Test Report

FCC ID: PAXPMVE101

Test Report

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FCCID_3785582

TEST REPORT D-PL-12076-01-03 Test report no.: 1-5161/17-02-02 Testing laboratory Applicant CTC advanced GmbH Pacific Industrial Co., Ltd Untertuerkheimer Strasse 6 – 10 Godo-Cho, Anpachi 66117 Saarbruecken / Germany Gifu 503-2397 / JAPAN Phone: + 49 681 5 98 - 0 Phone: -/- Fax: + 49 681 5 98 - 9075 Fax: -/- Internet: http://www.ctcadvanced.com Contact: Kunitaka Yano e-mail: mail@ctcadvanced.com e-mail: knyano@pacific-ind.co.jp Phone: +81 584 28 01 11 Accredited Testing Laboratory: The testing laboratory (area of testing) is accredited according to DIN EN ISO/IEC 17025 (2005) by the Deutsche Akkreditierungsstelle GmbH (DAkkS) Manufacturer The accreditation is valid for the scope of testing Pacific Industrial Co., Ltd procedures as stated in the accreditation certificate with Godo-Cho, Anpachi the registration number: D-PL-12076-01-03 Gifu 503-2397 / JAPAN Test standard/s Title 47 of the Code of Federal Regulations; Chapter I; Part 15 - Radio frequency 47 CFR Part 15 devices Spectrum Management and Telecommunications Radio Standards Specification - RSS - 210 Issue 9 Licence-Exempt Radio Apparatus: Category I Equipment For further applied test standards please refer to section 3 of this test report. Test Item Kind of test item: Tire Pressure Monitoring System Transmitter Model name: PMV-E101 FCC ID: PAXPMVE101 IC: 3729A-PMVE101 Frequency: 433.920 MHz Technology tested: Modulated carrier Antenna: Integrated antenna Power supply: 3.0 V DC by lithium battery This test report is electronically signed and valid without handwriting signature. For verification of the electronic signatures, the public keys can be requested at the testing laboratory. Test report authorized: Test performed: cn=Mihail Dorongovskij, o=CTC advanced GmbH, ou=DOR-281116, cn=Marco Bertolino, o=CTC advanced GmbH, ou=BTL-161128, email=Mihail.Dorongovskij@ctcadvance email=Marco.Bertolino@ctcadvanced.com, c=DE d.com, c=DE 2018.03.08 08:03:04 +01'00' 2018.03.08 08:23:14 +01'00' Mihail Dorongovskij Marco Bertolino Lab Manager Lab Manager Radio Communications & EMC Radio Communications & EMC

Test report no.: 1-5161/17-02-02 1 Table of contents 1 Table of contents ............................................................................................................................................2 2 General information .......................................................................................................................................3 2.1 Notes and disclaimer ..........................................................................................................................3 2.2 Application details ...............................................................................................................................3 2.3 Test laboratories sub-contracted ......................................................................................................3 3 Test standard/s and references ....................................................................................................................4 4 Test environment............................................................................................................................................5 5 Test item ..........................................................................................................................................................5 5.1 General description .............................................................................................................................5 5.2 Additional information ........................................................................................................................5 6 Description of the test setup .........................................................................................................................6 6.1 Shielded semi anechoic chamber ......................................................................................................7 6.2 Shielded fully anechoic chamber ......................................................................................................8 6.3 Test setup for normalized measurement configurations ................................................................9 7 Sequence of testing .....................................................................................................................................10 7.1 Sequence of testing radiated spurious 9 kHz to 30 MHz...............................................................10 7.2 Sequence of testing radiated spurious 30 MHz to 1 GHz ..............................................................11 7.3 Sequence of testing radiated spurious 1 GHz to 5 GHz ................................................................12 8 Summary of measurement results .............................................................................................................13 8.1 Additional comments ........................................................................................................................13 9 Measurement results....................................................................................................................................14 9.1 Timing of the transmitter and silent periods between transmissions .........................................14 9.2 Emission bandwidth..........................................................................................................................22 9.3 Field strength of the fundamental ...................................................................................................24 9.4 Field strength of the harmonics and spurious ...............................................................................25 10 Observations .............................................................................................................................................30 Annex A Glossary ..........................................................................................................................................31 Annex B Document history ..........................................................................................................................32 Annex C Accreditation Certificate ...............................................................................................................32 Page 2 of 32

Test report no.: 1-5161/17-02-02 2 General information 2.1 Notes and disclaimer The test results of this test report relate exclusively to the test item specified in this test report. CTC advanced GmbH does not assume responsibility for any conclusions and generalizations drawn from the test results with regard to other specimens or samples of the type of the equipment represented by the test item. The test report may only be reproduced or published in full. Reproduction or publication of extracts from the report requires the prior written approval of CTC advanced GmbH. The testing service provided by CTC advanced GmbH has been rendered under the current "General Terms and Conditions for CTC advanced GmbH". CTC advanced GmbH will not be liable for any loss or damage resulting from false, inaccurate, inappropriate or incomplete product information provided by the customer. Under no circumstances does the CTC advanced GmbH test report include any endorsement or warranty regarding the functionality, quality or performance of any other product or service provided. Under no circumstances does the CTC advanced GmbH test report include or imply any product or service warranties from CTC advanced GmbH, including, without limitation, any implied warranties of merchantability, fitness for purpose, or non-infringement, all of which are expressly disclaimed by CTC advanced GmbH. All rights and remedies regarding vendor’s products and services for which CTC advanced GmbH has prepared this test report shall be provided by the party offering such products or services and not by CTC advanced GmbH. In no case this test report can be considered as a Letter of Approval. This test report is electronically signed and valid without handwritten signature. For verification of the electronic signatures, the public keys can be requested at the testing laboratory. 2.2 Application details Date of receipt of order: 2018-02-20 Date of receipt of test item: 2018-03-02 Start of test: 2018-03-02 End of test: 2018-03-06 Person(s) present during the test: -/- 2.3 Test laboratories sub-contracted None Page 3 of 32

Test report no.: 1-5161/17-02-02 3 Test standard/s and references Test standard Date Description Title 47 of the Code of Federal Regulations; Chapter I; Part 15 - 47 CFR Part 15 -/- Radio frequency devices Spectrum Management and Telecommunications Radio Standards RSS - 210 Issue 9 August 2016 Specification - Licence-Exempt Radio Apparatus: Category I Equipment Guidance Version Description American national standard for methods of measurement of radio- ANSI C63.4-2014 -/- noise emissions from low-voltage electrical and electronic equipment in the range of 9 kHz to 40 GHz American national standard of procedures for compliance testing ANSI C63.10-2013 -/- of unlicensed wireless devices Page 4 of 32

Test report no.: 1-5161/17-02-02 4 Test environment Tnom +22 °C during room temperature tests Temperature : Tmax No tests under extreme temperature conditions required. Tmin No tests under extreme temperature conditions required. Relative humidity content : 35 % Barometric pressure : 1002 hpa Vnom 3.0 V DC by lithium battery Power supply : Vmax No tests under extreme voltage conditions required. Vmin No tests under extreme voltage conditions required. 5 Test item 5.1 General description Kind of test item : Tire Pressure Monitoring System Transmitter Type identification : PMV-E101 HMN : -/- PMN : PMV-E101 HVIN : PMV-E101 FVIN : -/- S/N serial number : Radiated units: 000187A & 000187B HW hardware status : -/- SW software status : RF test software Frequency band : 433.920 MHz Type of radio transmission : modulated carrier Use of frequency spectrum : Type of modulation : F2D Number of channels : 1 Antenna : Integrated antenna Power supply : 3.7 V DC by lithium battery 5.2 Additional information The content of the following annexes is defined in the QA. It may be that not all of the listed annexes are necessary for this report, thus some values in between may be missing. Test setup- and EUT-photos are included in test report: 1-5161/17-02-02_AnnexA 1-5161/17-02-02_AnnexB 1-5161/17-02-02_AnnexD Page 5 of 32

Test report no.: 1-5161/17-02-02 6 Description of the test setup Typically, the calibrations of the test apparatus are commissioned to and performed by an accredited calibration laboratory. The calibration intervals are determined in accordance with the DIN EN ISO/IEC 17025. In addition to the external calibrations, the laboratory executes comparison measurements with other calibrated test systems or effective verifications. Weekly chamber inspections and range calibrations are performed. Where possible, RF generating and signaling equipment as well as measuring receivers and analyzers are connected to an external high-precision 10 MHz reference (GPS-based or rubidium frequency standard). In order to simplify the identification of the equipment used at some special tests, some items of test equipment and ancillaries can be provided with an identifier or number in the equipment list below (Lab/Item). Agenda: Kind of Calibration k calibration / calibrated EK limited calibration ne not required (k, ev, izw, zw not required) zw cyclical maintenance (external cyclical maintenance) ev periodic self verification izw internal cyclical maintenance Ve long-term stability recognized g blocked for accredited testing vlkI! Attention: extended calibration interval NK! Attention: not calibrated *) next calibration ordered / currently in progress Page 6 of 32

Test report no.: 1-5161/17-02-02 6.1 Shielded semi anechoic chamber The radiated measurements are performed in vertical and horizontal plane in the frequency range from 9 kHz to 1 GHz in semi-anechoic chambers. The EUT is positioned on a non-conductive support with a height of 0.80 m above a conductive ground plane that covers the whole chamber. The receiving antennas are confirmed with specifications ANSI C63. These antennas can be moved over the height range between 1.0 m and 4.0 m in order to search for maximum field strength emitted from EUT. The measurement distances between EUT and receiving antennas are indicated in the test setups for the various frequency ranges. For each measurement, the EUT is rotated in all three axes until the maximum field strength is received. The wanted and unwanted emissions are received by spectrum analyzers where the detector modes and resolution bandwidths over various frequency ranges are set according to requirement ANSI C63. Measurement distance: tri-log antenna 10 meter FS = UR + CL + AF (FS-field strength; UR-voltage at the receiver; CL-loss of the cable; AF-antenna factor) Example calculation: FS [dBµV/m] = 12.35 [dBµV/m] + 1.90 [dB] + 16.80 [dB/m] = 31.05 [dBµV/m] (35.69 µV/m) Equipment table: Lab / Kind of Last Next No. Equipment Type Manufacturer Serial No. INV. No. Item Calibration Calibration Calibration 1 A Switch-Unit 3488A HP 2719A14505 300000368 ev -/- -/- 2 A Meßkabine 1 HF-Absorberhalle MWB AG 300023 300000551 ne -/- -/- 3 A EMI Test Receiver ESCI 3 R&S 100083 300003312 k 15.12.2017 14.12.2018 4 A Antenna Tower Model 2175 ETS-Lindgren 64762 300003745 izw -/- -/- Positioning 5 A Model 2090 ETS-Lindgren 64672 300003746 izw -/- -/- Controller Turntable Interface- 6 A Model 105637 ETS-Lindgren 44583 300003747 izw -/- -/- Box TRILOG Broadband 7 A Test-Antenna 30 VULB9163 Schwarzbeck 295 300003787 k 25.04.2016 25.04.2018 MHz - 3 GHz Page 7 of 32

Test report no.: 1-5161/17-02-02 6.2 Shielded fully anechoic chamber Measurement distance: horn antenna 3 meter; loop antenna 3 meter FS = UR + CA + AF (FS-field strength; UR-voltage at the receiver; CA-loss of the signal path; AF-antenna factor) Example calculation: FS [dBµV/m] = 40.0 [dBµV/m] + (-35.8) [dB] + 32.9 [dB/m] = 37.1 [dBµV/m] (71.61 µV/m) Equipment table: Lab / Kind of Last Next No. Equipment Type Manufacturer Serial No. INV. No. Item Calibration Calibration Calibration Active Loop Antenna 1 B 6502 EMCO 2210 300001015 k 07.07.2017 06.07.2019 9 kHz to 30 MHz 2 A, B Anechoic chamber FAC 3/5m MWB / TDK 87400/02 300000996 ev -/- -/- Double-Ridged 3 A, B Waveguide Horn 3115 EMCO 9107-3697 300001605 vlKI! 14.02.2017 13.02.2019 Antenna 1-18.0GHz 4 A, B Switch / Control Unit 3488A HP * 300000199 ne -/- -/- WHKX2.9/18G- 5 B Highpass Filter Wainwright 1 300003492 ev -/- -/- 12SS EMI Test Receiver 6 A, B ESU26 R&S 100037 300003555 k 20.12.2017 19.12.2018 20Hz- 26,5GHz 7 B Highpass Filter WHK1.1/15G-10SS Wainwright 3 300003255 ev -/- -/- Broadband Amplifier 8 A, B CBLU5184540 CERNEX 22049 300004481 ev -/- -/- 0.5-18 GHz 4U RF Switch 9 A, B L4491A Agilent Technologies MY50000037 300004509 ne -/- -/- Platform NEXIO EMV- BAT EMC 10 A, B EMCO -/- 300004682 ne -/- -/- Software V3.16.0.49 11 A, B PC ExOne F+W -/- 300004703 ne -/- -/- Page 8 of 32

Test report no.: 1-5161/17-02-02 6.3 Test setup for normalized measurement configurations Equipment table: Lab / Kind of Last Next No. Equipment Type Manufacturer Serial No. INV. No. Item Calibration Calibration Calibration Signal Analyzer 40 1 A FSV40 R&S 101042 300004517 k 16.01.2018 15.01.2019 GHz ST18/SMAm/SMAm/ Batch no. 2 A RF-Cable Huber & Suhner 400001184 ev -/- -/- 72 699714 DC-Blocker 0.1-40 3 A 8141A Inmet -/- 400001185 ev -/- -/- GHz Page 9 of 32

Test report no.: 1-5161/17-02-02 7 Sequence of testing 7.1 Sequence of testing radiated spurious 9 kHz to 30 MHz Setup  The equipment is set up to simulate normal operation mode as described in the user manual or defined by the manufacturer.  If the EUT is a tabletop system, a 2-axis positioner with 1.5 m height is used.  If the EUT is a floor standing device, it is placed directly on the turn table.  Auxiliary equipment and cables are positioned to simulate normal operation conditions as described in ANSI C 63.4.  The AC power port of the EUT (if available) is connected to a power outlet below the turntable.  Measurement distance is 3 m (see ANSI C 63.4) – see test details.  EUT is set into operation. Premeasurement  The turntable rotates from 0° to 315° using 45° steps.  The antenna height is 1.5 m.  At each turntable position the analyzer sweeps with positive-peak detector to find the maximum of all emissions. Final measurement  Identified emissions during the premeasurement are maximized by the software by rotating the turntable from 0° to 360°. In case of the 2-axis positioner is used the elevation axis is also rotated from 0° to 360°.  The final measurement is done in the position (turntable and elevation) causing the highest emissions with quasi-peak (as described in ANSI C 63.4).  Final levels, frequency, measuring time, bandwidth, turntable position, correction factor, margin to the limit and limit will be recorded. A plot with the graph of the premeasurement and the limit is stored. Page 10 of 32

Test report no.: 1-5161/17-02-02 7.2 Sequence of testing radiated spurious 30 MHz to 1 GHz Setup  The equipment is set up to simulate normal operation mode as described in the user manual or defined by the manufacturer.  If the EUT is a tabletop system, a table with 0.8 m height is used, which is placed on the ground plane.  If the EUT is a floor standing device, it is placed on the ground plane with insulation between both.  Auxiliary equipment and cables are positioned to simulate normal operation conditions as described in ANSI C 63.4.  The AC power port of the EUT (if available) is connected to a power outlet below the turntable.  Measurement distance is 10 m or 3 m (see ANSI C 63.4) – see test details.  EUT is set into operation. Premeasurement  The turntable rotates from 0° to 315° using 45° steps.  The antenna is polarized vertical and horizontal.  The antenna height changes from 1 m to 3 m.  At each turntable position, antenna polarization and height the analyzer sweeps three times in peak to find the maximum of all emissions. Final measurement  The final measurement is performed for at least six highest peaks according to the requirements of the ANSI C63.4.  Based on antenna and turntable positions at which the peak values are measured the software maximize the peaks by changing turntable position ± 45° and antenna height between 1 and 4 m.  The final measurement is done with quasi-peak detector (as described in ANSI C 63.4).  Final levels, frequency, measuring time, bandwidth, antenna height, antenna polarization, turntable angle, correction factor, margin to the limit and limit are recorded. A plot with the graph of the premeasurement with marked maximum final results and the limit is stored. Page 11 of 32

Test report no.: 1-5161/17-02-02 7.3 Sequence of testing radiated spurious 1 GHz to 5 GHz Setup  The equipment is set up to simulate normal operation mode as described in the user manual or defined by the manufacturer.  If the EUT is a tabletop system, a 2-axis positioner with 1.5 m height is used.  If the EUT is a floor standing device, it is placed directly on the turn table.  Auxiliary equipment and cables are positioned to simulate normal operation conditions as described in ANSI C 63.4.  The AC power port of the EUT (if available) is connected to a power outlet below the turntable.  Measurement distance is 3 m (see ANSI C 63.4) – see test details.  EUT is set into operation. Premeasurement  The turntable rotates from 0° to 315° using 45° steps.  The antenna is polarized vertical and horizontal.  The antenna height is 1.5 m.  At each turntable position and antenna polarization the analyzer sweeps with positive peak detector to find the maximum of all emissions. Final measurement  The final measurement is performed for at least six highest peaks according to the requirements of the ANSI C63.4.  Based on antenna and turntable positions at which the peak values are measured the software maximizes the peaks by rotating the turntable from 0° to 360°. This measurement is repeated for different EUT-table positions (0° to 150° in 30°-steps) and for both antenna polarizations.  The final measurement is done in the position (turntable, EUT-table and antenna polarization) causing the highest emissions with Peak and RMS detector (as described in ANSI C 63.4).  Final levels, frequency, measuring time, bandwidth, turntable position, EUT-table position, antenna polarization, correction factor, margin to the limit and limit are recorded. A plot with the graph of the premeasurement with marked maximum final results and the limit is stored. Page 12 of 32

Test report no.: 1-5161/17-02-02 8 Summary of measurement results ☒ No deviations from the technical specifications were ascertained ☐ There were deviations from the technical specifications ascertained This test report is only a partial test report. ☐ The content and verdict of the performed test cases are listed below. TC Identifier Description Verdict Date Remark CFR Part 15 RF-Testing See table! 2018-03-08 -/- RSS 210, Issue 9 Power Test specification Temperature Test case source C NC NA NP Remark clause conditions voltages § 15.35 (c) Timing of the transmitter 15.231(a & e) (Duty cycle correction factor) Nominal Nominal ☒ ☐ ☐ ☐ -/- RSS-GEN § 15.231 (a & e) Silent period between RSS-210 Issue 9 transmissions Nominal Nominal ☒ ☐ ☐ ☐ -/- § 15.231 (c) RSS-210 Issue 9 Emission bandwidth Nominal Nominal ☒ ☐ ☐ ☐ -/- § 15.231 (a & e) Fieldstrength of RSS-210 Issue 9 Fundamental Nominal Nominal ☒ ☐ ☐ ☐ -/- § 15.209 Fieldstrength of harmonics RSS-210 Issue 9 and spurious Nominal Nominal ☒ ☐ ☐ ☐ -/- § 15.209 Receiver spurious emissions RSS-GEN (radiated) Nominal Nominal ☐ ☐ ☒ ☐ 1* Note: C = Compliant; NC = Not compliant; NA = Not applicable; NP = Not performed 1* No receiver mode integrated. 8.1 Additional comments Reference documents: TPMS_Technical_Document(PMV-E101)_EU_03_180226 Special test descriptions: None Configuration descriptions: None Page 13 of 32

Test report no.: 1-5161/17-02-02 9 Measurement results 9.1 Timing of the transmitter and silent periods between transmissions Measurement: Measurement parameter Detector: Peak Sweep time: See plots Resolution bandwidth: 1 MHz Video bandwidth: 3 MHz Span: Zero Trace mode: Single sweep Test setup: See chapter 6.3 A Limits: FCC IC (c) Unless otherwise specified, e.g. Section 15.255(b), when the radiated emission limits are expressed in terms of the average value of the emission, and pulsed operation is employed, the measurement field strength shall be determined by averaging over one complete pulse train, including blanking intervals, as long as the pulse train does not exceed 0.1 seconds. As an alternative (provided the transmitter operates for longer than 0.1 seconds) or in cases where the pulse train exceeds 0.1 seconds, the measured field strength shall be determined from the average absolute voltage during a 0.1 second interval during which the field strength is at its maximum value. The exact method of calculating the average field strength shall be submitted with any application for certification or shall be retained in the measurement data file for equipment subject to notification or verification. §15.231 (e) In addition, devices operated under the provisions of this paragraph shall be provided with a means for automatically limiting operation so that the duration of each transmission shall not be greater than one second and the silent period between transmissions shall be at least 30 times the duration of the transmission but in no case less than 10 seconds. §15.231 (a) The provisions of this section are restricted to periodic operation within the band 40.66-40.70 MHz and above 70 MHz. Except as shown in paragraph (e) of this section, the intentional radiator is restricted to the transmission of a control signal such as those used with alarm systems, door openers, remote switches, etc. Continuous transmissions, voice, video and the radio control of toys are not permitted. Data is permitted to be sent with a control signal. The following conditions shall be met to comply with the provisions for this periodic operation: (1) A manually operated transmitter shall employ a switch that will automatically deactivate the transmitter within not more than 5 seconds of being released. (2) A transmitter activated automatically shall cease transmission within 5 seconds after activation. (3) Periodic transmissions at regular predetermined intervals are not permitted. However, polling or supervision transmissions, including data, to determine system integrity of transmitters used in security or safety applications are allowed if the total duration of transmissions does not exceed more than two seconds per hour for each transmitter. There is no limit on the number of individual transmissions, provided the total transmission time does not exceed two seconds per hour. (4) Intentional radiators which are employed for radio control purposes during emergencies involving fire, security, and safety of life, when activated to signal an alarm, may operate during the pendency of the alarm condition. (5) Transmission of set-up information for security systems may exceed the transmission duration limits in paragraphs (a)(1) and (a)(2) of this section, provided such transmissions are under the control of a professional installer and do not exceed ten seconds after a manually operated switch is released or a transmitter is activated automatically. Such set-up information may include data. Page 14 of 32

Test report no.: 1-5161/17-02-02 Result: Plot 1: Transmit burst Date: 5.MAR.2018 08:32:57 Transmit time (Tx on) = 9.6 ms @ 100 ms The peak-to-average correction factor is calculated with 20Log [Tx on/(Tx on + Tx off)]. Hereby the peak-to-average correction factor is 20.35 dB Plot 2: TX on time Date: 5.MAR.2018 08:35:16 Page 15 of 32

Test report no.: 1-5161/17-02-02 Plot 3: TX on time (4 bursts / 1 pulse train) Date: 5.MAR.2018 08:36:47 Page 16 of 32

Test report no.: 1-5161/17-02-02 Timing according to the technical document TPMS_Technical_Document(PMV-E101)_EU_03_180226: Rotating mode 1: §15.231 (e) 1 burst within 122.3 ms = 9.6 % (9.6 ms) correction factor: 20 log (0.096) = 20.35 dB 2 burst within 15 sec (every 122.3 ms) same correction factor Minimum silent period: 15 sec – (1 * 122.3 ms + 9.6 ms) = 15 sec – 131.9 ms = 14.9 s Limit: 1. > 30 times of the transmission = 30 * (1*122.3 ms + 9.6 ms) = 3.96 s (only relevant if greater than 10 sec) 2. > 10 sec Page 17 of 32

Test report no.: 1-5161/17-02-02 Timing according to the technical document TPMS_Technical_Document(PMV-E101)_EU_03_180226: Rotating mode 2: §15.231 (e) 1 burst within 122.3 ms = 9.6 % (9.6 ms) correction factor: 20 log (0.096) = 20.35 dB 2 burst within 30 sec (every 122.3 ms) same correction factor Minimum silent period: 30 sec – (1 * 122.3 ms + 9.6 ms) = 30 sec – 131.9 ms = 29.9 s Limit: 1. > 30 times of the transmission = 30 * (1*122.3 ms + 9.6 ms) = 3.96 s (only relevant if greater than 10 sec) 2. > 10 sec Page 18 of 32

Test report no.: 1-5161/17-02-02 Timing according to the technical document TPMS_Technical_Document(PMV-E101)_EU_03_180226: Stationary mode: §15.231 (e) 1 burst within 100 ms = 9.6 % (9.6 ms) correction factor: 20 log (0.096) = 20.35 dB 1 burst within 10 h same correction factor Minimum silent period: 10 h – (1 * 9.6 ms) = 10 h – 9.6 ms = 10 h Limit: 1. > 30 times of the transmission = 30 * (9.6 ms) = 288 ms (only relevant if greater than 10 sec) 2. > 10 sec Page 19 of 32

Test report no.: 1-5161/17-02-02 Timing according to the technical document TPMS_Technical_Document(PMV-E101)_EU_03_180226: Pressure alert 1: §15.231 (a)(2) The device will enter automatically the pressure alert mode 1 (while stationary) if a sudden change of pressure or temperature is detected. As shown in the technical description the alert condition is renewed every second (only if the alarm is continuing) therefore after 1 second an additional automatic transmission is activated. Limit: A transmitter activated automatically shall cease transmission within 5 seconds after activation. Transmission length = 1 * 9.6 ms within 1 s < 5 s Page 20 of 32

Test report no.: 1-5161/17-02-02 Timing according to the technical document TPMS_Technical_Document(PMV-E101)_EU_03_180226: Pressure alert 2: §15.231 (a)(2) The device will enter automatically the pressure alert mode 2 (while vehicle is moving) if a sudden change of pressure or temperature is detected. As shown in the technical description the alert condition is renewed after 5 seconds (only if the alarm is continuing) and then again after 15 seconds. Limit: A transmitter activated automatically shall cease transmission within 5 seconds after activation. Transmission length = (19 * 122.3 ms + 9.6 ms) = 2333.3 ms < 5s Page 21 of 32

Test report no.: 1-5161/17-02-02 9.2 Emission bandwidth Measurement: Measurement of the 99 % bandwidth of the modulated signal Measurement parameter Detector: Peak Sweep time: Auto 1 % of the span (10 kHz) FCC Resolution bandwidth: 1 % - 5 % of the OBW (3 kHz) RSS Video bandwidth: 3 x RBW Span: 1 MHz Trace mode: Max. hold Test setup: See chapter 6.3 A Limits: FCC IC The OBW shall not be wider than 0.25% of the centre frequency, here maximum 787.5 kHz. Page 22 of 32

Test report no.: 1-5161/17-02-02 Result: Plot 1: Emissions bandwidth, 20 dBc measurement Date: 5.MAR.2018 09:07:17 Plot 2: Emissions bandwidth, 99 % measurement Date: 5.MAR.2018 09:14:17 20 dBc bandwidth: 122.8 kHz 99 % emission bandwidth: 107.7 kHz Page 23 of 32

Test report no.: 1-5161/17-02-02 9.3 Field strength of the fundamental Measurement: Measurement parameter Detector: Peak / pulse averaging / quasi peak Sweep time: Auto Resolution bandwidth: 120 kHz Video bandwidth: 3 x RBW Trace mode: Max. hold Test setup: See chapter 6.2 A Limits: FCC IC Field strength of the fundamental. In addition to the provisions of Section 15.205, the field strength of emissions from intentional radiators operated under this Section shall not exceed the following: Field strength of Fundamental Fundamental Frequency (MHz) Measurement distance (m) (µV/m) 40.66 – 40.70 1,000 3 70-130 500 3 130-174 500 to 1,500 3 174-260 1,500 3 260-470 1,500 to 5,000 3 Above 470 5,000 3 433.92 4398.67 [72.87 dBµV/m] 3 40.66 – 40.70 2,250 3 70-130 1,250 3 130-174 1,250 to 3,750 3 174-260 3,750 3 260-470 3,750 to 12,500 3 Above 470 12,500 3 433.92 10996.66 [80.83 dBµV/m] 3 Result: TEST CONDITIONS Field strength (dBµV/m at 3 m distance) Frequency MHz MHz Mode Peak Average Tnom Vnom 77.7 57.4 Measurement uncertainty ±3dB *Value recalculated from Peak-to-Average correction factor calculated in 9.1 Page 24 of 32

Test report no.: 1-5161/17-02-02 9.4 Field strength of the harmonics and spurious Measurement: Measurement parameter Detector: Peak / average / quasi peak Sweep time: Auto Resolution bandwidth: 200 Hz / 9 kHz / 120 kHz Video bandwidth: 3 x RBW Span: See plots Trace mode: Max. hold See chapter 6.1 A Test setup: See chapter 6.2 B Limits: FCC IC Field strength of the fundamental. In addition to the provisions of Section 15.205, the field strength of emissions from intentional radiators operated under this Section shall not exceed the following: Field strength of spurious Fundamental Frequency (MHz) Measurement distance (m) (µV/m) 40.66 – 40.70 100 /225 3 70-130 50 / 125 3 50 to 150 130-174 3 125 to 375 174-260 150 / 375 3 150 to 500 260-470 3 375 to 1,250 Above 470 500 / 1,250 3 The maximum permitted unwanted emission level is 20 dB below the maximum permitted fundamental level. Spurious emissions shall be attenuated to the average (or, alternatively, CISPR quasi-peak) limits shown in this table or to the general limits shown in Section 15.209, whichever limit permits a higher field strength. FCC IC Frequency (MHz) Field strength (µV/m) Measurement distance (m) 0.009 – 0.490 2400/F(kHz) 300 0.490 – 1.705 24000/F(kHz) 30 1.705 – 30 30 30 30 – 88 100 3 88 – 216 150 3 216 – 960 200 3 above 960 500 3 Page 25 of 32

Test report no.: 1-5161/17-02-02 Results: Limit Amplitude of emission f Detector max. allowed Results [MHz] [dBµV/m] [dBµV/m] For spurious emissions below 1 GHz, please look at the table below the 1 GHz plot. Peak 74.0 41.2 1301.76 compliant DC AVG 54.0 20.4 Peak 74.0 55.1 1735.68 compliant DC AVG 54.0 34.8 Peak 74.0 56.9 2169.60 compliant DC AVG 54.0 36.6 Peak 74.0 52.2 2603.52 compliant DC AVG 54.0 31.9 Peak 74.0 64.1 3037.44 compliant DC AVG 54.0 43.8 Peak 74.0 56.6 3471.36 compliant DC AVG 54.0 35.3 Peak 74.0 50.5 3905.28 compliant DC AVG 54.0 30.2 Peak 74.0 55.9 4339.20 compliant DC AVG 54.0 35.6 Peak 74.0 54.3 4773.12 compliant DC AVG 54.0 34.0 Page 26 of 32

Test report no.: 1-5161/17-02-02 Plots: Plot 1: 9 kHz to 30 MHz 130 dBµV/m 120 110 100 90 80 70 60 50 40 30 20 10 0 9kHz 100k 1M 10M 30MHz Frequency Page 27 of 32

Test report no.: 1-5161/17-02-02 Plot 2: 30 MHz to 1000 MHz, vertical & horizontal polarisation 80 70 60 50 Level in dBµV/m FCC_10m_B 40 30 20 10 0 30M 50 60 80 100M 200 300 400 500 800 1G Frequency in Hz Page 28 of 32

Test report no.: 1-5161/17-02-02 Final_Result: Meas. Frequency QuasiPeak MaxPeak Limit Margin Bandwidth Height Time Pol (MHz) (dBµV/m) (dBµV/m) (dBµV/m) (dB) (kHz) (cm) (ms) 70.980 14.02 --- 30.0 15.98 1000 120 100.0 V 73.765 12.89 --- 30.0 17.11 1000 120 101.0 V 87.000 12.84 --- 30.0 17.16 1000 120 101.0 V 433.880 --- 68.49 --- --- 1000 120 101.0 H 433.880 68.30 --- 36.0 -32.30 1000 120 101.0 H 658.739 25.23 --- 36.0 10.77 1000 120 170.0 H 867.751 35.15 --- 36.0 0.85 1000 120 98.0 H 867.751 --- 39.14 --- --- 1000 120 98.0 H 867.751 Re-calculated with DC factor = 18.79 dBµV/m @ 10m (continuation of the "Final_Result" table from column 14 ...) Frequency Azimuth Corr. (MHz) (deg) (dB) 70.980 320.0 9.6 73.765 320.0 9.1 87.000 332.0 9.0 433.880 12.0 17.4 433.880 12.0 17.4 658.739 64.0 21.2 867.751 236.0 23.8 867.751 236.0 23.8 Page 29 of 32

Test report no.: 1-5161/17-02-02 Plot 3: 1000 MHz to 5000 MHz, vertical & horizontal polarisation 80 dBµV/m 75 70 65 60 55 50 45 40 35 30 25 20 1GHz 5GHz Frequency 10 Observations No observations except those reported with the single test cases have been made. Page 30 of 32

Test report no.: 1-5161/17-02-02 Annex A Glossary EUT Equipment under test DUT Device under test UUT Unit under test GUE GNSS User Equipment ETSI European Telecommunications Standards Institute EN European Standard FCC Federal Communications Commission FCC ID Company Identifier at FCC IC Industry Canada PMN Product marketing name HMN Host marketing name HVIN Hardware version identification number FVIN Firmware version identification number EMC Electromagnetic Compatibility HW Hardware SW Software Inv. No. Inventory number S/N or SN Serial number C Compliant NC Not compliant NA Not applicable NP Not performed PP Positive peak QP Quasi peak AVG Average OC Operating channel OCW Operating channel bandwidth OBW Occupied bandwidth OOB Out of band DFS Dynamic frequency selection CAC Channel availability check OP Occupancy period NOP Non occupancy period DC Duty cycle PER Packet error rate CW Clean wave MC Modulated carrier WLAN Wireless local area network RLAN Radio local area network DSSS Dynamic sequence spread spectrum OFDM Orthogonal frequency division multiplexing FHSS Frequency hopping spread spectrum GNSS Global Navigation Satellite System C/N0 Carrier to noise-density ratio, expressed in dB-Hz Page 31 of 32

Test report no.: 1-5161/17-02-02 Annex B Document history Version Applied changes Date of release -/- Initial release 2018-03-08 Annex C Accreditation Certificate first page last page Note: The current certificate annex is published on the website (link see below) of the Accreditation Body DAkkS or may be received by CTC advanced GmbH on request http://www.dakks.de/as/ast/d/D-PL-12076-01-03.pdf Page 32 of 32


Document Created: 2018-03-08 08:23:14
Document Modified: 2018-03-08 08:23:14
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