominal: 22±3 °C Rel. humidity (40±20)% Power supply Nominal: 12 V 5.4.5. Spectrum-Analyzer settings: Span > 1 GHz Resolution Bandwidth (RBW) 1 MHz Video Bandwidth (VBW) Minimum 3 times the resolution bandwidth Sweep time Auto-coupled Detector Peak detector + RMS detector Sweep mode Repetitive Mode, MAX-HOLD, trace stabilization 5.4.6. Measurement method: Low and high band edge was measured for mode 1. Low band edge was measured for mode 2 FB Low. High band edge was measured for mode 2 FB High. 5.4.7. Verdict Pass. For graphical results pls. see annex 1 to this test report. CETECOM_TR18_1_0093201T01a-C1

Test Report 18-1-0093201T01a-C1, Page 18 of 30 5.5. Radiated field strength emissions (below 30 MHz) 5.5.1. Test location and equipment test location  CETECOM Essen (Chapter. 2.2.1)  Please see Chapter. 2.2.2  Please see Chapter. 2.2.3 test site  441 EMI SAR  487 SAR NSA  347 Radio.lab.   receiver  377 ESCS30  001 ESS     spectr. analys.  584 FSU  120 FSEM  264 FSEK    antenna  574 BTA-L  133 EMCO3115  302 BBHA9170  289 CBL 6141  030 HFH-Z2  021 EMCO6502 signalling  757 CMW500  371 CBT32  547 CMU  594 CMW500 otherwise  400 FTC40x15E  401 FTC40x15E  110 USB LWL  482 Filter Matrix  378 RadiSense DC power  456 EA 3013A  457 EA 3013A  459 EA 2032-50  268 EA- 3050  494 AG6632A  498 NGPE 40 line voltage  230 V 50 Hz via public mains  060 120 V 60 Hz via PAS 5000 5.5.2. Requirements FCC/RSS See section 1.1. ANSI C63.10-2013 Frequency Field strength limit Distance Remarks [MHz] [μV/m] [dBμV/m] [m] 0.009 – 0.490 2400/f (kHz) 67.6 – 20Log(f) (kHz) 300 Correction factor used due to measurement distance of 3 m 0.490 – 1.705 24000/f (kHz) 87.6 – 20Log(f) (kHz) 30 Correction factor used due to measurement distance of 3 m 1.705 – 30 30 29.5 30 Correction factor used due to measurement distance of 3 m 5.5.3. Test condition and test set-up EUT-grounding  none  with power supply  additional connection Equipment set up  table top  floor standing Climatic conditions Temperature: (22±3°C) Rel. humidity: (40±20)%  9 – 150 kHz RBW/VBW = 200 Hz Scan step = 80 Hz Scan data  150 kHz – 30 MHz RBW/VBW = 9 kHz Scan step = 4 kHz  other: EMI-Receiver or Scan-Mode  6 dB EMI-Receiver Mode  3dB Spectrum analyser Mode Analyzer Settings Detector Peak (pre-measurement) and Quasi-PK/Average (final if applicable) Mode: Repetitive-Scan, max-hold Sweep-Time Coupled – calibrated display if continuous signal otherwise adapted to EUT’s individual transmission duty-cycle General measurement procedures Please see chapter “Test system set-up radiated magnetic field measurements below 30 MHz” 5.5.4. Measurement method: Measurement is done for mode 1 and mode 2 FB Low. Mode 2 FB Low was chosen due to the fact that it has the highest power. See section 1.1. Mode 2 FB Low, Default and High differs only in center frequency. All other characteristics are identical. 5.5.5. Verdict Pass. For graphical results pls. see annex 1 to this test report. CETECOM_TR18_1_0093201T01a-C1

Test Report 18-1-0093201T01a-C1, Page 19 of 30 5.5.6. Correction factors due to reduced meas. distance (f< 30 MHz) The used correction factors when the measurement distance is reduced compared to regulatory measurement distance, are calculated according Extrapolation formulas valid for EUT’s with maximum dimension of 0.625xLambda. Formula 2+3+4 as presented in ANSI C63.10, Chapter 6.4.4 are used for the calculations of proper extrapolation factors. CETECOM_TR18_1_0093201T01a-C1

Test Report 18-1-0093201T01a-C1, Page 20 of 30 5.6. Radiated field strength emissions, 30 MHz – 960 MHz 5.6.1. Test location and equipment test location  CETECOM Essen (Chapter. 2.2.1)  Please see Chapter. 2.2.2  Please see Chapter. 2.2.3 test site  441 EMI SAR  487 SAR NSA receiver  377 ESCS30  001 ESS  489 ESU 40  620 ESU 26 spectr. analys.  584 FSU  120 FSEM  264 FSEK antenna  574 BTA-L  133 EMCO3115  302 BBHA9170  289 CBL 6141  030 HFH-Z2  477 GPS signalling  392 MT8820A  371 CBT32  547 CMU  594 CMW otherwise  400 FTC40x15E  401 FTC40x15E  110 USB LWL  482 Filter Matrix DC power  456 EA 3013A  457 EA 3013A  459 EA 2032-50  268 EA- 3050  494 AG6632A  498 NGPE line voltage  230 V 50 Hz via public mains  060 120 V 60 Hz via PAS 5000 5.6.2. Requirements/Limits Standard See section 1.1.  C63.4-2014 ANSI  C63.10-2013 Radiated emissions limits, 3 meters Frequency [MHz] QUASI Peak [µV/m] QUASI-Peak [dBµV/m] 30 - 88 100 40.0 Limit 88 - 216 150 43.5 216 - 960 200 46.0 above 960 500 54.0 5.6.3. Restricted bands of operation (FCC §15.205/ RSS-Gen, Issue 4 Chapter 8.9, Table 4) MHz MHz MHz GHz 0.090-0.110 16.42-16.423 399.9-410 4.5-5.15 0.495-0.505 16.69475-16.69525 608-614 5.35-5.46 2.1735-2.1905 16.80425-16.80475 960-1240 7.25-7.75 4.125-4.128 25.5-25.67 1300-1427 8.025-8.5 4.20725-4.20775 37.5-38.25 1645.5-1646.5 9.3-9.5 6.215-6.218 73-74.6 1660-1710 10.6-12.7 6.26775-6.26825 74.8-75.2 1718.8-1722.2 13.25-13.4 6.31175-6.31225 108-121.94 2200-2300 14.47-14.5 8.291-8.294 123-138 2310-2390 15.35-16.2 8.362-8.366 149.9-150.05 2483.5-2500 17.7-21.4 8.37625-8.38675 156.52475-156.52525 2690-2900 22.01-23.12 8.41425-8.41475 156.7-156.9 3260-3267 23.6-24.0 12.29-12.293 162.0125-167.17 3332-3339 31.2-31.8 12.51975-12.52025 167.72-173.2 3345.8-3358 36.43-36.5 12.57675-12.57725 240-285 3600-4400 -- 13.36-13.41 322-335.4 -- -- Remark: only spurious emissions are allowed within these frequency bands not exceeding the limits per §15.209 5.6.4. Test condition and measurement test set-up EUT-grounding  none  with power supply  additional connection Equipment set up  table top 0.8m height  floor standing Climatic conditions Temperature: (22±3°C) Rel. humidity: (40±20)% EMI-Receiver Scan frequency range:  30 – 1000 MHz  other: (Analyzer) Settings Scan-Mode  6 dB EMI-Receiver Mode  3 dB spectrum analyser mode Detector Peak / Quasi-peak RBW/VBW 100 kHz/300 kHz Mode: Repetitive-Scan, max-hold Scan step 80 kHz Sweep-Time Coupled – calibrated display if continuous tx-signal otherwise adapted to EUT’s individual duty-cycle General measurement procedures Please see chapter “Test system set-up for electric field measurement in the range 30 MHz to 1 GHz” CETECOM_TR18_1_0093201T01a-C1

Test Report 18-1-0093201T01a-C1, Page 21 of 30 5.6.5. Measurement method: Measurement is done for mode 1 and mode 2 FB Low. Mode 2 FB Low was chosen due to the fact that it has the highest power. See section 1.1. Mode 2 FB Low, Default and High differs only in center frequency. All other characteristics are identical. 5.6.6. Verdict Pass. For graphical results pls. see annex 1 to this test report. CETECOM_TR18_1_0093201T01a-C1

Test Report 18-1-0093201T01a-C1, Page 22 of 30 5.7. Radiated field strength emissions, 960 MHz – 40 GHz 5.7.1. Test location and equipment Ref.-No. Equipment Type Serial-No. Frequency range 960 MHz – 8000 MHz Measurement in FAR 2 with the distance between the EUT and the antenna 1 m 714 Spectrum Analyzer R&S FSW67 104023 549 Antenna EMCO 3115 9005-3414 338 RF Amplifier Narda-Miteq AMF-4D-00100800-18-13P Inv.Nr. 01483 Frequency range 8000 MHz – 18000 MHz Measurement in FAR 2 with the distance between the EUT and the antenna 1 m 714 Spectrum Analyzer R&S FSW67 104023 133 Antenna EMCO 3115 9005-3414 - RF Amplifier Narda-Miteq JS42-08001800-16-8P Inv.Nr. 01484 Frequency range 18000 MHz – 40000 MHZ Measurement in FAR 2 with the distance between the EUT and the antenna 1 m 714 Spectrum Analyzer R&S FSW67 104023 302 Antenna BBHA9170 155 688 RF Amplifier Miteq JS-18004000-40-8P 1750117 5.7.2. Requirements/Limits FCC See section 1.1.  C63.4-2014 ANSI  C63.10-2013 Limits, EIRP in dBm See section 1.1. 5.7.3. Measurement method: Measurement is done for mode 1 and mode 2 FB Low. Mode 2 FB Low was chosen due to the fact that it has the highest power. See section 1.1. Mode 2 FB Low, Default and High differs only in center frequency. All other characteristics are identical. 5.7.4. Test condition and measurement test set-up EUT-grounding  none  with power supply  additional connection Equipment set up  table top 1.5m height  floor standing Climatic conditions Temperature: (22±3°C) Rel. humidity: (40±20)% Spectrum- Scan frequency range:  1 – 18 GHz  18 – 25 GHz  18 – 40 GHz  other: Analyzer Scan-Mode  6 dB EMI-Receiver Mode  3 dB Spectrum analyser Mode settings Detector RMS RBW/VBW 1 MHz / 3 MHz Mode: Repetitive-Scan, max-hold Sweep-Time ≤ 1 s over each measurement bin General measurement procedures Please see chapter “Test system set-up for radiated electric field measurements above 1 GHz” 5.7.5. Verdict Pass. For graphical results pls. see annex 1 to this test report. CETECOM_TR18_1_0093201T01a-C1

Test Report 18-1-0093201T01a-C1, Page 23 of 30 5.8. Radiated field strength emissions, above 40 GHz 5.8.1. Test location and equipment (for reference numbers please see chapter 'List of test equipment') Ambient Climatic conditions Temperature: (22±2)°C Rel. humidity: (45±15)% test site  443 FAR Spuri  348 EMI cond.  443 EMI FAR  347 Radio.lab.  337 OATS  412 OTA1 equipment  331 HC 4055      spectr.  714 FSW67  264 FSEK  264 FSEK  584 FSU  Analys. antenna meas  574 BTA-L  289 CBL 6141  439 HL 562  549 HL 025  < 18GHz antenna meas  302 BBHA9170  13254-01 / Q-Band SAR-2309-22-S2 18-40GHz antenna meas  010001 FH-PP60 f > 40GHz antenna meas  010006 FH-PP50-75  010014 FH-PP75-110  1144 SGH-26-WR f > 50GHz antenna meas  010008 FH-PP90-140  010011 FH-PP140-220 f > 90GHz antenna meas  010024 FH-PP220-330 f > 220GHz antenna subst SGH-26-  071 HUF-Z2  020 EMCO3115  063 LP 3146  303 BBHA9170  1144  WR power meter 100  009 NRV  010 URV5-Z2  011 URV5-Z2  NRT-T110   984 Other:  Adapter Q-Band to 1.85mm Signalgener.  008 SMG  140 SMHU  263 SMP04    mixer 101 101 101 101 1010  FS-Z75  FS-Z110  FS-Z140  FS-Z220  FS-Z325 022 468 004 009 05 power meter  262 NRV-S  266 NRV-Z31  265 NRV-Z33  261 NRV-Z55  356 NRV-Z1  261 NRP-T110 multimeter  341 Fluke 112      DC power Car  086 LNG50-10  087 EA3013  354 NGPE 40  349 car battery  350  battery line voltage  230 V 50 Hz via public mains 060 120 V 60 Hz via PAS 5000 5.8.2. Reference Standard See section 1.1. in the report. 5.8.3. Limits: See section 1.1. in the report. 5.8.4. Test environment Temperature Nominal: 22±3 °C Rel. humidity (40±20)% Power supply Nominal: 12 V 5.8.5. Spectrum-Analyzer settings*: Resolution Bandwidth (RBW) 1 MHz Video Bandwidth (VBW) Minimum 3 times the resolution bandwidth Sweep time ≤1s Detector RMS detector. Sweep mode Repetitive Mode, MAX-HOLD, trace stabilization * See also settings on the screenshots from the spectrum analyzer in Annex 1 5.8.6. Measurement method: Measurement is done for mode 1 and mode 2 FB Low. Mode 2 FB Low was chosen due to the fact that it has the highest power. See section 1.1. Mode 2 FB Low, Default and High differs only in center frequency. All other characteristics are identical. The measurement in the frequency range 40 GHz – 55 GHz are made direct with the spectrum analyzer without mixer. The measurements above 55 GHz are made with the mixer. There is a ref level line in all measurements. This line is not to mistake for limit line. Signal ID function is used for the most measurement above 55 GHz: two sweeps are performed alternately. Trace 1 shows the trace measured on the upper side band (USB) of the LO (the test sweep), trace 2 shows the trace measured on the lower side band (LSB), i.e. the reference sweep. The reference sweep is performed using an LO setting shifted downwards by 2*IF/<Harmonic order>. Input signals in the desired sideband that are converted using the specified harmonic are displayed in both traces at the CETECOM_TR18_1_0093201T01a-C1

Test Report 18-1-0093201T01a-C1, Page 24 of 30 same position on the frequency axis. Image signals and mixer products caused by other harmonics are displayed at different positions in both traces. The user identifies the signals visually by comparing the two traces. Since the LO frequency is displaced downwards in the reference sweep, the conversion loss of the mixer may differ from the test sweep. Therefore the signal level should only be measured in the test sweep (trace 1). For signal ID function three screenshots were made always. The first one: USB + LSB. The second one: LSB. The third one: USB. All the screenshots are compared to differ the input signal from the image signal or mixer product. Traces on all diagrams up to 200 GHz include all losses inclusive antenna gain and free-space path loss. The SW of the spectrum analyzer doesn’t permit to include antenna gain and free-space path loss in the trace for frequency range above 200 GHz. The real noise level for the measurements above 200 GHz is calculated in the table below: 200 GHz – 220 GHz Column A B C D - identification Free-space path Noise level read A+B+C Limit Frequency Antenna gain loss [dB] for by spectrum Calculate noise [dBm]/ [GHz] [dBi] 1m analyzer [dBm] level, [dBm] Verdict 200 -23.75 78.52 -74.72 -19.95 0.5/ ok 210 -24.15 78.95 -75.78 -20.98 0.5/ ok 220 -24.5 79.35 -76.96 -22.11 0.5/ ok 220 GHz – 231 GHz Free-space path Noise level read A+B+C Limit Frequency Antenna gain loss [dB] for by spectrum Calculate noise [dBm]/ [GHz] [dBi] 0.5 m analyzer [dBm] level, [dBm] Verdict 220 -19.8 73.33 -67.87 -14.34 0.5/ ok 225.5 -20 73.54 -69.42 -15.88 0.5/ ok 231 -20.2 73.75 -69.87 -16.32 0.5/ ok Measurement distance: Frequency range: Distance [m]: 9 kHz – 30 MHz 3 30 MHz – 1 GHz 3 1 GHz – 8 GHz 1 8 GHz – 18 GHz 1 18 GHz – 40 GHz 1 40 GHz – 55 GHz 1 55 GHz – 73.5 GHz 1 73.5 GHz – 75 GHz 1 75 GHz – 76 GHz 1 76 GHz – 90 GHz 0.5 90 GHz – 98 GHz 0.5 98 GHz – 110 GHz 0.5 110 GHz – 140 GHz 0.5 140 GHz – 162 GHz 0.5 162 GHz – 200 GHz 1 200 GHz – 220 GHz 1 220 GHz – 231 GHz 0.5 5.8.6.1. Verdict Pass. For graphical results pls. see annex 1 to this test report. CETECOM_TR18_1_0093201T01a-C1

Test Report 18-1-0093201T01a-C1, Page 25 of 30 5.9. Measurement uncertainties The reported uncertainties are calculated based on the standard uncertainty multiplied with the appropriate coverage factor k, such that a confidence level of approximately 95% is achieved. For uncertainty determination, each component used in the concrete measurement set-up was taken in account and it’s contribution to the overall uncertainty according it’s statistical distribution calculated. Following table shows expectable uncertainties for each measurement type performed. Calculated uncertainty based on a RF-Measurement Reference Frequency range Remarks confidence level of 95% Conducted emissions 9 kHz - 150 kHz 4.0 dB CISPR 16-2-1 - (U CISPR) 150 kHz - 30 MHz 3.6 dB Radiated emissions 30 MHz - 1 GHz 4.2 dB CISPR 16-2-3 E-Field Enclosure 1 GHz - 18 GHz 5.1 dB Disturbance power CISPR 16-2-2 30 MHz - 300 MHz - - - 30 MHz - 4 GHz 3.17 dB Substitution method Power Output radiated 24 GHz 3.24 dB 76-77GHz 3.32 dB Cel- Cel- Set-up No. BT1 W1 W2 -- C1 C2 Power Output conducted - 9 kHz - 12.75 GHz N/A 0.60 0.7 0.25 N/A -- - 12.75 - 26.5GHz N/A 0.82 -- N/A N/A -- Conducted emissions - 9 kHz - 2.8 GHz 0.70 N/A 0.70 N/A 0.69 -- N/A - not on RF-port 2.8 GHz - 12.75GHz 1.48 N/A 1.51 N/A 1.43 -- applicable 12.75 GHz - 18GHz 1.81 N/A 1.83 N/A 1.77 -- 18 GHz - 26.5GHz 1.83 N/A 1.85 N/A 1.79 -- Power density - 1 – 2.8GHz 1.40 dB -- 0.1272 ppm (Delta Marker) Frequency Occupied bandwidth - 9 kHz - 4 GHz error 1.0 dB Power - 0.1272 ppm (Delta Marker) Frequency Emission bandwidth 9 kHz - 4 GHz error - See above: 0.70 dB Power Frequency stability - 9 kHz - 20 GHz 0.0636 ppm -- 150 kHz - 30 MHz 5.0 dB Magnetic field 30 MHz - 1 GHz 4.2 dB E-field 1 GHz - 18 GHz 3.17 dB Substitution Radiated emissions Method - 18-33 GHz 3.60 dB Enclosure 33-50 GHz 3.99 dB 40-60 GHz 3.95 dB Table: measurement uncertainties, valid for conducted/radiated measurements CETECOM_TR18_1_0093201T01a-C1

Test Report 18-1-0093201T01a-C1, Page 26 of 30 6. Abbreviations used in this report The abbreviations ANSI American National Standards Institute AV , AVG, CAV Average detector EIRP Equivalent isotropically radiated power, determined within a separate measurement EGPRS Enhanced General Packet Radio Service EUT Equipment Under Test FCC Federal Communications Commission, USA IC Industry Canada n.a. not applicable Op-Mode Operating mode of the equipment PK Peak RBW resolution bandwidth RF Radio frequency RSS Radio Standards Specification, Dokuments from Industry Canada Rx Receiver TCH Traffic channel Tx Transmitter QP Quasi peak detector VBW Video bandwidth ERP Effective radiated power 7. Accreditation details of CETECOM’s laboratories and test sites Ref.- Accreditation Valid for laboratory area or test site No. Certificate Accreditation Body - D-PL- DAkkS, Deutsche All laboratories and test sites of CETECOM GmbH, Essen 12047-01-01 Akkreditierungsstelle GmbH 337 Radiated Measurements 30 MHz to 1 GHz, 3 m / 10 m (OATS) 487 Radiated Measurements 30 MHz to 1 GHz, 3 m (SAR) FCC, Federal Communications (MRA US-EU 558 Radiated Measurements above 1 GHz, 3 m (FAR) Commission 0003) 348 Mains Ports Conducted Interference Measurements Laboratory Division, USA 348 Telecommunication Ports Conducted Interference Measurem. 337 -- Radiated Measurements 30 MHz to 1 GHz, 3 m / 10 m (OATS) ISED, Industry Canada 487 3462D-2 Radiated Measurements 30 MHz to 1 GHz, 3 m (SAR) Certification and Engineering 550 3462D-2 Radiated Measurements 1 GHz to 6 GHz, 3 m (SAR) Bureau 558 3462D-3 Radiated Measurements above 1 GHz, 3 m (FAR) 487 R- 4452 Radiated Measurements 30 MHz to 1 GHz, 3 m (SAR) VCCI, Voluntary Control Council 550 G- 20013 Radiated Measurements 1 GHz to 6 GHz, 3 m (SAR) for Interference by Information 348 C- 20009 Mains Ports Conducted Interference Measurements Technology Equipment, Japan 348 T- 20006 Telecommunication Ports Conducted Interference Measurem. OATS = Open Area Test Site, SAR = Semi Anechoic Room, FAR = Fully Anechoic Room CETECOM_TR18_1_0093201T01a-C1

Test Report 18-1-0093201T01a-C1, Page 27 of 30 8. Instruments and Ancillary 8.1. Used equiment “CTC” The “Ref.-No” in the left column of the following tables allows the clear identification of the laboratory equipment. 8.1.1. Test software and firmware of equipment Ref.-No. Equipment Type Serial-No. Version of Firmware or Software during the test 001 EMI Test Receiver ESS 825132/017 Firm.= 1.21 , OTP=2.0, GRA=2.0 012 Signal Generator (EMS-cond.) SMY 01 839069/027 Firm.= V 2.02 013 Power Meter (EMS cond.) NRVD 839111/003 Firm.= V 1.51 017 Digital Radiocommunication Tester CMD 60 M 844365/014 Firmware = V 3.52 .22.01.99, DECT = D2.87 13.01.99 053 Audio Analyzer UPA3 860612/022 Firm. V 4.3 119 RT Harmonics Analyzer dig. Flickermeter B10 G60547 Firm.= V 3.1DHG 140 Signal Generator SMHU 831314/006 Firm.= 3.21 261 Thermal Power Sensor NRV-Z55 825083/0008 EPROM-Datum 02.12.04, SE EE 1 B 262 Power Meter NRV-S 825770/0010 Firm.= 2.6 263 Signal Generator SMP 04 826190/0007 Firm.=3.21 UNIT Firmware= 4.04, SW-Main=4.04, SW-BBP=1.04, 295 Racal Digital Radio Test Set 6103 1572 SW-DSP=1.02, Hardboot=1.02, Softboot=2.02 R&S Test Firmware =3.53 /3.54 (current Testsoftw. f. 298 Univ. Radio Communication Tester CMU 200 832221/091 all band used 323 Digital Radiocommunication Tester CMD 55 825878/0034 Firm.= 3.52 .22.01.99 335 CTC-EMS-Conducted System EMS Conducted - EMC 32 V 8.52 340 Digital Radiocommunication Tester CMD 55 849709/037 Firm.= 3.52 .22.01.99 355 Power Meter URV 5 891310/027 Firm.= 1.31 365 10V Insertion Unit 50 Ohm URV5-Z2 100880 Eprom Data = 31.03.08 366 Ultra Compact Simulator UCS 500 M4 V0531100594 Firm. UCS 500=001925/3.06a02, rc=ISMIEC 4.10 371 Bluetooth Tester CBT32 100153 CBT V5,30+ SW-Option K55, K57 377 EMI Test Receiver ESCS 30 100160 Firm.= 2.30, OTP= 02.01, GRA= 02.36 378 Broadband RF Field Monitor RadiSense III 03D00013SNO-08 Firm.= V.03D13 389 Digital Multimeter Keithley 2000 0583926 Firm. = A13 (Mainboard) A02 (Display) Firm.= 4.50 #005, IPL=4.01#001,OS=4.02#001, 392 Radio Communication Tester MT8820A 6K00000788 GSM=4.41#013, W-CDMA= 4.54#004, scenario= 4.52#002 R&S Test Firmware Base=5.14, Mess-Software= 436 Univ. Radio Communication Tester CMU 200 103083 GSM:5.14 WCDMA:5.14 (current Testsoftw. F. all band 441 CTC-SAR-EMI Cable Loss System EMI field (SAR) - EMC 32 Version 8.52 442 CTC-SAR-EMS System EMS field (SAR) - EMC 32 Version 8.40 System CTC-FAR-EMI- 443 CTC-FAR-EMI-RSE - Spuri 7.2.5 or EMC 32 Ver. 9.15.00 RSE 444 CTC-FAR-EMS field System-EMS-Field (FAR) - EMC 32 Version 9.15.00 R&S Test Firmware Base=5.14, GSM=5.14 460 Univ. Radio Communication Tester CMU 200 108901 WCDMA=5.14 (current Testsoftw.,f. all band to be used, 489 EMI Test Receiver ESU40 1000-30 Firmware=4.43 SP3, Bios=V5.1-16-3, Spec. =01.00 491 ESD Simulator dito ESD dito dito307022 V 2.30 524 Voltage Drop Simulator VDS 200 0196-16 Software Nr: 000037 Version V4.20a01 526 Burst Generator EFT 200 A 0496-06 Software Nr. 000034 Version V2.32 527 Micro Pulse Generator MPG 200 B 0496-05 Software-Nr. 000030 Version V2.43 528 Load Dump Simulator LD 200B 0496-06 Software-Nr. 000031 Version V2.35a01 R&S Test Firmware Base=5.14, GSM=5.14 546 Univ. Radio Communication Tester CMU 200 106436 WCDMA=5.14 (current Testsoftw.,f. all band to be used R&S Test Firmware Base=V5.1403 (current Testsoftw., 547 Univ. Radio Communication Tester CMU 200 835390/014 f. all band used, GSM = 5.14 WCDMA: = 5.14 584 Spectrum Analyzer FSU 8 100248 2.82_SP3 R&S Test Firmware Base=5.01, GSM=5.02 WCDMA= 597 Univ. Radio Communication Tester CMU 200 100347 not installed, Mainboard= µP1=V.850 598 Spectrum Analyzer FSEM 30 831259/013 Firmware Bios 3.40 , Analyzer 3.40 Sp 2 607 Signal Generator SMR 20 832033/011 V1.25 620 EMI Test Receiver ESU 26 100362 4.43_SP3 642 Wideband Radio Communication Tester CMW 500 126089 Setup V03.26, Test programm component V03.02.20 670 Univ. Radio Communication Tester CMU 200 106833 µP1 =V8.50, Firmware = V.20 689 Vector Signal Generator SMU200 100970 02.20.360.142 CBT V 5.40, FW: V.2.41 (FPGA Digital, V. 3.09 FPGA 692 Bluetooth Tester CBT 32 100236 RF) CETECOM_TR18_1_0093201T01a-C1

Test Report 18-1-0093201T01a-C1, Page 28 of 30 8.1.2. Single instruments and test systems Ref.-No. calibration Interval of Remark Equipment Type Serial-No. Manufacturer Cal due 001 EMI Test Receiver ESS 825132/017 Rohde & Schwarz 12 M - 16.05.2019 005 AC - LISN (50 Ohm/50µH, test site 1) ESH2-Z5 861741/005 Rohde & Schwarz 12 M - 16.05.2019 007 Single-Line V-Network (50 Ohm/5µH) ESH3-Z6 892563/002 Rohde & Schwarz 12 M - 16.05.2019 009 Power Meter (EMS-radiated) NRV 863056/017 Rohde & Schwarz 24 M - 15.05.2019 016 Line Impedance Simulating Network Op. 24-D B6366 Spitzenberger+Spies 36 M - 30.05.2019 021 Loop Antenna (H-Field) 6502 9206-2770 EMCO 36 M - 30.06.2021 033 RF-current probe (100kHz-30MHz) ESH2-Z1 879581/18 Rohde & Schwarz 24 M - 15.05.2019 057 relay-switch-unit (EMS system) RSU 494440/002 Rohde & Schwarz pre-m 1a 060 power amplifier (DC-2kHz) PAS 5000 B6363 Spitzenberger+Spies - 3 086 DC - power supply, 0 -10 A LNG 50-10 - Heinzinger Electronic pre-m 2 087 DC - power supply, 0 -5 A EA-3013 S - Elektro Automatik pre-m 2 091 USB-LWL-Converter OLS-1 007/2006 Ing. Büro Scheiba - 4 099 passive voltage probe ESH2-Z3 299.7810.52 Rohde & Schwarz 36 M - 30.05.2021 100 passive voltage probe Probe TK 9416 without Schwarzbeck 36 M - 30.05.2021 110 USB-LWL-Converter OLS-1 - Ing. Büro Scheiba - 4 119 RT Harmonics Analyzer dig. Flickermeter B10 G60547 BOCONSULT 36 M - 30.05.2019 133 horn antenna 18 GHz (Meas 1) 3115 9012-3629 EMCO 36 M 1c 10.03.2020 134 horn antenna 18 GHz (Subst 2) 3115 9005-3414 EMCO 36 M - 10.03.2020 248 attenuator SMA 6dB 2W - Radiall pre-m 2 249 attenuator SMA 10dB 10W - Radiall pre-m 2 252 attenuator N 6dB 12W - Radiall pre-m 2 256 attenuator SMA 3dB 2W - Radiall pre-m 2 257 hybrid 4031C 04491 Narda pre-m 2 260 hybrid coupler 4032C 11342 Narda pre-m 2 261 Thermal Power Sensor NRV-Z55 825083/0008 Rohde & Schwarz 24 M - 30.05.2020 262 Power Meter NRV-S 825770/0010 Rohde & Schwarz 24 M - 30.05.2019 263 Signal Generator SMP 04 826190/0007 Rohde & Schwarz 36 M - 30.05.2019 265 peak power sensor NRV-Z33, Model 04 840414/009 Rohde & Schwarz 24 M - 30.05.2020 266 Peak Power Sensor NRV-Z31, Model 04 843383/016 Rohde & Schwarz 24 M - 30.05.2020 267 notch filter GSM 850 WRCA 800/960-6EEK 9 Wainwright GmbH pre-m 2 270 termination 1418 N BB6935 Weinschel pre-m 2 271 termination 1418 N BE6384 Weinschel pre-m 2 272 attenuator (20 dB) 50 W Model 47 BF6239 Weinschel pre-m 2 273 attenuator (10 dB) 100 W Model 48 BF9229 Weinschel pre-m 2 274 attenuator (10 dB) 50 W Model 47 (10 dB) 50 W BG0321 Weinschel pre-m 2 275 DC-Block Model 7003 (N) C5129 Weinschel pre-m 2 276 DC-Block Model 7006 (SMA) C7061 Weinschel pre-m 2 279 power divider 1515 (SMA) LH855 Weinschel pre-m 2 298 Univ. Radio Communication Tester CMU 200 832221/091 Rohde & Schwarz pre-m 3 300 AC LISN (50 Ohm/50µH, 1-phase) ESH3-Z5 892 239/020 Rohde & Schwarz 12 M - 17.05.2019 301 attenuator (20 dB) 50W, 18GHz 47-20-33 AW0272 Lucas Weinschel pre-m 2 302 horn antenna 40 GHz (Meas 1) BBHA9170 155 Schwarzbeck 36 M - 14.03.2020 303 horn antenna 40 GHz (Subst 1) BBHA9170 156 Schwarzbeck 36 M - 20.03.2020 331 Climatic Test Chamber -40/+180 Grad HC 4055 43146 Heraeus Vötsch 24 M - 30.10.2020 341 Digital Multimeter Fluke 112 81650455 Fluke 24 M - 30.05.2020 342 Digital Multimeter Voltcraft M-4660A IB 255466 Voltcraft 24 M - 17.05.2019 347 laboratory site radio lab. - - - 5 348 laboratory site EMI conducted - - - 5 354 DC - Power Supply 40A NGPE 40/40 448 Rohde & Schwarz pre-m 2 357 power sensor NRV-Z1 861761/002 Rohde & Schwarz 24 M - 24.05.2019 371 Bluetooth Tester CBT32 100153 R&S 36 M - 30.05.2019 373 Single-Line V-Network (50 Ohm/5µH) ESH3-Z6 100535 Rohde & Schwarz 12 M - 17.05.2019 377 EMI Test Receiver ESCS 30 100160 Rohde & Schwarz 12 M - 30.05.2019 389 Digital Multimeter Keithley 2000 0583926 Keithley pre-m - 126.0604.0003.3.3.3.2 LUFFT Mess u. 405 Thermo-/Hygrometer OPUS 10 THI 24 M - 30.03.2019 2 Regeltechnik 431 Model 7405 Near-Field Probe Set 9305-2457 EMCO - 4 436 Univ. Radio Communication Tester CMU 200 103083 Rohde & Schwarz 12 M - 06.03.2019 439 UltraLog-Antenna HL 562 100248 Rohde & Schwarz 36 M - 10.03.2020 454 Oscilloscope HM 205-3 9210 P 29661 Hameg - 4 456 DC-Power supply 0-5 A EA 3013 S 207810 Elektro Automatik pre-m 2 459 DC -Power supply 0-5 A , 0-32 V EA-PS 2032-50 910722 Elektro Automatik pre-m 2 460 Univ. Radio Communication Tester CMU 200 108901 Rohde & Schwarz 12 M - 30.05.2019 463 Universal source HP3245A 2831A03472 Agilent - 4 466 Digital Multimeter Fluke 112 89210157 Fluke USA 24 M - 30.05.2020 467 Digital Multimeter Fluke 112 89680306 Fluke USA 36 M - 30.05.2019 468 Digital Multimeter Fluke 112 90090455 Fluke USA 36 M - 30.04.2021 477 ReRadiating GPS-System AS-47 - Automotive Cons. Fink - 3 480 power meter (Fula) NRVS 838392/031 Rohde & Schwarz 24 M - 16.05.2019 CETECOM_TR18_1_0093201T01a-C1

Test Report 18-1-0093201T01a-C1, Page 29 of 30 Ref.-No. calibration Interval of Remark Equipment Type Serial-No. Manufacturer Cal due 482 filter matrix Filter matrix SAR 1 - CETECOM (Brl) - 1d System EMI field (SAR) ETS Lindgren / 487 System CTC NSA-Verification SAR-EMI - 24 M - 31.03.2019 NSA CETECOM WRCG 1709/1786- 502 band reject filter SN 9 Wainwright pre-m 2 1699/1796- 503 band reject filter WRCG 824/849-814/859- SN 5 Wainwright pre-m 2 517 relais switch matrix HF Relais Box Keithley SE 04 Keithley pre-m 2 523 Digital Multimeter L4411A MY46000154 Agilent 24 M - 18.05.2019 529 6 dB Broadband resistive power divider Model 1515 LH 855 Weinschel pre-m 2 530 10 dB Broadband resistive power divider R 416110000 LOT 9828 - pre-m 2 436 Univ. Radio Communication Tester CMU 200 103083 R&S 12 M - 30.03.2019 549 Log.Per-Antenna HL025 1000060 Rohde & Schwarz 36/12 M - 31.07.2021 System CTC S-VSWR Verification SAR- System EMI Field SAR S- ETS 550 - 24 M - 30.03.2019 EMI VSWR Lindgren/CETECOM System CTC FAR S- 558 System CTC FAR S-VSWR - CTC 24 M - 08.08.2019 VSWR 574 Biconilog Hybrid Antenna BTA-L 980026L Frankonia 36/12 M - 31.03.2019 584 Spectrum Analyzer FSU 8 100248 Rohde & Schwarz pre-m - 594 Wideband Radio Communication Tester CMW 500 101757 Rohde & Schwarz 12 M - 30.05.2019 597 Univ. Radio Communication Tester CMU 200 100347 Rohde & Schwarz pre-m - 600 power meter NRVD (Reserve) 834501/018 Rohde & Schwarz 24 M - 17.05.2019 601 medium-sensitivity diode sensor NRV-Z5 (Reserve) 8435323/003 Rohde & Schwarz 24 M - 15.05.2019 602 peak power sensor NRV-Z32 (Reserve) 835080 Rohde & Schwarz 24 M - 611 DC power supply E3632A KR 75305854 Agilent pre-m 2 612 DC power supply E3632A MY 40001321 Agilent pre-m 2 613 Attenuator R416120000 20dB 10W Lot. 9828 Radiall pre-m 2 616 Digitalmultimeter Fluke 177 88900339 Fluke 24 M - 30.05.2020 617 Power Splitter/Combiner ZFSC-2-2-S+ S F987001108 Mini Circuits - 2 618 Power Splitter/Combiner 50PD-634 600994 JFW Industries USA - 2 619 Power Splitter/Combiner 50PD-634 600995 JFW Industries, USA - 3 620 EMI Test Receiver ESU 26 100362 Rohde-Schwarz 12 M - 30.05.2019 621 Step Attenuator 0-139 dB RSP 100017 Rohde & Schwarz pre-m 2 625 Generic Test Load USB Generic Test Load USB - CETECOM - 2 201.0999.9302.6.4.1.4 627 data logger OPUS 1 G. Lufft GmbH 24 M - 30.03.2019 3 634 Spectrum Analyzer FSM (HF-Unit) 826188/010 Rohde & Schwarz pre-m 2 HDMI cable with Ethernet 637 High Speed HDMI with Ethernet 1m - KogiLink - 2 1m 638 HDMI Kabel with Ethernet 1,5 m flach HDMI cable with Ethernet - Reichelt - 2 640 HDMI cable 2m rund HDMI cable 2m rund - Reichelt - 2 641 HDMI cable with Ethernet Certified HDMI cable with - PureLink - 2 642 Wideband Radio Communication Tester CMW 500 126089 Rohde&Schwarz 24 M - 24.05.2019 644 Amplifierer ZX60-2534M+ SN865701299 Mini-Circuits - - 670 Univ. Radio Communication Tester CMU 200 106833 Rohde & Schwarz 24 M - 30.05.2020 671 DC-power supply 0-5 A EA-3013S - Elektro Automatik pre-m 2 678 Power Meter NRP 101638 Rohde&Schwarz pre-m - 683 Spectrum Analyzer FSU 26 200571 Rohde & Schwarz 12 M - 30.05.2019 Narda Safety Test 686 Field Analyzer EHP-200A 160WX30702 24 M - 29.03.2019 Solutions 687 Signal Generator SMF 100A 102073 Rohde&Schwarz 12 M - 30.05.2019 688 Pre Amp JS-18004000-40-8P 1750117 Miteq pre-m - 690 Spectrum Analyzer FSU 100302/026 Rohde&Schwarz 24 M - 16.05.2019 691 OSP120 Base Unit OSP120 106833 Rohde & Schwarz 12 M - 30.05.2019 692 Bluetooth Tester CBT 32 100236 Rohde & Schwarz 36 M - 29.05.2020 697 Power Splitter ZN4PD-642W-S+ 165001445 Mini-Circuits - 2 MA 4010-KT080-XPET- MA4170-KT100- 703 INNCO Antennen Mast INNCO pre-m - ZSS3 XPET- CO3000/933/3841051 704 INNCON Controller CO 3000-4port INNCO Systems GmBh pre-m - 6/L 711 Harmonic Mixer 90 GHz - 140GHz RPG FS-Z140 101004 RPG 24 M - 22.02.2019 712 Harmonic Mixer 75 GHz - 110GHz FS-Z110 101468 Rohde & Schwarz 24 M - 22.02.2019 713 Harmonic Mixer, 50 GHz - 75GHz FS-Z75 101022 Rohde & Schwarz 24 M - 22.05.2019 714 Signal Analyzer 67GHz FSW67 104023 Rohde & Schwarz 24 M - 28.02.2020 RPG Radiometer 715 Harmonic Mixer, 140 GHz - 220GHz FS-Z220 101009 24 M - 03.08.2019 Physics 716 Harmonic Mixer 220 GHz to 325 GHZ FS-Z325 101005 RPG Radiometer Physics 24 M - 13.02.2019 747 Spectrum Analyzer FSU 26 200152 Rohde & Schwarz 12 M - 30.05.2019 748 Pickett-Potter Horn Antenna FH-PP 4060 010001 Radiometer Physiscs - - 749 Pickett-potter Horn Antenna FH-PP 60-90 010003 Radiometer Physics - - 750 Pickett-Potter Horn Antenna FH-PP 140-220 010011 Radiometer Physics - - 751 Digital Optical System optoCAN-FD Transceiver 17-010416 mk-messtechnik GmbH - - 752 Digital Optical System optoCAN-FD Transceiver 17-010083 mk-messtechnik GmbH - - 753 Digital Optical System optoCAN-FD Transceiver 17-010084 mk-messtechnik GmbH - - CETECOM_TR18_1_0093201T01a-C1

Test Report 18-1-0093201T01a-C1, Page 30 of 30 Ref.-No. calibration Interval of Remark Equipment Type Serial-No. Manufacturer Cal due 754 Digital Optical System optoCAN-FD Transceiver 17-010415 mk-messtechnik GmbH - - 755 Digital Optical System optoLAN-100-MAX 17-010795 mk-messtechnik GmbH - - WIDEBAND RADIO 701 CMW500 158150 Rohde&Schwarz 12 M - 20.07.2019 COMMUNICATION 758 Signal Generator SMU 200A 100754 Rohde & Schwarz 24 M - 11.10.2019 Elektro-Automatik 781 Power Supply PS 2042-10 B 2815450369 - - GmbH lektro-Automatik GmbH 782 Power Supply PS 2042-10 B 2815450348 - - &Co.KG 783 Spectrum Analyzer FSU 26 100414 Rohde & Schwarz 12 M - 30.05.2019 784 Power Supply NGSM 32/10 00196 Rohde & Schwarz 12 M - 785 RSP RF Step Attenuator 860712/012 Rohde & Schwarz 12 M - 786 SAR Probe ES3DV3 3340 Speag 36 M - 14.02.2021 787 OSP OSP B157WX 101264 Rohde & Schwarz 12 M - 30.05.2019 8.1.3. Legend Note / remarks Calibrated during system calibration: 1a System CTC-SAR-EMS (Ref.-No. 442) 1b System-CTC-EMS-Conducted (Ref.-No. 335) 1c System CTC-FAR-EMI-RSE (Ref.-No . 443) 1d System CTC-SAR-EMI (Ref.-No . 441) 1e System CTC-OATS (EMI radiated) (Ref.-No. 337) 1f System CTC-CTIA-OTA (Ref.-No . 420) 1g System CTC-FAR-EMS (Ref.-No . 444) 2 Calibration or equipment check immediately before measurement 3 Regulatory maintained equipment for functional check or support purpose 4 calibrationequipment Ancillary of this equipment without has no effect calibration onmechanical e.g. measuring result equipment or monitoring equipment 5 Test System Interval of calibration 12 M 12 month 24 M 24 month 36 M 36 month 24/12 M Calibration every 24 months, between this every 12 months internal validation 36/12 M Calibration every 36 months, between this every 12 months internal validation Pre-m Check before starting the measurement - Without calibration 9. Versions of test reports (change history) Version Applied changes Date of release Initial release 2018-12-11 The name of the section 5.1. was corrected. Subsection „References“ was corrected for all sections. C1 Description of the measurement method in subsection 5.1.6. was 2019-03-20 made more detailed. Designation in the table in subsection 5.1.7. were corrected. The End of the Report CETECOM_TR18_1_0093201T01a-C1


Document Created: 2019-03-25 12:33:33
Document Modified: 2019-03-25 12:33:33
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