TEST REPORT
CTC advanced GmbH
Test Report LTE Cat M1
Berlinger & Co. AG SMSHL 2AIEO-SMSHL 2AIEOSMSHL smshl
Test Report PCB - LTE Cat M1
Berlinger & Co. AG SMSIL Site Logger with Cellular/Wifi/BLE 2AIEO-SMSIL 2AIEOSMSIL smsil
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Document DEVICE REPORTGetApplicationAttachment.html?id=5842966BNetzA-CAB-02/21-102 TEST REPORT Test report no.: 1-2685/21-03-13 Testing laboratory CTC advanced GmbH Untertuerkheimer Strasse 6 10 66117 Saarbruecken / Germany Phone: + 49 681 5 98 - 0 Fax: + 49 681 5 98 - 9075 Internet: https://www.ctcadvanced.com e-mail: [email protected] Accredited Testing Laboratory: The testing laboratory (area of testing) is accredited according to DIN EN ISO/IEC 17025 (2018-03) by the Deutsche Akkreditierungsstelle GmbH (DAkkS) The accreditation is valid for the scope of testing procedures as stated in the accreditation certificate starting with the registration number: D-PL-12076-01. Applicant Berlinger & Co.AG Mitteldorfstrasse 2 9608 Ganterschwil / SWITZERLAND Phone: +41 71 982 88 11 Contact: Bernd Heisterkamp e-mail: [email protected] Manufacturer Berlinger & Co.AG Mitteldorfstrasse 2 9608 Ganterschwil / SWITZERLAND Test standard/s FCC - Title 47 CFR Part 22 FCC - Title 47 of the Code of Federal Regulations; Chapter I; Part 22 - Public mobile services FCC - Title 47 CFR Part 24 FCC - Title 47 of the Code of Federal Regulations; Chapter I; Part 24 - Personal communications services For further applied test standards please refer to section 3 of this test report. Kind of test item: Model name: FCC ID: ISED certification number: Frequency: Technology tested: Antenna: Power supply: Temperature range: Test Item SmartMonitor Shipment Logger L/M; Site Logger 2AIEO-SMSHL, 2AIEO-SMSIL 21299-SMSHL, 21299-SMSIL LTE band 2; 4; 5; 12 and 13 LTE Cat M Integrated antenna 5 V DC by external mains adapter / 3.6 V DC by battery -30°C to +75°C This test report is electronically signed and valid without handwritten signature. For verification of the electronic signatures, the public keys can be requested at the testing laboratory. Test report authorized: cn=Andreas Luckenbill, o=CTC advanced GmbH, ou=LUC-180217, [email protected] m, c=DE 2022.04.14 08:48:53 +02'00' Andreas Luckenbill Head of Department Radio Communications Test performed: Marco Bertolino Lab Manager Radio Communications cn=Marco Bertolino, o=CTC advanced GmbH, ou=BTL-211209, [email protected], c=DE 2022.04.14 09:25:40 +02'00' Test report no.: 1-2685/21-03-13 1 Table of contents 1 Table of contents .............................................................................................................................................2 2 General information .........................................................................................................................................4 2.1 Notes and disclaimer ............................................................................................................................4 2.2 Application details ................................................................................................................................4 2.3 Test laboratories sub-contracted .........................................................................................................4 3 Test standard/s, references and accreditations..............................................................................................5 4 Reporting statements of conformity decision rule ......................................................................................6 5 Test environment .............................................................................................................................................7 6 Test item...........................................................................................................................................................7 6.1 General description ...............................................................................................................................7 6.2 Additional information ..........................................................................................................................7 7 Description of the test setup............................................................................................................................8 7.1 Shielded semi anechoic chamber .........................................................................................................9 7.2 Shielded fully anechoic chamber ........................................................................................................10 7.3 Radiated measurements > 18 GHz......................................................................................................11 7.4 Conducted measurements normal and extreme conditions...............................................................12 8 Sequence of testing .......................................................................................................................................13 8.1 Sequence of testing radiated spurious 9 kHz to 30 MHz ...................................................................13 8.2 Sequence of testing radiated spurious 30 MHz to 1 GHz ..................................................................14 8.3 Sequence of testing radiated spurious 1 GHz to 18 GHz ...................................................................15 8.4 Sequence of testing radiated spurious above 18 GHz .......................................................................16 9 Measurement uncertainty ..............................................................................................................................17 10 Summary of measurement results.............................................................................................................18 10.1 Part 22/RSS-132: LTE band 5 .........................................................................................................18 11 RF measurements ......................................................................................................................................19 11.1 11.2 11.2.1 11.2.2 11.2.3 11.2.4 11.2.5 11.2.6 Description of test setup .................................................................................................................19 Results LTE band 5 ..........................................................................................................................19 RF output power ..............................................................................................................................19 Frequency stability ..........................................................................................................................22 Spurious emissions radiated...........................................................................................................24 Spurious emissions conducted .......................................................................................................31 Block edge compliance....................................................................................................................40 Occupied bandwidth ........................................................................................................................44 12 Summary of measurement results.............................................................................................................52 12.1 Part 24/RSS-133: LTE band 2 .........................................................................................................52 13 RF measurements ......................................................................................................................................53 13.1 13.2 13.2.1 Description of test setup .................................................................................................................53 Results LTE band 2 ..........................................................................................................................53 RF output power ..............................................................................................................................53 © CTC advanced GmbH Page 2 of 188 Test report no.: 1-2685/21-03-13 13.2.2 13.2.3 13.2.4 13.2.5 13.2.6 Frequency stability ..........................................................................................................................58 Spurious emissions radiated...........................................................................................................60 Spurious emissions conducted .......................................................................................................67 Block edge compliance....................................................................................................................76 Occupied bandwidth ........................................................................................................................80 14 Summary of measurement results.............................................................................................................88 14.1 14.2 14.3 Part 27/RSS-139: LTE band 4 .........................................................................................................88 Part 27/RSS-130: LTE band 12 .......................................................................................................89 Part 27/RSS-130: LTE band 13 .......................................................................................................89 15 RF measurements ......................................................................................................................................90 15.1 15.2 15.3 15.3.1 15.3.2 15.3.3 15.3.4 15.3.5 15.3.6 15.4 15.4.1 15.4.2 15.4.3 15.4.4 15.4.5 15.4.6 15.5 15.5.1 15.5.2 15.5.3 15.5.4 15.5.5 15.5.6 Description of test setup .................................................................................................................90 LTE technologies supported by EUT ...............................................................................................90 Results LTE band 4 ..........................................................................................................................91 RF output power ..............................................................................................................................91 Frequency stability ..........................................................................................................................95 Spurious emissions radiated...........................................................................................................97 Spurious emissions conducted .....................................................................................................104 Block edge compliance..................................................................................................................113 Occupied bandwidth ......................................................................................................................117 Results LTE band 12 ......................................................................................................................125 RF output power ............................................................................................................................125 Frequency stability ........................................................................................................................129 Spurious emissions radiated.........................................................................................................131 Spurious emissions conducted .....................................................................................................137 Block edge compliance..................................................................................................................145 Occupied bandwidth ......................................................................................................................148 Results LTE band 13 ......................................................................................................................156 RF output power ............................................................................................................................156 Frequency stability ........................................................................................................................158 Spurious emissions radiated.........................................................................................................160 Spurious emissions conducted .....................................................................................................166 Block edge compliance..................................................................................................................174 Occupied bandwidth ......................................................................................................................177 16 Observations.............................................................................................................................................185 17 Glossary ....................................................................................................................................................186 18 Document history .....................................................................................................................................187 19 Accreditation Certificate D-PL-12076-01-04 .......................................................................................187 20 Accreditation Certificate D-PL-12076-01-05 .......................................................................................188 © CTC advanced GmbH Page 3 of 188 Test report no.: 1-2685/21-03-13 2 General information 2.1 Notes and disclaimer The test results of this test report relate exclusively to the test item specified in this test report. CTC advanced GmbH does not assume responsibility for any conclusions and generalizations drawn from the test results with regard to other specimens or samples of the type of the equipment represented by the test item. The test report may only be reproduced or published in full. Reproduction or publication of extracts from the report requires the prior written approval of CTC advanced GmbH. The testing service provided by CTC advanced GmbH has been rendered under the current "General Terms and Conditions for CTC advanced GmbH". CTC advanced GmbH will not be liable for any loss or damage resulting from false, inaccurate, inappropriate or incomplete product information provided by the customer. Under no circumstances does the CTC advanced GmbH test report include any endorsement or warranty regarding the functionality, quality or performance of any other product or service provided. Under no circumstances does the CTC advanced GmbH test report include or imply any product or service warranties from CTC advanced GmbH, including, without limitation, any implied warranties of merchantability, fitness for purpose, or non-infringement, all of which are expressly disclaimed by CTC advanced GmbH. All rights and remedies regarding vendor's products and services for which CTC advanced GmbH has prepared this test report shall be provided by the party offering such products or services and not by CTC advanced GmbH. In no case this test report can be considered as a Letter of Approval. This test report is electronically signed and valid without handwritten signature. For verification of the electronic signatures, the public keys can be requested at the testing laboratory. 2.2 Application details Date of receipt of order: 2021-10-19 Date of receipt of test item: 2022-02-04 Start of test:* 2022-02-04 End of test:* 2022-03-30 Person(s) present during the test: -/- *Date of each measurement, if not shown in the plot, can be requested. Dates are stored in the measurement software. 2.3 Test laboratories sub-contracted None © CTC advanced GmbH Page 4 of 188 Test report no.: 1-2685/21-03-13 3 Test standard/s, references and accreditations Test standard FCC - Title 47 CFR Part 22 FCC - Title 47 CFR Part 24 FCC - Title 47 CFR Part 27 RSS - 132 Issue 3 RSS - 133 Issue 6 RSS - 130 Issue 2 Date -/- -/- -/-0 January 2013 January 2018 February 2019 Description FCC - Title 47 of the Code of Federal Regulations; Chapter I; Part 22 - Public mobile services FCC - Title 47 of the Code of Federal Regulations; Chapter I; Part 24 - Personal communications services FCC - Title 47 of the Code of Federal Regulations; Chapter I; Part 27 - Miscellaneous wireless communications services Spectrum Management and Telecommunications Radio Standards Specification - Cellular Telephone Systems Operating in the Bands 824-849 MHz and 869-894 MHz Spectrum Management and Telecommunications Policy - Radio Standards Specifications, 2 GHz Personal Communication Services Equipment Operating in the Frequency Bands 617-652 MHz, 663698 MHz, 698-756 MHz and 777-787 MHz Guidance Version ANSI C63.4-2014 -/- ANSI C63.26-2015 -/- Power Meas License Systems: KDB 971168 D01 v03r01 Description American National Standard for Methods of Measurement of Radio-Noise Emissions from Low-Voltage Electrical and Electronic Equipment in the Range of 9 kHz to 40 GHz American National Standard for Compliance Testing of Transmitters Used in Licensed Radio Services Measurement Guidance for Certification of Licensed Digital Transmitters Accreditation Description D-PL-12076-01-04 Telecommunication and EMC Canada https://www.dakks.de/as/ast/d/D-PL-12076-01-04e.pdf D-PL-12076-01-05 Telecommunication FCC requirements https://www.dakks.de/as/ast/d/D-PL-12076-01-05e.pdf ISED Testing Laboratory Recognized Listing Number: DE0001 FCC designation number: DE0002 © CTC advanced GmbH Page 5 of 188 Test report no.: 1-2685/21-03-13 4 Reporting statements of conformity decision rule Only the measured values related to their corresponding limits will be used to decide whether the equipment under test meets the requirements of the test standards listed in chapter 3. The measurement uncertainty is mentioned in this test report, see chapter 9, but is not taken into account neither to the limits nor to the measurement results. Measurement results with a smaller margin to the corresponding limits than the measurement uncertainty have a potential risk of more than 5% that the decision might be wrong." © CTC advanced GmbH Page 6 of 188 Test report no.: 1-2685/21-03-13 5 Test environment Temperature : Relative humidity content : Barometric pressure : Power supply : Tnom Tmax Tmin Vnom Vmax Vmin +20 °C during room temperature tests +75 °C during high temperature tests -30 °C during low temperature tests 42 % 1018 hpa 5 V DC by external mains adapter 3.6 V DC by battery 4.0 3.2 6 Test item 6.1 General description Kind of test item : Model name : HMN : PMN : HVIN : FVIN : S/N serial number : Hardware status : Software status : Firmware status : Frequency band : Type of radio transmission : Use of frequency spectrum : Type of modulation : Antenna : Power supply : Temperature range : SmartMonitor Shipment Logger L/M -/- SmartMonitor BE14002 / BE14003; BE14001 V01 Radiated unit: AL008 Conducted unit: AL010 V3 n.a. V0.2.3 LTE band 2; 4; 5; 12 and 13 modulated carrier QPSK and 64-QAM Integrated antenna 5 V DC by external mains adapter 3.6 V DC by battery -30°C to +75°C 6.2 Additional information The content of the following annexes is defined in the QA. It may be that not all of the listed annexes are necessary for this report, thus some values in between may be missing. Test setup and EUT photos are included in test report: 1-2685/21-03-01_AnnexA 1-2685/21-03-01_AnnexB 1-2685/21-03-01_AnnexD © CTC advanced GmbH Page 7 of 188 Test report no.: 1-2685/21-03-13 7 Description of the test setup Typically, the calibrations of the test apparatus are commissioned to and performed by an accredited calibration laboratory. The calibration intervals are determined in accordance with the DIN EN ISO/IEC 17025. In addition to the external calibrations, the laboratory executes comparison measurements with other calibrated test systems or effective verifications. Weekly chamber inspections and range calibrations are performed. Where possible, RF generating and signaling equipment as well as measuring receivers and analyzers are connected to an external high-precision 10 MHz reference (GPS-based or rubidium frequency standard). In order to simplify the identification of the equipment used at some special tests, some items of test equipment and ancillaries can be provided with an identifier or number in the equipment list below (Lab/Item). Each block diagram listed can contain several test setup configurations. All devices belonging to a test setup are identified with the same letter syntax. For example: Column Setup and all devices with an A. Agenda: Kind of Calibration k calibration / calibrated ne not required (k, ev, izw, zw not required) ev periodic self verification Ve long-term stability recognized vlkI! Attention: extended calibration interval NK! Attention: not calibrated EK limited calibration zw cyclical maintenance (external cyclical maintenance) izw internal cyclical maintenance g blocked for accredited testing *) next calibration ordered / currently in progress © CTC advanced GmbH Page 8 of 188 Test report no.: 1-2685/21-03-13 7.1 Shielded semi anechoic chamber The radiated measurements are performed in vertical and horizontal plane in the frequency range from 30 MHz to 1 GHz in semi-anechoic chambers. The EUT is positioned on a non-conductive support with a height of 0.80 m above a conductive ground plane that covers the whole chamber. The receiving antennas are conform to specifications ANSI C63. These antennas can be moved over the height range between 1.0 m and 4.0 m in order to search for maximum field strength emitted from EUT. The measurement distances between EUT and receiving antennas are indicated in the test setups for the various frequency ranges. For each measurement, the EUT is rotated in all three axes until the maximum field strength is received. The wanted and unwanted emissions are received by spectrum analyzers where the detector modes and resolution bandwidths over various frequency ranges are set according to requirement ANSI C63. Measurement distance: tri-log antenna 10 meter; EMC32 software version: 10.59.00 FS = UR + CL + AF (FS-field strength; UR-voltage at the receiver; CL-loss of the cable; AF-antenna factor) Example calculation: FS [dBµV/m] = 12.35 [dBµV/m] + 1.90 [dB] + 16.80 [dB/m] = 31.05 [dBµV/m] (35.69 µV/m) Equipment table: No. Setup Equipment Type Manufacturer Serial No. INV. No. Kind of Last Next Calibration Calibration Calibration 1 A Switch-Unit 3488A HP 2719A14505 300000368 ev -/- -/- 2 A Semi anechoic chamber 3000023 MWB AG -/- 300000551 ne -/- -/- 3 A Analyzer-Reference-System (Harmonics and Flicker) ARS 16/1 SPS A3509 07/0 0205 300003314 vlKI! 29.12.2021 28.12.2023 4 A Antenna Tower Model 2175 ETS-Lindgren 64762 300003745 izw -/- -/- 5 A Positioning Controller Model 2090 ETS-Lindgren 64672 300003746 izw -/- -/- 6 A Turntable Interface-Box Model 105637 ETS-Lindgren 44583 300003747 izw -/- -/- 7 A TRILOG Broadband TestAntenna 30 MHz - 3 GHz VULB9163 Schwarzbeck Mess - Elektronik 318 300003696 vlKI! 30.09.2021 29.09.2023 8 A Turntable 2089-4.0 EMCO -/- 300004394 ne -/- -/- 9 A PC TecLine F+W -/- 300004388 ne -/- -/- 10 A EMI Test Receiver ESR3 Rohde & Schwarz 102587 300005771 k 08.12.2021 07.12.2022 11 A Wideband radio communication tester CMW500 Rohde & Schwarz 166977 300005718 k 30.09.2020 29.09.2022 © CTC advanced GmbH Page 9 of 188 Test report no.: 1-2685/21-03-13 7.2 Shielded fully anechoic chamber Measurement distance: horn antenna 3 meter; loop antenna 3 meter OP = AV + D - G + CA (OP-radiated output power; AV-analyzer value; D-free field attenuation of measurement distance; G-antenna gain+amplifier gain; CA-loss signal path) Example calculation: OP [dBm] = -39.0 [dBm] + 57.0 [dB] - 12.0 [dBi] + (-36.0) [dB] = -30 [dBm] (1 µW) Equipment table: No. Setup Equipment Type Manufacturer Serial No. INV. No. Kind of Last Next Calibration Calibration Calibration Double-Ridged 1 A, B, C Waveguide Horn 3115 EMCO 9107-3696 300001604 vlKI! 12.03.2021 11.03.2023 Antenna 1-18.0GHz 2 A, B Highpass Filter WHK1.1/15G-10SS Wainwright 37 400000148 ne -/- -/- 3 B Band Reject Filter WRCG1850/19101835/1925-40/8SS Wainwright 23 400000149 ne -/- -/- 4 A, B Highpass Filter WHKX7.0/18G-8SS Wainwright 18 300003789 ne -/- -/- 5 A Band Reject Filter WRCG824/849810/863-60/9SS Wainwright 6 300003791 ne -/- -/- 6 A, B Broadband Amplifier 0.5-18 GHz CBLU5184540 CERNEX 22051 300004483 ev -/- -/- 7 A, B, C 4U RF Switch Platform L4491A Agilent Technologies MY50000032 300004510 ne -/- -/- 8 A, B, C Computer Intel Core i3 3220/3,3 GHz, Prozessor -/- 2V2403033A 5421 300004591 ne -/- -/- 9 A, B, C NEXIO EMV-Software BAT EMC V3.21.0.27 EMCO -/- 300004682 ne -/- -/- 10 A, B, C Anechoic chamber -/- TDK -/- 300003726 ne -/- -/- 11 A, B, C EMI Test Receiver 9kHz-26,5GHz ESR26 Rohde & Schwarz 101376 300005063 k 15.12.2021 14.12.2022 12 A, B RF-Amplifier AMF-6F06001800-3010P-R NARDA-MITEQ Inc 2011571 300005240 ev -/- -/- 13 A, B, C Wideband radio communication tester CMW500 Rohde & Schwarz 166977 300005718 k 30.09.2020 29.09.2022 14 A, B Active Loop Antenna 9 kHz to 30 MHz 6502 EMCO 2210 300001015 vlKI! 01.07.2021 30.06.2023 © CTC advanced GmbH Page 10 of 188 Test report no.: 1-2685/21-03-13 7.3 Radiated measurements > 18 GHz Measurement distance: horn antenna 50 cm OP = AV + D - G + CA (OP-radiated output power; AV-analyzer value; D-free field attenuation of measurement distance; G-antenna gain+amplifier gain; CA-loss signal path) Example calculation: OP [dBm] = -59.0 [dBm] + 44.0 [dB] - 20.0 [dBi] + 5.0 [dB] = -30 [dBm] (1 µW) Equipment table: No. Setup Equipment Type Manufacturer Microwave System 1 A Amplifier, 0.5-26.5 83017A HP GHz Std. Gain Horn 2 A Antenna 18.0-26.5 638 Narda GHz 3 A Signal analyzer FSV40 Rohde&Schwarz 4 A RF-Cable ST18/SMAm/SMAm /48 Huber & Suhner 5 A DC-Blocker 0.1-40 GHz 8141A Inmet Wideband radio 6 A communication CMW500 Rohde & Schwarz tester Serial No. 00419 INV. No. Kind of Last Next Calibration Calibration Calibration 300002268 ev -/- -/- 01096 101042 Batch no. 127377 -/- 300000486 300004517 400001183 400001185 vlKI! k ev ev -/- -/- 25.01.2022 24.01.2023 -/- -/- -/- -/- 166977 300005718 k 30.09.2020 29.09.2022 © CTC advanced GmbH Page 11 of 188 Test report no.: 1-2685/21-03-13 7.4 Conducted measurements normal and extreme conditions OP = AV + CA (OP-output power; AV-analyzer value; CA-loss signal path) Example calculation: OP [dBm] = 6.0 [dBm] + 11.7 [dB] = 17.7 [dBm] (58.88 mW) Equipment table: No. Setup Equipment Type Manufacturer Serial No. INV. No. Kind of Last Next Calibration Calibration Calibration 1 A Temperature Test Chamber VT 4002 Heraeus Voetsch 521/83761 300002326 g -/- -/- Wideband radio 2 A communication CMW500 Rohde & Schwarz 166977 300005718 k 30.09.2020 29.09.2022 tester 3 A Hygro-Thermometer -/-, 5-45°C, 20100%rF Thies Clima -/- 400000108 ev 13.08.2020 12.08.2022 Intel Core i3 4 A PC Tester R005 3220/3,3 GHz, Prozessor -/- 2V2403033A45 23 300004589 ne -/- -/- 5 A Teststand Teststand Custom National Sequence Editor Instruments GmbH -/- 300004590 ne -/- -/- Resistive Power 6 A Dividers, DC-40 GHz, 1575 MRC COMPONENTS -/- 300004671 ne -/- -/- 1W 7 A USB-GPIB-Adapter GPIB-USB-HS National Instruments 1829974 400001136 ne -/- -/- 8 A RF-Cable ST18/SMAm/SMAm /72 Huber & Suhner Batch no. 699714 400001184 ev -/- -/- 9 A Synchron Power Meter SPM-4 CTC 1 300005580 ev -/- -/- 10 A Signal analyzer FSV40 Rohde&Schwarz 101042 300004517 k 25.01.2022 24.01.2023 11 A RF-Cable ST18/SMAm/SMAm /36 Huber & Suhner Batch no. 601494 400001309 ev -/- -/- 12 A DC-Blocker 0.1-40 GHz 8141A Inmet -/- 400001185 ev -/- -/- © CTC advanced GmbH Page 12 of 188 Test report no.: 1-2685/21-03-13 8 Sequence of testing 8.1 Sequence of testing radiated spurious 9 kHz to 30 MHz Setup The equipment is set up to simulate normal operation mode as described in the user manual or defined by the manufacturer. If the EUT is a tabletop system, it is placed on a table with 0.8 m height. If the EUT is a floor standing device, it is placed directly on the turn table. Auxiliary equipment and cables are positioned to simulate normal operation conditions as described in ANSI C 63.4. The AC power port of the EUT (if available) is connected to a power outlet below the turntable. Measurement distance is 3 m (see ANSI C 63.4) see test details. EUT is set into operation. Premeasurement* The turntable rotates from 0° to 315° using 45° steps. The antenna height is 1 m. At each turntable position the analyzer sweeps with positive-peak detector to find the maximum of all emissions. Final measurement Identified emissions during the pre-measurement are maximized by the software by rotating the turntable from 0° to 360°. Loop antenna is rotated about its vertical axis for maximum response at each azimuth about the EUT. (For certain applications, the loop antenna plane may also need to be positioned horizontally at the specified distance from the EUT) The final measurement is done in the position (turntable and elevation) causing the highest emissions with quasi-peak (as described in ANSI C 63.4). Final levels, frequency, measuring time, bandwidth, turntable position, correction factor, margin to the limit and limit will be recorded. A plot with the graph of the premeasurement and the limit is stored. *)Note: The sequence will be repeated three times with different EUT orientations. © CTC advanced GmbH Page 13 of 188 Test report no.: 1-2685/21-03-13 8.2 Sequence of testing radiated spurious 30 MHz to 1 GHz Setup The equipment is set up to simulate normal operation mode as described in the user manual or defined by the manufacturer. If the EUT is a tabletop system, a table with 0.8 m height is used, which is placed on the ground plane. If the EUT is a floor standing device, it is placed on the ground plane with insulation between both. Auxiliary equipment and cables are positioned to simulate normal operation conditions as described in ANSI C 63.4. The AC power port of the EUT (if available) is connected to a power outlet below the turntable. Measurement distance is 10 m or 3 m (see ANSI C 63.4) see test details. EUT is set into operation. Premeasurement The turntable rotates from 0° to 315° using 45° steps. The antenna is polarized vertical and horizontal. The antenna height changes from 1 m to 3 m. At each turntable position, antenna polarization and height the analyzer sweeps three times in peak to find the maximum of all emissions. Final measurement The final measurement is performed for at least six highest peaks according to the requirements of the ANSI C63.4. Based on antenna and turntable positions at which the peak values are measured the software maximize the peaks by changing turntable position ± 45° and antenna height between 1 and 4 m. The final measurement is done with quasi-peak detector (as described in ANSI C 63.4). Final levels, frequency, measuring time, bandwidth, antenna height, antenna polarization, turntable angle, correction factor, margin to the limit and limit are recorded. A plot with the graph of the premeasurement with marked maximum final results and the limit is stored. © CTC advanced GmbH Page 14 of 188 Test report no.: 1-2685/21-03-13 8.3 Sequence of testing radiated spurious 1 GHz to 18 GHz Setup The equipment is set up to simulate normal operation mode as described in the user manual or defined by the manufacturer. If the EUT is a tabletop system, a 2-axis positioner with 1.5 m height is used. If the EUT is a floor standing device, it is placed directly on the turn table. Auxiliary equipment and cables are positioned to simulate normal operation conditions as described in ANSI C 63.4. The AC power port of the EUT (if available) is connected to a power outlet below the turntable. Measurement distance is 3 m (see ANSI C 63.4) see test details. EUT is set into operation. Premeasurement The turntable rotates from 0° to 315° using 45° steps. The antenna is polarized vertical and horizontal. The antenna height is 1.5 m. At each turntable position and antenna polarization the analyzer sweeps with positive peak detector to find the maximum of all emissions. Final measurement The final measurement is performed for at least six highest peaks according to the requirements of the ANSI C63.4. Based on antenna and turntable positions at which the peak values are measured the software maximizes the peaks by rotating the turntable from 0° to 360°. This measurement is repeated for different EUT-table positions (0° to 150° in 30°-steps) and for both antenna polarizations. The final measurement is done in the position (turntable, EUT-table and antenna polarization) causing the highest emissions with Peak and RMS detector (as described in ANSI C 63.4). Final levels, frequency, measuring time, bandwidth, turntable position, EUT-table position, antenna polarization, correction factor, margin to the limit and limit are recorded. A plot with the graph of the premeasurement with marked maximum final results and the limit is stored. © CTC advanced GmbH Page 15 of 188 Test report no.: 1-2685/21-03-13 8.4 Sequence of testing radiated spurious above 18 GHz Setup The equipment is set up to simulate normal operation mode as described in the user manual or defined by the manufacturer. Auxiliary equipment and cables are positioned to simulate normal operation conditions as described in ANSI C 63.4. The AC power port of the EUT (if available) is connected to a power outlet. The measurement distance is as appropriate (e.g. 0.5 m). The EUT is set into operation. Premeasurement The test antenna is handheld and moved carefully over the EUT to cover the EUT's whole sphere and different polarizations of the antenna. Final measurement The final measurement is performed at the position and antenna orientation causing the highest emissions with Peak and RMS detector (as described in ANSI C 63.4). Final levels, frequency, measuring time, bandwidth, correction factor, margin to the limit and limit are recorded. A plot with the graph of the premeasurement and the limit is stored. © CTC advanced GmbH Page 16 of 188 Test report no.: 1-2685/21-03-13 9 Measurement uncertainty Measurement uncertainty Test case RF output power conducted ± 1 dB RF output power radiated ± 3 dB Frequency stability ± 20 Hz Spurious emissions radiated below 30 MHz ± 3 dB Spurious emissions radiated 30 MHz to 1 GHz ± 3 dB Spurious emissions radiated 1 GHz to 12.75 GHz ± 3.7 dB Spurious emissions radiated above 12.75 GHz ± 4.5 dB Spurious emissions conducted ± 3 dB Block edge compliance ± 3 dB Occupied bandwidth ± RBW Uncertainty © CTC advanced GmbH Page 17 of 188 Test report no.: 1-2685/21-03-13 10 Summary of measurement results No deviations from the technical specifications were ascertained There were deviations from the technical specifications ascertained This test report is only a partial test report. The content and verdict of the performed test cases are listed below. TC identifier RF-Testing Description FCC: CFR Part 2 & Part 22 ISED: RSS-Gen, Issue 5 & RSS 132, Issue 3 verdict See table! date 2022-04-14 Remark -/- 10.1 Part 22/RSS-132: LTE band 5 Test Case RF Output Power Frequency Stability Spurious Emissions Radiated Spurious Emissions Conducted Block Edge Compliance Occupied Bandwidth temperature conditions Nominal Extreme Nominal Nominal Nominal Nominal power source voltages Nominal Extreme Nominal Nominal Nominal Nominal C NC NA NP Note: C Compliant; NC Not compliant; NA = Not applicable; NP = Not performed Remark -/-/-/-/-/-/- © CTC advanced GmbH Page 18 of 188 Test report no.: 1-2685/21-03-13 11 RF measurements 11.1 Description of test setup For the spurious measurements we use the substitution method according TIA/EIA 603. 11.2 Results LTE band 5 The EUT was set to transmit the maximum power. 11.2.1 RF output power Description: This paragraph contains conducted average power, ERP and Peak-to-Average Power Ratio measurements for the mobile station. Measurement: The mobile was set up for the maximum output power with pseudo random data modulation. To determine the Peak-To-Average Power Ratio (PAPR) the measurement was performed with the Power Complementary Cumulative Distribution Function (CCDF). Detector: AQT: Resolution bandwidth: Used equipment: Measurement uncertainty: Measurement procedure: Measurement parameters Sample See plot 1 MHz See chapter 7.1 A & 7.4 A see chapter 9 FCC: § 2.1046 ISED: RSS-Gen, 6.12 Limits: FCC ISED § 22.913(a)(5) & (d) RSS-132, 5.4 (a)(5) The ERP of mobile transmitters and auxiliary The EIRP power for mobile equipment shall not test transmitters must not exceed 7 W. exceed 11.5 W. (d) The peak-to-average ratio (PAR) of the The peak-to-average power ratio (PAPR) of the transmission must not exceed 13 dB. transmitter shall not exceed 13 dB [...]. Power: 38.45 dBm ERP PAPR: 13 dB © CTC advanced GmbH Page 19 of 188 Test report no.: 1-2685/21-03-13 Results: Bandwidth (MHz) 1.4 3 5 10 Frequency (MHz) 20407 / 824.7 20525 / 836.5 20643 / 848.3 20415 / 825.5 20525 / 836.5 20635 / 847.5 20425 / 826.5 20525 / 836.5 20625 / 846.5 20450 / 829.0 20525 / 836.5 20600 / 844.0 Output Power (conducted) Resource block allocation Average Output Power (dBm) QPSK Peak to Average Ratio (dB) Average Output Power (dBm) 16-QAM Peak to Average Ratio (dB) 1 RB low 17.9 6.1 16.6 7.2 1 RB high 17.8 6.2 16.6 7.2 100% RB 15.9 6.8 15.9 7.5 1 RB low 18.4 6.1 17.1 7.2 1 RB high 18.4 6.1 17.1 7.2 100% RB 16.3 6.7 16.4 7.4 1 RB low 18.2 6.1 16.9 7.1 1 RB high 18.0 6.1 16.8 7.1 100% RB 16.1 6.8 16.2 7.4 1 RB low 18.0 6.1 16.7 7.2 1 RB high 17.9 6.1 16.6 7.2 100% RB 15.1 7.5 15.8 7.5 1 RB low 18.3 6.0 17.1 7.1 1 RB high 18.2 6.1 16.2 8.0 100% RB 16.3 6.7 15.7 8.2 1 RB low 18.1 6.1 16.9 7.1 1 RB high 17.2 6.9 16.9 7.1 100% RB 16.1 6.8 16.2 7.4 1 RB low 19.9 4.3 20.3 4.8 1 RB high 19.7 4.4 20.2 4.8 100% RB 18.6 5.0 17.7 5.9 1 RB low 20.4 4.1 20.2 4.7 1 RB high 20.5 4.1 20.0 4.8 100% RB 18.8 5.0 17.9 5.9 1 RB low 20.2 4.2 20.6 4.6 1 RB high 20.1 4.3 20.4 4.7 100% RB 18.8 5.0 18.0 5.9 1 RB low 20.0 4.3 20.1 4.9 1 RB high 20.0 4.3 20.1 4.8 100% RB 18.6 5.0 18.7 5.7 1 RB low 20.6 4.1 20.1 4.8 1 RB high 20.3 4.2 20.0 4.8 100% RB 18.8 4.9 18.8 5.7 1 RB low 20.2 4.3 20.6 4.6 1 RB high 20.0 4.3 20.4 4.6 100% RB 18.8 5.0 18.9 5.6 © CTC advanced GmbH Page 20 of 188 Test report no.: 1-2685/21-03-13 The radiated output power is measured in the mode with the highest conducted output power. Bandwidth (MHz) 1.4 3 5 10 Frequency (MHz) 824.7 836.5 848.3 825.5 836.5 847.5 826.5 836.5 846.5 829.0 836.5 844.0 Output Power (ERP) Average Output Power (dBm) QPSK 15.0 14.9 15.1 15.1 14.8 15.0 17.0 17.0 17.1 17.1 17.1 17.1 Average Output Power (dBm) 16-QAM 13.7 13.6 13.8 13.8 13.6 13.8 17.4 16.7 17.5 17.2 16.6 17.5 © CTC advanced GmbH Page 21 of 188 Test report no.: 1-2685/21-03-13 11.2.2 Frequency stability Description: In order to measure the carrier frequency under normal conditions it is necessary to make measurements with the mobile station connected to a R&S CMW500 Wideband Radio Communication Tester. 1. Measure the carrier frequency at room temperature. 2. Subject the mobile station to overnight soak at -30 C. 3. With the mobile station, powered with Vnom, connected to the CMW500 on the center channel with channel bandwidth of 10 MHz, measure the carrier frequency. These measurements should be made within two minutes of powering up the mobile station, to prevent significant self warming. 4. Repeat the above measurements at 10°C increments from -30°C to +50°C. Allow at least 15 minutes at each temperature, unpowered, before making measurements. 5. Re-measure carrier frequency at room temperature with Vnom. Vary supply voltage to Vmin and measure the carrier frequency then setup Vmax and repeat the measurement. 6. At all temperature levels hold the temperature to +/- 0.5°C during the measurement procedure. Measurement: Detector: Sweep time: Video bandwidth: Resolution bandwidth: Span: Trace-Mode: Test setup: Measurement uncertainty: Measurement procedure: Measurement parameters Measured with CMW500 See chapter 7.4 setup A See chapter 9 FCC: § 2.1055 ISED: RSS-Gen, 6.11 Limits: FCC ISED § 22.355 (Mobile Station, 821 896 MHz) RSS-132, 5.3 (Mobile Station) The carrier frequency of each transmitter in the Public Mobile Services must be maintained within the tolerances given in Table C-1. The carrier frequency shall not depart from the reference frequency in excess of ±2.5 ppm for mobile stations and ±1.5 ppm for base stations. ± 2.5 ppm © CTC advanced GmbH Page 22 of 188 Test report no.: 1-2685/21-03-13 Results: AFC FREQ ERROR versus VOLTAGE Voltage (V) 3.2 3.6 4.0 Frequency Error (Hz) -18 -18 -18 AFC FREQ ERROR versus TEMPERATURE Temperature (°C) -30 -20 -10 ± 0 10 20 30 40 50 Frequency Error (Hz) 22 16 10 14 -17 -18 -24 -26 -35 Frequency Error (ppm) -0.0215 -0.0215 -0.0215 Frequency Error (ppm) 0.0263 0.0191 0.0120 0.0167 -0.0203 -0.0215 -0.0287 -0.0311 -0.0418 © CTC advanced GmbH Page 23 of 188 Test report no.: 1-2685/21-03-13 11.2.3 Spurious emissions radiated Description: The following steps outline the procedure used to measure the radiated emissions from the mobile station. The site is constructed in accordance with ANSI C63.4:2014 requirements and is recognized by the FCC to be in compliance for a 3 and a 10 meter site. The spectrum was scanned from 30 MHz to the 10th harmonic of the highest frequency generated within the equipment, which is the transmitted carrier that can be as high as 844 MHz. Measurement made up to 9 GHz. The resolution bandwidth is set as outlined in Part 22.917. The spectrum was scanned with the mobile station transmitting at carrier frequencies that pertain to low, mid and high channels of the LTE band V. Measurement: Detector: Sweep time: Resolution bandwidth: Video bandwidth: Span: Trace mode: Used equipment: Measurement uncertainty: Measurement procedure: Measurement parameters Peak 2 s 100 kHz 300 kHz 100 MHz Steps Max Hold See chapter 7.1 A & 7.2 A See chapter 9 FCC: § 2.1053 ISED: RSS-Gen, 6.13 © CTC advanced GmbH Page 24 of 188 Test report no.: 1-2685/21-03-13 Limits: FCC ISED § 22.917(a) & (b) RSS-132, 5.5 (a) The power of any emission outside of the authorized operating frequency ranges must be attenuated below the transmitting power (P) by a factor of at least 43 + 10 log(P) dB. (b)(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 RBW 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, 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. (b)(2) In the spectrum above 1 GHz, instrumentation should employ a reference bandwidth of 1 MHz. i. 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 log10(P) (watts). ii. 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. -13 dBm © CTC advanced GmbH Page 25 of 188 Test report no.: 1-2685/21-03-13 Results: QPSK: Harmonic 2 Lowest channel Freq. (MHz) 1658.0 Level [dBm] SPURIOUS EMISSION LEVEL Harmonic Middle channel Freq. (MHz) Level [dBm] 2 1673.0 Harmonic 2 Highest channel Freq. (MHz) 1688.0 Level [dBm] 3 2487.0 3 2509.5 3 2532.0 4 3316.0 All 4 3346.0 All 4 3376.0 All 5 4145.0 detected 5 4182.5 detected 5 4220.0 detected emissions emissions emissions 6 4974.0 are more 6 5019.0 are more 6 5064.0 are more than 20 than 20 than 20 7 5803.0 dB below 7 5855.5 dB below 7 5908.0 dB below 8 6632.0 the limit. 8 6692.0 the limit. 8 6752.0 the limit. 9 7461.0 9 7528.5 9 7596.0 10 8290.0 10 8365.0 10 8440.0 16-QAM: Harmonic 2 Lowest channel Freq. (MHz) 1658.0 Level [dBm] SPURIOUS EMISSION LEVEL Harmonic Middle channel Freq. (MHz) Level [dBm] 2 1673.0 -48.2 3 2487.0 3 2509.5 -35.6 4 3316.0 All 4 3346.0 -/- 5 4145.0 detected 5 4182.5 -/- emissions 6 4974.0 are more 6 5019.0 -/- than 20 7 5803.0 dB below 7 5855.5 -/- 8 6632.0 the limit. 8 6692.0 -/- 9 7461.0 9 7528.5 -/- 10 8290.0 10 8365.0 -/- Harmonic 2 Highest channel Freq. (MHz) 1688.0 Level [dBm] 3 2532.0 4 3376.0 All 5 4220.0 detected emissions 6 5064.0 are more than 20 7 5908.0 dB below 8 6752.0 the limit. 9 7596.0 10 8440.0 © CTC advanced GmbH Page 26 of 188 Test report no.: 1-2685/21-03-13 QPSK Plot 1: Mid channel (9 kHz - 30 MHz) 20 dBm 10 0 -10 -20 -30 -40 -50 -60 -70 -80 -90 9kHz 100k 1M Frequency Plot 2: Mid channel (30 MHz 1 GHz) 40 dBm 30 20 10 0 -10 -20 -30 -40 -50 -60 -70 -80 -90 30MHz 100M Frequency 10M 30MHz 1GHz © CTC advanced GmbH Page 27 of 188 Test report no.: 1-2685/21-03-13 Plot 3: Mid channel (1 GHz 9 GHz) 40 dBm 30 20 10 0 -10 -20 -30 -40 -50 -60 -70 -80 -90 1GHz Frequency 9GHz © CTC advanced GmbH Page 28 of 188 Test report no.: 1-2685/21-03-13 16-QAM Plot 1: Mid channel (9 kHz - 30 MHz) 20 dBm 10 0 -10 -20 -30 -40 -50 -60 -70 -80 -90 9kHz 100k 1M Frequency Plot 2: Mid channel (30 MHz 1 GHz) 40 dBm 30 20 10 0 -10 -20 -30 -40 -50 -60 -70 -80 -90 30MHz 100M Frequency 10M 30MHz 1GHz © CTC advanced GmbH Page 29 of 188 Test report no.: 1-2685/21-03-13 Plot 3: Mid channel (1 GHz 9 GHz) 40 dBm 30 20 10 0 -10 -20 -30 -40 -50 -60 -70 -80 -90 1GHz Frequency 9GHz © CTC advanced GmbH Page 30 of 188 Test report no.: 1-2685/21-03-13 11.2.4 Spurious emissions conducted Description: The following steps outline the procedure used to measure the conducted emissions from the mobile station. 1. Determine frequency range for measurements: From § 2.1057 & RSS-Gen, 6.13.2 the spectrum should be investigated from the lowest radio frequency generated in the equipment up to at least the 10th harmonic of the carrier frequency. 2. Determine mobile station transmits frequencies: below outlines the band edge frequencies pertinent to conducted emissions testing. Measurement: Detector: Sweep time: Resolution bandwidth: Video bandwidth: Span: Trace mode: Used equipment: Measurement uncertainty: Measurement procedure: Measurement parameters Peak Auto 100 kHz 300 kHz 10 MHz 8.5 GHz Max Hold See chapter 7.4 - A See chapter 9 FCC: § 2.1051 ISED: RSS-Gen, 6.13 © CTC advanced GmbH Page 31 of 188 Test report no.: 1-2685/21-03-13 Limits: FCC ISED § 22.917(a) & (b) RSS-132, 5.5 (a) The power of any emission outside of the authorized operating frequency ranges must be attenuated below the transmitting power (P) by a factor of at least 43 + 10 log(P) dB. (b)(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 RBW 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, 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. (b)(2) In the spectrum above 1 GHz, instrumentation should employ a reference bandwidth of 1 MHz. i. 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 log10(P) (watts). ii. 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. -13 dBm © CTC advanced GmbH Page 32 of 188 Test report no.: 1-2685/21-03-13 Results: for 1.4 MHz channel bandwidth QPSK Harmonic 2 3 4 5 6 7 8 9 10 Lowest channel Freq. (MHz) 1649.4 2474.1 3298.8 4123.5 4948.2 5772.9 6597.6 7422.3 8247.0 Level [dBm] - SPURIOUS EMISSION LEVEL Harmonic Middle channel Freq. (MHz) Level [dBm] 2 1673.0 - 3 2509.5 - 4 3346.0 - 5 4182.5 - 6 5019.0 - 7 5855.5 - 8 6692.0 - 9 7258.5 - 10 8365.0 - Harmonic 2 3 4 5 6 7 8 9 10 Highest channel Freq. (MHz) 1696.6 2544.9 3393.2 4241.5 5089.8 5938.1 6786.4 7634.7 8483 Level [dBm] - 16-QAM Harmonic 2 3 4 5 6 7 8 9 10 Lowest channel Freq. (MHz) 1649.4 2474.1 3298.8 4123.5 4948.2 5772.9 6597.6 7422.3 8247.0 Level [dBm] - SPURIOUS EMISSION LEVEL Harmonic Middle channel Freq. (MHz) Level [dBm] 2 1673.0 - 3 2509.5 - 4 3346.0 - 5 4182.5 - 6 5019.0 - 7 5855.5 - 8 6692.0 - 9 7258.5 - 10 8365.0 - Harmonic 2 3 4 5 6 7 8 9 10 Highest channel Freq. (MHz) 1696.6 2544.9 3393.2 4241.5 5089.8 5938.1 6786.4 7634.7 8483.0 Level [dBm] - © CTC advanced GmbH Page 33 of 188 Test report no.: 1-2685/21-03-13 Plots: QPSK with 1.4 MHz channel bandwidth Plot 1: Lowest Channel (10 MHz 8.5 GHz) © CTC advanced GmbH Page 34 of 188 Test report no.: 1-2685/21-03-13 Plot 2: Middle Channel (10 MHz 8.5 GHz) © CTC advanced GmbH Page 35 of 188 Test report no.: 1-2685/21-03-13 Plot 3: Highest Channel (10 MHz 8.5 GHz) © CTC advanced GmbH Page 36 of 188 Test report no.: 1-2685/21-03-13 Plots: 16-QAM with 1.4 MHz channel bandwidth Plot 1: Lowest Channel (10 MHz 8.5 GHz) © CTC advanced GmbH Page 37 of 188 Test report no.: 1-2685/21-03-13 Plot 2: Middle Channel (10 MHz 8.5 GHz) © CTC advanced GmbH Page 38 of 188 Test report no.: 1-2685/21-03-13 Plot 3: Highest Channel (10 MHz 8.5 GHz) © CTC advanced GmbH Page 39 of 188 Test report no.: 1-2685/21-03-13 11.2.5 Block edge compliance Description: The spectrum at the band edges must comply with the spurious emissions limits. Measurement: Detector: Sweep time: Video bandwidth: Resolution bandwidth: Span: Trace mode: Used equipment: Measurement uncertainty: Measurement procedure: Measurement parameters RMS 180s 100 kHz 20 kHz 1 MHz steps Max Hold See chapter 7.4 A See chapter 9 FCC: § 2.1051 ISED: RSS-Gen, 6.13 © CTC advanced GmbH Page 40 of 188 Test report no.: 1-2685/21-03-13 Limits: FCC ISED § 22.917(a) & (b) RSS-132, 5.5 (a) The power of any emission outside of the authorized operating frequency ranges must be attenuated below the transmitting power (P) by a factor of at least 43 + 10 log(P) dB. (b)(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 RBW 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, 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 i. 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 log10(P) (watts). ii. 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. emissions are attenuated at least 26 dB below the transmitter power. (b)(2) In the spectrum above 1 GHz, instrumentation should employ a reference bandwidth of 1 MHz. -13 dBm Correction factor according to KDB 890810 if RBW < 1 % emission bandwidth: N/A here 10 log (RBW1/RBW2) = X dB; whereas: RBW1 = Y, RBW2 = Z © CTC advanced GmbH Page 41 of 188 Test report no.: 1-2685/21-03-13 Results: 1.4 MHz channel bandwidth Plot 1: Lowest channel QPSK Date: 23.FEB.2022 10:03:42 Plot 2: Highest channel QPSK Date: 23.FEB.2022 10:47:50 © CTC advanced GmbH Page 42 of 188 Test report no.: 1-2685/21-03-13 Plot 3: Lowest channel 16-QAM Date: 23.FEB.2022 10:16:19 Plot 4: Highest channel 16-QAM Date: 23.FEB.2022 11:00:23 © CTC advanced GmbH Page 43 of 188 Test report no.: 1-2685/21-03-13 11.2.6 Occupied bandwidth Description: Measurement of the occupied bandwidth of the transmitted signal. Measurement: Similar to conducted emissions, occupied bandwidth measurements are only provided for selected frequencies in order to reduce the amount of submitted data. Data were taken at the extreme and mid frequencies of the LTE band V. The table below lists the measured 99% power and -26dBc occupied bandwidths. Spectrum analyzer plots are included on the following pages. Detector: Sweep time: Resolution bandwidth: Video bandwidth: Span: Trace mode: Used equipment: Measurement uncertainty: Measurement procedure: Measurement parameters Peak 180s 30 kHz 100 kHz 2 x nominal BW Max Hold See chapter 7.4 A See chapter 9 FCC: § 2.1049 ISED: RSS-Gen, 6.7 Limits: FCC § 2.1049 Reporting only ISED RSS-Gen, 6.7 © CTC advanced GmbH Page 44 of 188 Test report no.: 1-2685/21-03-13 Results: Frequency (MHz) 824.7 836.5 848.3 Occupied Bandwidth QPSK 99% OBW (kHz) 1101 1092 1090 Frequency (MHz) 824.7 836.5 848.3 Occupied Bandwidth 16-QAM 99% OBW (kHz) 1102 1092 1090 -26 dBc BW (kHz) 1308 1280 1276 -26 dBc BW (kHz) 1310 1283 1276 © CTC advanced GmbH Page 45 of 188 Test report no.: 1-2685/21-03-13 Plots: QPSK Plot 1: low channel (99% - OBW) Date: 23.FEB.2022 10:06:52 Plot 2: low channel (-26 dBc BW) Date: 23.FEB.2022 10:10:02 © CTC advanced GmbH Page 46 of 188 Test report no.: 1-2685/21-03-13 Plot 3: mid channel (99% - OBW) Date: 23.FEB.2022 10:28:57 Plot 4: mid channel (-26 dBc BW) Date: 23.FEB.2022 10:32:06 © CTC advanced GmbH Page 47 of 188 Test report no.: 1-2685/21-03-13 Plot 5: high channel (99% - OBW) Date: 23.FEB.2022 10:50:59 Plot 6: high channel (-26 dBc BW) Date: 23.FEB.2022 10:54:08 © CTC advanced GmbH Page 48 of 188 Test report no.: 1-2685/21-03-13 Plots: 16-QAM Plot 1: low channel (99% - OBW) Date: 23.FEB.2022 10:19:29 Plot 2: low channel (-26 dBc BW) Date: 23.FEB.2022 10:22:39 © CTC advanced GmbH Page 49 of 188 Test report no.: 1-2685/21-03-13 Plot 3: mid channel (99% - OBW) Date: 23.FEB.2022 10:38:20 Plot 4: mid channel (-26 dBc BW) Date: 23.FEB.2022 10:41:29 © CTC advanced GmbH Page 50 of 188 Test report no.: 1-2685/21-03-13 Plot 5: high channel (99% - OBW) Date: 23.FEB.2022 11:03:32 Plot 6: high channel (-26 dBc BW) Date: 23.FEB.2022 11:06:41 © CTC advanced GmbH Page 51 of 188 Test report no.: 1-2685/21-03-13 12 Summary of measurement results No deviations from the technical specifications were ascertained There were deviations from the technical specifications ascertained This test report is only a partial test report. The content and verdict of the performed test cases are listed below. TC identifier RF-Testing Description FCC: CFR Part 2 & Part 24 ISED: RSS-Gen, Issue 5 RSS 133, Issue 6 & SRSP-510, Issue 5 verdict See table! date 2022-04-14 Remark -/- 12.1 Part 24/RSS-133: LTE band 2 Test Case RF Output Power Frequency Stability Spurious Emissions Radiated Spurious Emissions Conducted Block Edge Compliance Occupied Bandwidth temperature conditions Nominal Extreme Nominal Nominal Nominal Nominal power source voltages Nominal Extreme Nominal Nominal Nominal Nominal C NC NA NP Note: C Compliant; NC Not compliant; NA = Not applicable; NP = Not performed Remark -/-/-/-/-/-/- © CTC advanced GmbH Page 52 of 188 Test report no.: 1-2685/21-03-13 13 RF measurements 13.1 Description of test setup For the spurious measurements we use the substitution method according TIA/EIA 603. 13.2 Results LTE band 2 The EUT was set to transmit the maximum power. 13.2.1 RF output power Description: This paragraph contains average power, peak output power and EIRP measurements for the mobile station. In all cases, the peak output power is within the required mask (this mask is specified in the JTC standards, TIA PN3389 Vol. 1 Chap 7, and is no FCC requirement). Measurement: The mobile was set up for the maximum output power with pseudo random data modulation. To determine the Peak-To-Average Power Ratio (PAPR) the measurement was performed with the Power Complementary Cumulative Distribution Function (CCDF). Detector: AQT: Resolution bandwidth: Used equipment: Measurement uncertainty: Measurement procedure: Measurement parameters Sample See plot 1 MHz See chapter 7.2 C & 7.4 A See chapter 9 FCC: § 2.1046 ISED: RSS-Gen, 6.12 © CTC advanced GmbH Page 53 of 188 Test report no.: 1-2685/21-03-13 Limits: FCC ISED $ 24.232(c) RSS-133, 6.4 (referring to: SRSP-510, Issue 5) (c) Mobile and portable stations are limited to 2 SRSP-510, 5.1: Mobile stations and hand-held watts EIRP and the equipment must employ a portables are limited to 2 watts maximum e.i.r.p. means for limiting power to the minimum necessary RSS-133, 6.4: In addition, the transmitter's peak-to- for successful communications. average power ratio (PAPR) shall not exceed 13 dB (d) In measuring transmissions in this band using an for more than 0.1% of the time using a signal average power technique, the peak-to-average ratio corresponding to the highest PAPR during periods of (PAR) of the transmission may not exceed 13 dB. continuous transmission. Power: 33 dBm EIRP PAPR: 13 dB © CTC advanced GmbH Page 54 of 188 Test report no.: 1-2685/21-03-13 Results: Bandwidth Frequency (MHz) (MHz) 18607 / 1850.7 1.4 18900 / 1880.0 19193 / 1909.3 18615 / 1851.5 3 18900 / 1880.0 19185 / 1908.5 18625 / 1852.5 5 18900 / 1880.0 19175 / 1907.5 Output Power (conducted) Resource block allocation 1 RB low 1 RB high 100% RB 1 RB low 1 RB high 100% RB 1 RB low 1 RB high 100% RB 1 RB low 1 RB high 100% RB 1 RB low 1 RB high 100% RB 1 RB low 1 RB high 100% RB 1 RB low 1 RB high 100% RB 1 RB low 1 RB high 100% RB 1 RB low 1 RB high 100% RB Average Output Power (dBm) QPSK 18.5 18.4 16.4 18.7 18.6 16.7 19.1 18.9 17.0 18.4 18.2 16.4 18.7 18.6 16.6 19.2 19.0 16.2 20.3 20.2 19.2 20.7 20.5 19.4 21.0 20.9 19.8 Peak to Average Ratio (dB) 5.9 5.9 6.8 5.9 5.9 6.7 5.6 5.7 6.6 5.9 6.0 6.8 5.8 5.9 6.8 5.6 5.7 7.4 4.1 4.1 4.8 4.0 4.1 4.7 3.8 3.8 4.6 Average Output Power (dBm) 16-QAM 17.0 16.6 16.4 17.8 17.7 16.8 17.5 17.7 17.1 17.2 17.1 16.3 17.8 17.5 16.8 17.8 17.7 17.1 20.5 20.2 18.2 20.2 20.3 18.4 21.2 21.0 18.9 Peak to Average Ratio (dB) 7.2 7.2 7.4 6.9 6.9 7.4 6.8 6.8 7.2 7.0 7.1 7.4 6.8 7.0 7.3 6.7 6.8 7.2 4.5 4.6 5.8 4.6 4.6 5.8 4.0 4.2 5.5 © CTC advanced GmbH Page 55 of 188 Test report no.: 1-2685/21-03-13 1 RB low 20.4 4.0 20.4 4.5 18650 / 1855.0 1 RB high 20.1 4.2 20.2 4.6 100% RB 19.0 4.8 19.2 5.4 1 RB low 20.5 4.0 20.4 4.5 10 18900 / 1880.0 1 RB high 20.3 4.1 20.1 4.6 100% RB 19.4 4.7 19.3 5.3 19150 / 1905.0 1 RB low 1 RB high 21.0 20.8 3.8 3.9 21.2 20.9 4.0 4.1 100% RB 19.7 4.6 19.9 5.0 1 RB low 20.1 4.1 20.3 4.4 18675 / 1857.5 1 RB high 20.0 4.2 20.2 4.5 100% RB 20.0 4.4 20.1 4.8 15 18900 / 1880.0 1 RB low 1 RB high 20.4 20.4 4.0 4.0 20.2 20.3 4.5 4.5 100% RB 20.2 4.3 20.3 4.7 1 RB low 20.9 3.7 21.0 4.0 19125 / 1902.5 1 RB high 20.6 3.9 20.7 4.1 100% RB 20.5 4.1 20.6 4.4 18700 / 1860.0 1 RB low 1 RB high 19.7 19.8 4.1 4.1 20.0 19.9 4.4 4.6 100% RB 19.7 4.4 19.8 4.7 1 RB low 20.1 4.0 20.1 4.4 20 18900 / 1880.0 1 RB high 20.0 4.1 19.5 4.7 100% RB 19.9 4.3 19.8 4.8 1 RB low 20.7 3.8 21.0 3.9 19100 / 1900.0 1 RB high 20.6 3.8 20.6 4.1 100% RB 20.3 4.1 20.5 4.4 © CTC advanced GmbH Page 56 of 188 Test report no.: 1-2685/21-03-13 The radiated output power is measured in the mode with the highest conducted output power. Bandwidth (MHz) 1.4 3 5 10 15 20 Frequency (MHz) 1850.7 1880.0 1909.3 1851.5 1880.0 1908.5 1852.5 1880.0 1907.5 1855.0 1880.0 1905.0 1857.5 1880.0 1902.5 1860.0 1880.0 1900.0 Output Power (EIRP) Average Output Power (dBm) QPSK 19.0 19.9 22.1 18.9 19.9 22.2 20.8 21.9 24.0 20.9 21.7 24.0 20.6 21.6 23.9 20.3 21.3 23.7 Average Output Power (dBm) 16-QAM 17.5 19.0 20.7 17.7 19.0 20.8 21.0 21.5 24.2 20.9 21.6 24.2 20.8 21.5 24.0 20.5 21.3 24.0 © CTC advanced GmbH Page 57 of 188 Test report no.: 1-2685/21-03-13 13.2.2 Frequency stability Description: In order to measure the carrier frequency under the condition of AFC lock, it is necessary to make measurements with the mobile station in a "call mode". This is accomplished with the use of a R&S CMW500 DIGITAL RADIOCOMMUNICATION TESTER. 1. Measure the carrier frequency at room temperature. 2. Subject the mobile station to overnight soak at -30 C. 3. With the mobile station, powered with Vnom, connected to the CMW500 and in a simulated call on channel 9400 (centre channel), measure the carrier frequency. These measurements should be made within two minutes of powering up the mobile station, to prevent significant self warming. 4. Repeat the above measurements at 10°C increments from -30°C to +50°C. Allow at least 1.5 hours at each temperature, unpowered, before making measurements. 5. Remeasure carrier frequency at room temperature with Vnom. Vary supply voltage from Vmin to Vmax, in 0.1 Volt steps remeasuring carrier frequency at each voltage. Pause at Vnom for 1.5 hours unpowered, to allow any self heating to stabilize, before continuing. 6. At all temperature levels hold the temperature to +/- 0.5°C during the measurement procedure. Measurement: Detector: Sweep time: Video bandwidth: Resolution bandwidth: Span: Trace-Mode: Used equipment: Measurement uncertainty: Measurement procedure: Measurement parameters Measured with CMW500 See chapter 7.4 setup A See chapter 9 FCC: § 2.1055 ISED: RSS-Gen, 6.11 Limits: FCC ISED § 24.235 RSS-133, 6.3 The frequency stability shall be sufficient to ensure that the fundamental emission stays within the authorized frequency block. The carrier frequency shall not depart from the reference frequency, in excess of ±2.5 ppm for mobile stations and ±1.0 ppm for base stations. ± 2.5 ppm (ISED only) © CTC advanced GmbH Page 58 of 188 Test report no.: 1-2685/21-03-13 Results: AFC FREQ ERROR versus VOLTAGE Voltage (V) 3.2 3.6 4.0 Frequency Error (Hz) -27 -27 -27 AFC FREQ ERROR versus TEMPERATURE Temperature (°C) -30 -20 -10 ± 0 10 20 30 40 50 Frequency Error (Hz) 25 30 33 26 -62 -27 -44 -57 -66 Frequency Error (ppm) -0.0144 -0.0144 -0.0144 Frequency Error (ppm) 0.0133 0.0160 0.0176 0.0138 -0.0330 -0.0144 -0.0234 -0.0303 -0.0351 © CTC advanced GmbH Page 59 of 188 Test report no.: 1-2685/21-03-13 13.2.3 Spurious emissions radiated Description: The following steps outline the procedure used to measure the radiated emissions from the mobile station. The site is constructed in accordance with ANSI C63.4:2014 requirements and is recognized by the FCC to be in compliance for a 3 and a 10 meter site. The spectrum was scanned from 30 MHz to the 10th harmonic of the highest frequency generated within the equipment. The resolution bandwidth is set as outlined in Part 24.238. The spectrum was scanned with the mobile station transmitting at carrier frequencies that pertain to low, mid and high channels of the LTE band II. Measurement: Detector: Sweep time: Resolution bandwidth: Video bandwidth: Span: Trace mode: Used equipment: Measurement uncertainty: Measurement procedure Measurement parameters Peak 2 sec. 1 MHz 3 MHz 100 MHz Steps Max Hold See chapter 7.1 A & 7.2 B See chapter 9 FCC: § 2.1053 ISED: RSS-Gen, 6.13 © CTC advanced GmbH Page 60 of 188 Test report no.: 1-2685/21-03-13 Limits: FCC ISED § 24.238 (a) & (b) RSS-133, 6.5 (a) The power of any emission outside of the authorized operating frequency ranges must be attenuated below the transmitting power (P) by a factor of at least 43 + 10 log(P) dB. (b) Compliance with these rules is based on the use of measurement instrumentation employing a resolution bandwidth of 1 MHz or greater. However, in the 1 MHz bands immediately outside and adjacent to the frequency block a resolution bandwidth of at least one percent of the emission bandwidth of the fundamental emission of the transmitter may be employed. A narrower resolution bandwidth is permitted in all cases to improve measurement accuracy provided the measured power is integrated over the full required measurement bandwidth (i.e. 1 MHz or 1 percent of emission bandwidth, as specified). The emission bandwidth is defined as the width of the signal between two points, one below the carrier center frequency and one above the carrier center frequency, outside of which all emissions are attenuated at least 26 dB below the transmitter power. In the 1.0 MHz bands immediately outside and adjacent to the equipment's 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 log(P) (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 log(P) (watts). If the measurement is performed using 1% of the emission bandwidth, power integration over 1.0 MHz is required. -13 dBm © CTC advanced GmbH Page 61 of 188 Test report no.: 1-2685/21-03-13 Results: QPSK: Harmonic 2 Lowest channel Freq. (MHz) 3710.0 3 5565.0 4 7420.0 5 9275.0 6 11130.0 7 12985.0 8 14840.0 9 16695.0 10 18550.0 Level [dBm] - SPURIOUS EMISSION LEVEL Harmonic Middle channel Freq. (MHz) Level [dBm] 2 3760.0 - 3 5640.0 - 4 7520.0 - 5 9400.0 - 6 11280.0 - 7 13160.0 - 8 15040.0 - 9 16920.0 - 10 18800.0 - Harmonic 2 Highest channel Freq. (MHz) 3810.0 3 5715.0 4 7620.0 5 9525.0 6 11430.0 7 13335.0 8 15240.0 9 17145.0 10 19050.0 Level [dBm] - 16-QAM: Harmonic 2 Lowest channel Freq. (MHz) 3710.0 3 5565.0 4 7420.0 5 9275.0 6 11130.0 7 12985.0 8 14840.0 9 16695.0 10 18550.0 Level [dBm] - SPURIOUS EMISSION LEVEL Harmonic Middle channel Freq. (MHz) Level [dBm] 2 3760.0 - 3 5640.0 - 4 7520.0 - 5 9400.0 - 6 11280.0 - 7 13160.0 - 8 15040.0 - 9 16920.0 - 10 18800.0 - Harmonic 2 Highest channel Freq. (MHz) 3810.0 3 5715.0 4 7620.0 5 9525.0 6 11430.0 7 13335.0 8 15240.0 9 17145.0 10 19050.0 Level [dBm] - © CTC advanced GmbH Page 62 of 188 Test report no.: 1-2685/21-03-13 QPSK Plot 1: Mid channel (9 kHz - 30 MHz) 20 dBm 10 0 -10 -20 -30 -40 -50 -60 -70 -80 -90 9kHz 100k 1M Frequency Plot 2: Mid channel (30 MHz 1 GHz) 40 dBm 30 20 10 0 -10 -20 -30 -40 -50 -60 -70 -80 -90 30MHz 100M Frequency 10M 30MHz 1GHz © CTC advanced GmbH Page 63 of 188 Test report no.: 1-2685/21-03-13 Plot 3: Mid channel (1 GHz 18 GHz) 40 dBm 30 20 10 0 -10 -20 -30 -40 -50 -60 -70 -80 -90 1GHz 10G Frequency Carrier notched with 1.9 GHz rejection filter Plot 4: Mid channel (18 GHz 20 GHz) 18GHz © CTC advanced GmbH Page 64 of 188 Test report no.: 1-2685/21-03-13 16-QAM Plot 1: Mid channel (9 kHz - 30 MHz) 20 dBm 10 0 -10 -20 -30 -40 -50 -60 -70 -80 -90 9kHz 100k 1M Frequency Plot 2: Mid channel (30 MHz 1 GHz) 40 dBm 30 20 10 0 -10 -20 -30 -40 -50 -60 -70 -80 -90 30MHz 100M Frequency 10M 30MHz 1GHz © CTC advanced GmbH Page 65 of 188 Test report no.: 1-2685/21-03-13 Plot 3: Mid channel (1 GHz 18 GHz) 40 dBm 30 20 10 0 -10 -20 -30 -40 -50 -60 -70 -80 -90 1GHz 10G Frequency Carrier notched with 1.9 GHz rejection filter Plot 4: Mid channel (18 GHz 20 GHz) 18GHz © CTC advanced GmbH Page 66 of 188 Test report no.: 1-2685/21-03-13 13.2.4 Spurious emissions conducted Description: The following steps outline the procedure used to measure the conducted emissions from the mobile station. 1. Determine frequency range for measurements: From § 2.1057 & RSS-Gen, 6.13.2 the spectrum should be investigated from the lowest radio frequency generated in the equipment up to at least the 10th harmonic of the carrier frequency. 2. Determine mobile station transmits frequencies: below outlines the band edge frequencies pertinent to conducted emissions testing. Measurement: Detector: Sweep time: Video bandwidth: Resolution bandwidth: Span: Trace-Mode: Used equipment: Measurement uncertainty: Measurement procedure Measurement parameters Peak Auto 300 kHz 100 kHz 30 MHz 19.5 GHz Max Hold See chapter see chapter 9 FCC: § 2.1051 ISED: RSS-Gen, 6.13 © CTC advanced GmbH Page 67 of 188 Test report no.: 1-2685/21-03-13 Limits: FCC IC § 24.238 (a) & (b) RSS-133, 6.5 (a) The power of any emission outside of the authorized operating frequency ranges must be attenuated below the transmitting power (P) by a factor of at least 43 + 10 log(P) dB. (b) Compliance with these rules is based on the use of measurement instrumentation employing a resolution bandwidth of 1 MHz or greater. However, in the 1 MHz bands immediately outside and adjacent to the frequency block a resolution bandwidth of at least one percent of the emission bandwidth of the fundamental emission of the transmitter may be employed. A narrower resolution bandwidth is permitted in all cases to improve measurement accuracy provided the measured power is integrated over the full required measurement bandwidth (i.e. 1 MHz or 1 percent of emission bandwidth, as specified). The emission bandwidth is defined as the width of the signal between two points, one below the carrier center frequency and one above the carrier center frequency, outside of which all emissions are attenuated at least 26 dB below the transmitter power. In the 1.0 MHz bands immediately outside and adjacent to the equipment's 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 log(P) (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 log(P) (watts). If the measurement is performed using 1% of the emission bandwidth, power integration over 1.0 MHz is required. -13 dBm © CTC advanced GmbH Page 68 of 188 Test report no.: 1-2685/21-03-13 Results: for 1.4 MHz channel bandwidth QPSK: Harmonic 2 3 4 5 6 7 8 9 10 Lowest channel Freq. (MHz) 3701.4 5552.1 7402.8 9253.5 11104.2 12954.9 14805.6 16656.3 18507.0 Level [dBm] - SPURIOUS EMISSION LEVEL Harmonic 2 Middle channel Freq. (MHz) 3760.0 Level [dBm] - 3 5640.0 - 4 7520.0 - 5 9400.0 - 6 11280.0 - 7 13160.0 - 8 15040.0 - 9 16920.0 - 10 18800.0 - Harmonic 2 3 4 5 6 7 8 9 10 Highest channel Freq. (MHz) 3818.6 5727.9 7637.2 9546.5 11455.8 13365.1 15274.4 17183.7 19093.0 Level [dBm] - 16-QAM: Harmonic 2 3 4 5 6 7 8 9 10 Lowest channel Freq. (MHz) 3701.4 5552.1 7402.8 9253.5 11104.2 12954.9 14805.6 16656.3 18507.0 Level [dBm] - SPURIOUS EMISSION LEVEL Harmonic 2 Middle channel Freq. (MHz) 3760.0 Level [dBm] - 3 5640.0 - 4 7520.0 - 5 9400.0 - 6 11280.0 - 7 13160.0 - 8 15040.0 - 9 16920.0 - 10 18800.0 - Harmonic 2 3 4 5 6 7 8 9 10 Highest channel Freq. (MHz) 3818.6 5727.9 7637.2 9546.5 11455.8 13365.1 15274.4 17183.7 19093.0 Level [dBm] - © CTC advanced GmbH Page 69 of 188 Test report no.: 1-2685/21-03-13 Plots: QPSK with 1.4 MHz channel bandwidth Plot 1: Lowest Channel (10 MHz 19.5 GHz) © CTC advanced GmbH Page 70 of 188 Test report no.: 1-2685/21-03-13 Plot 2: Middle Channel (10 MHz 19.5 GHz) © CTC advanced GmbH Page 71 of 188 Test report no.: 1-2685/21-03-13 Plot 3: Highest Channel (10 MHz 19.5 GHz) © CTC advanced GmbH Page 72 of 188 Test report no.: 1-2685/21-03-13 Plots: 16-QAM with 1.4 MHz channel bandwidth Plot 1: Lowest Channel (10 MHz 19.5 GHz) © CTC advanced GmbH Page 73 of 188 Test report no.: 1-2685/21-03-13 Plot 2: Middle Channel (10 MHz 19.5 GHz) © CTC advanced GmbH Page 74 of 188 Test report no.: 1-2685/21-03-13 Plot 3: Highest Channel (10 MHz 19.5 GHz) © CTC advanced GmbH Page 75 of 188 Test report no.: 1-2685/21-03-13 13.2.5 Block edge compliance Description: The spectrum at the band edges must comply with the spurious emissions limits. Measurement: Detector: Sweep time: Video bandwidth: Resolution bandwidth: Span: Trace-Mode: Used equipment: Measurement uncertainty: Measurement procedure Measurement parameters RMS 180 sec. 100 kHz 20 kHz 1 MHz steps Max Hold See chapter See chapter 9 FCC: § 2.1051 ISED: RSS-Gen, 6.13 © CTC advanced GmbH Page 76 of 188 Test report no.: 1-2685/21-03-13 Limits: FCC ISED § 24.238 (a) & (b) RSS-133, 6.5 (a) The power of any emission outside of the authorized operating frequency ranges must be attenuated below the transmitting power (P) by a factor of at least 43 + 10 log(P) dB. (b) Compliance with these rules is based on the use of measurement instrumentation employing a resolution bandwidth of 1 MHz or greater. However, in the 1 MHz bands immediately outside and adjacent to the frequency block a resolution bandwidth of at least one percent of the emission bandwidth of the fundamental emission of the transmitter may be employed. A narrower resolution bandwidth is permitted in all cases to improve measurement accuracy provided the measured power is integrated over the full required measurement bandwidth (i.e. 1 MHz or 1 percent of emission bandwidth, as specified). The emission bandwidth is defined as the width of the signal In the 1.0 MHz bands immediately outside and adjacent to the equipment's 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 log(P) (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 log(P) (watts). If the measurement is performed using 1% of the emission bandwidth, power integration over 1.0 MHz is required. 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. -13 dBm Correction factor according to KDB 890810 if RBW < 1 % emission bandwidth: N/A here 10 log (RBW1/RBW2) = X dB; whereas: RBW1 = Y, RBW2 = Z © CTC advanced GmbH Page 77 of 188 Test report no.: 1-2685/21-03-13 Results: 1.4 MHz channel bandwidth Plot 1: Lowest channel QPSK Date: 23.FEB.2022 16:24:31 Plot 2: Highest channel QPSK Date: 23.FEB.2022 17:24:09 © CTC advanced GmbH Page 78 of 188 Test report no.: 1-2685/21-03-13 Plot 3: Lowest channel 16-QAM Date: 23.FEB.2022 16:40:56 Plot 4: Highest channel 16-QAM Date: 23.FEB.2022 17:40:38 © CTC advanced GmbH Page 79 of 188 Test report no.: 1-2685/21-03-13 13.2.6 Occupied bandwidth Description: Measurement of the occupied bandwidth of the transmitted signal. Measurement: Similar to conducted emissions, occupied bandwidth measurements are only provided for selected frequencies in order to reduce the amount of submitted data. Data were taken at the extreme and mid frequencies of the LTE band II frequency band. The table below lists the measured 99% power and -26dBc occupied bandwidths. Spectrum analyzer plots are included on the following pages. Detector: Sweep time: Video bandwidth: Resolution bandwidth: Span: Trace-Mode: Used equipment: Measurement uncertainty: Measurement procedure Measurement parameters Peak 180s 100 kHz 30 kHz 2 x nominal bandwidth Max Hold See chapter 7.4 setup A See chapter 9 FCC: § 2.1049 ISED: RSS-Gen, 6.7 Limits: FCC § 2.1049 Reporting only ISED RSS-Gen, 6.7 © CTC advanced GmbH Page 80 of 188 Test report no.: 1-2685/21-03-13 Results: Frequency (MHz) 1850.7 1880.0 1909.3 Occupied Bandwidth QPSK 99% OBW (kHz) 1091 1093 1090 Frequency (MHz) 1850.7 1880.0 1909.3 Occupied Bandwidth 16-QAM 99% OBW (kHz) 1091 1093 1091 -26 dBc BW (kHz) 1268 1282 1276 -26 dBc BW (kHz) 1267 1282 1279 © CTC advanced GmbH Page 81 of 188 Test report no.: 1-2685/21-03-13 Plots: QPSK Plot 1: low channel (99% - OBW) Date: 23.FEB.2022 16:27:40 Plot 2: low channel (-26 dBc BW) Date: 23.FEB.2022 16:30:48 © CTC advanced GmbH Page 82 of 188 Test report no.: 1-2685/21-03-13 Plot 3: mid channel (99% - OBW) Date: 23.FEB.2022 16:57:28 Plot 4: mid channel (-26 dBc BW) Date: 23.FEB.2022 17:00:37 © CTC advanced GmbH Page 83 of 188 Test report no.: 1-2685/21-03-13 Plot 5: high channel (99% - OBW) Date: 23.FEB.2022 17:27:19 Plot 6: high channel (-26 dBc BW) Date: 23.FEB.2022 17:30:29 © CTC advanced GmbH Page 84 of 188 Test report no.: 1-2685/21-03-13 Plots: 16-QAM Plot 1: low channel (99% - OBW) Date: 23.FEB.2022 16:44:05 Plot 2: low channel (-26 dBc BW) Date: 23.FEB.2022 16:47:13 © CTC advanced GmbH Page 85 of 188 Test report no.: 1-2685/21-03-13 Plot 3: mid channel (99% - OBW) Date: 23.FEB.2022 17:10:46 Plot 4: mid channel (-26 dBc BW) Date: 23.FEB.2022 17:13:56 © CTC advanced GmbH Page 86 of 188 Test report no.: 1-2685/21-03-13 Plot 5: high channel (99% - OBW) Date: 23.FEB.2022 17:43:47 Plot 6: high channel (-26 dBc BW) Date: 23.FEB.2022 17:46:57 © CTC advanced GmbH Page 87 of 188 Test report no.: 1-2685/21-03-13 14 Summary of measurement results No deviations from the technical specifications were ascertained There were deviations from the technical specifications ascertained This test report is only a partial test report. The content and verdict of the performed test cases are listed below. TC identifier RF-Testing Description FCC: CFR Part 2 & Part 27 ISED: RSS-Gen, Issue 5 RSS-130, Issue 2 (LTE Bands 12, 13) RSS-139, Issue 3 (LTE Band 4) verdict See table! date 2022-04-14 Remark -/- 14.1 Part 27/RSS-139: LTE band 4 Test Case RF Output Power Frequency Stability Spurious Emissions Radiated Spurious Emissions Conducted Block Edge Compliance Occupied Bandwidth temperature conditions Nominal Extreme Nominal Nominal Nominal Nominal power source voltages Nominal Extreme Nominal Nominal Nominal Nominal C NC NA NP Note: C Compliant; NC Not compliant; NA = Not applicable; NP = Not performed Remark -/-/-/-/-/-/- © CTC advanced GmbH Page 88 of 188 Test report no.: 1-2685/21-03-13 14.2 Part 27/RSS-130: LTE band 12 Test Case RF Output Power Frequency Stability Spurious Emissions Radiated Spurious Emissions Conducted Block Edge Compliance Occupied Bandwidth temperature conditions Nominal Extreme Nominal Nominal Nominal Nominal power source voltages Nominal Extreme Nominal Nominal Nominal Nominal C NC NA NP Note: C Compliant; NC Not compliant; NA = Not applicable; NP = Not performed Remark -/-/-/-/-/-/- 14.3 Part 27/RSS-130: LTE band 13 Test Case RF Output Power Frequency Stability Spurious Emissions Radiated Spurious Emissions Conducted Block Edge Compliance Occupied Bandwidth temperature conditions Nominal Extreme Nominal Nominal Nominal Nominal power source voltages Nominal Extreme Nominal Nominal Nominal Nominal C NC NA NP Note: C Compliant; NC Not compliant; NA = Not applicable; NP = Not performed Remark -/-/-/-/-/-/- © CTC advanced GmbH Page 89 of 188 Test report no.: 1-2685/21-03-13 15 RF measurements 15.1 Description of test setup For the spurious measurements we use the substitution method according TIA/EIA 603. 15.2 LTE technologies supported by EUT Channel bandwidth Band 4 Band 12 Band 13 -/- [MHz] 1.4 3 -/- 5 10 15 20 © CTC advanced GmbH Page 90 of 188 Test report no.: 1-2685/21-03-13 15.3 Results LTE band 4 The EUT was set to transmit the maximum power. 15.3.1 RF output power Description: This paragraph contains average power, peak output power and EIRP measurements for the mobile station. In all cases, the peak output power is within the required mask (this mask is specified in the JTC standards, TIA PN3389 Vol. 1 Chap 7, and is no FCC requirement). Measurement: The mobile was set up for the maximum output power with pseudo random data modulation. To determine the Peak-To-Average Power Ratio (PAPR) the measurement was performed with the Power Complementary Cumulative Distribution Function (CCDF). Detector: AQT: Resolution bandwidth: Used equipment: Measurement uncertainty: Measurement procedure Measurement parameters Sample See plot 1 MHz See chapter 7.4 setup A See chapter 9 FCC: § 2.1046 ISED: RSS-Gen, 6.12 Limits: FCC ISED § 27.50(d)(4) & (5) RSS-139, 6.5 (4) Fixed, mobile, and portable (hand-held) stations The equivalent isotropically radiated power (e.i.r.p.) operating in the 1710-1755 MHz band and mobile for mobile and portable transmitters shall not and portable stations operating in the 1695-1710 exceed one watt. MHz and 1755-1780 MHz bands are limited to 1 watt In addition, the peak to average power ratio (PAPR) EIRP. of the equipment shall not exceed 13 dB for more (5) In measuring transmissions in this band using an than 0.1% of the time, using a signal that average power technique, the peak-to-average ratio corresponds to the highest PAPR during periods of (PAR) of the transmission may not exceed 13 dB. continuous transmission. Power: 33 dBm EIRP PAPR: 13 dB © CTC advanced GmbH Page 91 of 188 Test report no.: 1-2685/21-03-13 Results: Bandwidth (MHz) 1.4 3 5 Frequency (MHz) 19957 / 1710.7 20175 / 1732.5 20393 / 1754.3 19965 / 1711.5 20175 / 1732.5 20385 / 1753.5 19975 / 1712.5 20175 / 1732.5 20375 / 1752.5 Output Power (conducted) Resource block allocation Average Output Power (dBm) QPSK Peak to Average Ratio (dB) Average Output Power (dBm) 16-QAM Peak to Average Ratio (dB) 1 RB low 18.6 5.9 17.0 7.1 1 RB high 18.4 6.0 17.1 7.1 100% RB 16.5 6.8 16.5 7.4 1 RB low 18.7 6.0 17.1 7.2 1 RB high 18.5 6.1 17.0 7.2 100% RB 16.5 6.8 16.6 7.5 1 RB low 18.4 6.1 17.3 7.1 1 RB high 18.2 6.2 17.1 7.2 100% RB 16.4 7.0 16.4 7.6 1 RB low 18.5 5.9 17.0 7.1 1 RB high 18.3 6.0 17.0 7.1 100% RB 16.4 6.8 16.4 7.4 1 RB low 18.7 5.9 16.3 7.9 1 RB high 17.7 6.8 16.2 8.0 100% RB 16.5 6.8 16.6 7.4 1 RB low 18.5 6.1 17.3 7.2 1 RB high 18.3 6.1 16.4 8.0 100% RB 16.4 7.0 16.4 7.6 1 RB low 20.5 4.1 20.6 4.5 1 RB high 20.4 4.1 20.4 4.6 100% RB 19.1 4.9 18.2 5.9 1 RB low 20.5 4.1 20.5 4.6 1 RB high 20.2 4.3 20.1 4.8 100% RB 19.3 4.9 18.3 5.9 1 RB low 20.3 4.3 20.5 4.7 1 RB high 20.3 4.3 20.3 4.8 100% RB 19.1 5.1 18.2 6.0 © CTC advanced GmbH Page 92 of 188 Test report no.: 1-2685/21-03-13 1 RB low 20.5 4.1 20.3 4.6 20000 / 1715.0 1 RB high 20.3 4.2 20.1 4.7 100% RB 19.0 4.9 19.1 5.4 1 RB low 20.3 4.2 20.3 4.6 10 20175 / 1732.5 1 RB high 20.2 4.2 19.9 4.8 100% RB 19.1 4.9 19.1 5.5 20350 / 1750.0 1 RB low 1 RB high 20.4 20.2 4.3 4.3 20.5 20.3 4.7 4.8 100% RB 19.0 5.0 19.1 5.7 1 RB low 20.2 4.1 20.4 4.5 20025 / 1717.5 1 RB high 20.0 4.3 20.0 4.8 100% RB 20.0 4.5 20.2 4.8 15 20175 / 1732.5 1 RB low 1 RB high 20.3 20.2 4.1 4.2 20.2 20.1 4.6 4.7 100% RB 20.1 4.5 20.1 4.9 1 RB low 20.2 4.2 20.3 4.6 20325 / 1747.5 1 RB high 20.1 4.3 20.0 4.8 100% RB 19.9 4.6 20.1 5.0 20050 / 1720.0 1 RB low 1 RB high 19.8 19.9 4.1 4.2 20.0 20.0 4.6 4.6 100% RB 19.8 4.4 19.9 4.9 1 RB low 20.1 4.1 20.0 4.6 20 20175 / 1732.5 1 RB high 19.8 4.2 19.8 4.7 100% RB 19.8 4.4 19.9 4.9 1 RB low 20.1 4.2 20.3 4.6 20300 / 1745.0 1 RB high 19.9 4.3 19.9 4.8 100% RB 19.8 4.6 19.9 5.0 © CTC advanced GmbH Page 93 of 188 Test report no.: 1-2685/21-03-13 The radiated output power is measured in the mode with the highest conducted output power. Bandwidth (MHz) 1.4 3 5 10 15 20 Frequency (MHz) 1710.7 1732.5 1754.3 1711.5 1732.5 1753.5 1712.5 1732.5 1752.5 1715.0 1732.5 1750.0 1717.5 1732.5 1747.5 1720.0 1732.5 1745.0 Output Power (EIRP) Average Output Power (dBm) QPSK 21.0 22.5 21.3 20.9 22.5 21.4 22.9 24.3 23.2 22.9 24.1 23.3 22.6 24.1 23.1 22.3 23.9 23.0 Average Output Power (dBm) 16-QAM 19.4 20.9 20.2 19.4 20.4 20.2 23.0 24.3 23.4 22.7 24.1 23.4 22.8 24.0 23.2 22.4 23.8 23.2 © CTC advanced GmbH Page 94 of 188 Test report no.: 1-2685/21-03-13 15.3.2 Frequency stability Description: In order to measure the carrier frequency under the condition of AFC lock, it is necessary to make measurements with the mobile station in a "call mode". This is accomplished with the use of a R&S CMW500 DIGITAL RADIOCOMMUNICATION TESTER. 1. Measure the carrier frequency at room temperature. 2. Subject the mobile station to overnight soak at -30 C. 3. With the mobile station, powered with Vnom, connected to the CMW500 and in a simulated call on channel 1412 (center channel), measure the carrier frequency. These measurements should be made within two minutes of powering up the mobile station, to prevent significant self warming. 4. Repeat the above measurements at 10°C increments from -30°C to +50°C. Allow at least 1.5 hours at each temperature, unpowered, before making measurements. 5. Re-measure carrier frequency at room temperature with Vnom. Vary supply voltage from Vmin to Vmax, in 0.1 Volt steps re-measuring carrier frequency at each voltage. Pause at Vnom for 1.5 hours unpowered, to allow any self heating to stabilize, before continuing. 6. At all temperature levels hold the temperature to +/- 0.5°C during the measurement procedure. This measurement was performed with the highest channel bandwidth supported from the EUT on the middle channel Measurement: Detector: Sweep time: Video bandwidth: Resolution bandwidth: Span: Trace-Mode: Used equipment: Measurement uncertainty: Measurement procedure Measurement parameters Measured with CMW500 See chapter See chapter 9 FCC: § 2.1055 ISED: RSS-Gen, 6.11 Limits: FCC § 27.54 The frequency stability shall be sufficient to ensure that the fundamental emissions stay within the authorized bands of operation. ISED RSS-139, 6.4 The frequency stability shall be sufficient to ensure that the occupied bandwidth stays within the operating frequency block when tested to the temperature and supply voltage variations specified in RSS-Gen. © CTC advanced GmbH Page 95 of 188 Test report no.: 1-2685/21-03-13 Results: FREQ ERROR versus VOLTAGE Voltage (V) 3.2 3.6 4.0 FREQ ERROR versus TEMPERATURE Temperature (°C) -30 -20 -10 ± 0 10 20 30 40 50 Frequency Error (Hz) -31 -31 -31 Frequency Error (Hz) 36 24 16 -30 -18 -31 -62 -24 -56 Frequency Error (ppm) -0.0179 -0.0179 -0.0179 Frequency Error (ppm) 0.0208 0.0139 0.0092 -0.0173 -0.0104 -0.0179 -0.0358 -0.0139 -0.0232 © CTC advanced GmbH Page 96 of 188 Test report no.: 1-2685/21-03-13 15.3.3 Spurious emissions radiated Description: The following steps outline the procedure used to measure the radiated emissions from the mobile station. The site is constructed in accordance with ANSI C63.4:2014 requirements and is recognized by the FCC to be in compliance for a 3 and a 10 meter site. The spectrum was scanned from 30 MHz to the 10th harmonic of the highest frequency generated within the equipment, which is the transmitted carrier that can be as high as 1750 MHz. Measurement made up to 18 GHz. The resolution bandwidth is set as outlined in Part 27.53. The spectrum was scanned with the mobile station transmitting at carrier frequencies that pertain to low, mid and high channels of the LTE band 4. Measurement: Detector: Sweep time: Resolution bandwidth: Video bandwidth: Span: Trace mode: Used equipment: Measurement uncertainty: Measurement procedure Measurement parameters Peak 2 sec. 1 MHz 3 MHz 100 MHz Steps Max Hold See chapter See chapter 9 FCC: § 2.1053 ISED: RSS-Gen, 6.13 © CTC advanced GmbH Page 97 of 188 Test report no.: 1-2685/21-03-13 Limits: FCC ISED § 27.53(h)(1) & (3) RSS-139, 6.6 (1) 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. (3) Compliance with this provision is based on the use of measurement instrumentation employing a resolution bandwidth of 1 megahertz or greater. However, in the 1 megahertz bands immediately outside and adjacent to the licensee's frequency block, a resolution bandwidth of at least one percent of the emission bandwidth of the fundamental emission of the transmitter may be employed. The emission bandwidth is defined as the width of the signal between two points, one below the carrier center frequency and one above the carrier center frequency, outside of which all emissions are attenuated at least 26 dB below the transmitter power. i. In the first 1.0 MHz bands immediately outside and adjacent to the equipment's smallest operating frequency block, which can contain the equipment's 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. ii. After the first 1.0 MHz outside the equipment's smallest operating frequency block, which can contain the equipment's 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. -13 dBm © CTC advanced GmbH Page 98 of 188 Test report no.: 1-2685/21-03-13 Results: QPSK LOWEST CHANNEL Spurious emissions Level [dBm] All detected spurious emissions are more than 20 dB below the limit. SPURIOUS EMISSION LEVEL MIDDLE CHANNEL Spurious emissions Level [dBm] All detected spurious emissions are more than 20 dB below the limit. HIGHEST CHANNEL Spurious emissions Level [dBm] All detected spurious emissions are more than 20 dB below the limit. 16-QAM LOWEST CHANNEL Spurious emissions Level [dBm] All detected spurious emissions are more than 20 dB below the limit. SPURIOUS EMISSION LEVEL MIDDLE CHANNEL Spurious emissions Level [dBm] All detected spurious emissions are more than 20 dB below the limit. HIGHEST CHANNEL Spurious emissions Level [dBm] All detected spurious emissions are more than 20 dB below the limit. © CTC advanced GmbH Page 99 of 188 Test report no.: 1-2685/21-03-13 QPSK Plot 1: Middle channel, up to 30 MHz 20 dBm 10 0 -10 -20 -30 -40 -50 -60 -70 -80 -90 9kHz 100k 1M Frequency Plot 2: Middle channel, 30 MHz to 1GHz 40 dBm 30 20 10 0 -10 -20 -30 -40 -50 -60 -70 -80 -90 30MHz 100M Frequency 10M 30MHz 1GHz © CTC advanced GmbH Page 100 of 188 Test report no.: 1-2685/21-03-13 Plot 3: Middle channel, 1 GHz to 18GHz 40 dBm 30 20 10 0 -10 -20 -30 -40 -50 -60 -70 -80 -90 1GHz Frequency 10G 18GHz © CTC advanced GmbH Page 101 of 188 Test report no.: 1-2685/21-03-13 16-QAM Plot 1: Middle channel, up to 30 MHz 20 dBm 10 0 -10 -20 -30 -40 -50 -60 -70 -80 -90 9kHz 100k 1M Frequency Plot 2: Middle channel, 30 MHz to 1 GHz 40 dBm 30 20 10 0 -10 -20 -30 -40 -50 -60 -70 -80 -90 30MHz 100M Frequency 10M 30MHz 1GHz © CTC advanced GmbH Page 102 of 188 Test report no.: 1-2685/21-03-13 Plot 3: Middle channel, 1 GHz to 18 GHz 40 dBm 30 20 10 0 -10 -20 -30 -40 -50 -60 -70 -80 -90 1GHz Frequency 10G 18GHz © CTC advanced GmbH Page 103 of 188 Test report no.: 1-2685/21-03-13 15.3.4 Spurious emissions conducted Description: The following steps outline the procedure used to measure the conducted emissions from the mobile station. 1. Determine frequency range for measurements: From § 2.1057 & RSS-Gen, 6.13.2 the spectrum should be investigated from the lowest radio frequency generated in the equipment up to at least the 10th harmonic of the carrier frequency. 2. Determine mobile station transmits frequencies: below outlines the band edge frequencies pertinent to conducted emissions testing. For the measurement the lowest, middle and highest channel bandwidth was used. If spurious were found the other bandwidths were measured, too. Measurement: Detector: Sweep time: Video bandwidth: Resolution bandwidth: Span: Trace-Mode: Used equipment: Measurement uncertainty: Measurement procedure Measurement parameters Peak Auto 300 kHz 100 kHz 10 MHz 18 GHz Max Hold See chapter See chapter 9 FCC: § 2.1051 ISED: RSS-Gen, 6.13 © CTC advanced GmbH Page 104 of 188 Test report no.: 1-2685/21-03-13 Limits: FCC ISED § 27.53(h)(1) & (3) RSS-139, 6.6 (1) 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. (3) Compliance with this provision is based on the use of measurement instrumentation employing a resolution bandwidth of 1 megahertz or greater. However, in the 1 megahertz bands immediately outside and adjacent to the licensee's frequency block, a resolution bandwidth of at least one percent of the emission bandwidth of the fundamental emission of the transmitter may be employed. The emission bandwidth is defined as the width of the signal between two points, one below the carrier center frequency and one above the carrier center frequency, outside of which all emissions are attenuated at least 26 dB below the transmitter power. i. In the first 1.0 MHz bands immediately outside and adjacent to the equipment's smallest operating frequency block, which can contain the equipment's 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. ii. After the first 1.0 MHz outside the equipment's smallest operating frequency block, which can contain the equipment's 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. -13 dBm © CTC advanced GmbH Page 105 of 188 Test report no.: 1-2685/21-03-13 Results: for 1.4 MHz channel bandwidth QPSK LOWEST CHANNEL Spurious emissions Level [dBm] 3421.4 - 5132.1 - 6842.8 - 8553.5 - 10264.2 - 11974.9 - 13685.6 - 15396.3 - 17107.0 - SPURIOUS EMISSION LEVEL MIDDLE CHANNEL Spurious emissions Level [dBm] 3465.0 - 5197.5 - 6930.0 - 8662.5 - 10395.0 - 12127.5 - 13860.0 - 15592.5 - 17325.0 - HIGHEST CHANNEL Spurious emissions Level [dBm] 3508.6 - 5262.9 - 7017.2 - 8771.5 - 10525.8 - 12280.1 - 14034.4 - 15788.7 - 17543.0 - 16-QAM LOWEST CHANNEL Spurious emissions Level [dBm] 3421.4 - 5132.1 - 6842.8 - 8553.5 - 10264.2 - 11974.9 - 13685.6 - 15396.3 - 17107.0 - SPURIOUS EMISSION LEVEL MIDDLE CHANNEL Spurious emissions Level [dBm] 3465.0 - 5197.5 - 6930.0 - 8662.5 - 10395.0 - 12127.5 - 13860.0 - 15592.5 - 17325.0 - HIGHEST CHANNEL Spurious emissions Level [dBm] 3508.6 - 5262.9 - 7017.2 - 8771.5 - 10525.8 - 12280.1 - 14034.4 - 15788.7 - 17543.0 - © CTC advanced GmbH Page 106 of 188 Test report no.: 1-2685/21-03-13 Plots for 1.4 MHz channel bandwidth, QPSK Plot 1: Lowest channel, 10 MHz to 18 GHz © CTC advanced GmbH Page 107 of 188 Test report no.: 1-2685/21-03-13 Plot 2: Middle channel, 10 MHz to 18 GHz © CTC advanced GmbH Page 108 of 188 Test report no.: 1-2685/21-03-13 Plot 3: Highest channel, 10 MHz to 18 GHz © CTC advanced GmbH Page 109 of 188 Test report no.: 1-2685/21-03-13 Plots for 1.4 MHz channel bandwidth, 16-QAM Plot 1: Lowest channel, 10 MHz to 18 GHz © CTC advanced GmbH Page 110 of 188 Test report no.: 1-2685/21-03-13 Plot 2: Middle channel, 10 MHz to 18 GHz © CTC advanced GmbH Page 111 of 188 Test report no.: 1-2685/21-03-13 Plot 3: Highest channel, 10 MHz to 18 GHz © CTC advanced GmbH Page 112 of 188 Test report no.: 1-2685/21-03-13 15.3.5 Block edge compliance Description: The spectrum at the band edges must comply with the spurious emissions limits. For the measurement the lowest, middle and highest channel bandwidth was used. If spurious were found the other bandwidths were measured, too. Measurement: Detector: Sweep time: Video bandwidth: Resolution bandwidth: Span: Trace-Mode: Used equipment: Measurement uncertainty: Measurement procedure Measurement parameters RMS 180s 100 kHz 20 kHz 1 MHz Max Hold See chapter 7.2 setup A See chapter 9 FCC: § 2.1051 ISED: RSS-Gen, 6.13 © CTC advanced GmbH Page 113 of 188 Test report no.: 1-2685/21-03-13 Limits: FCC ISED § 27.53(h)(1) & (3) RSS-139, 6.6 (1) 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. (3) Compliance with this provision is based on the use of measurement instrumentation employing a resolution bandwidth of 1 megahertz or greater. However, in the 1 megahertz bands immediately outside and adjacent to the licensee's frequency block, a resolution bandwidth of at least one percent of the emission bandwidth of the fundamental emission of the transmitter may be employed. The emission bandwidth is defined as the width of the signal between two points, one below the carrier i. In the first 1.0 MHz bands immediately outside and adjacent to the equipment's smallest operating frequency block, which can contain the equipment's 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. ii. After the first 1.0 MHz outside the equipment's smallest operating frequency block, which can contain the equipment's 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. center frequency and one above the carrier center frequency, outside of which all emissions are attenuated at least 26 dB below the transmitter power. -13 dBm Correction factor according to KDB 890810 if RBW < 1 % emission bandwidth: N/A here 10 log (RBW1/RBW2) = X dB; whereas: RBW1 = Y, RBW2 = Z © CTC advanced GmbH Page 114 of 188 Test report no.: 1-2685/21-03-13 Results: 1.4 MHz channel bandwidth Plot 1: Lowest channel, QPSK modulation Date: 23.FEB.2022 08:23:24 Plot 2: Highest channel, QPSK modulation Date: 23.FEB.2022 09:21:11 © CTC advanced GmbH Page 115 of 188 Test report no.: 1-2685/21-03-13 Plot 3: Lowest channel, 16 QAM modulation Date: 23.FEB.2022 08:39:22 Plot 4: Highest channel, 16 QAM modulation Date: 23.FEB.2022 09:37:10 © CTC advanced GmbH Page 116 of 188 Test report no.: 1-2685/21-03-13 15.3.6 Occupied bandwidth Description: Measurement of the occupied bandwidth of the transmitted signal. Measurement: Similar to conducted emissions, occupied bandwidth measurements are only provided for selected frequencies in order to reduce the amount of submitted data. Data were taken at the mid frequencies of the LTE band 4 frequency band. The table below lists the measured 99% power and -26dBc occupied bandwidths. Spectrum analyzer plots are included on the following pages. Part 27.53 requires a measurement bandwidth of at least 1% of the occupied bandwidth. Detector: Sweep time: Video bandwidth: Resolution bandwidth: Span: Trace-Mode: Used equipment: Measurement uncertainty: Measurement procedure Measurement parameters Peak 180s 100 kHz 30 kHz 2 x nominal bandwidth Max Hold See chapter 7.4 setup A See chapter 9 FCC: § 2.1049 ISED: RSS-Gen, 6.7 Limits: FCC § 2.1049 Reporting only ISED RSS-Gen, 6.7 © CTC advanced GmbH Page 117 of 188 Test report no.: 1-2685/21-03-13 Results: Frequency (MHz) 1710.7 1732.5 1754.3 Occupied Bandwidth QPSK 99% OBW (kHz) 1091 1093 1091 Frequency (MHz) 1710.7 1732.5 1754.3 Occupied Bandwidth 16-QAM 99% OBW (kHz) 1091 1093 1091 -26 dBc BW (kHz) 1271 1278 1275 -26 dBc BW (kHz) 1270 1284 1269 © CTC advanced GmbH Page 118 of 188 Test report no.: 1-2685/21-03-13 Plots: QPSK Plot 1: low channel, 99% OBW Date: 23.FEB.2022 08:26:34 Plot 2: low channel, -26 dBc OBW Date: 23.FEB.2022 08:29:44 © CTC advanced GmbH Page 119 of 188 Test report no.: 1-2685/21-03-13 Plot 3: mid channel, 99% OBW Date: 23.FEB.2022 08:55:25 Plot 4: mid channel, -26 dBc OBW Date: 23.FEB.2022 08:58:37 © CTC advanced GmbH Page 120 of 188 Test report no.: 1-2685/21-03-13 Plot 5: high channel, 99% OBW Date: 23.FEB.2022 09:24:21 Plot 6: high channel, -26 dBc OBW Date: 23.FEB.2022 09:27:32 © CTC advanced GmbH Page 121 of 188 Test report no.: 1-2685/21-03-13 Plots: 16-QAM Plot 1: low channel, 99% OBW Date: 23.FEB.2022 08:42:32 Plot 2: low channel, -26 dBc OBW Date: 23.FEB.2022 08:45:41 © CTC advanced GmbH Page 122 of 188 Test report no.: 1-2685/21-03-13 Plot 3: mid channel, 99% OBW Date: 23.FEB.2022 09:08:16 Plot 4: mid channel, -26 dBc OBW Date: 23.FEB.2022 09:11:28 © CTC advanced GmbH Page 123 of 188 Test report no.: 1-2685/21-03-13 Plot 5: high channel, 99% OBW Date: 23.FEB.2022 09:40:20 Plot 6: high channel, -26 dBc OBW Date: 23.FEB.2022 09:43:31 © CTC advanced GmbH Page 124 of 188 Test report no.: 1-2685/21-03-13 15.4 Results LTE band 12 The EUT was set to transmit the maximum power. 15.4.1 RF output power Description: This paragraph contains average power, peak output power and EIRP measurements for the mobile station. In all cases, the peak output power is within the required mask (this mask is specified in the JTC standards, TIA PN3389 Vol. 1 Chap 7, and is no FCC requirement). Measurement: The mobile was set up for the maximum output power with pseudo random data modulation. To determine the Peak-To-Average Power Ratio (PAPR) the measurement was performed with the Power Complementary Cumulative Distribution Function (CCDF). Detector: AQT: Resolution bandwidth: Used equipment: Measurement uncertainty: Measurement procedure Measurement parameters Sample See plot 1 MHz See chapter 7.2 setup A See chapter 9 FCC: § 2.1046 ISED: RSS-Gen, 6.12 © CTC advanced GmbH Page 125 of 188 Test report no.: 1-2685/21-03-13 Limits: FCC ISED 47 CFR 27.50(c)(9) RSS-130, 4.6.1 & 4.6.3 4.6.1: The transmitter output power shall be measured in terms of average power. In addition, the peak-to-average power ratio (PAPR) of the Portable stations (hand-held devices) in the 600 MHz uplink band and the 698-746 MHz band, and fixed and mobile stations in the 600 MHz uplink band are limited to 3 watts ERP. 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. 4.6.3: The e.r.p. shall not exceed 30 watts for mobile equipment and outdoor fixed subscriber equipment. The e.r.p. shall not exceed 3 watts for portable equipment and indoor fixed subscriber equipment. Power: 34.77 dBm ERP PAPR: 13 dB (ISED only) © CTC advanced GmbH Page 126 of 188 Test report no.: 1-2685/21-03-13 Results: Bandwidth (MHz) 1.4 3 5 10 Frequency (MHz) 23017 / 699.7 23095 / 707.5 23173 / 715.3 23025 / 700.5 23095 / 707.5 23165 / 714.5 23035 / 701.5 23095 / 707.5 23155 / 713.5 23060 / 704.0 23095 / 707.5 23130 / 711.0 Output Power (conducted) Resource block allocation Average Output Power (dBm) QPSK Peak to Average Ratio (dB) Average Output Power (dBm) 16-QAM Peak to Average Ratio (dB) 1 RB low 17.5 5.9 16.3 7.0 1 RB high 17.6 5.9 16.2 7.0 100% RB 15.7 6.5 15.5 7.2 1 RB low 17.8 5.9 16.8 6.9 1 RB high 17.7 5.9 16.8 6.9 100% RB 15.9 6.4 16.0 7.2 1 RB low 18.0 5.8 16.6 6.9 1 RB high 17.9 5.9 16.5 6.9 100% RB 15.4 5.2 16.1 7.2 1 RB low 17.5 5.9 15.5 7.7 1 RB high 17.5 6.0 16.2 7.0 100% RB 15.7 6.5 15.5 7.2 1 RB low 17.7 5.9 16.7 6.9 1 RB high 17.7 5.9 16.5 7.0 100% RB 15.8 6.5 16.0 7.2 1 RB low 17.3 6.6 16.7 6.9 1 RB high 18.0 5.9 16.6 6.9 100% RB 16.1 6.5 15.7 6.8 1 RB low 19.5 4.2 19.6 4.7 1 RB high 19.4 4.2 19.2 5.0 100% RB 18.2 4.7 17.5 5.7 1 RB low 19.7 4.1 19.5 4.6 1 RB high 19.6 4.1 19.3 4.7 100% RB 18.3 4.7 17.5 5.7 1 RB low 20.1 4.0 20.5 4.2 1 RB high 20.0 4.0 20.4 4.3 100% RB 18.7 4.7 17.9 5.6 1 RB low 19.4 4.1 19.4 4.7 1 RB high 19.3 4.2 19.5 4.7 100% RB 18.2 4.7 18.4 5.5 1 RB low 19.6 4.1 19.3 4.7 1 RB high 19.5 4.1 19.2 4.7 100% RB 18.3 4.7 18.3 5.4 1 RB low 20.1 4.0 20.4 4.3 1 RB high 19.9 4.0 20.4 4.3 100% RB 18.8 4.7 18.8 5.3 © CTC advanced GmbH Page 127 of 188 Test report no.: 1-2685/21-03-13 The radiated output power is measured in the mode with the highest conducted output power. Bandwidth (MHz) 1.4 3 5 10 Frequency (MHz) 699.7 707.5 715.3 700.5 707.5 714.5 701.5 707.5 713.5 704.0 707.5 711.0 Output Power (ERP) Average Output Power (dBm) QPSK 10.7 10.6 10.6 10.6 10.5 10.6 12.6 12.5 12.7 12.5 12.4 12.7 Average Output Power (dBm) 16-QAM 9.4 9.6 9.2 9.3 9.5 9.3 12.7 12.3 13.1 12.6 12.1 13.0 © CTC advanced GmbH Page 128 of 188 Test report no.: 1-2685/21-03-13 15.4.2 Frequency stability Description: In order to measure the carrier frequency under the condition of AFC lock, it is necessary to make measurements with the mobile station in a "call mode". This is accomplished with the use of a R&S CMW500 DIGITAL RADIOCOMMUNICATION TESTER. 1. Measure the carrier frequency at room temperature. 2. Subject the mobile station to overnight soak at -30 C. 3. With the mobile station, powered with Vnom, connected to the CMW500 and in a simulated call on channel 1412 (centre channel), measure the carrier frequency. These measurements should be made within two minutes of powering up the mobile station, to prevent significant self warming. 4. Repeat the above measurements at 10°C increments from -30°C to +50°C. Allow at least 1.5 hours at each temperature, unpowered, before making measurements. 5. Remeasure carrier frequency at room temperature with Vnom. Vary supply voltage from Vmin to Vmax, in 0.1 Volt steps remeasuring carrier frequency at each voltage. Pause at Vnom for 1.5 hours unpowered, to allow any self heating to stabilize, before continuing. 6. At all temperature levels hold the temperature to +/- 0.5°C during the measurement procedure. This measurement was performed with the highest channel bandwidth supported from the EUT on the middle channel Measurement: Detector: Sweep time: Video bandwidth: Resolution bandwidth: Span: Trace-Mode: Used equipment: Measurement uncertainty: Measurement procedure Measurement parameters Measured with CMW500 See chapter 7.4 setup A See chapter 9 FCC: § 2.1055 ISED: RSS-Gen, 6.11 © CTC advanced GmbH Page 129 of 188 Test report no.: 1-2685/21-03-13 Limits: FCC § 27.54 The frequency stability shall be sufficient to ensure that the fundamental emissions stay within the authorized bands of operation. ISED RSS-130, 4.5 The frequency stability shall be sufficient to ensure that the occupied bandwidth remains within each frequency block range when tested at the temperature and supply voltage variations specified in RSS-Gen. Results: FREQ ERROR versus VOLTAGE Voltage (V) 3.2 3.6 4.0 Frequency Error (Hz) -16 -16 -16 Frequency Error (ppm) -0.0226 -0.0226 -0.0226 FREQ ERROR versus TEMPERATURE Temperature (°C) -30 -20 -10 ± 0 10 20 30 40 50 Frequency Error (Hz) 17 18 20 -16 -11 -16 -15 -37 -24 Frequency Error (ppm) 0.0240 0.0254 0.0283 -0.0226 -0.0155 -0.0226 -0.0212 -0.0523 -0.0339 Additional measurements for RSS-130 (4.3 b) fL =699.047104 MHz fL (max freq. error) = 699.047067 MHz fH = 715.943104 MHz fH + (max freq. error) = 715.943141 MHz © CTC advanced GmbH Page 130 of 188 Test report no.: 1-2685/21-03-13 15.4.3 Spurious emissions radiated Description: The following steps outline the procedure used to measure the radiated emissions from the mobile station. The site is constructed in accordance with ANSI C63.4:2014 requirements and is recognized by the FCC to be in compliance for a 3 and a 10 meter site. The spectrum was scanned from 30 MHz to the 10th harmonic of the highest frequency generated within the equipment, which is the transmitted carrier that can be as high as 711 MHz. Measured up to 8 GHz. The resolution bandwidth is set as outlined in Part 27.53. The spectrum was scanned with the mobile station transmitting at carrier frequencies that pertain to low, mid and high channels of the LTE band 12. Measurement: Detector: Sweep time: Resolution bandwidth: Video bandwidth: Span: Trace mode: Used equipment: Measurement uncertainty: Measurement procedure Measurement parameters Peak 2 sec. 1 MHz 3 MHz 100 MHz Steps Max Hold See chapter See chapter 9 FCC: § 2.1053 ISED: RSS-Gen, 6.13 Limits: FCC ISED § 27.53(g) RSS-130, 4.7.1 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. The unwanted emissions in any 100 kHz bandwidth on any frequency outside the low frequency edge and the high frequency edge of each frequency block range(s), 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 of the equipment's frequency block range, a resolution bandwidth of 30 kHz may be employed. -13 dBm © CTC advanced GmbH Page 131 of 188 Test report no.: 1-2685/21-03-13 Results: QPSK LOWEST CHANNEL Spurious emissions Level [dBm] All detected spurious emissions are more than 20 dB below the limit. SPURIOUS EMISSION LEVEL MIDDLE CHANNEL Spurious emissions Level [dBm] All detected spurious emissions are more than 20 dB below the limit. HIGHEST CHANNEL Spurious emissions Level [dBm] All detected spurious emissions are more than 20 dB below the limit. 16-QAM LOWEST CHANNEL Spurious emissions Level [dBm] All detected spurious emissions are more than 20 dB below the limit. SPURIOUS EMISSION LEVEL MIDDLE CHANNEL Spurious emissions Level [dBm] All detected spurious emissions are more than 20 dB below the limit. HIGHEST CHANNEL Spurious emissions Level [dBm] All detected spurious emissions are more than 20 dB below the limit. © CTC advanced GmbH Page 132 of 188 Test report no.: 1-2685/21-03-13 QPSK Plot 1: Middle channel, up to 30 MHz 20 dBm 10 0 -10 -20 -30 -40 -50 -60 -70 -80 -90 9kHz 100k 1M Frequency Plot 2: Middle channel, 30 MHz to 1 GHz 50 dBm 40 20 0 -20 -40 -60 -80 -100 30MHz 100M Frequency 10M 30MHz 1GHz © CTC advanced GmbH Page 133 of 188 Test report no.: 1-2685/21-03-13 Plot 3: Middle channel, 1 GHz to 8 GHz 50 dBm 40 20 0 -20 -40 -60 -80 -100 1GHz Frequency 8GHz © CTC advanced GmbH Page 134 of 188 Test report no.: 1-2685/21-03-13 16-QAM Plot 1: Middle channel, up to 30 MHz 20 dBm 10 0 -10 -20 -30 -40 -50 -60 -70 -80 -90 9kHz 100k 1M Frequency Plot 2: Middle channel, 30 MHz to 1 GHz 50 dBm 40 20 0 -20 -40 -60 -80 -100 30MHz 100M Frequency 10M 30MHz 1GHz © CTC advanced GmbH Page 135 of 188 Test report no.: 1-2685/21-03-13 Plot 3: Middle channel, 1 GHz to 8 GHz 50 dBm 40 20 0 -20 -40 -60 -80 -100 1GHz Frequency 8GHz © CTC advanced GmbH Page 136 of 188 Test report no.: 1-2685/21-03-13 15.4.4 Spurious emissions conducted Description: The following steps outline the procedure used to measure the conducted emissions from the mobile station. 1. Determine frequency range for measurements: From § 2.1057 & RSS-Gen, 6.13.2 the spectrum should be investigated from the lowest radio frequency generated in the equipment up to at least the 10th harmonic of the carrier frequency. 2. Determine mobile station transmits frequencies: below outlines the band edge frequencies pertinent to conducted emissions testing. Measurement: Detector: Sweep time: Video bandwidth: Resolution bandwidth: Span: Trace-Mode: Used equipment: Measurement uncertainty: Measurement procedure Measurement parameters Peak Auto 300 kHz 100 kHz 10 MHz 7.5 GHz Max Hold See chapter 7.4 setup A See chapter 9 FCC: § 2.1051 ISED: RSS-Gen, 6.13 Limits: FCC ISED § 27.53(g) RSS-130, 4.7.1 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. The unwanted emissions in any 100 kHz bandwidth on any frequency outside the low frequency edge and the high frequency edge of each frequency block range(s), 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 of the equipment's frequency block range, a resolution bandwidth of 30 kHz may be employed. -13 dBm © CTC advanced GmbH Page 137 of 188 Test report no.: 1-2685/21-03-13 Results: for 1.4 MHz channel bandwidth QPSK LOWEST CHANNEL Spurious emissions Level [dBm] 1399.4 - 2099.1 - 2798.8 - 3498.5 - 4198.2 - 4897.9 - 5597.6 - 6297.3 - 6997.0 - SPURIOUS EMISSION LEVEL MIDDLE CHANNEL Spurious emissions Level [dBm] 1415.0 - 2122.5 - 2830.0 - 3537.5 - 4245.0 - 4952.5 - 5660.0 - 6367.5 - 7075.0 - HIGHEST CHANNEL Spurious emissions Level [dBm] 1430.6 - 2145.9 - 2861.2 - 3576.5 - 4291.8 - 5007.1 - 5722.4 - 6437.7 - 7153.0 - 16-QAM LOWEST CHANNEL Spurious emissions Level [dBm] 1399.4 - 2099.1 - 2798.8 - 3498.5 - 4198.2 - 4897.9 - 5597.6 - 6297.3 - 6997.0 - SPURIOUS EMISSION LEVEL MIDDLE CHANNEL Spurious emissions Level [dBm] 1415.0 - 2122.5 - 2830.0 - 3537.5 - 4245.0 - 4952.5 - 5660.0 - 6367.5 - 7075.0 - HIGHEST CHANNEL Spurious emissions Level [dBm] 1430.6 - 2145.9 - 2861.2 - 3576.5 - 4291.8 - 5007.1 - 5722.4 - 6437.7 - 7153.0 - © CTC advanced GmbH Page 138 of 188 Test report no.: 1-2685/21-03-13 Plots for 1.4 MHz channel bandwidth, QPSK Plot 1: Lowest channel, 10 MHz to 7.5 GHz © CTC advanced GmbH Page 139 of 188 Test report no.: 1-2685/21-03-13 Plot 2: Middle channel, 10 MHz to 7.5 GHz © CTC advanced GmbH Page 140 of 188 Test report no.: 1-2685/21-03-13 Plot 3: Highest channel, 10 MHz to 7.5 GHz © CTC advanced GmbH Page 141 of 188 Test report no.: 1-2685/21-03-13 Plots for 1.4 MHz channel bandwidth, 16-QAM Plot 1: Lowest channel, 10 MHz to 7.5 GHz © CTC advanced GmbH Page 142 of 188 Test report no.: 1-2685/21-03-13 Plot 2: Middle channel, 10 MHz to 7.5 GHz © CTC advanced GmbH Page 143 of 188 Test report no.: 1-2685/21-03-13 Plot 3: Highest channel, 10 MHz to 7.5 GHz © CTC advanced GmbH Page 144 of 188 Test report no.: 1-2685/21-03-13 15.4.5 Block edge compliance Description: The spectrum at the band edges must comply with the spurious emissions limits. Measurement: Detector: Sweep time: Video bandwidth: Resolution bandwidth: Span: Trace-Mode: Used equipment: Measurement uncertainty: Measurement procedure Measurement parameters RMS 180s 300 kHz 100 kHz 1 MHz Max Hold See chapter 7.4 setup A See chapter 9 FCC: § 2.1051 ISED: RSS-Gen, 6.13 Limits: FCC ISED § 27.53(g) RSS-130, 4.7.1 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 The unwanted emissions in any 100 kHz bandwidth attenuated below the transmitter power (P) within on any frequency outside the low frequency edge the licensed band(s) of operation, measured in and the high frequency edge of each frequency watts, by at least 43 + 10 log (P) dB. Compliance block range(s), shall be attenuated below the with this provision is based on the use of transmitter power, P (dBW), by at least 43 + 10 log10 measurement instrumentation employing a p (watts), dB. However, in the 100 kHz band resolution bandwidth of 100 kilohertz or greater. immediately outside of the equipment's frequency However, in the 100 kilohertz bands immediately block range, a resolution bandwidth of 30 kHz may outside and adjacent to a licensee's frequency block, be employed. a resolution bandwidth of at least 30 kHz may be employed. -13 dBm Correction factor according to KDB 890810 if RBW < 1 % emission bandwidth: N/A here 10 log (RBW1/RBW2) = X dB; whereas: RBW1 = Y, RBW2 = Z © CTC advanced GmbH Page 145 of 188 Test report no.: 1-2685/21-03-13 Results: 1.4 MHz channel bandwidth Plot 1: Lowest channel, QPSK modulation Date: 23.FEB.2022 11:18:54 Plot 2: Highest channel, QPSK modulation Date: 23.FEB.2022 12:36:13 © CTC advanced GmbH Page 146 of 188 Test report no.: 1-2685/21-03-13 Plot 3: Lowest channel, 16 QAM modulation Date: 23.FEB.2022 11:31:09 Plot 4: Highest channel, 16 QAM modulation Date: 23.FEB.2022 12:48:28 © CTC advanced GmbH Page 147 of 188 Test report no.: 1-2685/21-03-13 15.4.6 Occupied bandwidth Description: Measurement of the occupied bandwidth of the transmitted signal. Measurement: Similar to conducted emissions, occupied bandwidth measurements are only provided for selected frequencies in order to reduce the amount of submitted data. Data were taken at the mid frequencies of the LTE band 12 frequency band. The table below lists the measured 99% power and -26dBc occupied bandwidths. Spectrum analyzer plots are included on the following pages. Part 27.53 requires a measurement bandwidth of at least 1% of the occupied bandwidth. Detector: Sweep time: Video bandwidth: Resolution bandwidth: Span: Trace-Mode: Used equipment: Measurement uncertainty: Measurement procedure Measurement parameters Peak 180s 100 kHz 30 kHz 2 x nominal bandwidth Max Hold See chapter 7.4 setup A See chapter 9 FCC: § 2.1049 ISED: RSS-Gen, 6.7 Limits: FCC § 2.1049 Reporting only ISED RSS-Gen, 6.7 © CTC advanced GmbH Page 148 of 188 Test report no.: 1-2685/21-03-13 Results: Frequency (MHz) 699.7 707.5 715.3 Occupied Bandwidth QPSK 99% OBW (kHz) 1099 1098 1098 Frequency (MHz) 699.7 707.5 715.3 Occupied Bandwidth 16-QAM 99% OBW (kHz) 1099 1098 1098 -26 dBc BW (kHz) 1301 1295 1295 -26 dBc BW (kHz) 1293 1293 1293 © CTC advanced GmbH Page 149 of 188 Test report no.: 1-2685/21-03-13 Plots: QPSK Plot 1: low channel, 99% OBW Date: 23.FEB.2022 11:22:05 Plot 2: low channel, -26 dBc OBW Date: 23.FEB.2022 11:25:16 © CTC advanced GmbH Page 150 of 188 Test report no.: 1-2685/21-03-13 Plot 3: mid channel, 99% OBW Date: 23.FEB.2022 11:44:38 Plot 4: mid channel, -26 dBc OBW Date: 23.FEB.2022 11:47:49 © CTC advanced GmbH Page 151 of 188 Test report no.: 1-2685/21-03-13 Plot 5: high channel, 99% OBW Date: 23.FEB.2022 12:39:23 Plot 6: high channel, -26 dBc OBW Date: 23.FEB.2022 12:42:33 © CTC advanced GmbH Page 152 of 188 Test report no.: 1-2685/21-03-13 Plots: 16-QAM Plot 1: low channel, 99% OBW Date: 23.FEB.2022 11:34:20 Plot 2: low channel, -26 dBc OBW Date: 23.FEB.2022 11:37:31 © CTC advanced GmbH Page 153 of 188 Test report no.: 1-2685/21-03-13 Plot 3: mid channel, 99% OBW Date: 23.FEB.2022 11:53:43 Plot 4: mid channel, -26 dBc OBW Date: 23.FEB.2022 11:56:54 © CTC advanced GmbH Page 154 of 188 Test report no.: 1-2685/21-03-13 Plot 5: high channel, 99% OBW Date: 23.FEB.2022 12:51:38 Plot 6: high channel, -26 dBc OBW Date: 23.FEB.2022 12:54:48 © CTC advanced GmbH Page 155 of 188 Test report no.: 1-2685/21-03-13 15.5 Results LTE band 13 The EUT was set to transmit the maximum power. 15.5.1 RF output power Description: This paragraph contains average power, peak output power and EIRP measurements for the mobile station. In all cases, the peak output power is within the required mask (this mask is specified in the JTC standards, TIA PN3389 Vol. 1 Chap 7, and is no FCC requirement). Measurement: The mobile was set up for the maximum output power with pseudo random data modulation. To determine the Peak-To-Average Power Ratio (PAPR) the measurement was performed with the Power Complementary Cumulative Distribution Function (CCDF). Detector: AQT: Resolution bandwidth: Used equipment: Measurement uncertainty: Measurement procedure Measurement parameters Sample See plot 1 MHz See chapter 7.4 setup A See chapter 9 FCC: § 2.1046 ISED: RSS-Gen, 6.12 Limits: FCC ISED § 27.50(b)(10) RSS-130, 4.6.1 & 4.6.3 4.6.1: The transmitter output power shall be measured in terms of average power. In addition, the peak-to-average power ratio (PAPR) of the transmitter shall not exceed 13 Portable stations (hand-held devices) transmitting in the 746-757 MHz, 776-788 MHz, and 805-806 MHz bands are limited to 3 watts ERP. dB for more than 0.1% of the time and shall use a signal corresponding to the highest PAPR during periods of continuous transmission. 4.6.3: The e.r.p. shall not exceed 30 watts for mobile equipment and outdoor fixed subscriber equipment. The e.r.p. shall not exceed 3 watts for portable equipment and indoor fixed subscriber equipment. Power: 34.77 dBm ERP PAPR: 13 dB (ISED only) © CTC advanced GmbH Page 156 of 188 Test report no.: 1-2685/21-03-13 Results: Bandwidth (MHz) 5 10 Frequency (MHz) 23205 / 779.5 23230 / 782 23255 / 784.5 23230 / 782 Output Power (conducted) Resource block allocation Average Output Power (dBm) QPSK Peak to Average Ratio (dB) Average Output Power (dBm) 16-QAM Peak to Average Ratio (dB) 1 RB low 19.5 4.5 20.1 4.8 1 RB high 19.7 4.4 20.1 4.8 100% RB 18.5 5.0 17.7 6.0 1 RB low 20.2 4.2 20.0 4.8 1 RB high 20.1 4.3 19.9 4.8 100% RB 18.7 5.0 17.8 6.0 1 RB low 20.2 4.3 20.5 4.6 1 RB high 20.0 4.3 20.3 4.7 100% RB 18.8 5.0 17.9 5.9 1 RB low 19.9 4.3 20.4 4.7 1 RB high 19.6 4.4 20.3 4.7 100% RB 18.7 4.9 18.9 5.7 The radiated output power is measured in the mode with the highest conducted output power. Bandwidth (MHz) 5 10 Frequency (MHz) 779.5 782.0 784.5 782.0 Output Power (ERP) Average Output Power (dBm) QPSK 14.5 14.9 14.7 14.7 Average Output Power (dBm) 16-QAM 14.9 14.7 15.0 15.2 © CTC advanced GmbH Page 157 of 188 Test report no.: 1-2685/21-03-13 15.5.2 Frequency stability Description: In order to measure the carrier frequency under the condition of AFC lock, it is necessary to make measurements with the mobile station in a "call mode". This is accomplished with the use of a R&S CMW500 DIGITAL RADIOCOMMUNICATION TESTER. 1. Measure the carrier frequency at room temperature. 2. Subject the mobile station to overnight soak at -30 C. 3. With the mobile station, powered with Vnom, connected to the CMW500 and in a simulated call on channel 1412 (center channel), measure the carrier frequency. These measurements should be made within two minutes of powering up the mobile station, to prevent significant self warming. 4. Repeat the above measurements at 10°C increments from -30°C to +50°C. Allow at least 1.5 hours at each temperature, unpowered, before making measurements. 5. Re-measure carrier frequency at room temperature with Vnom. Vary supply voltage from Vmin to Vmax, in 0.1 Volt steps re-measuring carrier frequency at each voltage. Pause at Vnom for 1.5 hours unpowered, to allow any self heating to stabilize, before continuing. 6. At all temperature levels hold the temperature to +/- 0.5°C during the measurement procedure. This measurement was performed with the highest channel bandwidth supported from the EUT on the middle channel Measurement: Detector: Sweep time: Video bandwidth: Resolution bandwidth: Span: Trace-Mode: Used equipment: Measurement uncertainty: Measurement procedure Measurement parameters Measured with CMW500 See chapter 7.4 setup A See chapter 9 FCC: § 2.1055 ISED: RSS-Gen, 6.11 Limits: FCC § 27.54 The frequency stability shall be sufficient to ensure that the fundamental emissions stay within the authorized bands of operation. ISED RSS-130, 4.5 The frequency stability shall be sufficient to ensure that the occupied bandwidth remains within each frequency block range when tested at the temperature and supply voltage variations specified in RSS-Gen. © CTC advanced GmbH Page 158 of 188 Test report no.: 1-2685/21-03-13 Results: FREQ ERROR versus VOLTAGE Voltage (V) 3.2 3.6 4.0 Frequency Error (Hz) -60 -60 -60 Frequency Error (ppm) -0.0767 -0.0767 -0.0767 FREQ ERROR versus TEMPERATURE Temperature (°C) -30 -20 -10 ± 0 10 20 30 40 50 Frequency Error (Hz) 32 31 27 16 19 -60 -39 -30 -37 Frequency Error (ppm) 0.0409 0.0396 0.0345 0.0205 0.0243 -0.0767 -0.0499 -0.0384 -0.0473 Additional measurements for RSS-130 (4.3 b) fL =777.065216 MHz fL (max freq. error) = 777.065156 MHz fH = 783.636096 MHz fH + (max freq. error) = 783.636156 MHz © CTC advanced GmbH Page 159 of 188 Test report no.: 1-2685/21-03-13 15.5.3 Spurious emissions radiated Description: The following steps outline the procedure used to measure the radiated emissions from the mobile station. The site is constructed in accordance with ANSI C63.4:2014 requirements and is recognized by the FCC to be in compliance for a 3 and a 10 meter site. The spectrum was scanned from 30 MHz to the 10th harmonic of the highest frequency generated within the equipment, which is the transmitted carrier that can be as high as 782 MHz. Measured up to 8 GHz. The resolution bandwidth is set as outlined in Part 27.53. The spectrum was scanned with the mobile station transmitting at carrier frequencies that pertain to low, mid and high channels of the LTE band 13. Measurement: Detector: Sweep time: Resolution bandwidth: Video bandwidth: Span: Trace mode: Used equipment: Measurement uncertainty: Measurement procedure Measurement parameters Peak / RMS 2 sec. 1 MHz 3 MHz 100 MHz Steps Max Hold See chapter See chapter 9 FCC: § 2.1053 ISED: RSS-Gen, 6.13 Limits: FCC ISED $ 27.53(c) RSS-130, 4.7.1 (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: (c)(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. The unwanted emissions in any 100 kHz bandwidth on any frequency outside the low frequency edge and the high frequency edge of each frequency block range(s), 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 of the equipment's frequency block range, a resolution bandwidth of 30 kHz may be employed. -13 dBm © CTC advanced GmbH Page 160 of 188 Test report no.: 1-2685/21-03-13 Results: QPSK LOWEST CHANNEL Spurious emissions Level [dBm] -/- SPURIOUS EMISSION LEVEL MIDDLE CHANNEL Spurious emissions Level [dBm] 1564 -36.8 PP -43.2 RMS 2346 -41.7 PP -46.2 RMS HIGHEST CHANNEL Spurious emissions Level [dBm] -/- 16-QAM LOWEST CHANNEL Spurious emissions Level [dBm] -/- SPURIOUS EMISSION LEVEL MIDDLE CHANNEL Spurious emissions Level [dBm] 1564 -36.2 PP -43.3 RMS 2346 -40.2 PP -44.7 RMS HIGHEST CHANNEL Spurious emissions Level [dBm] -/- © CTC advanced GmbH Page 161 of 188 Test report no.: 1-2685/21-03-13 QPSK Plot 1: Middle channel, up to 30 MHz 20 dBm 10 0 -10 -20 -30 -40 -50 -60 -70 -80 -90 9kHz 100k 1M Frequency Plot 2: Middle channel, 30 MHz to 1 GHz 40 dBm 30 20 10 0 -10 -20 -30 -40 -50 -60 -70 -80 -90 -100 30MHz 100M Frequency 10M 30MHz 1GHz © CTC advanced GmbH Page 162 of 188 Test report no.: 1-2685/21-03-13 Plot 3: Middle channel, 1 MHz to 8 GHz 40 dBm 30 20 10 0 -10 -20 -30 -40 -50 -60 -70 -80 -90 -100 1GHz Frequency 8GHz © CTC advanced GmbH Page 163 of 188 Test report no.: 1-2685/21-03-13 16-QAM Plot 1: Middle channel, up to 30 MHz 20 dBm 10 0 -10 -20 -30 -40 -50 -60 -70 -80 -90 9kHz 100k 1M Frequency Plot 2: Middle channel, 30 MHz to 1 GHz 40 dBm 30 20 10 0 -10 -20 -30 -40 -50 -60 -70 -80 -90 30MHz 100M Frequency 10M 30MHz 1GHz © CTC advanced GmbH Page 164 of 188 Test report no.: 1-2685/21-03-13 Plot 3: Middle channel, 1 MHz to 8 GHz 40 dBm 30 20 10 0 -10 -20 -30 -40 -50 -60 -70 -80 -90 1GHz Frequency 8GHz © CTC advanced GmbH Page 165 of 188 Test report no.: 1-2685/21-03-13 15.5.4 Spurious emissions conducted Description: The following steps outline the procedure used to measure the conducted emissions from the mobile station. 1. Determine frequency range for measurements: From § 2.1057 & RSS-Gen, 6.13.2 the spectrum should be investigated from the lowest radio frequency generated in the equipment up to at least the 10th harmonic of the carrier frequency. For the mobile station equipment tested data taken from 10 MHz to 8 GHz. 2. Determine mobile station transmits frequencies: below outlines the band edge frequencies pertinent to conducted emissions testing. Measurement: Detector: Sweep time: Video bandwidth: Resolution bandwidth: Span: Trace-Mode: Used equipment: Measurement uncertainty: Measurement procedure Measurement parameters Peak Auto 300 kHz 100 kHz 10 MHz 8 GHz Max Hold See chapter 7.4 setup A See chapter 9 FCC: § 2.1051 ISED: RSS-Gen, 6.13 Limits: FCC ISED $ 27.53(c) RSS-130, 4.7.1 (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: (c)(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. The unwanted emissions in any 100 kHz bandwidth on any frequency outside the low frequency edge and the high frequency edge of each frequency block range(s), 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 of the equipment's frequency block range, a resolution bandwidth of 30 kHz may be employed. -13 dBm © CTC advanced GmbH Page 166 of 188 Test report no.: 1-2685/21-03-13 Results: for 1.4 MHz channel bandwidth QPSK LOWEST CHANNEL Spurious emissions Level [dBm] 1559.0 - 2338.5 - 3118.0 - 3897.5 - 4677.0 - 5456.5 - 6236.0 - 7015.5 - 7795.0 - SPURIOUS EMISSION LEVEL MIDDLE CHANNEL Spurious emissions Level [dBm] 1564.0 - 2346.0 - 3128.0 - 3910.0 - 4692.0 - 5474.0 - 6256.0 - 7038.0 - 7820.0 - HIGHEST CHANNEL Spurious emissions Level [dBm] 1569.0 - 2353.5 - 3138.0 - 3922.5 - 4707.0 - 5491.5 - 6276.0 - 7060.5 - 7845.0 - 16-QAM LOWEST CHANNEL Spurious emissions Level [dBm] 1559.0 - 2338.5 - 3118.0 - 3897.5 - 4677.0 - 5456.5 - 6236.0 - 7015.5 - 7795.0 - SPURIOUS EMISSION LEVEL MIDDLE CHANNEL Spurious emissions Level [dBm] 1564.0 - 2346.0 - 3128.0 - 3910.0 - 4692.0 - 5474.0 - 6256.0 - 7038.0 - 7820.0 - HIGHEST CHANNEL Spurious emissions Level [dBm] 1569.0 - 2353.5 - 3138.0 - 3922.5 - 4707.0 - 5491.5 - 6276.0 - 7060.5 - 7845.0 - © CTC advanced GmbH Page 167 of 188 Test report no.: 1-2685/21-03-13 Plots for 1.4 MHz channel bandwidth, QPSK Plot 1: Lowest channel, 10 MHz to 8 GHz © CTC advanced GmbH Page 168 of 188 Test report no.: 1-2685/21-03-13 Plot 2: Middle channel, 10 MHz to 8 GHz © CTC advanced GmbH Page 169 of 188 Test report no.: 1-2685/21-03-13 Plot 3: Highest channel, 10 MHz to 8 GHz © CTC advanced GmbH Page 170 of 188 Test report no.: 1-2685/21-03-13 Plots for 1.4 MHz channel bandwidth, 16-QAM Plot 1: Lowest channel, 10 MHz to 8 GHz © CTC advanced GmbH Page 171 of 188 Test report no.: 1-2685/21-03-13 Plot 2: Middle channel, 10 MHz to 8 GHz © CTC advanced GmbH Page 172 of 188 Test report no.: 1-2685/21-03-13 Plot 3: Highest channel, 10 MHz to 8 GHz © CTC advanced GmbH Page 173 of 188 Test report no.: 1-2685/21-03-13 15.5.5 Block edge compliance Description: The spectrum at the band edges must comply with the spurious emissions limits. Measurement: Detector: Sweep time: Video bandwidth: Resolution bandwidth: Span: Trace-Mode: Used equipment: Measurement uncertainty: Measurement procedure Measurement parameters RMS 180s 300 kHz 100 kHz 1 MHz Max Hold See chapter 7.2 setup A See chapter 9 FCC: § 2.1051 ISED: RSS-Gen, 6.13 Limits: FCC ISED $ 27.53(c) RSS-130, 4.7.1 (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: (c)(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. The unwanted emissions in any 100 kHz bandwidth on any frequency outside the low frequency edge and the high frequency edge of each frequency block range(s), 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 of the equipment's frequency block range, a resolution bandwidth of 30 kHz may be employed. -13 dBm Correction factor according to KDB 890810 if RBW < 1 % emission bandwidth: N/A here 10 log (RBW1/RBW2) = X dB; whereas: RBW1 = Y, RBW2 = Z © CTC advanced GmbH Page 174 of 188 Test report no.: 1-2685/21-03-13 Results: 1.4 MHz channel bandwidth Plot 1: Lowest channel, QPSK modulation Date: 23.FEB.2022 13:07:17 Plot 2: Highest channel, QPSK modulation Date: 23.FEB.2022 15:11:48 © CTC advanced GmbH Page 175 of 188 Test report no.: 1-2685/21-03-13 Plot 3: Lowest channel, 16 QAM modulation Date: 23.FEB.2022 13:40:27 Plot 4: Highest channel, 16 QAM modulation Date: 23.FEB.2022 15:36:28 © CTC advanced GmbH Page 176 of 188 Test report no.: 1-2685/21-03-13 15.5.6 Occupied bandwidth Description: Measurement of the occupied bandwidth of the transmitted signal. Measurement: Similar to conducted emissions, occupied bandwidth measurements are only provided for selected frequencies in order to reduce the amount of submitted data. Data were taken at the mid frequencies of the LTE band 13 frequency band. The table below lists the measured 99% power and -26dBc occupied bandwidths. Spectrum analyzer plots are included on the following pages. Part 27.53 requires a measurement bandwidth of at least 1% of the occupied bandwidth. Detector: Sweep time: Video bandwidth: Resolution bandwidth: Span: Trace-Mode: Used equipment: Measurement uncertainty: Measurement procedure Measurement parameters Peak 180s 100 kHz 300 kHz 2 x nominal bandwidth Max Hold See chapter 7.4 setup A See chapter 9 FCC: § 2.1049 ISED: RSS-Gen, 6.7 Limits: FCC § 2.1049 Reporting only ISED RSS-Gen, 6.7 © CTC advanced GmbH Page 177 of 188 Test report no.: 1-2685/21-03-13 Results: Frequency (MHz) 779.5 782.0 784.5 Frequency (MHz) 779.5 782.0 784.5 Occupied Bandwidth - QPSK 99% OBW (kHz) 1209 1222 1218 Occupied Bandwidth 16-QAM 99% OBW (kHz) 1209 1221 1219 -26 dBc BW (kHz) 1558 1694 1677 -26 dBc BW (kHz) 1555 1701 1681 © CTC advanced GmbH Page 178 of 188 Test report no.: 1-2685/21-03-13 Plots: QPSK Plot 1: low channel, 99% OBW Date: 23.FEB.2022 13:10:27 Plot 2: low channel, -26 dBc OBW Date: 23.FEB.2022 13:13:37 © CTC advanced GmbH Page 179 of 188 Test report no.: 1-2685/21-03-13 Plot 3: mid channel, 99% OBW Date: 23.FEB.2022 14:47:12 Plot 4: mid channel, -26 dBc OBW Date: 23.FEB.2022 14:50:21 © CTC advanced GmbH Page 180 of 188 Test report no.: 1-2685/21-03-13 Plot 5: high channel, 99% OBW Date: 23.FEB.2022 15:14:57 Plot 6: high channel, -26 dBc OBW Date: 23.FEB.2022 15:18:05 © CTC advanced GmbH Page 181 of 188 Test report no.: 1-2685/21-03-13 Plots: 16-QAM Plot 1: low channel, 99% OBW Date: 23.FEB.2022 13:43:37 Plot 2: low channel, -26 dBc OBW Date: 23.FEB.2022 13:46:47 © CTC advanced GmbH Page 182 of 188 Test report no.: 1-2685/21-03-13 Plot 3: mid channel, 99% OBW Date: 23.FEB.2022 15:00:51 Plot 4: mid channel, -26 dBc OBW Date: 23.FEB.2022 15:04:00 © CTC advanced GmbH Page 183 of 188 Test report no.: 1-2685/21-03-13 Plot 5: high channel, 99% OBW Date: 23.FEB.2022 15:39:36 Plot 6: high channel, -26 dBc OBW Date: 23.FEB.2022 15:42:45 © CTC advanced GmbH Page 184 of 188 Test report no.: 1-2685/21-03-13 16 Observations No observations except those reported with the single test cases have been made. © CTC advanced GmbH Page 185 of 188 Test report no.: 1-2685/21-03-13 17 Glossary EUT DUT UUT GUE ETSI EN FCC FCC ID IC PMN HMN HVIN FVIN EMC HW SW Inv. No. S/N or SN C NC NA NP PP QP AVG OC OCW OBW OOB DFS CAC OP NOP DC PER CW MC WLAN RLAN DSSS OFDM FHSS GNSS C/N0 Equipment under test Device under test Unit under test GNSS User Equipment European Telecommunications Standards Institute European Standard Federal Communications Commission Company Identifier at FCC Industry Canada Product marketing name Host marketing name Hardware version identification number Firmware version identification number Electromagnetic Compatibility Hardware Software Inventory number Serial number Compliant Not compliant Not applicable Not performed Positive peak Quasi peak Average Operating channel Operating channel bandwidth Occupied bandwidth Out of band Dynamic frequency selection Channel availability check Occupancy period Non occupancy period Duty cycle Packet error rate Clean wave Modulated carrier Wireless local area network Radio local area network Dynamic sequence spread spectrum Orthogonal frequency division multiplexing Frequency hopping spread spectrum Global Navigation Satellite System Carrier to noise-density ratio, expressed in dB-Hz © CTC advanced GmbH Page 186 of 188 Test report no.: 1-2685/21-03-13 18 Document history Version -/- Applied changes Initial release 19 Accreditation Certificate D-PL-12076-01-04 first page Date of release 2022-04-14 last page Note: The current certificate annex is published on the websites (link see below). https://www.dakks.de/files/data/as/pdf/D-PL-12076-01-04e.pdf or https://ctcadvanced.com/app/uploads/2020/06/D-PL-12076-01-04_Canada_TCEMC.pdf © CTC advanced GmbH Page 187 of 188 Test report no.: 1-2685/21-03-13 20 Accreditation Certificate D-PL-12076-01-05 first page last page Note: The current certificate annex is published on the websites (link see below). https://www.dakks.de/files/data/as/pdf/D-PL-12076-01-05e.pdf or https://ctcadvanced.com/app/uploads/2020/06/D-PL-12076-01-05_TCB_USA.pdf ############################### END OF TEST REPORT ############################### © CTC advanced GmbH Page 188 of 188
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