FCC ID: XS5-CAPH7E817E19 ERA repeater for cellular systems

by: Andrew Wireless System latest update: 2019-04-11 model: CAPH7E817E19

Two grants have been issued under this FCC ID on 04/11/2019 (this is one of ten releases in 2019 for this grantee). Public details available include internal & external photos, frequency information, and manuals. some products also feature user submitted or linked troubleshooting guides, password defaults, drivers, warrantee terms, & instructions.

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all	frequencies	exhibits	applications

all exhibits 16
1 ~ 2019-04-11 9
2 ~ 2019-04-11 11

app s				submitted / available
1 2		Attestation Statements	pdf		November 04 2019
1 2		Cover Letter(s)	pdf		November 04 2019
1 2		RF Exposure Info	pdf		November 04 2019
1 2		Cover Letter(s)	pdf		November 04 2019
1 2		External Photos	pdf		November 04 2019
1 2		ID Label/Location Info	pdf		November 04 2019
1 2		Test Report	pdf		November 04 2019
1 2		Test Report	pdf		November 04 2019
1 2		Test Setup Photos	pdf		November 04 2019
1 2		Attestation Statements	pdf		November 04 2019
1 2		RF Exposure Info	pdf		November 04 2019
1 2	Test Report Part 27 1	Test Report	pdf	4.77 MiB	November 04 2019
1 2	test report Part 24	Test Report	pdf	1.05 MiB	November 04 2019
1 2	test report Part 22	Test Report	pdf	4.65 MiB	November 04 2019
1 2		Test Report	pdf		November 04 2019
1 2		Test Setup Photos	pdf		November 04 2019

exhibit
download
text

1 2

Test Report Part 27 1

Test Report

pdf

4.77 MiB

November 04 2019

FCC Measurement/Technical Report on CAP H 7E/80-85/17E/19 Cellular Repeater FCC ID: XS5-CAPH7E817E19 IC: 2237E-EH7E817E19 Test Report Reference: MDE_BVNBG_1806_FCCe_REV1 Test Laboratory:

7layers GmbH Borsigstrasse 11 40880 Ratingen Germany Note:

The following test results relate only to the devices specified in this document. This report shall not be reproduced in parts without the written approval of the test laboratory. 7layers GmbH Borsigstrae 11 40880 Ratingen, Germany T +49 (0) 2102 749 0 F +49 (0) 2102 749 350 Registergericht/registered:

Dsseldorf HRB 75554 USt-Id.-Nr./VAT-No. DE203159652 Steuer-Nr./TAX-No. 147/5869/0385 Geschftsfhrer/

Managing Directors:

Frank Spiller Bernhard Retka Alexandre Norr-Oudard a Bureau Veritas Group Company www.7layers.com Commerzbank AG Account No. 303016000 Bank Code 30040000 IBAN DE81300400000303016000 Swift Code COBADEFF Table of Contents 1.1 Applied Standards 1.2 FCC-IC Correlation Table 1.3 Measurement Summary / Signatures 2 Administrative Data 2.1 Testing Laboratory 2.2 Project Data 2.3 Applicant Data 2.4 Manufacturer Data Test object Data 3 3.1 General EUT Description 3.2 EUT Main components 3.3 Ancillary Equipment 3.4 Auxiliary Equipment 3.5 EUT Setups 3.6 Operating Modes 3.7 Product labelling Test Results 4 4.1 Effective Radiated Power, mean output power and zone enhancer gain 4.2 Peak to Average Ratio 4.3 Occupied Bandwidth / Input-versus-output Spectrum 4.4 Conducted spurious emissions at antenna terminals 4.5 Out-of-band emission limits 4.6 Out-of-band rejection 4.7 Field strength of spurious radiation 5 Test Equipment 6 Antenna Factors, Cable Loss and Sample Calculations 6.1 LISN R&S ESH3-Z5 (150 kHz 30 MHz) 6.2 Antenna R&S HFH2-Z2 (9 kHz 30 MHz) 6.3 Antenna R&S HL562 (30 MHz 1 GHz) 6.4 Antenna R&S HF907 (1 GHz 18 GHz) 6.5 Antenna EMCO 3160-09 (18 GHz 26.5 GHz) 6.6 Antenna EMCO 3160-10 (26.5 GHz 40 GHz) 7 Measurement Uncertainties 8 Photo Report 3 4 5 10 10 10 10 10 11 11 12 12 12 12 13 14 15 15 25 31 42 57 77 80 94 97 97 98 99 100 101 102 103 103 TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCe_REV1 Page 2 of 103 Applied Standards and Test Summary 1.1 APPLIED STANDARDS Type of Authorization Certification for an Industrial Signal Booster. Applicable FCC Rules Prepared in accordance with the requirements of FCC Rules and Regulations as listed in 47 CFR Ch.1 Parts 2 and 20, 27, (10/1/18 Edition). The following subparts are applicable to the results in this test report. Part 2, Subpart J - Equipment Authorization Procedures, Certification Part 20, Commercial Mobiles Services 20.21 Part 27; Miscellaneous Wireless Communications Services Subpart C Technical standards 27.50 Power and duty cycle limits 27.53 Emission limits 27.54 Frequency stability The tests were selected and performed with reference to:

Signal Boosters FCC Public Notice 935210 applying Signal Boosters Basic Certification Requirements 935210 D02 v04r01, 2018-06-19. FCC Public Notice 935210 applying Measurement guidance for industrial and non-

consumer signal booster, repeater and amplifier devices 935210 D05 v01r02, 2017-

10-27. FCC Public Notice 971168 applying Measurement guidance for certification of licensed digital transmitters 971168 D01 v03r01,2018-04-09 ANSI C63.26: 2015 TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCe_REV1 Page 3 of 103 Summary Test Results:

The EUT complied with all performed tests as listed in chapter 1.3 Measurement Summary / Signatures. 1.2 FCC-IC CORRELATION TABLE Correlation of measurement requirements for Industrial Signal Booster from FCC and ISED Canada Measurement Effective radiated power, mean output power and zone enhancer gain FCC reference 2.1046 27.50 KDB 935210 D05 v01r02: 3.5 Peak to Average Ratio 27.50 Occupied bandwidth Input-versus-output spectrum Conducted spurious Emission at Antenna Terminal Out-of-band emissions limits Frequency stability 2.1049 KDB 935210 D05 v01r02: 3.4 2.1051 27.53 2.1051 27.53 KDB 935210 D05 v01r02: 3.6 2.1055 27.54 Field strength of spurious radiation 2.1053 27.53 Out-of-band rejection KDB 935210 D05 v01r02: 3.3 ISED reference RSS-GEN Issue 5, 6.12 RSS-139 Issue 3, 6.5 SRSP-513, Issue 3, 5.1.1 RSS-130 Issue 1, 4.6.2, 4.6.3 SRSP-518, Issue 2, 5.1 SRSP-518, Issue 1, 5.1.1 RSS-131 Issue 3: 5.2.3 RSS 139 Issue 3: 6.5 RSS-130 Issue 2, 4.6.1 RSS-GEN Issue 5, 6.7 RSS-131 Issue 3: 5.2.2 RSS-GEN Issue 5, 6.13 RSS-139 Issue 3, 6.6 RSS-130 Issue 2: 4.7 RSS-GEN Issue 5, 6.13 RSS-139 Issue 3, 6.6 RSS-130 Issue 2: 4.7 RSS-GEN Issue 5, 6.11 RSS-139 Issue 3: 6.4 RSS-130 Issue 2: 4.5 RSS-131 Issue 3: 5.2.4 RSS-GEN Issue 5, 6.13 RSS-139 Issue 3: 6.6 RSS-130 Issue 2: 4.7 RSS-131 Issue 3: 5.2.1 TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCe_REV1 Page 4 of 103 2.1046, 27.50, KDB 935210 D02 II (p)(4) Final Result 1.3 MEASUREMENT SUMMARY / SIGNATURES Setup 47 CFR CHAPTER I FCC PART 27 Subpart C

[Base Stations/Repeater]

Effective Radiated Power, mean output power and zone enhancer gain The measurement was performed according to ANSI C63.26, KDB 935210 D05 v01r02: 3.5 OP-Mode Frequency Band, Direction, Input Power, Signal Type Band 4/10/66, RF downlink, 0.3 dB < AGC, Narrowband Band 4/10/66, RF downlink, 0.3 dB < AGC, Wideband Band 4/10/66, RF downlink, 3 dB > AGC, Narrowband Band 4/10/66, RF downlink, 3 dB > AGC, Wideband Band 12, RF downlink, 0.3 dB < AGC, Narrowband Band 12, RF downlink, 0.3 dB < AGC, Wideband Band 12, RF downlink, 3 dB > AGC, Narrowband Band 12, RF downlink, 3 dB > AGC, Wideband Band 13, RF downlink, 0.3 dB < AGC, Narrowband Band 13, RF downlink, 0.3 dB < AGC, Wideband Band 13, RF downlink, 3 dB > AGC, Narrowband Band 13, RF downlink, 3 dB > AGC, Wideband

S01_AA01 S01_AA01 S01_AA01 S01_AA01 S01_AA01 S01_AA01 S01_AA01 S01_AA01 27.50 47 CFR CHAPTER I FCC PART 27 Subpart C

[Base Stations/Repeater]

Peak to Average Ratio The measurement was performed according to ANSI C63.26 OP-Mode Frequency Band, Direction, Input Power, Signal Type Band 4/10/66, RF downlink, 0.3 dB < AGC, Narrowband Band 4/10/66, RF downlink, 0.3 dB < AGC, Wideband Band 4/10/66, RF downlink, 3 dB > AGC, Narrowband Band 4/10/66, RF downlink, 3 dB > AGC, Wideband Band 12, RF downlink, 0.3 dB < AGC, Narrowband Band 12, RF downlink, 0.3 dB < AGC, Wideband Band 12, RF downlink, 3 dB > AGC, Narrowband Band 12, RF downlink, 3 dB > AGC, Wideband Band 13, RF downlink, 0.3 dB < AGC, Narrowband Band 13, RF downlink, 0.3 dB < AGC, Wideband Band 13, RF downlink, 3 dB > AGC, Narrowband Band 13, RF downlink, 3 dB > AGC, Wideband Setup

S01_AA01 S01_AA01 S01_AA01 S01_AA01 S01_AA01 S01_AA01 S01_AA01 S01_AA01 FCC IC N/P N/P N/P N/P Passed Passed Passed Passed Passed Passed Passed Passed N/P N/P N/P N/P Passed Passed Passed Passed Passed Passed Passed Passed Final Result FCC IC N/P N/P N/P N/P Passed Passed Passed Passed Passed Passed Passed Passed N/P N/P N/P N/P Passed Passed Passed Passed Passed Passed Passed Passed TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCe_REV1 Page 5 of 103 Setup 2.1049 47 CFR CHAPTER I FCC PART 27 Subpart C

[Base Stations/Repeater]

Occupied Bandwidth / Input-versus-output Spectrum The measurement was performed according to ANSI C63.26, KDB 935210 D05 v01r02: 3.4 OP-Mode Frequency Band, Direction, Input Power, Signal Type Band 4/10/66, RF downlink, 0.3 dB < AGC, Narrowband Band 4/10/66, RF downlink, 0.3 dB < AGC, Wideband Band 4/10/66, RF downlink, 3 dB > AGC, Narrowband Band 4/10/66, RF downlink, 3 dB > AGC, Wideband Band 12, RF downlink, 0.3 dB < AGC, Narrowband Band 12, RF downlink, 0.3 dB < AGC, Wideband Band 12, RF downlink, 3 dB > AGC, Narrowband Band 12, RF downlink, 3 dB > AGC, Wideband Band 13, RF downlink, 0.3 dB < AGC, Narrowband Band 13, RF downlink, 0.3 dB < AGC, Wideband Band 13, RF downlink, 3 dB > AGC, Narrowband Band 13, RF downlink, 3 dB > AGC, Wideband

S01_AA01 S01_AA01 S01_AA01 S01_AA01 S01_AA01 S01_AA01 S01_AA01 S01_AA01 Final Result FCC IC N/P N/P N/P N/P Passed Passed Passed Passed Passed Passed Passed Passed N/P N/P N/P N/P Passed Passed Passed Passed Passed Passed Passed Passed 2.1051, 27.53, KDB 935210 D02 II (p)(3) 47 CFR CHAPTER I FCC PART 27 Subpart C

[Base Stations/Repeater]

Conducted spurious emissions at antenna terminals The measurement was performed according to ANSI C63.26 OP-Mode Frequency Band, Test Frequency, Direction, Signal Type Band 4/10/66, high, RF downlink, Narrowband Band 4/10/66, high, RF downlink, Wideband Band 4/10/66, low, RF downlink, Narrowband Band 4/10/66, low, RF downlink, Wideband Band 4/10/66, mid, RF downlink, Narrowband Band 4/10/66, mid, RF downlink, Wideband Band 12, high, RF downlink, Narrowband Band 12, high, RF downlink, Wideband Band 12, low, RF downlink, Narrowband Band 12, low, RF downlink, Wideband Band 12, mid, RF downlink, Narrowband Band 12, mid, RF downlink, Wideband Band 13, high, RF downlink, Narrowband Band 13, high, RF downlink, Wideband Band 13, low, RF downlink, Narrowband Band 13, low, RF downlink, Wideband Band 13, mid, RF downlink, Narrowband Band 13, mid, RF downlink, Wideband Setup

S01_AA01 S01_AA01 S01_AA01 S01_AA01 S01_AA01 S01_AA01 S01_AA01 S01_AA01 S01_AA01 S01_AA01 S01_AA01 S01_AA01 Final Result FCC IC N/P N/P N/P N/P N/P N/P Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed N/P N/P N/P N/P N/P N/P Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCe_REV1 Page 6 of 103 2.1051, 27.53, KDB 935210 D02 II (p)(3) Final Result

Setup 47 CFR CHAPTER I FCC PART 27 Subpart C

[Base Stations/Repeater]

Out-of-band emission limits/Intermodulation The measurement was performed according to ANSI C63.26, KDB 935210 D05 v01r02: 3.6 OP-Mode Band Edge, Frequency Band, Number of signals, Direction, Input Power, Signal Type Lower, Band 4/10/66, 1, RF downlink, 0.3 dB < AGC, Narrowband Lower, Band 4/10/66, 1, RF downlink, 0.3 dB < AGC, Wideband Lower, Band 4/10/66, 1, RF downlink, 3 dB > AGC, Narrowband Lower, Band 4/10/66, 1, RF downlink, 3 dB > AGC, Wideband Lower, Band 4/10/66, 2, RF downlink, 0.3 dB < AGC, Narrowband Lower, Band 4/10/66, 2, RF downlink, 0.3 dB < AGC, Wideband Lower, Band 4/10/66, 2, RF downlink, 3 dB > AGC, Narrowband Lower, Band 4/10/66, 2, RF downlink, 3 dB > AGC, Wideband Upper, Band 4/10/66, 1, RF downlink, 0.3 dB < AGC, Narrowband Upper, Band 4/10/66, 1, RF downlink, 0.3 dB < AGC, Wideband Upper, Band 4/10/66, 1, RF downlink, 3 dB > AGC, Narrowband Upper, Band 4/10/66, 1, RF downlink, 3 dB > AGC, Wideband Upper, Band 4/10/66, 2, RF downlink, 0.3 dB < AGC, Narrowband Upper, Band 4/10/66, 2, RF downlink, 0.3 dB < AGC, Wideband Upper, Band 4/10/66, 2, RF downlink, 3 dB > AGC, Narrowband Upper, Band 4/10/66, 2, RF downlink, 3 dB > AGC, Wideband Lower, Band 12, 1, RF downlink, 0.3 dB < AGC, Narrowband Lower, Band 12, 1, RF downlink, 0.3 dB < AGC, Wideband Lower, Band 12, 1, RF downlink, 3 dB > AGC, Narrowband Lower, Band 12, 1, RF downlink, 3 dB > AGC, Wideband Lower, Band 12, 2, RF downlink, 0.3 dB < AGC, Narrowband Lower, Band 12, 2, RF downlink, 0.3 dB < AGC, Wideband Lower, Band 12, 2, RF downlink, 3 dB > AGC, Narrowband Lower, Band 12, 2, RF downlink, 3 dB > AGC, Wideband Upper, Band 12, 1, RF downlink, 0.3 dB < AGC, Narrowband Upper, Band 12, 1, RF downlink, 0.3 dB < AGC, Wideband Upper, Band 12, 1, RF downlink, 3 dB > AGC, Narrowband Upper, Band 12, 1, RF downlink, 3 dB > AGC, Wideband Upper, Band 12, 2, RF downlink, 0.3 dB < AGC, Narrowband Upper, Band 12, 2, RF downlink, 0.3 dB < AGC, Wideband Upper, Band 12, 2, RF downlink, 3 dB > AGC, Narrowband Upper, Band 12, 2, RF downlink, 3 dB > AGC, Wideband Lower, Band 13, 1, RF downlink, 0.3 dB < AGC, Narrowband Lower, Band 13, 1, RF downlink, 0.3 dB < AGC, Wideband Lower, Band 13, 1, RF downlink, 3 dB > AGC, Narrowband Lower, Band 13, 1, RF downlink, 3 dB > AGC, Wideband Lower, Band 13, 2, RF downlink, 0.3 dB < AGC, Narrowband

S01_AA01 S01_AA01 S01_AA01 S01_AA01 S01_AA01 S01_AA01 S01_AA01 S01_AA01 S01_AA01 S01_AA01 S01_AA01 S01_AA01 S01_AA01 S01_AA01 S01_AA01 S01_AA01 S01_AA01 S01_AA01 S01_AA01 S01_AA01 S01_AA01

FCC IC N/P N/P N/P N/P N/P N/P N/P N/P N/P N/P N/P N/P N/P N/P N/P N/P Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed N/P N/P N/P N/P N/P N/P N/P N/P N/P N/P N/P N/P N/P N/P N/P N/P Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCe_REV1 Page 7 of 103 2.1051, 27.53, KDB 935210 D02 II (p)(3) Final Result 47 CFR CHAPTER I FCC PART 27 Subpart C

[Base Stations/Repeater]

Out-of-band rejection The measurement was performed according to ANSI C63.26 OP-Mode Frequency Band, Direction Band 4/10/66, RF downlink Band 12, RF downlink Band 13, RF downlink Setup

S01_AA01 S01_AA01 FCC IC Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed Final Result FCC IC N/P Passed Passed N/P Passed Passed KDB 935210 D02 II (p)(2) TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCe_REV1 Page 8 of 103 2 ADMINISTRATIVE DATA 2.1 TESTING LABORATORY Company Name:

Address:

7layers GmbH Borsigstr. 11 40880 Ratingen Germany The test facility is accredited by the following accreditation organisation:

Laboratory accreditation no:

FCC Designation Number:

FCC Test Firm Registration:

ISED CAB Identifier Responsible for accreditation scope: Dipl.-Ing. Marco Kullik DAkkS D-PL-12140-01-00 DE0015 929146 DE0007; ISED#:3699A Report Template Version:

2.2 PROJECT DATA Responsible for testing and report:

2019-03-11 Dipl.-Ing. Daniel Gall Employees who performed the tests: documented internally at 7Layers Date of Report:

2019-04-10 2019-02-13 to 2019-02-21 Testing Period:

2.3 APPLICANT DATA Company Name:

Address:

Contact Person:

2.4 MANUFACTURER DATA Company Name:

Address:

Contact Person:

Commscope Andrew Wireless Systems GmbH Industriering 10 86675 Buchdorf Germany Mr. Frank Futter please see applicant data TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCe_REV1 Page 10 of 103 3 TEST OBJECT DATA 3.1 GENERAL EUT DESCRIPTION Kind of Device product description Product name Type Cellular Repeater CAP H 7E/80-85/17E/19 Declared EUT data by the supplier General Product Description The EUT is an industrial signal booster supporting the followings:

Band 2/25 / 1900 PCS Band 4/10/66 / AWS 1 Band 5 / 850 Band 12 / 700 a Band 13 / 700 c Band 14 / 700 PS Band 26 / 850+

A RF operation is only supported for the downlink. Industrial Signal Booster AC 100 240 V, 50 60 Hz

Band 4/10/66: 43.0 dBm Band 12: 43.0 dBm Band 13: 43.0 dBm Booster Type Voltage Type Voltage Level Maximum Output Donor Port [Uplink]

Maximum Output Server Port [Downlink]

Maximum Gain [Uplink] -

Maximum Gain

[Downlink]

Band 4/10/66: 28.0 dB Band 12: 28.0 dB Band 13: 28.0 dB The main components of the EUT are listed and described in chapter 3.2 EUT Main components. TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCe_REV1 Page 11 of 103 3.2 EUT MAIN COMPONENTS Sample Name aa01 Sample Code DE1277008aa01 Sample Parameter Description FCC sample Value Serial Number HW Version SW Version Comment NOTE:The short description is used to simplify the identification of the EUT in this test report. BGCHDA1851001 7825719-0001 CAP H 7E/80-85/17E/19 7694174-12 SW V2.6.0.106

3.3 ANCILLARY EQUIPMENT For the purposes of this test report, ancillary equipment is defined as equipment which is used in conjunction with the EUT to provide operational and control features to the EUT. It is necessary to configure the system in a typical fashion, as a customer would normally use it. But nevertheless Ancillary Equipment can influence the test results. Device Description Details

(Manufacturer, Type Model, OUT Code)

3.4 AUXILIARY EQUIPMENT For the purposes of this test report, auxiliary equipment is defined as equipment which is used temporarily to enable operational and control features especially used for the tests of the EUT which is not used during normal operation or equipment that is used during the tests in combination with the EUT but is not subject of this test report. It is necessary to configure the system in a typical fashion, as a customer would normally use it. But nevertheless Auxiliary Equipment can influence the test results. Device Description Details

(Manufacturer, HW, SW, S/N)

3.5 EUT SETUPS This chapter describes the combination of EUTs and equipment used for testing. The rationale for selecting the EUTs, ancillary and auxiliary equipment and interconnecting cables, is to test a representative configuration meeting the requirements of the referenced standards. Setup Combination of EUTs Description and Rationale S01_AA01 aa01 Setup for all tests TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCe_REV1 Page 12 of 103 3.6 OPERATING MODES This chapter describes the operating modes of the EUTs used for testing. 3.6.1 TEST CHANNELS Band 4/10/66 12 13 Direction downlink downlink downlink Lower Frequency Band Edge

[MHz]

2110.00 729.00 746.00 Upper Frequency Band Edge

[MHz]

2180.00 746.00 756.00 Center Frequency

[MHz]

2145.00 737.50 751.00 Port Donor Donor Donor 3.6.2 AUTOMATIC GAIN CONTROL LEVELS AGC Levels Band 4/10/66 AGC Start Pin

[dBm]

AGC Start Pin

-0.3 dB

[dBm]

AGC Start Pin

+3 dB

[dBm]

0.6

3.6

2.0

Signal Type Narrowband Wideband Narrowband Wideband Narrowband Wideband Narrowband Wideband Band 4/10/66 4/10/66 4/10/66 4/10/66 4/10/66 4/10/66 4/10/66 4/10/66 Direction downlink downlink downlink downlink downlink downlink downlink downlink AGC Levels Band 12 Band 12 12 12 12 12 12 12 12 Direction downlink downlink downlink downlink downlink downlink downlink downlink Signal Type Narrowband Wideband Narrowband Wideband Narrowband Wideband Narrowband Wideband AGC Start Pin

[dBm]

AGC Start Pin

-0.3 dB

[dBm]

AGC Start Pin

+3 dB

[dBm]

0.6 1.0

-0.2 1.0 0.2 0.4

-0.4 0.4 0.3 0.7

-0.5 0.7

-0.1 0.1

-0.7 0.1 3.6 4.0 2.8 4.0 3.2 3.4 2.6 3.4 Frequency

[MHz]

2145.00

2110.00

2180.00

Frequency

[MHz]

737.5 737.5 729.2 731.5 745.8 743.5 744.3 743.5 Frequency Center Low High Max. Power Frequency Center Low High Max. Power TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCe_REV1 Page 13 of 103 Frequency Center Low High Max. Power Frequency

[MHz]

751.0 751.0 746.2 748.5 755.8 753.5 746.2 748.5 AGC Levels Band 13 Band 13 13 13 13 13 13 13 13 Direction downlink downlink downlink downlink downlink downlink downlink downlink AGC Start Pin

[dBm]

-0.6

-0.2

-0.8

-0.4 0.2 0.4

-0.8

-0.4 AGC Start Pin

-0.3 dB

[dBm]

-0.9

-0.5

-1.1

-0.7

-0.1 0.1

-1.1

-0.7 AGC Start Pin

+3 dB

[dBm]

2.4 2.8 2.2 2.6 3.2 3.4 2.2 2.6 Signal Type Narrowband Wideband Narrowband Wideband Narrowband Wideband Narrowband Wideband 3.7 PRODUCT LABELLING 3.7.1 FCC ID LABEL Please refer to the documentation of the applicant. 3.7.2 LOCATION OF THE LABEL ON THE EUT Please refer to the documentation of the applicant. TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCe_REV1 Page 14 of 103 4 TEST RESULTS 4.1 EFFECTIVE RADIATED POWER, MEAN OUTPUT POWER AND ZONE ENHANCER GAIN FCC Part 27, 27.50 Standard The test was performed according to:

ANSI C63.26, KDB 935210 D05 v01r02: 3.5 4.1.1 TEST DESCRIPTION This test case is intended to demonstrate compliance to the signal booster power and gain limits and requirements for industrial signal boosters. The EUT was connected to the test setup according to the following diagram:

The attenuation of the measuring and stimulus path are known for each measured frequency and are considered. The Spectrum Analyzer settings can be directly found in the measurement diagrams. 4.1.2 TEST REQUIREMENTS / LIMITS Part 27; Miscellaneous Wireless Communication Services Subpart C Technical standards 27.50 Band 13:

(2) Fixed and base stations transmitting a signal in the 746-757 MHz and 776-787 MHz bands with an emission bandwidth of 1 MHz or less must not exceed an ERP of 1000 watts and an antenna height of 305 m HAAT, except that antenna heights greater than 305 m HAAT are TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCe_REV1 Page 15 of 103 permitted if power levels are reduced below 1000 watts ERP in accordance with Table 1 of this section.

(3) Fixed and base stations located in a county with population density of 100 or fewer persons per square mile, based upon the most recently available population statistics from the Bureau of the Census, and transmitting a signal in the 746-757 MHz and 776-787 MHz bands with an emission bandwidth of 1 MHz or less must not exceed an ERP of 2000 watts and an antenna height of 305 m HAAT, except that antenna heights greater than 305 m HAAT are permitted if power levels are reduced below 2000 watts ERP in accordance with Table 2 of this section.

(4) Fixed and base stations transmitting a signal in the 746-757 MHz and 776-787 MHz bands with an emission bandwidth greater than 1 MHz must not exceed an ERP of 1000 watts/MHz and an antenna height of 305 m HAAT, except that antenna heights greater than 305 m HAAT are permitted if power levels are reduced below 1000 watts/MHz ERP in accordance with Table 3 of this section.

(5) Fixed and base stations located in a county with population density of 100 or fewer persons per square mile, based upon the most recently available population statistics from the Bureau of the Census, and transmitting a signal in the 746-757 MHz and 776-787 MHz bands with an emission bandwidth greater than 1 MHz must not exceed an ERP of 2000 watts/MHz and an antenna height of 305 m HAAT, except that antenna heights greater than 305 m HAAT are permitted if power levels are reduced below 2000 watts/MHz ERP in accordance with Table 4 of this section.

(6) Licensees of fixed or base stations transmitting a signal in the 746-757 MHz and 776-787 MHz bands at an ERP greater than 1000 watts must comply with the provisions set forth in paragraph (b)(8) of this section and 27.55(c). Band 12:

c) The following power and antenna height requirements apply to stations transmitting in the 600 MHz band and the 698-746 MHz band:

(1) Fixed and base stations transmitting a signal with an emission bandwidth of 1 MHz or less must not exceed an effective radiated power (ERP) of 1000 watts and an antenna height of 305 m height above average terrain (HAAT), except that antenna heights greater than 305 m HAAT are permitted if power levels are reduced below 1000 watts ERP in accordance with Table 1 of this section;

(2) Fixed and base stations located in a county with population density of 100 or fewer persons per square mile, based upon the most recently available population statistics from the Bureau of the Census, and transmitting a signal with an emission bandwidth of 1 MHz or less must not exceed an ERP of 2000 watts and an antenna height of 305 m HAAT, except that antenna heights greater than 305 m HAAT are permitted if power levels are reduced below 2000 watts ERP in accordance with Table 2 of this section;

(3) Fixed and base stations transmitting a signal with an emission bandwidth greater than 1 MHz must not exceed an ERP of 1000 watts/MHz and an antenna height of 305 m HAAT, except that antenna heights greater than 305 m HAAT are permitted if power levels are reduced below 1000 watts/MHz ERP in accordance with Table 3 of this section;

(4) Fixed and base stations located in a county with population density of 100 or fewer persons per square mile, based upon the most recently available population statistics from the Bureau of the Census, and transmitting a signal with an emission bandwidth greater than 1 MHz must not exceed an ERP of 2000 watts/MHz and an antenna height of 305 m HAAT, except that antenna heights greater than 305 m HAAT are permitted if power levels are reduced below 2000 watts/MHz ERP in accordance with Table 4 of this section;

TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCe_REV1 Page 16 of 103 Band 4/10/66:

d) The following power and antenna height requirements apply to stations transmitting in the 1695-1710 MHz, 1710-1755 MHz, 1755-1780 MHz, 1915-1920 MHz, 1995-2000 MHz, 2000-

2020 MHz, 2110-2155 MHz, 2155-2180 MHz and 2180-2200 MHz bands:

(1) The power of each fixed or base station transmitting in the 1995-2000 MHz, 2110-2155 MHz, 2155-2180 MHz or 2180-2200 MHz band and located in any county with population density of 100 or fewer persons per square mile, based upon the most recently available population statistics from the Bureau of the Census, is limited to:

(i) An equivalent isotropically radiated power (EIRP) of 3280 watts when transmitting with an emission bandwidth of 1 MHz or less;

(ii) An EIRP of 3280 watts/MHz when transmitting with an emission bandwidth greater than 1 MHz.

(2) The power of each fixed or base station transmitting in the 1995-2000 MHz, the 2110-2155 MHz 2155-2180 MHz band, or 2180-2200 MHz band and situated in any geographic location other than that described in paragraph (d)(1) of this section is limited to:

(i) An equivalent isotropically radiated power (EIRP) of 1640 watts when transmitting with an emission bandwidth of 1 MHz or less;

(ii) An EIRP of 1640 watts/MHz when transmitting with an emission bandwidth greater than 1 MHz.

(3) A licensee operating a base or fixed station in the 2110-2155 MHz band utilizing a power greater than 1640 watts EIRP and greater than 1640 watts/MHz EIRP must coordinate such operations in advance with all Government and non-Government satellite entities in the 2025-

2110 MHz band. A licensee operating a base or fixed station in the 2110-2180 MHz band utilizing power greater than 1640 watts EIRP and greater than 1640 watts/MHz EIRP must be coordinated in advance with the following licensees authorized to operate within 120 kilometers (75 miles) of the base or fixed station operating in this band: All Broadband Radio Service (BRS) licensees authorized under this part in the 2155-2160 MHz band and all advanced wireless services (AWS) licensees authorized to operate on adjacent frequency blocks in the 2110-2180 MHz band.

(4) Fixed, mobile, and portable (hand-held) stations operating in the 1710-1755 MHz band and mobile and portable stations operating in the 1695-1710 MHz and 1755-1780 MHz bands are limited to 1 watt EIRP. Fixed stations operating in the 1710-1755 MHz band are limited to a maximum antenna height of 10 meters above ground. Mobile and portable stations operating in these bands must employ a means for limiting power to the minimum necessary for successful communications.

(5) Equipment employed must be authorized in accordance with the provisions of 24.51. Power measurements for transmissions by stations authorized under this section may be made either in accordance with a Commission-approved average power technique or in compliance with paragraph (d)(6) of this section. In measuring transmissions in this band using an average power technique, the peak-to-average ratio (PAR) of the transmission may not exceed 13 dB.

(6) 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. TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCe_REV1 Page 17 of 103 RSS-130; 4.4 Transmitter Output Power and Equivalent Isotropically Radiated Power

(e.i.r.p.) The transmitter output power shall be measured in terms of average power. For base and fixed equipment, refer to SRSP-518 for power limits SRSP-518 5.1 Radiated Power and Antenna Height Limits 5.1.1 Fixed and base stations 5.1.1.1 For fixed and base stations transmitting in accordance with sections 4.1.1 to 4.1.3 within the frequency range 716-756 MHz with a channel bandwidth equal to or less than 1 MHz, the maximum permissible equivalent isotropically radiated power (e.i.r.p.) is 1640 watts with an antenna height above average terrain (HAAT)Footnote 3 up to 305 metres. The same e.i.r.p. limit also applies to fixed and base stations operating at any frequency in the 700 MHz band in accordance with Section 4.1.4. 5.1.1.2 For fixed and base stations transmitting in accordance with sections 4.1.1 to 4.1.3 within the frequency range 716-756 MHz with a channel bandwidth greater than 1 MHz, the maximum permissible e.i.r.p. is 1640 watts/MHz (i.e. no more than 1640 watts e.i.r.p. in any 1 MHz band segment) with a HAAT up to 305 metres. The same e.i.r.p. limit also applies to fixed and base stations operating at any frequency in the 700 MHz band in accordance with Section 4.1.4. 5.1.1.3 Fixed and base stations located in geographical areas at a distance greater than 26 km from large or medium population centres Footnote 4 and transmitting in accordance with sections 4.1.1 to 4.1.3 within the frequency range 716-756 MHz, may increase their e.i.r.p. up to a maximum of 3280 watts/MHz (i.e. no more than 3280 watts e.i.r.p. in any 1 MHz band segment), with an antenna HAAT up to 305 metres. Within 26 km of any large or medium population centre, fixed and base stations may operate at increased e.i.r.p. if more than 50% of the population within a particular sectors coverage Footnote 5 is located outside these large and medium population centres. Fixed and base stations with increased e.i.r.p. must not be used to provide coverage to large and medium population centres. However, some incidental coverage of these large and medium population centres by stations with increased e.i.r.p. is permitted. This provision also applies for fixed and base stations with a channel bandwidth equal to or less than 1 MHz (i.e. e.i.r.p. may be increased up to a maximum of 3280 watts). 5.1.1.4 For all installations with an antenna HAAT in excess of 305 metres, a corresponding reduction in e.i.r.p. according to the following formula shall be applied:

EIRPreduction =20 log10(HAAT/305) dB RSS-139; 6.5 Transmitter Output Power The equivalent isotropically radiated power (e.i.r.p.) for mobile and portable transmitters shall not exceed one watt. The e.i.r.p. for fixed and base stations in the band 1710-1780 MHz shall not exceed one watt. Consult SRSP-513 for e.i.r.p. limits on fixed and base stations operating in the band 2110-

2180 MHz. TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCe_REV1 Page 18 of 103 SRSP-513 5.1 Radiated Power and Antenna Height Limits 5.1.1 Fixed and Base Stations 5.1.1.1 For fixed and base stations operating within the frequency range 2110-2180 MHz with a channel bandwidth equal to or less than 1 MHz, the maximum permissible equivalent isotropically radiated power (e.i.r.p.) is 1640 watts with an antenna height above average terrain (HAAT)Footnote 4 up to 300 metres. 5.1.1.2 For fixed and base stations operating within the frequency range 2110-2180 MHz with a channel bandwidth greater than 1 MHz, the maximum permissible e.i.r.p. is 1640 watts/MHz e.i.r.p. (i.e. no more than 1640 watts e.i.r.p. in any 1 MHz band segment) with an antenna height above average terrain (HAAT) up to 300 metres. 5.1.1.3 Fixed and base stations located in geographic areas at a distance greater than 26 km from large or medium population centres,Footnote 5 and transmitting within the frequency range 2110-2180 MHz, may increase their e.i.r.p. up to a maximum of 3280 watts/MHz (i.e. no more than 3280 watts e.i.r.p. in any 1 MHz band segment), with an antenna HAAT up to 300 metres. Within 26 km of any large or medium population centre, fixed and base stations may operate at increased e.i.r.p. if more than 50% of the population within a particular sector's coverageFootnote 6 is located outside these large and medium population centres. Fixed and base stations with increased e.i.r.p. must not be used to provide coverage to large and medium population centres. However, some incidental coverage of these large and medium population centres by stations with increased e.i.r.p. is permitted. This provision also applies for fixed and base stations with a channel bandwidth equal to or less than 1 MHz (i.e. the e.i.r.p. may be increased up to a maximum of 3280 watts). 5.1.1.4 Fixed and base station antenna heights above average terrain may exceed 300 metres with a reduction in e.i.r.p. The maximum permissible e.i.r.p. for installations with antenna HAAT in excess of 300 metres is given in the following table:

Table 2 Reduction to Maximum Allowable E.I.R.P. for HAAT > 300 m HAAT (in metres) Maximum e.i.r.p. (watts or watts per MHza) Notes:

a Depending on the channel bandwidth: watts if less than 1 MHz bandwidth or else watts per MHz. b If Section 5.1.1.3 applies. HAAT 300 1640 (or 3280b) 300 < HAAT 500 500 < HAAT 1000 1000 < HAAT 1500 1500 < HAAT 2000 1070 490 270 160 5.1.1.5 Fixed or base stations transmitting in the lower sub-band (1710-1780 MHz) shall comply with the power limits set forth in Section 5.1.2. TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCe_REV1 Page 19 of 103 4.1.3 TEST PROTOCOL Band 12, downlink Frequency Signal Type Input Power Wideband Wideband Narrowband Narrowband

[MHz]

0.3 dB < AGC 743.500 3 dB > AGC 743.500 0.3 dB < AGC 744.300 3 dB > AGC 744.300 Maximum Average Output Power

[dBm]

42.1 42.1 41.9 42.2 Limit Average Output Power

[dBm]

60.0 60.0 60.0 60.0 Input Power

[dBm]

0.1 3.4

-0.7 2.6 Margin to Limit

[dB]

18.0 17.9 18.1 17.8 Band 13, downlink Maximum Average Output Power

[dBm]

42.0 42.2 41.8 42.1 Limit Average Output Power

[dBm]

60.0 60.0 60.0 60.0 Margin to Limit

[dB]

18.1 17.8 18.2 17.9 Input Power

[dBm]

-0.7 2.6

-1.3 2.0 Frequency Signal Type Input Power 0.3 dB < AGC Wideband Wideband 3 dB > AGC 0.3 dB < AGC Narrowband Narrowband 3 dB > AGC

[MHz]

748.5 748.5 746.2 746.2 Remark: Please see next sub-clause for the measurement plot. Gain

[dB]

42.0 38.7 42.6 39.6 Gain

[dB]

42.7 39.6 43.1 40.1 TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCe_REV1 Page 20 of 103 4.1.4 MEASUREMENT PLOT (SHOWING THE HIGHEST VALUE, WORST CASE) Frequency Band = Band 12, Direction = RF downlink, Input Power = 3 dB > AGC, Signal Type

= Narrowband

(S01_AA01) Frequency Band = Band 12, Direction = RF downlink, Input Power = 3 dB > AGC, Signal Type

= Wideband

(S01_AA01) TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCe_REV1 Page 21 of 103 Frequency Band = Band 12, Direction = RF downlink, Input Power = 0.3 dB < AGC, Signal Type = Narrowband

(S01_AA01) Frequency Band = Band 12, Direction = RF downlink, Input Power = 0.3 dB < AGC, Signal Type = Wideband

(S01_AA01) TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCe_REV1 Page 22 of 103 Frequency Band = Band 13, Direction = RF downlink, Input Power = 3 dB > AGC, Signal Type

= Narrowband

(S01_AA01) Frequency Band = Band 13, Direction = RF downlink, Input Power = 3 dB > AGC, Signal Type

= Wideband

(S01_AA01) TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCe_REV1 Page 23 of 103 Frequency Band = Band 13, Direction = RF downlink, Input Power = 0.3 dB < AGC, Signal Type = Narrowband

(S01_AA01) Frequency Band = Band 13, Direction = RF downlink, Input Power = 0.3 dB < AGC, Signal Type = Wideband

(S01_AA01) 4.1.5 TEST EQUIPMENT USED

FCC Conducted Base Station / Repeater TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCe_REV1 Page 24 of 103 4.2 PEAK TO AVERAGE RATIO Standard The test was performed according to:

ANSI C63.26 FCC Part 27, 27.50 4.2.1 TEST DESCRIPTION This test case is intended to demonstrate compliance to the signal booster power and gain limits and requirements for industrial signal boosters. The EUT was connected to the test setup according to the following diagram:

The attenuation of the measuring and stimulus path are known for each measured frequency and are considered. The Spectrum Analyzer settings can be directly found in the measurement diagrams. 4.2.2 TEST REQUIREMENTS / LIMITS Part 27; Miscellaneous Wireless Communication Services Subpart C Technical standards 27.50 For the bands 4, 12, 13 exist no FCC peak-to-average power ratio (PAPR) limit. RSS-130; 4.4 Transmitter Output Power and Equivalent Isotropically Radiated Power

(e.i.r.p.) In addition, the peak-to-average power ratio (PAPR) of the transmitter shall not exceed 13 dB for more than 0.1% of the time and shall use a signal corresponding to the highest PAPR during periods of continuous transmission. TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCe_REV1 Page 25 of 103 RSS-139; 6.5 Transmitter Output Power In addition, the peak to average power ratio (PAPR) of the equipment shall not exceed 13 dB for more than 0.1% of the time, using a signal that corresponds to the highest PAPR during periods of continuous transmission. 4.2.3 TEST PROTOCOL Band 12, downlink Frequency

[MHz]

743.500 743.500 744.300 744.300 Input Power

[dBm]

0.1 3.4

-0.7 2.6 Signal Type Wideband Wideband Narrowband Narrowband Input Power 0.3 dB < AGC 3 dB > AGC 0.3 dB < AGC 3 dB > AGC Band 13, downlink Signal Type Wideband Wideband Narrowband Narrowband Input Power 0.3 dB < AGC 3 dB > AGC 0.3 dB < AGC 3 dB > AGC Frequency

[MHz]

748.500 748.500 746.200 746.200 Input Power

[dBm]

-0.5 2.4

-1.3 2.0 Remark: Please see next sub-clause for the measurement plot. PAPR

[dB]

8.9 8.9 0.3 0.3 Limit PAPR

[dB]

13.0 13.0 13.0 13.0 PAPR

[dB]

8.8 8.8 0.4 0.4 Limit PAPR

[dB]

13.0 13.0 13.0 13.0 Margin to Limit

[dB]

4.1 4.1 12.7 12.7 Margin to Limit

[dB]

4.2 4.2 12.6 12.6 TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCe_REV1 Page 26 of 103 4.2.4 MEASUREMENT PLOT (SHOWING THE HIGHEST VALUE, WORST CASE) Frequency Band = Band 12, Direction = RF downlink, Input Power = 3 dB > AGC, Signal Type

= Narrowband

(S01_AA01) Frequency Band = Band 12, Direction = RF downlink, , Input Power = 3 dB > AGC, Signal Type = Wideband

(S01_AA01) TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCe_REV1 Page 27 of 103 Frequency Band = Band 12, Direction = RF downlink, Input Power = 0.3 dB < AGC, Signal Type = Narrowband

(S01_AA01) Frequency Band = Band 12, Direction = RF downlink, Input Power = 0.3 dB < AGC, Signal Type = Wideband

(S01_AA01) TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCe_REV1 Page 28 of 103 Frequency Band = Band 13, Direction = RF downlink, Input Power = 3 dB > AGC, Signal Type

= Narrowband

(S01_AA01) Frequency Band = Band 13, Direction = RF downlink, , Input Power = 3 dB > AGC, Signal Type = Wideband

(S01_AA01) TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCe_REV1 Page 29 of 103 Frequency Band = Band 13, Direction = RF downlink, Input Power = 0.3 dB < AGC, Signal Type = Narrowband

(S01_AA01) Frequency Band = Band 13, Direction = RF downlink, Input Power = 0.3 dB < AGC, Signal Type = Wideband

(S01_AA01) 4.2.5 TEST EQUIPMENT USED

- FCC Conducted Base Station / Repeater TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCe_REV1 Page 30 of 103 4.3 OCCUPIED BANDWIDTH / INPUT-VERSUS-OUTPUT SPECTRUM Standard The test was performed according to:

ANSI C63.26, KDB 935210 D05 v01r02: 3.4 FCC Part 2.1049; Occupied Bandwidth 4.3.1 TEST DESCRIPTION This test case is intended to demonstrate compliance to the applicable conducted spurious emission limits per FCC 2.1049, RSS-GEN 6.4 and RSS-131-5.2.2 The EUT was connected to the test setups according to the following diagram:

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 0.3 percent of the total mean power radiated by a given emission shall be measured under the following conditions as applicable:

TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCe_REV1 Page 31 of 103

(h) Transmitters employing digital modulation techniqueswhen 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.

(i) Transmitters designed for other types of modulationwhen modulated by an appropriate signal of sufficient amplitude to be representative of the type of service in which used. A description of the input signal should be supplied. RSS-GEN; 6.6 Occupied Bandwidth The emission bandwidth (dB) is defined as the frequency range between two points, one above and one below the carrier frequency, at which the spectral density of the emission is attenuated dB below the maximum in-band spectral density of the modulated signal. Spectral density (power per unit bandwidth) is to be measured with a detector of resolution bandwidth in the range of 1% to 5% of the anticipated emission bandwidth, and a video bandwidth at least 3 the resolution bandwidth. When the occupied bandwidth limit is not stated in the applicable RSS or reference measurement method, the transmitted signal bandwidth shall be reported as the 99%

emission bandwidth, as calculated or measured. The transmitter shall be operated at its maximum carrier power measured under normal test conditions. The span of the analyzer shall be set to capture all products of the modulation process, including the emission skirts. The resolution bandwidth (RBW) shall be in the range of 1% to 5% of the occupied bandwidth

(OBW) and video bandwidth (VBW) shall be approximately 3RBW. Note: Video averaging is not permitted. A peak, or peak hold, may be used in place of the sampling detector as this may produce a wider bandwidth than the actual bandwidth (worst-case measurement). Use of a peak hold may be necessary to determine the occupied bandwidth if the device is not transmitting continuously. TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCe_REV1 Page 32 of 103 The trace data points are recovered and are directly summed in linear power level terms. The recovered amplitude data points, beginning at the lowest frequency, are placed in a running sum until 0.3% of the total is reached and that frequency recorded. The process is repeated for the highest frequency data points (starting at the highest frequency, at the right side of the span, and going down in frequency). This frequency is then recorded. The difference between the two recorded frequencies is the 99% occupied bandwidth. RSS-131; 5.2.2 Input-versus-output spectrum The spectral growth of the 26 dB bandwidth of the output signal shall be less than 5% of the input signal spectrum. 4.3.3 TEST PROTOCOL Band 12, downlink Signal Input Power Type 0.3 dB < AGC Wideband Wideband 3 dB > AGC Narrowband 0.3 dB < AGC Narrowband 3 dB > AGC Band 13, downlink Signal Frequency

[MHz]

737.50 737.50 737.50 737.50 Occupied Bandwidth SG

[kHz]

4326.7 4325.5 315.0 314.3 Occupied Bandwidth Booster

[kHz]

4325.5 4325.5 313.8 315.6 Signal Input Power Type 0.3 dB < AGC Wideband Wideband 3 dB > AGC Narrowband 0.3 dB < AGC Narrowband 3 dB > AGC Signal Frequency

[MHz]

751.00 751.00 751.00 751.00 Occupied Bandwidth SG

[kHz]

4326.7 4325.5 313.1 315.3 Occupied Bandwidth Booster

[kHz]

4325.5 4326.7 315.7 314.0 Remark: Please see next sub-clause for the measurement plot. Occupied Bandwidth Occupied Bandwidth Delta

[kHz]

1.2 0.0 1.2 1.3 Delta

[kHz]

1.2 1.2 2.6 1.3 Limit Delta

[kHz]

205.0 205.0 10.0 10.0 Limit Delta

[kHz]

205.0 205.0 10.0 10.0 Margin to Limit

[kHz]

203.8 205.0 8.8 8.7 Margin to Limit

[kHz]

203.8 203.8 7.4 8.7 Occupied Bandwidth Occupied Bandwidth TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCe_REV1 Page 33 of 103 4.3.4 MEASUREMENT PLOT (SHOWING THE HIGHEST VALUE, WORST CASE) Frequency Band = Band 12, Direction = RF downlink, Input Power = 0.3 dB < AGC, Signal Type = Narrowband

(S01_AA01) Input Signal Output Signal TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCe_REV1 Page 34 of 103 Frequency Band = Band 12, Direction = RF downlink, Input Power = 0.3 dB < AGC, Signal Type = Wideband

(S01_AA01) Input Signal Output Signal TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCe_REV1 Page 35 of 103 Frequency Band = Band 12, Direction = RF downlink, Input Power = 3 dB > AGC, Signal Type

= Narrowband

(S01_AA01) Input Signal Output Signal TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCe_REV1 Page 36 of 103 Frequency Band = Band 12, Direction = RF downlink, Input Power = 3 dB > AGC, Signal Type

= Wideband

(S01_AA01) Input Signal Output Signal TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCe_REV1 Page 37 of 103 Frequency Band = Band 13, Direction = RF downlink, Input Power = 0.3 dB < AGC, Signal Type = Narrowband

(S01_AA01) Input Signal Output Signal TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCe_REV1 Page 38 of 103 Frequency Band = Band 13, Direction = RF downlink, Input Power = 0.3 dB < AGC, Signal Type = Wideband

(S01_AA01) Input Signal Output Signal TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCe_REV1 Page 39 of 103 Frequency Band = Band 13, Direction = RF downlink, Input Power = 3 dB > AGC, Signal Type

= Narrowband

(S01_AA01) Input Signal Output Signal TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCe_REV1 Page 40 of 103 Frequency Band = Band 13, Direction = RF downlink, Input Power = 3 dB > AGC, Signal Type

= Wideband

(S01_AA01) Input Signal Output Signal 4.3.5 TEST EQUIPMENT USED FCC Conducted Base Station / Repeater TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCe_REV1 Page 41 of 103 4.4 CONDUCTED SPURIOUS EMISSIONS AT ANTENNA TERMINALS Standard The test was performed according to:

ANSI C63.26 FCC Part 2.1051, 27.53 4.4.1 TEST DESCRIPTION This test case is intended to demonstrate compliance to the signal booster power and gain limits and requirements for industrial signal boosters. The EUT was connected to the test setup according to the following diagram:

The radio frequency voltage or powers generated within the equipment and appearing on a spurious frequency shall be checked at the equipment output terminals when properly loaded with a suitable artificial antenna. Curves or equivalent data shall show the magnitude of each harmonic and other spurious emission that can be detected when the equipment is operated under the conditions specified in 2.1049 as appropriate. The magnitude of spurious emissions which are attenuated more than 20 dB below the permissible value need not be specified. TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCe_REV1 Page 42 of 103 Part 27; Miscellaneous Wireless Communication Services Subpart C Technical standards 27.53 Emission limits Band 13

(c) For operations in the 746-758 MHz band and the 776-788 MHz band, the power of any emission outside the 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, in accordance with the following:

(1) On any frequency outside the 746-758 MHz band, the power of any emission shall be attenuated outside the band below the transmitter power (P) by at least 43 + 10 log (P) dB;

(2) On any frequency outside the 776-788 MHz band, the power of any emission shall be attenuated outside the band below the transmitter power (P) by at least 43 + 10 log (P) dB;

(3) On all frequencies between 763-775 MHz and 793-805 MHz, by a factor not less than 76 +

10 log (P) dB in a 6.25 kHz band segment, for base and fixed stations;

(4) On all frequencies between 763-775 MHz and 793-805 MHz, by a factor not less than 65 +

10 log (P) dB in a 6.25 kHz band segment, for mobile and portable stations;

(5) Compliance with the provisions of paragraphs (c)(1) and (c)(2) of this section is based on the use of measurement instrumentation employing a resolution bandwidth of 100 kHz or greater. However, in the 100 kHz bands immediately outside and adjacent to the frequency block, a resolution bandwidth of at least 30 kHz may be employed;

(f) For operations in the 746-758 MHz, 775-788 MHz, and 805-806 MHz bands, emissions in the band 1559-1610 MHz shall be limited to 70 dBW/MHz equivalent isotropically radiated power (EIRP) for wideband signals, and 80 dBW EIRP for discrete emissions of less than 700 Hz bandwidth. For the purpose of equipment authorization, a transmitter shall be tested with an antenna that is representative of the type that will be used with the equipment in normal operation.

(6) Compliance with the provisions of paragraphs (c)(3) and (c)(4) of this section is based on the use of measurement instrumentation such that the reading taken with any resolution bandwidth setting should be adjusted to indicate spectral energy in a 6.25 kHz segment. Band 12:

(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. Band 4:

(h) AWS emission limits(1) General protection levels. Except as otherwise specified below, for operations in the 1695-1710 MHz, 1710-1755 MHz, 1755-1780 MHz, 1915-1920 MHz, 1995-2000 MHz, 2000-2020 MHz, 2110-2155 MHz, 2155-2180 MHz, and 2180-2200 bands, the power of any emission outside a licensee's frequency block shall be attenuated below the transmitter power (P) in watts by at least 43 + 10 log10 (P) dB. TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCe_REV1 Page 43 of 103 RSS-130; 4.6 Transmitter Unwanted Emissions 4.6.1 The power of any unwanted emissions in any 100 kHz bandwidth on any frequency outside the frequency range(s) within which the equipment is designed to operate shall be attenuated below the transmitter power, P (dBW), by at least 43 + 10 log10 p (watts), dB. However, in the 100 kHz band immediately outside the equipments operating frequency range, a resolution bandwidth of 30 kHz may be employed. 4.6.2 In addition to the limit outlined in Section 4.6.1 above, equipment operating in the frequency bands 746-756 MHz and 777-787 MHz shall also comply with the following restrictions:

(a) The power of any unwanted emissions in any 6.25 kHz bandwidth for all frequencies between 763-775 MHz and 793-806 MHz shall be attenuated below the transmitter power, P (dBW), by at least:

o o

(i) 76 + 10 log10 p (watts), dB, for base and fixed equipment, and

(ii) 65 + 10 log10 p (watts), dB, for mobile and portable equipment.

(b) The e.i.r.p. in the band 1559-1610 MHz shall not exceed 70 dBW/MHz for wideband signal and 80 dBW for discrete emission with bandwidth less than 700 Hz. RSS-139; 6.6 Transmitter Unwanted Emissions Equipment shall comply with the limits in (i) and (ii) below. i. ii. In the first 1.0 MHz bands immediately outside and adjacent to the equipments smallest operating frequency block, which can contain the equipments occupied bandwidth, the emission power per any 1% of the emission bandwidth shall be attenuated below the transmitter output power P (in dBW) by at least 43 + 10 log10 p

(watts) dB. After the first 1.0 MHz outside the equipments smallest operating frequency block, which can contain the equipments occupied bandwidth, the emission power in any 1 MHz bandwidth shall be attenuated below the transmitter output power P (in dBW) by at least 43 + 10 log10 p (watts) dB. TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCe_REV1 Page 44 of 103 4.4.3 TEST PROTOCOL Ambient temperature:

Air Pressure:

Humidity:

26 C 1011 hPa 32 %

Band 12, downlink Test Frequency Signal Type low low low low low mid mid mid mid high high high high low low low mid mid mid high high high Wideband Wideband Wideband Wideband Wideband Wideband Wideband Wideband Wideband Wideband Wideband Wideband Wideband Narrowband Narrowband Narrowband Narrowband Narrowband Narrowband Narrowband Narrowband Narrowband Spurious Level

[dBm]

-25.8

-29.3

-25.2

-29.1

-23.9

-30.9

-28.6

-25.4

-23.8

-22.3

-24.9

-29.2

-23.4

-29.2

-22.5

-23.8

-29.1

-21.7

-24.2

-28.7

-21.0

-22.7 Spurious Freq.

[MHz]

728.75 748.49 1462.40 2193.13 6975.45 728.76 748.49 1475.31 6950.75 747.08 1487.57 2230.63 6949.86 748.49 1458.23 6952.10 748.49 1474.88 6977.93 746.13 1491.75 6977.42 Limit

[dBm]

-13.0

-23.0

-13.0

-23.0

-13.0

-23.0

-13.0

-23.0

-13.0

-23.0

-13.0

-13.0 RBW

[kHz]

100 100 100 100 100 100 10 100 100 100 100 100 100 100 100 100 10 100 100 100 100 100 Margin to Limit

[dB]

12.8 6.3 12.2 16.1 10.9 17.9 5.6 12.4 10.8 9.3 11.9 16.2 10.4 6.2 9.5 10.8 6.1 8.7 11.2 5.7 8.0 9.7 Detector RMS PEAK PEAK PEAK PEAK PEAK PEAK PEAK PEAK PEAK PEAK PEAK PEAK PEAK PEAK PEAK PEAK PEAK PEAK PEAK PEAK PEAK TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCe_REV1 Page 45 of 103 Detector RBW

[kHz]

PEAK PEAK PEAK PEAK PEAK PEAK RMS PEAK PEAK PEAK PEAK PEAK RMS PEAK PEAK RMS PEAK PEAK RMS PEAK 10 10 100 10 10 10 6.25 1000 10 10 100 100 10 100 10 6.25 100 10 6.25 100 Limit

[dBm]

-23.0

-46.0

-13.0

-23.0

-46.0

-13.0

-23.0

-46.0

-13.0

-46.0

-13.0

-23.0

-46.0

-13.0

-23.0

-46.0

-13.0 Margin to Limit

[dB]

7.0 1.1 11.3 6.2 6.6 11.4 1.5 11.6 8.8 1.6 10.9 9.6 8.5 11.1 6.7 8.8 10.7 5.8 9.5 10.4 Ambient temperature:

Air Pressure:

Humidity:

26 C 1011 hPa 32 %

Band 13, downlink Spurious Spurious Test Frequency Signal Type Narrowband Narrowband Narrowband Narrowband Narrowband Narrowband Narrowband Narrowband Narrowband Narrowband Narrowband Wideband Wideband Wideband Wideband Wideband Wideband Wideband Wideband Wideband low low low mid mid mid mid mid high high high low low low mid mid mid high high high Level

[dBm]

-30.0

-47.1

-24.3

-29.2

-29.6

-34.4

-47.5

-24.6

-31.8

-47.6

-23.9

-22.6

-54.5

-24.1

-29.7

-54.8

-23.7

-28.8

-55.5

-23.4 Freq.

[MHz]

745.90 764.60 6951.75 729.60 744.77 757.21 763.53 6929.60 743.30 764.35 6971.95 744.56 763.78 6997.80 745.54 763.63 6551.65 745.31 764.04 6897.55 Remark: Please see next sub-clause for the measurement plot. TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCe_REV1 Page 46 of 103 4.4.4 MEASUREMENT PLOT (SHOWING THE HIGHEST VALUE, WORST CASE) Frequency Band = Band 12, Test Frequency = mid, Direction = RF downlink, Signal Type =

Narrowband

(S01_AA01) m B d n i l e v e L 0

-5

-10

-15

-20

-25

-30

-35

-40

-45

-50

-55

-60

-65

-70

-75

-80

-85 9k 20 50 100k 200 500 1M 2M FCC27 Band 12 Limit, below 200 kHz reduced according RBW reduction 1.474875531 GHz

-21.680 dBm 6.977937500 GHz

-24.247 dBm 748.487938 MHz

-29.063 dBm 50 100M 200 500 1G 2G 5G 8G 5M 10M 20 Frequency in Hz Frequency Band = Band 12, Test Frequency = mid, Direction = RF downlink, Signal Type =

Wideband

(S01_AA01) FCC27 Band 12 Limit, below 200 kHz reduced according RBW reduction 1.475306250 GHz

-25.549 dBm 6.950750000 GHz

-23.762 dBm 748.487938 MHz

-28.561 dBm 728.765000 MHz

-30.917 dBm 0

-5

-10

-15

-20

-25

-30

-35

-40

-45

-50

-55

-60

-65

-70

-75

-80

-85 m B d n i l e v e L 9k 20 50 100k 200 500 1M 2M 5M 10M 20 50 100M 200 500 1G 2G 5G 8G Frequency in Hz TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCe_REV1 Page 47 of 103 Frequency Band = Band 12, Test Frequency = low, Direction = RF downlink, Signal Type =

Narrowband

(S01_AA01) 0

-5

-10

-15

-20

-25

-30

-35

-40

-45

-50

-55

-60

-65

-70

-75

-80

-85 m B d n i l e v e L 9k 20 50 100k 200 500 1M 2M 6.952109375 GHz

-23.828 dBm FCC27 Band 12 Limit, below 200 kHz reduced according RBW reduction 1.458273281 GHz

-22.458 dBm 748.487938 MHz

-29.198 dBm 5M 10M 20 Frequency in Hz 50 100M 200 500 1G 2G 5G 8G Frequency Band = Band 12, Test Frequency = low, Direction = RF downlink, Signal Type =

Wideband

(S01_AA01) 0

-5

-10

-15

-20

-25

-30

-35

-40

-45

-50

-55

-60

-65

-70

-75

-80

-85 m B d n i l e v e L 9k 20 50 100k 200 500 1M 2M 6.975453125 GHz

-23.916 dBm FCC27 Band 12 Limit, below 200 kHz reduced according RBW reduction 1.462384688 GHz

-25.229 dBm 2.193125000 GHz

-29.087 dBm 728.754200 MHz

-21.090 dBm 748.487938 MHz

-29.258 dBm 5M 10M 20 Frequency in Hz 50 100M 200 500 1G 2G 5G 8G TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCe_REV1 Page 48 of 103 Frequency Band = Band 12, Test Frequency = low, Direction = RF downlink, Signal Type =

Wideband, final measurement

(S01_AA01) Frequency Band = Band 12, Test Frequency = high, Direction = RF downlink, Signal Type =

Narrowband

(S01_AA01) FCC27 Band 12 Limit, below 200 kHz reduced according RBW reduction 6.977421875 GHz

-22.749 dBm 1.491751875 GHz

-21.037 dBm 746.127900 MHz

-28.715 dBm 0

-5

-10

-15

-20

-25

-30

-35

-40

-45

-50

-55

-60

-65

-70

-75

-80

-85 m B d n i l e v e L 9k 20 50 100k 200 500 1M 2M 5M 10M 20 50 100M 200 500 1G 2G 5G 8G Frequency in Hz TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCe_REV1 Page 49 of 103 Frequency Band = Band 12, Test Frequency = high, Direction = RF downlink, Signal Type =

Wideband

(S01_AA01) 0

-5

-10

-15

-20

-25

-30

-35

-40

-45

-50

-55

-60

-65

-70

-75

-80

-85 m B d n i l e v e L 9k 20 50 100k 200 500 1M 2M FCC27 Band 12 Limit, below 200 kHz reduced according RBW reduction 6.949859375 GHz

-23.430 dBm 747.078313 MHz

-22.291 dBm 1.487562156 GHz

-24.949 dBm 2.230625000 GHz

-29.235 dBm 5M 10M 20 Frequency in Hz 50 100M 200 500 1G 2G 5G 8G TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCe_REV1 Page 50 of 103 Frequency Band = Band 13, Test Frequency = mid, Direction = RF downlink, Signal Type =

Narrowband

(S01_AA01) FCC27 Band 13 Base and Fixed Stations Limit, below 200 kHz reduced according RBW reduction 6.929600000 GHz

-24.605 dBm 739.600200 MHz

-29.225 dBm 744.767250 MHz

-29.639 dBm 757.213400 MHz

-34.380 dBm 763.527000 MHz

-36.535 dBm 0

-5

-10

-15

-20

-25

-30

-35

-40

-45

-50

-55

-60

-65

-70

-75

-80

-85 m B d n i l e v e L 9k 20 50 100k 200 500 1M 2M 5M 10M 20 50 100M 200 500 1G 2G 5G 8G Frequency in Hz Frequency Band = Band 13, Test Frequency = mid, Direction = RF downlink, Signal Type =

Narrowband, final measurement, 763 775 MHz

(S01_AA01) TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCe_REV1 Page 51 of 103 Frequency Band = Band 13, Test Frequency = mid, Direction = RF downlink, Signal Type =

Wideband

(S01_AA01) m B d n i l e v e L FCC27 Band 13 Base and Fixed Stations Limit, below 200 kHz reduced according RBW reduction 6.651650000 GHz

-23.735 dBm 745.535500 MHz

-29.698 dBm 763.628000 MHz

-44.683 dBm 0

-5

-10

-15

-20

-25

-30

-35

-40

-45

-50

-55

-60

-65

-70

-75

-80

-85 9k 20 50 100k 200 500 1M 2M 10M 5M Frequency in Hz 20 50 100M 200 500 1G 2G 5G 8G Frequency Band = Band 13, Test Frequency = mid, Direction = RF downlink, Signal Type =

Wideband, final measurement, 763 775 MHz

(S01_AA01) TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCe_REV1 Page 52 of 103

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November 04 2019

FCC Measurement/Technical Report on CAP H 7E/80-85/17E/19 Cellular Repeater FCC ID: XS5-CAPH7E817E19 IC: 2237E-EH7E817E19 Test Report Reference: MDE_BVNBG_1806_FCCd_REV1 Test Laboratory:

7layers GmbH Borsigstrasse 11 40880 Ratingen Germany Note:

Dsseldorf HRB 75554 USt-Id.-Nr./VAT-No. DE203159652 Steuer-Nr./TAX-No. 147/5869/0385 Geschftsfhrer/

Managing Directors:

Frank Spiller Bernhard Retka Alexandre Norr-Oudard a Bureau Veritas Group Company www.7layers.com Commerzbank AG Account No. 303016000 Bank Code 30040000 IBAN DE81300400000303016000 Swift Code COBADEFF Table of Contents 1.1 Applied Standards 1.2 FCC-IC Correlation Table 1.3 Measurement Summary / Signatures 2 Administrative Data 2.1 Testing Laboratory 2.2 Project Data 2.3 Applicant Data 2.4 Manufacturer Data Test object Data 3 3.1 General EUT Description 3.2 EUT Main components 3.3 Ancillary Equipment 3.4 Auxiliary Equipment 3.5 EUT Setups 3.6 Operating Modes 3.7 Product labelling Test Results 4 4.1 Field strength of spurious radiation 5 Test Equipment 6 Antenna Factors, Cable Loss and Sample Calculations 6.1 LISN R&S ESH3-Z5 (150 kHz 30 MHz) 6.2 Antenna R&S HFH2-Z2 (9 kHz 30 MHz) 6.3 Antenna R&S HL562 (30 MHz 1 GHz) 6.4 Antenna R&S HF907 (1 GHz 18 GHz) 6.5 Antenna EMCO 3160-09 (18 GHz 26.5 GHz) 6.6 Antenna EMCO 3160-10 (26.5 GHz 40 GHz) 7 Measurement Uncertainties 8 Photo Report 3 4 5 8 8 8 8 8 9 9 9 10 10 10 11 11 12 12 18 21 21 22 23 24 25 26 27 27 TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCd_REV1 Page 2 of 27 Applied Standards and Test Summary 1.1 APPLIED STANDARDS Type of Authorization Certification for an Industrial Signal Booster. Applicable FCC Rules Prepared in accordance with the requirements of FCC Rules and Regulations as listed in 47 CFR Ch.1 Parts 2 and 20, 24, (10/1/18 Edition). The following subparts are applicable to the results in this test report. Part 2, Subpart J - Equipment Authorization Procedures, Certification Part 20, Commercial Mobiles Serviced 20.21 Part 24, Subpart E Broadband PCS 24.232 Power and antenna height limits 24.235 Frequency stability 24.238 Emission limitations for Broadband PCS equipment The tests were selected and performed with reference to:

consumer signal booster, repeater and amplifier devices 935210 D05 v01r02, 2017-

The EUT complied with all performed tests as listed in chapter 1.3 Measurement Summary / Signatures. 1.2 FCC-IC CORRELATION TABLE Correlation of measurement requirements for Industrial Signal Booster from FCC and ISED Canada Measurement Effective radiated power, mean output power and zone enhancer gain FCC reference 2.1046 24.232 KDB 935210 D05 v01r02: 3.5 Peak to Average Ratio Occupied bandwidth Input-versus-output spectrum Conducted spurious Emission at Antenna Terminal Out-of-band emissions limits Frequency stability Field strength of spurious radiation Out-of-band rejection 24.232 2.1049 KDB 935210 D05 v01r02: 3.4 2.1051 24.238 2.1051 24.238 KDB 935210 D05 v01r02: 3.6 2.1055 24.235 2.1053 24.236 KDB 935210 D05 v01r02: 3.3 ISED reference RSS-GEN Issue 5, 6.12 RSS-133 Issue 6, 6.4 SRSP-510, Issue 7, 5.1.1 RSS-131 Issue 3: 5.2.3 RSS 133 Issue 6: 6.4 RSS-GEN Issue 5, 6.7 RSS-131 Issue 3: 5.2.2 RSS-GEN Issue 5, 6.13 RSS-133 Issue 6, 6.5 RSS-GEN Issue 5, 6.13 RSS-133 Issue 6, 6.5 RSS-GEN Issue 5, 6.11 RSS-133 Issue 6: 6.3 RSS-131 Issue 3: 5.2.4 RSS-GEN Issue 5, 6.13 RSS-133 Issue 6: 6.5 RSS-131 Issue 3: 5.2.1 TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCd_REV1 Page 4 of 27 2.1046, 24.232, KDB 935210 D02 II (p)(4) 1.3 MEASUREMENT SUMMARY / SIGNATURES 47 CFR CHAPTER I FCC PART 24 Subpart E

[Base Stations/Repeater]

47 CFR CHAPTER I FCC PART 24 Subpart E

[Base Stations/Repeater]

Peak to Average Ratio The measurement was performed according to ANSI C63.26 OP-Mode Frequency Band, Direction, Input Power, Signal Type Band 2/25, RF downlink, 0.3 dB < AGC, Narrowband Band 2/25, RF downlink, 0.3 dB < AGC, Wideband Band 2/25, RF downlink, 3 dB > AGC, Narrowband Band 2/25, RF downlink, 3 dB > AGC, Wideband

24.232 Setup 47 CFR CHAPTER I FCC PART 24 Subpart E

[Base Stations/Repeater]

Setup 2.1049, KDB 935210 D02 II (p)(3) Final Result Final Result FCC N/P N/P N/P N/P IC N/P N/P N/P N/P Final Result FCC N/P N/P N/P N/P IC N/P N/P N/P N/P FCC N/P N/P N/P N/P IC N/P N/P N/P N/P TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCd_REV1 Page 5 of 27 2.1051, 24.238 47 CFR CHAPTER I FCC PART 24 Subpart E

[Base Stations/Repeater]

Conducted spurious emissions at antenna terminals The measurement was performed according to ANSI C63.26 OP-Mode Frequency Band, Test Frequency, Direction, Signal Type Band 2/25, high, RF downlink, Narrowband Band 2/25, high, RF downlink, Wideband Band 2/25, low, RF downlink, Narrowband Band 2/25, low, RF downlink, Wideband Band 2/25, mid, RF downlink, Narrowband Band 2/25, mid, RF downlink, Wideband Setup S01_AA01 S01_AA01 S01_AA01 S01_AA01 S01_AA01 S01_AA01 Final Result FCC IC Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed 2.1053, 24.238, KDB 935210 D02 II (p)(3) Setup 47 CFR CHAPTER I FCC PART 24 Subpart E

[Base Stations/Repeater]

47 CFR CHAPTER I FCC PART 24 Subpart E

[Base Stations/Repeater]

Out-of-band rejection The measurement was performed according to ANSI C63.26 OP-Mode Frequency Band, Direction Band 2/25, RF downlink

Setup Final Result FCC IC N/P N/P N/P N/P N/P N/P N/P N/P N/P N/P N/P N/P N/P N/P N/P N/P N/P N/P N/P N/P N/P N/P N/P N/P N/P N/P N/P N/P N/P N/P N/P N/P Final Result FCC N/P IC N/P KDB 935210 D02 II (p)(2) TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCd_REV1 Page 6 of 27 2 ADMINISTRATIVE DATA 2.1 TESTING LABORATORY Company Name:

Address:

7layers GmbH Borsigstr. 11 40880 Ratingen Germany The test facility is accredited by the following accreditation organisation:

Laboratory accreditation no:

FCC Designation Number:

FCC Test Firm Registration:

ISED CAB Identifier Responsible for accreditation scope: Dipl.-Ing. Marco Kullik DAkkS D-PL-12140-01-00 DE0015 929146 DE0007; ISED#:3699A Report Template Version:

2.2 PROJECT DATA Responsible for testing and report:

2019-03-11 Employees who performed the tests: documented internally at 7Layers Date of Report:

Dipl.-Ing. Daniel Gall 2019-04-10 2019-02-19 to 2019-02-21 Testing Period:

2.3 APPLICANT DATA Company Name:

Address:

Contact Person:

Commscope Andrew Wireless Systems GmbH Industriering 10 86675 Buchdorf Germany Mr. Frank Futter 2.4 MANUFACTURER DATA Company Name:

Address:

Contact Person:

please see applicant data TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCd_REV1 Page 8 of 27 3 TEST OBJECT DATA 3.1 GENERAL EUT DESCRIPTION Kind of Device product description Product name Type Cellular Repeater ION-E System CAP H 7E/80-85/17E/19 Declared EUT data by the supplier General Product Description The EUT is an industrial signal booster supporting the followings:

Band 2/25 / 1900 PCS Band 4/10/66 / AWS 1 Band 5 / 850 Band 12 / 700 a Band 13 / 700 c Band 14 / 700 PS Band 26 / 850+

A RF operation is only supported for the downlink. Industrial Signal Booster AC 100 240 V, 50 60 Hz

Booster Type Voltage Type Voltage Level Maximum Output Donor Port [Uplink]

Band 2/25 / 1900 PCS: 43.0 dBm Maximum Output Server Port [Downlink]

Maximum Gain [Uplink] -

Maximum Gain

[Downlink]

Band 2 / 1900 PCS: 28.0 dB The main components of the EUT are listed and described in chapter 3.2 EUT Main components. 3.2 EUT MAIN COMPONENTS Sample Name EUT A Sample Code DE1277008aa01 Sample Parameter Description FCC sample Value Serial Number HW Version SW Version Comment NOTE:The short description is used to simplify the identification of the EUT in this test report. BGCHDA1851001 7825719-0001 CAP H 7E/80-85/17E/19 7694174-12 SW V2.6.0.106

TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCd_REV1 Page 9 of 27 3.3 ANCILLARY EQUIPMENT For the purposes of this test report, ancillary equipment is defined as equipment which is used in conjunction with the EUT to provide operational and control features to the EUT. It is necessary to configure the system in a typical fashion, as a customer would normally use it. But nevertheless Ancillary Equipment can influence the test results. Device Description Details

(Manufacturer, Type Model, OUT Code)

(Manufacturer, HW, SW, S/N)

3.5 EUT SETUPS This chapter describes the combination of EUTs and equipment used for testing. The rationale for selecting the EUTs, ancillary and auxiliary equipment and interconnecting cables, is to test a representative configuration meeting the requirements of the referenced standards. Setup Combination of EUTs Description and Rationale S01_AA01 EUT A Setup for all tests TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCd_REV1 Page 10 of 27 3.6 OPERATING MODES This chapter describes the operating modes of the EUTs used for testing. 3.6.1 TEST CHANNELS Band 2/25 Direction downlink Lower Frequency Band Edge

[MHz]

1930.00 Upper Frequency Band Edge

[MHz]

1995.00 Center Frequency

[MHz]

1962.50 Port Donor 3.6.2 AUTOMATIC GAIN CONTROL LEVELS AGC Levels Band 2/25 2/25 2/25 2/25 2/25 2/25 2/25 2/25 Direction downlink downlink downlink downlink downlink downlink downlink downlink Signal Type Narrowband Wideband Narrowband Wideband Narrowband Wideband Narrowband Wideband AGC Start Pin

[dBm]

AGC Start Pin

-0.3 dB

[dBm]

AGC Start Pin

+3 dB

[dBm]

0.0

1.0

1.2

3.7 PRODUCT LABELLING 3.7.1 FCC ID LABEL Please refer to the documentation of the applicant. 3.7.2 LOCATION OF THE LABEL ON THE EUT Please refer to the documentation of the applicant. Frequency

[MHz]

1962.5

1930.0

1995.0

Frequency Mid Low High Max. Power TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCd_REV1 Page 11 of 27 4 TEST RESULTS 4.1 FIELD STRENGTH OF SPURIOUS RADIATION Standard The test was performed according to:

ANSI C63.26 FCC Part 24, 24.238 4.1.1 TEST DESCRIPTION This test case is intended to demonstrate compliance to the applicable radiated spurious emission measurements per 2.1053 The EUT was connected to the test setup according to the following diagram:

The test set-up was made in accordance to the general provisions of ANSI C63.4 in a typical installation configuration. The Equipment Under Test (EUT) was set up on a non-conductive table 1.0 x 2.0 m in the semi-anechoic chamber. The influence of the EUT support table that is used between 301000 MHz was evaluated. The measurement procedure is implemented into the EMI test software EMC32 from R&S. Exploratory tests are performed at 3 orthogonal axes to determine the worst-case orientation of a body-worn or handheld EUT. The final test on all kind of EUTs is also performed at 3 axes. A pre-check is performed while the EUT is powered from a DC power source. 1. Measurement above 30 MHz and up to 1 GHz Step 1: Preliminary scan This is a preliminary test to identify the highest amplitudes relative to the limit. Settings for step 1:

TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCd_REV1 Page 12 of 27

- Antenna distance: 3 m

- Detector: Peak-Maxhold / Quasipeak (FFT-based)

- Frequency range: 30 1000 MHz

- Frequency steps: 30 kHz

- IFBandwidth: 120 kHz

- Measuring time / Frequency step: 100 ms

- Turntable angle range: 180 to 90

- Turntable step size: 90

- Height variation range: 1 3 m

- Height variation step size: 2 m

- Polarisation: Horizontal + Vertical Intention of this step is, to determine the radiated EMI-profile of the EUT. Afterwards the relevant emissions for the final measurement are identified. Step 2: Adjustment measurement In this step the accuracy of the turntable azimuth and antenna height will be improved. This is necessary to find out the maximum value of every frequency. For each frequency, which was determined the turntable azimuth and antenna height will be adjusted. The turntable azimuth will slowly vary by 45 around this value. During this action, the value of emission is continuously measured. The turntable azimuth at the highest emission will be recorded and adjusted. In this position, the antenna height will also slowly vary by 100 cm around the antenna height determined. During this action, the value of emission is also continuously measured. The antenna height of the highest emission will also be recorded and adjusted.

- Detector: Peak Maxhold

- Measured frequencies: in step 1 determined frequencies

- IF Bandwidth: 120 kHz

- Measuring time: 100 ms

- Turntable angle range: 45 around the determined value

- Height variation range: 100 cm around the determined value

- Antenna Polarisation: max. value determined in step 1 Step 3: Final measurement with QP detector With the settings determined in step 3, the final measurement will be performed:

EMI receiver settings for step 4:

- Detector: Quasi-Peak (< 1 GHz)

- Measured frequencies: in step 1 determined frequencies

- IF Bandwidth: 120 kHz

- Measuring time: 1 s After the measurement a plot will be generated which contains a diagram with the results of the preliminary scan and a chart with the frequencies and values of the results of the final measurement. 3. Measurement above 1 GHz The following modifications apply to the measurement procedure for the frequency range above 1 GHz:

Step 1:

The Equipment Under Test (EUT) was set up on a non-conductive support (tilt device) at 1.5 m height in the fully-anechoic chamber. All steps were performed with one height (1.5 m) of the receiving antenna only. The EUT is turned during the preliminary measurement across the elevation axis, with a step size of 90 . The turn table step size (azimuth angle) for the preliminary measurement is 45 . Step 2:

TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCd_REV1 Page 13 of 27 Due to the fact, that in this frequency range the test is performed in a fully anechoic room, the height scan of the receiving antenna instep 2 is omitted. Instead of this, a maximum search with a step size 45 for the elevation axis is performed. The turn table azimuth will slowly vary by 22.5. The elevation angle will slowly vary by 45 EMI receiver settings (for all steps):

- Detector: Peak, Average

- IF Bandwidth = 1 MHz Step 3:

Spectrum analyser settings for step 3:

- Detector: Peak / Average

- Measured frequencies: in step 1 determined frequencies

- IF Bandwidth: 1 MHz

- Measuring time: 1 s 4.1.2 TEST REQUIREMENTS / LIMITS FCC Part 2.1053; Measurement 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 2.1049, as appropriate. Part 24, Subpart E Broadband PCS, Band 2/25 24.238 Emission limitations for Broadband PCS equipment

(a) Out of band emissions. The power of any emission outside of the authorized operating frequency ranges must be attenuated below the transmitting power (P) by a factor of at least 43 + 10 log(P) dB. RSS-133; 6.5 Transmitter Unwanted Emissions 6.5.1 Out-of-Block Emissions Equipment shall comply with the limits in (i) and (ii) below. i. ii. In the 1.0 MHz bands immediately outside and adjacent to the equipments operating frequency block, the emission power per any 1% of the emission bandwidth shall be attenuated (in dB) below the transmitter output power P (dBW) by at least 43 + 10 log10p(watts). After the first 1.0 MHz, the emission power in any 1 MHz bandwidth shall be attenuated

(in dB) below the transmitter output power P (dBW) by at least 43 + 10 log10p(watts). If the measurement is performed using 1% of the emission bandwidth, power integration over 1.0 MHz is required. TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCd_REV1 Page 14 of 27 Margin to Limit

[dB]

- - -

4.1.3 TEST PROTOCOL Band 2/25, downlink;

Spurious Freq.

[MHz]

Spurious Level

[dBm]

1.0/0.0/1.2 1.0/0.0/1.2 1.0/0.0/1.2 1.0/0.0/1.2 1.0/0.0/1.2 Detector RMS RMS RMS RMS RMS RBW

[kHz]

100 100 100 100 100 Limit

[dBm]

-13.0

Remark: Please see next sub-clause for the measurement plot. Only module 1 was tested The three required test frequencies (low, mid, high) were injected simultaneously conducted into the EUT. The RF output ports were terminated with 50 Ohm Pin: The single power of each of the three channels (bottom, middle, top). 4.1.4 MEASUREMENT PLOT (SHOWING THE HIGHEST VALUE, WORST CASE) Frequency Band = Band 2/25, Test Frequency = high, Direction = RF downlink

(S01_AA01) m B d n i l e v e L m B d n i l e v e L 0

-10

-20

-30

-40

-50

-60

-70 FCC_24.4 30M 50 60 80 100M 200 Frequency in Hz 30 MHz - 1 GHz 300 400 500 800 1G 0

-10

-20

-30

-40

-50

-60

-70

-80

-90

-100 FCC_24.4 1G 2G 3G 4G 5G Frequency in Hz 1 GHz - 20 GHz 6 8 10G 20G TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCd_REV1 Page 15 of 27 Frequency Band = Band 2/25, Test Frequency = mid, Direction = RF downlink

(S01_AA01) 0

-10

-20

-30

-40

-50

-60

-70 m B d n i l e v e L FCC_24.4 30M 50 60 80 100M 200 Frequency in Hz 30 MHz - 1 GHz 300 400 500 800 1G FCC_24.4 0

-10

-20

-30

-40

-50

-60

-70

-80

-90

-100 m B d n i l e v e L 1G 2G 3G 6 8 10G 20G 4G 5G Frequency in Hz 1 GHz - 20 GHz TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCd_REV1 Page 16 of 27 Frequency Band = Band 2/25, Test Frequency = low, Direction = RF downlink

(S01_AA01) 0

-10

-20

-30

-40

-50

-60

-70 m B d n i l e v e L FCC_24.4 30M 50 60 80 100M 200 Frequency in Hz 30 MHz - 1 GHz 300 400 500 800 1G FCC_24.4 0

-10

-20

-30

-40

-50

-60

-70

-80

-90

-100 m B d n i l e v e L 1G 2G 3G 4.1.5 TEST EQUIPMENT USED 6 8 10G 20G 4G 5G Frequency in Hz 1 GHz - 20 GHz

Radiated Emissions TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCd_REV1 Page 17 of 27 5 TEST EQUIPMENT 1 Ref.No. Device Name Description Manufacturer Serial Number R&S TS8997 EN300328/301893/FCC cond. Test Lab Rohde & Schwarz 107695 Last Calibration Calibration 2017-07 Due 2020-07 1.1 SMB100A 1.2 MFS 1.3 1515 / 93459 1.4 FSV30 1.5 Fluke 177 1.6 1.7 1.8 VT 4002 A8455-4 Opus10 THI

(8152.00) 1.9 SMBV100A 1.10 OSP120 Signal Generator 9 kHz - 6 GHz Rubidium Frequency Standard Broadband Power Divider SMA (Aux) Signal Analyzer 10 Hz

- 30 GHz Digital Multimeter 03

(Multimeter) Climatic Chamber 4 Way Power Divider (SMA) ThermoHygro Datalogger 03

(Environ) Vector Signal Generator 9 kHz - 6 GHz Switching Unit with integrated power meter Datum-Beverly Weinschel Associates 5489/001 2018-07 2020-07 LN673 Rohde & Schwarz 103005 Fluke Europe B.V. 86670383 2018-04 2020-04 2018-04 2020-04 Vtsch 58566002150010 2018-04 2020-04

7482 2017-03 2019-03 Lufft Mess- und Regeltechnik GmbH Rohde & Schwarz 259291 Rohde & Schwarz 101158 2016-10 2019-10 2018-05 2021-05 2 Ref.No. Device Name Description Manufacturer Serial Number Radiated Emissions Lab to perform radiated emission tests 2.1 2.2 2.3 2.4 2.5 2.6 2.7 2.8 NRV-Z1 MFS Opus10 TPR

(8253.00) ESW44 Anechoic Chamber HL 562 5HC2700/12750

-1.5-KK ASP 1.2/1.8-10 kg 002 13936 Datum GmbH Lufft Mess- und Regeltechnik GmbH Sensor Head A Rohde & Schwarz 827753/005 Rubidium Frequency Normal MFS ThermoAirpres sure Datalogger 13

(Environ) EMI Test Receiver 10.58 x 6.38 x 6.00 m Ultralog new biconicals High Pass Filter Antenna Mast Maturo GmbH Rohde & Schwarz 830547/003 Rohde & Schwarz 101603 Frankonia 9942012 Trilithic none

TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCd_REV1 Last Calibration Calibration 2018-07 2018-10 Due 2019-07 2020-10 2017-04 2019-04 2018-05 2019-05 2018-06 2020-06 2018-07 2021-07 Page 18 of 27 Ref.No. Device Name Description Manufacturer Serial Number Last Calibration 2.9 Fully Anechoic Room 2.10 Fluke 177 2.11 JS4-18002600-

32-5P 2.12 FSW 43 2.13 3160-09 WHKX 7.0/18G-

8SS 4HC1600/12750

-1.5-KK Chroma 6404 JS4-00102600-

42-5A 8.80m x 4.60m x 4.05m (l x w x h) Digital Multimeter 03

(Multimeter) Broadband Amplifier 18 GHz - 26 GHz Spectrum Analyzer Standard Gain

/ Pyramidal Horn Antenna 26.5 GHz High Pass Filter High Pass Filter AC Power Source Broadband Amplifier 30 MHz - 26 GHz Turn Table Albatross Projects P26971-647-001-

PRB Calibration 2018-06 Due 2020-06 Fluke Europe B.V. 86670383 2018-04 2020-04 Miteq 849785 Rohde & Schwarz 103779 EMCO Elektronic GmbH Wainwright Trilithic 00083069 09 9942011 Chroma ATE INC. 64040001304 Miteq 619368 Maturo GmbH Rohde & Schwarz 100609

2019-02 2021-02 2016-04 2019-04 EMCO Elektronic GmbH Trilithic 3160-10 5HC3500/18000

-1.2-KK Opus10 THI

(8152.00) TT 1.5 WI HL 562 Ultralog Log.-per. Antenna Standard Gain

/ Pyramidal Horn Antenna 40 GHz High Pass Filter ThermoHygro Datalogger 12

(Environ) EMI Receiver /

Spectrum Analyzer Broadband Amplifier 30 MHz - 18 GHz Antenna mast HD GmbH Antrieb TD1.5-

10kg AS 620 P Tilt device Maturo

(Rohacell) PAS 2.5 - 10 kg Antenna Mast Maturo GmbH AM 4.0 Antenna mast Maturo GmbH JS4-00101800-

35-5P Maturo GmbH ESR 7 Miteq Lufft Mess- und Regeltechnik GmbH Rohde & Schwarz 101424 00086675 200035008 12482 2017-03 2019-03 896037 620/37 TD1.5-

10kg/024/37907 09

AM4.0/180/1192 0513 2019-01 2020-01 2018-07 2021-07 2.29 HF 907 Rohde & Schwarz 102444 Double-ridged horn TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCd_REV1 Page 19 of 27 2.14 2.15 2.16 2.17 2.18 2.19 2.20 2.21 2.22 2.23 2.24 2.25 2.26 2.27 2.28 FCC Conducted Base Station / Repeater EN300328/301893/FCC cond. Test Lab 3 Ref.No. Device Name Description Manufacturer Serial Number 3.1 FSV40 3.2 SMBV100A 3.3 SMIQ Signal Analyzer 10 Hz

- 40 GHz Vector Signal Generator 9 kHz - 6 GHz Vector Signal Generator 9 kHz 3.3 GHz Rohde & Schwarz 100886 Rohde & Schwarz 255975 Rohde & Schwarz 831389/062 Last Calibration Calibration 2018-10 Due 2019-10 2017-08 2019-08 2018-10 2020-10 The calibration interval is the time interval between Last Calibration and Calibration Due TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCd_REV1 Page 20 of 27 6 ANTENNA FACTORS, CABLE LOSS AND SAMPLE CALCULATIONS This chapter contains the antenna factors with their corresponding path loss of the used measurement path for all antennas as well as the insertion loss of the LISN. 6.1 LISN R&S ESH3-Z5 (150 KHZ 30 MHZ) insertion LISN loss ESH3-

Z5 dB 0.1 0.1 0.2 0.2 0.3 0.3 0.4 0.4 0.4 0.5 0.5 0.5 0.5 0.5 cable loss

(incl. 10 dB atten-

uator) dB 10.0 10.2 10.3 10.3 10.4 10.4 10.4 10.5 10.5 10.6 10.6 10.7 10.7 10.8 Corr. dB 10.1 10.3 10.5 10.5 10.7 10.7 10.8 10.9 10.9 11.1 11.1 11.2 11.2 11.3 Frequency MHz 0.15 5 7 10 12 14 16 18 20 22 24 26 28 30 Sample calculation ULISN (dB V) = U (dB V) + Corr. (dB) U = Receiver reading LISN Insertion loss = Voltage Division Factor of LISN Corr. = sum of single correction factors of used LISN, cables, switch units (if used) Linear interpolation will be used for frequencies in between the values in the table. TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCd_REV1 Page 21 of 27 6.2 ANTENNA R&S HFH2-Z2 (9 KHZ 30 MHZ) cable loss 1

(inside chamber) dB 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.3 0.3 0.3 0.3 0.3 0.3 0.3 0.4 cable loss 2

(outside chamber) dB 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 cable loss 3

(switch unit) dB 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.3 0.3 Corr. dB

-79.6

-39.6

-39.5

-39.4

-39.3

-39.2

-39.1 cable loss 4

(to receiver) dB 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 distance corr.

(-40 dB/

decade) dB

-80

-40

-40 dLimit

(meas. distance

(limit) m 300 300 300 300 300 300 300 300 300 300 300 300 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 dused

(meas. distance

(used) m 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 Frequency MHz 0.009 0.01 0.015 0.02 0.025 0.03 0.05 0.08 0.1 0.2 0.3 0.49 0.490001 0.5 0.8 1 2 3 4 5 6 8 10 12 14 16 18 20 22 24 26 28 30 AF HFH-Z2) dB (1/m) 20.50 20.45 20.37 20.36 20.38 20.32 20.35 20.30 20.20 20.17 20.14 20.12 20.12 20.11 20.10 20.09 20.08 20.06 20.05 20.05 20.02 19.95 19.83 19.71 19.54 19.53 19.50 19.57 19.61 19.61 19.54 19.46 19.73 Sample calculation E (dB V/m) = U (dB V) + AF (dB 1/m) + Corr. (dB) U = Receiver reading AF = Antenna factor Corr. = sum of single correction factors of used cables, switch unit, distance correction, amplifier (if applicable) distance correction = -40 * LOG (dLimit/ dused) Linear interpolation will be used for frequencies in between the values in the table. Table shows an extract of values TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCd_REV1 Page 22 of 27 6.3 ANTENNA R&S HL562 (30 MHZ 1 GHZ)

(dLimit = 3 m) cable loss 1

(inside chamber) dB 0.29 0.39 0.56 0.73 0.84 0.98 1.04 1.18 1.28 1.39 1.44 1.55 1.59 1.67 1.67 1.87 1.90 1.99 2.14 2.22 2.23 cable loss 2

(outside chamber) dB 0.04 0.09 0.14 0.20 0.21 0.24 0.26 0.31 0.35 0.38 0.39 0.46 0.43 0.34 0.42 0.54 0.46 0.60 0.60 0.60 0.61 0.29 0.39 0.56 0.73 0.84 0.98 1.04 1.18 1.28 1.39 1.44 1.55 1.59 1.67 1.67 1.87 1.90 1.99 2.14 2.22 2.23 0.04 0.09 0.14 0.20 0.21 0.24 0.26 0.31 0.35 0.38 0.39 0.46 0.43 0.34 0.42 0.54 0.46 0.60 0.60 0.60 0.61 cable loss 3

(switch unit) dB 0.23 0.32 0.47 0.59 0.70 0.80 0.89 0.96 1.03 1.11 1.20 1.24 1.29 1.35 1.41 1.46 1.51 1.56 1.63 1.66 1.71 0.23 0.32 0.47 0.59 0.70 0.80 0.89 0.96 1.03 1.11 1.20 1.24 1.29 1.35 1.41 1.46 1.51 1.56 1.63 1.66 1.71 Corr. dB 0.6 0.9 1.2 1.6 1.9 2.1 2.3 2.6 2.9 3.1 3.2 3.5 3.5 3.6 3.6 4.1 4.1 4.4 4.7 4.8 4.9

-9.9

-9.6

-9.2

-8.8

-8.6

-8.3

-8.1

-7.9

-7.6

-7.4

-7.2

-7.0

-6.9

-6.8

-6.3

-6.0

-5.8

-5.6

-5.6 cable loss 4

(to receiver) dB 0.02 0.08 0.08 0.12 0.11 0.13 0.15 0.13 0.19 0.22 0.19 0.23 0.23 0.22 0.15 0.25 0.25 0.27 0.29 0.33 0.30 distance corr.

(-20 dB/

decade) dB 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.02 0.08 0.08 0.12 0.11 0.13 0.15 0.13 0.19 0.22 0.19 0.23 0.23 0.22 0.15 0.25 0.25 0.27 0.29 0.33 0.30

-10.5

-10.5 dLimit

(meas. distance

(limit) m 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 dused

(meas. distance

(used) m 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 AF R&S HL562 dB (1/m) 18.6 6.0 9.7 7.9 7.6 9.5 11.0 12.4 13.6 14.7 15.6 16.3 17.2 18.1 18.5 19.1 19.6 20.1 20.8 21.1 21.6 Frequency MHz 30 50 100 150 200 250 300 350 400 450 500 550 600 650 700 750 800 850 900 950 1000

(dLimit = 10 m) 30 50 100 150 200 250 300 350 400 450 500 550 600 650 700 750 800 850 900 950 1000 18.6 6.0 9.7 7.9 7.6 9.5 11.0 12.4 13.6 14.7 15.6 16.3 17.2 18.1 18.5 19.1 19.6 20.1 20.8 21.1 21.6 Sample calculation E (dB V/m) = U (dB V) + AF (dB 1/m) + Corr. (dB) U = Receiver reading AF = Antenna factor Corr. = sum of single correction factors of used cables, switch unit, distance correction, amplifier (if applicable) distance correction = -20 * LOG (dLimit/ dused) Linear interpolation will be used for frequencies in between the values in the table. Tables show an extract of values. TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCd_REV1 Page 23 of 27 6.4 ANTENNA R&S HF907 (1 GHZ 18 GHZ) cable loss 1

(relay +

cable inside chamber) dB cable loss 2

(outside chamber) dB cable loss 1

(relay inside cable loss 2

(inside chamber) chamber) dB dB cable loss 3

(switch unit, atten-

uator &

pre-amp) dB

-21.51

-20.63

-19.85

-19.13

-18.71

-17.83

-16.19 cable loss 3

(outside chamber) dB 0.53 0.67 0.86 0.90 0.86 0.31 0.44 0.53 0.67 0.86 0.90 0.86 1.87 2.41 2.78 2.74 2.82 cable loss 4 (to receiver) dB 0.79 1.38 1.33 1.31 1.40 1.47 1.46 cable loss 4

(switch unit, atten-

uator &

pre-amp) dB

-27.58

-28.23

-27.35

-26.89

-25.58 cable loss 5 (to receiver) dB 1.33 1.31 1.40 1.47 1.46 used for FCC 15.247 cable loss 2

(High Pass) dB 1.28 0.71 0.65 0.54 0.61 0.42 0.44 0.53 0.54 0.49 0.76 0.53 cable loss 3

(pre-

amp) dB

-62.72

-61.49

-60.80

-61.91

-61.40

-59.70

-59.81

-63.03

-61.05

-61.51

-62.36

-62.88 cable loss 4

(inside chamber) dB 2.66 2.84 3.06 3.28 3.43 3.53 3.75 3.91 4.02 4.17 4.34 4.41 cable loss 5

(outside chamber) dB 0.94 1.00 1.09 1.20 1.27 1.26 1.32 1.40 1.44 1.51 1.53 1.55 cable loss 6

(to receiver) dB 1.46 1.53 1.60 1.67 1.70 1.73 1.83 1.77 1.83 1.85 2.00 1.91 AF R&S HF907 dB (1/m) 24.4 28.5 31.0 33.1 34.4 34.7 35.6 AF R&S HF907 dB (1/m) 31.0 33.1 34.4 34.7 35.6 AF R&S HF907 dB (1/m) 35.6 36.3 37.1 37.5 37.5 37.6 38.2 39.9 40.9 41.3 42.8 44.2 Frequency MHz 1000 2000 3000 4000 5000 6000 7000 Frequency MHz 3000 4000 5000 6000 7000 Frequency MHz 7000 8000 9000 10000 11000 12000 13000 14000 15000 16000 17000 18000 Sample calculation Corr. dB

-19.4

-17.4

-16.1

-14.7

-13.7

-12.7

-11.0 Corr. dB

-23.4

-23.3

-21.7

-21.2

-19.8 Corr. dB

-57.3

-56.3

-55.3

-56.2

-55.3

-53.7

-53.5

-56.3

-54.1

-54.4

-54.7 0.99 1.44 1.87 2.41 2.78 2.74 2.82 0.47 0.56 0.61 0.58 0.66 0.56 0.69 0.68 0.70 0.80 0.84 0.83 0.91 0.98 1.23 1.36 1.70 cable loss 1

(relay inside chamber) dB E (dB V/m) = U (dB V) + AF (dB 1/m) + Corr. (dB) U = Receiver reading AF = Antenna factor Corr. = sum of single correction factors of used cables, switch unit, distance correction, amplifier (if applicable) Linear interpolation will be used for frequencies in between the values in the table. Tables show an extract of values. TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCd_REV1 Page 24 of 27 6.5 ANTENNA EMCO 3160-09 (18 GHZ 26.5 GHZ) cable loss 3

(inside cable loss 1

(inside Frequency chamber) dB chamber) dB AF EMCO 3160-09 dB (1/m) 40.2 40.2 40.2 40.3 40.3 40.3 40.3 40.3 40.3 40.4 40.4 40.4 40.4 40.4 40.4 40.5 40.5 40.5 MHz 18000 18500 19000 19500 20000 20500 21000 21500 22000 22500 23000 23500 24000 24500 25000 25500 26000 26500 Corr. dB

-23.5

-23.2

-22.0

-21.3

-20.3

-19.9

-19.1

-18.7

-19.0

-19.5

-19.3

-19.8

-19.5

-19.3

-20.4

-21.3

-21.1 Sample calculation cable loss 2

(pre-

amp) dB

-35.85

-35.71

-35.44

-35.07

-34.49

-34.46

-34.07

-33.96

-33.57

-33.66

-33.75

-33.35

-33.99

-33.89

-33.00

-34.07

-35.11

-35.20 0.72 0.69 0.76 0.74 0.72 0.78 0.87 0.90 0.89 0.87 0.88 0.90 0.88 0.91 0.88 0.89 0.86 0.90 cable loss 4

(switch unit) dB 2.81 2.76 3.15 3.11 3.07 3.12 3.20 3.28 3.35 3.75 3.77 3.52 3.88 3.93 3.96 3.66 3.69 3.91 cable loss 5

(to receiver) dB 2.65 2.59 2.79 2.91 3.05 3.15 3.33 3.19 3.28 2.94 2.70 2.66 2.58 2.51 2.14 2.22 2.28 2.36 6.20 6.46 6.69 7.04 7.30 7.48 7.61 7.47 7.34 7.06 6.92 6.99 6.88 7.01 6.72 6.90 7.02 7.15 E (dB V/m) = U (dB V) + AF (dB 1/m) + Corr. (dB) U = Receiver reading AF = Antenna factor Corr. = sum of single correction factors of used cables, switch unit, distance correction, amplifier (if applicable) Linear interpolation will be used for frequencies in between the values in the table. Table shows an extract of values. TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCd_REV1 Page 25 of 27 6.6 ANTENNA EMCO 3160-10 (26.5 GHZ 40 GHZ) cable loss 3

(switch unit) dB cable loss 2

(outside chamber) cable loss 1

(inside Frequency chamber) GHz dB dB AF EMCO 3160-10 dB (1/m) 43.4 43.4 43.4 43.5 43.5 43.5 43.5 43.6 43.6 43.6 43.6 43.7 43.7 43.7 43.8 26.5 27.0 28.0 29.0 30.0 31.0 32.0 33.0 34.0 35.0 36.0 37.0 38.0 39.0 40.0 Corr. dB

-11.2

-11.1

-11.0

-10.9

-10.8

-10.7

-10.6

-10.5

-10.4

-10.3

-10.2

-10.1 Sample calculation 4.4 4.4 4.5 4.6 4.7 4.7 4.8 4.9 5.0 5.1 5.1 5.2 5.3 5.4 5.5 distance corr.

(-20 dB/

decade) dB

-15.6

-15.6 dLimit

(meas. distance

(limit) m 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 dused

(meas. distance

(used) m 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 cable loss 4

(to receiver) dB E (dB V/m) = U (dB V) + AF (dB 1/m) + Corr. (dB) U = Receiver reading AF = Antenna factor Corr. = sum of single correction factors of used cables, switch unit, distance correction, amplifier (if applicable) Linear interpolation will be used for frequencies in between the values in the table. distance correction = -20 * LOG (dLimit/ dused) Linear interpolation will be used for frequencies in between the values in the table. Table shows an extract of values. TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCd_REV1 Page 26 of 27 7 MEASUREMENT UNCERTAINTIES Test Case(s)

- Field strength of spurious radiation

- Out-of-band rejection

- Occupied Bandwidth

- Input versus output spectrum

- Effective radiated power, mean output power and zone enhancer gain

- Peak to Average Ratio Parameter Power Power Frequency Power Uncertainty 5.5 dB 2.9 dB 11.2 kHz 2.2 dB

- Out-of-band emission limits

- Conducted Spurious Emissions at Antenna Terminal Power Frequency 2.2 dB 11.2 kHz 8 PHOTO REPORT Please see separate photo report. TEST REPORT REFERENCE: MDE_BVNBG_1806_FCCd_REV1 Page 27 of 27

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FCC Measurement/Technical Report on CAP H 7E/80-85/17E/19 Cellular Repeater FCC ID: XS5-CAPH7E817E19 IC: 2237E-EH7E817E19 Test Report Reference: MDE_BVNBG_1806_FCCc_REV1 Test Laboratory:

7layers GmbH Borsigstrasse 11 40880 Ratingen Germany Note:

Dsseldorf HRB 75554 USt-Id.-Nr./VAT-No. DE203159652 Steuer-Nr./TAX-No. 147/5869/0385 Geschftsfhrer/

Managing Directors:

Frank Spiller Bernhard Retka Alexandre Norr-Oudard a Bureau Veritas Group Company www.7layers.com Commerzbank AG Account No. 303016000 Bank Code 30040000 IBAN DE81300400000303016000 Swift Code COBADEFF Table of Contents 1.1 Applied Standards 1.2 FCC-IC Correlation Table 1.3 Measurement Summary / Signatures 2 Administrative Data 2.1 Testing Laboratory 2.2 Project Data 2.3 Applicant Data 2.4 Manufacturer Data Test object Data 3 3.1 General EUT Description 3.2 EUT Main components 3.3 Ancillary Equipment 3.4 Auxiliary Equipment 3.5 EUT Setups 3.6 Operating Modes 3.7 Product labelling Test Results 4 4.1 Effective Radiated Power, mean output power and zone enhancer gain 4.2 Peak to Average Ratio 4.3 Occupied Bandwidth / Input-versus-output Spectrum 4.4 Conducted spurious emissions at antenna terminals 4.5 Out-of-band emission limits 4.6 Out-of-band rejection 4.7 Field strength of spurious radiation 5 Test Equipment 6 Antenna Factors, Cable Loss and Sample Calculations 6.1 LISN R&S ESH3-Z5 (150 kHz 30 MHz) 6.2 Antenna R&S HFH2-Z2 (9 kHz 30 MHz) 6.3 Antenna R&S HL562 (30 MHz 1 GHz) 6.4 Antenna R&S HF907 (1 GHz 18 GHz) 6.5 Antenna EMCO 3160-09 (18 GHz 26.5 GHz) 6.6 Antenna EMCO 3160-10 (26.5 GHz 40 GHz) 7 Measurement Uncertainties 8 Photo Report Applied Standards and Test Summary 3 4 5 8 8 8 8 8 9 9 9 10 10 10 10 11 12 12 17 21 28 34 44 46 52 55 55 56 57 58 59 60 61 61 TEST REPORT REFERENCE: MDE_BVNBG_1807_FCCc_REV1 Page 2 of 61 1.1 APPLIED STANDARDS Type of Authorization Certification for an Industrial Signal Booster. Applicable FCC Rules Prepared in accordance with the requirements of FCC Rules and Regulations as listed in 47 CFR Ch.1 Parts 2 and 20, 22, (10/1/18 Edition). The following subparts are applicable to the results in this test report. Part 2, Subpart J - Equipment Authorization Procedures, Certification Part 20, Commercial Mobiles Services 20.21 Part 22, Subpart H Cellular Radiotelephone Service 22.905 Channels for cellular service

$ 22.913 Effective radiated power limits 22.917 Emission limitations for cellular equipment The tests were selected and performed with reference to:

consumer signal booster, repeater and amplifier devices 935210 D05 v01r02, 2017-10-27. FCC Public Notice 971168 applying Measurement guidance for certification of licensed digital transmitters 971168 D01 v03r01,2018-04-09 ANSI C63.26: 2015 Summary Test Results:

The EUT complied with all performed tests as listed in chapter 1.3 Measurement Summary / Signatures. TEST REPORT REFERENCE: MDE_BVNBG_1807_FCCc_REV1 Page 3 of 61 1.2 FCC-IC CORRELATION TABLE Correlation of measurement requirements for Industrial Signal Booster from FCC and ISED Canada Measurement Effective radiated power, mean output power and zone enhancer gain FCC reference 2.1046 22.913 KDB 935210 D05 v01r02: 3.5 Peak to Average Ratio Occupied bandwidth Input-versus-output spectrum Conducted spurious Emission at Antenna Terminal Out-of-band emissions limits Frequency stability Field strength of spurious radiation Out-of-band rejection 22.913 2.1049 KDB 935210 D05 v01r02: 3.4 2.1051 22.917 2.1051 22.917 KDB 935210 D05 v01r02: 3.6 2.1055 22.355 2.1053 22.917 KDB 935210 D05 v01r02: 3.3 ISED reference RSS-GEN Issue 5, 6.12 RSS-132 Issue 3, 5.4 SRSP-503, Issue 7, 5.1.1 RSS-131 Issue 3: 5.2.3 RSS 132 Issue 3: 5.4 RSS-GEN Issue 5, 6.7 RSS-131 Issue 3: 5.2.2 RSS-GEN Issue 5, 6.13 RSS-132 Issue 3, 5.5 RSS-GEN Issue 5, 6.13 RSS-132 Issue 3, 5.5 RSS-GEN Issue 5, 6.11 RSS-132 Issue 3: 5.3 RSS-131 Issue 3: 5.2.4 RSS-GEN Issue 5, 6.13 RSS-132 Issue 3: 5.5 RSS-131 Issue 3: 5.2.1 TEST REPORT REFERENCE: MDE_BVNBG_1807_FCCc_REV1 Page 4 of 61 1.3 MEASUREMENT SUMMARY / SIGNATURES 47 CFR CHAPTER I FCC PART 22 Subpart H

[Base Stations/Repeater]

Effective Radiated Power, mean output power and zone enhancer gain The measurement was performed according to ANSI C63.26, KDB 935210 D05 v01r02: 3.5 OP-Mode Frequency Band, Direction, Input Power, Signal Type Band 5 / 850, RF downlink, 0.3 dB < AGC, Narrowband Band 5 / 850, RF downlink, 0.3 dB < AGC, Wideband Band 5 / 850, RF downlink, 3 dB > AGC, Narrowband Band 5 / 850, RF downlink, 3 dB > AGC, Wideband S01_AA01 S01_AA01 S01_AA01 S01_AA01 Setup 2.1046, 22.913, KDB 935210 D02 II (p)(4) Final Result 22.913 47 CFR CHAPTER I FCC PART 22 Subpart H

[Base Stations/Repeater]

Peak to Average Ratio The measurement was performed according to ANSI C63.26 OP-Mode Frequency Band, Direction, Input Power, Signal Type Band 5 / 850, RF downlink, 0.3 dB < AGC, Narrowband Band 5 / 850, RF downlink, 0.3 dB < AGC, Wideband Band 5 / 850, RF downlink, 3 dB > AGC, Narrowband Band 5 / 850, RF downlink, 3 dB > AGC, Wideband Setup S01_AA01 S01_AA01 S01_AA01 S01_AA01 47 CFR CHAPTER I FCC PART 22 Subpart H

[Base Stations/Repeater]

Conducted spurious emissions at antenna terminals The measurement was performed according to ANSI C63.26 OP-Mode Frequency Band, Test Frequency, Direction, Signal Type Band 5 / 850, high, RF downlink, Narrowband Band 5 / 850, high, RF downlink, Wideband Band 5 / 850, low, RF downlink, Narrowband Band 5 / 850, low, RF downlink, Wideband TEST REPORT REFERENCE: MDE_BVNBG_1807_FCCc_REV1 Setup S01_AA01 S01_AA01 S01_AA01 S01_AA01 FCC IC Passed Passed Passed Passed Passed Passed Passed Passed Final Result FCC IC Passed Passed Passed Passed Passed Passed Passed Passed FCC IC Performed Performed Performed Performed Passed Passed Passed Passed Final Result FCC IC Passed Passed Passed Passed Passed Passed Passed Passed Page 5 of 61 2.1049, KDB 935210 D02 II (p)(3) Final Result 2.1051, 22.917 2.1051, 22.917 47 CFR CHAPTER I FCC PART 22 Subpart H

[Base Stations/Repeater]

Conducted spurious emissions at antenna terminals The measurement was performed according to ANSI C63.26 OP-Mode Frequency Band, Test Frequency, Direction, Signal Type Band 5 / 850, mid, RF downlink, Narrowband Band 5 / 850, mid, RF downlink, Wideband Setup S01_AA01 S01_AA01 Final Result FCC IC Passed Passed Passed Passed 2.1053, 22.917, KDB 935210 D02 II (p)(3) Final Result Setup 47 CFR CHAPTER I FCC PART 22 Subpart H

[Base Stations/Repeater]

Out-of-band emission limits/Intermodulation The measurement was performed according to ANSI C63.26, KDB 935210 D05 v01r02: 3.6 OP-Mode Band Edge, Frequency Band, Direction, Input Power, Signal Type, Number of input signals Lower, Band 5 / 850, RF downlink, 0.3 dB < AGC, Narrowband, 1 Lower, Band 5 / 850, RF downlink, 0.3 dB < AGC, Narrowband, 2 Lower, Band 5 / 850, RF downlink, 0.3 dB < AGC, Wideband, 1 Lower, Band 5 / 850, RF downlink, 0.3 dB < AGC, Wideband, 2 Lower, Band 5 / 850, RF downlink, 3 dB > AGC, Narrowband, 1 Lower, Band 5 / 850, RF downlink, 3 dB > AGC, Narrowband, 2 Lower, Band 5 / 850, RF downlink, 3 dB > AGC, Wideband, 1 Lower, Band 5 / 850, RF downlink, 3 dB > AGC, Wideband, 2 Upper, Band 5 / 850, RF downlink, 0.3 dB < AGC, Narrowband, 1 Upper, Band 5 / 850, RF downlink, 0.3 dB < AGC, Narrowband, 2 Upper, Band 5 / 850, RF downlink, 0.3 dB < AGC, Wideband, 1 Upper, Band 5 / 850, RF downlink, 0.3 dB < AGC, Wideband, 2 Upper, Band 5 / 850, RF downlink, 3 dB > AGC, Narrowband, 1 Upper, Band 5 / 850, RF downlink, 3 dB > AGC, Narrowband, 2 Upper, Band 5 / 850, RF downlink, 3 dB > AGC, Wideband, 1 Upper, Band 5 / 850, RF downlink, 3 dB > AGC, Wideband, 2 S01_AA01 S01_AA01 S01_AA01 S01_AA01 S01_AA01 S01_AA01 S01_AA01 S01_AA01 S01_AA01 S01_AA01 S01_AA01 S01_AA01 S01_AA01 S01_AA01 S01_AA01 S01_AA01 FCC IC Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed Passed 47 CFR CHAPTER I FCC PART 22 Subpart H

[Base Stations/Repeater]

Out-of-band rejection The measurement was performed according to ANSI C63.26 OP-Mode Frequency Band, Direction Band 5 / 850, RF downlink Setup S01_AA01 Final Result FCC IC Passed Passed KDB 935210 D02 II (p)(2) TEST REPORT REFERENCE: MDE_BVNBG_1807_FCCc_REV1 Page 6 of 61 2 ADMINISTRATIVE DATA 2.1 TESTING LABORATORY Company Name:

Address:

7layers GmbH Borsigstr. 11 40880 Ratingen Germany The test facility is accredited by the following accreditation organisation:

Laboratory accreditation no:

FCC Designation Number:

FCC Test Firm Registration:

ISED CAB Identifier Responsible for accreditation scope: Dipl.-Ing. Marco Kullik DAkkS D-PL-12140-01-00 DE0015 929146 DE0007; ISED#:3699A Report Template Version:

2.2 PROJECT DATA Responsible for testing and report:

2019-03-11 Employees who performed the tests: documented internally at 7Layers Date of Report:

Dipl.-Ing. Daniel Gall 2019-04-10 2019-02-15 to 2019-02-21 Testing Period:

2.3 APPLICANT DATA Company Name:

Address:

Contact Person:

2.4 MANUFACTURER DATA Company Name:

Address:

Contact Person:

Commscope Andrew Wireless Systems GmbH Industriering 10 86675 Buchdorf Germany Mr. Frank Futter please see applicant data TEST REPORT REFERENCE: MDE_BVNBG_1807_FCCc_REV1 Page 8 of 61 3 TEST OBJECT DATA 3.1 GENERAL EUT DESCRIPTION Kind of Device product description Product name Type Cellular Repeater Cellular Repeater CAP H 7E/80-85/17E/19 Declared EUT data by the supplier General Product Description The EUT is an industrial signal booster supporting the followings:

Band 2 / 1900 PCS Band 4/10/66 / AWS 1 Band 5 / 850 Band 12 / 700 a Band 13 / 700 c Band 14 / 700 PS Band 26 / 850+

A RF operation is only supported for the downlink. Industrial Signal Booster AC 100 240 V, 50 60 Hz

Booster Type Voltage Type Voltage Level Maximum Output Donor Port [Uplink]

Maximum Output Server Port [Downlink]

Maximum Gain [Uplink] -

Maximum Gain

[Downlink]

Band 5 / 850: 43.0 dBm Band 5 / 850: 28.0 dB The main components of the EUT are listed and described in chapter 3.2 EUT Main components. 3.2 EUT MAIN COMPONENTS Sample Name EUT A Sample Code DE1277008aa01 Sample Parameter Description FCC sample Value Serial Number HW Version SW Version Comment NOTE:The short description is used to simplify the identification of the EUT in this test report. BGCHDA1851001 7825719-0001 CAP H 7E/80-85/17E/19 7694174-12 SW V2.6.0.106

TEST REPORT REFERENCE: MDE_BVNBG_1807_FCCc_REV1 Page 9 of 61 3.3 ANCILLARY EQUIPMENT For the purposes of this test report, ancillary equipment is defined as equipment which is used in conjunction with the EUT to provide operational and control features to the EUT. It is necessary to configure the system in a typical fashion, as a customer would normally use it. But nevertheless Ancillary Equipment can influence the test results. Device Description Details

(Manufacturer, Type Model, OUT Code)

(Manufacturer, HW, SW, S/N)

3.5 EUT SETUPS This chapter describes the combination of EUTs and equipment used for testing. The rationale for selecting the EUTs, ancillary and auxiliary equipment and interconnecting cables, is to test a representative configuration meeting the requirements of the referenced standards. Setup Combination of EUTs Description and Rationale S01_AA01 EUT A Setup for all tests 3.6 OPERATING MODES This chapter describes the operating modes of the EUTs used for testing. TEST REPORT REFERENCE: MDE_BVNBG_1807_FCCc_REV1 Page 10 of 61 Port Donor Center Frequency

[MHz]

881.50 Frequency

[MHz]

881.5 881.5 869.2 871.5 893.8 891.5 884.0 884.0 Frequency Mid Low High Max. Power 3.6.1 TEST CHANNELS Band 5 Direction downlink Lower Frequency Band Edge

[MHz]

869.00 Upper Frequency Band Edge

[MHz]

894.00 3.6.2 AUTOMATIC GAIN CONTROL LEVELS AGC Levels Band 5 5 5 5 5 5 5 5 Direction downlink downlink downlink downlink downlink downlink downlink downlink Signal Type Narrowband Wideband Narrowband Wideband Narrowband Wideband Narrowband Wideband AGC Start Pin

[dBm]

AGC Start Pin

-0.3 dB

[dBm]

AGC Start Pin

+3 dB

[dBm]

0.4 1.6 1.0 1.4 1.0 1.2

-0.2 1.0 0.1 1.3 0.7 1.1 0.7 0.9

-0.5 0.7 3.4 4.6 4.0 4.4 4.0 4.2 2.8 4.0 3.7 PRODUCT LABELLING 3.7.1 FCC ID LABEL Please refer to the documentation of the applicant. 3.7.2 LOCATION OF THE LABEL ON THE EUT Please refer to the documentation of the applicant. TEST REPORT REFERENCE: MDE_BVNBG_1807_FCCc_REV1 Page 11 of 61 4 TEST RESULTS 4.1 EFFECTIVE RADIATED POWER, MEAN OUTPUT POWER AND ZONE ENHANCER GAIN FCC Part 22, 22.913 Standard The test was performed according to:

(a) Maximum ERP. The ERP of transmitters in the Cellular Radiotelephone Service must not exceed the limits in this section.

(1) Except as described in paragraphs (a)(2), (3), and (4) of this section, the ERP of base stations and repeaters must not exceed

(i) 500 watts per emission; or

(ii) 400 watts/MHz (PSD) per sector

(2) Except as described in paragraphs (a)(3) and (4) of this section, for systems operating in areas more than 72 kilometers (45 miles) from international borders that:

(i) Are located in counties with population densities of 100 persons or fewer per square mile, based upon the most recently available population statistics from the Bureau of the Census; or

(ii) Extend coverage into Unserved Area on a secondary basis (see 22.949), the ERP of base transmitters and repeaters must not exceed

(A) 1000 watts per emission; or

(B) 800 watts/MHz (PSD) per sector.

(3) Provided that they also comply with paragraphs (b) and (c) of this section, licensees are permitted to operate their base transmitters and repeaters with an ERP greater than 400 watts/MHz (PSD) per sector, up to a maximum ERP of 1000 watts/MHz (PSD) per sector unless they meet the conditions in paragraph (a)(4) of this section.

(4) Provided that they also comply with paragraphs (b) and (c) of this section, licensees of systems operating in areas more than 72 kilometers (45 miles) from international borders that:

(i) Are located in counties with population densities of 100 persons or fewer per square mile, based upon the most recently available population statistics from the Bureau of the Census; or

(ii) Extend coverage into Unserved Area on a secondary basis (see 22.949), are permitted to operate base transmitters and repeaters with an ERP greater than 800 watts/MHz (PSD) per sector, up to a maximum of 2000 watts/MHz (PSD) per sector. RSS-132; 5.4 Transmitter Output Power and Equivalent Isotropically Radiated Power Refer to SRSP-503 for base station e.i.r.p. limits. SRSP-503 5.1.1 Base stations for digital systems are limited to 1640 watts maximum equivalent isotropically radiated power (EIRP) with an antenna height above average terrain (HAAT) up to 150 m, except in urban areas where they are limited to a maximum allowable EIRP of 820 watts. TEST REPORT REFERENCE: MDE_BVNBG_1807_FCCc_REV1 Page 13 of 61 4.1.3 TEST PROTOCOL Band 5, downlink Signal Type Wideband Wideband Narrowband Narrowband Input Power 0.3 dB < AGC 3 dB > AGC 0.3 dB < AGC 3 dB > AGC Frequency

[MHz]

884.000 884.000 884.000 884.000 Input Power

[dBm]

0.7 4.0

-0.5 2.8 Maximum Average Output Power

[dBm]

42.8 43.1 42.8 43.1 Limit Average Output Power

[dBm]

60.0 60.0 60.0 60.0 Margin to Limit

[dB]

17.2 16.9 17.2 17.0 Remark: Please see next sub-clause for the measurement plot. Gain

[dB]

42.1 39.1 43.3 40.3 4.1.4 MEASUREMENT PLOT (SHOWING THE HIGHEST VALUE, WORST CASE) Frequency Band = Band 5 / 850, Direction = RF downlink, Input Power = 3 dB > AGC, Signal Type = Wideband

(S01_AA01) TEST REPORT REFERENCE: MDE_BVNBG_1807_FCCc_REV1 Page 14 of 61 Frequency Band = Band 5 / 850, Direction = RF downlink, Input Power = 0.3 dB < AGC, Signal Type = Narrowband

(S01_AA01) Frequency Band = Band 5 / 850, Direction = RF downlink, Input Power = 3 dB > AGC, Signal Type = Narrowband

(S01_AA01) TEST REPORT REFERENCE: MDE_BVNBG_1807_FCCc_REV1 Page 15 of 61 Frequency Band = Band 5 / 850, Direction = RF downlink, Input Power = 0.3 dB < AGC, Signal Type = Wideband

(S01_AA01) 4.1.5 TEST EQUIPMENT USED

- FCC Conducted Base Station / Repeater TEST REPORT REFERENCE: MDE_BVNBG_1807_FCCc_REV1 Page 16 of 61 4.2 PEAK TO AVERAGE RATIO Standard The test was performed according to:

ANSI C63.26 FCC Part 22, 22.913 4.2.1 TEST DESCRIPTION This test case is intended to demonstrate compliance to the signal booster power and gain limits and requirements for industrial signal boosters. The EUT was connected to the test setup according to the following diagram:

The attenuation of the measuring and stimulus path are known for each measured frequency and are considered. The Spectrum Analyzer settings can be directly found in the measurement diagrams. TEST REPORT REFERENCE: MDE_BVNBG_1807_FCCc_REV1 Page 17 of 61 4.2.2 TEST REQUIREMENTS / LIMITS FCC Part 22, 22.913 d) Power measurement. Measurement of the ERP of Cellular base transmitters and repeaters must be made using an average power measurement technique. The peak-to-average ratio

(PAR) of the transmission must not exceed 13 dB. Power measurements for base transmitters and repeaters must be made in accordance with either of the following:

(1) A Commission-approved average power technique (see FCC Laboratory's Knowledge Database); or

(2) For purposes of this section, peak transmit power must be measured over an 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. RSS-132; 5.4 Transmitter Output Power and Equivalent Isotropically Radiated Power In addition, the peak-to-average power ratio (PAPR) of the transmitter shall not exceed 13 dB for more than 0.1% of the time using a signal corresponding to the highest PAPR during periods of continuous transmission. 4.2.3 TEST PROTOCOL Band 5, downlink Signal Type Wideband Wideband Narrowband Narrowband Input Power 0.3 dB < AGC 3 dB > AGC 0.3 dB < AGC 3 dB > AGC Frequency

[MHz]

884.000 884.000 884.000 884.000 Input Power

[dBm]

0.7 4.0

-0.5 2.8 PAPR

[dB]

8.9 8.8 0.2 0.3 Limit PAPR

[dB]

13.0 13.0 13.0 13.0 Margin to Limit

[dB]

4.1 4.2 12.8 12.7 Remark: Please see next sub-clause for the measurement plot. TEST REPORT REFERENCE: MDE_BVNBG_1807_FCCc_REV1 Page 18 of 61 4.2.4 MEASUREMENT PLOT (SHOWING THE HIGHEST VALUE, WORST CASE) Frequency Band = Band 5 / 850, Direction = RF downlink, Input Power = 3 dB > AGC, Signal Type = Narrowband

(S01_AA01) Frequency Band = Band 5 / 850, Direction = RF downlink, Input Power = 0.3 dB < AGC, Signal Type = Wideband

(S01_AA01) TEST REPORT REFERENCE: MDE_BVNBG_1807_FCCc_REV1 Page 19 of 61 Frequency Band = Band 5 / 850, Direction = RF downlink, Input Power = 3 dB > AGC, Signal Type = Wideband

(S01_AA01) Frequency Band = Band 5 / 850, Direction = RF downlink, Input Power = 0.3 dB < AGC, Signal Type = Narrowband

(S01_AA01) 4.2.5 TEST EQUIPMENT USED

- FCC Conducted Base Station / Repeater TEST REPORT REFERENCE: MDE_BVNBG_1807_FCCc_REV1 Page 20 of 61 4.3 OCCUPIED BANDWIDTH / INPUT-VERSUS-OUTPUT SPECTRUM Standard The test was performed according to:

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:

(OBW) and video bandwidth (VBW) shall be approximately 3RBW. Note: Video averaging is not permitted. A peak, or peak hold, may be used in place of the sampling detector as this may produce a wider bandwidth than the actual bandwidth (worst-case measurement). Use of a peak hold may be necessary to determine the occupied bandwidth if the device is not transmitting continuously. TEST REPORT REFERENCE: MDE_BVNBG_1807_FCCc_REV1 Page 22 of 61 The trace data points are recovered and are directly summed in linear power level terms. The recovered amplitude data points, beginning at the lowest frequency, are placed in a running sum until 0.5% of the total is reached and that frequency recorded. The process is repeated for the highest frequency data points (starting at the highest frequency, at the right side of the span, and going down in frequency). This frequency is then recorded. The difference between the two recorded frequencies is the 99% occupied bandwidth. RSS-131; 5.2.2 Input-versus-output spectrum The spectral growth of the 26 dB bandwidth of the output signal shall be less than 5% of the input signal spectrum. 4.3.3 TEST PROTOCOL Band 5, downlink Signal Input Power Type 0.3 dB < AGC Wideband Wideband 3 dB > AGC Narrowband 0.3 dB < AGC 3 dB > AGC Narrowband Signal Frequency

[MHz]

881.50 881.50 881.50 881.50 Occupied Bandwidth SG

[kHz]

4325.5 4325.5 313.5 314.6 Occupied Bandwidth Booster

[kHz]

4327.9 4327.9 310.7 311.0 Delta

[kHz]

2.4 2.4 2.9 3.6 Remark: Please see next sub-clause for the measurement plot. Occupied Bandwidth Occupied Bandwidth Limit Delta

[kHz]

205.0 205.0 10.0 10.0 Margin to Limit

[kHz]

202.6 202.6 7.1 6.4 TEST REPORT REFERENCE: MDE_BVNBG_1807_FCCc_REV1 Page 23 of 61 4.3.4 MEASUREMENT PLOT (SHOWING THE HIGHEST VALUE, WORST CASE) Frequency Band = Band 5 / 850, Direction = RF downlink, Input Power = 3 dB > AGC, Signal Type = Wideband

(S01_AA01) Comment: Input signal Comment: Output signal TEST REPORT REFERENCE: MDE_BVNBG_1807_FCCc_REV1 Page 24 of 61 Frequency Band = Band 5 / 850, Direction = RF downlink, Input Power = 0.3 dB < AGC, Signal Type = Wideband

(S01_AA01) Comment: Input signal Comment: Output signal TEST REPORT REFERENCE: MDE_BVNBG_1807_FCCc_REV1 Page 25 of 61 Frequency Band = Band 5 / 850, Direction = RF downlink, Input Power = 0.3 dB < AGC, Signal Type = Narrowband

(S01_AA01) Comment: Input signal Comment: Output signal TEST REPORT REFERENCE: MDE_BVNBG_1807_FCCc_REV1 Page 26 of 61 Frequency Band = Band 5 / 850, Direction = RF downlink, Input Power = 3 dB > AGC, Signal Type = Narrowband

(S01_AA01) Comment: Input signal 4.3.5 TEST EQUIPMENT USED Comment: Output signal

- FCC Conducted Base Station / Repeater TEST REPORT REFERENCE: MDE_BVNBG_1807_FCCc_REV1 Page 27 of 61 4.4 CONDUCTED SPURIOUS EMISSIONS AT ANTENNA TERMINALS Standard The test was performed according to:

ANSI C63.26 FCC Part 2.1051 4.4.1 TEST DESCRIPTION This test case is intended to demonstrate compliance to the signal booster power and gain limits and requirements for industrial signal boosters. The EUT was connected to the test setup according to the following diagram:

The attenuation of the measuring and stimulus path are known for each measured frequency and are considered. The Spectrum Analyzer settings can be directly found in the measurement diagrams. TEST REPORT REFERENCE: MDE_BVNBG_1807_FCCc_REV1 Page 28 of 61 4.4.2 TEST REQUIREMENTS / LIMITS FCC Part 2.1051; Measurement required: Spurious emissions at antenna terminal:

The radio frequency voltage or powers generated within the equipment and appearing on a spurious frequency shall be checked at the equipment output terminals when properly loaded with a suitable artificial antenna. Curves or equivalent data shall show the magnitude of each harmonic and other spurious emission that can be detected when the equipment is operated under the conditions specified in 2.1049 as appropriate. The magnitude of spurious emissions which are attenuated more than 20 dB below the permissible value need not be specified. Part 22, Subpart H Cellular Radiotelephone Service; Band 5 22 917 Emission limitations for cellular equipment

(a) Out of band emissions. The power of any emission outside of the authorized operating frequency ranges must be attenuated below the transmitting power (P) by a factor of at least 43 + 10 log(P) dB. RSS-132; 5.5 Transmitter Unwanted Emissions Mobile and base station equipment shall comply with the limits in (i) and (ii) below. 1. In the first 1.0 MHz band immediately outside and adjacent to each of the sub-bands specified in Section 5.1, the power of emissions per any 1% of the occupied bandwidth shall be attenuated (in dB) below the transmitter output power P ( dBW) by at least 43

+ 10 log10p (watts). 2. After the first 1.0 MHz immediately outside and adjacent to each of the sub-bands, the power of emissions in any 100 kHz bandwidth shall be attenuated (in dB) below the transmitter output power P (dBW) by at least 43 + 10 log10 p (watts). If the measurement is performed using 1% of the occupied bandwidth, power integration over 100 kHz is required. TEST REPORT REFERENCE: MDE_BVNBG_1807_FCCc_REV1 Page 29 of 61 4.4.3 TEST PROTOCOL Band 5, downlink Test Frequency Signal Type Narrowband Narrowband Narrowband Narrowband Narrowband Narrowband Narrowband Narrowband Wideband Wideband Wideband Wideband Wideband Wideband Wideband Wideband low low low mid mid high high high low low low mid mid high high high Spurious Freq.

[MHz]

868.9 1738.29 6989.66 1763.15 6998.75 894.15 1787.49 6907.58 868.60 1740.60 6998.66 1762.87 6926.83 894.35 1783.31 6953.47 Spurious Level

[dBm]

-29.1

-21.5

-24.1

-22.0

-23.7

-27.3

-22.4

-23.7

-24.6

-24.4

-23.8

-24.7

-24.1

-21.1

-25.6

-23.3 Remark: Please see next sub-clause for the measurement plot. Limit

[dBm]

-13.0

-13.0 RBW

[kHz]

1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 Margin to Limit

[dB]

16.1 8.5 11.1 9.0 10.7 14.3 9.4 10.7 11.6 11.4 10.8 11.7 11.1 8.1 12.6 10.3 Detector RMS RMS RMS RMS RMS RMS RMS RMS RMS RMS RMS RMS RMS RMS RMS RMS TEST REPORT REFERENCE: MDE_BVNBG_1807_FCCc_REV1 Page 30 of 61 4.4.4 MEASUREMENT PLOT (SHOWING THE HIGHEST VALUE, WORST CASE) Frequency Band = Band 5 / 850, Test Frequency = low, Direction = RF downlink, Signal Type

= Narrowband

(S01_AA01) FCC22 Limit, below 200 kHz and 1MHz around band reduced according RBW reduction 1.738287656 GHz

-21.500 dBm 6.989656250 GHz

-24.095 dBm 868.900000 MHz

-29.094 dBm 0

-5

-10

-15

-20

-25

-30

-35

-40

-45

-50

-55

-60

-65

-70

-75

-80

-85 m B d n i l e v e L 9k 20 50 100k 200 500 1M 2M 10M 20 5M Frequency in Hz 50 100M 200 500 1G 2G 5G 9.5G Frequency Band = Band 5 / 850, Test Frequency = mid, Direction = RF downlink, Signal Type

= Narrowband

(S01_AA01) FCC22 Limit, below 200 kHz and 1MHz around band reduced according RBW reduction 1.763150156 GHz

-22.018 dBm 6.998750000 GHz

-23.688 dBm 0

-5

-10

-15

-20

-25

-30

-35

-40

-45

-50

-55

-60

-65

-70

-75

-80

-85 m B d n i l e v e L 9k 20 50 100k 200 500 1M 2M 5M 10M 20 Frequency in Hz 50 100M 200 500 1G 2G 5G 9.5G TEST REPORT REFERENCE: MDE_BVNBG_1807_FCCc_REV1 Page 31 of 61 Frequency Band = Band 5 / 850, Test Frequency = high, Direction = RF downlink, Signal Type

= Narrowband

(S01_AA01) FCC22 Limit, below 200 kHz and 1MHz around band reduced according RBW reduction 1.787494688 GHz

-22.390 dBm 894.148600 MHz

-27.261 dBm 6.907578125 GHz

-23.731 dBm 0

-5

-10

-15

-20

-25

-30

-35

-40

-45

-50

-55

-60

-65

-70

-75

-80

-85 m B d n i l e v e L 9k 20 50 100k 200 500 1M 2M 5M 10M 20 Frequency in Hz 50 100M 200 500 1G 2G 5G 9.5G Frequency Band = Band 5 / 850, Test Frequency = low, Direction = RF downlink, Signal Type

= Wideband

(S01_AA01) 0

-5

-10

-15

-20

-25

-30

-35

-40

-45

-50

-55

-60

-65

-70

-75

-80

-85 m B d n i l e v e L 9k 20 50 100k 200 500 1M 2M FCC22 Limit, below 200 kHz and 1MHz around band reduced according RBW reduction 868.597400 MHz

-24.565 dBm 6.998656250 GHz

-23.813 dBm 1.740601250 GHz

-24.400 dBm 10M 5M Frequency in Hz 20 50 100M 200 500 1G 2G 5G 9.5G TEST REPORT REFERENCE: MDE_BVNBG_1807_FCCc_REV1 Page 32 of 61 Frequency Band = Band 5 / 850, Test Frequency = mid, Direction = RF downlink, Signal Type

= Wideband

(S01_AA01) FCC22 Limit, below 200 kHz and 1MHz around band reduced according RBW reduction 6.936828125 GHz

-24.061 dBm 1.762873906 GHz

-24.710 dBm 0

-5

-10

-15

-20

-25

-30

-35

-40

-45

-50

-55

-60

-65

-70

-75

-80

-85 m B d n i l e v e L 9k 20 50 100k 200 500 1M 2M 5M 10M 20 Frequency in Hz 50 100M 200 500 1G 2G 5G 9.5G Frequency Band = Band 5 / 850, Test Frequency = high, Direction = RF downlink, Signal Type

= Wideband

(S01_AA01) FCC22 Limit, below 200 kHz and 1MHz around band reduced according RBW reduction 894.351805 MHz

-21.018 dBm 6.953468750 GHz

-23.344 dBm 1.783308219 GHz

-25.594 dBm 0

-5

-10

-15

-20

-25

-30

-35

-40

-45

-50

-55

-60

-65

-70

-75

-80

-85 m B d n i l e v e L 9k 20 50 100k 200 500 1M 2M 5M 10M 20 Frequency in Hz 50 100M 200 500 1G 2G 5G 9.5G 4.4.5 TEST EQUIPMENT USED

- R&S TS8997 TEST REPORT REFERENCE: MDE_BVNBG_1807_FCCc_REV1 Page 33 of 61 4.5 OUT-OF-BAND EMISSION LIMITS Standard The test was performed according to:

ANSI C63.26, KDB 935210 D05 v01r02: 3.6 FCC Part 22, 22 917 4.5.1 TEST DESCRIPTION This test case is intended to demonstrate compliance to the out-of-band emission limit for industrial signal boosters. The limits itself come from the applicable rule part for each operating band. The EUT was connected to the test setup according to the following diagram:

The attenuation of the measuring and stimulus path are known for each measured frequency and are considered. The Spectrum Analyzer settings can be directly found in the measurement diagrams. 4.5.2 TEST REQUIREMENTS / LIMITS FCC Part 22, Subpart H Cellular Radiotelephone Service; Band 5 (Cellular) 22 917 Emission limitations for cellular equipment

(b) Measurement procedure. Compliance with these rules is based on the use of measurement instrumentation employing a reference bandwidth as follows:

(1) In the spectrum below 1 GHz, instrumentation should employ a reference 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 that the measured power is integrated over the full required reference bandwidth (i.e., 100 kHz or 1 percent of emission bandwidth, TEST REPORT REFERENCE: MDE_BVNBG_1807_FCCc_REV1 Page 34 of 61 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.

(2) In the spectrum above 1 GHz, instrumentation should employ a reference bandwidth of 1 MHz. RSS-132; 5.5 Transmitter Unwanted Emissions Mobile and base station equipment shall comply with the limits in (i) and (ii) below. 1. In the first 1.0 MHz band immediately outside and adjacent to each of the sub-bands specified in Section 5.1, the power of emissions per any 1% of the occupied bandwidth shall be attenuated (in dB) below the transmitter output power P ( dBW) by at least 43

+ 10 log10p (watts). 2. After the first 1.0 MHz immediately outside and adjacent to each of the sub-bands, the power of emissions in any 100 kHz bandwidth shall be attenuated (in dB) below the transmitter output power P (dBW) by at least 43 + 10 log10 p (watts). If the measurement is performed using 1% of the occupied bandwidth, power integration over 100 kHz is required. 4.5.3 TEST PROTOCOL Band 5, downlink, Number of input signals = 1 Signal Type Wideband Wideband Narrowband Narrowband Wideband Wideband Narrowband Narrowband Input Power 0.3 dB < AGC 3 dB > AGC 0.3 dB < AGC 3 dB > AGC 0.3 dB < AGC 3 dB > AGC 0.3 dB < AGC 3 dB > AGC Band Edge upper upper upper upper lower lower lower lower Signal Frequency

[MHz]

891.50 891.50 893.80 893.80 871.50 871.50 869.20 869.20 Band 5, downlink, Number of input signals = 2 Maximum Out-of-

band Power

[dBm]

-24.1

-17.0

-17.8

-30.1

-27.6

-18.0

-17.7 Input Power

[dBm]

0.9 4.2 0.7 4.0 1.1 4.4 0.7 4.0 Limit Out-of-

band Power

[dBm]

-13.0

-13.0 Margin to Limit

[dB]

11.1 11.1 4.0 4.8 17.1 14.6 5.0 4.7 Signal Signal Frequency Frequency f2 f1 Signal Type WB WB NB NB WB WB NB NB Remark: Please see next sub-clause for the measurement plot. Band Input Power Edge 0.3 dB < AGC upper 3 dB > AGC upper 0.3 dB < AGC upper upper 3 dB > AGC 0.3 dB < AGC lower lower 3 dB > AGC lower 0.3 dB < AGC 3 dB > AGC lower

[MHz]

891.50 891.50 893.80 893.80 871.50 871.50 869.20 869.20

[MHz]

886.50 886.50 893.60 893.60 876.50 876.50 869.40 869.40 Maximum Out-of-

band Power

[dBm]

-29.9

-28.1

-23.3

-20.7

-33.8

-19.9

-20.4 Input Power

[dBm]

0.9 4.2 0.7 4.0 1.1 4.4 0.7 4.0 Limit Out-of-

band Power

[dBm]

-13.0

-13.0 Margin to Limit

[dB]

16.9 15.1 10.3 7.7 20.8 20.8 6.9 7.4 TEST REPORT REFERENCE: MDE_BVNBG_1807_FCCc_REV1 Page 35 of 61 4.5.4 MEASUREMENT PLOT (SHOWING THE HIGHEST VALUE, WORST CASE) Band Edge = Lower, Frequency Band = Band 5 / 850, Direction = RF downlink, Input Power =

3 dB > AGC, Signal Type = Wideband, Number of input signals = 1

(S01_AA01) Band Edge = Lower, Frequency Band = Band 5 / 850, Direction = RF downlink, Input Power =

0.3 dB < AGC, Signal Type = Wideband, Number of input signals = 1

(S01_AA01) TEST REPORT REFERENCE: MDE_BVNBG_1807_FCCc_REV1 Page 36 of 61 Band Edge = Upper, Frequency Band = Band 5 / 850, Direction = RF downlink, Input Power =

3 dB > AGC, Signal Type = Wideband, Number of input signals = 1

(S01_AA01) Band Edge = Upper, Frequency Band = Band 5 / 850, Direction = RF downlink, Input Power =

0.3 dB < AGC, Signal Type = Wideband, Number of input signals = 1

(S01_AA01) TEST REPORT REFERENCE: MDE_BVNBG_1807_FCCc_REV1 Page 37 of 61 Band Edge = Lower, Frequency Band = Band 5 / 850, Direction = RF downlink, Input Power =

3 dB > AGC, Signal Type = Narrowband, Number of input signals = 1

(S01_AA01) Band Edge = Lower, Frequency Band = Band 5 / 850, Direction = RF downlink, Input Power =

0.3 dB < AGC, Signal Type = Narrowband, Number of input signals = 1

(S01_AA01) TEST REPORT REFERENCE: MDE_BVNBG_1807_FCCc_REV1 Page 38 of 61 Band Edge = Upper, Frequency Band = Band 5 / 850, Direction = RF downlink, Input Power =

3 dB > AGC, Signal Type = Narrowband, Number of input signals = 1

(S01_AA01) Band Edge = Upper, Frequency Band = Band 5 / 850, Direction = RF downlink, Input Power =

0.3 dB < AGC, Signal Type = Narrowband, Number of input signals = 1

(S01_AA01) TEST REPORT REFERENCE: MDE_BVNBG_1807_FCCc_REV1 Page 39 of 61 Band Edge = Lower, Frequency Band = Band 5 / 850, Direction = RF downlink, Input Power =

3 dB > AGC, Signal Type = Wideband, Number of input signals = 2

(S01_AA01) Band Edge = Lower, Frequency Band = Band 5 / 850, Direction = RF downlink, Input Power =

0.3 dB < AGC, Signal Type = Wideband, Number of input signals = 2

(S01_AA01) TEST REPORT REFERENCE: MDE_BVNBG_1807_FCCc_REV1 Page 40 of 61 Band Edge = Upper, Frequency Band = Band 5 / 850, Direction = RF downlink, Input Power =

3 dB > AGC, Signal Type = Wideband, Number of input signals = 2

(S01_AA01) Band Edge = Upper, Frequency Band = Band 5 / 850, Direction = RF downlink, Input Power =

0.3 dB < AGC, Signal Type = Wideband, Number of input signals = 2

(S01_AA01) TEST REPORT REFERENCE: MDE_BVNBG_1807_FCCc_REV1 Page 41 of 61 Band Edge = Lower, Frequency Band = Band 5 / 850, Direction = RF downlink, Input Power =

3 dB > AGC, Signal Type = Narrowband, Number of input signals = 2

(S01_AA01) Band Edge = Lower, Frequency Band = Band 5 / 850, Direction = RF downlink, Input Power =

0.3 dB < AGC, Signal Type = Narrowband, Number of input signals = 2

(S01_AA01) TEST REPORT REFERENCE: MDE_BVNBG_1807_FCCc_REV1 Page 42 of 61 Band Edge = Upper, Frequency Band = Band 5 / 850, Direction = RF downlink, Input Power =

3 dB > AGC, Signal Type = Narrowband, Number of input signals = 2

(S01_AA01) Band Edge = Upper, Frequency Band = Band 5 / 850, Direction = RF downlink, Input Power =

0.3 dB < AGC, Signal Type = Narrowband, Number of input signals = 2

(S01_AA01) 4.5.5 TEST EQUIPMENT USED

- FCC Conducted Base Station / Repeater TEST REPORT REFERENCE: MDE_BVNBG_1807_FCCc_REV1 Page 43 of 61 4.6 OUT-OF-BAND REJECTION Standard The test was performed according to:

ANSI C63.26 FCC Part 22 4.6.1 TEST DESCRIPTION This test case is intended to demonstrate compliance to the out-of-band rejection test case for industrial signal boosters. The EUT was connected to the test setup according to the following diagram:

The attenuation of the measuring and stimulus path are known for each measured frequency and are considered. The Spectrum Analyzer settings can be directly found in the measurement diagrams. 4.6.2 TEST REQUIREMENTS / LIMITS For this test case exists no applicable limit 4.6.3 TEST PROTOCOL Band 5, downlink Highest Power Frequency

[MHz]

884.000 Output Power

[dBm]

22.830 Remark: Please see next sub-clause for the measurement plot. Lower Upper Highest Power Highest Power

-20 dB Frequency

[MHz]

867.869

-20 dB Frequency

[MHz]

895.119 20 dB Bandwidth

[kHz]

27250.0 TEST REPORT REFERENCE: MDE_BVNBG_1807_FCCc_REV1 Page 44 of 61 4.6.4 MEASUREMENT PLOT (SHOWING THE HIGHEST VALUE, WORST CASE) Frequency Band = Band 5 / 850, Direction = RF downlink

(S01_AA01) 4.6.5 TEST EQUIPMENT USED

- FCC Conducted Base Station / Repeater TEST REPORT REFERENCE: MDE_BVNBG_1807_FCCc_REV1 Page 45 of 61 4.7 FIELD STRENGTH OF SPURIOUS RADIATION Standard The test was performed according to:

ANSI C63.26 FCC Part 2.1051 4.7.1 TEST DESCRIPTION This test case is intended to demonstrate compliance to the applicable radiated spurious emission measurements per 2.1053 The EUT was connected to the test setup according to the following diagram:

- Antenna distance: 3 m

- Detector: Peak-Maxhold / Quasipeak (FFT-based)

- Frequency range: 30 1000 MHz TEST REPORT REFERENCE: MDE_BVNBG_1807_FCCc_REV1 Page 46 of 61

- Frequency steps: 30 kHz

- IFBandwidth: 120 kHz

- Measuring time / Frequency step: 100 ms

- Turntable angle range: 180 to 90

- Turntable step size: 90

- Height variation range: 1 3 m

- Height variation step size: 2 m

- Detector: Peak Maxhold

- Measured frequencies: in step 1 determined frequencies

- IF Bandwidth: 120 kHz

- Measuring time: 100 ms

- Turntable angle range: 45 around the determined value

- Height variation range: 100 cm around the determined value

- Antenna Polarisation: max. value determined in step 1 Step 3: Final measurement with QP detector With the settings determined in step 3, the final measurement will be performed:

EMI receiver settings for step 4:

- Detector: Quasi-Peak (< 1 GHz)

- Measured frequencies: in step 1 determined frequencies

- IF Bandwidth: 120 kHz

Step 1:

Due to the fact, that in this frequency range the test is performed in a fully anechoic room, the height scan of the receiving antenna instep 2 is omitted. Instead of this, a maximum search with a step size 45 for the elevation axis is performed. TEST REPORT REFERENCE: MDE_BVNBG_1807_FCCc_REV1 Page 47 of 61 The turn table azimuth will slowly vary by 22.5. The elevation angle will slowly vary by 45 EMI receiver settings (for all steps):

- Detector: Peak, Average

- IF Bandwidth = 1 MHz Step 3:

Spectrum analyser settings for step 3:

- Detector: Peak / Average

- Measured frequencies: in step 1 determined frequencies

- IF Bandwidth: 1 MHz

- Measuring time: 1 s 4.7.2 TEST REQUIREMENTS / LIMITS FCC Part 2.1051; Measurement required: Spurious emissions at antenna terminal:

The radio frequency voltage or powers generated within the equipment and appearing on a spurious frequency shall be checked at the equipment output terminals when properly loaded with a suitable artificial antenna. Curves or equivalent data shall show the magnitude of each harmonic and other spurious emission that can be detected when the equipment is operated under the conditions specified in 2.1049 as appropriate. The magnitude of spurious emissions which are attenuated more than 20 dB below the permissible value need not be specified. Part 22, Subpart H Cellular Radiotelephone Service 22 917 Emission limitations for cellular equipment

(a) Out of band emissions. The power of any emission outside of the authorized operating frequency ranges must be attenuated below the transmitting power (P) by a factor of at least 43 + 10 log(P) dB. RSS-132; 5.5 Transmitter Unwanted Emissions Mobile and base station equipment shall comply with the limits in (i) and (ii) below. 1. In the first 1.0 MHz band immediately outside and adjacent to each of the sub-bands specified in Section 5.1, the power of emissions per any 1% of the occupied bandwidth shall be attenuated (in dB) below the transmitter output power P ( dBW) by at least 43

Spurious Freq.

[MHz]

Spurious Level

[dBm]

1.0/0.4/1.0 1.0/0.4/1.0 1.0/0.4/1.0 1.0/0.4/1.0 1.0/0.4/1.0 Detector RMS RMS RMS RMS RMS RBW

[kHz]

100 100 100 100 100 Limit

[dBm]

-13.0

Remark: Please see next sub-clause for the measurement plot. The three required test frequencies (low, mid, high) were injected simultaneously into the EUT. The signal booster output was terminated with 50 Ohm. Margin to Limit

[dB]

- - -

4.7.4 MEASUREMENT PLOT (SHOWING THE HIGHEST VALUE, WORST CASE) Frequency Band = Band 5 / 850, Test Frequency = mid, Direction = RF downlink

(S01_AA01) m B d n i l e v e L m B d n i l e v e L 0

-10

-20

-30

-40

-50

-60

-70 FCC_22.4 30M 50 60 80 100M 200 Frequency in Hz 30 MHz - 1 GHz 300 400 500 800 1G FCC_22.4

-20

-30

-40

-50

-60

-70

-80

-90 1G 2G 3G 4G 5G 6 7 8 9 10G Frequency in Hz 1 GHz - 10 GHz TEST REPORT REFERENCE: MDE_BVNBG_1807_FCCc_REV1 Page 49 of 61 Frequency Band = Band 5 / 850, Test Frequency = low, Direction = RF downlink

(S01_AA01) 0

-10

-20

-30

-40

-50

-60

-70 m B d n i l e v e L FCC_22.4 30M 50 60 80 100M 200 Frequency in Hz 30 MHz - 1 GHz 300 400 500 800 1G FCC_22.4 m B d n i l e v e L

-20

-30

-40

-50

-60

-70

-80

-90 1G 2G 3G 4G 5G 6 7 8 9 10G Frequency in Hz 1 GHz - 10 GHz TEST REPORT REFERENCE: MDE_BVNBG_1807_FCCc_REV1 Page 50 of 61 Frequency Band = Band 5 / 850, Test Frequency = high, Direction = RF downlink

(S01_AA01) 0

-10

-20

-30

-40

-50

-60

-70 m B d n i l e v e L FCC_22.4 30M 50 60 80 100M 200 Frequency in Hz 30 MHz - 1 GHz 300 400 500 800 1G FCC_22.4 m B d n i l e v e L

-20

-30

-40

-50

-60

-70

-80

-90 1G 2G 3G 4G 5G 6 7 8 9 10G Frequency in Hz 1 GHz - 10 GHz 4.7.5 TEST EQUIPMENT USED

- Radiated Emissions TEST REPORT REFERENCE: MDE_BVNBG_1807_FCCc_REV1 Page 51 of 61 5 TEST EQUIPMENT 1 Ref.No. Device Name Description Manufacturer Serial Number R&S TS8997 EN300328/301893/FCC cond. Test Lab Rohde & Schwarz 107695 Last Calibration Calibration 2017-07 Due 2020-07 1.1 SMB100A 1.2 MFS 1.3 1515 / 93459 1.4 FSV30 1.5 Fluke 177 1.6 1.7 1.8 VT 4002 A8455-4 Opus10 THI

(8152.00) 1.9 SMBV100A 1.10 OSP120 Signal Generator 9 kHz - 6 GHz Rubidium Frequency Standard Broadband Power Divider SMA (Aux) Signal Analyzer 10 Hz

- 30 GHz Digital Multimeter 03

(Multimeter) Climatic Chamber 4 Way Power Divider (SMA) ThermoHygro Datalogger 03

(8253.00) ESW44 Anechoic Chamber HL 562 5HC2700/12750-

1.5-KK ASP 1.2/1.8-10 kg 002 13936 Datum GmbH Lufft Mess- und Regeltechnik GmbH Sensor Head A Rohde & Schwarz 827753/005 Rubidium Frequency Normal MFS ThermoAirpres sure Datalogger 13

(Environ) EMI Test Receiver 10.58 x 6.38 x 6.00 m Ultralog new biconicals High Pass Filter Antenna Mast Maturo GmbH Rohde & Schwarz 830547/003 Rohde & Schwarz 101603 Frankonia 9942012 Trilithic none

TEST REPORT REFERENCE: MDE_BVNBG_1807_FCCc_REV1 Last Calibration Calibration 2018-07 2018-10 Due 2019-07 2020-10 2017-04 2019-04 2018-05 2019-05 2018-06 2020-06 2018-07 2021-07 Page 52 of 61 2.9 Fully Anechoic Room 2.10 Fluke 177 2.11 JS4-18002600-

32-5P 2.12 FSW 43 2.13 3160-09 WHKX 7.0/18G-

8SS 4HC1600/12750-

1.5-KK Chroma 6404 JS4-00102600-

42-5A Albatross Projects P26971-647-001-

PRB 2018-06 2020-06 Fluke Europe B.V. 86670383 2018-04 2020-04 Miteq 849785 Rohde & Schwarz 103779 2019-02 2021-02 EMCO Elektronic GmbH 00083069 Wainwright 09 Trilithic 9942011 Chroma ATE INC. 64040001304 Miteq 619368 Maturo GmbH Rohde & Schwarz 100609

2016-04 2019-04 8.80m x 4.60m x 4.05m (l x w x h) Digital Multimeter 03

(Multimeter) Broadband Amplifier 18 GHz - 26 GHz Spectrum Analyzer Standard Gain

/ Pyramidal Horn Antenna 26.5 GHz High Pass Filter High Pass Filter AC Power Source Broadband Amplifier 30 MHz - 26 GHz Turn Table EMCO Elektronic GmbH Trilithic 3160-10 5HC3500/18000-

1.2-KK Opus10 THI

(8152.00) TT 1.5 WI HL 562 Ultralog Log.-per. Antenna Standard Gain

/ Pyramidal Horn Antenna 40 GHz High Pass Filter ThermoHygro Datalogger 12

(Environ) EMI Receiver /

Spectrum Analyzer Broadband Amplifier 30 MHz - 18 GHz Antenna mast HD GmbH Antrieb TD1.5-

10kg AS 620 P Tilt device Maturo

(Rohacell) PAS 2.5 - 10 kg Antenna Mast Maturo GmbH AM 4.0 Antenna mast Maturo GmbH JS4-00101800-

35-5P Maturo GmbH ESR 7 Miteq Lufft Mess- und Regeltechnik GmbH 12482 Rohde & Schwarz 101424 00086675 200035008 2017-03 2019-03 2019-01 2020-01 2018-07 2021-07 896037 620/37 TD1.5-

10kg/024/379070 9

AM4.0/180/11920 513 2.29 HF 907 Rohde & Schwarz 102444 Double-ridged horn TEST REPORT REFERENCE: MDE_BVNBG_1807_FCCc_REV1 Page 53 of 61 2.14 2.15 2.16 2.17 2.18 2.19 2.20 2.21 2.22 2.23 2.24 2.25 2.26 2.27 2.28 FCC Conducted Base Station / Repeater EN300328/301893/FCC cond. Test Lab 3 Ref.No. Device Name Description Manufacturer Serial Number 3.1 FSV40 3.2 SMBV100A 3.3 SMIQ Signal Analyzer 10 Hz

- 40 GHz Vector Signal Generator 9 kHz - 6 GHz Vector Signal Generator 9 kHz 3.3 GHz Rohde & Schwarz 100886 Rohde & Schwarz 255975 Rohde & Schwarz 831389/062 Last Calibration Calibration 2018-10 Due 2019-10 2017-08 2019-08 2018-10 2020-10 The calibration interval is the time interval between Last Calibration and Calibration Due TEST REPORT REFERENCE: MDE_BVNBG_1807_FCCc_REV1 Page 54 of 61 6 ANTENNA FACTORS, CABLE LOSS AND SAMPLE CALCULATIONS This chapter contains the antenna factors with their corresponding path loss of the used measurement path for all antennas as well as the insertion loss of the LISN. 6.1 LISN R&S ESH3-Z5 (150 KHZ 30 MHZ) insertion LISN loss ESH3-

Z5 dB 0.1 0.1 0.2 0.2 0.3 0.3 0.4 0.4 0.4 0.5 0.5 0.5 0.5 0.5 cable loss

(incl. 10 dB atten-

uator) dB 10.0 10.2 10.3 10.3 10.4 10.4 10.4 10.5 10.5 10.6 10.6 10.7 10.7 10.8 Corr. dB 10.1 10.3 10.5 10.5 10.7 10.7 10.8 10.9 10.9 11.1 11.1 11.2 11.2 11.3 Frequency MHz 0.15 5 7 10 12 14 16 18 20 22 24 26 28 30 Sample calculation ULISN (dB V) = U (dB V) + Corr. (dB) U = Receiver reading LISN Insertion loss = Voltage Division Factor of LISN Corr. = sum of single correction factors of used LISN, cables, switch units (if used) Linear interpolation will be used for frequencies in between the values in the table. TEST REPORT REFERENCE: MDE_BVNBG_1807_FCCc_REV1 Page 55 of 61 6.2 ANTENNA R&S HFH2-Z2 (9 KHZ 30 MHZ) cable loss 1

(inside chamber) dB 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.3 0.3 0.3 0.3 0.3 0.3 0.3 0.4 cable loss 2

(outside chamber) dB 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 cable loss 3

(switch unit) dB 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.3 0.3 Corr. dB

-79.6

-39.6

-39.5

-39.4

-39.3

-39.2

-39.1 cable loss 4

(to receiver) dB 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 distance corr.

(-40 dB/

decade) dB

-80

-40

-40 dLimit

(meas. distance

(limit) m 300 300 300 300 300 300 300 300 300 300 300 300 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 dused

(meas. distance

(used) m 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 Frequency MHz 0.009 0.01 0.015 0.02 0.025 0.03 0.05 0.08 0.1 0.2 0.3 0.49 0.490001 0.5 0.8 1 2 3 4 5 6 8 10 12 14 16 18 20 22 24 26 28 30 AF HFH-Z2) dB (1/m) 20.50 20.45 20.37 20.36 20.38 20.32 20.35 20.30 20.20 20.17 20.14 20.12 20.12 20.11 20.10 20.09 20.08 20.06 20.05 20.05 20.02 19.95 19.83 19.71 19.54 19.53 19.50 19.57 19.61 19.61 19.54 19.46 19.73 Sample calculation E (dB V/m) = U (dB V) + AF (dB 1/m) + Corr. (dB) U = Receiver reading AF = Antenna factor Corr. = sum of single correction factors of used cables, switch unit, distance correction, amplifier (if applicable) distance correction = -40 * LOG (dLimit/ dused) Linear interpolation will be used for frequencies in between the values in the table. Table shows an extract of values TEST REPORT REFERENCE: MDE_BVNBG_1807_FCCc_REV1 Page 56 of 61 6.3 ANTENNA R&S HL562 (30 MHZ 1 GHZ)

(dLimit = 3 m) cable loss 1

(inside chamber) dB 0.29 0.39 0.56 0.73 0.84 0.98 1.04 1.18 1.28 1.39 1.44 1.55 1.59 1.67 1.67 1.87 1.90 1.99 2.14 2.22 2.23 cable loss 2

-9.9

-9.6

-9.2

-8.8

-8.6

-8.3

-8.1

-7.9

-7.6

-7.4

-7.2

-7.0

-6.9

-6.8

-6.3

-6.0

-5.8

-5.6

-5.6 cable loss 4

(to receiver) dB 0.02 0.08 0.08 0.12 0.11 0.13 0.15 0.13 0.19 0.22 0.19 0.23 0.23 0.22 0.15 0.25 0.25 0.27 0.29 0.33 0.30 distance corr.

(-20 dB/

decade) dB 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.02 0.08 0.08 0.12 0.11 0.13 0.15 0.13 0.19 0.22 0.19 0.23 0.23 0.22 0.15 0.25 0.25 0.27 0.29 0.33 0.30

-10.5

-10.5 dLimit

(meas. distance

(limit) m 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 dused

(meas. distance

(dLimit = 10 m) 30 50 100 150 200 250 300 350 400 450 500 550 600 650 700 750 800 850 900 950 1000 18.6 6.0 9.7 7.9 7.6 9.5 11.0 12.4 13.6 14.7 15.6 16.3 17.2 18.1 18.5 19.1 19.6 20.1 20.8 21.1 21.6 Sample calculation E (dB V/m) = U (dB V) + AF (dB 1/m) + Corr. (dB) U = Receiver reading AF = Antenna factor Corr. = sum of single correction factors of used cables, switch unit, distance correction, amplifier (if applicable) distance correction = -20 * LOG (dLimit/ dused) Linear interpolation will be used for frequencies in between the values in the table. Tables show an extract of values. TEST REPORT REFERENCE: MDE_BVNBG_1807_FCCc_REV1 Page 57 of 61 6.4 ANTENNA R&S HF907 (1 GHZ 18 GHZ) cable loss 1

(relay +

cable inside chamber) dB cable loss 2

(outside chamber) dB cable loss 1

(relay inside cable loss 2

(inside chamber) chamber) dB dB cable loss 3

(switch unit, atten-

uator &

pre-amp) dB

-21.51

-20.63

-19.85

-19.13

-18.71

-17.83

-16.19 cable loss 3

(outside chamber) dB 0.53 0.67 0.86 0.90 0.86 0.31 0.44 0.53 0.67 0.86 0.90 0.86 1.87 2.41 2.78 2.74 2.82 cable loss 4 (to receiver) dB 0.79 1.38 1.33 1.31 1.40 1.47 1.46 cable loss 4

(switch unit, atten-

uator &

pre-amp) dB

-27.58

-28.23

-27.35

-26.89

-25.58 cable loss 5 (to receiver) dB 1.33 1.31 1.40 1.47 1.46 used for FCC 15.247 cable loss 2

(High Pass) dB 1.28 0.71 0.65 0.54 0.61 0.42 0.44 0.53 0.54 0.49 0.76 0.53 cable loss 3

(pre-

amp) dB

-62.72

-61.49

-60.80

-61.91

-61.40

-59.70

-59.81

-63.03

-61.05

-61.51

-62.36

-62.88 cable loss 4

(inside chamber) dB 2.66 2.84 3.06 3.28 3.43 3.53 3.75 3.91 4.02 4.17 4.34 4.41 cable loss 5

(outside chamber) dB 0.94 1.00 1.09 1.20 1.27 1.26 1.32 1.40 1.44 1.51 1.53 1.55 cable loss 6

-19.4

-17.4

-16.1

-14.7

-13.7

-12.7

-11.0 Corr. dB

-23.4

-23.3

-21.7

-21.2

-19.8 Corr. dB

-57.3

-56.3

-55.3

-56.2

-55.3

-53.7

-53.5

-56.3

-54.1

-54.4

-54.7 0.99 1.44 1.87 2.41 2.78 2.74 2.82 0.47 0.56 0.61 0.58 0.66 0.56 0.69 0.68 0.70 0.80 0.84 0.83 0.91 0.98 1.23 1.36 1.70 cable loss 1

(relay inside chamber) dB E (dB V/m) = U (dB V) + AF (dB 1/m) + Corr. (dB) U = Receiver reading AF = Antenna factor Corr. = sum of single correction factors of used cables, switch unit, distance correction, amplifier (if applicable) Linear interpolation will be used for frequencies in between the values in the table. Tables show an extract of values. TEST REPORT REFERENCE: MDE_BVNBG_1807_FCCc_REV1 Page 58 of 61 6.5 ANTENNA EMCO 3160-09 (18 GHZ 26.5 GHZ) cable loss 3

(inside cable loss 1

-23.5

-23.2

-22.0

-21.3

-20.3

-19.9

-19.1

-18.7

-19.0

-19.5

-19.3

-19.8

-19.5

-19.3

-20.4

-21.3

-21.1 Sample calculation cable loss 2

(pre-

amp) dB

-35.85

-35.71

-35.44

-35.07

-34.49

-34.46

-34.07

-33.96

-33.57

-33.66

-33.75

-33.35

-33.99

-33.89

-33.00

-34.07

-35.11

-35.20 0.72 0.69 0.76 0.74 0.72 0.78 0.87 0.90 0.89 0.87 0.88 0.90 0.88 0.91 0.88 0.89 0.86 0.90 cable loss 4

(switch unit) dB 2.81 2.76 3.15 3.11 3.07 3.12 3.20 3.28 3.35 3.75 3.77 3.52 3.88 3.93 3.96 3.66 3.69 3.91 cable loss 5

(to receiver) dB 2.65 2.59 2.79 2.91 3.05 3.15 3.33 3.19 3.28 2.94 2.70 2.66 2.58 2.51 2.14 2.22 2.28 2.36 6.20 6.46 6.69 7.04 7.30 7.48 7.61 7.47 7.34 7.06 6.92 6.99 6.88 7.01 6.72 6.90 7.02 7.15 E (dB V/m) = U (dB V) + AF (dB 1/m) + Corr. (dB) U = Receiver reading AF = Antenna factor Corr. = sum of single correction factors of used cables, switch unit, distance correction, amplifier (if applicable) Linear interpolation will be used for frequencies in between the values in the table. Table shows an extract of values. TEST REPORT REFERENCE: MDE_BVNBG_1807_FCCc_REV1 Page 59 of 61 6.6 ANTENNA EMCO 3160-10 (26.5 GHZ 40 GHZ) cable loss 3

(switch unit) dB cable loss 2

(outside chamber) cable loss 1

-11.2

-11.1

-11.0

-10.9

-10.8

-10.7

-10.6

-10.5

-10.4

-10.3

-10.2

-10.1 Sample calculation 4.4 4.4 4.5 4.6 4.7 4.7 4.8 4.9 5.0 5.1 5.1 5.2 5.3 5.4 5.5 distance corr.

(-20 dB/

decade) dB

-9.6

-9.6 dLimit

(meas. distance

(limit) m 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 dused

(meas. distance

(used) m 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 cable loss 4

(to receiver) dB E (dB V/m) = U (dB V) + AF (dB 1/m) + Corr. (dB) U = Receiver reading AF = Antenna factor Corr. = sum of single correction factors of used cables, switch unit, distance correction, amplifier (if applicable) Linear interpolation will be used for frequencies in between the values in the table. distance correction = -20 * LOG (dLimit/ dused) Linear interpolation will be used for frequencies in between the values in the table. Table shows an extract of values. TEST REPORT REFERENCE: MDE_BVNBG_1807_FCCc_REV1 Page 60 of 61 7 MEASUREMENT UNCERTAINTIES Test Case(s)

- Field strength of spurious radiation

- Out-of-band rejection

- Occupied Bandwidth

- Input versus output spectrum

- Effective radiated power, mean output power and zone enhancer gain

- Peak to Average Ratio Parameter Power Power Frequency Uncertainty 5.5 dB 2.9 dB 11.2 kHz Power 2.2 dB

- Out-of-band emission limits

- Conducted Spurious Emissions at Antenna Terminal Power Frequency 2.2 dB 11.2 kHz 8 PHOTO REPORT Please see separate photo report. TEST REPORT REFERENCE: MDE_BVNBG_1807_FCCc_REV1 Page 61 of 61

		frequency	equipment class	purpose
1	2019-04-11	758 ~ 768	B9B - Part 90 Class B Industrial Booster (non-SMR)	Original Equipment
2		2110 ~ 2180	B2I - Part 20 Industrial Booster (CMRS)

Application Forms

app s	Applicant Information
1 2	Effective	2019-04-11
1 2	Applicant's complete, legal business name	Andrew Wireless System
1 2	FCC Registration Number (FRN)	0019152750
1 2	Physical Address	Industriering 10
1 2		Buchdorf, N/A 86675
1 2		Germany

app s	TCB Information
1 2	TCB Application Email Address	K******@phoenix-testlab.de
1 2	TCB Scope	B2: General Mobile Radio And Broadcast Services equipment in the following 47 CFR Parts 22 (non-cellular) 73, 74, 90, 95, 97, & 101 (all below 3 GHz)
1 2	TCB Scope	B1: Commercial mobile radio services equipment in the following 47 CFR Parts 20, 22 (cellular), 24,25 (below 3 GHz) & 27

app s	FCC ID
1 2	Grantee Code	XS5
1 2	Equipment Product Code	CAPH7E817E19

app s	Person at the applicant's address to receive grant or for contact
1 2	Name	W****** O******
1 2	Title	Manager Quality
1 2	Telephone Number	+49-9******** Extension:
1 2	Fax Number	+49-9********
1 2	E-mail	w******@commscope.com

app s	Technical Contact
		n/a

app s	Non Technical Contact
		n/a

app s	Confidentiality (long or short term)
1 2	Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?:	Yes
1 2	Long-Term Confidentiality Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?:	Yes
1 2	If so, specify the short-term confidentiality release date (MM/DD/YYYY format)	10/08/2019
	if no date is supplied, the release date will be set to 45 calendar days past the date of grant.

app s	Cognitive Radio & Software Defined Radio, Class, etc
1 2	Is this application for software defined/cognitive radio authorization?	No
1 2	Equipment Class	B9B - Part 90 Class B Industrial Booster (non-SMR)
1 2	Equipment Class	B2I - Part 20 Industrial Booster (CMRS)
1 2	Description of product as it is marketed: (NOTE: This text will appear below the equipment class on the grant)	ERA repeater for cellular systems
1 2	Related OET KnowledgeDataBase Inquiry: Is there a KDB inquiry associated with this application?	No
1 2	Modular Equipment Type	Does not apply
1 2	Purpose / Application is for	Original Equipment
1 2	Composite Equipment: Is the equipment in this application a composite device subject to an additional equipment authorization?	Yes
1 2	Related Equipment: Is the equipment in this application part of a system that operates with, or is marketed with, another device that requires an equipment authorization?	No
1 2	Grant Comments	In-Building Class B DAS Booster. Output power listed is the rated conducted composite power based on one carrier. This remote unit is connected via a fiber optical link to the ERA Master unit as described in this filing. Maximum ERP for operations under Part 90.219(e )(1) is limited to 5Watt. If licensees need more than 5 watts ERP per channel for a particular deployment, licensees can use other allowances in Part 90, including obtaining an additional [station] authorization for a repeater by the licensing bureau. The antenna(s) used for this transmitter (repeater) must be fixed-mounted on permanent structures. Final RF exposure compliance and ERP are addressed at time of licensing when the antenna gain, antenna height, and loss are jointly considered, as required by the responsible FCC Bureau(s), including antenna co-location requirements of §1.1307(b)(3). This device is approved with the incorporated licensed B2I transmitter certified under the same FCC ID.
1 2	Grant Comments	In-Building Class B DAS Booster. Output power listed is the rated conducted composite power based on one carrier. This remote unit is connected via a fiber optical link to the ERA Master unit as described in this filing. Maximum ERP for operations under Part 90.219(e )(1) is limited to 5Watt. If licensees need more than 5 watts ERP per channel for a particular deployment, licensees can use other allowances in Part 90, including obtaining an additional [station] authorization for a repeater by the licensing bureau. The antenna(s) used for this transmitter (repeater) must be fixed-mounted on permanent structures. Final RF exposure compliance and ERP are addressed at time of licensing when the antenna gain, antenna height, and loss are jointly considered, as required by the responsible FCC Bureau(s), including antenna co-location requirements of §1.1307(b)(3). This device is approved with the incorporated licensed B9B transmitter certified under the same FCC ID.
1 2	Is there an equipment authorization waiver associated with this application?	No
1 2	If there is an equipment authorization waiver associated with this application, has the associated waiver been approved and all information uploaded?	No

app s	Test Firm Name and Contact Information
1 2	Firm Name	7layers GmbH
1 2	Name	B**** R**
1 2	Telephone Number	0049 ********
1 2	Fax Number	0049 ********
1 2	E-mail	B******@7layers.com

Equipment Specifications
	Line	Rule Parts	Grant Notes	Lower Frequency	Upper Frequency	Power Output	Tolerance	Emission Designator	Microprocessor Number
1	1	90	PF	758.00000000	768.00000000	20.0000000	Amp	G7D
	Line	Rule Parts	Grant Notes	Lower Frequency	Upper Frequency	Power Output	Tolerance	Emission Designator	Microprocessor Number
2	1	24E		1930	1995	20	Amp	GXW
2	2	24E		1930	1995	20	Amp	G7W
2	3	24E		1930	1995	20	Amp	F9W
2	4	24E		1930	1995	20	Amp	G7D
2	5	27		2110	2180	20	Amp	G7D
2	6	27		2110	2180	20	Amp	F9W
2	7	90S		862	869	20	Amp	GXW
2	8	90S		862	869	20	Amp	G7W
2	9	90S		862	869	20	Amp	F9W
2	1	90S		862	869	20	Amp	G7D
2	11	22H		869	894	20	Amp	GXW
2	12	22H		869	894	20	Amp	G7W
2	13	22H		869	894	20	Amp	F9W
2	14	22H		869	894	20	Amp	G7D
2	15	27		728	757	20	Amp	G7D

some individual PII (Personally Identifiable Information) available on the public forms may be redacted, original source may include additional details

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