FCC ID: SEJ-ZTCU4B Vehicle Mounted Telematics Device

 

ELECTRONIC FLEET MANAGEMENT www.zonarsystems.com 29 July 2019 Federal Communications Commission 7435 Oakland Mills Road Columbia, MD 21046 Subject: FCC ID: SEJ-ZTCU4B Class 2 Permissive Change Applicaiton Gentlemen:

This letter is to inform you that we (Zonar) are applying for a Class Two Permissive Change for the device with:

FCC ID: SEJ-ZTCU4B. The complete list of changes is below List of Changes:

Description of Change Reason for Change How the Change is Implemented The module was replaced in the unit that was used for the testing. Improved performance in LTE Band 4 and Band 17. Integrated Cellular Module changed from TOBY-L200-

02S-01 to TOBY-L200-03S-

01 while keeping the same FCC ID: XPYTOBYL200 Previous HW Version: 2 Previous SW Version: 4.8 Current HW Version: 2.1 Current SW Version: 4.8

* No other changes were made to the device. Sincerely, David Pascoe Design Engineer Zonar Systems Inc. ALL INFORMATION CONTAINED HEREIN IS CONFIDENTIAL & PROPRIETARY INFORMATION OF ZONAR SYSTEMS, INC. 18200 Cascade Ave. S. Seattle, WA 98188-4728 Toll-Free 1.877.843.3847 Phone 206.878.2459 Fax 206.878.3082

 

 

Final Report on TOBY-L200 Data Voice Module FCC ID: XPYTOBYL200 IC: 8595A-TOBYL200 acc. to FCC Part 22 Subpart H, Part 24 Subpart E, Part 27 Subpart C Report Reference:

Date:

MDE_UBLOX_1807_FCCi February 21, 2019 Test Laboratory:

7layers GmbH Borsigstrae 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 Borsigstrae 11 40880 Ratingen, Germany T +49 (0) 2102 749 0 F +49 (0) 2102 749 350 www.7layers.com Geschftsfhrer /

Managing Directors:

Frank Spiller Bernhard Retka Alexandre Norr-Oudard Registergericht registered in:

Dsseldorf, HRB 75554 USt-IdNr VAT No.:

DE203159652 TAX No. 147/5869/0385 A Bureau Veritas Group Company Reference: MDE_UBLOX_1807_FCCi Roseelan Sathiyaseelan 2019/02/21 2018/12/19 2019/01/16 1 1.1 Administrative Data Project Data Project Responsible:

Date Of Test Report:

Date of first test:

Date of last test:

1.2 Applicant Data Company Name:

u-blox AG Street:

Country:

Zrcherstrasse 68, CH-8800 Thalwil Switzerland Contact Person:

Mr. Giulio Comar Function:

Department:

Phone:

Fax:

E-Mail:

Certification Manager Cellular Product Certification

+41 44 722 7462

+41 44 722 7447 giulio.comar@u-blox.com 1.3 Test Laboratory Data The following list shows all places and laboratories involved for test result generation:

7 layers DE Company Name :

Street :

City :

Country :

Contact Person :

Phone :

Fax :

E Mail :

Laboratory Details 7layers GmbH Borsigstrasse 11 40880 Ratingen Germany Mr. Michael Albert

+49 2102 749 201

+49 2102 749 444 Michael.Albert@7Layers.com Lab ID Identification Responsible Accreditation Info Lab 1 Radiated Emissions Mr. Marco Kullik Mr. Jens Drwald Lab 2 Radio Lab Mr. Dobrin Dobrinov Mr. Daniel Gall DAkkS-Registration no. D-PL-12140-01-00 ISEDC OATS registration number 3699A-1 FCC Test firm number: 929146 FCC Designation Number: DE0015 DAkkS-Registration no. D-PL-12140-01-00 ISEDC OATS registration number 3699A-1 FCC Test firm number: 929146 FCC Designation Number: DE0015 Page 2 of 55 Reference: MDE_UBLOX_1807_FCCi 2 2.1 Test Object Data General OUT Description The following section lists all OUTs (Object's Under Test) involved during testing. OUT: TOBY-L200 Type / Model / Family:

TOBY-L200 Data Voice Module Product Category:

Manufacturer:

Company Name:

Contact Person:

Parameter List:

Parameter name Parameter for Scope FCC_v2:

DC Power Supply highest channel lowest channel mid channel HW:192EA1 SW:16.16 Module see applicant data see applicant data Value 3,8 (V) 19199 (1910 MHz) for eFDD2, 20399 (1755 MHz) for eFDD4, 20649 (849 MHz) for eFDD5, 21449 (2570 MHz) for eFDD7, 23849 (716 MHz) for eFDD17 18600 (1850 MHz) for eFDD2, 19950 (1710 MHz) for eFDD4, 20400 (824 MHz) for eFDD5, 20750 (2500 MHz) for eFDD7, 23010 (699 MHz) for eFDD17 18900 (1880 MHz) for eFDD2, 20175 (1733 MHz) for eFDD4, 20525 (837 MHz) for eFDD5, 21100 (2535 MHz) for eFDD7, 23790 (710 MHz) for eFDD17 Page 4 of 55 2.2 Detailed Description of OUT Samples Reference: MDE_UBLOX_1807_FCCi Normal Temp. 23 C Sample : aa01 OUT Identifier Sample Description Serial No. HW Status SW Status Nominal Voltage Sample : ab01 OUT Identifier Sample Description Serial No. HW Status SW Status Sample : ad01 OUT Identifier Sample Description Serial No. HW Status SW Status TOBY-L200 RF sample 352254062486276 192EA1 16.16 3.8 V TOBY-L200 Standard sample 352254062486466 192EA1 16.16 TOBY-L200 Standard sample 352254062518722 192EA1 16.16 Page 5 of 55 2.3 Setups used for Testing For each setup a relation is given to determine if and which samples and auxiliary equipment is used. The left side list all OUT samples and the right side lists all auxiliary equipment for the given setup. Setup No. List of OUT samples Sample No. Sample Description List of auxiliary equipment AE No. AE Description Reference: MDE_UBLOX_1807_FCCi S01_AA01

(AA01 TOBY-L200) Sample:

aa01 RF sample S01_AB01

(AB01 TOBY-L200) Sample:

ab01 Standard sample S01_AD01

(AD01 TOBY-L200) Sample:

ad01 Standard sample 3 3.1 Results General Documentation of tested devices:

Interpretation of the test results:

Note:

3.2 List of Test Specification Available at the test laboratory. The results of the inspection are described on the following pages, where 'Conformity' or 'Passed' means that the certification criteria were verified and that the tested device is conform to the applied standard. In cases where 'Declaration' is printed, the required documents are available in the manufacturers product documentation. In cases where 'not applicable' is printed, the test case requirements are not relevant to the specific equipment implementation. All tests are performed under environmental conditions within the requirements of the specifications. Environmental conditions are available at the laboratory. Test Specification:

Version Title:

Test Specification:

Version Title:

Test Specification:

Version Title:

FCC part 2 and 22 10-1-17 Edition PART 2 - GENERAL RULES AND REGULATIONS PART 22 - Subpart H, PUBLIC MOBILE SERVICES FCC part 2 and 24 10-1-17 Edition PART 2 - GENERAL RULES AND REGULATIONS PART 24 - Subpart E, PERSONAL COMMUNICATIONS SERVICES FCC part 2 and 27 10-1-17 Edition PART 2 - GENERAL RULES AND REGULATIONS PART 27 - Subpart C, MISCELLANEOUS WIRELESS COMMUNICATIONS SERVICES Applicable Errata Comment

------------------------------------------------------------------------------------------------------------------------

ANSI C63.26 2015 KDB 971168 D01 v03r01 Page 6 of 55 Reference: MDE_UBLOX_1807_FCCi 3.3 Summary Test Case Identifier / Name Test (condition) Result Date of Test Lab Ref. Setup Test Specification: FCC part 2 and 22 22.4 Field strength of spurious radiation 2.1053, 22.917 22.4; Field strength of spurious radiation Summary 2.1053, 22.917 Passed 2018/12/19 Lab 1 S01_AA01 Test Specification: FCC part 2 and 24 24.4 Field strength of spurious radiation 2.1053, 24.238 24.4; Field strength of spurious radiation Summary 2.1053, 24.238 Test Specification: FCC part 2 and 27 27.1 RF Power Output 2.1046, 27.250 27.1; RF Power Output Summary 2.1046, 27.250 Passed 2018/12/19 Lab 1 S01_AA01 Passed 2018/12/19 Lab 2 S01_AB01 27.3 Spurious emissions at antenna terminals 2.1051, 27.53 27.3; Spurious emissions at antenna terminals Summary 2.1051, 27.53 Passed 2018/12/19 Lab 2 S01_AD01 27.4 Field strength of spurious radiation 2.1053, 27.53 27.4; Field strength of spurious radiation Summary 2.1053, 27.53 27.5 Emission and Occupied Bandwidth 2.1049 27.5; Emission and Occupied Bandwidth Summary 2.1049 27.6 Band edge compliance 2.1053, 27.53 27.6; Band edge compliance summary 2.1053, 27.53 Passed 2019/01/16 Lab 1 S01_AA01 Passed 2018/12/19 Lab 2 S01_AD01 Passed 2018/12/19 Lab 2 S01_AD01 Page 7 of 55 Reference: MDE_UBLOX_1807_FCCi 3.4 Detailed Results 3.4.1 22.4 Field strength of spurious radiation 2.1053, 22.917 Test: 22.4; Field strength of spurious radiation Summary 2.1053, 22.917 Result:

Setup No.:

Date of Test:

Body:

Passed S01_AA01 2018/12/19 8:30 FCC47CFRChIPART22PERSONAL COMMUNICATIONS SERVICES Test Specification:

FCC part 2 and 22 Page 8 of 55 FCC22_eFDD5_QPSK_5MHz_RB1mid_CH20525_30M-1GHz Reference: MDE_UBLOX_1807_FCCi Detailed Results:

FCC_22.4 0

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)

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Frequency

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Limit

(dBm

)

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Margi n

(dB)

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Meas. Time

(ms)

---

eFDD5 QPSK 5MHz 1RB Channel = mid Bandwidt h

(kHz)

---

Heigh t

(cm)

---

Pol Azimut h

(deg)

---

Corr.

(dB) Comment

---

Page 9 of 55 FCC22_eFDD5_QPSK_5MHz_RB1mid_CH20525_1GHz-10GHz 1 / 1 Reference: MDE_UBLOX_1807_FCCi FCC_22.4 0

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(dBm) Frequency

(MHz)

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Final_Result Frequency

(MHz) MaxPeak

(dBm)

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Limit

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)

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(ms)

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Limit

(dBm

)

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(dB)

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Meas. Time

(ms)

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Bandwidt h

(kHz)

---

Bandwidt h

(kHz)

---

eFDD5 QPSK 5MHz 1RB Channel = mid Heigh t

(cm)

---

Heigh t

(cm)

---

Pol Pol Azimut h

(deg)

---

Azimut h

(deg)

---

Elevatio n

(deg)

---

Elevatio n

(deg)

---

Corr.

(dB)

---

Corr.

(dB)

---

Page 10 of 55 Reference: MDE_UBLOX_1807_FCCi 3.4.2 24.4 Field strength of spurious radiation 2.1053, 24.238 Test: 24.4; Field strength of spurious radiation Summary 2.1053, 24.238 Result:

Setup No.:

Date of Test:

Body:

Passed S01_AA01 2018/12/19 9:16 FCC47CFRChIPART24PERSONAL COMMUNICATIONS SERVICES Test Specification:

FCC part 2 and 24 Page 11 of 55 FCC24_eFDD2_QPSK_5MHz_RB1mid_CH18900_30M-1GHz Reference: MDE_UBLOX_1807_FCCi Detailed Results:

FCC_24.4 0

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)

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Frequency

(MHz)

---

Limit

(dBm

)

---

Margi n

(dB)

---

Meas. Time

(ms)

---

eFDD2 QPSK 5MHz 1RB Channel = mid Bandwidt h

(kHz)

---

Heigh t

(cm)

---

Pol Azimut h

(deg)

---

Corr.

(dB) Comment

---

Page 12 of 55 FCC22_eFDD2_QPSK_5MHz_RB1mid_CH18900_1GHz-20GHz 1 / 1 Reference: MDE_UBLOX_1807_FCCi 0

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(dBm) Frequency

(MHz)

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Final_Result Frequency

(MHz) MaxPeak

(dBm)

---

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Limit

(dBm

)

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(dB)

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Meas. Time

(ms)

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Limit

(dBm

)

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Margi n

(dB)

---

Meas. Time

(ms)

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Bandwidt h

(kHz)

---

Bandwidt h

(kHz)

---

eFDD2 QPSK 5MHz 1RB Channel = mid Heigh t

(cm)

---

Heigh t

(cm)

---

Pol Pol Azimut h

(deg)

---

Azimut h

(deg)

---

Elevatio n

(deg)

---

Elevatio n

(deg)

---

Corr.

(dB)

---

Corr.

(dB)

---

Page 13 of 55 Reference: MDE_UBLOX_1807_FCCi 3.4.3 27.1 RF Power Output 2.1046, 27.250 Test: 27.1; RF Power Output Summary 2.1046, 27.250 Result:

Setup No.:

Date of Test:

Body:

Passed S01_AB01 2018/12/19 8:17 FCC47CFRChIPART27MISCELLANEOUS WIRELESS COMMUNICATIONS SERVICES Test Specification:

FCC part 2 and 27 Page 14 of 55 Detailed Results:

Radio Technology Channel Ressource Blocks Bandwidth

[MHz]

RMS Cond. Power

[dBm]

FCC EIRP Limit

[W]

IC EIRP Limit

[W]

Max. Antenna Gain

[dBi]

eFDD 4 QPSK eFDD 4 QPSK eFDD 4 QPSK eFDD 4 QPSK eFDD 4 QPSK eFDD 4 QPSK eFDD 4 QPSK eFDD 4 QPSK eFDD 4 QPSK eFDD 4 16QAM eFDD 4 16QAM eFDD 4 16QAM eFDD 4 16QAM eFDD 4 16QAM eFDD 4 16QAM eFDD 4 QPSK eFDD 4 QPSK eFDD 4 QPSK eFDD 4 QPSK eFDD 4 QPSK eFDD 4 QPSK eFDD 4 16QAM eFDD 4 16QAM eFDD 4 16QAM eFDD 4 16QAM eFDD 4 16QAM eFDD 4 16QAM eFDD 4 QPSK eFDD 4 QPSK eFDD 4 QPSK eFDD 4 QPSK eFDD 4 QPSK eFDD 4 QPSK eFDD 4 QPSK eFDD 4 QPSK eFDD 4 QPSK eFDD 4 16QAM eFDD 4 16QAM eFDD 4 16QAM eFDD 4 16QAM eFDD 4 16QAM eFDD 4 16QAM eFDD 4 QPSK eFDD 4 QPSK eFDD 4 QPSK eFDD 4 QPSK eFDD 4 QPSK eFDD 4 QPSK eFDD 4 16QAM eFDD 4 16QAM eFDD 4 16QAM eFDD 4 16QAM eFDD 4 16QAM low low low mid mid mid high high high low low mid mid high high low low mid mid high high low low mid mid high high low low low mid mid mid high high high low low mid mid high high low low mid mid high high low low mid mid high 1 3 6 1 3 6 1 3 6 1 6 1 6 1 6 1 15 1 15 1 15 1 15 1 15 1 15 1 12 25 1 12 25 1 12 25 1 25 1 25 1 25 1 50 1 50 1 50 1 50 1 50 1 1.4 1.4 1.4 1.4 1.4 1.4 1.4 1.4 1.4 1.4 1.4 1.4 1.4 1.4 1.4 3 3 3 3 3 3 3 3 3 3 3 3 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 10 10 10 10 10 10 10 10 10 10 10 22.35 1 W EIRP 22.05 1 W EIRP 21.12 1 W EIRP 22.39 1 W EIRP 22.07 1 W EIRP 21.11 1 W EIRP 22.2 1 W EIRP 21.72 1 W EIRP 20.86 1 W EIRP 21.41 1 W EIRP 19.99 1 W EIRP 21.4 1 W EIRP 20.07 1 W EIRP 21.09 1 W EIRP 19.69 1 W EIRP 22.74 1 W EIRP 21.44 1 W EIRP 22.82 1 W EIRP 21.53 1 W EIRP 22.56 1 W EIRP 21.25 1 W EIRP 21.88 1 W EIRP 20.42 1 W EIRP 21.74 1 W EIRP 20.49 1 W EIRP 21.61 1 W EIRP 20.19 1 W EIRP 22.84 1 W EIRP 21.44 1 W EIRP 21.46 1 W EIRP 22.77 1 W EIRP 21.46 1 W EIRP 21.53 1 W EIRP 22.62 1 W EIRP 21.18 1 W EIRP 21.2 1 W EIRP 21.74 1 W EIRP 20.36 1 W EIRP 22.02 1 W EIRP 20.49 1 W EIRP 21.69 1 W EIRP 20.22 1 W EIRP 23.1 1 W EIRP 21.8 1 W EIRP 23.03 1 W EIRP 21.89 1 W EIRP 22.85 1 W EIRP 21.68 1 W EIRP 22.14 1 W EIRP 20.77 1 W EIRP 22.02 1 W EIRP 20.9 1 W EIRP 21.8 1 W EIRP 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 7.7 dBi 8.0 dBi 8.9 dBi 7.6 dBi 7.9 dBi 8.9 dBi 7.8 dBi 8.3 dBi 9.1 dBi 8.6 dBi 10.0 dBi 8.6 dBi 9.9 dBi 8.9 dBi 10.3 dBi 7.3 dBi 8.6 dBi 7.2 dBi 8.5 dBi 7.4 dBi 8.8 dBi 8.1 dBi 9.6 dBi 8.3 dBi 9.5 dBi 8.4 dBi 9.8 dBi 7.2 dBi 8.6 dBi 8.5 dBi 7.2 dBi 8.5 dBi 8.5 dBi 7.4 dBi 8.8 dBi 8.8 dBi 8.3 dBi 9.6 dBi 8.0 dBi 9.5 dBi 8.3 dBi 9.8 dBi 6.9 dBi 8.2 dBi 7.0 dBi 8.1 dBi 7.2 dBi 8.3 dBi 7.9 dBi 9.2 dBi 8.0 dBi 9.1 dBi 8.2 dBi Reference: MDE_UBLOX_1807_FCCi Page 15 of 55 Radio Technology Channel Ressource Blocks Bandwidth

[MHz]

RMS Cond. Power

[dBm]

FCC EIRP Limit

[W]

IC EIRP Limit

[W]

Max. Antenna Gain

[dBi]

eFDD 4 16QAM eFDD 4 QPSK eFDD 4 QPSK eFDD 4 QPSK eFDD 4 QPSK eFDD 4 QPSK eFDD 4 QPSK eFDD 4 QPSK eFDD 4 QPSK eFDD 4 QPSK eFDD 4 16QAM eFDD 4 16QAM eFDD 4 16QAM eFDD 4 16QAM eFDD 4 16QAM eFDD 4 16QAM eFDD 4 QPSK eFDD 4 QPSK eFDD 4 QPSK eFDD 4 QPSK eFDD 4 QPSK eFDD 4 QPSK eFDD 4 16QAM eFDD 4 16QAM eFDD 4 16QAM eFDD 4 16QAM eFDD 4 16QAM eFDD 4 16QAM eFDD 17 QPSK eFDD 17 QPSK eFDD 17 QPSK eFDD 17 QPSK eFDD 17 QPSK eFDD 17 QPSK eFDD 17 QPSK eFDD 17 QPSK eFDD 17 QPSK eFDD 17 16QAM eFDD 17 16QAM eFDD 17 16QAM eFDD 17 16QAM eFDD 17 16QAM eFDD 17 16QAM eFDD 17 QPSK eFDD 17 QPSK eFDD 17 QPSK eFDD 17 QPSK eFDD 17 QPSK eFDD 17 QPSK eFDD 17 16QAM eFDD 17 16QAM eFDD 17 16QAM eFDD 17 16QAM eFDD 17 16QAM eFDD 17 16QAM high low low low mid mid mid high high high low low mid mid high high low low mid mid high high low low mid mid high high low low low mid mid mid high high high low low mid mid high high low low mid mid high high low low mid mid high high 50 1 36 75 1 36 75 1 36 75 1 75 1 75 1 75 1 100 1 100 1 100 1 100 1 100 1 100 1 12 25 1 12 25 1 12 25 1 25 1 25 1 25 1 50 1 50 1 50 1 50 1 50 1 50 10 15 15 15 15 15 15 15 15 15 15 15 15 15 15 15 20 20 20 20 20 20 20 20 20 20 20 20 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 10 10 10 10 10 10 10 10 10 10 10 10 21 21 22 22 20.73 1 W EIRP 23.01 1 W EIRP 21.95 1 W EIRP 21.86 1 W EIRP 23.08 1 W EIRP 1 W EIRP 1 W EIRP 23.02 1 W EIRP 22.03 1 W EIRP 21.87 1 W EIRP 22.21 1 W EIRP 20.85 1 W EIRP 22.04 1 W EIRP 1 W EIRP 22.11 1 W EIRP 20.9 1 W EIRP 23.01 1 W EIRP 22.07 1 W EIRP 23.13 1 W EIRP 22.18 1 W EIRP 23.31 1 W EIRP 22.08 1 W EIRP 22.18 1 W EIRP 1 W EIRP 22.17 1 W EIRP 21.11 1 W EIRP 22.21 1 W EIRP 21.03 1 W EIRP 22.22 3 W ERP 20.76 3 W ERP 20.86 3 W ERP 22.08 3 W ERP 21.02 3 W ERP 20.81 3 W ERP 21.59 3 W ERP 20.46 3 W ERP 20.46 3 W ERP 21.16 3 W ERP 19.7 3 W ERP 21.35 3 W ERP 19.61 3 W ERP 20.62 3 W ERP 19.24 3 W ERP 22.23 3 W ERP 20.93 3 W ERP 22.21 3 W ERP 20.9 3 W ERP 21.99 3 W ERP 20.91 3 W ERP 21.29 3 W ERP 19.92 3 W ERP 21.1 3 W ERP 19.93 3 W ERP 20.95 3 W ERP 19.93 3 W ERP 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 9.3 dBi 7.0 dBi 8.1 dBi 8.1 dBi 6.9 dBi 8.0 dBi 8.0 dBi 7.0 dBi 8.0 dBi 8.1 dBi 7.8 dBi 9.2 dBi 8.0 dBi 9.0 dBi 7.9 dBi 9.1 dBi 7.0 dBi 7.9 dBi 6.9 dBi 7.8 dBi 6.7 dBi 7.9 dBi 7.8 dBi 9.0 dBi 7.8 dBi 8.9 dBi 7.8 dBi 9.0 dBi 12.6 dBd 14.0 dBd 13.9 dBd 12.7 dBd 13.8 dBd 14.0 dBd 13.2 dBd 14.3 dBd 14.3 dBd 13.6 dBd 15.1 dBd 13.4 dBd 15.2 dBd 14.2 dBd 15.5 dBd 12.5 dBd 13.8 dBd 12.6 dBd 13.9 dBd 12.8 dBd 13.9 dBd 13.5 dBd 14.9 dBd 13.7 dBd 14.8 dBd 13.8 dBd 14.8 dBd Reference: MDE_UBLOX_1807_FCCi Page 16 of 55 R e f L v l R e f L v l 3 6 . 2 d B m 3 6 . 2 d B m M a r k e r 1 [ T 1 ]

2 3 . 0 6 d B m 1 . 7 3 2 6 2 0 2 4 G H z R B W V B W S W T 5 0 0 k H z 2 M H z 8 . 5 m s Reference: MDE_UBLOX_1807_FCCi R F A t t 2 0 d B U n i t d B m 36.2 30 20 10 0

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-63.8 2 6 . 2 d B O f f s e t 1 V I E W 1 1 [ T 1 ] 2 3 . 0 6 d B m 1 . 7 3 2 6 2 0 2 4 G H z C H P W R 2 3 . 1 3 d B m C H B W 1 8 . 2 0 0 0 0 0 0 0 M H z A S G L 1 R M E X T C 0 C 0 S t a r t 1 . 7 1 2 5 G H z 4 M H z /

S t o p 1 . 7 5 2 5 G H z D a t e : 2 1 . D E C . 2 0 1 8 1 2 : 2 3 : 3 0 eFDD4 QPSK 20MHz RB1 Channel = mid Page 17 of 55 R e f L v l R e f L v l 3 5 . 7 d B m 3 5 . 7 d B m M a r k e r 1 [ T 1 ]

2 1 . 4 7 d B m 7 1 0 . 1 0 0 2 0 0 4 0 M H z R B W V B W S W T 2 0 0 k H z 1 M H z 8 . 5 m s Reference: MDE_UBLOX_1807_FCCi R F A t t 2 0 d B U n i t d B m 1 1 [ T 1 ] 2 1 . 4 7 d B m 7 1 0 . 1 0 0 2 0 0 4 0 M H z C H P W R 2 2 . 2 1 d B m C H B W 8 . 9 8 0 0 0 0 0 0 M H z A S G L 1 R M E X T 2 5 . 7 d B O f f s e t 35.7 30 20 10 1 V I E W 0

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S t o p 7 2 0 M H z D a t e : 7 . J A N . 2 0 1 9 1 2 : 0 8 : 1 5 eFDD17 QPSK 10MHz RB1 Channel = mid Page 18 of 55 Reference: MDE_UBLOX_1807_FCCi 3.4.4 27.3 Spurious emissions at antenna terminals 2.1051, 27.53 Test: 27.3; Spurious emissions at antenna terminals Summary 2.1051, 27.53 Result:

Setup No.:

Date of Test:

Body:

Passed S01_AD01 2018/12/19 8:21 FCC47CFRChIPART27MISCELLANEOUS WIRELESS COMMUNICATIONS SERVICES Test Specification:

FCC part 2 and 27 Detailed Results:

Radio Technology Channel Detector Trace eFDD17 eFDD17 eFDD17 eFDD17 eFDD17 eFDD17 eFDD17 low low low mid high high high rms rms rms rms rms rms rms maxhold maxhold maxhold maxhold maxhold maxhold maxhold Resolution Bandwidth

/kHz 100 10 3

-

3 10 100 Frequency

/MHz 702.8 703.9 704

-

716 716.1 717.1 Peak Value

/dBm

-41.9

-23.71

-23.57

-

-23.71

-24.26

-41.9 Limit

/dBm Margin to Limit /dB

-13

-23

-23

-13

-23

-23

-13 28.9 0.71 0.57

>20 0.71 1.26 28.9 eFDD17 QPSK 5MHz RB1 Channel = low Page 19 of 55 Reference: MDE_UBLOX_1807_FCCi 3.4.5 27.4 Field strength of spurious radiation 2.1053, 27.53 Test: 27.4; Field strength of spurious radiation Summary 2.1053, 27.53 Result:

Setup No.:

Date of Test:

Body:

Passed S01_AA01 2019/01/16 10:31 FCC47CFRChIPART27MISCELLANEOUS WIRELESS COMMUNICATIONS SERVICES Test Specification:

FCC part 2 and 27 Page 20 of 55 FCC27_eFDD4_QPSK_5MHz_RB1mid_CH20175_30M-1GHz Reference: MDE_UBLOX_1807_FCCi Detailed Results:

FCC_27.4 0

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)

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(ms)

---

eFDD4 QPSK 5MHz RB1 Channel = mid Bandwidt h

(kHz)

---

Heigh t

(cm)

---

Pol Azimut h

(deg)

---

Corr.

(dB) Comment

---

Page 21 of 55 FCC22_eFDD4_QPSK_5MHz_RB1mid_CH20175_1GHz-20GHz 1 / 1 Reference: MDE_UBLOX_1807_FCCi 0

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(dBm) Frequency

(MHz)

---

---

Final_Result Frequency

(MHz) MaxPeak

(dBm)

---

---

Limit

(dBm

)

---

Margi n

(dB)

---

Meas. Time

(ms)

---

Limit

(dBm

)

---

Margi n

(dB)

---

Meas. Time

(ms)

---

Bandwidt h

(kHz)

---

Bandwidt h

(kHz)

---

eFDD4 QPSK 5MHz RB1 Channel = mid Heigh t

(cm)

---

Heigh t

(cm)

---

Pol Pol Azimut h

(deg)

---

Azimut h

(deg)

---

Elevatio n

(deg)

---

Elevatio n

(deg)

---

Corr.

(dB)

---

Corr.

(dB)

---

Page 22 of 55 FCC27_eFDD7_QPSK_5MHz_RB1mid_CH21100_30M-1GHz Reference: MDE_UBLOX_1807_FCCi 0

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(dBm

)

---

Frequency

(MHz)

---

Limit

(dBm

)

---

Margi n

(dB)

---

Meas. Time

(ms)

---

eFDD7 QPSK 5MHz RB1 Channel = mid Bandwidt h

(kHz)

---

Heigh t

(cm)

---

Pol Azimut h

(deg)

---

Corr.

(dB) Comment

---

Page 23 of 55 FCC22_eFDD4_QPSK_5MHz_RB1mid_CH20175_1GHz-20GHz 1 / 1 Reference: MDE_UBLOX_1807_FCCi 0

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(dBm) Frequency

(MHz)

---

---

Final_Result Frequency

(MHz) MaxPeak

(dBm)

---

---

Limit

(dBm

)

---

Margi n

(dB)

---

Meas. Time

(ms)

---

Limit

(dBm

)

---

Margi n

(dB)

---

Meas. Time

(ms)

---

Bandwidt h

(kHz)

---

Bandwidt h

(kHz)

---

eFDD7 QPSK 5MHz RB1 Channel = mid Heigh t

(cm)

---

Heigh t

(cm)

---

Pol Pol Azimut h

(deg)

---

Azimut h

(deg)

---

Elevatio n

(deg)

---

Elevatio n

(deg)

---

Corr.

(dB)

---

Corr.

(dB)

---

Page 24 of 55 FCC22_eFDD7_QPSK_5MHz_RB1mid_CH21100_1GHz-26GHz Reference: MDE_UBLOX_1807_FCCi m B d n i l e v e L

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-65 2400 2450 2500 Critical_Freqs MaxPeak

(dBm) Frequency

(MHz) Limit

(dBm) Margin

(dB)

---

Final_Result RMS

(dBm) Frequency

(MHz) Limit

(dBm) Margin

(dB)

---

---

---

---

ZOOM: eFDD7 QPSK 5MHz RB1 Channel = mid 2550 Frequency in MHz 2600 2650 2700 Meas. Time

(ms)

---

Bandwidth

(kHz) Height

(cm) Pol Azimuth

(deg) Elevation

(deg) Corr.

(dB)

---

---

---

---

---

---

---

---

Meas. Time

(ms)

---

Bandwidth

(kHz) Height

(cm) Pol Azimuth

(deg) Elevation

(deg) Corr.

(dB)

---

---

---

---

---

Page 25 of 55 FCC27_eFDD17_QPSK_5MHz_RB1mid_CH23790_30M-1GHz Reference: MDE_UBLOX_1807_FCCi FCC_27.4 0

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)

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Frequency

(MHz)

---

Limit

(dBm

)

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Margi n

(dB)

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Meas. Time

(ms)

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eFDD17 QPSK 5MHz RB1 Channel = mid Bandwidt h

(kHz)

---

Heigh t

(cm)

---

Pol Azimut h

(deg)

---

Corr.

(dB) Comment

---

Page 26 of 55 FCC27_1-10GHz_eFDD17_CH-23790 1 / 1 Reference: MDE_UBLOX_1807_FCCi FCC_27.4 m B d n i l e v e L

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(dBm) Frequency

(MHz)

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Final_Result Frequency

(MHz) MaxPeak

(dBm)

---

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Limit

(dBm

)

---

Margi n

(dB)

---

Meas. Time

(ms)

---

Limit

(dBm

)

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Margi n

(dB)

---

Meas. Time

(ms)

---

Bandwidt h

(kHz)

---

Bandwidt h

(kHz)

---

eFDD17 QPSK 5MHz RB1 Channel = mid Heigh t

(cm)

---

Heigh t

(cm)

---

Pol Pol Azimut h

(deg)

---

Azimut h

(deg)

---

Elevatio n

(deg)

---

Elevatio n

(deg)

---

Corr.

(dB)

---

Corr.

(dB)

---

Page 27 of 55 Reference: MDE_UBLOX_1807_FCCi 3.4.6 27.5 Emission and Occupied Bandwidth 2.1049 Test: 27.5; Emission and Occupied Bandwidth Summary 2.1049 Result:

Setup No.:

Date of Test:

Body:

Passed S01_AD01 2018/12/19 8:27 FCC47CFRChIPART27MISCELLANEOUS WIRELESS COMMUNICATIONS SERVICES Test Specification:

FCC part 2 and 27 Page 28 of 55 Detailed Results:

Radio Technology Channel Ressource Blocks Bandwidth

[MHz]

eFDD 17 QPSK eFDD 17 QPSK eFDD 17 QPSK eFDD 17 16QAM eFDD 17 16QAM eFDD 17 16QAM eFDD 17 QPSK eFDD 17 QPSK eFDD 17 QPSK eFDD 17 16QAM eFDD 17 16QAM eFDD 17 16QAM low mid high low mid high low mid high low mid high 25 25 25 25 25 25 50 50 50 50 50 50 5 5 5 5 5 5 10 10 10 10 10 10 Nominal BW

[MHz]

5 5 5 5 5 5 10 10 10 10 10 10 Reference: MDE_UBLOX_1807_FCCi 99 %

BW

[kHz]

4549 4529 4549 4589 4569 4569 9018 8978 9018 9018 9018 9018 R e f L v l R e f L v l 3 5 . 7 d B m 3 5 . 7 d B m M a r k e r 1 [ T 1 ]

1 7 . 2 6 d B m 7 0 7 . 8 9 5 7 9 1 5 8 M H z R B W V B W S W T 2 0 0 k H z 1 M H z R F A t t 2 0 d B 5 s U n i t d B m 2 5 . 7 d B O f f s e t 35.7 30 20 10 1 M A X 0 1 T 1 1 [ T 1 ] 1 7 . 2 6 d B m 7 0 7 . 8 9 5 7 9 1 5 8 M H z O P B 8 . 9 7 7 9 5 5 9 1 M H z T 1 [ T 1 ] 1 1 . 8 2 d B m 7 0 5 . 4 9 0 9 8 1 9 6 M H z T 2 [ T 1 ] 1 2 . 1 9 d B m 7 1 4 . 4 6 8 9 3 7 8 8 M H z T 2 A S G L 1 M A E X T

-10

-20

-30

-40

-50

-60

-64.3 S t a r t 7 0 0 M H z 2 M H z /

S t o p 7 2 0 M H z D a t e : 1 9 . D E C . 2 0 1 8 1 5 : 5 9 : 4 5 eFDD17 QPSK 10MHz Channel = mid Page 29 of 55 Reference: MDE_UBLOX_1807_FCCi 3.4.7 27.6 Band edge compliance 2.1053, 27.53 Test: 27.6; Band edge compliance summary 2.1053, 27.53 Result:

Setup No.:

Date of Test:

Body:

Passed S01_AD01 2018/12/19 8:25 FCC47CFRChIPART27MISCELLANEOUS WIRELESS COMMUNICATIONS SERVICES Test Specification:

FCC part 2 and 27 Page 30 of 55 Detailed Results:

Radio Technology Channel Band Edge lower higher lower higher lower higher lower higher eFDD 17 QPSK eFDD 17 QPSK eFDD 17 16QAM eFDD 17 16QAM eFDD 17 QPSK eFDD 17 QPSK eFDD 17 16QAM eFDD 17 16QAM low high low high low high low high Reference: MDE_UBLOX_1807_FCCi Nominal BW 5 5 5 5 10 10 10 10 Ressource Blocks 1 1 1 1 1 1 1 1 Peak

[dBm]

-16.56

-18.9

-13.27

-17.9

-26.19

-27.2

-13.45

-17.8 Average

[dBm]

-31.34

-33.52

-31.34

-36.44

-39.14

-41.9

-33.12

-38.38 RMS

[dBm]

-28.37

-30.14

-27.3

-33.12

-37.04

-39.14

-29.08

-34.86 Limit

[dBm]

-13

-13

-13

-13

-13

-13

-13

-13 Margin to Limit

[dB]

15.37 17.14 14.3 20.12 24.04 26.14 16.08 21.86 R e f L v l R e f L v l 3 5 . 6 d B m 3 5 . 6 d B m M a r k e r 1 [ T 1 ]

- 2 7 . 3 0 d B m 7 0 4 . 0 0 0 0 0 0 0 0 M H z R B W V B W S W T 5 0 k H z 5 0 k H z 5 s R F A t t 2 0 d B U n i t d B m 2 5 . 6 d B O f f s e t 35.6 30 20 10 1 V I E W 0

-10 B E C A S G L 1 R M E X T

-20

-30

-40

-50

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-64.4 1 F 2 F 1 S t a r t 7 0 3 . 9 M H z 5 1 0 k H z /

S t o p 7 0 9 M H z D a t e : 1 1 . J A N . 2 0 1 9 0 9 : 4 7 : 1 0 eFDD17 16QAM 10MHz Channel = low Page 31 of 55 Reference: MDE_UBLOX_1807_FCCi 4 4.1 Test Equipment Details List of Used Test Equipment The calibration, hardware and software states are shown for the testing period. Test Equipment Anechoic Chamber Lab ID:

Description:

Lab 1 Anechoic Chamber for radiated testing Single Devices for Anechoic Chamber Single Device Name Air compressor Type none Anechoic Chamber 10.58 x 6.38 x 6.00 m Anechoic Chamber 8.8m x 4.6m x 4.05 m Controller Maturo MCU EMC camera EMC camera Nr.2 CE-CAM/1 CCD-400E Filter ISDN B84312-C110-E1 Filter Universal 1A BB4312-C30-H3 Serial Number Manufacturer Albatross Projects GmbH Maturo GmbH

-

none B83117-S40-

X191 961208

-

0005033

-

Test Equipment Auxiliary Equipment for Radiated emissions Lab ID:

Description:

Serial Number:

Lab 1 Equipment for emission measurements see single devices Single Devices for Auxiliary Equipment for Radiated emissions Single Device Name Type Antenna mast AM 4.0 Biconical Broadband Antenna SBA 9119 Biconical dipole VUBA 9117 Broadband Amplifier 1 GHz - 4 GHz Broadband Amplifier 18 GHz - 26 GHz Broadband Amplifier 30 MHz - 18 GHz Cable "ESI to EMI Antenna"

Cable "ESI to Horn Antenna"

AFS4-01000400-1Q-10P-4 JS4-18002600-32-5P JS4-00101800-35-5P EcoFlex10 SucoFlex Double-ridged horn HF 907 Calibration Details Standard Calibration Serial Number Manufacturer AM4.0/180/11920 513 Maturo GmbH 9119-005 9117-108

-

849785 896037 W18.01-

2+W38.01-2 W18.02-

2+W38.02-2 102444 Rohde & Schwarz GmbH &

Co. KG Last Execution 2018/07/20 Next Execution 2021/07/19 Page 32 of 55 Single Devices for Auxiliary Equipment for Radiated emissions (continued) Reference: MDE_UBLOX_1807_FCCi Single Device Name Double-ridged horn-

duplicated 2015-07-

15 10:47:55 Type HF 906 Calibration Details DKD-Calibration 4HC1600/12750-1.5-KK 5HC2700/12750-1.5-KK 5HC3500/18000-1.2-KK WHKX 7.0/18G-8SS BBHA 9170 High Pass Filter High Pass Filter High Pass Filter High Pass Filter Horn Antenna Schwarzbeck 15-26.5 GHz BBHA 9170 Serial Number 357357/001 Manufacturer Rohde & Schwarz GmbH &

Co. KG Last Execution 2018/03/09 Next Execution 2021/03/08 9942011 9942012 200035008 09 BBHA9170262 Log.-per. Antenna HL 562 Ultralog 100609 Calibration Details DKD Calibration Log.-per. Antenna

(upgraded) HL 562 Ultralog new biconicals 830547/003 Calibration Details DKD-Calibration Loop Antenna HFH2-Z2 829324/006 Calibration Details DKD calibration 3160-10 Antrieb TD1.5-10kg Standard Gain /

Pyramidal Horn Antenna 40 GHz Tilt device Maturo

(Rohacell) Rohde & Schwarz GmbH &

Co. KG Last Execution 2018/07/05 Next Execution 2021/07/05 Rohde & Schwarz GmbH &

Co. KG Last Execution 2018/07/05 Next Execution 2021/07/04 Rohde & Schwarz GmbH &

Co. KG Last Execution 2018/01/04 Next Execution 2021/01/04 00086675 TD1.5-

10kg/024/379070 9 Maturo GmbH Page 33 of 55 Reference: MDE_UBLOX_1807_FCCi Test Equipment Auxiliary Test Equipment Lab ID:

Description:

Type:

Serial Number:

Lab 1, Lab 2 Single Devices for various Test Equipment various none Single Devices for Auxiliary Test Equipment Single Device Name Type Serial Number Manufacturer Broadband Power Divider N (Aux) Broadband Power Divider SMA Digital Multimeter 03

(Multimeter) Digital Multimeter 13

(Clamp Meter) Fibre optic link Satellite (Aux) Fibre optic link Transceiver (Aux) 1506A / 93459 WA1515 Fluke 177 Fluke 325 Calibration Details DAkkS-Calibration FO RS232 Link FO RS232 Link Isolating Transformer LTS 604 Notch Filter Ultra Stable (Aux) Signal Analyzer Spectrum Analyser Spectrum Analyzer Vector Signal Generator WRCA800/960-6EEK FSV30 FSU26 FSP3 SMIQ 03B LM390 A855 86670383 31270091WS FLUKE Last Execution 2016/02/04 Next Execution 2019/02/28 181-018 182-018 1888 24 103005 200418 836722/011 832492/061 Rohde & Schwarz GmbH &

Co. KG Rohde & Schwarz GmbH &

Co. KG Test Equipment Digital Signalling Devices Lab ID:

Description:

Lab 1, Lab 2 Signalling equipment for various wireless technologies. Single Devices for Digital Signalling Devices Single Device Name Type Serial Number Manufacturer CMW500 Digital Radio Communication Tester Universal Radio Communication Tester Vector Signal Generator CMW500 CMD 55 CMU 200 SMU200A 107500 831050/020 837983/052 100912 Rohde & Schwarz GmbH &

Co. KG Rohde & Schwarz GmbH &

Co. KG Rohde & Schwarz GmbH &

Co. KG Page 34 of 55 Reference: MDE_UBLOX_1807_FCCi Serial Number Manufacturer Test Equipment Emission measurement devices Lab ID:

Description:

Serial Number:

Lab 1 Equipment for emission measurements see single devices Single Devices for Emission measurement devices Single Device Name EMI Receiver /

Spectrum Analyzer Type ESR 7 Personal Computer Dell Power Meter Sensor Head A NRVD Calibration Details Standard calibration NRV-Z1 Calibration Details Standard calibration Signal Generator SMR 20 Spectrum Analyzer ESIB 26 101424 30304832059 828110/016 827753/005 846834/008 830482/004 HW/SW Status Firmware-Update 4.34.4 from 3.45 during calibration Spectrum Analyzer FSW 43 103779 Last Execution 2018/07/18 Next Execution 2019/07/17 Last Execution 2018/07/17 Next Execution 2019/07/16 Rohde & Schwarz GmbH &

Co. KG Rohde & Schwarz GmbH &

Co. KG Date of Start 2009/12/03 Date of End Test Equipment Multimeter 03 Lab ID:

Description:

Serial Number:

Lab 1, Lab 2 Fluke 177 86670383 Single Devices for Multimeter 03 Single Device Name Type Digital Multimeter 03

(Multimeter) Fluke 177 Serial Number Manufacturer 86670383 Page 35 of 55 Broadband Power Divider SMA Coax Attenuator 10dB SMA 2W Coax Attenuator 10dB SMA 2W Coax Attenuator 10dB SMA 2W Coax Cable Huber&Suhner Coax Cable Rosenberger Micro Coax FA210A0010003030 SMA/SMA 1,0m Power Meter RF Step Attenuator RSP Rubidium Frequency Standard Sensor Head A Signal Generator SME Test Equipment Radio Lab Test Equipment Lab ID:

Description:

Lab 2 Radio Lab Test Equipment Single Devices for Radio Lab Test Equipment Single Device Name Type Serial Number Manufacturer Reference: MDE_UBLOX_1807_FCCi WA1515 4T-10 56-10 56-10 A856 F9401 W3702 W3711 Sucotest 2,0m Huber&Suhner FA210A0010003030 54491-2 NRVD Calibration Details Standard calibration RSP Datum, Model: MFS Calibration Details Standard calibration NRV-Z1 Calibration Details Standard calibration SME03 Calibration Details Standard calibration 828110/016 833695/001 5489/001 827753/005 827460/016 Last Execution 2018/07/18 Next Execution 2019/07/17 Last Execution 2018/07/25 Next Execution 2019/07/24 Last Execution 2018/07/17 Next Execution 2019/07/16 Last Execution 2018/08/01 Next Execution 2021/07/31 Rohde & Schwarz GmbH &

Co. KG Last Execution 2016/05/24 Next Execution 2019/05/23 Signal Generator SMP SMP02 833286/0014 Calibration Details Standard calibration Spectrum Analyzer FSIQ26 840061/005 Rohde & Schwarz GmbH &

Co. KG Calibration Details Last Execution Next Execution

-----------------------------------------------------------------------------------------------------------------------

Standard calibration 2017/05/16 2021/05/16 Page 36 of 55 Reference: MDE_UBLOX_1807_FCCi Test Equipment T/A Logger 13 Lab ID:

Description:

Type:

Serial Number:

Lab 1, Lab 2 Lufft Opus10 TPR Opus10 TPR 13936 Single Devices for T/A Logger 13 Single Device Name Type Serial Number Manufacturer ThermoAirpressure Datalogger 13

(Environ) Opus10 TPR (8253.00) 13936 Calibration Details Customized calibration Last Execution 2017/04/10 Next Execution 2019/04/09 Test Equipment T/H Logger 03 Lab ID:

Description:

Serial Number:

Lab 2 Lufft Opus10 7482 Single Devices for T/H Logger 03 Single Device Name Type Serial Number Manufacturer ThermoHygro Datalogger 03

(Environ) Opus10 THI (8152.00) 7482 Calibration Details Customized calibration Last Execution 2017/03/30 Next Execution 2019/03/29 Test Equipment T/H Logger 12 Lab ID:

Description:

Serial Number:

Lab 1 Lufft Opus10 12482 Single Devices for T/H Logger 12 Single Device Name Type Serial Number Manufacturer ThermoHygro Datalogger 12

(Environ) Opus10 THI (8152.00) 12482 Calibration Details Customized calibration Last Execution 2017/03/30 Next Execution 2019/03/29 Test Equipment Temperature Chamber 05 Lab ID:

Description:

Type:

Serial Number:

Lab 2 Temperature Chamber VT4002 Vtsch see single devices Single Devices for Temperature Chamber 05 Single Device Name Type Serial Number Manufacturer Temperature Chamber Vtsch 05 VT 4002 58566080550010 Calibration Details Customized calibration Last Execution 2018/04/27 Next Execution 2020/04/26 Page 37 of 55 5 5.1 Annex Additional Information for Report Reference: MDE_UBLOX_1807_FCCi Page 38 of 55 Reference: MDE_UBLOX_1807_FCCi Summary of Test Results _____________________ _____________________ The EUT complied with all performed tests as listed in the summary section of this report. __________________________________________________________________________ Technical Report Summary ______________________ ______________________ Type of Authorization :

Certification for a GSM/WCDMA/CDMA2000 cellular radiotelephone device Applicable FCC Rules Prepared in accordance with the requirements of FCC Rules and Regulations as listed in 47 CFR Ch.1 Parts 0 to 69. The following subparts are applicable to the results in this test report. Part 2, Subpart J - Equipment Authorization Procedures, Certification 2.1046 Measurement required: RF power output 2.1049 Measurement required: Occupied bandwidth 2.1053 Measurement required: Field strength of spurious radiation Part 22, Subpart C Operational and Technical Requirements Part 22, Subpart H Cellular Radiotelephone Service 22.913 Effective radiated power limits 22.917 Emission limitations for cellular equipment additional documents ANSI C63.26 2015 Description of Methods of Measurements ___________________________________ ___________________________________ ______________ RF Power Output ______________ Standard FCC Part 22, Subpart H The test was performed according to: FCC 2.1046 Test Description (conducted measurement procedure) 1) The EUT was coupled to a Spectrum Analyser and a Digital Communication Tester through a Power Divider. Refer to chapter "Setup Drawings". 2) The total insertion losses for signal path 1 and signal path 2 were measured. The values were used to correct the readings from the Spectrum Analyser and the Digital Communication Tester. 3) A call was established on a Traffic Channel between the EUT and the Digital Communication Tester. Important Settings:

- Channel (Frequency): please refer to the detailed results 4) The transmitted power of the EUT was recorded by using a spectrum analyser. Page 39 of 55 Reference: MDE_UBLOX_1807_FCCi Test Description (radiated measurement procedure) 1) The EUT was placed inside an anechoic chamber. Refer to chapter "Setup Drawings". The EUT was coupled to a Digital Communication Tester which was located outside the chamber via a small signalling antenna. 2) A call was established on a Traffic Channel between the EUT and the Digital Communication Tester. Important Settings:

- Output Power: Maximum

- Channel: please refer to the detailed results 3) A substitution procedure is used so that the readings from the spectrum analyser are corrected and represent directly the equivalent radiated power (related to a lamda/2 dipole). 4) The output power was measured in both vertical and horizontal antenna polarisation during the call is established on the lowest channel, mid channel and on the highest channel. To find the worst case power all orientations (X, Y, Z) of the EUT have been measured. 5) The test procedure according to ANSI C63.26 2015 has been considered. Test Requirements / Limits 2.1046 Measurements Required: RF Power Output

(a) For transmitters other than single sideband, independent sideband and controlled carrier radiotelephone, power output shall be measured at the RF output terminals when the transmitter is adjusted in accordance with the tune-up procedure to give the values of current and voltage on the circuit elements specified in 2.1033(c)(8). The electrical characteristics of the output terminals when this test is made shall be stated. 22.913 Effective radiated power limits

(a)(2) Maximum ERP. The ERP of mobile transmitters and auxiliary test transmitters must not exceed 7 Watts. ____________________________ Emission and Occupied Bandwidth ____________________________ Standard FCC Part 22, Subpart H The test was performed according to: FCC 2.1049 Test Description 1) The EUT was coupled to a Spectrum Analyser and a Digital Communication Tester through a Power Divider. Refer to chapter "Setup Drawings". 2) The total insertion losses for signal path 1 and signal path 2 were measured. The values were used to correct the readings from the Spectrum Analyser and the Digital Communication Tester. 3) A call was established on a Traffic Channel between the EUT and the Digital Communication Tester. Important Settings:

- Output Power: Maximum

- Channel: please refer to the detailed results 4) Important Analyser Settings:

- Resolution Bandwidth: >1% of the manufacturers stated occupied bandwidth 5) The maximum spectral level of the modulated signal was recorded as the reference. 6) The emission bandwidth is measured as follows:

the two furthest frequencies above and below the frequency of the maximum reference level where the spectrum is 26 dB down have to be found. 7) The occupied bandwidth (99% Bandwidth) is measured as follows:

the occupied bandwidth, that is the frequency bandwidth such that, below its lower and above its upper frequency limits, the mean powers are each equal to 0.5 percent of the total mean power. Test Requirements / Limits 2.1049 Measurements required: Occupied bandwidth The occupied bandwidth, that is the frequency bandwidth such that, below its lower and above its upper frequency limits, the mean powers radiated are each equal to 0.5 percent of the total mean power radiated by a given emission shall be measured under the following conditions (as applicable):

(h) Transmitters employing digital modulation techniques - when modulated by an input signal such that its amplitude and symbol rate represent the maximum rated conditions under which the equipment will be Page 40 of 55 operated. The signal shall be applied through any filter networks, pseudo-random generators or other devices required in normal service. Additionally, the occupied bandwidth shall be shown for operation with any devices used for modifying the spectrum when such devices are optional at the discretion of the user. Reference: MDE_UBLOX_1807_FCCi _____________________________ Field strength of spurious radiation _______________________________ Standard FCC Part 22, Subpart H The test was performed according to: FCC 2.1053 Test Description 1) The EUT was placed inside an anechoic chamber. Refer to chapter "Setup Drawings". The EUT was coupled to a Digital Communication Tester which was located outside the chamber via a small signalling antenna. 2) A call was established on a Traffic Channel between the EUT and the Digital Communication Tester. Important Settings:

- Output Power: Maximum

- Channel: please refer to the detailed results 3) A pre-calibration procedure is used so that the readings from the spectrum analyser are corrected and represent directly the equivalent radiated power (related to a lamda/2 dipole). 4) All spurious radiation measurements were made with spectrum analyser and the appropriate calibrated antennas for the frequency range of 30 MHz to 10 GHz (up to the 10th harmonic of the transmit frequency). The frequency range from 9 kHz to 30 MHz has been examined during the conducted spurious emission measurements. 5) Important Analyser Settings

- [Resolution Bandwidth / Video Bandwidth]:

a) [3 kHz / 10 kHz] in the Span of 1 MHz directly below and above the Band, b) [10 kHz / 30 kHz] in case the curve of the analyser IF-Filter leads to an exceeding of the limit, in this case a worst case correction factor of 20 dB (1 MHz -> 10 kHz) was used c) [1 MHz / 3 MHz] otherwise

- Sweep Time: depending on the transmitting signal, the span and the resolution bandwidth 6) The spurious emissions peaks were measured in both vertical and horizontal antenna polarization during the call is established on the lowest channel, mid channel and on the highest channel. To find the worst case peaks all orientations (X, Y, Z) of the EUT have been measured. 7) After this initial test, a final test according to ANSI C63.26 2015 2.2.12 Unwanted Emissions is performed on signals which are identified as being close to the limit. For any emissions found to be within 10 dB of the limit, a specific signal substitution measurement is performed at the frequency of the emission to determine the exact e.i.r.p. value. Test Requirements / Limits 2.1053 Measurements required: Field strength of spurious radiation. Measurements shall be made to detect spurious emissions that may be radiated directly from the cabinet, control circuits, power leads, or intermediate circuit elements under normal conditions of installation and operation. Curves or equivalent data shall be supplied showing the magnitude of each harmonic and other spurious emission. For this test, single sideband, independent sideband, and controlled carrier transmitters shall be modulated under the conditions specified in paragraph (c) of Sec. 2.1049, as appropriate. For equipment operating on frequencies below 890 MHz, an open field test is normally required, with the measuring instrument antenna located in the far-field at all test frequencies. In the event it is either impractical or impossible to make open field measurements (e.g. a broadcast transmitter installed in a building) measurements will be accepted of the equipment as installed. Such measurements must be accompanied by a description of the site where the measurements were made showing the location of any possible source of reflections which might distort the field strength measurements. Information submitted shall include the relative radiated power of each spurious emission with reference to the rated power output of the transmitter, assuming all emissions are radiated from halfwave dipole antennas.

(b) The measurements specified in paragraph (a) of this section shall be made for the following equipment:

(2) All equipment operating on frequencies higher than 25 MHz. 2.1057 Frequency spectrum to be investigated.

(a) In all of the measurements set forth in Secs. 2.1051 and 2.1053, the spectrum shall be investigated from the lowest radio frequency signal generated in the equipment, without going below 9 kHz, up to at least the frequency shown below:

Page 41 of 55 Reference: MDE_UBLOX_1807_FCCi

(1) If the equipment operates below 10 GHz: to the tenth harmonic of the highest fundamental frequency or to 40 GHz, whichever is lower.

(b) Particular attention should be paid to harmonics and subharmonics of the carrier frequency as well as to those frequencies removed from the carrier by multiples of the oscillator frequency. Radiation at the frequencies of multiplier stages should also be checked.

(c) The amplitude of spurious emissions which are attenuated more than 20 dB below the permissible value need not be reported.

(d) Unless otherwise specified, measurements above 40 GHz shall be performed using a minimum resolution bandwidth of 1 MHz. 22.917 Emission limitations for cellular equipment

(a) 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. This is calculated to be -13 dBm (effective radiated power) which corresponds to 84.6 dBV/m (field strength) in a distance of 3 m.

(b) Compliance with these rules is based on the use of measurement instrumentation employing a resolution bandwidth of 100 kHz or greater. In the 1 MHz bands immediately outside and adjacent to the frequency block a resolution bandwidth of at least one percent of the emission bandwidth of the fundamental emission of the transmitter may be employed. A narrower resolution bandwidth is permitted in all cases to improve measurement accuracy provided the measured power is integrated over the full required measurement bandwidth (i.e. 100 kHz or 1 percent of emission bandwidth, as specified). The emission bandwidth is defined as the width of the signal between two points, one below the carrier center frequency and one above the carrier center frequency, outside of which all emissions are attenuated at least 26 dB below the transmitter power.

(c) Licensees in this service may establish an alternative out of band emission limit to be used at specified band edge(s) in specified geographical areas [...].

(d) If any emission from a transmitter operating in this service results in interference to users of another radio service, the FCC may require a greater attenuation of that emission than specified in this section. For reporting only spurious emission levels reaching to the 20dB margin to limit were noted. __________________ Band edge compliance __________________ Standard FCC Part 22, Subpart H The test was performed according to: FCC 22.913 Test Description 1) The EUT was coupled to a Spectrum Analyser and a Digital Communication Tester through a Power Divider. Refer to chapter "Setup Drawings". 2) The total insertion losses for signal path 1 and signal path 2 were measured. The values were used to correct the readings from the Spectrum Analyser and the Digital Communication Tester. 3) A call was established on a Traffic Channel between the EUT and the Digital Communication Tester. Important Settings:

- Output Power: Maximum

- Channel: please refer to the detailed results 4) Important Analyser Settings:

- Resolution Bandwidth = Video Bandwidth: >1% of the manufacturers stated occupied bandwidth Test Requirements / Limits 22.917 Emission limitations for cellular equipment Refer to chapter "Field strength of spurious radiation". Summary of Test Results _____________________ _____________________ Page 42 of 55 The EUT complied with all performed tests as listed in the summary section of this report. __________________________________________________________________________ Reference: MDE_UBLOX_1807_FCCi Technical Report Summary ______________________ ______________________ Type of Authorization :

Certification for a GSM/WCDMA/CDMA2000 cellular radiotelephone device Applicable FCC Rules Prepared in accordance with the requirements of FCC Rules and Regulations as listed in 47 CFR Ch.1 Parts 0 to 69. The following subparts are applicable to the results in this test report. Part 2, Subpart J - Equipment Authorization Procedures, Certification 2.1046 Measurement required: RF power output 2.1049 Measurement required: Occupied bandwidth 2.1053 Measurement required: Field strength of spurious radiation Part 24, Subpart E - Broadband PCS 24.232 Power and antenna height limits 24.236 Field strength limits 24.238 Emission limitations for Broadband PCS equipment additional documents ANSI C63.26 2015 Description of Methods of Measurements ___________________________________ ___________________________________ ______________ RF Power Output ______________ Standard: FCC Part 24, Subpart E The test was performed according to: FCC 2.1046 Test Description (conducted measurement procedure) 1) The EUT was coupled to a Spectrum Analyser and a Digital Communication Tester through a Power Divider. Refer to chapter "Setup Drawings". 2) The total insertion losses for signal path 1 and signal path 2 were measured. The values were used to correct the readings from the Spectrum Analyser and the Digital Communication Tester. 3) A call was established on a Traffic Channel between the EUT and the Digital Communication Tester. Important Settings:

- Channel (Frequency): please refer to the detailed results 4) The transmitted power of the EUT was recorded by using a spectrum analyser. Test Description (radiated measurement procedure) Page 43 of 55 Reference: MDE_UBLOX_1807_FCCi 1) The EUT was placed inside an anechoic chamber. Refer to chapter "Setup Drawings". The EUT was coupled to a Digital Communication Tester which was located outside the chamber via a small signalling antenna. 2) A call was established on a Traffic Channel between the EUT and the Digital Communication Tester. Important Settings:

- Output Power: Maximum

- Channel: please refer to the detailed results 3) A substitution procedure is used so that the readings from the spectrum analyser are corrected and represent directly the equivalent radiated power (related to a lamda/2 dipole). 4) The output power was measured in both vertical and horizontal antenna polarisation during the call is established on the lowest channel, mid channel and on the highest channel. To find the worst case power all orientations (X, Y, Z) of the EUT have been measured. 5) The test procedure according to ANSI C63.26 2015 has been considered. Test Requirements / Limits 2.1046 Measurements Required: RF Power Output

(a) For transmitters other than single sideband, independent sideband and controlled carrier radiotelephone, power output shall be measured at the RF output terminals when the transmitter is adjusted in accordance with the tune-up procedure to give the values of current and voltage on the circuit elements specified in 2.1033(c)(8). The electrical characteristics of the output terminals when this test is made shall be stated. 24.232 Power and antenna height limits

(c) Mobile/portable stations are limited to 2 watts EIRP peak power and the equipment must employ means to limit the power to the minimum necessary for successful communications.

(e) Peak transmit power must be measured over any interval of continuous transmission using instrumentation calibrated in terms of an rms-equivalent voltage. The measurement results shall be properly adjusted for any instrument limitations, such as detector response times, limited resolution bandwidth capability when compared to the emission bandwidth, sensitivity, etc., so as to obtain a true peak measurement for the emission in question over the full bandwidth of the channel. ____________________________ Emission and Occupied Bandwidth ____________________________ Standard: FCC Part 24, Subpart E The test was performed according to: FCC 2.1049 Test Description 1) The EUT was coupled to a Spectrum Analyser and a Digital Communication Tester through a Power Divider. Refer to chapter "Setup Drawings". 2) The total insertion losses for signal path 1 and signal path 2 were measured. The values were used to correct the readings from the Spectrum Analyser and the Digital Communication Tester. 3) A call was established on a Traffic Channel between the EUT and the Digital Communication Tester. Important Settings:

- Output Power: Maximum

- Channel: please refer to the detailed results 4) Important Analyser Settings:

- Resolution Bandwidth: >1% of the manufacturers stated occupied bandwidth 5) The maximum spectral level of the modulated signal was recorded as the reference. 6) The emission bandwidth is measured as follows:

the two furthest frequencies above and below the frequency of the maximum reference level where the spectrum is 26 dB down have to be found. 7) The occupied bandwidth (99% Bandwidth) is measured as follows:

the occupied bandwidth, that is the frequency bandwidth such that, below its lower and above its upper frequency limits, the mean powers are each equal to 0.5 percent of the total mean power. Test Requirements / Limits 2.1049 Measurements required: Occupied bandwidth The occupied bandwidth, that is the frequency bandwidth such that, below its lower and above its upper frequency limits, the mean powers radiated are each equal to 0.5 percent of the total mean power radiated by a given emission shall be measured under the following conditions (as applicable):

Page 44 of 55

(h) Transmitters employing digital modulation techniques - when modulated by an input signal such that its amplitude and symbol rate represent the maximum rated conditions under which the equipment will be operated. The signal shall be applied through any filter networks, pseudo-random generators or other devices required in normal service. Additionally, the occupied bandwidth shall be shown for operation with any devices used for modifying the spectrum when such devices are optional at the discretion of the user. Reference: MDE_UBLOX_1807_FCCi _______________________________ Field strength of spurious radiation _______________________________ Standard: FCC Part 24, Subpart E The test was performed according to: FCC 2.1053 Test Description 1) The EUT was placed inside an anechoic chamber. Refer to chapter "Setup Drawings". The EUT was coupled to a Digital Communication Tester which was located outside the chamber via a small signalling antenna. 2) A call was established on a Traffic Channel between the EUT and the Digital Communication Tester. Important Settings:

- Output Power: Maximum

- Channel: please refer to the detailed results 3) A pre-calibration procedure is used so that the readings from the spectrum analyser are corrected and represent directly the equivalent radiated power (related to a lamda/2 dipole). 4) All spurious radiation measurements were made with spectrum analyser and the appropriate calibrated antennas for the frequency range of 30 MHz to 20 GHz (up to the 10th harmonic of the transmit frequency). The frequency range from 9 kHz to 30 MHz has been examined during the conducted spurious emission measurements. 5) Important Analyser Settings

- [Resolution Bandwidth / Video Bandwidth]:

a) [3 kHz / 10 kHz] in the Span of 1 MHz directly below and above the Band, b) [10 kHz / 30 kHz] in case the curve of the analyser IF-Filter leads to an exceeding of the limit, in this case a worst case correction factor of 20 dB (1 MHz -> 10 kHz) was used c) [1 MHz / 3 MHz] otherwise

- Sweep Time: depending on the transmitting signal, the span and the resolution bandwidth 6) The spurious emissions peaks were measured in both vertical and horizontal antenna polarisation during the call is established on the lowest channel, mid channel and on the highest channel. To find the worst case peaks all orientations (X, Y, Z) of the EUT have been measured. 7) After this initial test, a final test according to ANSI C63.26 2015 2.2.12 Unwanted Emissions is performed on signals which are identified as being close to the limit. For any emissions found to be within 10 dB of the limit, a specific signal substitution measurement is performed at the frequency of the emission to determine the exact e.i.r.p. value. Test Requirements / Limits 2.1053 Measurements required: Field strength of spurious radiation. Measurements shall be made to detect spurious emissions that may be radiated directly from the cabinet, control circuits, power leads, or intermediate circuit elements under normal conditions of installation and operation. Curves or equivalent data shall be supplied showing the magnitude of each harmonic and other spurious emission. For this test, single sideband, independent sideband, and controlled carrier transmitters shall be modulated under the conditions specified in paragraph (c) of Sec. 2.1049, as appropriate. For equipment operating on frequencies below 890 MHz, an open field test is normally required, with the measuring instrument antenna located in the far-field at all test frequencies. In the event it is either impractical or impossible to make open field measurements (e.g. a broadcast transmitter installed in a building) measurements will be accepted of the equipment as installed. Such measurements must be accompanied by a description of the site where the measurements were made showing the location of any possible source of reflections which might distort the field strength measurements. Information submitted shall include the relative radiated power of each spurious emission with reference to the rated power output of the transmitter, assuming all emissions are radiated from halfwave dipole antennas.

(b) The measurements specified in paragraph (a) of this section shall be made for the following equipment:

(2) All equipment operating on frequencies higher than 25 MHz. 2.1057 Frequency spectrum to be investigated. Page 45 of 55 Reference: MDE_UBLOX_1807_FCCi

(a) In all of the measurements set forth in Secs. 2.1051 and 2.1053, the spectrum shall be investigated from the lowest radio frequency signal generated in the equipment, without going below 9 kHz, up to at least the frequency shown below:

(1) If the equipment operates below 10 GHz: to the tenth harmonic of the highest fundamental frequency or to 40 GHz, whichever is lower.

(b) Particular attention should be paid to harmonics and subharmonics of the carrier frequency as well as to those frequencies removed from the carrier by multiples of the oscillator frequency. Radiation at the frequencies of multiplier stages should also be checked.

(c) The amplitude of spurious emissions which are attenuated more than 20 dB below the permissible value need not be reported.

(d) Unless otherwise specified, measurements above 40 GHz shall be performed using a minimum resolution bandwidth of 1 MHz. 24.238 Emission limitations for Broadband PCS equipment

(a) 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. This is calculated to be -13 dBm (effective radiated power) which corresponds to 84.6 dBV/m (field strength) in a distance of 3 m.

(b) Compliance with these rules is based on the use of measurement instrumentation employing a resolution bandwidth of 1 MHz or greater. However, in the 1 MHz bands immediately outside and adjacent to the frequency block a resolution bandwidth of at least one percent of the emission bandwidth of the fundamental emission of the transmitter may be employed. A narrower resolution bandwidth is permitted in all cases to improve measurement accuracy provided the measured power is integrated over the full required measurement bandwidth (i.e. 1 MHz or 1 percent of emission bandwidth, as specified). The emission bandwidth is defined as the width of the signal between two points, one below the carrier center frequency and one above the carrier center frequency, outside of which all emissions are attenuated at least 26 dB below the transmitter power.

(c) Licensees in this service may establish an alternative out of band emission limit to be used at specified band edge(s) in specified geographical areas [...].

(d) If any emission from a transmitter operating in this service results in interference to users of another radio service, the FCC may require a greater attenuation of that emission than specified in this section. For reporting only spurious emission levels reaching to the 20dB margin to limit were noted. __________________ Band edge compliance __________________ Standard: FCC Part 24, Subpart E The test was performed according to: FCC 24.238 Test Description 1) The EUT was coupled to a Spectrum Analyser and a Digital Communication Tester through a Power Divider. Refer to chapter "Setup Drawings". 2) The total insertion losses for signal path 1 and signal path 2 were measured. The values were used to correct the readings from the Spectrum Analyser and the Digital Communication Tester. 3) A call was established on a Traffic Channel between the EUT and the Digital Communication Tester. Important Settings:

- Output Power: Maximum

- Channel: please refer to the detailed results 4) Important Analyser Settings:

- Resolution Bandwidth = Video Bandwidth: >1% of the manufacturers stated occupied bandwidth Test Requirements / Limits 24.238 Effective radiated power limits Refer to chapter "Field strength of spurious radiation". Page 46 of 55 The EUT complied with all performed tests as listed in the summary section of this report. __________________________________________________________________________ Reference: MDE_UBLOX_1807_FCCi Technical Report Summary ______________________ ______________________ Type of Authorization :

Certification for a GSM cellular radiotelephone device Applicable FCC Rules Prepared in accordance with the requirements of FCC Rules and Regulations as listed in 47 CFR Ch.1 Parts 0 to 69. The following subparts are applicable to the results in this test report. Part 2, Subpart J - Equipment Authorization Procedures, Certification 2.1046 Measurement required: RF power output 2.1049 Measurement required: Occupied bandwidth 2.1053 Measurement required: Field strength of spurious radiation Part 27, Subpart CTechnical Standards 27.50 Power and antenna height limits 27.53 Emissions limits additional documents ANSI C63.26 2015 Description of Methods of Measurements ___________________________________ ___________________________________ ______________ RF Power Output ______________ Standard FCC Part 27, Subpart C The test was performed according to: FCC 2.1046 Test Description (conducted measurement procedure) 1) The EUT was coupled to a Spectrum Analyser and a Digital Communication Tester through a Power Divider. Refer to chapter "Setup Drawings". 2) The total insertion losses for signal path 1 and signal path 2 were measured. The values were used to correct the readings from the Spectrum Analyser and the Digital Communication Tester. 3) A call was established on a Traffic Channel between the EUT and the Digital Communication Tester. Important Settings:

- Channel (Frequency): please refer to the detailed results 4) The transmitted power of the EUT was recorded by using a spectrum analyser. Test Description (radiated measurement procedure) 1) The EUT was placed inside an anechoic chamber. Refer to chapter "Setup Drawings". The EUT was coupled to a Digital Communication Tester which was located outside the chamber via a small signalling antenna. 2) A call was established on a Traffic Channel between the EUT and the Digital Communication Tester. Page 47 of 55 Reference: MDE_UBLOX_1807_FCCi Important Settings:

- Output Power: Maximum

- Channel: please refer to the detailed results 3) A substitution procedure is used so that the readings from the spectrum analyser are corrected and represent directly the equivalent radiated power (related to a lamda/2 dipole). 4) The output power was measured in both vertical and horizontal antenna polarisation during the call is established on the lowest channel, mid channel and on the highest channel. To find the worst case power all orientations (X, Y, Z) of the EUT have been measured. 5) The test procedure according to ANSI C63.26-2015 has been considered. Test Requirements / Limits 2.1046 Measurements Required: RF Power Output

(a) For transmitters other than single sideband, independent sideband and controlled carrier radiotelephone, power output shall be measured at the RF output terminals when the transmitter is adjusted in accordance with the tune-up procedure to give the values of current and voltage on the circuit elements specified in 2.1033(c)(8). The electrical characteristics of the output terminals when this test is made shall be stated. 27.50 Power and antenna height limits.

(d) The following power and antenna height requirements apply to stations transmitting in the 17101755 MHz and 21102155 MHz bands:

(2) Fixed, mobile, and portable (hand-held) stations operating in the 17101755 MHz band are limited to a peak EIRP of 1 watt. Fixed stations operating in this band are limited to a maximum antenna height of 10 meters above ground, and mobile and portable stations must employ a means for limiting power to the minimum necessary for successful communications. ____________________________ Emission and Occupied Bandwidth ____________________________ Standard FCC Part 27, Subpart C The test was performed according to: FCC 2.1049 Test Description 1) The EUT was coupled to a Spectrum Analyser and a Digital Communication Tester through a Power Divider. Refer to chapter "Setup Drawings". 2) The total insertion losses for signal path 1 and signal path 2 were measured. The values were used to correct the readings from the Spectrum Analyser and the Digital Communication Tester. 3) A call was established on a Traffic Channel between the EUT and the Digital Communication Tester. Important Settings:

- Output Power: Maximum

- Channel: please refer to the detailed results 4) Important Analyser Settings:

- Resolution Bandwidth: >1% of the manufacturers stated occupied bandwidth 5) The maximum spectral level of the modulated signal was recorded as the reference. 6) The emission bandwidth is measured as follows:

the two furthest frequencies above and below the frequency of the maximum reference level where the spectrum is 26 dB down have to be found. 7) The occupied bandwidth (99% Bandwidth) is measured as follows:

the occupied bandwidth, that is the frequency bandwidth such that, below its lower and above its upper frequency limits, the mean powers are each equal to 0.5 percent of the total mean power. Test Requirements / Limits 2.1049 Measurements required: Occupied bandwidth The occupied bandwidth, that is the frequency bandwidth such that, below its lower and above its upper frequency limits, the mean powers radiated are each equal to 0.5 percent of the total mean power radiated by a given emission shall be measured under the following conditions (as applicable):

(h) Transmitters employing digital modulation techniques - when modulated by an input signal such that its amplitude and symbol rate represent the maximum rated conditions under which the equipment will be operated. The signal shall be applied through any filter networks, pseudo-random generators or other devices required in normal service. Additionally, the occupied bandwidth shall be shown for operation with any Page 48 of 55 devices used for modifying the spectrum when such devices are optional at the discretion of the user. Reference: MDE_UBLOX_1807_FCCi ______________________________ Field strength of spurious radiation _______________________________ Standard FCC Part 27, Subpart C The test was performed according to: FCC 2.1053 Test Description 1) The EUT was placed inside an anechoic chamber. Refer to chapter "Setup Drawings". The EUT was coupled to a Digital Communication Tester which was located outside the chamber via a small signalling antenna. 2) A call was established on a Traffic Channel between the EUT and the Digital Communication Tester. Important Settings:

- Output Power: Maximum

- Channel : please refer to the detailed results 3) A pre-calibration procedure is used so that the readings from the spectrum analyser are corrected and represent directly the equivalent radiated power (related to a lamda/2 dipole). 4) All spurious radiation measurements were made with spectrum analyser and the appropriate calibrated antennas for the frequency range of 30 MHz to 18 GHz (up to the 10th harmonic of the transmit frequency). The frequency range from 9 kHz to 30 MHz has been examined during the conducted spurious emission measurements. 5) Important Analyser Settings

- [Resolution Bandwidth / Video Bandwidth]:

a) [3 kHz / 10 kHz] in the Span of 1 MHz directly below and above the Band, b) [10 kHz / 30 kHz] in case the curve of the analyser IF-Filter leads to an exceeding of the limit, in this case a worst case correction factor of 20 dB (1 MHz -> 10 kHz) was used c) [1 MHz / 3 MHz] otherwise

- Sweep Time: depending on the transmitting signal, the span and the resolution bandwidth 6) The spurious emissions peaks were measured in both vertical and horizontal antenna polarisation during the call is established on the lowest channel, mid channel and on the highest channel. To find the worst case peaks all orientations (X, Y, Z) of the EUT have been measured. 7) After this initial test, a final test according to ANSI C63.26 2015 Unwanted Emissions is performed on signals which are identified as being close to the limit. For any emissions found to be within 10 dB of the limit, a specific signal substitution measurement is performed at the frequency of the emission to determine the exact e.i.r.p. value. Test Requirements / Limits 2.1053 Measurements required: Field strength of spurious radiation. Measurements shall be made to detect spurious emissions that may be radiated directly from the cabinet, control circuits, power leads, or intermediate circuit elements under normal conditions of installation and operation. Curves or equivalent data shall be supplied showing the magnitude of each harmonic and other spurious emission. For this test, single sideband, independent sideband, and controlled carrier transmitters shall be modulated under the conditions specified in paragraph (c) of Sec. 2.1049, as appropriate. For equipment operating on frequencies below 890 MHz, an open field test is normally required, with the measuring instrument antenna located in the far-field at all test frequencies. In the event it is either impractical or impossible to make open field measurements (e.g. a broadcast transmitter installed in a building) measurements will be accepted of the equipment as installed. Such measurements must be accompanied by a description of the site where the measurements were made showing the location of any possible source of reflections which might distort the field strength measurements. Information submitted shall include the relative radiated power of each spurious emission with reference to the rated power output of the transmitter, assuming all emissions are radiated from halfwave dipole antennas.

(b) The measurements specified in paragraph (a) of this section shall be made for the following equipment:

(2) All equipment operating on frequencies higher than 25 MHz. 2.1057 Frequency spectrum to be investigated.

(a) In all of the measurements set forth in Secs. 2.1051 and 2.1053, the spectrum shall be investigated from the lowest radio frequency signal generated in the equipment, without going below 9 kHz, up to at least the frequency shown below:

(1) If the equipment operates below 10 GHz: to the tenth harmonic of the highest fundamental frequency or to 40 GHz, whichever is lower.

(b) Particular attention should be paid to harmonics and subharmonics of the carrier frequency as well as to Page 49 of 55 Reference: MDE_UBLOX_1807_FCCi those frequencies removed from the carrier by multiples of the oscillator frequency. Radiation at the frequencies of multiplier stages should also be checked.

(c) The amplitude of spurious emissions which are attenuated more than 20 dB below the permissible value need not be reported.

(d) Unless otherwise specified, measurements above 40 GHz shall be performed using a minimum resolution bandwidth of 1 MHz. 27.53 Emission limits

(g) For operations in the 600 MHz band and the 698-746 MHz band, the power of any emission outside a licensee's frequency band(s) of operation shall be attenuated below the transmitter power (P) within the licensed band(s) of operation, measured in watts, by at least 43 + 10 log (P) dB. Compliance with this provision is based on the use of measurement instrumentation employing a resolution bandwidth of 100 kilohertz or greater. However, in the 100 kilohertz bands immediately outside and adjacent to a licensee's frequency block, a resolution bandwidth of at least 30 kHz may be employed.

(h) For operations in the 17101755 MHz and 21102155 MHz bands, the power of any emission outside a licensee's frequency block shall be attenuated below the transmitter power (P) by at least 43 + 10 log10(P) dB. m(4) For mobile digital stations, the attenuation factor shall be not less than 40 + 10 log (P) dB on all frequencies between the channel edge and 5 megahertz from the channel edge, 43 + 10 log (P) dB on all frequencies between 5 megahertz and X megahertz from the channel edge, and 55 + 10 log (P) dB on all frequencies more than X megahertz from the channel edge, where X is the greater of 6 megahertz or the actual emission bandwidth as defined in paragraph (m)(6) of this section. In addition, the attenuation factor shall not be less that 43 + 10 log (P) dB on all frequencies between 2490.5 MHz and 2496 MHz and 55 + 10 log (P) dB at or below 2490.5 MHz. Mobile Satellite Service licensees operating on frequencies below 2495 MHz may also submit a documented interference complaint against BRS licensees operating on channel BRS Channel 1 on the same terms and conditions as adjacent channel BRS or EBS licensees. Remark of the test laboratory: This is calculated to be -13 dBm (effective radiated power) which corresponds to 84.6 dBV/m (field strength) in a distance of 3 m.

(1) Compliance with this provision is based on the use of measurement instrumentation employing a resolution bandwidth of 1 megahertz or greater. However, in the 1 megahertz bands immediately outside and adjacent to the licensee's frequency block, a resolution bandwidth of at least one percent of the emission bandwidth of the fundamental emission of the transmitter may be employed. The emission bandwidth is defined as the width of the signal between two points, one below the carrier center frequency and one above the carrier center frequency, outside of which all emissions are attenuated at least 26 dB below the transmitter power.

(2) When measuring the emission limits, the nominal carrier frequency shall be adjusted as close to the licensee's frequency block edges, both upper and lower, as the design permits.

(3) The measurements of emission power can be expressed in peak or average values, provided they are expressed in the same parameters as the transmitter power. For reporting only spurious emission levels reaching to the 20dB margin to limit were noted. __________________ Band edge compliance __________________ Standard FCC Part 27, Subpart C The test was performed according to: FCC 27.53 Test Description 1) The EUT was coupled to a Spectrum Analyser and a Digital Communication Tester through a Power Divider. Refer to chapter

"Setup Drawings". 2) The total insertion losses for signal path 1 and signal path 2 were measured. The values were used to correct the readings from the Spectrum Analyser and the Digital Communication Tester. 3) A call was established on a Traffic Channel between the EUT and the Digital Communication Tester. Important Settings:

- Output Power: Maximum

- Channel: please refer to the detailed results 4) Important Analyser Settings:

- Resolution Bandwidth = Video Bandwidth: >1% of the manufacturers stated occupied bandwidth For LTE band eFDD13 in the ranges of 765-775MHz and 793-805MHz.These frequency ranges are part of spurious conducted and measured with 10kHz RBW. Test Requirements / Limits 27.53 Effective radiated power limits Refer to chapter "Field strength of spurious radiation"

Page 50 of 55 Reference: MDE_UBLOX_1807_FCCi Sub-

test 1 2 3 4 Note 1:

Note 2:

Note 3:

Note 4:

c d d

(SF) 64 64 c/d 2/15 12/15

(Note 4) HS

(Note1, Note 2) 4/15 24/15 CM (dB)

(Note 3) 0.0 1.0 MPR (dB)

(Note 3) 0.0 0.0 15/15 15/15

(Note 4) 2/15 12/15

(Note 4) 15/15 15/15

?ACK, ?NACK and ?CQI = 30/15 with For the HS-DPCCH power mask requirement test in clause 5.2C, 5.7A, and the Error Vector Magnitude (EVM) with HS-DPCCH test in clause 5.13.1A, and HSDPA EVM with phase discontinuity in clause 5.13.1AA, ?ACK and ?NACK = 30/15 with 30/15 30/15 c . hs = 30/15 *

15/8 15/4 8/15 4/15 0.5 0.5 1.5 1.5 64 64 hs = 30/15 *

c , and ?CQI = 24/15 hs = 24/15 *

c . with CM = 1 for c/d =12/15, hs/c=24/15. For all other combinations of DPDCH, DPCCH and HS-

DPCCH the MPR is based on the relative CM difference. This is applicable for only UEs that support HSDPA in release 6 and later releases. For subtest 2 the c/d ratio of 12/15 for the TFC during the measurement period (TF1, TF0) is achieved by setting the signalled gain factors for the reference TFC (TF1, TF1) to c = 11/15 and d

= 15/15. _____________ Subtests HSDPA _____________ _____________ Subtests HSUPA _____________ Subtest Mode Loopback Mode 1 2 3 4 5 Rel6 HSUPA Test Mode 1 Rel6 HSUPA Test Mode 1 Rel6 HSUPA Test Mode 1 Rel6 HSUPA Test Mode 1 Rel6 HSUPA Test Mode 1 Rel99 RMC 12.2kbps RMC 12.2kbps RMC 12.2kbps RMC 12.2kbps RMC 12.2kbps RMC HSDPA FRC HSUPA Test H-Set1 HSUPA Loopback H-Set1 HSUPA Loopback H-Set1 HSUPA Loopback H-Set1 HSUPA Loopback H-Set1 HSUPA Loopback Max UL Data Rate

(kb/s) 242.1 161.3 524.7 197.6 299.6 c/d 11/15 6/15 15/9 2/15 15/15 Subtest 1 2 3 4 5 hs 22/15 12/15 30/15 4/15 30/15 ed 1309/225 94/75 47/15 56/75 134/15 CM 1 3 2 3 1 Number of E-

DPDCH Channels 1 1 2 1 1 Page 51 of 55 _____________ Setup Drawings _____________ Reference: MDE_UBLOX_1807_FCCi Principle set-up for radiated measurements Page 52 of 55 Reference: MDE_UBLOX_1807_FCCi Page 53 of 55 Principle set-up for conducted measurements under nominal conditions Principle set-up for tests under extreme test conditions ________________________________________________________________________________________ Reference: MDE_UBLOX_1807_FCCi FCC Rule / IC Standard Part 22 Issue 3, 2013 Part 24 Issue 6, 2018 Part 27 Issue 3, 2015 Issue 1, 2013 Issue 32016 RSS-132 RSS-133 RSS-139 RSS-130 RSS-199 Effective (isotropic) Radiated Power 2.1046 22.913 Emission and Occupied Bandwidth 2.1049 Spuri at Antenna Terminal 2.1051 22.917 RSS-GEN 5, 6.12 RSS-132, 5.4 RSS-GEN 5 6.7 RSS-GEN 5, 6.13 RSS-132, 5.5 2.1046 24.232 RSS-GEN 5, 6.12 RSS-133, 6.4 2.1046 27.50 RSS-GEN 5, 6.12 RSS-139; 6.5 RSS-GEN 5, 6.12 RSS-130;

4.4 RSS-GEN 5, 6.12 RSS-199; 4.4 2.1049 RSS-GEN 5 6.7 2.1049 RSS-GEN 5 RSS-GEN 5 RSS-GEN 5 6.7 6.7 6.7 2.1051 24.238 RSS-GEN 5, 6.13 RSS-133, 6.5 2.1051 27.53 RSS-GEN 5, 6.13 RSS-139, 6.6 RSS-GEN 5, 6.13 RSS-130, 4.6 RSS-GEN 5, 6.13 RSS-199, 4.5 Band Edge compliance 2.1051 22.917 RSS-GEN 5, 6.13 2.1051 24.238 RSS-GEN 5, 6.13 2.1051 27.53 RSS-GEN 5, RSS-GEN 5, RSS-GEN 5, 6.13 6.13 6.13 Frequency Stability 2.1055 22.355 Peak to Average Ratio N/A Field Strength of Spurious Radiation 2.1053 22.917 RSS-GEN 5, 6.11 RSS-132, 5.3 RSS-GEN 5, 6.12 RSS-132, 5.4 RSS-GEN 5, 6.13 RSS-132, 5.5 2.1055 24.235 2.1046 24.232 2.1053 24.235 RSS-GEN 5, 6.11 RSS-133, 6.3 RSS-GEN 5, 6.12 RSS-133, 6.4 RSS-GEN 5, 6.13 RSS-133, 6.5 2.1055 27.51 RSS-GEN 5, 6.11 RSS-139, 6.4 2.1046 27.50 RSS-GEN 5, 6.12 RSS-139; 6.5 2.1053 27.51 RSS-GEN 5, 6.13 RSS-139, 6.6 RSS-GEN 5, 6.11 RSS-130, 4.3 RSS-GEN 5, 6.12 RSS-130;

4.4 RSS-GEN 5, 6.13 RSS-130, 4.6 RSS-GEN 5, 6.11 RSS-199, 4.3 RSS-GEN 5, 6.12 RSS-199; 4.4 RSS-GEN 5, 6.13 RSS-199, 4.5 Page 54 of 59 6 Index 1 Administrative Data 1.1 Project Data 1.2 Applicant Data 1.3 Test Laboratory Data 1.4 Signature of the Testing Responsible 1.5 Signature of the Accreditation Responsible 2 Test Object Data 2.1 General OUT Description 2.2 Detailed Description of OUT Samples 2.3 Setups used for Testing 3 Results 3.1 General 3.2 List of Test Specification 3.3 Summary 3.4 Detailed Results 3.4.1 22.4 Field strength of spurious radiation 2.1053, 22.917 3.4.2 24.4 Field strength of spurious radiation 2.1053, 24.238 3.4.3 27.1 RF Power Output 2.1046, 27.250 3.4.4 27.3 Spurious emissions at antenna terminals 2.1051, 27.53 3.4.5 27.4 Field strength of spurious radiation 2.1053, 27.53 3.4.6 27.5 Emission and Occupied Bandwidth 2.1049 3.4.7 27.6 Band edge compliance 2.1053, 27.53 4 Test Equipment Details 4.1 List of Used Test Equipment 5 Annex 5.1 Additional Information for Report 6 Index Reference: MDE_UBLOX_1807_FCCi 2 2 2 2 3 3 4 4 5 6 6 6 6 7 8 8 11 14 19 20 28 30 32 32 38 38 55 Page 55 of 55

 

 

Radio Frequency Exposure Evaluation Report FOR:

Zonar Systems Model Name:

ZTCU4B Product Description:

Vehicle mounted Telematics device FCC ID: SEJ-ZTCU4B IC ID: 5266A-ZTCU4B Per:

CFR Part Part1 (1.1307 &1.1310), Part 2 (2.1091), FCC KDB 447498 D01 General RF Exposure Guidance v06 ISEDC RSS-102 Issue 5 Report number: EMC_ ZONAR_019_19001_FCC_ISED-Rev1_MPE DATE: 2019-08-07 CETECOM Inc. 411 Dixon Landing Road Milpitas, CA 95035 U.S.A. Phone: + 1 (408) 586 6200 Fax: + 1 (408) 586 6299 E-mail: info@cetecom.com http://www.cetecom.com CETECOM Inc. is a Delaware Corporation with Corporation number: 2905571 V5.0 2015-10-27 Copyright by CETECOM 1 Assessment This RF Exposure evaluation report provides evidence for compliance of the below identified device with the RF Exposure limits for mobile devices as defined in FCC CFR Part 1 (1.1307 &1.1310), Part 2 (2.1091) and IC standard RSS-102 issue 5 under worst case conditions (measured or rated RF output power, antenna gain, distance towards human body, multiple transmitter information as presented by the applicant). In addition, maximum antenna gain or minimum distance towards the human body is calculated respectively, where relevant. The device meets the limits as stipulated by the above given FCC and IC rule parts based on available specifications for worst case conditions at 20cm distance to the body. Description Vehicle mounted Telematics device Model #

ZTCU4B Company Zonar Systems Report reviewed by: TCB Evaluator 2019-08-07 Compliance Date Section Responsible for the Report:

Cindy Li

(Lab Manager) Name Signature 2019-08-07 Compliance Yuchan Lu

(Test Engineer) Date Section Name Signature Page 2 of 8 2 Administrative Data 2.1 Identification of the Testing Laboratory Issuing the Test Report Company Name:

Department:

Street Address:

City/Zip Code Country Telephone:

Fax:

Lab Manager:

CETECOM Inc. Compliance 411 Dixon Landing Road Milpitas, CA 95035 USA

+1 (408) 586 6200

+1 (408) 586 6299 Cindy Li Responsible Project Leader:

Sangeetha Sivaraman 2.2 Identification of the Client / Manufacturer Applicants Name:

Street Address:

City/Zip Code Country Identification of the Manufacturer Zonar Systems 18200 Cascade Avenue North Seattle Washington, 98188 USA Manufacturers Name:

Manufacturers Address:

City/Zip Code Country Same as Client Page 3 of 8 3 Equipment under Assessment Marketing name:

V4 Base HW Version :

SW Version :

Firmware Version Identification Number

(FVIN):

2 4.8 4.8 Hardware Version Identification Number

(HVIN):

ZTCU4B Product Marketing Name (PMN):

V4 Base Regulatory Band:

Cellular Module:

GSM 850: 824.2 ~ 848.8 MHz GSM 1900: 1850.2 ~ 1909.8 MHz WCDMA/UMTS FDD BAND II: 1852.4 ~ 1907.6 MHz WCDMA/UMTS FDD BAND IV: 1712.4 ~ 1752.6 MHz WCDMA/UMTS FDD BAND V: 826.4 ~ 846.6 MHz LTE BAND 2: 1850.7 ~ 1909.3 MHz LTE BAND 4: 1710.7 ~ 1754.3 MHz LTE BAND 5: 824.7 ~ 848.3 MHz LTE BAND 7: 2502.5 ~ 2567.5 MHz LTE BAND 17: 706.5 ~ 713.5 MHz Bluetooth Classic:

2402 MHz (ch0) 2480 MHz (ch78), 79 channels Bluetooth LE:

2402 MHz (ch0) 2480 MHz (ch39), 40 channels WLAN 2412 MHz (ch1) 2462 MHz (ch11), 11 channels Cellular Module:

Module name: ublox Module number: TOBY-R200 FCC/IC ID: XPYTOBYL200 / 8595A-TOBYL200 Integrated Module Info:

Bluetooth Classic, Bluetooth LE:

Module name: ublox Module number: NINA-B222 FCC/IC ID: XPYNINAB22 / 8595A-NINAB22 WLAN:

Module name: ublox Page 4 of 8 Module number: ELLA-W131 FCC/IC ID: PV7-WIBEAR11N-SF1 / 7738A-

WB11NSF1 GPS Module name: ublox Module number: MAX-M8Q-0-01 Cellular: Primary antenna maximum gains:

GSM 850: 0.77 dBi GSM 1900: 2.92 dBi WCDMA II: 2.92 dBi WCDMA IV: 3.05 dBi WCDMA V: 0.77 dBi LTE Band 2: 2.92 dBi LTE Band 4: 3.05 dBi LTE Band 5: 0.77 dBi LTE Band 7: 3.72 dBi LTE Band 17: -0.21 dBi Bluetooth Classic, Bluetooth LE:

PIFA Antenna gain: 3 dBi WLAN:

Ceramic chip, solder SMD Antenna gain: 0.5 dBi Cellular: From modular grant [Watts]:

GSM 850: 1.476 GSM1900: 1.117 WCDMA Band II: 0.2218 WCDMA Band IV: 0.2432 WCDMA Band V: 0.182 LTE Band 2: 0.2748 LTE Band 4: 0.2858 LTE Band 5: 0.271 LTE Band 7: 0.2244 LTE Band 17: 0.2427 Antenna Type:

Maximum Conducted Output Power:

Bluetooth Classic: From modular report [Watts]: 0.00692 Bluetooth LE: From modular grant [Watts]: 0.014 WLAN: From modular grant [Watts]: 0.27 Page 5 of 8 Power Supply/ Rated Operating Voltage Range:

Low 9VDC, Nominal 13-14VDC, High 32VDC Operating Temperature Range:

Low -40 C, Nominal 23 C, High 85 C Sample Revision:

Prototype Unit; Production Unit; Pre-Production 4 RF Exposure Limits and FCC and IC Basic Rules For the specific described radio apparatus the following basic limits and rules apply for both, FCC and IC where not indicated differently. 4.1 Power Density Limits acc. to FCC 1.1310(e) / RSS-102 i5, cl. 4:

FCC IC Frequency Range (MHz) Power density (mW/cm2) Averaging time (minutes) 300 1500 1500 100.000 f (MHz) /1500 1.0 300 6000 0.02619 x f (MHz) 0.6834 30 30 6 4.2 Routine Environmental Evaluation Categorical Exclusion Limits acc. to FCC 2.109(c) /

RSS-102, cl. 2.5 (rounded to 1 decimal point):

FCC operating frequency < 1.5GHz: excluded if ERP < 1.5W / 31.8dBm (EIRP: 33.9);

operating frequency > 1.5GHz: excluded if ERP < 3.0W / 34.8dBm (EIRP: 36.9);

IC 300MHz < = operating frequency < 6 GHz: excluded if EIRP < 0.0131 x f (MHz) 0.6834 W 4.3 RF Exposure Estimation (MPE Estimation) Having available the source based average output power and peak antenna gain or the ERP/EIRP of the specified device and for a known minimum distance of its radiating structures from the body of persons according to its use cases (at least 20cm) the power density at that distance can be estimated by the following formula for plane-wave equivalent conditions

(far-field conditions), when ground reflection is neglected. where: S = power density (mW/cm2 or W/m2) P = power input to the antenna (mW or W) G = power gain of the antenna in the direction of interest relative to an isotropic radiator R = distance to the center of radiation of the antenna (cm or m) Page 6 of 8 24RPGS 5 Evaluations 5.1 Analysis of RF Exposure for simultaneous transmission Evaluations are based on worst case power density limits for Canada. Calculations are made for 20cm. Evaluations are based on ERP/EIRP measured or calculated from known gain and conducted output power including highest power from original cellular grant and the C2PC cellular grant from 2019. Cellular can transmit simultaneously with WLAN. Radio GSM 850 GSM 1900 WCDMA II WCDMA IV WCDMA V LTE 2 LTE 4 LTE 5 LTE 7 LTE 17 BT BT-LE WLAN freq

[MHz]

Max Conducted power [W]

Gain

[dBi]

Gain

[lin]

EIRP

[W]

IC Limit

[W/m2]

FCC LImit

[W/m2]

Actual

[W/m2]

How much of limit is used up 824 1850 1850 1710 824 1850 1710 824 2500 704 2402 2402 2412 1.4760 1.1170 0.2218 0.2432 0.1820 0.2748 0.2858 0.2710 0.2244 0.2427 0.0069 0.0140 0.2700 0.77 2.92 2.92 3.05 0.77 2.92 3.05 0.77 3.72

-0.21 3 3 0.5 1.19 1.96 1.96 2.02 1.19 1.96 2.02 1.19 2.36 0.95 2.00 2.00 1.12 1.762 2.188 0.434 0.491 0.217 0.538 0.577 0.324 0.528 0.231 0.014 0.028 0.303 2.576 4.476 4.476 4.242 2.576 4.476 4.242 2.576 5.499 2.313 5.351 5.351 5.366 5.493 1.753 10.000 2.176 10.000 0.864 10.000 0.977 5.493 0.432 10.000 1.071 10.000 1.148 5.493 0.644 10.000 1.051 4.693 0.460 10.000 0.027 10.000 0.056 68.06%

48.62%

19.31%

23.02%

16.79%

23.92%

27.05%

24.99%

19.12%

19.89%

0.51%

1.04%

10.000 0.603 11.23%

Note1EIRP of GSM850 and GSM1900 was corrected for worst case DC 50%

. 5.2 Conclusion:

The worst-case simultaneous transmission is GSM 850 simultaneous with WLAN which is using 79.29 of a limit of 100%. The equipment is passing RF exposure requirements for 20cm distance. Page 7 of 8 6 Revision History Date Report Name Changes to report Report prepared by 2019-06-21 2019-08-07 EMC_ZONAR_019_19001_FCC_ISED _MPE EMC_ZONAR_019_19001_FCC_ISED _MPE-Rev1 Initial Release Yuchan Lu Updated S 5.1 of report to account for the 3/27/2019 C2PC Yuchan Lu of the Cellular module Page 8 of 8

 

 

FCC/ISED Test Report FOR:

Zonar Systems Model Number:

ZTCU4B Product Description:

Vehicle mounted Telematics device FCC ID: SEJ-ZTCU4B IC ID: 5266A-ZTCU4B Per:

47 CFR: Part 27 RSS-130; RSS-139 Issue 3 REPORT #: EMC_ZONAR-021-19001_FCC_27_ISED DATE: 2019-08-08 A2LA Accredited IC recognized #

3462B-2 CETECOM Inc. 411 Dixon Landing Road Milpitas, CA 95035 U.S.A. Phone: + 1 (408) 586 6200 Fax: + 1 (408) 586 6299 E-mail: info@cetecom.com http://www.cetecom.com CETECOM Inc. is a Delaware Corporation with Corporation number: 2905571 The BLUETOOTH trademarks are owned by Bluetooth SIG, Inc., U.S.A. and licensed to CETECOM Inc. Copyright by CETECOM V4.0 2012-07-25 1 2 Test Report #: EMC_ZONAR-021-19001_FCC_27_ISED FCC ID: SEJ-ZTCU4B Date of Report 2019-08-08 Page 2 of 36 IC ID: 5266A-ZTCU4B TABLE OF CONTENTS ASSESSMENT .............................................................................................................................................................. 3 ADMINISTRATIVE DATA ............................................................................................................................................... 4 2.1 2.2 2.3 IDENTIFICATION OF THE TESTING LABORATORY ISSUING THE EMC TEST REPORT ........................................................................... 4 IDENTIFICATION OF THE CLIENT ............................................................................................................................................. 4 IDENTIFICATION OF THE MANUFACTURER ................................................................................................................................. 4 3 EQUIPMENT UNDER TEST (EUT) ................................................................................................................................... 5 3.1 EUT SPECIFICATIONS ......................................................................................................................................................... 5 3.2 EUT SAMPLE DETAILS ......................................................................................................................................................... 6 3.3 ACCESSORY EQUIPMENT (AE) DETAILS .................................................................................................................................. 6 3.4 SUPPORT EQUIPMENT ......................................................................................................................................................... 6 3.5 TEST SAMPLE CONFIGURATION ............................................................................................................................................. 6 3.6 MODE OF OPERATION DETAILS .............................................................................................................................................. 7 3.7 JUSTIFICATION FOR WORST CASE MODE OF OPERATION ............................................................................................................ 7 4 SUBJECT OF INVESTIGATION ...................................................................................................................................... 8 4.1 DATES OF TESTING: ............................................................................................................................................................ 8 4.2 MEASUREMENT UNCERTAINTY .............................................................................................................................................. 8 4.3 ENVIRONMENTAL CONDITIONS DURING TESTING: ...................................................................................................................... 8 5 MEASUREMENT PROCEDURES .................................................................................................................................... 9 5.1 RADIATED MEASUREMENT .................................................................................................................................................... 9 5.2 SAMPLE CALCULATIONS FOR FIELD STRENGTH MEASUREMENTS ............................................................................................... 11 MEASUREMENT RESULTS SUMMARY ........................................................................................................................ 12 6.1 FCC 27, RSS-130, RSS-139: ........................................................................................................................................... 12 TEST RESULT DATA .................................................................................................................................................. 13 7.1 ERP .............................................................................................................................................................................. 13 7.2 RADIATED SPURIOUS EMISSIONS ......................................................................................................................................... 14 TEST SETUP PHOTO .................................................................................................................................................. 36 TEST EQUIPMENT AND ANCILLARIES USED FOR TESTING ......................................................................................... 36 REVISION HISTORY ................................................................................................................................................... 36 6 7 8 9 10 Test Report #: EMC_ZONAR-021-19001_FCC_27_ISED FCC ID: SEJ-ZTCU4B Date of Report 2019-08-08 Page 3 of 36 IC ID: 5266A-ZTCU4B 1 Assessment The following device as further described in section 3 of this report was evaluated for radiated spurious emissions in simultaneous transmission of cellular and unlicensed radios according to criteria specified in the Code of Federal Regulations Title 47 parts 27 and Industry Canada Radio Standard Specifications RSS: 130 and 139 Issue3. Company Zonar Systems Description Vehicle mounted Telematics device Model #

ZTCU4B No deficiencies were ascertained. Responsible for Testing Laboratory:

2019-08-08 Compliance Cindy Li

(Lab Manager) Date Section Name Responsible for the Report:

2019-08-08 Compliance Yuchan Lu

(Test Engineer) Signature Date Section Name Signature The test results of this test report relate exclusively to the test item specified in Section3. CETECOM Inc. USA 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 CETECOM Inc. USA. Test Report #: EMC_ZONAR-021-19001_FCC_27_ISED FCC ID: SEJ-ZTCU4B Date of Report 2019-08-08 2 Administrative Data Page 4 of 36 IC ID: 5266A-ZTCU4B 2.1 Identification of the Testing Laboratory Issuing the EMC Test Report Company Name:

Department:

Street Address:

City/Zip Code Country Telephone:

Fax:

Lab Manager:

CETECOM Inc. Compliance 411 Dixon Landing Road Milpitas, CA 95035 USA

+1 (408) 586 6200

+1 (408) 586 6299 Cindy Li Responsible Project Leader:

Sangeetha Sivaraman 2.2 Identification of the Client Applicants Name:

Zonar Systems Street Address:

City/Zip Code Country 18200 Cascade Avenue North Seattle Washington, 98188 USA 2.3 Identification of the Manufacturer Manufacturers Name:

Manufacturers Address:

City/Zip Code Country Same as Client Test Report #: EMC_ZONAR-021-19001_FCC_27_ISED FCC ID: SEJ-ZTCU4B Page 5 of 36 IC ID: 5266A-ZTCU4B Date of Report 2019-08-08 3 Equipment Under Test (EUT) 3.1 EUT Specifications Firmware Version Identification Number (FVIN):

4.8 Hardware Version Identification Number (HVIN):

ZTCU4B Product Marketing Name

(PMN):

V4 Base Antenna Information as declared:

Antenna gains:

LTE Band 4: 3.05 dBi LTE Band 17: -0.21 dBi Bluetooth Classic, BLE Module name: ublox Module number: NINA-B222 FCC/IC ID: XPYNINAB22 / 8595A-NINAB22 WLAN:

Module name: ublox Module number: ELLA-W131 FCC/IC ID: PV7-WIBEAR11N-SF1 / 7738A-WB11NSF1 GPS Module name: ublox Module number: MAX-M8Q-0-01 Low 9 VDC, Nominal 13-14 VDC, High 32 VDC Low -40 C, Nominal 23 C, High 85 C Other Radios included in the device:

Power Supply/ Rated Operating Voltage Range:

Operating Temperature Range:

Sample Revision Prototype Unit; Production Unit; Pre-Production EUT Dimensions(mm):

152 x 94 x 32 Weight(grams):

EUT Diameter 220

< 60 cm Other __________ Test Report #: EMC_ZONAR-021-19001_FCC_27_ISED FCC ID: SEJ-ZTCU4B Date of Report 2019-08-08 Page 6 of 36 IC ID: 5266A-ZTCU4B Module Name:

Model Number:

FCC ID:

IC ID:

Module Information ublox TOBY-R200 XPYTOBYL200 8595A-TOBYL200 3.2 EUT Sample details EUT #

IMEI number HW Version SW Version Notes/Comments 1 358661100012399 2.1 4.8 Radiated Measurement 3.3 Accessory Equipment (AE) Details AE #

Comments 1 Power cable(4-pin connector) 3.4 Support Equipment SE #

Comments 1 USB cable for WiFi/Cellular interface with different vehicles (6-pin connector) 3.5 Test Sample Configuration EUT Set-up #

Combination of AE/SE used for test set up 1 EUT# 1 + AE# 1 Comments Worst Case Test Report #: EMC_ZONAR-021-19001_FCC_27_ISED FCC ID: SEJ-ZTCU4B Date of Report 2019-08-08 Page 7 of 36 IC ID: 5266A-ZTCU4B 3.6 Mode of Operation details Mode of Operation Description of Operating modes Op. 1 Cellular and WLAN Co-Transmission Additional Information Cellular was tested on Low, Mid, High Channels at the maximum power in a co-transmission mode. Special commands through command window used to configure the WLAN n mode, HT40, Low channel provided by the client that will not be available to the end user For radiated measurements: The internal antenna was connected. Justification for Worst Case Mode of Operation 3.7 During the testing process the EUT was tested with transmitter sets on low, mid and high channels at the maximum power simultaneous transmission with WLAN n mode, HT40, Low channel. Which it is the worst case of the radios supported, based on the maximum average conducted output power from the reports. For radiated measurements, all data in this report shows the worst case between horizontal and vertical antenna polarizations and for all orientations of the EUT. Test Report #: EMC_ZONAR-021-19001_FCC_27_ISED FCC ID: SEJ-ZTCU4B Date of Report 2019-08-08 Page 8 of 36 IC ID: 5266A-ZTCU4B 4 Subject of Investigation The objective of the evaluation conducted by CETECOM Inc. is to support a request for new equipment authorization under FCC ID: SEJ-ZTCU4B / IC ID: 5266A-ZTCU4B The pre-certified module to be integrated (TOBY-R200) as described in Section 3, Radiated Spurious Emissions test was performed. Results have been checked to meet limits per Code of Federal Regulations Title 47 parts 27 and Industry Canada Radio Standard Specifications RSS: 130 and 139 Issue 3. The conducted module test data that can be obtained under the FCC Filing ID: XPYTOBYL200 is applicable for the host described in section 3. 4.1 Dates of Testing:

07/24/2019 7/25/2019 4.2 Measurement Uncertainty Where relevant, the following measurement uncertainty levels have been estimated for tests performed on the apparatus, with 95% confidence interval (in dB delta to result), based on a coverage factor k=1. Radiated measurement 9 kHz to 30MHz 30 MHz to 1000 MHz 1 GHz to 40 GHz 2.5 dB (Magnetic Loop Antenna) 2.0 dB (Biconilog Antenna) 2.3 dB (Horn Antenna) 4.3 Environmental Conditions during Testing:

The following environmental conditions were maintained during the course of testing:

Ambient Temperature: 20-25oC Relative humidity: 40-60%

Deviating test conditions are indicated at individual test description where applicable. Test Report #: EMC_ZONAR-021-19001_FCC_27_ISED FCC ID: SEJ-ZTCU4B Date of Report 2019-08-08 Page 9 of 36 IC ID: 5266A-ZTCU4B 5 Measurement Procedures Testing is performed according to the guidelines provided in FCC publication (KDB) 971168 D01 v03 Measurement Guidance for Certification of Licensed Digital Transmitters and according to ANSI C63.26 as detailed below. 5.1 Radiated Measurement The exploratory measurement is accomplished by running a matrix of 16 sweeps over the required frequency range with R&S Test-SW EMC32 for 4 positions of the turntable, two orthogonal positions of the EUT and both antenna polarizations. This procedure exceeds the requirement of the above standards to cover the 3 orthogonal axis of the EUT. A max peak detector is utilized during the exploratory measurement. The Test-

SW creates an overall maximum trace for all 12 sweeps and saves the settings for each point of this trace. The maximum trace is part of the test report. The 10 highest emissions are selected with an automatic algorithm of EMC32 searching for peaks in the noise floor and ensuring that broadband signals are not selected multiple times. The maxima are then put through the final measurement and again maximized in a 90deg range of the turntable, fine search in frequency domain and height scan between 1m and 4m. The above procedure is repeated for all possible ways of power supply to EUT and for all supported modulations. In case there are no emissions above noise floor level only the maximum trace is reported as described above. The results are split up into up to 4 frequency ranges due to antenna bandwidth restrictions. A magnetic loop is used from 9 kHz to 30 MHz, a Biconilog antenna is used from 30 MHz to 1 GHz, and two different horn antennas are used to cover frequencies up to 40 GHz. Test Setup for Radiated Emissions from 9 kHz to 30 MHz Height Scan 1-4m EUT at 80cm Turn-Table 3 m Distance Loop Measurement Antenna Chamber Ground plane EMI Receiver Test Report #: EMC_ZONAR-021-19001_FCC_27_ISED FCC ID: SEJ-ZTCU4B Date of Report 2019-08-08 Page 10 of 36 IC ID: 5266A-ZTCU4B Test Setup for Radiated Emissions from 30 MHz to 1 GHz Height Scan 1-4m 3 m Distance EUT at 80 cm Turn-Table BiLog Measurement Antenna Chamber Ground plane EMI Receiver Test Setup for Radiated Emissions above 1 GHz Height Scan 1-4m 3 m Distance Horn Measurement Antenna EUT at 150 cm Turn-Table Chamber Ground plane EMI Receiver Test Report #: EMC_ZONAR-021-19001_FCC_27_ISED FCC ID: SEJ-ZTCU4B Date of Report 2019-08-08 Page 11 of 36 IC ID: 5266A-ZTCU4B 5.2 Sample Calculations for Field Strength Measurements Field Strength is calculated from the Spectrum Analyzer/ Receiver readings, taking into account the following parameters:

Measured reading in dBV Cable Loss between the receiving antenna and SA in dB and Antenna Factor in dB/m All radiated measurement plots in this report are taken from a test SW that calculates the Field Strength based on the following equation:

FS (dBV/m) = Measured Value on SA (dBV)- Cable Loss (dB)+ Antenna Factor (dB/m) Example:

Frequency

(MHz) 1000 Measured SA Cable Loss Antenna Factor Correction Field Strength Result

(dB) 3.5

(dB) 14

(dBV/m) 98.0

(dBV) 80.5 Test Report #: EMC_ZONAR-021-19001_FCC_27_ISED FCC ID: SEJ-ZTCU4B Date of Report 2019-08-08 Page 12 of 36 IC ID: 5266A-ZTCU4B 6 Measurement Results Summary 6.1 FCC 27, RSS-130, RSS-139:

Test Specification Test Case Temperature and Voltage Conditions Mode Pass Fail NA NP Result

-

-

-

-

-

Note 1 Note 2 Note 1 Note 2 Note 1 Note 2 Note 1 Note 2 Note 1 Note 2 Nominal Op.1 Complies 2.1046; 27.50 (d) RF Output Power Nominal 2.1055; 27.54 Frequency Stability Nominal 2.1049; 27.53 Occupied Bandwidth Nominal 2.1051; 27.53 2.1051; 27.53 2.1053;

27.53(g);

27.53(h);

RSS-130 Issue 1-4.6;

RSS-139 Issue 3-6.6;

Band Edge Compliance Conducted Spurious Emissions Radiated Spurious Emissions Nominal Nominal Note 1: NA= Not Applicable; NP= Not Performed. Note 2: Leveraged from module certification FCC ID: XPYTOBYL200 Test Report #: EMC_ZONAR-021-19001_FCC_27_ISED FCC ID: SEJ-ZTCU4B Date of Report 2019-08-08 Page 13 of 36 IC ID: 5266A-ZTCU4B 7 Test Result Data 7.1 EIRP Band LTE 4 Frequency Range EIRP Power

(MHz) 1710.7 1754.3 dBm 21.6 20.2 EIRP1

(W) 0.144 0.104 ERP1

(W)

-

0.064 Limit ERP (W) 1 3 LTE 17 706.5 713.5 Note 1: EIRP is leveraged from EMC_ZONAR-016-17001 _FCC_22_24_27_Rev1 based on examination and finding of reduced power in the updated cellular module grant for TOBY-L200 for affected bands. Test Report #: EMC_ZONAR-021-19001_FCC_27_ISED FCC ID: SEJ-ZTCU4B Date of Report 2019-08-08 Page 14 of 36 IC ID: 5266A-ZTCU4B 7.2 Radiated Spurious Emissions 7.2.1 Measurement according to FCC: CFR 47 Part 2.1053; Part 27.53 utilizing KDB 971168 D01 Power Meas License Digital Systems v03, and according to ANSI C63.26 2017 Spectrum Analyzer Settings for FCC 27 Frequency Range 30MHz 1 GHz 1 2.7 GHz 2.7 18 GHz 18 19.1 GHz Resolution Bandwidth Video Bandwidth Detector Trace Mode Sweep Time 100 kHz 100 kHz Peak Max Hold Auto 1 MHz 1 MHz Peak Max Hold Auto 1 MHz 1 MHz Peak Max Hold Auto 1 MHz 1 MHz Peak Max Hold Auto 7.2.2 Limits:

FCC Part 27.53 (g), and Part 27.53 (h) RSS-130-4.6, RSS-139 Issue 3 6.6 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 = (-13dBm) 7.2.3 Test conditions and setup:

Ambient Temperature (C) EUT operating mode Power Input 22 Op. 1 12 VDC Test Report #: EMC_ZONAR-021-19001_FCC_27_ISED FCC ID: SEJ-ZTCU4B Date of Report 2019-08-08 7.2.4 Measurement result:

Page 15 of 36 IC ID: 5266A-ZTCU4B Plot #

Cellular Channel EUT operating mode Scan Frequency Critical Frequency

[MHz]

Emission level

[dBm]

Limit

[dBm]

Result 1 3 4 7 8 10 11 13 14 17 Low Mid High Low Mid LTE 4 30 MHz 18 GHz 580.00 LTE 4 9 kHz 18 GHz

-

LTE 4 30 MHz 18 GHz 580.02 LTE 17 30 MHz 9 GHz

-

LTE 17 9 kHz 9 GHz 520.55 18 20 High LTE 17 30 MHz 9 GHz

-

-61.95

-

-62.06

-

-20.43

-

-13

-13

-13

-13

-13

-13 Pass Pass Pass Pass Pass Pass Test Report #: EMC_ZONAR-021-19001_FCC_27_ISED FCC ID: SEJ-ZTCU4B Date of Report 2019-08-08 7.2.5 Measurement Plots:

Page 16 of 36 IC ID: 5266A-ZTCU4B LTE Band 4 Plot # 1 Radiated Emissions: 30 MHz - 1 GHz Channel: Low Level in dBm Test Report #: EMC_ZONAR-021-19001_FCC_27_ISED FCC ID: SEJ-ZTCU4B Date of Report 2019-08-08 Page 17 of 36 IC ID: 5266A-ZTCU4B Plot # 2 Radiated Emissions: 1 GHz - 3 GHz Channel: Low Level in dBm Test Report #: EMC_ZONAR-021-19001_FCC_27_ISED FCC ID: SEJ-ZTCU4B Date of Report 2019-08-08 Page 18 of 36 IC ID: 5266A-ZTCU4B Plot # 3 Radiated Emissions: 3 GHz - 18 GHz Channel: Low Level in dBm Test Report #: EMC_ZONAR-021-19001_FCC_27_ISED FCC ID: SEJ-ZTCU4B Date of Report 2019-08-08 Page 19 of 36 IC ID: 5266A-ZTCU4B Plot # 4 Radiated Emissions: 9 kHz - 30 MHz Channel: Mid Level in dBm Test Report #: EMC_ZONAR-021-19001_FCC_27_ISED FCC ID: SEJ-ZTCU4B Date of Report 2019-08-08 Page 20 of 36 IC ID: 5266A-ZTCU4B Plot # 5 Radiated Emissions: 30 MHz 1 GHz Channel: Mid Level in dBm Test Report #: EMC_ZONAR-021-19001_FCC_27_ISED FCC ID: SEJ-ZTCU4B Date of Report 2019-08-08 Page 21 of 36 IC ID: 5266A-ZTCU4B Plot # 6 Radiated Emissions: 1 GHz - 3 GHz Channel: Mid Level in dBm Test Report #: EMC_ZONAR-021-19001_FCC_27_ISED FCC ID: SEJ-ZTCU4B Date of Report 2019-08-08 Page 22 of 36 IC ID: 5266A-ZTCU4B Plot # 7 Radiated Emissions: 3 GHz 18GHz Channel: Mid Level in dBm Test Report #: EMC_ZONAR-021-19001_FCC_27_ISED FCC ID: SEJ-ZTCU4B Date of Report 2019-08-08 Page 23 of 36 IC ID: 5266A-ZTCU4B Plot # 8 Radiated Emissions: 30 MHz - 1 GHz Channel: High Level in dBm Test Report #: EMC_ZONAR-021-19001_FCC_27_ISED FCC ID: SEJ-ZTCU4B Date of Report 2019-08-08 Page 24 of 36 IC ID: 5266A-ZTCU4B Plot # 9 Radiated Emissions: 1 GHz - 3 GHz Channel: High Level in dBm Test Report #: EMC_ZONAR-021-19001_FCC_27_ISED FCC ID: SEJ-ZTCU4B Date of Report 2019-08-08 Page 25 of 36 IC ID: 5266A-ZTCU4B Plot # 10 Radiated Emissions: 3 GHz - 18 GHz Channel: High Level in dBm Test Report #: EMC_ZONAR-021-19001_FCC_27_ISED FCC ID: SEJ-ZTCU4B Date of Report 2019-08-08 Page 26 of 36 IC ID: 5266A-ZTCU4B LTE Band 17 Plot # 11 Radiated Emissions: 30 MHz - 1 GHz Channel: Low Level in dBm Test Report #: EMC_ZONAR-021-19001_FCC_27_ISED FCC ID: SEJ-ZTCU4B Date of Report 2019-08-08 Page 27 of 36 IC ID: 5266A-ZTCU4B Plot # 12 Radiated Emissions: 1 GHz - 3 GHz Channel: Low Level in dBm Test Report #: EMC_ZONAR-021-19001_FCC_27_ISED FCC ID: SEJ-ZTCU4B Date of Report 2019-08-08 Page 28 of 36 IC ID: 5266A-ZTCU4B Plot # 13 Radiated Emissions: 3 GHz - 9 GHz Channel: Low Level in dBm Test Report #: EMC_ZONAR-021-19001_FCC_27_ISED FCC ID: SEJ-ZTCU4B Date of Report 2019-08-08 Page 29 of 36 IC ID: 5266A-ZTCU4B Plot # 14 Radiated Emissions: 9 kHz - 30 MHz Channel: Mid Level in dBm Test Report #: EMC_ZONAR-021-19001_FCC_27_ISED FCC ID: SEJ-ZTCU4B Date of Report 2019-08-08 Page 30 of 36 IC ID: 5266A-ZTCU4B Plot # 15 Radiated Emissions: 30 MHz 1 GHz Channel: Mid Level in dBm Test Report #: EMC_ZONAR-021-19001_FCC_27_ISED FCC ID: SEJ-ZTCU4B Date of Report 2019-08-08 Page 31 of 36 IC ID: 5266A-ZTCU4B Plot # 16 Radiated Emissions: 1 GHz - 3 GHz Channel: Mid Level in dBm Test Report #: EMC_ZONAR-021-19001_FCC_27_ISED FCC ID: SEJ-ZTCU4B Date of Report 2019-08-08 Page 32 of 36 IC ID: 5266A-ZTCU4B Plot # 17 Radiated Emissions: 3 GHz 9 GHz Channel: Mid Level in dBm Test Report #: EMC_ZONAR-021-19001_FCC_27_ISED FCC ID: SEJ-ZTCU4B Date of Report 2019-08-08 Page 33 of 36 IC ID: 5266A-ZTCU4B Plot # 18 Radiated Emissions: 30 MHz - 1 GHz Channel: High Level in dBm Test Report #: EMC_ZONAR-021-19001_FCC_27_ISED FCC ID: SEJ-ZTCU4B Date of Report 2019-08-08 Page 34 of 36 IC ID: 5266A-ZTCU4B Plot # 19 Radiated Emissions: 1 GHz - 3 GHz Channel: High Level in dBm Test Report #: EMC_ZONAR-021-19001_FCC_27_ISED FCC ID: SEJ-ZTCU4B Date of Report 2019-08-08 Page 35 of 36 IC ID: 5266A-ZTCU4B Plot # 20 Radiated Emissions: 3 GHz - 9 GHz Channel: High Level in dBm Test Report #: EMC_ZONAR-021-19001_FCC_27_ISED FCC ID: SEJ-ZTCU4B Date of Report 2019-08-08 Page 36 of 36 IC ID: 5266A-ZTCU4B Test setup photo 8 Setup photos are included in supporting file name: EMC_ZONAR-021-19001_ISED_Setup_Photos.pdf Test Equipment And Ancillaries Used For Testing 9 Equipment Type Manufacturer PASSIVE LOOP ANTENNA ETS LINDGREN BILOG ANTENNA HORN ANTENNA TESEO EMCO HORN ANTENNA ETS LINDGREN HORN ANTENNA ETS LINDGREN UNIVERSAL RADIO COMMUNICATION TESTER WIDEBAND RADIO COMMUNICATION SIGNAL ANALYZER COMPACT DIGITAL BAROMETER DIGITAL THRMOMETER R&S R&S R&S CONTROL COMPANY CONTROL COMPANY Model 6512 CBL 6141B 3115 3117 3116C CMU 200 CMW500 FSV 40 Serial #

Calibration Cycle Last Calibration Date 00164698 41106 00035114 00167061 00166821 101821 127068 101022 3 YEARS 3 YEARS 3 YEARS 3 YEARS 3 YEARS 3 YEARS 3 YEARS 3 YEARS 08/08/2017 11/01/2017 07/31/2017 08/08/2017 09/24/2017 07/06/2017 07/01/2017 07/05/2017 35519-055 91119547 3 YEARS 06/20/2017 36934-164 191871994 2 YEARS 01/10/2019 Note: Equipment used meets the measurement uncertainty requirements as required per applicable standards for 95% confidence levels. Calibration due dates, unless defined specifically, falls on the last day of the month. Items indicated N/A for cal status either do not specifically require calibration or is internally characterized before use. 10 Revision History Date Report Name Changes to report Report prepared by 2019-08-08 EMC_ ZONAR-021-19001_FCC_27_ISED Initial version Yuchan Lu