MDE_UBLOX_1807_FCCa-FINAL-2019-02-21

FCC ID: XPYTOBYL280

Test Report

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FCCID_4227283

FCC Measurement/Technical Report on TOBY-L280 LTE/3G/2G data and voice module acc. to FCC Part 22 Subpart H FCC ID: XPYTOBYL280 IC: 8595A-TOBYL280 Test Report Reference: MDE_UBLOX_1807_FCCa Test Laboratory: 7layers GmbH Borsigstrasse 11 40880 Ratingen Germany Note: The following test results relate only to the devices specified in this document. This report shall not be reproduced in parts without the written approval of the test laboratory. 7layers GmbH Geschäftsführer/ Borsigstraße 11 Managing Directors: Registergericht/registered: a Bureau Veritas 40880 Ratingen, Germany Frank Spiller Düsseldorf HRB 75554 Group Company T +49 (0) 2102 749 0 Bernhard Retka USt-Id.-Nr./VAT-No. DE203159652 F +49 (0) 2102 749 350 Alexandre Norré-Oudard Steuer-Nr./TAX-No. 147/5869/0385 www.7layers.com Commerzbank AG Account No. 303 016 000 Bank Code 300 400 00 IBAN DE81 3004 0000 0303 0160 00 Swift Code COBADEFF

Table of Contents 1.1 Applied Standards 3 1.2 FCC-IC Correlation Table 4 1.3 Measurement Summary / Signatures 5 2 Administrative Data 6 2.1 Testing Laboratory 6 2.2 Project Data 6 2.3 Applicant Data 6 2.4 Manufacturer Data 6 3 Test object Data 7 3.1 General EUT Description 7 3.2 EUT Main components 7 3.3 Ancillary Equipment 8 3.4 Auxiliary Equipment 8 3.5 EUT Setups 8 3.6 Operating Modes 9 3.7 Product labelling 9 4 Test Results 10 4.1 RF power output 10 4.2 Field strength of spurious radiation 14 5 Test Equipment 19 6 Antenna Factors, Cable Loss and Sample Calculations 21 6.1 LISN R&S ESH3-Z5 (150 kHz – 30 MHz) 21 6.2 Antenna R&S HFH2-Z2 (9 kHz – 30 MHz) 22 6.3 Antenna R&S HL562 (30 MHz – 1 GHz) 23 6.4 Antenna R&S HF907 (1 GHz – 18 GHz) 24 6.5 Antenna EMCO 3160-09 (18 GHz – 26.5 GHz) 25 6.6 Antenna EMCO 3160-10 (26.5 GHz – 40 GHz) 26 7 Measurement Uncertainties 27 8 Photo Report 27 TEST REPORT REFERENCE: MDE_UBLOX_1807_FCCa Page 2 of 27

Applied Standards and Test Summary 1.1 APPLIED STANDARDS Applicable FCC Rules Prepared in accordance with the requirements of FCC Rules and Regulations as listed in 47 CFR Ch.1 Parts 2 and 22, (10/1/16 Edition). The following subparts are applicable to the results in this test report. Part 22, Subpart H – Cellular Radiotelephone Service § 22.913 – Effective radiated power limits § 22.917 – Emission limitations for cellular equipment The tests were selected and performed with reference to:  FCC Public Notice 971168 applying “Measurement guidance for certification of licensed digital transmitters” 971168 D01 v03,2017-10-27  ANSI C63.26: 2015 Summary Test Results: The EUT complied with all performed tests as listed in chapter 1.3 Measurement Summary / Signatures. TEST REPORT REFERENCE: MDE_UBLOX_1807_FCCa Page 3 of 27

1.2 FCC-IC CORRELATION TABLE Correlation of measurement requirements for Cellular Radiotelephone Service from FCC and ISED Canada Measurement FCC reference ISED reference Effective radiated power, §2.1046 RSS-GEN Issue 4, 6.12 mean output power §22.913 RSS-132 Issue 3, 5.4 SRSP-503, Issue 7, 5.1.1 RSS-131 Issue 3: 5.2.3 Field strength of spurious §2.1053 RSS-GEN Issue 4, 6.13 radiation §22.917 RSS-132 Issue 3: 5.5 TEST REPORT REFERENCE: MDE_UBLOX_1807_FCCa Page 4 of 27

—/ g// 7layers 7 A Bureau Veritas Group Company 1.3 MEASUREMENT SUMMARY / SIGNATURES 47 CFR CHAPTER I FCC PART 22 Subpart H §2.1046, §22.913 RF Power Output The measurement was performed according to ANSI C63.26, KDB Final Result 971168 DO1 v03,2017—10—27 OP—Mode Setup FCC IC Frequency Band, Modulation, Channel, Frequency LTE eFDDS5, QPSK, 20525, 836.5 MHz S01_AAO1 Passed Passed LTE eFDDS, 16QAM, 20525, 836.5 MHz So1_AA01 Passed Passed 47 CFR CHAPTER I FCC PART 22 Subpart H §2.1053, §22.917 Field strength of spurious radiation The measurement was performed according to ANSI C63.26 Final Result OP—Mode Setup FCC IC Frequency Band, Modulation, Channel, Frequency LTE eFDD5, QPSK, 20525, 836.5 MHz So1_ABOL Passed Passed Revision History Report version control Version Release date Change Description Version validity initial 2019—02—21 *z valid COMMENT: On applicants demand not all applicable tests were tested. D 4x (responsible for accreditation scope) | Vauoald (fesponsible for testing and report) Dipl.—Ing. Daniel Gall j ‘B.Sc. Jens Dérwald y layers N w 7 layers GmbH, Borsigstr. 11 40880 Ratingen, Germany Phone +49 (0)2102 749 ° TEST REPORT REFERENCE: MDE_UBLOX_1807_FCCa Page 5 of 27

2 ADMINISTRATIVE DATA 2.1 TESTING LABORATORY Company Name: 7layers GmbH Address: Borsigstr. 11 40880 Ratingen Germany FCC designation number: DE0015 This facility has been fully described in a report submitted to the ISED and accepted under the registration number: Site# 3699A-1. The test facility is also accredited by the following accreditation organisation: Laboratory accreditation no: DAkkS D-PL-12140-01-00 Responsible for accreditation scope: Dipl.-Ing. Daniel Gall Report Template Version: 2017-07-14 2.2 PROJECT DATA Responsible for testing and report: B.Sc. Jens Dörwald Employees who performed the tests: documented internally at 7Layers Date of Report: 2019-02-21 Testing Period: 2018-11-23 to 2018-11-27 2.3 APPLICANT DATA Company Name: u-blox AG Address: u-blox AG CH-8800 Thalwil Switzerland Contact Person: Mr. Giulio Comar 2.4 MANUFACTURER DATA Company Name: please see applicant data Address: Contact Person: TEST REPORT REFERENCE: MDE_UBLOX_1807_FCCa Page 6 of 27

3 TEST OBJECT DATA 3.1 GENERAL EUT DESCRIPTION Kind of Device GSM / UMTS and LTE module. product description Product name TOBY-L280 LTE/3G/2G data and voice module Type - Declared EUT data by the supplier General Product The EUT is a GSM / UMTS and LTE module. Description Voltage Type DC Voltage Level 3.8 V The main components of the EUT are listed and described in chapter 3.2 EUT Main components. 3.2 EUT MAIN COMPONENTS Sample Name Sample Code Description DE1015015 ab01 radiated & conducted sample Sample Parameter Value Serial Number 358503060599298 HW Version 217B00 SW Version v16.16 Comment - NOTE:The short description is used to simplify the identification of the EUT in this test report. TEST REPORT REFERENCE: MDE_UBLOX_1807_FCCa Page 7 of 27

3.3 ANCILLARY EQUIPMENT For the purposes of this test report, ancillary equipment is defined as equipment which is used in conjunction with the EUT to provide operational and control features to the EUT. It is necessary to configure the system in a typical fashion, as a customer would normally use it. But nevertheless Ancillary Equipment can influence the test results. Device Details Description (Manufacturer, Type Model, OUT Code) - - - 3.4 AUXILIARY EQUIPMENT For the purposes of this test report, auxiliary equipment is defined as equipment which is used temporarily to enable operational and control features especially used for the tests of the EUT which is not used during normal operation or equipment that is used during the tests in combination with the EUT but is not subject of this test report. It is necessary to configure the system in a typical fashion, as a customer would normally use it. But nevertheless Auxiliary Equipment can influence the test results. Device Details Description (Manufacturer, HW, SW, S/N) AUX1 UBLOX, EVB-WL3, -, - Evaluation board AUX2 TAOGLAS, -, -, - External Cellular Antenna 3.5 EUT SETUPS This chapter describes the combination of EUTs and equipment used for testing. The rationale for selecting the EUTs, ancillary and auxiliary equipment and interconnecting cables, is to test a representative configuration meeting the requirements of the referenced standards. Setup Combination of EUTs Description and Rationale S01_AA01 ab01 + AUX1 Setup for conducted tests S01_AB01 ab01 + AUX1 + AUX2 Setup for radiated tests TEST REPORT REFERENCE: MDE_UBLOX_1807_FCCa Page 8 of 27

3.6 OPERATING MODES This chapter describes the operating modes of the EUTs used for testing. 3.6.1 TEST CHANNELS Center Frequency Band Uplink Channel [MHz] LTE eFDD 5 20525 836.50 3.7 PRODUCT LABELLING 3.7.1 FCC ID LABEL Please refer to the documentation of the applicant. 3.7.2 LOCATION OF THE LABEL ON THE EUT Please refer to the documentation of the applicant. TEST REPORT REFERENCE: MDE_UBLOX_1807_FCCa Page 9 of 27

4 TEST RESULTS 4.1 RF POWER OUTPUT Standard FCC Part 22, §22.913 The test was performed according to: ANSI C63.26, KDB 935210 D05 v01r01: 3.5 4.1.1 TEST DESCRIPTION The EUT was connected to the test setup according to the following diagram: The attenuation of the measuring and stimulus path are known for each measured frequency and are considered. The Spectrum Analyzer settings can be directly found in the measurement diagrams. TEST REPORT REFERENCE: MDE_UBLOX_1807_FCCa Page 10 of 27

4.1.2 TEST REQUIREMENTS / LIMITS §2.1046 FCC Part 22, § 22.913 (a) Maximum ERP. The ERP of transmitters in the Cellular Radiotelephone Service must not exceed the limits in this section. (1) Except as described in paragraphs (a)(2), (3), and (4) of this section, the ERP of base stations and repeaters must not exceed (i) 500 watts per emission; or (ii) 400 watts/MHz (PSD) per sector (2) Except as described in paragraphs (a)(3) and (4) of this section, for systems operating in areas more than 72 kilometers (45 miles) from international borders that: (i) Are located in counties with population densities of 100 persons or fewer per square mile, based upon the most recently available population statistics from the Bureau of the Census; or (ii) Extend coverage into Unserved Area on a secondary basis (see §22.949), the ERP of base transmitters and repeaters must not exceed— (A) 1000 watts per emission; or (B) 800 watts/MHz (PSD) per sector. (3) Provided that they also comply with paragraphs (b) and (c) of this section, licensees are permitted to operate their base transmitters and repeaters with an ERP greater than 400 watts/MHz (PSD) per sector, up to a maximum ERP of 1000 watts/MHz (PSD) per sector unless they meet the conditions in paragraph (a)(4) of this section. (4) Provided that they also comply with paragraphs (b) and (c) of this section, licensees of systems operating in areas more than 72 kilometers (45 miles) from international borders that: (i) Are located in counties with population densities of 100 persons or fewer per square mile, based upon the most recently available population statistics from the Bureau of the Census; or (ii) Extend coverage into Unserved Area on a secondary basis (see §22.949), are permitted to operate base transmitters and repeaters with an ERP greater than 800 watts/MHz (PSD) per sector, up to a maximum of 2000 watts/MHz (PSD) per sector. (5) The ERP of mobile transmitters and auxiliary test transmitters must not exceed 7 watts. RSS 132 5.4 Transmitter Output Power and Equivalent Isotropically Radiated Power The transmitter output power shall be measured in terms of average power. The equivalent isotropically radiated power (e.i.r.p.) for mobile equipment shall not exceed 11.5 watts. Refer to SRSP-503 for base station e.i.r.p. limits. In addition, the peak-to-average power ratio (PAPR) of the transmitter shall not exceed 13 dB for more than 0.1% of the time using a signal corresponding to the highest PAPR during periods of continuous transmission. TEST REPORT REFERENCE: MDE_UBLOX_1807_FCCa Page 11 of 27

4.1.3 TEST PROTOCOL Peak Average RMS Res- Band- Radio Conducted Conducted Conducted CH source width Technology Blocks (MHz) Power Power Power (dBm) (dBm) (dBm) eFDD 5 QPSK mid 1 1.4 - - 21.47 eFDD 5 QPSK mid 3 1.4 - - 21.10 eFDD 5 QPSK mid 6 1.4 - - 20.04 eFDD 5 16QAM mid 1 1.4 - - 20.35 eFDD 5 16QAM mid 6 1.4 - - 19.06 eFDD 5 QPSK mid 1 3 - - 21.87 eFDD 5 QPSK mid 15 3 - - 20.54 eFDD 5 16QAM mid 1 3 - - 20.94 eFDD 5 16QAM mid 15 3 - - 19.52 eFDD 5 QPSK mid 1 5 - - 21.91 eFDD 5 QPSK mid 12 5 - - 20.62 eFDD 5 QPSK mid 25 5 - - 20.53 eFDD 5 16QAM mid 1 5 - - 20.86 eFDD 5 16QAM mid 25 5 - - 19.52 eFDD 5 QPSK mid 1 10 - - 22.07 eFDD 5 QPSK mid 50 10 - - 20.95 eFDD 5 16QAM mid 1 10 - - 21.03 eFDD 5 16QAM mid 50 10 - - 19.89 Remark: Please see next sub-clause for the measurement plot. TEST REPORT REFERENCE: MDE_UBLOX_1807_FCCa Page 12 of 27

4.1.4 MEASUREMENT PLOT (SHOWING THE HIGHEST VALUE, “WORST CASE”) Frequency Band = eFDD5 QPSK 10 MHz RB1, Channel = mid Marker 1 [T1] RBW 200 kHz RF Att 20 dB Ref Lvl 21.36 dBm VBW 1 MHz 35.7 dBm 836.60020040 MHz SWT 8.5 ms Unit dBm 35.7 25.7 dB Offset 1 [T1] 21.36 dBm A 30 836.60020040 MHz 1 CH PWR 22.07 dBm 20 CH BW 9.06000000 MHz SGL 10 1VIEW 1RM 0 -10 EXT -20 -30 -40 -50 C0 -60 C0 -64.3 Start 826.5 MHz 2 MHz/ Stop 846.5 MHz Date: 27.NOV.2018 10:03:19 4.1.5 TEST EQUIPMENT USED - Radio Lab TEST REPORT REFERENCE: MDE_UBLOX_1807_FCCa Page 13 of 27

4.2 FIELD STRENGTH OF SPURIOUS RADIATION Standard FCC Part 2.1051 The test was performed according to: ANSI C63.26 4.2.1 TEST DESCRIPTION This test case is intended to demonstrate compliance to the applicable radiated spurious emission measurements per § 2.1053 The EUT was connected to the test setup according to the following diagram: The test set-up was made in accordance to the general provisions of ANSI C63.4 in a typical installation configuration. The Equipment Under Test (EUT) was set up on a non-conductive table 1.0 x 2.0 m² in the semi-anechoic chamber. The influence of the EUT support table that is used between 30–1000 MHz was evaluated. The measurement procedure is implemented into the EMI test software EMC32 from R&S. Exploratory tests are performed at 3 orthogonal axes to determine the worst-case orientation of a body-worn or handheld EUT. The final test on all kind of EUTs is also performed at 3 axes. A pre-check is performed while the EUT is powered from a DC power source. 1. Measurement above 30 MHz and up to 1 GHz Step 1: Preliminary scan This is a preliminary test to identify the highest amplitudes relative to the limit. Settings for step 1: - Antenna distance: 3 m - Detector: Peak-Maxhold / Quasipeak (FFT-based) - Frequency range: 30 – 1000 MHz TEST REPORT REFERENCE: MDE_UBLOX_1807_FCCa Page 14 of 27

- Frequency steps: 30 kHz - IF–Bandwidth: 120 kHz - Measuring time / Frequency step: 100 ms - Turntable angle range: –180° to 90° - Turntable step size: 90° - Height variation range: 1 – 3 m - Height variation step size: 2 m - Polarisation: Horizontal + Vertical Intention of this step is, to determine the radiated EMI-profile of the EUT. Afterwards the relevant emissions for the final measurement are identified. Step 2: Adjustment measurement In this step the accuracy of the turntable azimuth and antenna height will be improved. This is necessary to find out the maximum value of every frequency. For each frequency, which was determined the turntable azimuth and antenna height will be adjusted. The turntable azimuth will slowly vary by ± 45° around this value. During this action, the value of emission is continuously measured. The turntable azimuth at the highest emission will be recorded and adjusted. In this position, the antenna height will also slowly vary by ± 100 cm around the antenna height determined. During this action, the value of emission is also continuously measured. The antenna height of the highest emission will also be recorded and adjusted. - Detector: Peak – Maxhold - Measured frequencies: in step 1 determined frequencies - IF – Bandwidth: 120 kHz - Measuring time: 100 ms - Turntable angle range: ± 45 ° around the determined value - Height variation range: ± 100 cm around the determined value - Antenna Polarisation: max. value determined in step 1 Step 3: Final measurement with QP detector With the settings determined in step 3, the final measurement will be performed: EMI receiver settings for step 4: - Detector: Quasi-Peak (< 1 GHz) - Measured frequencies: in step 1 determined frequencies - IF – Bandwidth: 120 kHz - Measuring time: 1 s After the measurement a plot will be generated which contains a diagram with the results of the preliminary scan and a chart with the frequencies and values of the results of the final measurement. 3. Measurement above 1 GHz The following modifications apply to the measurement procedure for the frequency range above 1 GHz: Step 1: The Equipment Under Test (EUT) was set up on a non-conductive support (tilt device) at 1.5 m height in the fully-anechoic chamber. All steps were performed with one height (1.5 m) of the receiving antenna only. The EUT is turned during the preliminary measurement across the elevation axis, with a step size of 90 °. The turn table step size (azimuth angle) for the preliminary measurement is 45 °. Step 2: Due to the fact, that in this frequency range the test is performed in a fully anechoic room, the height scan of the receiving antenna instep 2 is omitted. Instead of this, a maximum search with a step size ± 45° for the elevation axis is performed. TEST REPORT REFERENCE: MDE_UBLOX_1807_FCCa Page 15 of 27

The turn table azimuth will slowly vary by ± 22.5°. The elevation angle will slowly vary by ± 45° EMI receiver settings (for all steps): - Detector: Peak, Average - IF Bandwidth = 1 MHz Step 3: Spectrum analyser settings for step 3: - Detector: Peak / Average - Measured frequencies: in step 1 determined frequencies - IF – Bandwidth: 1 MHz - Measuring time: 1 s 4.2.2 TEST REQUIREMENTS / LIMITS FCC Part 2.1051; Measurement required: Spurious emissions at antenna terminal: The radio frequency voltage or powers generated within the equipment and appearing on a spurious frequency shall be checked at the equipment output terminals when properly loaded with a suitable artificial antenna. Curves or equivalent data shall show the magnitude of each harmonic and other spurious emission that can be detected when the equipment is operated under the conditions specified in §2.1049 as appropriate. The magnitude of spurious emissions which are attenuated more than 20 dB below the permissible value need not be specified. Part 22, Subpart H – Cellular Radiotelephone Service § 22 917 – Emission limitations for cellular equipment (a) Out of band emissions. The power of any emission outside of the authorized operating frequency ranges must be attenuated below the transmitting power (P) by a factor of at least 43 + 10 log(P) dB. RSS-132; 5.5 Transmitter Unwanted Emissions Mobile and base station equipment shall comply with the limits in (i) and (ii) below. 1. In the first 1.0 MHz band immediately outside and adjacent to each of the sub-bands specified in Section 5.1, the power of emissions per any 1% of the occupied bandwidth shall be attenuated (in dB) below the transmitter output power P ( dBW) by at least 43 + 10 log10p (watts). 2. After the first 1.0 MHz immediately outside and adjacent to each of the sub-bands, the power of emissions in any 100 kHz bandwidth shall be attenuated (in dB) below the transmitter output power P (dBW) by at least 43 + 10 log10 p (watts). If the measurement is performed using 1% of the occupied bandwidth, power integration over 100 kHz is required. TEST REPORT REFERENCE: MDE_UBLOX_1807_FCCa Page 16 of 27

4.2.3 TEST PROTOCOL LTE eFDD 5 , Test Frequency = mid Spurious Spurious Margin to Freq. Level RBW Limit Limit [MHz] [dBm] Detector [kHz] [dBm] [dB] - - - - -13.0 --- Remark: Please see next sub-clause for the measurement plot. COMMENT: No (further) spurious emissions in the range 20dB below the limit were found, therefore no measurement values are reported in the tables. TEST REPORT REFERENCE: MDE_UBLOX_1807_FCCa Page 17 of 27

4.2.4 MEASUREMENT PLOT (SHOWING THE HIGHEST VALUE, “WORST CASE”) Frequency Band = LTE eFDD5, Test Frequency = mid 0 -10 FCC_22.4 -20 -30 Level in dBm -40 -50 -60 -70 30M 50 60 80 100M 200 300 400 500 800 1G Frequency in Hz 30 MHz - 1 GHz 0 -10 FCC_22.4 -20 -30 -40 Level in dBm -50 -60 -70 -80 -90 1G 2G 3G 4G 5G 6 7 8 9 10G Frequency in Hz 1 GHz - 10 GHz 4.2.5 TEST EQUIPMENT USED - Radiated Emissions TEST REPORT REFERENCE: MDE_UBLOX_1807_FCCa Page 18 of 27

5 TEST EQUIPMENT 1 Radio Lab FCC22/24/27 cond. Test Lab Ref.No. Device Name Description Manufacturer Serial Number Last Calibration Calibration Due 1.1 FSIQ Spectrum Rohde & Schwarz 840061/005 2017-05 2019-05 Analyzer 1.2 WA1515 Broadband A856 Power Divider SMA 1.3 SMA Attenuator Coax Weinschel F9401 4T-10 Attenuator Associates 10dB SMA 2W 1.4 SMA Attenuator Coax Weinschel W3702 56-10 Attenuator Associates 10dB SMA 2W 1.5 SMA Attenuator Coax Weinschel W3711 56-10 Attenuator Associates 10dB SMA 2W 1.6 Coax Cable Coax Cable Huber&Suhner - Sucotest 2.0m 1.7 Coax Cable Coax Cable Rosenberger 544912 Micro Coax FA210A00100 SMA/SMA 1.0m 03030 2 Radiated Emissions Lab to perform radiated emission tests Ref.No. Device Name Description Manufacturer Serial Number Last Calibration Calibration Due 2.1 NRV-Z1 Sensor Head A Rohde & Schwarz 827753/005 2018-07 2019-07 2.2 MFS Rubidium Datum GmbH 002 2018-10 2020-10 Frequency Normal MFS 2.3 Opus10 TPR ThermoAirpres Lufft Mess- und 13936 2017-04 2019-04 (8253.00) sure Regeltechnik GmbH Datalogger 13 (Environ) 2.4 Anechoic 10.58 x 6.38 x Frankonia none 2016-05 2019-05 Chamber 6.00 m³ 2.5 HL 562 Ultralog new Rohde & Schwarz 830547/003 2018-07 2021-07 biconicals 2.6 5HC2700/12750 High Pass Trilithic 9942012 -1.5-KK Filter 2.7 ASP 1.2/1.8-10 Antenna Mast Maturo GmbH - kg 2.8 Fully Anechoic 8.80m x Albatross Projects P26971-647-001- 2018-06 2021-06 Room 4.60m x PRB 4.05m (l x w x h) 2.9 Fluke 177 Digital Fluke Europe B.V. 86670383 2018-04 2020-04 Multimeter 03 (Multimeter) 2.10 JS4-18002600- Broadband Miteq 849785 32-5P Amplifier 18 GHz - 26 GHz 2.11 FSW 43 Spectrum Rohde & Schwarz 103779 2016-12 2018-12 Analyzer TEST REPORT REFERENCE: MDE_UBLOX_1807_FCCa Page 19 of 27

Ref.No. Device Name Description Manufacturer Serial Number Last Calibration Calibration Due 2.12 3160-09 Standard Gain EMCO Elektronic 00083069 / Pyramidal GmbH Horn Antenna 26.5 GHz 2.13 WHKX 7.0/18G- High Pass Wainwright 09 8SS Filter 2.14 4HC1600/12750 High Pass Trilithic 9942011 -1.5-KK Filter 2.15 Chroma 6404 AC Power Chroma ATE INC. 64040001304 Source 2.16 JS4-00102600- Broadband Miteq 619368 42-5A Amplifier 30 MHz - 26 GHz 2.17 TT 1.5 WI Turn Table Maturo GmbH - 2.18 HL 562 Ultralog Log.-per. Rohde & Schwarz 100609 2016-04 2019-04 Antenna 2.19 3160-10 Standard Gain EMCO Elektronic 00086675 / Pyramidal GmbH Horn Antenna 40 GHz 2.20 5HC3500/18000 High Pass Trilithic 200035008 -1.2-KK Filter 2.21 HFH2-Z2 Loop Antenna Rohde & Schwarz 829324/006 2.22 Opus10 THI ThermoHygro Lufft Mess- und 12482 2017-03 2019-03 (8152.00) Datalogger 12 Regeltechnik GmbH (Environ) 2.23 ESR 7 EMI Receiver / Rohde & Schwarz 101424 2016-11 2018-11 Spectrum Analyzer 2.24 JS4-00101800- Broadband Miteq 896037 35-5P Amplifier 30 MHz - 18 GHz 2.25 AS 620 P Antenna mast HD GmbH 620/37 2.26 Tilt device Antrieb TD1.5- Maturo GmbH TD1.5- Maturo 10kg 10kg/024/37907 (Rohacell) 09 2.27 ESIB 26 Spectrum Rohde & Schwarz 830482/004 Analyzer 2.28 PAS 2.5 - 10 kg Antenna Mast Maturo GmbH - 2.29 AM 4.0 Antenna mast Maturo GmbH AM4.0/180/1192 0513 2.30 HF 907 Double-ridged Rohde & Schwarz 102444 2018-07 2021-07 horn The calibration interval is the time interval between “Last Calibration” and “Calibration Due” TEST REPORT REFERENCE: MDE_UBLOX_1807_FCCa Page 20 of 27

6 ANTENNA FACTORS, CABLE LOSS AND SAMPLE CALCULATIONS This chapter contains the antenna factors with their corresponding path loss of the used measurement path for all antennas as well as the insertion loss of the LISN. 6.1 LISN R&S ESH3-Z5 (150 KHZ – 30 MHZ) cable LISN loss insertion (incl. 10 loss dB ESH3- atten- Frequency Corr. Z5 uator) MHz dB dB dB 0.15 10.1 0.1 10.0 5 10.3 0.1 10.2 7 10.5 0.2 10.3 10 10.5 0.2 10.3 12 10.7 0.3 10.4 14 10.7 0.3 10.4 16 10.8 0.4 10.4 18 10.9 0.4 10.5 20 10.9 0.4 10.5 22 11.1 0.5 10.6 24 11.1 0.5 10.6 26 11.2 0.5 10.7 28 11.2 0.5 10.7 30 11.3 0.5 10.8 Sample calculation ULISN (dB µV) = U (dB µV) + Corr. (dB) U = Receiver reading LISN Insertion loss = Voltage Division Factor of LISN Corr. = sum of single correction factors of used LISN, cables, switch units (if used) Linear interpolation will be used for frequencies in between the values in the table. TEST REPORT REFERENCE: MDE_UBLOX_1807_FCCa Page 21 of 27

6.2 ANTENNA R&S HFH2-Z2 (9 KHZ – 30 MHZ) cable cable cable cable distance dLimit dused loss 1 loss 2 loss 3 loss 4 corr. (meas. (meas. AF (inside (outside (switch (to (-40 dB/ distance distance Frequency HFH-Z2) Corr. chamber) chamber) unit) receiver) decade) (limit) (used) MHz dB (1/m) dB dB dB dB dB dB m m 0.009 20.50 -79.6 0.1 0.1 0.1 0.1 -80 300 3 0.01 20.45 -79.6 0.1 0.1 0.1 0.1 -80 300 3 0.015 20.37 -79.6 0.1 0.1 0.1 0.1 -80 300 3 0.02 20.36 -79.6 0.1 0.1 0.1 0.1 -80 300 3 0.025 20.38 -79.6 0.1 0.1 0.1 0.1 -80 300 3 0.03 20.32 -79.6 0.1 0.1 0.1 0.1 -80 300 3 0.05 20.35 -79.6 0.1 0.1 0.1 0.1 -80 300 3 0.08 20.30 -79.6 0.1 0.1 0.1 0.1 -80 300 3 0.1 20.20 -79.6 0.1 0.1 0.1 0.1 -80 300 3 0.2 20.17 -79.6 0.1 0.1 0.1 0.1 -80 300 3 0.3 20.14 -79.6 0.1 0.1 0.1 0.1 -80 300 3 0.49 20.12 -79.6 0.1 0.1 0.1 0.1 -80 300 3 0.490001 20.12 -39.6 0.1 0.1 0.1 0.1 -40 30 3 0.5 20.11 -39.6 0.1 0.1 0.1 0.1 -40 30 3 0.8 20.10 -39.6 0.1 0.1 0.1 0.1 -40 30 3 1 20.09 -39.6 0.1 0.1 0.1 0.1 -40 30 3 2 20.08 -39.6 0.1 0.1 0.1 0.1 -40 30 3 3 20.06 -39.6 0.1 0.1 0.1 0.1 -40 30 3 4 20.05 -39.5 0.2 0.1 0.1 0.1 -40 30 3 5 20.05 -39.5 0.2 0.1 0.1 0.1 -40 30 3 6 20.02 -39.5 0.2 0.1 0.1 0.1 -40 30 3 8 19.95 -39.5 0.2 0.1 0.1 0.1 -40 30 3 10 19.83 -39.4 0.2 0.1 0.2 0.1 -40 30 3 12 19.71 -39.4 0.2 0.1 0.2 0.1 -40 30 3 14 19.54 -39.4 0.2 0.1 0.2 0.1 -40 30 3 16 19.53 -39.3 0.3 0.1 0.2 0.1 -40 30 3 18 19.50 -39.3 0.3 0.1 0.2 0.1 -40 30 3 20 19.57 -39.3 0.3 0.1 0.2 0.1 -40 30 3 22 19.61 -39.3 0.3 0.1 0.2 0.1 -40 30 3 24 19.61 -39.3 0.3 0.1 0.2 0.1 -40 30 3 26 19.54 -39.3 0.3 0.1 0.2 0.1 -40 30 3 28 19.46 -39.2 0.3 0.1 0.3 0.1 -40 30 3 30 19.73 -39.1 0.4 0.1 0.3 0.1 -40 30 3 Sample calculation E (dB µV/m) = U (dB µV) + AF (dB 1/m) + Corr. (dB) U = Receiver reading AF = Antenna factor Corr. = sum of single correction factors of used cables, switch unit, distance correction, amplifier (if applicable) distance correction = -40 * LOG (dLimit/ dused) Linear interpolation will be used for frequencies in between the values in the table. Table shows an extract of values TEST REPORT REFERENCE: MDE_UBLOX_1807_FCCa Page 22 of 27

6.3 ANTENNA R&S HL562 (30 MHZ – 1 GHZ) (dLimit = 3 m) cable cable cable cable distance dLimit dused AF loss 1 loss 2 loss 3 loss 4 corr. (meas. (meas. R&S (inside (outside (switch (to (-20 dB/ distance distance Frequency HL562 Corr. chamber) chamber) unit) receiver) decade) (limit) (used) MHz dB (1/m) dB dB dB dB dB dB m m 30 18.6 0.6 0.29 0.04 0.23 0.02 0.0 3 3 50 6.0 0.9 0.39 0.09 0.32 0.08 0.0 3 3 100 9.7 1.2 0.56 0.14 0.47 0.08 0.0 3 3 150 7.9 1.6 0.73 0.20 0.59 0.12 0.0 3 3 200 7.6 1.9 0.84 0.21 0.70 0.11 0.0 3 3 250 9.5 2.1 0.98 0.24 0.80 0.13 0.0 3 3 300 11.0 2.3 1.04 0.26 0.89 0.15 0.0 3 3 350 12.4 2.6 1.18 0.31 0.96 0.13 0.0 3 3 400 13.6 2.9 1.28 0.35 1.03 0.19 0.0 3 3 450 14.7 3.1 1.39 0.38 1.11 0.22 0.0 3 3 500 15.6 3.2 1.44 0.39 1.20 0.19 0.0 3 3 550 16.3 3.5 1.55 0.46 1.24 0.23 0.0 3 3 600 17.2 3.5 1.59 0.43 1.29 0.23 0.0 3 3 650 18.1 3.6 1.67 0.34 1.35 0.22 0.0 3 3 700 18.5 3.6 1.67 0.42 1.41 0.15 0.0 3 3 750 19.1 4.1 1.87 0.54 1.46 0.25 0.0 3 3 800 19.6 4.1 1.90 0.46 1.51 0.25 0.0 3 3 850 20.1 4.4 1.99 0.60 1.56 0.27 0.0 3 3 900 20.8 4.7 2.14 0.60 1.63 0.29 0.0 3 3 950 21.1 4.8 2.22 0.60 1.66 0.33 0.0 3 3 1000 21.6 4.9 2.23 0.61 1.71 0.30 0.0 3 3 (dLimit = 10 m) 30 18.6 -9.9 0.29 0.04 0.23 0.02 -10.5 10 3 50 6.0 -9.6 0.39 0.09 0.32 0.08 -10.5 10 3 100 9.7 -9.2 0.56 0.14 0.47 0.08 -10.5 10 3 150 7.9 -8.8 0.73 0.20 0.59 0.12 -10.5 10 3 200 7.6 -8.6 0.84 0.21 0.70 0.11 -10.5 10 3 250 9.5 -8.3 0.98 0.24 0.80 0.13 -10.5 10 3 300 11.0 -8.1 1.04 0.26 0.89 0.15 -10.5 10 3 350 12.4 -7.9 1.18 0.31 0.96 0.13 -10.5 10 3 400 13.6 -7.6 1.28 0.35 1.03 0.19 -10.5 10 3 450 14.7 -7.4 1.39 0.38 1.11 0.22 -10.5 10 3 500 15.6 -7.2 1.44 0.39 1.20 0.19 -10.5 10 3 550 16.3 -7.0 1.55 0.46 1.24 0.23 -10.5 10 3 600 17.2 -6.9 1.59 0.43 1.29 0.23 -10.5 10 3 650 18.1 -6.9 1.67 0.34 1.35 0.22 -10.5 10 3 700 18.5 -6.8 1.67 0.42 1.41 0.15 -10.5 10 3 750 19.1 -6.3 1.87 0.54 1.46 0.25 -10.5 10 3 800 19.6 -6.3 1.90 0.46 1.51 0.25 -10.5 10 3 850 20.1 -6.0 1.99 0.60 1.56 0.27 -10.5 10 3 900 20.8 -5.8 2.14 0.60 1.63 0.29 -10.5 10 3 950 21.1 -5.6 2.22 0.60 1.66 0.33 -10.5 10 3 1000 21.6 -5.6 2.23 0.61 1.71 0.30 -10.5 10 3 Sample calculation E (dB µV/m) = U (dB µV) + AF (dB 1/m) + Corr. (dB) U = Receiver reading AF = Antenna factor Corr. = sum of single correction factors of used cables, switch unit, distance correction, amplifier (if applicable) distance correction = -20 * LOG (dLimit/ dused) Linear interpolation will be used for frequencies in between the values in the table. Tables show an extract of values. TEST REPORT REFERENCE: MDE_UBLOX_1807_FCCa Page 23 of 27

6.4 ANTENNA R&S HF907 (1 GHZ – 18 GHZ) cable cable loss 3 loss 1 (switch (relay + cable unit, AF cable loss 2 atten- cable R&S inside (outside uator & loss 4 (to Frequency HF907 Corr. chamber) chamber) pre-amp) receiver) MHz dB (1/m) dB dB dB dB dB 1000 24.4 -19.4 0.99 0.31 -21.51 0.79 2000 28.5 -17.4 1.44 0.44 -20.63 1.38 3000 31.0 -16.1 1.87 0.53 -19.85 1.33 4000 33.1 -14.7 2.41 0.67 -19.13 1.31 5000 34.4 -13.7 2.78 0.86 -18.71 1.40 6000 34.7 -12.7 2.74 0.90 -17.83 1.47 7000 35.6 -11.0 2.82 0.86 -16.19 1.46 cable loss 4 cable (switch loss 1 cable cable unit, used AF (relay loss 2 loss 3 atten- cable for R&S inside (inside (outside uator & loss 5 (to FCC Frequency HF907 Corr. chamber) chamber) chamber) pre-amp) receiver) 15.247 MHz dB (1/m) dB dB dB dB dB dB 3000 31.0 -23.4 0.47 1.87 0.53 -27.58 1.33 4000 33.1 -23.3 0.56 2.41 0.67 -28.23 1.31 5000 34.4 -21.7 0.61 2.78 0.86 -27.35 1.40 6000 34.7 -21.2 0.58 2.74 0.90 -26.89 1.47 7000 35.6 -19.8 0.66 2.82 0.86 -25.58 1.46 cable loss 1 cable cable cable cable cable AF (relay loss 2 loss 3 loss 4 loss 5 loss 6 R&S inside (High (pre- (inside (outside (to Frequency HF907 Corr. chamber) Pass) amp) chamber) chamber) receiver) MHz dB (1/m) dB dB dB dB dB dB dB 7000 35.6 -57.3 0.56 1.28 -62.72 2.66 0.94 1.46 8000 36.3 -56.3 0.69 0.71 -61.49 2.84 1.00 1.53 9000 37.1 -55.3 0.68 0.65 -60.80 3.06 1.09 1.60 10000 37.5 -56.2 0.70 0.54 -61.91 3.28 1.20 1.67 11000 37.5 -55.3 0.80 0.61 -61.40 3.43 1.27 1.70 12000 37.6 -53.7 0.84 0.42 -59.70 3.53 1.26 1.73 13000 38.2 -53.5 0.83 0.44 -59.81 3.75 1.32 1.83 14000 39.9 -56.3 0.91 0.53 -63.03 3.91 1.40 1.77 15000 40.9 -54.1 0.98 0.54 -61.05 4.02 1.44 1.83 16000 41.3 -54.1 1.23 0.49 -61.51 4.17 1.51 1.85 17000 42.8 -54.4 1.36 0.76 -62.36 4.34 1.53 2.00 18000 44.2 -54.7 1.70 0.53 -62.88 4.41 1.55 1.91 Sample calculation E (dB µV/m) = U (dB µV) + AF (dB 1/m) + Corr. (dB) U = Receiver reading AF = Antenna factor Corr. = sum of single correction factors of used cables, switch unit, distance correction, amplifier (if applicable) Linear interpolation will be used for frequencies in between the values in the table. Tables show an extract of values. TEST REPORT REFERENCE: MDE_UBLOX_1807_FCCa Page 24 of 27

6.5 ANTENNA EMCO 3160-09 (18 GHZ – 26.5 GHZ) cable cable cable cable cable AF loss 1 loss 2 loss 3 loss 4 loss 5 EMCO (inside (pre- (inside (switch (to Frequency 3160-09 Corr. chamber) amp) chamber) unit) receiver) MHz dB (1/m) dB dB dB dB dB dB 18000 40.2 -23.5 0.72 -35.85 6.20 2.81 2.65 18500 40.2 -23.2 0.69 -35.71 6.46 2.76 2.59 19000 40.2 -22.0 0.76 -35.44 6.69 3.15 2.79 19500 40.3 -21.3 0.74 -35.07 7.04 3.11 2.91 20000 40.3 -20.3 0.72 -34.49 7.30 3.07 3.05 20500 40.3 -19.9 0.78 -34.46 7.48 3.12 3.15 21000 40.3 -19.1 0.87 -34.07 7.61 3.20 3.33 21500 40.3 -19.1 0.90 -33.96 7.47 3.28 3.19 22000 40.3 -18.7 0.89 -33.57 7.34 3.35 3.28 22500 40.4 -19.0 0.87 -33.66 7.06 3.75 2.94 23000 40.4 -19.5 0.88 -33.75 6.92 3.77 2.70 23500 40.4 -19.3 0.90 -33.35 6.99 3.52 2.66 24000 40.4 -19.8 0.88 -33.99 6.88 3.88 2.58 24500 40.4 -19.5 0.91 -33.89 7.01 3.93 2.51 25000 40.4 -19.3 0.88 -33.00 6.72 3.96 2.14 25500 40.5 -20.4 0.89 -34.07 6.90 3.66 2.22 26000 40.5 -21.3 0.86 -35.11 7.02 3.69 2.28 26500 40.5 -21.1 0.90 -35.20 7.15 3.91 2.36 Sample calculation E (dB µV/m) = U (dB µV) + AF (dB 1/m) + Corr. (dB) U = Receiver reading AF = Antenna factor Corr. = sum of single correction factors of used cables, switch unit, distance correction, amplifier (if applicable) Linear interpolation will be used for frequencies in between the values in the table. Table shows an extract of values. TEST REPORT REFERENCE: MDE_UBLOX_1807_FCCa Page 25 of 27

6.6 ANTENNA EMCO 3160-10 (26.5 GHZ – 40 GHZ) cable cable cable cable distance dLimit dused AF loss 1 loss 2 loss 3 loss 4 corr. (meas. (meas. EMCO (inside (outside (switch (to (-20 dB/ distance distance Frequency 3160-10 Corr. chamber) chamber) unit) receiver) decade) (limit) (used) GHz dB (1/m) dB dB dB dB dB dB m m 26.5 43.4 -11.2 4.4 -15.6 3 0.5 27.0 43.4 -11.2 4.4 -15.6 3 0.5 28.0 43.4 -11.1 4.5 -15.6 3 0.5 29.0 43.5 -11.0 4.6 -15.6 3 0.5 30.0 43.5 -10.9 4.7 -15.6 3 0.5 31.0 43.5 -10.8 4.7 -15.6 3 0.5 32.0 43.5 -10.7 4.8 -15.6 3 0.5 33.0 43.6 -10.7 4.9 -15.6 3 0.5 34.0 43.6 -10.6 5.0 -15.6 3 0.5 35.0 43.6 -10.5 5.1 -15.6 3 0.5 36.0 43.6 -10.4 5.1 -15.6 3 0.5 37.0 43.7 -10.3 5.2 -15.6 3 0.5 38.0 43.7 -10.2 5.3 -15.6 3 0.5 39.0 43.7 -10.2 5.4 -15.6 3 0.5 40.0 43.8 -10.1 5.5 -15.6 3 0.5 Sample calculation E (dB µV/m) = U (dB µV) + AF (dB 1/m) + Corr. (dB) U = Receiver reading AF = Antenna factor Corr. = sum of single correction factors of used cables, switch unit, distance correction, amplifier (if applicable) Linear interpolation will be used for frequencies in between the values in the table. distance correction = -20 * LOG (dLimit/ dused) Linear interpolation will be used for frequencies in between the values in the table. Table shows an extract of values. TEST REPORT REFERENCE: MDE_UBLOX_1807_FCCa Page 26 of 27

7 MEASUREMENT UNCERTAINTIES Test Case(s) Parameter Uncertainty - Field strength of spurious radiation Power ± 5.5 dB - Out-of-band rejection Power ± 2.9 dB - Occupied Bandwidth Frequency ± 11.2 kHz - Input versus output spectrum - Effective radiated power, mean output Power ± 2.2 dB power and zone enhancer gain - Peak to Average Ratio - Out-of-band emission limits Power ± 2.2 dB - Conducted Spurious Emissions at Frequency ± 11.2 kHz Antenna Terminal 8 PHOTO REPORT Please see separate photo report. TEST REPORT REFERENCE: MDE_UBLOX_1807_FCCa Page 27 of 27


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