45461783 - EMC Test Report R2.0
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Test Report EMC
The Detection Group, Inc. DT-552 Industrial Digital Transceiver 2AK4V-DT-552 2AK4VDT552 dt 552
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Document DEVICE REPORTGetApplicationAttachment.html?id=6421783Applicant: Test Report Serial Number: Test Report Date: Project Number: 45461783 R2.0 23 February 2023 1601 EMC Test Report - New Filing The Detection Group 440 N. Wolfe Rd. E126 Sunnyvale, CA, 94085 USA FCC ID: 2AK4V-DT-552 Product Model Number / HVIN DT-552 The Detection Group 440 N. Wolfe Rd. E211 Sunnyvale, CA, 94085 USA IC Registration Number 22517-DT552 Product Name / PMN Wireless Sensor In Accordance With: FCC 47 CFR §15.247, Part 15 Subpart B Intentional Radiators - Operation within the bands 902-928 MHz, 2400-2483.5 MHz, and 5725-5850 MHz, Unintentional Radiators RSS-GEN, RSS-247, ICES-003 Digital Transmission Systems (DTSs), Frequency Hopping Systems (FHSs) and Licence-Exempt Local Area Network (LE-LAN) Devices Approved By: Ben Hewson, President Celltech Labs Inc. 21-364 Lougheed Rd. Kelowna, BC, V1X 7R8 Canada Test Lab Certificate: 2470.01 IC Registration 3874A FCC Registration: CA3874 This report shall not be reproduced in any form without the expressed written consent of Celltech Labs Inc. © 2023 Celltech Labs Inc, Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 Table of Contents 1.0 REVISION HISTORY ........................................................................................................................................................ 5 2.0 CLIENT AND DUT INFORMATION .................................................................................................................................. 6 3.0 SCOPE.............................................................................................................................................................................. 7 4.0 TEST SUMMARY.............................................................................................................................................................. 8 5.0 NORMATIVE REFERENCES ......................................................................................................................................... 10 6.0 FACILITIES AND ACCREDITATIONS ........................................................................................................................... 11 7.0 OCCUPIED BANDWIDTH .............................................................................................................................................. 12 8.0 DTS BANDWIDTH .......................................................................................................................................................... 17 9.0 CONDUCTED CHANNEL POWER ................................................................................................................................ 22 10.0 POWER SPECTRAL DENSITY .................................................................................................................................... 28 11.0 CONDUCTED SPURIOUS EMISSIONS BAND EDGE ............................................................................................. 33 12.0 CONDUCTED SPURIOUS EMISSIONS ...................................................................................................................... 37 13.0 RADIATED TX EMISSIONS RESTRICTED BAND ................................................................................................... 43 14.0 RADIATED RX EMISSIONS ......................................................................................................................................... 55 APPENDIX A TEST SETUP DRAWINGS ......................................................................................................................... 65 APPENDIX B EQUIPMENT LIST AND CALIBRATION..................................................................................................... 69 APPENDIX C MEASUREMENT INSTRUMENT UNCERTAINTY..................................................................................... 70 END OF REPORT................................................................................................................................................................. 70 Table of Figures Figure A.1 Test Setup Conducted Measurements.......................................................................................................... 65 Figure A.2 Test Setup Radiated Measurements 9kHzMHz 30MHz................................................................................ 67 Figure A.3 Test Setup Radiated Measurements 30MHz 1GHz ...................................................................................... 67 Figure A.4 Test Setup Radiated Measurements 30MHz 1GHz, Signal Substitution ...................................................... 67 Figure A.5 Test Setup Radiated Measurements 1 18GHz ............................................................................................. 68 ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 2 of 70 Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 Table of Plots Plot 7.1 Occupied Bandwidth, 906MHz ............................................................................................................................. 13 Plot 7.2 Occupied Bandwidth, 914MHz ............................................................................................................................. 14 Plot 7.3 Occupied Bandwidth, 924MHz ............................................................................................................................. 15 Plot 8.1 DTS Bandwidth, 906MHz ..................................................................................................................................... 18 Plot 8.2 DTS Bandwidth, 914MHz ..................................................................................................................................... 19 Plot 8.3 DTS Bandwidth, 924MHz ..................................................................................................................................... 20 Plot 9.1 Conducted Channel Power, 906 MHz .................................................................................................................. 24 Plot 9.2 Conducted Channel Power, 914 MHz .................................................................................................................. 25 Plot 9.3 Conducted Channel Power, 924 MHz .................................................................................................................. 26 Plot 10.1 Power Spectral Density, 906MHz ....................................................................................................................... 29 Plot 10.2 Power Spectral Density, 914MHz ....................................................................................................................... 30 Plot 10.3 Power Spectral Density, 924MHz ....................................................................................................................... 31 Plot 11.1 Spurious Emission Measurement, Lower Band Edge ........................................................................................ 34 Plot 11.2 Spurious Emission Measurement, Upper Band Edge ........................................................................................ 35 Plot 12.1 Conducted Spurious Emissions, 928 1000MHz .............................................................................................. 38 Plot 12.2 Conducted Spurious Emissions, 1000 3000MHz ............................................................................................ 39 Plot 12.3 Conducted Spurious Emissions, 1848MHz ........................................................................................................ 40 Plot 12.4 Conducted Spurious Emissions, 3 10GHz ...................................................................................................... 41 Plot 13.1 Radiated Tx Emissions, 9kHz to 30MHz, Front .................................................................................................. 44 Plot 13.2 Radiated Tx Emissions, 9kHz to 30MHz, Side ................................................................................................... 45 Plot 13.3 Radiated Tx Emissions, 30 to 1000MHz, Horizontal .......................................................................................... 46 Plot 13.4 Radiated Tx Emissions, 30 to 1000MHz, Vertical .............................................................................................. 47 Plot 13.5 Radiated Tx Emissions, 1 to 3GHz, Horizontal .................................................................................................. 48 Plot 13.6 Radiated Tx Emissions, 1 to 3GHz, Vertical....................................................................................................... 49 Plot 13.7 Radiated Tx Emissions, 3 to 10GHz, Horizontal ................................................................................................ 50 Plot 13.8 Radiated Tx Emissions, 3 to 10GHz, Vertical..................................................................................................... 51 Plot 13.9 Radiated Tx Emissions, 2nd Harmonic Vertical................................................................................................... 52 Plot 13.10 Radiated Tx Emissions, 3rd Harmonic Vertical ................................................................................................. 53 Plot 14.1 Radiated Rx Emissions, 9kHz to 30MHz, Front ................................................................................................. 56 Plot 14.2 Radiated Rx Emissions, 9kHz to 30MHz, Side................................................................................................... 57 Plot 14.3 Radiated Rx Emissions, 30 to 1000MHz, Horizontal .......................................................................................... 58 Plot 14.4 Radiated Rx Emissions, 30 to 1000MHz, Vertical .............................................................................................. 59 Plot 14.5 Radiated Rx Emissions, 1 to 3GHz, Horizontal .................................................................................................. 60 Plot 14.6 Radiated Rx Emissions, 1 to 3GHz, Vertical ...................................................................................................... 61 Plot 14.7 Radiated Rx Emissions, 3 to 10GHz, Horizontal ................................................................................................ 62 Plot 14.8 Radiated Rx Emissions, 3 to 10GHz, Vertical .................................................................................................... 63 ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 3 of 70 Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 Table of Tables Table 7.1 Summary of Occupied Bandwidth Measurements............................................................................................. 16 Table 8.1 Summary of DTS Bandwidth Measurements..................................................................................................... 21 Table 9.1 Summary of Conducted Channel Power Measurements................................................................................... 27 Table 10.1 Summary of Power Spectral Density Measurements ...................................................................................... 32 Table 11.1 Summary of Conducted Spurious Emissions (Band Edge) Measurements .................................................... 36 Table 12.1 Summary of Conducted Spurious Emissions Measurements ......................................................................... 42 Table 13.1 Summary of Radiated Tx Measurements ........................................................................................................ 54 Table 14.1 Summary of Radiated Rx Measurements ........................................................................................................ 64 Table A.1 Conducted Measurement Setup........................................................................................................................ 65 Table A.2 Radiated Emissions Measurement Equipment ................................................................................................. 66 ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 4 of 70 Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 1.0 REVISION HISTORY Revision History Samples Tested By: Art Voss, P.Eng. Date(s) of Evaluation: Report Prepared By: Art Voss, P.Eng. Report Reviewed By: Report Revision Description of Revision Revised Section Revised By 1.0 Initial Release n/a Art Voss 2.0 revise PMN n/a Ben Hewson 1 - 5 November 2022 Ben Hewson Revision Date 20 December 2022 23 February 2023 ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 5 of 70 Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 2.0 CLIENT AND DUT INFORMATION Applicant Name (FCC) Applicant Address (FCC) Applicant Name (ISED) Applicant Address (ISED) Device Identifier(s): Device Type: Device Model(s) / HVIN: Device Marketing Name / PMN: Firmware Version ID Number / FVIN: Host Marketing Name / HMN: Test Sample Serial No.: Equipment Class (FCC): Equipment Class (ISED): Transmit Frequency Range: Test Channels: Manuf. Max. Rated Output Power: Manuf. Max. Rated BW/Data Rate: Antenna Make and Model: Antenna Type and Gain: Modulation: Mode: Emission Designator: DUT Power Source: DUT Dimensions [LxWxD] Deviation(s) from standard/procedure: Modification of DUT: Client Information The Detection Group 440 Wolfe Rd. E126 Sunnyvale, CA, 94085 USA The Detection Group 440 Wolfe Rd. E211 Sunnyvale, CA, 94085 USA DUT Information FCC ID: 2AK4V-DT-552 IC ID: 22517-DT552 Industrial Digital Transceiver DT-552 Wireless Sensor 31129776 (Conducted), 31129794 (OTA) Digital Transmission System (DTS) Other 906 - 924MHz 3 Channel 26dBm n/a Chip 1.59dBi BPSK-40 Simplex See Section 8.0 6VDC Primary Lithium (non-rechargeable) 95mm x 90mm x 30mm None None ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 6 of 70 Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 3.0 SCOPE Preface: This Certification Report was prepared on behalf of: The Detection Group ,(the 'Applicant ''), in accordance with the applicable Federal Comm unications Commission (FCC) CFR 47 and Innovation, Scientific and Economic Development (ISED) Canada rules parts and regulations (the 'Rules '). The scope of this investigation was limited to only the equipment, devices and accessories (the 'Equipment ') supplied by the Applicant . The tests and measurements performed on this Equipment were only those set forth in the applicable Rules and/or the Test and Measurem ent Standards they reference. The Rules applied and the Test and Measurement Standards used during this evaluation appear in the Normative References section of this report. The limits set forth in the technical requirements of the applicable Rules were applied to the measurement results obtained during this evaluation and ,unless otherwise noted, thes e lim its were used as the Pas s/Fail criteria. The Pass /Fail s tatem ents m ade in this report apply to only the tes ts and meas urem ents perform ed on only the Equipment tes ted during this evaluation. Where applicable and perm iss ible, inform ation including test and measurement data and/or results from previous evaluations of same or similar equipment, devices and/or acces sories m ay be cited in this report. Device Description: The HVIN: DT-552, PMN: Trident Water Sens or is a Class A Industrial rem ote water s ens ing controller with a low power 912MHz Transceiver. It is not made available to the general public and requires professional ins tallation. Application: This is an application for a New Certification, Single. Regulatory Requirement: As per FCC 47 CFR 2 Subpart I and the Radiocommunication Regulations of Canada, Equipm ent Authorization is require for this Equipment by means of Certification in accordance with FCC 47 CFR §15.249 and ISED RSS-210. Scope of Work: The s cope of this inves tigation is lim ited only to the evaluation of the DT-552 to determ ine com pliance to the Rules identified herein. RF Exposure: As per FCC 47 CFR §2.1091 and Canada Health Safety Code 6, an RF Exposure (MPE) evaluation is required for this Equipment and the results of the RF Exposure (MPE) evaluation appear in a separate report. ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 7 of 70 Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 4.0 TEST SUMMARY Se ction 7.0 8.0 9.0 10.0 11.0 12.0 13.0 14.0 Description of Test Occupied Bandw idth DTS Bandw idth Conducted Pow er (Fundamental) Pow er Spectral Density Conducted Tx Spurious Emissions Band Edge Conducted Tx Spurious Emissions Radiated Tx Spurious Emissions And Restricted Band Radiated Rx Spurious Emissions TEST SUMMARY Pr oce dur e Applicable Rule Re f e r e nce Part(s) FCC ANSI C63.10-2013 KDB 558074 D01v05 §2.1049 ANSI C63.10-2013 KDB 558074 D01v05 §15.247(a)(2) ANSI C63.10-2013 §2.1046 KDB 558074 D01v05 §15.247(b)(3) ANSI C63.10-2013 KDB 558074 D01v05 §15.247(e) ANSI C63.10-2013 §2.1051 KDB 558074 D01v05 §15.247(d) ANSI C63.10-2013 §2.1051 KDB 558074 D01v05 §15.247(d) ANSI C63.4-2014 §15.109 KDB 558074 D01v05 §15.247(d) ANSI C63.4-2014 KDB 558074 D01v05 §15.109 Applicable Rule Part(s) ISED RSS-Gen (6.7) RSS-Gen (6.7) RSS-247 (5.2)(a) RSS-Gen (6.12) RSS-247 (5.4)(d) RSS-247 (5.2)(b) RSS-Gen (6.13) RSS-247 (5.5) RSS-Gen (6.13) RSS-247 (5.5) RSS-Gen (6.13) RSS-Gen (7.4) ICES-003(6.2) Test Date 5 Nov 2022 5 Nov 2022 5 Nov 2022 5 Nov 2022 5 Nov 2022 5 Nov 2022 2-3 Nov 2022 2-3 Nov 2022 Re s ult Pass Pass Pass Pass Pass Pass Pass Pass ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 8 of 70 Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 Test Station Day Log Ambient Relative Barometric Test Tests Da te Temp Humidity Pressure Station Performed (oC) (%) (kPa ) Section(s) 2 Nov 2022 0.0 87 101.5 OATS 13, 14 3 Nov 2022 -2.0 80 102.4 OATS 13, 14 5 Nov 2022 21.6 17 101.8 EMC 7,8,9,10,11,12 EMC - EMC Test Bench SAC - Semi-Anechoic Chamber OATS - Open Area Test Site TC - Temperature Chamber LISN - LISN Test Area ESD - ESD Test Bench IMM - Immunity Test Area RI - Radiated Immunity Chamber I attest that the data reported herein is true and accurate w ithin the tolerance of the Measurement Instrument Uncertainty; that all tests and measurements w ere perf ormed in accordance w ith accepted practices or procedures; and that all tests and measurements w ere performed by me or by trained personnel under my direct supervision. The results of this investigation are based solely on the test sample(s) provided by the client w hich w ere not adjusted, modif ied or altered in any manner w hatsoever, except as required to carry out specif ic tests or measurements. This test report has been completed in accordance w ith ISO/IEC 17025. Art Voss, P.Eng. Technical Manager Celltech Labs Inc. 20 December 2022 Date ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 9 of 70 Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 5.0 NORMATIVE REFERENCES ISO/IEC 17025:2017 Normative References General requirements for the competence of testing and calibration laboratories ANSI C63.4-2014 American National Standard of Procedures for Methods of Measurem ent of Radio-Noise Em issions from Low-Voltage Electric and Electronic Equipm ent in the Range of 9kHz to 40GHz ANSI C63.10-2013 American National Standard of Procedures for Compliance Testing of Unlicensed Wireless Devices CFR Code of Federal Regulations Title 47: Telecomm unication Part 2: Frequency Allocations and Radio Treaty Matters; General Rules and Regulations CFR Code of Federal Regulations Title 47: Telecomm unication Part 15: Radio Frequency Devices Subpart B: Unintentional Radiators CFR Code of Federal Regulations Title 47: Telecomm unication Part 15: Radio Frequency Devices Sub Part C (15.247) Intentional Radiators ISED Innovation, Science and Economic Development Canada RSS-Gen Issue 5A1: Spectrum Management and Telecommunications Radio Standards Specification March 2019 General Requirem ents and Information for the Certification of Radiocommunication Equipment ISED Innovation, Science and Economic Development Canada Spectrum Management and Telecommunications Radio Standards Specification ICES-003 Issue 6: Information Technology Equipment (Including Digital Apparatus) -- Jan 2016 Limits and Methods of Measurement ISED Innovation, Science and Economic Development Canada Spectrum Management and Telecommunications Radio Standards Specification RSS-247 Issue 2: Digital Transmission Systems (DTSs), Frequency Hopping Systems (FHSs) February 2017 and Licensed-Exempt Local Area Network (LE_LAN) Devices FCC KDB OET Major Guidance Publications, Knowledge Data Base 558074 D01v05r02 Guidance for Performing Compliance Measurements on Digital Transmission System s (DTS) Operating Under Section 15.247 ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 10 of 70 Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 6.0 FACILITIES AND ACCREDITATIONS Facility and Accreditation: The facilities used to evaluate this device outlined in this report are located at 21-364 Lougheed Road, Kelowna, British Columbia, Canada V1X 7R8. The radiated em is s ions site (OATS) conform s to the requirements set forth in ANSI C63.4 and is filed and listed with the FCC under Test Firm Registration Number CA3874 and Innovation, Science and Economic Development Canada under Test Site File Number ISED 3874A. Celltech is accredited to ISO 17025, through accrediting body A2LA and with certificate 2470.01. ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 11 of 70 Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 7.0 OCCUPIED BANDWIDTH Test Procedure Normative Reference FCC 47 CFR §2.1046, §15.247(b)(3), RSS-Gen (6.1.2), RSS-247 (5.4)(d), KDB 558074 (8.3.2.1), ANSI C63.10 (6.9.3) General Procedure KDB 558074 (8.3.2.1) 8.3.2.1 General Section 15.247 permits the maximum conducted (average) output power to be measured as an alternative to the maximum peak conducted output power for demonstrating compliance to the limit. When this option is exercised, the measured power is to be referenced to the OBW rather than the DTS bandwidth. C63.10 (6.9.3) 6.9.3 Occupied bandwidth--power bandwidth (99%) measurement procedure The occupied bandwidth is the frequency bandwidth such that, below its lower and above its upper frequency limits, the mean powers are each equal to 0.5% of the total mean power of the given emission. The following procedure shall be used for measuring 99% power bandwidth: a) The instrument center frequency is set to the nominal EUT channel center frequency. The frequency span for the spectrum analyzer shall be between 1.5 times and 5.0 times the OBW. b) The nominal IF filter bandwidth (3 dB RBW) shall be in the range of 1% to 5% of the OBW, and VBW shall be approximately three times the RBW, unless otherwise specified by the applicable requirement. c) Set the reference level of the instrument as required, keeping the signal from exceeding the maximum input mixer level for linear operation. In general, the peak of the spectral envelope shall be more than [10 log (OBW/RBW)] below the reference level. Specific guidance is given in 4.1.5.2. d) Step a) through step c) might require iteration to adjust within the specified range. e) Video averaging is not permitted. Where practical, a sample detection and single sweep mode shall be used. Otherwise, peak detection and max hold mode (until the trace stabilizes) shall be used. f) Use the 99% power bandwidth function of the instrument (if available) and report the measured bandwidth. Test Setup Appendix A - Figure A.1 Measurement Procedure The DUT was connected to a Spectrum Analyzer (SA) via a 30dB attenuator connected to the DUT's antenna port. The SA was configured as described above using the 99% Occupied Bandwidth function. The output power of the DUT was set to the manufacturer's highest output power setting at the Low, Mid and High frequency channels as permitted by the device. The DUT was set to transmit at its maximum Duty Cycle. The 99% Occupied Bandwidth was measured and recorded and used for the basis for measuring the Conducted Output Power. ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 12 of 70 Plot 7.1 Occupied Bandwidth, 906MHz Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 Occupied Bandwidth: Ref 40 dBm 40 Offset 30 dB * Att 20 dB 30 1 PK VIEW 20 10 0 Width 5.35" D1 1.85 dBm 1 * RBW 10 kHz VBW 30 kHz SWT 20 ms Delta 2 [T1 ] 0.88 dB 902.000000000 kHz Marker 1 [T1 ] * 0.51 dBm 905.548000000 MHz A LVL TDF 2 -10 -20 3DB -30 -40 -50 -60 Center 906 MHz 200 kHz/ Span 2 MHz Date: 5.NOV.2022 11:07:41 Channel Frequency (MHz) 906 DUT Modulation BPSK-40 Occupied Bandwidth (kHz) 902.0 ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 13 of 70 Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 Plot 7.2 Occupied Bandwidth, 914MHz Occupied Bandwidth: Ref 40 dBm 40 Offset 30 dB * Att 20 dB 30 1 PK VIEW 20 10 0 Width 5.35" T1 -10 -20 * RBW 10 kHz VBW 30 kHz SWT 20 ms Marker 1 [T1 ] -18.94 dBm 915.000000000 MHz OBW992.000000000 kHz Temp 1 [T1 OBW] 3.67 dBm A 913.560000000 MHz Temp 2 [T1 OBW] -9.32 dBm LVL 914.552000000 MHz TDF T2 13DB -30 -40 -50 -60 Center 914 MHz 200 kHz/ Span 2 MHz Date: 5.NOV.2022 11:03:35 Channe l Fr e que ncy (M Hz) 914 DUT M odulation BPSK-40 Occupie d Bandw idth (kHz) 992.0 ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 14 of 70 Plot 7.3 Occupied Bandwidth, 924MHz Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 Occupied Bandwidth: Ref 40 dBm 40 Offset 30 dB * Att 20 dB 30 1 PK VIEW 20 10 0 Width 5.35" T1 * RBW 10 kHz VBW 30 kHz SWT 20 ms Marker 1 [T1 ] -24.93 dBm 923.000000000 MHz OBW888.000000000 kHz Temp 1 [T1 OBW] 1.77 dBm A 923.564000000 MHz Temp 2 [T1 OBW] -1.61 dBm LVL 924.452000000 MHz TDF T2 -10 -20 1 -30 3DB -40 -50 -60 Center 924 MHz 200 kHz/ Span 2 MHz Date: 5.NOV.2022 11:04:56 Channel Frequency (MHz) 924 DUT Modulation BPSK-40 Occupied Bandwidth (kHz) 888.0 ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 15 of 70 Table 7.1 Summary of Occupied Bandwidth Measurements Occupied Bandwidth Results: Channel Measured Occupied Frequency Modulation Bandwidth (MHz) (kHz) 906.0 914.0 924.0 BPSK-40 902.0 992.0 888.0 Emission Designator 902KG1D 992KG1D 888KG1D Complies Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 16 of 70 Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 8.0 DTS BANDWIDTH Test Procedure Normative Reference FCC 47 CFR §2.1049, §15.247(a)(2), RSS-Gen (6.7), RSS-247 (5.2)(a), KDB 558074 (8.2), ANSI C63.10 (11.8.2) Limits 47 CFR §15.247(a)(2) (a) Operation under the provisions of this Section is limited to frequency hopping and digitally modulated intentional radiators that comply with the following provisions: RSS-247 (5.2)(a) (2) Systems using digital modulation techniques may operate in the 902-928 MHz, 24002483.5 MHz, and 5725-5850 MHz bands. The minimum 6 dB bandwidth shall be at least 500 kHz. 5.2 Digital transmission systems DTSs include systems that employ digital modulation techniques resulting in spectral characteristics similar to direct sequence systems. The following applies to the bands 902928 MHz and 2400 - 2483.5 MHz: a) The minimum 6 dB bandwidth shall be 500 kHz. General Procedure KDB 558074 (8.2) C63.10 (11.8.2) 11.8.2 Option 2 The automatic bandwidth measurement capability of an instrument may be employed using the X dB bandwidth mode with X set to 6 dB, if the functionality described above (i.e., RBW = 100 kHz, VBW 3 X RBW, peak detector with maximum hold) is implemented by the instrumentation function. When using this capability, care shall be taken so that the bandwidth measurement is not influenced by any intermediate power nulls in the fundamental emission that might be 6 dB. Test Setup Appendix A - Figure A.1 Measurement Procedure The DUT was connected to a Spectrum Analyzer (SA) via a 30dB attenuator connected to the DUT's antenna port. The SA was configured as above using the Automatic 6dB Cursor Bandwidth measurement. The output power of the DUT was set to the manufacturer's highest output power setting at the Low, Mid and High frequency channels as permitted by the device. The DUT was set to transmit at its maximum Duty Cycle. ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 17 of 70 Plot 8.1 DTS Bandwidth, 906MHz Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 6dB (DTS) Bandwidth Ref 40 dBm 40 Offset 30 dB * Att 20 dB 30 1 PK VIEW 20 10 T1 Width 5.35" * RBW 100 kHz VBW 300 kHz SWT 5 ms Marker 1 [T1 ] 25.06 dBm 906.006000000 MHz ndB [T1] 6.00 dB BW 694.000000000 kHz Temp 1 [T1 ndB] A 1 19.00 dBm T2 905.646000000 MHz Temp 2 [T1 ndB] LVL 19.14 dBm 906.340000000 MHz TDF 0 -10 -20 3DB -30 -40 -50 -60 Center 906 MHz 200 kHz/ Span 2 MHz Date: 5.NOV.2022 11:13:32 Channel Frequency (MHz) 906 DUT Modulation BPSK-40 DTS Bandwidth (kHz) 694.0 ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 18 of 70 Plot 8.2 DTS Bandwidth, 914MHz Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 6dB (DTS) Bandwidth Ref 40 dBm 40 Offset 30 dB * Att 20 dB 30 1 PK VIEW 20 10 T1 Width 5.35" * RBW 100 kHz VBW 300 kHz SWT 5 ms Marker 1 [T1 ] 24.80 dBm 914.004000000 MHz ndB [T1] 6.00 dB BW 692.000000000 kHz Temp 1 [T1 ndB] A 1 18.80 dBm T2 913.648000000 MHz Temp 2 [T1 ndB] LVL 18.83 dBm 914.340000000 MHz TDF 0 -10 -20 3DB -30 -40 -50 -60 Center 914 MHz 200 kHz/ Span 2 MHz Date: 5.NOV.2022 11:12:05 Channel Frequency (MHz) 914 DUT Modulation BPSK-40 DTS Bandwidth (kHz) 692.0 ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 19 of 70 Plot 8.3 DTS Bandwidth, 924MHz Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 6dB (DTS) Bandwidth Ref 40 dBm 40 Offset 30 dB * Att 20 dB 30 1 PK VIEW 20 10 T1 Width 5.35" * RBW 100 kHz VBW 300 kHz SWT 5 ms Marker 1 [T1 ] 24.43 dBm 924.004000000 MHz ndB [T1] 6.00 dB BW 690.000000000 kHz Temp 1 [T1 ndB] A 1 18.35 dBm T2 923.652000000 MHz Temp 2 [T1 ndB] LVL 18.38 dBm 924.342000000 MHz TDF 0 -10 -20 3DB -30 -40 -50 -60 Center 924 MHz 200 kHz/ Span 2 MHz Date: 5.NOV.2022 11:12:45 Channel Frequency (MHz) 924 DUT Modulation BPSK-40 DTS Bandwidth (kHz) 690.0 ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 20 of 70 Table 8.1 Summary of DTS Bandwidth Measurements DTS Bandwidth Results: Channel Measured DTS Frequency Modulation Bandwidth (MHz) (kHz) 906.0 914.0 924.0 BPSK-40 694.0 692.0 690.0 Minimun Limit (kHz) 500.0 Margin (Hz) 49.0 42.0 45.0 Complies Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 21 of 70 Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 9.0 CONDUCTED CHANNEL POWER Test Procedure Normative Reference FCC 47 CFR §2.1046, §15.247(b)(3), RSS-Gen (6.1.2), RSS-247 (5.4)(d), KDB 558074 (8.3.2), ANSI C63.10 (11.9.2.2.2) Limits 47 CFR §15.247(b)(3) (b) The maximum peak conducted output power of the intentional radiator shall not exceed the following: (3) For systems using digital modulation in the 902-928 MHz, 2400-2483.5 MHz, and 57255850 MHz bands: 1 Watt. As an alternative to a peak power measurement, compliance with the one Watt limit can be based on a measurement of the maximum conducted output power. RSS-247 (5.4)(d) 5.4 Transmitter output power and equivalent isotropically radiated power (e.i.r.p.) rDeeqviuciersemsheanlltscomply with the following requirements, where applicable: d) For DTSs employing digital modulation techniques operating in the bands 902-928 MHz and 2400-2483.5 MHz, the maximum peak conducted output power shall not exceed 1W. The e.i.r.p. shall not exceed 4 W, except as provided in section 5.4(e). As an alternative to a peak power measurement, compliance can be based on a measurement of the maximum conducted output power. ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 22 of 70 Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 General Procedure KDB 558074 (8.3.2.1) 8.3.2.1 General Section 15.247 permits the maximum conducted (average) output power to be measured as an alternative to the maximum peak conducted output power for demonstrating compliance to the limit. When this option is exercised, the measured power is to be referenced to the OBW rather than the DTS bandwidth. C63.10 (11.9.2.2.2) Method AVGSA-1 (trace averaging with the EUT transmitting at full power throughout each saw) Seeept )span to at least 1.5 X OBW. b) Set RBW = 1 % to 5 % of the OBW, not to exceed 1 MHz. c) Set VBW 3 X RBW. d) Number of points in sweep 2 X span / RBW. e) Sweep time = auto. f) Detector = RMS g) If the EUT transmits continuously (i.e., with no off intervals) or at duty cycle 98 %, and if each transmission is entirely at the maximum power control level, then the trigger shall be set to "free run". h) Trace average at least 100 traces in power averaging i) Compute power by integrating the spectrum across the OBW of the signal using the instrument's band power measurement function, with band limits set equal to the OBW band edges. Test Setup Appendix A - Figure A.1 Measurement Procedure The DUT was connected to a Spectrum Analyzer (SA) via a 30dB attenuator connected to the DUT's antenna port. The SA was configured as described above. Number of Sweep Points 2 X Span / RBW = 2 X (1.2MHz / 3kHz ) = 800, the SA was configured for 1001 Points. The output power of the DUT was set to the manufacturer's highest output power setting at the Low, Mid and High frequency channels as permitted by the device. The DUT was set to transmit at 100% Duty Cycle. The Channel Bandwidth was set to the measured 99% Occupied Bandwidth (See Section 9.0). The Band Channel Power was measured and recorded. ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 23 of 70 Plot 9.1 Conducted Channel Power, 906 MHz Conducted Channel Power: Ref 40 dBm * Att Offset 30 dB 30 20 10 1 RM * VIEW 0 -10 SWP -20 100 oWf idth1050 .35" -30 -40 -50 20 dB * RBW 30 kHz VBW 300 kHz SWT 105 ms Center 906 MHz Tx Channel Bandwidth 100 kHz/ 992 kHz Power Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 Marker 1 [T1 ] -4.25 dBm 906.500000000 MHz A GAT 1TRG LVL TDF 3DB Span 1 MHz 25.64 dBm Date: 5.NOV.2022 11:20:49 Channel Frequency (MHz) 906 Modulation BPSK-40 Channel Power (dBm) 25.64 ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 24 of 70 Plot 9.2 Conducted Channel Power, 914 MHz Conducted Channel Power: Ref 40 dBm * Att Offset 30 dB 30 20 10 1 RM * VIEW 0 1 -10 -20 SWP 100 oWf idth1050 .35" -30 -40 -50 20 dB * RBW 30 kHz VBW 300 kHz SWT 105 ms Center 914 MHz Tx Channel Bandwidth 100 kHz/ 992 kHz Power Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 Marker 1 [T1 ] -12.21 dBm 913.500000000 MHz A GAT TRG LVL TDF 3DB Span 1 MHz 25.28 dBm Date: 5.NOV.2022 11:21:47 Channel Frequency (MHz) 914 Modulation BPSK-40 Channel Power (dBm) 25.28 ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 25 of 70 Plot 9.3 Conducted Channel Power, 924 MHz Conducted Channel Power: Ref 40 dBm * Att Offset 30 dB 30 20 10 1 RM * VIEW 0 1 -10 SWP -20 100 oWf idth1050 .35" -30 -40 -50 20 dB * RBW 30 kHz VBW 300 kHz SWT 105 ms Center 924 MHz Tx Channel Bandwidth 100 kHz/ 992 kHz Power Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 Marker 1 [T1 ] -14.96 dBm 923.500000000 MHz A GAT TRG LVL TDF 3DB Span 1 MHz 24.82 dBm Date: 5.NOV.2022 11:19:30 Channel Frequency (MHz) 924 Modulation BPSK-40 Channel Power (dBm) 24.82 ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 26 of 70 Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 Table 9.1 Summary of Conducted Channel Power Measurements §15.247(b)(3), RSS-247 (5.4)(d) Channel Output Power (RMS) Measured Measured Frequency (MHz) 906.0 BW (kHz) Modulation Power Setting(1) (dBm) Power [EMeas] (dBm) 25.64 Power [EMeas] (W) 0.37 914.0 549 BPSK-40 Max 25.28 0.34 924.0 24.82 0.30 (1) The output power is factory set to maximum Margin = 10*Log(Limit / Emeas) Limit Margin (W) 1.0 Results: (dB) 4.4 4.7 5.2 Complies RSS-247 (5.4)(d) Channel EIRP (RMS) Measured Frequency (MHz) BW (kHz) Modulation Power Setting(1) (dBm) Power [EMeas] (dBm) 906.0 25.64 914.0 549 BPSK-40 Max 25.28 924.0 24.82 Antenna Gain(2) [GT] (dBi) 1.59 EIRP (dBm) = EMeas + GT + LC Margin = Limit - EIRP in dB (1) The output power is factory set to maximum (2) Maximum permissible gain Cable Loss [LC] (dB) 0.5 EIRP EIRP Limit Margin (dBm) (W) 27.73 0.59 27.37 0.55 26.91 0.49 Results: (W) (dB) 8.3 4.0 8.7 9.1 Complies ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 27 of 70 Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 10.0 POWER SPECTRAL DENSITY Test Procedure Normative Reference FCC 47 CFR §15.247(e), RSS-247 (5.2)(b), KDB 558074 (8.4), ANSI C63.10 (11.10.3) Limits 47 CFR §15.247(e) RSS-247 (5.2)(b) (e) For digitally modulated systems, the power spectral density conducted from the intentional radiator to the antenna shall not be greater than 8 dBm in any 3 kHz band during any time interval of continuous transmission. This power spectral density shall be determined in accordance with the provisions of paragraph (b) of this section. The same method of determining the conducted output power shall be used to determine the power spectral density. b) The transmitter power spectral density conducted from the transmitter to the antenna shall not be greater than 8 dBm in any 3 kHz band during any time interval of continuous transmission. This power spectral density shall be determined in accordance with the provisions of section 5.4(d), (i.e. the power spectral density shall be determined using the same method as is used to determine the conducted output power). General Procedure C63.10 (11.10.3) Method AVGPSD-1 (trace averaging with EUT transmitting at full power throughout each sTwhieseppr)ocedure may be used when the maximum (average) conducted output power was used to demonstrate compliance to the output power limit. This is the baseline method for determining the maximum (average) conducted PSD level. If the instrument has an RMS power averaging detector, it must be used; otherwise, use the sample detector. The EUT must be configured to transmit continuously (duty cycle 98 %); otherwise sweep triggering/signal gating must be implemented to ensure that measurements are made only when the EUT is transmitting at its maximum power control level (no transmitter off time is to be considered). a) Set instrument center frequency to DTS channel center frequency. b) Set span to at least 1.5 X OBW. c) Set RBW to: 3 kHz RBW 100 kHz. d) Set VBW 3 X RBW. e) Detector = RMS f) Ensure that the number of measurement points in the sweep 2 X span/RBW. g) Sweep time = auto couple. h) Employ trace averaging (RMS) mode over a minimum of 100 traces. i) Use the peak marker function to determine the maximum amplitude level. j) If measured value exceeds limit, reduce RBW (no less than 3 kHz) and repeat (note that this may require zooming in on the emission of interest and reducing the span in order to meet the minimum measurement point requirement as the RBW is reduced). Test Setup Appendix A - Figure A.1 Measurement Procedure The DUT was connected to a Spectrum Analyzer (SA) via a 30dB attenuator connected to the DUT's antenna port. The SA was configured as described above. Number of Sweep Points 2 X Span / RBW = 2 X (1.5MHz / 3kHz ) = 1000, the SA was configured for 1001 Points. The output power of the DUT was set to the manufacturer's highest output power setting at the Low, Mid and High frequency channels as permitted by the device. The DUT was set to transmit at 100% Duty Cycle. The Power Spectral Density was measured and recorded. ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 28 of 70 Plot 10.1 Power Spectral Density, 906MHz Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 Power Spectal Density: Ref 40 dBm 40 Offset 30 dB * Att 20 dB 30 1 RM * VIEW 20 10 Width 5.35" 1 0 * RBW 3 kHz VBW 30 kHz SWT 225 ms Marker 1 [T1 ] 5.56 dBm 905.840000000 MHz A LVL TDF -10 SWP -20 100 of 100 3DB -30 -40 -50 -60 Center 906 MHz 200 kHz/ Span 2 MHz Date: 5.NOV.2022 11:27:39 Channel Frequency (MHz) 906 Modulation BPSK-40 Measured PSD (dBm) 5.56 ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 29 of 70 Plot 10.2 Power Spectral Density, 914MHz Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 Power Spectal Density: Ref 40 dBm 40 Offset 30 dB * Att 20 dB 30 1 RM * VIEW 20 10 Width 5.35" 1 0 * RBW 3 kHz VBW 30 kHz SWT 225 ms Marker 1 [T1 ] 4.83 dBm 913.836000000 MHz A LVL TDF -10 SWP -20 100 of 100 3DB -30 -40 -50 -60 Center 914 MHz 200 kHz/ Span 2 MHz Date: 5.NOV.2022 11:25:06 Channel Frequency (MHz) 914 Modulation BPSK-40 Measured PSD (dBm) 4.83 ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 30 of 70 Plot 10.3 Power Spectral Density, 924MHz Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 Power Spectal Density: Ref 40 dBm 40 Offset 30 dB * Att 20 dB 30 1 RM * VIEW 20 10 0 Width 5.35" 1 * RBW 3 kHz VBW 30 kHz SWT 225 ms Marker 1 [T1 ] 4.41 dBm 923.838000000 MHz A LVL TDF -10 SWP -20 100 of 100 3DB -30 -40 -50 -60 Center 924 MHz 200 kHz/ Span 2 MHz Date: 5.NOV.2022 11:26:30 Channel Frequency (MHz) 924 Modulation BPSK-40 Measured PSD (dBm) 4.41 ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 31 of 70 Table 10.1 Summary of Power Spectral Density Measurements Power Spectral Density Measurement Results: DTS Measured PSD Conducted Frequency Modulation PSD [PMeas] Limit [PLim] Margin (MHz) (dBm) (dBm) (dB) 906.0 914.0 924.0 BPSK-40 5.56 4.83 4.41 Result: 8 2.4 8 3.2 8 3.6 Complies Margin = PSD Limit [PLimit] - Measured PSD [PMeas] Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 32 of 70 Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 11.0 CONDUCTED SPURIOUS EMISSIONS BAND EDGE Test Procedure Normative Reference Limits 47 CFR §15.247(d) RSS-247 (5.5) FCC 47 CFR §2.1051, §15.247(d), RSS-Gen (6.13), RSS-247 (5.5), KDB 558074 (8.7), ANSI C63.10 (11.13.3.3) (d) In any 100 kHz bandwidth outside the frequency band in which the spread spectrum or digitally modulated intentional radiator is operating, the radio frequency power that is produced by the intentional radiator shall be at least 20 dB below that in the 100 kHz bandwidth within the band that contains the highest level of the desired power, based on either an RF conducted or a radiated measurement, provided the transmitter demonstrates compliance with the peak conducted power limits. If the transmitter complies with the conducted power limits based on the use of RMS averaging over a time interval, as permitted under paragraph (b)(3) of this section, the attenuation required under this paragraph shall be 30 dB instead of 20 dB. Attenuation below the general limits specified in §15.209(a) is not required. 5.5 Unwanted emissions In any 100 kHz bandwidth outside the frequency band in which the spread spectrum or digitally modulated device is operating, the RF power that is produced shall be at least 20 dB below that in the 100 kHz bandwidth within the band that contains the highest level of the desired power, based on either an RF conducted or a radiated measurement, provided that the transmitter demonstrates compliance with the peak conducted power limits. If the transmitter complies with the conducted power limits based on the use of root-mean-square averaging over a time interval, as permitted under section 5.4(d), the attenuation required shall be 30 dB instead of 20 dB. Attenuation below the general field strength limits specified in RSS-Gen is not required. d) For DTSs employing digital modulation techniques operating in the bands 902-928 MHz and 2400-2483.5 MHz, the maximum peak conducted output power shall not exceed 1W. The e.i.r.p. shall not exceed 4 W, except as provided in section 5.4(e). As an alternative to a peak power measurement, compliance can be based on a measurement of the maximum conducted output power. ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 33 of 70 Plot 11.1 Spurious Emission Measurement, Lower Band Edge Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 Band Edge: Lower Ref 40 dBm 40 Offset 30 dB * Att 20 dB 30 1 RM * VIEW 20 10 Width 5.35" * RBW 100 kHz VBW 1 MHz SWT 5 ms Marker 1 [T1 ] -39.11 dBm 902.000000000 MHz A LVL TDF 0 D1 -4.36 dBm -10 SWP -20 100 of 100 3DB -30 1 -40 -50 -60 Start 897 MHz F1 1 MHz/ Stop 907 MHz Date: 5.NOV.2022 11:48:34 Channel Frequency (MHz) 906 Modulation BPSK-40 Fund. Power (dBm) 23.56 Emission Frequency (MHz) 902.00 Measured Emission (dBm) -39.11 ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 34 of 70 Plot 11.2 Spurious Emission Measurement, Upper Band Edge Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 Band Edge: Lower Ref 40 dBm 40 Offset 30 dB * Att 20 dB 30 1 RM * VIEW 20 10 Width 5.35" * RBW 100 kHz VBW 1 MHz SWT 5 ms Marker 1 [T1 ] -39.50 dBm 928.000000000 MHz A LVL TDF 0 D1 -4.72 dBm -10 SWP 100 of 100 -20 3DB -30 1 -40 -50 -60 Start 923 MHz F1 1 MHz/ Stop 933 MHz Date: 5.NOV.2022 11:50:03 Channel Frequency (MHz) 924 Modulation BOSK-40 Fund. Power (dBm) 23.99 Emission Frequency (MHz) 928.00 Measured Emission (dBm) -39.50 ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 35 of 70 Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 Table 11.1 Summary of Conducted Spurious Emissions (Band Edge) Measurements Unwanted Emissons Measurement Results: Band Edge Frequency Modulation Fundamental Power [PFund] Emission Measured Emission Frequency [PMeas] Attenuation Limit [Att] Margin (MHz) (dBm) (MHz) (dBm) (dBm) (dB) (dB) 906.0 924.0 BPSK-40 25.64 24.82 902.0 928.0 -39.11 -39.50 64.75 64.32 30.0 34.8 34.3 Result: Complies Attenuation [Att] = Fundamental Power [PFund] - Measured Emission [PMeas] Margin = Attenuation [Att] - Limit ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 36 of 70 Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 12.0 CONDUCTED SPURIOUS EMISSIONS Test Procedure Normative Reference Limits 47 CFR §15.247(d) RSS-247 (5.5) FCC 47 CFR §2.1051, §15.247(d), RSS-Gen (6.13), RSS-247 (5.5), KDB 558074 (8.7), ANSI C63.10 (11.13.3.3) (d) In any 100 kHz bandwidth outside the frequency band in which the spread spectrum or digitally modulated intentional radiator is operating, the radio frequency power that is produced by the intentional radiator shall be at least 20 dB below that in the 100 kHz bandwidth within the band that contains the highest level of the desired power, based on either an RF conducted or a radiated measurement, provided the transmitter demonstrates compliance with the peak conducted power limits. If the transmitter complies with the conducted power limits based on the use of RMS averaging over a time interval, as permitted under paragraph (b)(3) of this section, the attenuation required under this paragraph shall be 30 dB instead of 20 dB. Attenuation below the general limits specified in §15.209(a) is not required. 5.5 Unwanted emissions In any 100 kHz bandwidth outside the frequency band in which the spread spectrum or digitally modulated device is operating, the RF power that is produced shall be at least 20 dB below that in the 100 kHz bandwidth within the band that contains the highest level of the desired power, based on either an RF conducted or a radiated measurement, provided that the transmitter demonstrates compliance with the peak conducted power limits. If the transmitter complies with the conducted power limits based on the use of root-mean-square averaging over a time interval, as permitted under section 5.4(d), the attenuation required shall be 30 dB instead of 20 dB. Attenuation below the general field strength limits specified in RSS-Gen is not required. d) For DTSs employing digital modulation techniques operating in the bands 902-928 MHz and 2400-2483.5 MHz, the maximum peak conducted output power shall not exceed 1W. The e.i.r.p. shall not exceed 4 W, except as provided in section 5.4(e). As an alternative to a peak power measurement, compliance can be based on a measurement of the maximum conducted output power. ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 37 of 70 Plot 12.1 Conducted Spurious Emissions, 928 1000MHz Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 Conducted Spurious Emissions: Ref 40 dBm 40 Offset 30 dB * Att 20 dB 30 1 RM * VIEW 20 10 Width 5.35" * RBW 100 kHz VBW 1 MHz SWT 10 ms Marker 1 [T1 ] -29.46 dBm 956.584000000 MHz * A LVL TDF 0 -10 D1 -4.78 dBm -20 1 -30 3DB -40 -50 -60 Start 928 MHz 7.2 MHz/ Stop 1 GHz Date: 5.NOV.2022 11:53:49 Channel Frequency (MHz) 914 Emission Frequency (MHz) 956.00 Measured Emission (dBm) -29.46 ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 38 of 70 Plot 12.2 Conducted Spurious Emissions, 1000 3000MHz Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 Conducted Spurious Emissions: Ref 40 dBm 40 Offset 30 dB * Att 20 dB 30 1 RM * VIEW 20 10 Width 5.35" * RBW 1 MHz VBW 10 MHz SWT 10 ms Marker 1 [T1 ] -26.99 dBm 1.828000000 GHz A LVL TDF 0 -10 D1 -4.78 dBm -20 1 -30 3DB -40 -50 -60 Start 1 GHz 200 MHz/ Stop 3 GHz Date: 5.NOV.2022 11:54:21 Channel Frequency (MHz) 914 Emission Frequency (MHz) 1828.00 Measured Emission (dBm) - ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 39 of 70 Plot 12.3 Conducted Spurious Emissions, 1848MHz Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 Conducted Spurious Emissions: Ref 40 dBm 40 Offset 30 dB * Att 20 dB 30 1 RM * VIEW 20 10 Width 5.35" * RBW 1 MHz VBW 10 MHz SWT 5 ms Marker 1 [T1 ] -23.84 dBm 1.828140000 GHz A LVL TDF 0 -10 D1 -4.78 dBm -20 1 -30 3DB -40 -50 -60 Center 1.828 GHz 2 MHz/ Span 20 MHz Date: 5.NOV.2022 11:54:46 Channel Frequency (MHz) 914 Emission Frequency (MHz) 1828.00 Measured Emission (dBm) -23.84 ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 40 of 70 Plot 12.4 Conducted Spurious Emissions, 3 10GHz Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 Conducted Spurious Emissions: Ref 40 dBm 40 Offset 30 dB * Att 20 dB 30 1 RM * VIEW 20 10 Width 5.35" * RBW 1 MHz VBW 10 MHz SWT 140 ms Marker 1 [T1 ] -33.19 dBm 3.070000000 GHz A LVL TDF 0 -10 D1 -4.78 dBm -20 3DB 1-30 -40 -50 -60 Start 3 GHz 700 MHz/ Stop 10 GHz Date: 5.NOV.2022 11:55:06 Channel Frequency (MHz) 914 Emission Frequency (MHz) 3070.00 Measured Emission (dBm) -33.19 ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 41 of 70 Table 12.1 Summary of Conducted Spurious Emissions Measurements Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 Conducted Spurious Emissons Measurement Results: Fundamental Frequency Fundamental Power [PFund] Emission Measured Attenuation Emission Limit Frequency [PMeas] [Att] Margin (MHz) (dBm) (MHz) (dBm) (dBm) (dB) (dB) 914.0 25.28 956.0 1828.0 3070.0 -29.46 -23.84 -33.19 54.74 49.12 58.47 24.7 30.0 19.1 28.5 Complies Attenuation [Att] = Fundamental Power [PFund] - Measured Emission [PMeas] Margin = Attenuation [Att] - Limit ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 42 of 70 Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 13.0 RADIATED TX EMISSIONS RESTRICTED BAND Test Procedure FCC 47 CFR §2.1051, §15.247(d), §15.205(a), §15.205(c ), §15.209(a) Normative Reference KDB 558074 (8.6), ANSI C63.10 (11.12) Limits 47 CFR §15.247(d) 47 CFR §15.209(a) (d) In any 100 kHz bandwidth outside the frequency band in which the spread spectrum or digitally modulated intentional radiator is operating, the radio frequency power that is produced by the intentional radiator shall be at least 20 dB below that in the 100 kHz bandwidth within the band that contains the highest level of the desired power, based on either an RF conducted or a radiated measurement, provided the transmitter demonstrates compliance with the peak conducted power limits. If the transmitter complies with the conducted power limits based on the use of RMS averaging over a time interval, as permitted under paragraph (b)(3) of this section, the attenuation required under this paragraph shall be 30 dB instead of 20 dB. Attenuation below the general limits specified in §15.209(a) is not required. In addition, radiated emissions which fall in the restricted bands, as defined in §15.205(a), must also comply with the radiated emission limits specified in §15.209(a) (see §15.205(c)). §15.209 Radiated emission limits; general requirements. (a) Except as provided elsewhere in this subpart, the emissions from an intentional radiator shall not exceed the field strength levels specified in the following table: Frequency (MHz) 0.009 - 0.490 0.490 - 1.705 1.705 - 30 30 - 88 88 - 216 216 - 960 Above 960 Field Strength (microvolts/meter) 2400/F (kHz) @300m 24000/F (kHz) @30m 30 @ 30m 100 @3m 150 @3m 200 @3m 500 @3m ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 43 of 70 Plot 13.1 Radiated Tx Emissions, 9kHz to 30MHz, Front Radiated Tx Emissions: Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 Radiated Tx Emissions (9kHz - 30MHz) OATS Front FCC §15.209, ISED RSS-Gen 8.9 120 DUT 100 80 Amplitude (dBuV) 60 40 20 0 0.001 0.010 0.100 1.000 Frequency (MHz) 10.000 100.000 ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 44 of 70 Plot 13.2 Radiated Tx Emissions, 9kHz to 30MHz, Side Radiated Tx Emissions: Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 Radiated Tx Emissions (9kHz - 30MHz) OATS Side FCC §15.209, ISED RSS-Gen 8.9 120 DUT 100 80 Amplitude (dBuV) 60 40 20 0 0.001 0.010 0.100 1.000 Frequency (MHz) 10.000 100.000 ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 45 of 70 Plot 13.3 Radiated Tx Emissions, 30 to 1000MHz, Horizontal Radiated Tx Emissions: Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 Radiated Tx Emissions (30MHz - 1GHz) OATS Horizontal CISPR A Limit 1 100 RE Tx 80 Amplitude (dBuV) 60 40 20 0 10 Marker 1 = Fundamental 100 Frequency (MHz) 1000 ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 46 of 70 Plot 13.4 Radiated Tx Emissions, 30 to 1000MHz, Vertical Radiated Tx Emissions: Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 Radiated Tx Emissions (30MHz - 1GHz) OATS Vertical CISPR A Limit 1 100 RE Tx 80 Amplitude (dBuV) 60 40 20 0 10 Marker 1 = Fundamental 100 Frequency (MHz) 1000 ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 47 of 70 Plot 13.5 Radiated Tx Emissions, 1 to 3GHz, Horizontal Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 Radiated Tx Emissions: Ref 87 dBµV * Att 0 dB * RBW 1 MHz VBW 10 MHz SWT 10 ms Marker 1 [T2 ] 20.54 dBµV 1.828000000 GHz 80 A 1 RM * 70 VIEW 2 RM * 60 VIEW Width 5.35" TDF 50 40 30 1 20 3DB 10 0 -10 Start 1 GHz 200 MHz/ Stop 3 GHz Date: 3.NOV.2022 14:35:42 Polarity: Horizontal Trace 1: Ambient Trace 2: Ambient + DUT ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 48 of 70 Plot 13.6 Radiated Tx Emissions, 1 to 3GHz, Vertical Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 Radiated Tx Emissions: Ref 87 dBµV * Att 0 dB 80 1 RM * 70 VIEW 2 RM * 60 VIEW 50 Width 5.35" * RBW 1 MHz VBW 10 MHz SWT 10 ms Marker 2 [T2 ] 27.58 dBµV 2.744000000 GHz Marker 1 [T2 ] 29.16 dBµV 1.828000000 GHz A TDF 40 1 30 2 3DB 20 10 0 -10 Start 1 GHz 200 MHz/ Stop 3 GHz Date: 3.NOV.2022 14:42:30 Polarity: Vertical Trace 1: Ambient Trace 2: Ambient + DUT ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 49 of 70 Plot 13.7 Radiated Tx Emissions, 3 to 10GHz, Horizontal Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 Radiated Tx Emissions: Ref 87 dBµV * Att 0 dB * RBW 1 MHz VBW 10 MHz SWT 140 ms Marker 1 [T1 ] 25.02 dBµV 3.588000000 GHz 80 A 1 RM * 70 VIEW Width 5.35" 60 TDF 50 40 30 1 20 3DB 10 0 -10 Start 3 GHz 700 MHz/ Stop 10 GHz Date: 3.NOV.2022 14:36:43 Polarity: Horizontal ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 50 of 70 Plot 13.8 Radiated Tx Emissions, 3 to 10GHz, Vertical Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 Radiated Tx Emissions: Ref 87 dBµV * Att 0 dB * RBW 1 MHz VBW 10 MHz SWT 140 ms Marker 1 [T1 ] 23.31 dBµV 3.588000000 GHz 80 A 1 RM * 70 VIEW Width 5.35" 60 TDF 50 40 30 1 20 3DB 10 0 -10 Start 3 GHz 700 MHz/ Stop 10 GHz Date: 3.NOV.2022 14:38:28 Polarity: Vertical ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 51 of 70 Plot 13.9 Radiated Tx Emissions, 2nd Harmonic Vertical Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 Radiated Tx Emissions: Ref 87 dBµV * Att 0 dB * RBW 1 MHz VBW 10 MHz SWT 5 ms Marker 1 [T1 ] 32.40 dBµV 1.828000000 GHz 80 A 1 RM * 70 VIEW Width 5.35" 60 TDF 50 40 1 30 3DB 20 10 0 -10 Center 1.828 GHz 2 MHz/ Span 20 MHz Date: 3.NOV.2022 14:44:41 Polarity: Vertical ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 52 of 70 Plot 13.10 Radiated Tx Emissions, 3rd Harmonic Vertical Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 Radiated Tx Emissions: Ref 87 dBµV * Att 0 dB * RBW 1 MHz VBW 10 MHz SWT 5 ms Marker 1 [T1 ] 32.32 dBµV 2.742160000 GHz 80 A 1 RM * 70 VIEW Width 5.35" 60 TDF 50 40 1 30 3DB 20 10 0 -10 Center 2.7419 GHz 2 MHz/ Span 20 MHz Date: 3.NOV.2022 14:45:18 Polarity: Vertical ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 53 of 70 Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 Table 13.1 Summary of Radiated Tx Measurements Summary of Radiated Tx Emissions Measured Frequency Channel Antenna Emission Range Frequency Polarization Frequency (MHz) (MHz) 9kHz - 30MHz Front ND 9kHz - 30MHz Side ND 30-1000MHz Horizontal ND 30-1000MHz Vertical ND 1-3GHz 912.000 Horizontal ND 1-3GHz Vertical 1828 MHz 1-3GHz Vertical 2742 MHz 3-10GHz Horizontal ND 3-10GHz Vertical ND Measured Antenna Cable Amplifier Emission ACF Loss Gain [EMeas] (dBuV) ND (1) [ACF] (dB) 0.00 [LC] (dB) 0.00 [GA] (dB) 0.00 (3) ND (1) 0.00 0.00 0.00 (3) ND (1) 0.00 0.00 0.00 (3) ND (1) 0.00 0.00 0.00 (3) ND (1) 0.00 0.00 0.00 (3) 3.48 26.72 2.20 0.00 (3) 1.16 28.66 2.50 0.00 (3) ND (1) 0.00 0.00 0.00 (3) ND (1) 0.00 0.00 0.00 (3) (1) No Emissions Detected (ND) above ambient or within 20dB of the limit (2) Antenna ACF, Cable Loss and Amplifier Gain corrected in Spectrum Analyzer Transducer Factor (3) External Amplier not used ECorr = EMeas + ACFE + LC - GA Where ACFE is the Electric Antenna Correction Factor Corrected Emission Limit Margin [ECorr] (dBuV/m) (dBuV) (dB) ND (2) n/a n/a ND (2) n/a n/a ND (2) n/a n/a ND (2) n/a n/a ND (2) n/a n/a 32.4 (2) 60.0 27.6 32.3 (2) 60.0 27.7 ND (2) n/a n/a ND (2) n/a n/a Results: Complies ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 54 of 70 Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 14.0 RADIATED RX EMISSIONS Test Procedure FCC 47 CFR §15.109, ICES-003(6.2) Normative Reference ANSI C63.4-2014 Limits 47 CFR §15.109 ICES-003(6.2.1) (b) The field strength of radiated emissions from a Class A digital device, as determined at a distance of 10 meters, shall not exceed the following: 30-88MHz: 39.1dBuV/m 30-88MHz: 49.6dBuV/m @ 3m 88-216MHz: 43.5dBuV/m 88-216MHz: 54.0dBuV/m @ 3m 216-960MHz: 46.4dBuV/m 216-960MHz: 56.9dBuV/m @ 3m > 960MHz: 49.5dBuV/m > 960MHz: 60.0dBuV/m @ 3m 6.2.1 - Radiated Emissions Limits Below 1 GHz Class A: ITE that meets the conditions for Class A operation defined in Section 2.2 shall comply with the Class A radiated limits set out in Table 4 determined at a distance of 10 metres. 30-88MHz: 39.1dBuV/m 30-88MHz: 49.6dBuV/m @ 3m 88-216MHz: 43.5dBuV/m 88-216MHz: 54.0dBuV/m @ 3m 216-960MHz: 46.4dBuV/m 216-960MHz: 56.9dBuV/m @ 3m > 960MHz: 49.5dBuV/m > 960MHz: 60.0dBuV/m @ 3m Test Setup Appendix A Figure A.1 Measurement Procedure The DUT was set up as per ANSI C63.4:2014. Emissions were scanned between 30MHz and 1000MHz. The turntable was rotated 360 degrees and the antenna was elevated to 4m to optimize the measured emissions. ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 55 of 70 Plot 14.1 Radiated Rx Emissions, 9kHz to 30MHz, Front Radiated Rx Emissions: Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 Radiated Rx Emissions (9kHz - 30MHz) OATS Front FCC §15.209, ISED RSS-Gen 8.9 120 DUT 100 80 Amplitude (dBuV) 60 40 20 0 0.001 0.010 0.100 1.000 Frequency (MHz) 10.000 100.000 ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 56 of 70 Plot 14.2 Radiated Rx Emissions, 9kHz to 30MHz, Side Radiated Rx Emissions: Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 Radiated Rx Emissions (9kHz - 30MHz) OATS Side FCC §15.209, ISED RSS-Gen 8.9 120 DUT 100 80 Amplitude (dBuV) 60 40 20 0 0.001 0.010 0.100 1.000 Frequency (MHz) 10.000 100.000 ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 57 of 70 Plot 14.3 Radiated Rx Emissions, 30 to 1000MHz, Horizontal Radiated Rx Emissions: Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 Amplitude (dBuV) Radiated Rx Emissions (30MHz - 1GHz) OATS Horizontal 70 CISPR A Limit RE Rx 60 50 40 30 20 10 0 10 100 Frequency (MHz) 1000 ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 58 of 70 Plot 14.4 Radiated Rx Emissions, 30 to 1000MHz, Vertical Radiated Rx Emissions: Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 Amplitude (dBuV) Radiated Rx Emissions (30MHz - 1GHz) OATS Vertical 70 CISPR A Limit RE Rx 60 50 40 30 20 10 0 10 100 Frequency (MHz) 1000 ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 59 of 70 Plot 14.5 Radiated Rx Emissions, 1 to 3GHz, Horizontal Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 Radiated Rx Emissions: Ref -20 dBm -20 * Att 0 dB -30 1 RM * VIEW -40 2 RM * VIEW -50 Width 5.35" * RBW 1 MHz VBW 10 MHz SWT 10 ms Marker 1 [T1 ] -89.47 dBm 3.000000000 GHz A TDF -60 -70 -80 -90 3DB 1 -100 -110 -120 Start 1 GHz 200 MHz/ Stop 3 GHz Date: 3.NOV.2022 14:26:22 Polarity: Horizontal Trace 1: Ambient Trace 2: Ambient + DUT ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 60 of 70 Plot 14.6 Radiated Rx Emissions, 1 to 3GHz, Vertical Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 Radiated Rx Emissions: Ref -20 dBm -20 * Att 0 dB -30 1 RM * VIEW -40 2 RM * VIEW -50 Width 5.35" * RBW 1 MHz VBW 10 MHz SWT 10 ms Marker 1 [T1 ] -89.01 dBm 3.000000000 GHz A TDF -60 -70 -80 -90 3DB 1 -100 -110 -120 Start 1 GHz 200 MHz/ Stop 3 GHz Date: 3.NOV.2022 14:19:13 Polarity: Vertical Trace 1: Ambient Trace 2: Ambient + DUT ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 61 of 70 Plot 14.7 Radiated Rx Emissions, 3 to 10GHz, Horizontal Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 Radiated Rx Emissions: Ref -20 dBm -20 * Att 0 dB -30 1 RM * VIEW -40 -50 Width 5.35" * RBW 1 MHz VBW 10 MHz SWT 140 ms Marker 1 [T1 ] -80.74 dBm 3.525000000 GHz A TDF -60 -70 1 -80 3DB -90 -100 -110 -120 Start 3 GHz 700 MHz/ Stop 10 GHz Date: 3.NOV.2022 14:25:42 Polarity: Horizontal ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 62 of 70 Plot 14.8 Radiated Rx Emissions, 3 to 10GHz, Vertical Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 Radiated Rx Emissions: Ref -20 dBm -20 * Att 0 dB -30 1 RM * VIEW -40 -50 Width 5.35" * RBW 1 MHz VBW 10 MHz SWT 140 ms Marker 1 [T1 ] -83.33 dBm 8.978000000 GHz A TDF -60 -70 -80 -90 3DB 1 -100 -110 -120 Start 3 GHz 700 MHz/ Stop 10 GHz Date: 3.NOV.2022 14:19:33 Polarity: Vertical ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 63 of 70 Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 Table 14.1 Summary of Radiated Rx Measurements Summary of Radiated Rx Emissions Measured Frequency Channel Antenna Emission Range Frequency Polarization Frequency (MHz) (MHz) 9kHz - 30MHz - Front ND 9kHz - 30MHz - Side ND 30-1000MHz - Horizontal ND 30-1000MHz - Vertical ND 1-3GHz - Horizontal ND 1-3GHz - Vertical ND 3-10GHz - Horizontal ND 3-10GHz - Vertical ND Measured Antenna Cable Amplifier Emission ACF Loss Gain [EMeas] (dBuV) ND (1) [ACF] (dB) 0.00 [LC] (dB) 0.00 [GA] (dB) 0.00 (3) ND (1) 0.00 0.00 0.00 (3) ND (1) 0.00 0.00 0.00 (3) ND (1) 0.00 0.00 0.00 (3) ND (1) 0.00 0.00 0.00 (3) ND (1) 0.00 0.00 0.00 (3) ND (1) 0.00 0.00 0.00 (3) ND (1) 0.00 0.00 0.00 (3) (1) No Emissions Detected (ND) above ambient or within 20dB of the limit (2) Antenna ACF, Cable Loss and Amplifier Gain corrected in Spectrum Analyzer Transducer Factor (3) External Amplier not used ECorr = EMeas + ACFE + LC - GA Where ACFE is the Electric Antenna Correction Factor Corrected Emission Limit Margin [ECorr] (dBuV/m) (dBuV) (dB) ND (2) n/a n/a ND (2) n/a n/a ND (2) n/a n/a ND (2) n/a n/a ND (2) n/a n/a ND (2) n/a n/a ND (2) n/a n/a ND (2) n/a n/a Results: Complies ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 64 of 70 APPENDIX A TEST SETUP DRAWINGS Table A.1 Conducted Measurement Setup Asset Manufacturer Number 00241 R&S Model Number FSU40 Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 Equipment List Spectrum Analyzer Description Figure A.1 Test Setup Conducted Measurements ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 65 of 70 Table A.2 Radiated Emissions Measurement Equipment Equipment List Asset Manufacturer Number 00051 HP 00049 HP 00047 HP 00072 EMCO 00073 EMCO 00071 EMCO 00265 Miteq 00241 R&S 00050 Chase 00275 Coaxis 00276 Coaxis 00278 TILE 00034 ETS 00085 EMCO Model Number 8566B 85650A 85685A 2075 2080 2090 JS32-00104000-58-5P FSU40 CBL-6111A LMR400 LMR400 34G3 3115 6502 Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 Description Spectrum Analyzer Quasi-peak Adapter RF Preselector Mini-mast Turn Table Multi-Device Controller Microwave L/N Amplifier Spectrum Analyzer Bilog Antenna 25m Cable 4m Cable TILE Test Software Double Ridged Guide Horn Loop Antenna ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 66 of 70 Figure A.2 Test Setup Radiated Measurements 9kHzMHz 30MHz Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 Figure A.3 Test Setup Radiated Measurements 30MHz 1GHz Figure A.4 Test Setup Radiated Measurements 30MHz 1GHz, Signal Substitution ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 67 of 70 Figure A.5 Test Setup Radiated Measurements 1 18GHz Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 68 of 70 Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 APPENDIX B EQUIPMENT LIST AND CALIBRATION Equipment List Asset Manufacturer Number Model Number 00050 Chase CBL-6111A 00035 ETS 3115 00085 EMCO 6502 00333 HP 85685A 00049 HP 85650A 00051 HP 8566B 00241 R&S FSU40 00005 HP 8648D 00072 EMCO 2075 00073 EMCO 2080 00263 Koaxis KP10-1.00M-TD 00263B Koaxis KP10-1.00M-TD 00275 TMS LMR400 00278 TILE 34G3 NCR: No Calibration Required COU: Calibrate On Use Serial Number 1607 6276 9203-2724 3010A01095 2043A00162 2747A05510 100500 3847A00611 0001-2277 0002-1002 263 263B n/a n/a Description Bilog Antenna Double Ridged Guide Horn Loop Antenna RF Preselector Quasi-peak Adapter Spectrum Analyzer Spectrum Analyzer Signal Generator Mini-m as t Turn Table 1m Armoured Cable 1m Armoured Cable 25m Cable TILE Test Software Last Calibration Calibration Calibrated Interval Due 16 Nov 2020 Triennial 16 Nov 2023 4 Mar 2022 Triennial 4 Mar 2025 6 Sep 2022 Triennial 6 Sep 2025 23 Jun 2020 Triennial 30 Jun 2023 23 Jun 2020 Triennial 23 Jun 2023 23 Jun 2020 Triennial 23 Jun 2023 10 Aug 2021 Triennial 10 Aug 2024 23 Jun 2020 Triennial 23 Jun 2023 n/a n/a n/a n/a n/a n/a COU n/a COU COU n/a COU COU n/a COU NCR n/a NCR ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 69 of 70 Test Report S/N: 45461783 R2.0 Test Report Issue Date: 23 February 2023 APPENDIX C MEASUREMENT INSTRUMENT UNCERTAINTY CISPR 16-4 Measurement Uncertainty ( ULAB ) This uncertainty represents an expanded uncertainty expressed at approxim ately the 95% confidence interval using a coverage factor of k=2 Radiated Emissions 30MHz - 200MHz ULAB = 5.14dB UCISPR = 6.3dB Radiated Emissions 200MHz - 1000MHz ULAB = 5.90dB UCISPR = 6.3dB Radiated Emissions 1GHz - 6GHz ULAB = 4.80dB UCISPR = 5.2dB Radiated Emissions 6GHz - 18GHz ULAB = 5.1dB UCISPR = 5.5dB Power Line Conducted Emissions 9kHz to 150kHz ULAB = 2.96dB UCISPR = 3.8dB Power Line Conducted Emissions 150kHz to 30MHz ULAB = 3.12dB UCISPR = 3.4dB If the calculated uncertainty Ulab is less than UCISPR then: 1 Compliance is deemed to occur if NO meas ured disturbance exceeds the disturbance lim it 2 Non-Compliance is deemed to occur if ANY measured disturbance EXCEEDS the disturbance lim it If the calculated uncertainty Ulab is greater than UCISPR then: 3 Compliance is deemed to occur if NO meas ured disturbance, increased by ( Ulab - UCISPR ), exceeds the disturbance limit 4 Non-Compliance is deemed to occur if ANY measured disturbance, increased by ( Ulab - UCISPR ), EXCEEDS the disturbance lim it Other Measurement Uncertainties ( ULAB ) RF Conducted Emissions 9kHz - 40GHz ULAB = 1.0dB UCISPR = n/a Frequency/Bandwidth 9kHz - 40GHz ULAB = 0.1ppm UCISPR = n/a Temperature ULAB = 1OC UCISPR = n/a END OF REPORT ©2023 Celltech Labs Inc. This document is not to be reproduced in whole or in part without the expressed written permission of Celltech Labs Inc. Page 70 of 70
Related FCC IDs:
- 2AK4V-DT-552 - The Detection Group, Inc. Industrial Digital Transceiver [-DT-552] Microsoft: Print To PDF