FG262007E R01 (5G NR) Report-part 1
Franklin Technology Inc. CG890 XHG-CG890 XHGCG890 cg890
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Document DEVICE REPORTGetApplicationAttachment.html?id=6446308FCC RF Test Report Report No. : FG262007E FCC RF Test Report APPLICANT EQUIPMENT MODEL NAME FCC ID STANDARD CLASSIFICATION EQUIPMENT TYPE TEST DATE(S) : Franklin Technology Inc. : 5G RF module : M2500 : XHG-M2500 : 47 CFR Part 2, 96 : Citizens Band End User Devices (CBE) : End User Equipment : Jul. 12, 2022 ~ Aug. 04, 2022 We, Sporton International Inc. (Kunshan), would like to declare that the tested sample has been evaluated in accordance with the procedures given in ANSI C63.26-2015 and shown compliance with the applicable technical standards. This report contains data that were produced under subcontract by Sporton International Inc. (ShenZhen). The test results in this report apply exclusively to the tested model / sample. Without written approval of Sporton International Inc. (Kunshan), the test report shall not be reproduced except in full. Approved by: Jason Jia Sporton International Inc. (Kunshan) No. 1098, Pengxi North Road, Kunshan Economic Development Zone Jiangsu Province 215300 People's Republic of China Sporton International Inc. (Kunshan) TEL : +86-512-57900158 FAX : +86-512-57900958 FCC ID: XHG-M2500 Page Number : 1 of 22 Issued Date : Aug. 23, 2022 Report Version : 01 Report Template No.: BU5-FGLTE96 Version 2.4 FCC RF Test Report Report No. : FG262007E Table of Contents History of this test report.................................................................................................................................3 Summary of Test Result...................................................................................................................................4 1 General Description ................................................................................................................................... 5 1.1 Applicant............................................................................................................................................5 1.2 Manufacturer ..................................................................................................................................... 5 1.3 Feature of Equipment Under Test ..................................................................................................... 5 1.4 Maximum EIRP and Emission Designator ........................................................................................ 6 1.5 Testing Site........................................................................................................................................ 6 1.6 Test Software .................................................................................................................................... 6 1.7 Applied Standards ............................................................................................................................. 7 2 Test Configuration of Equipment Under Test ......................................................................................... 8 2.1 Test Mode.......................................................................................................................................... 8 2.2 Connection Diagram of Test System ................................................................................................ 9 2.3 Support Unit used in test configuration ............................................................................................. 9 2.4 Measurement Results Explanation Example .................................................................................... 9 2.5 Frequency List of Low/Middle/High Channels.................................................................................10 3 Conducted Test Items..............................................................................................................................11 3.1 Measuring Instruments....................................................................................................................11 3.2 Conducted Output Power ................................................................................................................ 12 3.3 EIRP ................................................................................................................................................ 13 3.4 Occupied Bandwidth ....................................................................................................................... 14 3.5 Conducted Band Edge .................................................................................................................... 15 3.6 Conducted Spurious Emission ........................................................................................................16 3.7 Frequency Stability..........................................................................................................................17 4 Radiated Test Items .................................................................................................................................18 4.1 Measuring Instruments....................................................................................................................18 4.2 Test Setup .......................................................................................................................................18 4.3 Test Result of Radiated Test...........................................................................................................19 4.4 Radiated Spurious Emission ...........................................................................................................20 5 List of Measuring Equipment..................................................................................................................21 6 Uncertainty of Evaluation ........................................................................................................................22 Appendix A. Test Results of Conducted Test Appendix B. Test Results of EIRP and Radiated Test Appendix C. Test Setup Photographs Sporton International Inc. (Kunshan) TEL : +86-512-57900158 FAX : +86-512-57900958 FCC ID: XHG-M2500 Page Number : 2 of 22 Issued Date : Aug. 23, 2022 Report Version : 01 Report Template No.: BU5-FGLTE96 Version 2.4 FCC RF Test Report Report No. : FG262007E History of this test report Report No. FG262007E Version 01 Description Initial issue of report Issued Date Aug. 23, 2022 Sporton International Inc. (Kunshan) TEL : +86-512-57900158 FAX : +86-512-57900958 FCC ID: XHG-M2500 Page Number : 3 of 22 Issued Date : Aug. 23, 2022 Report Version : 01 Report Template No.: BU5-FGLTE96 Version 2.4 FCC RF Test Report Report No. : FG262007E Summary of Test Result Report Clause 3.2 - Ref Std. Clause §2.1046 §96.41 3.3 §96.41 §2.1049 3.4 §96.41 §2.1051 3.5 §96.41 §2.1051 3.6 §96.41 3.7 §2.1055 §2.1051 4.4 §96.41 Test Items Conducted Output Power Peak-to-Average Ratio Maximum E.I.R.P Maximum Power Spectral Density Occupied Bandwidth Conducted Band Edge Measurement Adjacent Channel Leakage Ratio Conducted Spurious Emission Frequency Stability for Temperature & Voltage Radiated Spurious Emission Result (PASS/FAIL) Remark Reporting only Not Applicable Pass Not Applicable Reporting only Not applicable for End User Devices Not applicable for End User Devices - Pass - Pass Pass Pass - Under limit 2.90 dB at 10740.000 MHz Declaration of Conformity: The test results with all measurement uncertainty excluded are presented in accordance with the regulation limits or requirements declared by manufacturers. Comments and Explanations: The declared of product specification for EUT presented in the report are provided by the manufacturer, and the manufacturer takes all the responsibilities for the accuracy of product specification. Sporton International Inc. (Kunshan) TEL : +86-512-57900158 FAX : +86-512-57900958 FCC ID: XHG-M2500 Page Number : 4 of 22 Issued Date : Aug. 23, 2022 Report Version : 01 Report Template No.: BU5-FGLTE96 Version 2.4 FCC RF Test Report Report No. : FG262007E 1 General Description 1.1 Applicant Franklin Technology Inc. 906 JEI Platz, 186, Gasan digital 1-ro, Gumcheon-Gu, Seoul, South Korea, 08502 1.2 Manufacturer Franklin Technology Inc. 906 JEI Platz, 186, Gasan digital 1-ro, Gumcheon-Gu, Seoul, South Korea, 08502 1.3 Feature of Equipment Under Test Product Feature Equipment Model Name FCC ID Tx Frequency Rx Frequency SCS Bandwidth Antenna Type Antenna Gain Type of Modulation IMEI Code HW Version 5G RF module M2500 XHG-M2500 5G NR n48: 3550 MHz ~ 3700 MHz 5G NR n48: 3550 MHz ~ 3700 MHz 30kHz 10MHz / 20MHz / 30MHz / 40MHz PIFA Antenna -1.71 dBi CP-OFDM: QPSK / 16QAM / 64QAM / 256QAM DFT-s-OFDM: PI/2 BPSK / QPSK / 16QAM / 64QAM / 256QAM Conducted: 358563790001247 Radiation: 358563790000926 P1 SW Version EUT Stage RG2100.TM.1354 Identical Prototype Remark: 1. The above EUT's information was declared by manufacturer. Please refer to the specifications or user's manual for more detailed description. 2. 5G NR n48 supports SA mode only. Sporton International Inc. (Kunshan) TEL : +86-512-57900158 FAX : +86-512-57900958 FCC ID: XHG-M2500 Page Number : 5 of 22 Issued Date : Aug. 23, 2022 Report Version : 01 Report Template No.: BU5-FGLTE96 Version 2.4 FCC RF Test Report Report No. : FG262007E 1.4 Maximum Conducted power and Emission Designator 5G NR n48 PI/2 BPSK / QPSK 16QAM/64QAM/256QAM BW (MHz) 10 Frequency Range (MHz) Maximum Conducted power (W) 3555.00~3694.98 0.1189 Emission Designator (99%OBW) 8M61G7D Maximum Conducted power (W) 0.0984 Emission Designator (99%OBW) 8M61W7D 20 3560.01~3690.00 0.1242 18M2G7D 0.1016 18M3W7D 30 3565.02~3684.99 0.1250 27M9G7D 0.1067 27M9W7D 40 3570.00~3679.98 0.1297 37M8G7D 0.1040 37M8W7D Note: All modulations have been tested, and only the worst test results of PSK & QAM are shown in the report. 1.5 Testing Site Sporton International (Kunshan) Inc. is accredited to ISO/IEC 17025:2017 by American Association for Laboratory Accreditation with Certificate Number 5145.02. Test Firm Sporton International (Kunshan) Inc. Test Site Location Test Site No. No. 1098, Pengxi North Road, Kunshan Economic Development Zone Jiangsu Province 215300 People's Republic of China TEL : +86-512-57900158 FAX : +86-512-57900958 Sporton Site No. FCC Designation No. FCC Test Firm Registration No. 03CH04-KS CN1257 314309 Sporton International (Shenzhen) Inc. is accredited to ISO/IEC 17025:2017 by American Association for Laboratory Accreditation with Certificate Number 5145.01. Test Firm Sporton International (Shenzhen) Inc. 1/F, 2/F, Bldg 5, Shiling Industrial Zone, Xinwei Village, Xili, Nanshan, Test Site Location Shenzhen, 518055 People's Republic of China TEL: +86-755-86379589 FAX: +86-755-86379595 Test Site No. Sporton Site No. FCC Designation No. FCC Test Firm Registration No. TH01-SZ CN1256 421272 Test data subcontracted: Conducted test items in section 3 of this report. 1.6 Test Software Item 1. Site 03CH04-KS Manufacturer AUDIX Name E3 Version 6.2009-8-24a Sporton International Inc. (Kunshan) TEL : +86-512-57900158 FAX : +86-512-57900958 FCC ID: XHG-M2500 Page Number : 6 of 22 Issued Date : Aug. 23, 2022 Report Version : 01 Report Template No.: BU5-FGLTE96 Version 2.4 FCC RF Test Report Report No. : FG262007E 1.7 Applied Standards According to the specifications of the manufacturer, the EUT must comply with the requirements of the following standards: ANSI C63.26-2015 ANSI / TIA-603-E 47 CFR Part 2, 96 FCC KDB 971168 D01 Power Meas. License Digital Systems v03r01 FCC KDB 940660 D01 Part 96 CBRS v03 FCC KDB 412172 D01 Determining ERP and EIRP v01r01 Remark: All test items were verified and recorded according to the standards and without any deviation during the test. Sporton International Inc. (Kunshan) TEL : +86-512-57900158 FAX : +86-512-57900958 FCC ID: XHG-M2500 Page Number : 7 of 22 Issued Date : Aug. 23, 2022 Report Version : 01 Report Template No.: BU5-FGLTE96 Version 2.4 FCC RF Test Report Report No. : FG262007E 2 Test Configuration of Equipment Under Test 2.1 Test Mode Antenna port conducted and radiated test items listed below are performed according to KDB 971168 D01 Power Meas. License Digital Systems v03r01 with maximum output power. For radiated measurement, pre-scanned in three orthogonal panels, X, Y, Z. The worst cases (Z plane) were recorded in this report. Bandwidth (MHz) Modulation RB # Test Channel Test Items Band PI/2 256 5 10 15 20 30 40 QPSK 16QAM 64QAM 1 BPSK QAM Full L M H Max. Output Power n48 - v - vvv v v v v v v v vvv 26dB and 99% n48 - v - vvv v v v Bandwidth Adjacent Channel Leakage n48 - v - v - v v v Ratio Conducted Band Edge n48 - v - v - v v v Conducted Spurious n48 - v - v - v v v Emission E.R.P / E.I.R.P n48 - v - v - v v v v v v v v v v vvv v v vvv v v vvv v v v v vvv Frequency n48 - - v - v Stability v v Radiated Spurious Emission Remark n48 Worst Case v 1. The mark "v " means that this configuration is chosen for testing 2. The mark "-" means that this bandwidth is not supported. 3. The device is investigated from 30MHz to 10 times of fundamental signal for radiated spurious emission test under different RB size/offset and modulations in exploratory test. Subsequently, only the worst case emissions are reported. 4. All test items are based on engineering evaluation. 5. Normal Voltage = 3.8V Low Voltage =3.6VHigh Voltage =4.2V Sporton International Inc. (Kunshan) TEL : +86-512-57900158 FAX : +86-512-57900958 FCC ID: XHG-M2500 Page Number : 8 of 22 Issued Date : Aug. 23, 2022 Report Version : 01 Report Template No.: BU5-FGLTE96 Version 2.4 FCC RF Test Report 2.2 Connection Diagram of Test System Power Source System Simulator EUT Report No. : FG262007E This example is connection diagram of EUT test configurations. For detail, please refer to test mode configuration and setup photographs for each test item. 2.3 Support Unit used in test configuration Item Equipment Trade Name Model No. 1. Power Supply GWINSTEK PSS-2002 2. LTE Base Station Anritsu MT8821C 3. NR Base Station Anritsu MT8000A 4. Adapter N/A N/A 5. Test Jig N/A N/A FCC ID N/A N/A N/A N/A N/A Data Cable N/A N/A N/A N/A N/A Power Cord Unshielded, 1.8 m Unshielded, 1.8 m Unshielded, 1.8 m N/A N/A 2.4 Measurement Results Explanation Example For all conducted test items: The offset level is set in the spectrum analyzer to compensate the RF cable loss and attenuator factor between EUT conducted output port and spectrum analyzer. With the offset compensation, the spectrum analyzer reading level is exactly the EUT RF output level. The spectrum analyzer offset is derived from RF cable loss and attenuator factor. Offset = RF cable loss + attenuator factor. Following shows an offset computation example with cable loss 5.57 dB and 10dB attenuator. Example : Offset(dB) = RF cable loss(dB) + attenuator factor(dB). = 5.57 + 10 = 15.57 (dB) Sporton International Inc. (Kunshan) TEL : +86-512-57900158 FAX : +86-512-57900958 FCC ID: XHG-M2500 Page Number : 9 of 22 Issued Date : Aug. 23, 2022 Report Version : 01 Report Template No.: BU5-FGLTE96 Version 2.4 FCC RF Test Report 2.5 Frequency List of Low/Middle/High Channels Report No. : FG262007E BW [MHz] 40 30 20 10 5G NR n48 Channel and Frequency List Channel/Frequency(MHz) Lowest Middle Channel 638000 641666 Frequency 3570 3624.99 Channel 637668 641666 Frequency 3565.02 3624.99 Channel 637334 641666 Frequency 3560.01 3624.99 Channel 637000 641666 Frequency 3555 3624.99 Highest 645332 3679.98 645666 3684.99 646000 3690 646332 3694.98 Sporton International Inc. (Kunshan) TEL : +86-512-57900158 FAX : +86-512-57900958 FCC ID: XHG-M2500 Page Number : 10 of 22 Issued Date : Aug. 23, 2022 Report Version : 01 Report Template No.: BU5-FGLTE96 Version 2.4 FCC RF Test Report 3 Conducted Test Items 3.1 Measuring Instruments See list of measuring instruments of this test report. 3.1.1 Test Setup 3.1.2 Conducted Output Power Report No. : FG262007E 3.1.3 Occupied Bandwidth, Conducted Band-Edge and Conducted Spurious Emission 3.1.4 Frequency Stability 3.1.5 Test Result of Conducted Test Please refer to Appendix A. Sporton International Inc. (Kunshan) TEL : +86-512-57900158 FAX : +86-512-57900958 FCC ID: XHG-M2500 Page Number : 11 of 22 Issued Date : Aug. 23, 2022 Report Version : 01 Report Template No.: BU5-FGLTE96 Version 2.4 FCC RF Test Report Report No. : FG262007E 3.2 Conducted Output Power 3.2.1 Description of the Conducted Output Power Measurement A system simulator was used to establish communication with the EUT. Its parameters were set to force the EUT transmitting at maximum output power. The measured power in the radio frequency on the transmitter output terminals shall be reported. 3.2.2 Test Procedures 1. The transmitter output port was connected to the system simulator. 2. Set EUT at maximum power through the system simulator. 3. Select lowest, middle, and highest channels for each band and different modulation. 4. Measure and record the power level from the system simulator. Sporton International Inc. (Kunshan) TEL : +86-512-57900158 FAX : +86-512-57900958 FCC ID: XHG-M2500 Page Number : 12 of 22 Issued Date : Aug. 23, 2022 Report Version : 01 Report Template No.: BU5-FGLTE96 Version 2.4 FCC RF Test Report Report No. : FG262007E 3.3 EIRP 3.3.1 Description of the EIRP Measurement EIRP and PSD limits for CBRS equipment as below table: Device Maximum EIRP Maximum PSD (dBm/10 MHz) (dBm/MHz) Applied End User Device 23 n/a Category A CBSD 30 20 Category B CBSD 47 37 Remark: The worst case EIRP shown in this section is found with LTE operating only using 1RB. As such, the EIRP/10MHz and full channel EIRP values will be identical since 1RB is fully contained within all available channel bandwidths for Band n48 3.3.2 Test Procedures for EIRP 1. Establishing a communications link with the call box (Base station) to measure the Maximum conducted power, the parameters were set to force the EUT transmitting at maximum output power level. Use the average power measurement function to measure total channel power of each channel bandwidth (per ANSI C63.26-2015 Section 5.2.1) 2. Determining ERP and/or EIRP from conducted RF output power measurements (Per ANSI C63.26-2015 Section 5.2.5.5) EIRP = PT + GT LC, ERP = EIRP -2.15, where PT = transmitter output power in dBm GT = gain of the transmitting antenna in dBi LC = signal attenuation in the connecting cable between the transmitter and antenna in dB Sporton International Inc. (Kunshan) TEL : +86-512-57900158 FAX : +86-512-57900958 FCC ID: XHG-M2500 Page Number : 13 of 22 Issued Date : Aug. 23, 2022 Report Version : 01 Report Template No.: BU5-FGLTE96 Version 2.4 FCC RF Test Report Report No. : FG262007E 3.4 Occupied Bandwidth 3.4.1 Description of Occupied Bandwidth Measurement The occupied bandwidth is the width of a frequency band such that, below the lower and above the upper frequency limits, the mean powers emitted are each equal to a specified percentage 0.5% of the total mean transmitted power. The 26 dB emission bandwidth is defined as the frequency range between two points, one above and one below the carrier frequency, at which the spectral density of the emission is attenuated 26 dB below the maximum in-band spectral density of the modulated signal. Spectral density (power per unit bandwidth) is to be measured with a detector of resolution bandwidth equal to approximately 1.0% of the emission bandwidth. 3.4.2 Test Procedures The testing follows ANSI C63.26-2015 Section 5.4.3 (26dB) and Section 5.4.4 (99OB) 1. The EUT was connected to spectrum analyzer and system simulator via a power divider. 2. The spectrum analyzer center frequency is set to the nominal EUT channel center frequency. The span range for the spectrum analyzer shall be between two and five times the anticipated OBW. 3. The nominal resolution bandwidth (RBW) shall be in the range of 1 to 5 % of the anticipated OBW, and the VBW shall be at least 3 times the RBW. 4. Set the detection mode to peak, and the trace mode to max hold. 5. Determine the reference value: Set the EUT to transmit a modulated signal. Allow the trace to stabilize. Set the spectrum analyzer marker to the highest level of the displayed trace. (this is the reference value) 6. Determine the "-26 dB down amplitude" as equal to (Reference Value X). 7. Place two markers, one at the lowest and the other at the highest frequency of the envelope of the spectral display such that each marker is at or slightly below the "X dB down amplitude" determined in step 6. If a marker is below this "-X dB down amplitude" value it shall be placed as close as possible to this value. The OBW is the positive frequency difference between the two markers. 8. Use the 99 % power bandwidth function of the spectrum analyzer and report the measured bandwidth. Sporton International Inc. (Kunshan) TEL : +86-512-57900158 FAX : +86-512-57900958 FCC ID: XHG-M2500 Page Number : 14 of 22 Issued Date : Aug. 23, 2022 Report Version : 01 Report Template No.: BU5-FGLTE96 Version 2.4 FCC RF Test Report Report No. : FG262007E 3.5 Conducted Band Edge 3.5.1 Description of Conducted Band Edge Measurement Part 96.41 (e) (1) (i) For CBSD the emission limits outside the fundamental are as follows: Within 0 MHz to 10 MHz above and below the assigned channel -13 dBm/MHz Greater than 10 MHz above and below the assigned channel -25 dBm/MHz Part 96.41 (e) (1) (ii) For End User Devices the emission limits outside the fundamental are as follows: Within 0 MHz to B MHz above and below the assigned channel -13 dBm/MHz Greater than B MHz above and below the assigned channel -25 dBm/MHz where B is the bandwidth in megahertz of the assigned channel or multiple contiguous channels of the End User Device. Notwithstanding the emission limits in this paragraph, the Adjacent Channel Leakage Ratio for End User Devices shall be at least 30 dB. Part 96.41 (e) (2) For CBSDs and End User Devices, the conducted power of emissions below 3540 MHz or above 3710 MHz shall not exceed -25 dBm/MHz, and the conducted power of emissions below 3530 MHz or above 3720 MHz shall not exceed -40dBm/MHz 3.5.2 Test Procedures The testing follows FCC KDB 971168 D01 v03r01 Section 6.1. 1. The EUT was connected to spectrum analyzer and system simulator via a power divider. 2. The band edges of low and high channels for the highest RF powers were measured. 3. Set RBW >= 1% EBW in the 1MHz band immediately outside and adjacent to the band edge. 4. Beyond the 1 MHz band from the band edge, RBW=1MHz was used 5. Offset has included the duty factor for Band n48. Duty factor =10 log (1/x), where x is the measured duty cycle. 6. Set spectrum analyzer with RMS detector. 7. The RF fundamental frequency should be excluded against the limit line in the operating frequency band. 8. When using the integration method, the starting frequency of the integration shall be centered at one-half of the RBW away from the band edge. Sporton International Inc. (Kunshan) TEL : +86-512-57900158 FAX : +86-512-57900958 FCC ID: XHG-M2500 Page Number : 15 of 22 Issued Date : Aug. 23, 2022 Report Version : 01 Report Template No.: BU5-FGLTE96 Version 2.4 FCC RF Test Report Report No. : FG262007E 3.6 Conducted Spurious Emission 3.6.1 Description of Conducted Spurious Emission Measurement 96.41 (e)(2) The conducted power of any emissions below 3530 MHz or above 3720 MHz shall not exceed -40dBm/MHz. 3.6.2 Test Procedures The testing follows FCC KDB 971168 D01 v03r01 Section 6.1. 1. The EUT was connected to spectrum analyzer and system simulator via a power divider. 2. The RF output of EUT was connected to the spectrum analyzer by RF cable and attenuator. The path loss was compensated to the results for each measurement. 3. The middle channel for the highest RF power within the transmitting frequency was measured. 4. The conducted spurious emission for the whole frequency range was taken. 5. Make the measurement with the spectrum analyzer's RBW = 1MHz, VBW = 3MHz. 6. Set spectrum analyzer with RMS detector. 7. Taking the record of maximum spurious emission. 8. The RF fundamental frequency should be excluded against the limit line in the operating frequency band. 9. The limit line is -40dBm/MHz. Sporton International Inc. (Kunshan) TEL : +86-512-57900158 FAX : +86-512-57900958 FCC ID: XHG-M2500 Page Number : 16 of 22 Issued Date : Aug. 23, 2022 Report Version : 01 Report Template No.: BU5-FGLTE96 Version 2.4 FCC RF Test Report Report No. : FG262007E 3.7 Frequency Stability 3.7.1 Description of Frequency Stability Measurement The frequency stability shall be measured by variation of ambient temperature and variation of primary supply voltage to ensure that the fundamental emission stays within the authorized frequency block. 3.7.2 Test Procedures for Temperature Variation The testing follows FCC KDB 971168 D01 v03r01 Section 9.0. 1. The EUT was set up in the thermal chamber and connected with the system simulator. 2. With power OFF, the temperature was decreased to -30°C and the EUT was stabilized before testing. Power was applied and the maximum change in frequency was recorded within one minute. 3. With power OFF, the temperature was raised in 10°C step up to 50°C. The EUT was stabilized at each step for at least half an hour. Power was applied and the maximum frequency change was recorded within one minute. 3.7.3 Test Procedures for Voltage Variation The testing follows FCC KDB 971168 D01 v03r01 Section 9.0. 1. The EUT was placed in a temperature chamber at 25±5°C and connected with the system simulator. 2. The power supply voltage to the EUT was varied from 85% to 115% of the nominal value measured at the input to the EUT. 3. The variation in frequency was measured for the worst case. Sporton International Inc. (Kunshan) TEL : +86-512-57900158 FAX : +86-512-57900958 FCC ID: XHG-M2500 Page Number : 17 of 22 Issued Date : Aug. 23, 2022 Report Version : 01 Report Template No.: BU5-FGLTE96 Version 2.4 FCC RF Test Report 4 Radiated Test Items 4.1 Measuring Instruments See list of measuring instruments of this test report. 4.2 Test Setup 4.2.1 For radiated test below 30MHz Report No. : FG262007E 4.2.2 For radiated test from 30MHz to 1GHz Sporton International Inc. (Kunshan) TEL : +86-512-57900158 FAX : +86-512-57900958 FCC ID: XHG-M2500 Page Number : 18 of 22 Issued Date : Aug. 23, 2022 Report Version : 01 Report Template No.: BU5-FGLTE96 Version 2.4 FCC RF Test Report 4.2.3 For radiated test above 1GHz Report No. : FG262007E 4.3 Test Result of Radiated Test The low frequency, which started from 9 kHz to 30MHz, was pre-scanned and the result which was 20dB lower than the limit line was not reported. Please refer to Appendix B. Sporton International Inc. (Kunshan) TEL : +86-512-57900158 FAX : +86-512-57900958 FCC ID: XHG-M2500 Page Number : 19 of 22 Issued Date : Aug. 23, 2022 Report Version : 01 Report Template No.: BU5-FGLTE96 Version 2.4 FCC RF Test Report Report No. : FG262007E 4.4 Radiated Spurious Emission 4.4.1 Description of Radiated Spurious Emission Measurement The radiated spurious emission was measured by substitution method according to ANSI / TIA-603-E. The power of any emission outside of the authorized operating frequency ranges must be attenuated below the transmitter power (P) by a factor of at least -40dBm / MHz. The spectrum is scanned from 30 MHz up to a frequency including its 10th harmonic. 4.4.2 Test Procedures 1. The EUT was placed on a turntable with 0.8 meter height for frequency below 1GHz and 1.5 meter height for frequency above 1GHz respectively above ground. 2. The EUT was set 3 meters from the receiving antenna mounted on the antenna tower. 3. The table was rotated 360 degrees to determine the position of the highest spurious emission. 4. The height of the receiving antenna is varied between 1m to 4m to search the maximum spurious emission for both horizontal and vertical polarizations. 5. During the measurement, the system simulator parameters were set to force the EUT transmitting at maximum output power. 6. Make the measurement with the spectrum analyzer's RBW = 1MHz, VBW = 3MHz, taking the record of maximum spurious emission. 7. A horn antenna was substituted in place of the EUT and was driven by a signal generator. Tune the output power of signal generator to the same emission level with EUT maximum spurious emission. EIRP (dBm) = S.G. Power Tx Cable Loss + Tx Antenna Gain ERP (dBm) = EIRP - 2.15 8. The RF fundamental frequency should be excluded against the limit line in the operating frequency band. The limit line is -40dBm/MHz Sporton International Inc. (Kunshan) TEL : +86-512-57900158 FAX : +86-512-57900958 FCC ID: XHG-M2500 Page Number : 20 of 22 Issued Date : Aug. 23, 2022 Report Version : 01 Report Template No.: BU5-FGLTE96 Version 2.4 FCC RF Test Report Report No. : FG262007E 5 List of Measuring Equipment Instrument Manufacturer Model No. Serial No. Characteristics Calibration Date EMI Test Receiver&SA Agilent N9038A MY522601 85 20Hz~26.5GHz Dec. 27, 2021 Power Divider TOJOIN PS-2SM-0426 60.06.020. 5 0077 0.4GHz~26.5G Hz Dec. 25, 2021 Ten Billion Thermal Chamber Hongzhangrou p LP-150U H2014081 803 -40~+150°C Jul. 14, 2021 Ten Billion Thermal Chamber Hongzhangrou p LP-150U H2014081 803 -40~+150°C Jul. 13, 2022 EXA Spectrum Analyzer Keysight N9010B MY575410 10Hz-44G,MAX 79 30dB Oct. 14, 2021 Loop Antenna R&S HFH2-Z2 100321 9kHz~30MHz Oct. 30, 2021 Bilog Antenna TeseQ CBL6111D 49922 30MHz-1GHz May 30, 2022 Horn Antenna Schwarzbeck BBHA9120D 1284 1GHz~18GHz Oct. 18, 2021 SHF-EHF Horn Com-power AH-840 101070 18GHz~40GHz Jan. 05, 2022 Amplifier Amplifier high gain Amplifier Amplifier AC Power Source Turn Table SONOMA MITEQ MITEQ Keysight Chroma ChamPro 310N 187289 9KHz-1GHz Jan. 05, 2022 EM18G40GG A 060728 18~40GHz AMF-7D-0010 1800-30-10P 2025788 1Ghz-18Ghz 83017A MY572801 500MHz~26.5G 06 Hz 61601 F1040900 04 N/A Jan. 05, 2022 Jul. 29, 2022 Oct. 13, 2021 NCR EM 1000-T 060762-T 0~360 degree NCR Antenna Mast ChamPro EM 1000-A 060762-A 1 m~4 m NCR Test Date Jul. 12, 2022~ Jul. 27, 2022 Jul. 12, 2022~ Jul. 27, 2022 Jul. 12, 2022~ Jul. 27, 2022 Aug. 04, 2022 Aug. 04, 2022 Aug. 04, 2022 Aug. 04, 2022 Aug. 04, 2022 Aug. 04, 2022 Aug. 04, 2022 Aug. 04, 2022 Aug. 04, 2022 Aug. 04, 2022 Aug. 04, 2022 Aug. 04, 2022 Due Date Dec. 26, 2022 Dec. 24, 2022 Jul. 13, 2022 Jul. 12, 2023 Oct. 13, 2022 Oct. 29, 2022 May 29, 2023 Oct. 17, 2022 Jan. 04, 2023 Jan. 04, 2023 Jan. 04, 2023 Jul. 28, 2023 Oct. 12, 2022 NCR NCR NCR Remark Conducted (TH01-SZ) Conducted (TH01-SZ) Conducted (TH01-SZ) Conducted (TH01-SZ) Radiation (03CH04-KS) Radiation (03CH04-KS) Radiation (03CH04-KS) Radiation (03CH04-KS) Radiation (03CH04-KS) Radiation (03CH04-KS) Radiation (03CH04-KS) Radiation (03CH04-KS) Radiation (03CH04-KS) Radiation (03CH04-KS) Radiation (03CH04-KS) Radiation (03CH04-KS) NCR: No Calibration Required Sporton International Inc. (Kunshan) TEL : +86-512-57900158 FAX : +86-512-57900958 FCC ID: XHG-M2500 Page Number : 21 of 22 Issued Date : Aug. 23, 2022 Report Version : 01 Report Template No.: BU5-FGLTE96 Version 2.4 FCC RF Test Report Report No. : FG262007E 6 Uncertainty of Evaluation The measurement uncertainties shown below were calculated in accordance with the requirements of ANSI 63.26-2015. All the measurement uncertainty value were shown with a coverage K=2 to indicate 95% level of confidence. The measurement data show herein meets or exceeds the CISPR measurement uncertainty values specified in CISPR 16-4-2 and can be compared directly to specified limit to determine compliance. Uncertainty of Conducted Measurement Test Item Conducted Power Conducted Emissions Occupied Channel Bandwidth Conducted Power Spectral Density Frequency tolerance Uncertainty 1.34 dB 1.34 dB 0.012MHz 1.32 dB 1.30 ppm Uncertainty of Radiated Emission Measurement (30 MHz ~ 1000 MHz) Measuring Uncertainty for a Level of Confidence of 95% (U = 2Uc(y)) 3.3dB Uncertainty of Radiated Emission Measurement (1 GHz ~ 18 GHz) Measuring Uncertainty for a Level of Confidence of 95% (U = 2Uc(y)) 2.8dB Uncertainty of Radiated Emission Measurement (18 GHz ~ 40 GHz) Measuring Uncertainty for a Level of Confidence of 95% (U = 2Uc(y)) 2.8dB ----------- THE END ----------- Sporton International Inc. (Kunshan) TEL : +86-512-57900158 FAX : +86-512-57900958 FCC ID: XHG-M2500 Page Number : 22 of 22 Issued Date : Aug. 23, 2022 Report Version : 01 Report Template No.: BU5-FGLTE96 Version 2.4 FCC RF Test Report Report No. : FG262007E Appendix A. Test Results of Conducted Test Test Engineer : Jung Guo Temperature : Relative Humidity : 22~23 40~42% Sporton International Inc. (Kunshan) TEL : +86-512-57900158 FAX : +86-512-57900958 FCC ID: XHG-M2500 Page Number : A1 of A1 Software Version: 22.05.231801 FR1 N48 (ANT4) Transmitter Conducted Output Power And EIRP, (GT-LC)=-1.71dB NR Band 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 48 SCS (kHz) 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 Bandwidth (MHz) Arfcn Freq (MHz) 10 637000 3555 10 637000 3555 10 641666 3624.99 10 641666 3624.99 10 646332 3694.98 10 646332 3694.98 20 637334 3560.01 20 637334 3560.01 20 641666 3624.99 20 641666 3624.99 20 646000 3690 20 646000 3690 30 637668 3565.02 30 637668 3565.02 30 641666 3624.99 30 641666 3624.99 30 645666 3684.99 30 645666 3684.99 40 638000 3570 40 638000 3570 40 638000 3570 40 638000 3570 40 638000 3570 40 638000 3570 40 638000 3570 40 638000 3570 40 638000 3570 40 638000 3570 Modulation DFT-s-OFDM QPSK DFT-s-OFDM 16 QAM DFT-s-OFDM QPSK DFT-s-OFDM 16 QAM DFT-s-OFDM QPSK DFT-s-OFDM 16 QAM DFT-s-OFDM QPSK DFT-s-OFDM 16 QAM DFT-s-OFDM QPSK DFT-s-OFDM 16 QAM DFT-s-OFDM QPSK DFT-s-OFDM 16 QAM DFT-s-OFDM QPSK DFT-s-OFDM 16 QAM DFT-s-OFDM QPSK DFT-s-OFDM 16 QAM DFT-s-OFDM QPSK DFT-s-OFDM 16 QAM DFT-s-OFDM PI/2 BPSK DFT-s-OFDM PI/2 BPSK DFT-s-OFDM PI/2 BPSK DFT-s-OFDM QPSK DFT-s-OFDM QPSK DFT-s-OFDM QPSK DFT-s-OFDM 16 QAM DFT-s-OFDM 16 QAM DFT-s-OFDM 16 QAM DFT-s-OFDM 64 QAM RB Conducted EIRP Power(dBm) (dBm) 1@1 20.53 18.82 1@1 19.69 17.98 1@1 20.75 19.04 1@1 19.93 18.22 1@1 19.72 18.01 1@1 18.93 17.22 1@1 20.66 18.95 1@1 19.85 18.14 1@1 20.94 19.23 1@1 20.07 18.36 1@1 20.07 18.36 1@1 19.19 17.48 1@1 20.69 18.98 1@1 19.91 18.2 1@1 20.97 19.26 1@1 20.28 18.57 1@1 20.25 18.54 1@1 19.49 17.78 50@25 20.82 19.11 1@1 20.9 19.19 1@104 20.93 19.22 50@25 20.71 19 1@1 20.81 19.1 1@104 20.75 19.04 50@25 19.7 17.99 1@1 20.05 18.34 1@104 19.98 18.27 50@25 18.23 16.52 EIRP (W) 0.0762 0.0628 0.0802 0.0664 0.0632 0.0527 0.0785 0.0652 0.0838 0.0685 0.0685 0.0560 0.0791 0.0661 0.0843 0.0719 0.0714 0.0600 0.0815 0.0830 0.0836 0.0794 0.0813 0.0802 0.0630 0.0682 0.0671 0.0449 48 30 48 30 48 30 48 30 48 30 48 30 48 30 48 30 48 30 48 30 48 30 48 30 48 30 48 30 48 30 48 30 48 30 48 30 48 30 48 30 48 30 48 30 48 30 48 30 48 30 48 30 48 30 48 30 48 30 48 30 48 30 48 30 48 30 48 30 40 638000 3570 DFT-s-OFDM 64 QAM 1@1 18.35 16.64 0.0461 40 638000 3570 DFT-s-OFDM 64 QAM 1@104 18.41 16.7 0.0468 40 638000 3570 DFT-s-OFDM 256 QAM 50@25 16.19 14.48 0.0281 40 638000 3570 DFT-s-OFDM 256 QAM 1@1 16.28 14.57 0.0286 40 638000 3570 DFT-s-OFDM 256 QAM 1@104 16.19 14.48 0.0281 40 638000 3570 CP-OFDM QPSK 53@26 19.17 17.46 0.0557 40 638000 3570 CP-OFDM QPSK 1@1 19.26 17.55 0.0569 40 638000 3570 CP-OFDM QPSK 1@104 19.31 17.6 0.0575 40 641666 3624.99 DFT-s-OFDM PI/2 BPSK 50@25 21.07 19.36 0.0863 40 641666 3624.99 DFT-s-OFDM PI/2 BPSK 1@1 21.1 19.39 0.0869 40 641666 3624.99 DFT-s-OFDM PI/2 BPSK 1@104 20.71 19 0.0794 40 641666 3624.99 DFT-s-OFDM QPSK 50@25 21.02 19.31 0.0853 40 641666 3624.99 DFT-s-OFDM QPSK 1@1 21.13 19.42 0.0875 40 641666 3624.99 DFT-s-OFDM QPSK 1@104 20.74 19.03 0.0800 40 641666 3624.99 DFT-s-OFDM 16 QAM 50@25 20.1 18.39 0.0690 40 641666 3624.99 DFT-s-OFDM 16 QAM 1@1 20.17 18.46 0.0701 40 641666 3624.99 DFT-s-OFDM 16 QAM 1@104 19.87 18.16 0.0655 40 641666 3624.99 DFT-s-OFDM 64 QAM 50@25 18.55 16.84 0.0483 40 641666 3624.99 DFT-s-OFDM 64 QAM 1@1 18.64 16.93 0.0493 40 641666 3624.99 DFT-s-OFDM 64 QAM 1@104 18.26 16.55 0.0452 40 641666 3624.99 DFT-s-OFDM 256 QAM 50@25 16.41 14.7 0.0295 40 641666 3624.99 DFT-s-OFDM 256 QAM 1@1 16.43 14.72 0.0296 40 641666 3624.99 DFT-s-OFDM 256 QAM 1@104 16.11 14.4 0.0275 40 641666 3624.99 CP-OFDM QPSK 53@26 19.44 17.73 0.0593 40 641666 3624.99 CP-OFDM QPSK 1@1 19.52 17.81 0.0604 40 641666 3624.99 CP-OFDM QPSK 1@104 19.16 17.45 0.0556 40 645332 3679.98 DFT-s-OFDM PI/2 BPSK 50@25 20.19 18.48 0.0705 40 645332 3679.98 DFT-s-OFDM PI/2 BPSK 1@1 20.66 18.95 0.0785 40 645332 3679.98 DFT-s-OFDM PI/2 BPSK 1@104 19.93 18.22 0.0664 40 645332 3679.98 DFT-s-OFDM QPSK 50@25 20.18 18.47 0.0703 40 645332 3679.98 DFT-s-OFDM QPSK 1@1 20.67 18.96 0.0787 40 645332 3679.98 DFT-s-OFDM QPSK 1@104 19.92 18.21 0.0662 40 645332 3679.98 DFT-s-OFDM 16 QAM 50@25 19.17 17.46 0.0557 40 645332 3679.98 DFT-s-OFDM 16 QAM 1@1 19.65 17.94 0.0622 48 30 48 30 48 30 48 30 48 30 48 30 48 30 48 30 48 30 48 30 40 645332 3679.98 DFT-s-OFDM 16 QAM 1@104 19.04 17.33 0.0541 40 645332 3679.98 DFT-s-OFDM 64 QAM 50@25 17.66 15.95 0.0394 40 645332 3679.98 DFT-s-OFDM 64 QAM 1@1 18.05 16.34 0.0431 40 645332 3679.98 DFT-s-OFDM 64 QAM 1@104 17.45 15.74 0.0375 40 645332 3679.98 DFT-s-OFDM 256 QAM 50@25 15.65 13.94 0.0248 40 645332 3679.98 DFT-s-OFDM 256 QAM 1@1 15.93 14.22 0.0264 40 645332 3679.98 DFT-s-OFDM 256 QAM 1@104 15.28 13.57 0.0228 40 645332 3679.98 CP-OFDM QPSK 53@26 18.67 16.96 0.0497 40 645332 3679.98 CP-OFDM QPSK 1@1 18.98 17.27 0.0533 40 645332 3679.98 CP-OFDM QPSK 1@104 18.35 16.64 0.0461 Frequency Stability NR Band SCS (kHz) Bandwidth (MHz) Arfcn 48 30 20 641666 48 30 20 641666 48 30 20 641666 48 30 20 641666 48 30 20 641666 48 30 20 641666 48 30 20 641666 48 30 20 641666 48 30 20 641666 48 30 20 641666 48 30 20 641666 48 30 20 641666 Freq (MHz) 3624.99 3624.99 3624.99 3624.99 3624.99 3624.99 3624.99 3624.99 3624.99 3624.99 3624.99 3624.99 Modulation DFT-sOFDM QPSK DFT-sOFDM QPSK DFT-sOFDM QPSK DFT-sOFDM QPSK DFT-sOFDM QPSK DFT-sOFDM QPSK DFT-sOFDM QPSK DFT-sOFDM QPSK DFT-sOFDM QPSK DFT-sOFDM QPSK DFT-sOFDM QPSK DFT-sOFDM QPSK RB 50@0 50@0 50@0 50@0 50@0 50@0 50@0 50@0 50@0 50@0 50@0 50@0 Deviation Verdict Environment (ppm) 0.0027 PASS NV 0.0057 PASS LV 0.0025 PASS HV 0.0049 PASS -30 0.0030 PASS -20 0.0026 PASS -10 0.0061 PASS 0 0.0056 PASS 10 0.0027 PASS 20 0.0034 PASS 30 0.0036 PASS 40 0.0050 PASS 50 Occupied Bandwidth NR Band SCS (kHz) Bandwidth (MHz) Arfcn 48 30 10 641666 48 30 10 641666 48 30 10 641666 48 30 10 641666 48 30 10 641666 48 30 10 641666 48 30 20 641666 48 30 20 641666 48 30 20 641666 48 30 20 641666 48 30 20 641666 48 30 20 641666 48 30 30 641666 48 30 30 641666 48 30 30 641666 48 30 30 641666 48 30 30 641666 48 30 30 641666 48 30 40 641666 48 30 40 641666 48 30 40 641666 48 30 40 641666 48 30 40 641666 48 30 40 641666 Freq (MHz) 3624.99 3624.99 3624.99 3624.99 3624.99 3624.99 3624.99 3624.99 3624.99 3624.99 3624.99 3624.99 3624.99 3624.99 3624.99 3624.99 3624.99 3624.99 3624.99 3624.99 3624.99 3624.99 3624.99 3624.99 Modulation DFT-s-OFDM PI/2 BPSK DFT-s-OFDM QPSK CP-OFDM QPSK CP-OFDM 16 QAM CP-OFDM 64 QAM CP-OFDM 256 QAM DFT-s-OFDM PI/2 BPSK DFT-s-OFDM QPSK CP-OFDM QPSK CP-OFDM 16 QAM CP-OFDM 64 QAM CP-OFDM 256 QAM DFT-s-OFDM PI/2 BPSK DFT-s-OFDM QPSK CP-OFDM QPSK CP-OFDM 16 QAM CP-OFDM 64 QAM CP-OFDM 256 QAM DFT-s-OFDM PI/2 BPSK DFT-s-OFDM QPSK CP-OFDM QPSK CP-OFDM 16 QAM CP-OFDM 64 QAM CP-OFDM 256 QAM RB 24@0 24@0 24@0 24@0 24@0 24@0 50@0 50@0 51@0 51@0 51@0 51@0 75@0 75@0 78@0 78@0 78@0 78@0 100@0 100@0 106@0 106@0 106@0 106@0 OBW (MHz) 8.5985 8.6062 8.5895 8.6045 8.6099 8.5679 17.808 17.812 18.181 18.259 18.225 18.15 26.739 26.752 27.883 27.894 27.795 27.813 35.675 35.724 37.805 37.815 37.751 37.8 26dB OBW (MHz) 9.636 9.608 9.921 9.73 9.949 9.574 19.29 18.94 19.82 19.88 19.66 19.56 28.3 28.15 29.34 29.61 29.83 29.14 37.12 37.33 39.88 39.62 39.78 39.71 N48(10M)_DFT-s-OFDM_PI_2BPSK_Outer_Full_Mid_CH N48(10M)_DFT-sOFDM_QPSK_Outer_Full_Mid_CH N48(10M)_CPOFDM_QPSK_Outer_Full_Mid_CH N48(10M)_CP-OFDM_16 QAM_Outer_Full_Mid_CH N48(10M)_CP-OFDM_64 QAM_Outer_Full_Mid_CH N48(10M)_CP-OFDM_256 QAM_Outer_Full_Mid_CH N48(20M)_DFT-s-OFDM_PI_2BPSK_Outer_Full_Mid_CH N48(20M)_DFT-sOFDM_QPSK_Outer_Full_Mid_CH N48(20M)_CPOFDM_QPSK_Outer_Full_Mid_CH N48(20M)_CP-OFDM_16 QAM_Outer_Full_Mid_CH N48(20M)_CP-OFDM_64 QAM_Outer_Full_Mid_CH N48(20M)_CP-OFDM_256 QAM_Outer_Full_Mid_CH N48(30M)_DFT-s-OFDM_PI_2BPSK_Outer_Full_Mid_CH N48(30M)_DFT-sOFDM_QPSK_Outer_Full_Mid_CH N48(30M)_CPOFDM_QPSK_Outer_Full_Mid_CH N48(30M)_CP-OFDM_16 QAM_Outer_Full_Mid_CH N48(30M)_CP-OFDM_64 QAM_Outer_Full_Mid_CH N48(30M)_CP-OFDM_256 QAM_Outer_Full_Mid_CH N48(40M)_DFT-s-OFDM_PI_2BPSK_Outer_Full_Mid_CH N48(40M)_DFT-sOFDM_QPSK_Outer_Full_Mid_CH N48(40M)_CPOFDM_QPSK_Outer_Full_Mid_CH N48(40M)_CP-OFDM_16 QAM_Outer_Full_Mid_CH N48(40M)_CP-OFDM_64 QAM_Outer_Full_Mid_CH N48(40M)_CP-OFDM_256 QAM_Outer_Full_Mid_CH Adjacent Channel Leakage Ratio NR Band SCS Bandwidth Arfcn (kHz) (MHz) Freq Modulation (MHz) 48 30 48 30 48 30 48 30 48 30 48 30 48 30 48 30 48 30 48 30 48 30 48 30 48 30 48 30 48 30 48 30 48 30 48 30 48 30 48 30 48 30 48 30 DFT-s- 10 637000 3555.0 OFDM PI/2 BPSK DFT-s- 10 637000 3555.0 OFDM PI/2 BPSK DFT-s- 10 637000 3555.0 OFDM PI/2 BPSK DFT-s- 10 637000 3555.0 OFDM QPSK DFT-s- 10 637000 3555.0 OFDM QPSK DFT-s- 10 637000 3555.0 OFDM QPSK DFT-s- 10 641666 3624.99 OFDM PI/2 BPSK DFT-s- 10 641666 3624.99 OFDM PI/2 BPSK DFT-s- 10 641666 3624.99 OFDM PI/2 BPSK DFT-s- 10 641666 3624.99 OFDM QPSK DFT-s- 10 641666 3624.99 OFDM QPSK DFT-s- 10 641666 3624.99 OFDM QPSK DFT-s- 10 646332 3694.98 OFDM PI/2 BPSK DFT-s- 10 646332 3694.98 OFDM PI/2 BPSK DFT-s- 10 646332 3694.98 OFDM PI/2 BPSK DFT-s- 10 646332 3694.98 OFDM QPSK DFT-s- 10 646332 3694.98 OFDM QPSK DFT-s- 10 646332 3694.98 OFDM QPSK DFT-s- 20 637334 3560.01 OFDM PI/2 BPSK DFT-s- 20 637334 3560.01 OFDM PI/2 BPSK DFT-s- 20 637334 3560.01 OFDM PI/2 BPSK DFT-s- 20 637334 3560.01 OFDM QPSK RB 24@0 1@0 1@23 24@0 1@0 1@23 24@0 1@0 1@23 24@0 1@0 1@23 24@0 1@0 1@23 24@0 1@0 1@23 50@0 1@0 1@50 50@0 Lower Upper Result Verdict Margin Margin -7.75 -11.62 -23.67 -6.06 -11.32 -23.38 -9.57 -10.51 -21.21 -7.74 -10.33 -22.11 -12.0 -10.11 -18.7 -10.27 -10.5 -18.63 -7.89 -12.57 -19.89 -5.47 -7.0 -23.56 -11.78 -5.23 -23.33 -11.61 -9.19 -20.5 -12.26 -7.17 -20.22 -11.29 -12.3 -17.66 -12.14 -11.21 -17.97 -11.54 -7.58 -20.9 -12.41 -4.99 see graph see graph see graph see graph see graph see graph see graph see graph see graph see graph see graph see graph see graph see graph see graph see graph see graph see graph see graph see graph see graph see graph PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS 48 30 48 30 48 30 48 30 48 30 48 30 48 30 48 30 48 30 48 30 48 30 48 30 48 30 48 30 48 30 48 30 48 30 48 30 48 30 48 30 48 30 48 30 48 30 48 30 20 637334 3560.01 DFT-sOFDM QPSK 1@0 -12.69 -20.29 see graph PASS 20 637334 3560.01 DFT-sOFDM QPSK 1@50 -21.29 -12.62 see graph PASS 20 641666 3624.99 DFT-sOFDM PI/2 BPSK 50@0 -9.12 -10.09 see graph PASS 20 641666 3624.99 DFT-sOFDM PI/2 BPSK 1@0 -11.25 -18.52 see graph PASS 20 641666 3624.99 DFT-sOFDM PI/2 BPSK 1@50 -19.13 -13.37 see graph PASS 20 641666 3624.99 DFT-sOFDM QPSK 50@0 -6.28 -7.33 see graph PASS 20 641666 3624.99 DFT-sOFDM QPSK 1@0 -12.2 -18.86 see graph PASS 20 641666 3624.99 DFT-sOFDM QPSK 1@50 -18.32 -12.36 see graph PASS 20 646000 3690.0 DFT-sOFDM PI/2 BPSK 50@0 -10.79 -11.5 see graph PASS 20 646000 3690.0 DFT-sOFDM PI/2 BPSK 1@0 -12.43 -16.3 see graph PASS 20 646000 3690.0 DFT-sOFDM PI/2 BPSK 1@50 -16.29 -12.06 see graph PASS 20 646000 3690.0 DFT-sOFDM QPSK 50@0 -9.05 -9.9 see graph PASS 20 646000 3690.0 DFT-sOFDM QPSK 1@0 -11.08 -15.8 see graph PASS 20 646000 3690.0 DFT-sOFDM QPSK 1@50 -15.99 -12.49 see graph PASS 40 638000 3570.0 DFT-sOFDM PI/2 BPSK 100@0 -8.14 -6.64 see graph PASS 40 638000 3570.0 DFT-sOFDM PI/2 BPSK 1@0 -12.5 -14.48 see graph PASS 40 638000 3570.0 DFT-sOFDM PI/2 BPSK 1@105 -16.14 -13.65 see graph PASS 40 638000 3570.0 DFT-sOFDM QPSK 100@0 -5.89 -4.28 see graph PASS 40 638000 3570.0 DFT-sOFDM QPSK 1@0 -12.68 -14.04 see graph PASS 40 638000 3570.0 DFT-sOFDM QPSK 1@105 -16.31 -14.03 see graph PASS 40 641666 3624.99 DFT-sOFDM PI/2 BPSK 100@0 -9.66 -9.75 see graph PASS 40 641666 3624.99 DFT-sOFDM PI/2 BPSK 1@0 -12.64 -15.47 see graph PASS 40 641666 3624.99 DFT-sOFDM PI/2 BPSK 1@105 -16.45 -13.76 see graph PASS 40 641666 3624.99 DFT-sOFDM QPSK 100@0 -7.68 -7.37 see graph PASS 48 30 48 30 48 30 48 30 48 30 48 30 48 30 48 30 40 641666 3624.99 DFT-sOFDM QPSK 1@0 -13.11 -15.05 see graph PASS 40 641666 3624.99 DFT-sOFDM QPSK 1@105 -16.33 -13.72 see graph PASS 40 645332 3679.98 DFT-sOFDM PI/2 BPSK 100@0 -9.23 -10.85 see graph PASS 40 645332 3679.98 DFT-sOFDM PI/2 BPSK 1@0 -13.02 -14.35 see graph PASS 40 645332 3679.98 DFT-sOFDM PI/2 BPSK 1@105 -13.84 -11.84 see graph PASS 40 645332 3679.98 DFT-sOFDM QPSK 100@0 -7.82 -9.44 see graph PASS 40 645332 3679.98 DFT-sOFDM QPSK 1@0 -12.82 -13.79 see graph PASS 40 645332 3679.98 DFT-sOFDM QPSK 1@105 -12.65 -10.57 see graph PASS N48(10M)_DFT-s-OFDM_PI_2BPSK_Outer_Full_Low_CH N48(10M)_DFT-s-OFDM_PI_2BPSK_Edge_1RB_Left_Low_CH N48(10M)_DFT-s-OFDM_PI_2BPSK_Edge_1RB_Right_Low_CH N48(10M)_DFT-sOFDM_QPSK_Outer_Full_Low_CH N48(10M)_DFT-s- N48(10M)_DFT-s- OFDM_QPSK_Edge_1RB_Left_Low_CH OFDM_QPSK_Edge_1RB_Right_Low_CH N48(10M)_DFT-s-OFDM_PI_2BPSK_Outer_Full_Mid_CH N48(10M)_DFT-s-OFDM_PI_2BPSK_Edge_1RB_Left_Mid_CH N48(10M)_DFT-s-OFDM_PI_2BPSK_Edge_1RB_Right_Mid_CH N48(10M)_DFT-sOFDM_QPSK_Outer_Full_Mid_CH N48(10M)_DFT-s- N48(10M)_DFT-s- OFDM_QPSK_Edge_1RB_Left_Mid_CH OFDM_QPSK_Edge_1RB_Right_Mid_CH N48(10M)_DFT-s-OFDM_PI_2BPSK_Outer_Full_High_CH N48(10M)_DFT-s-OFDM_PI_2BPSK_Edge_1RB_Left_High_CH N48(10M)_DFT-s-OFDM_PI_2BPSK_Edge_1RB_Right_High_CH N48(10M)_DFT-sOFDM_QPSK_Outer_Full_High_CH N48(10M)_DFT-sOFDM_QPSK_Edge_1RB_Left_High_CH N48(10M)_DFT-sOFDM_QPSK_Edge_1RB_Right_High_C H N48(20M)_DFT-s-OFDM_PI_2BPSK_Outer_Full_Low_CH N48(20M)_DFT-s-OFDM_PI_2BPSK_Edge_1RB_Left_Low_CH N48(20M)_DFT-s-OFDM_PI_2BPSK_Edge_1RB_Right_Low_CH N48(20M)_DFT-sOFDM_QPSK_Outer_Full_Low_CH N48(20M)_DFT-s- N48(20M)_DFT-s- OFDM_QPSK_Edge_1RB_Left_Low_CH OFDM_QPSK_Edge_1RB_Right_Low_CH N48(20M)_DFT-s-OFDM_PI_2BPSK_Outer_Full_Mid_CH N48(20M)_DFT-s-OFDM_PI_2BPSK_Edge_1RB_Left_Mid_CH N48(20M)_DFT-s-OFDM_PI_2BPSK_Edge_1RB_Right_Mid_CH N48(20M)_DFT-sOFDM_QPSK_Outer_Full_Mid_CH N48(20M)_DFT-s- N48(20M)_DFT-s- OFDM_QPSK_Edge_1RB_Left_Mid_CH OFDM_QPSK_Edge_1RB_Right_Mid_CH N48(20M)_DFT-s-OFDM_PI_2BPSK_Outer_Full_High_CH N48(20M)_DFT-s-OFDM_PI_2BPSK_Edge_1RB_Left_High_CH N48(20M)_DFT-s-OFDM_PI_2BPSK_Edge_1RB_Right_High_CH N48(20M)_DFT-sOFDM_QPSK_Outer_Full_High_CH N48(20M)_DFT-sOFDM_QPSK_Edge_1RB_Left_High_CH N48(20M)_DFT-sOFDM_QPSK_Edge_1RB_Right_High_C H N48(40M)_DFT-s-OFDM_PI_2BPSK_Outer_Full_Low_CH N48(40M)_DFT-s-OFDM_PI_2BPSK_Edge_1RB_Left_Low_CH N48(40M)_DFT-s-OFDM_PI_2BPSK_Edge_1RB_Right_Low_CH N48(40M)_DFT-sOFDM_QPSK_Outer_Full_Low_CH N48(40M)_DFT-s- N48(40M)_DFT-s- OFDM_QPSK_Edge_1RB_Left_Low_CH OFDM_QPSK_Edge_1RB_Right_Low_CH N48(40M)_DFT-s-OFDM_PI_2BPSK_Outer_Full_Mid_CH N48(40M)_DFT-s-OFDM_PI_2BPSK_Edge_1RB_Left_Mid_CH N48(40M)_DFT-s-OFDM_PI_2BPSK_Edge_1RB_Right_Mid_CH N48(40M)_DFT-sOFDM_QPSK_Outer_Full_Mid_CH N48(40M)_DFT-s- N48(40M)_DFT-s- OFDM_QPSK_Edge_1RB_Left_Mid_CH OFDM_QPSK_Edge_1RB_Right_Mid_CH N48(40M)_DFT-s-OFDM_PI_2BPSK_Outer_Full_High_CH N48(40M)_DFT-s-OFDM_PI_2BPSK_Edge_1RB_Left_High_CH N48(40M)_DFT-s-OFDM_PI_2BPSK_Edge_1RB_Right_High_CH N48(40M)_DFT-sOFDM_QPSK_Outer_Full_High_CH N48(40M)_DFT-sOFDM_QPSK_Edge_1RB_Left_High_CH N48(40M)_DFT-sOFDM_QPSK_Edge_1RB_Right_High_C H Conducted Spurious Emissions NR Band SCS (kHz) Bandwidth (MHz) Arfcn Freq (MHz) 48 30 10 637000 3555.0 48 30 10 637000 3555.0 48 30 10 637000 3555.0 48 30 10 637000 3555.0 48 30 10 637000 3555.0 48 30 10 637000 3555.0 48 30 10 637000 3555.0 48 30 10 637000 3555.0 48 30 10 637000 3555.0 48 30 10 637000 3555.0 48 30 10 637000 3555.0 48 30 10 637000 3555.0 48 30 10 637000 3555.0 48 30 10 637000 3555.0 48 30 10 637000 3555.0 48 30 10 637000 3555.0 48 30 10 637000 3555.0 48 30 10 637000 3555.0 48 30 10 641666 3624.99 48 30 10 641666 3624.99 48 30 10 641666 3624.99 48 30 10 641666 3624.99 Modulation DFT-sOFDM BPSK DFT-sOFDM BPSK DFT-sOFDM BPSK DFT-sOFDM QPSK DFT-sOFDM QPSK DFT-sOFDM QPSK DFT-sOFDM BPSK DFT-sOFDM BPSK DFT-sOFDM BPSK DFT-sOFDM QPSK DFT-sOFDM QPSK DFT-sOFDM QPSK DFT-sOFDM BPSK DFT-sOFDM BPSK DFT-sOFDM BPSK DFT-sOFDM QPSK DFT-sOFDM QPSK DFT-sOFDM QPSK DFT-sOFDM BPSK DFT-sOFDM BPSK DFT-sOFDM BPSK DFT-sOFDM QPSK RB 1@0 1@0 1@0 1@0 1@0 1@0 1@23 1@23 1@23 1@23 1@23 1@23 24@0 24@0 24@0 24@0 24@0 24@0 1@0 1@0 1@0 1@0 Result Verdict see graph --- see graph PASS see graph PASS see graph --- see graph PASS see graph PASS see graph --- see graph PASS see graph PASS see graph --- see graph PASS see graph PASS see graph --- see graph PASS see graph PASS see graph --- see graph PASS see graph PASS see graph --- see graph PASS see graph PASS see graph --- DFT-s- 48 30 10 641666 3624.99 OFDM 1@0 see graph PASS QPSK DFT-s- 48 30 10 641666 3624.99 OFDM 1@0 see graph PASS QPSK DFT-s- 48 30 10 641666 3624.99 OFDM 1@23 see graph --- BPSK DFT-s- 48 30 10 641666 3624.99 OFDM 1@23 see graph PASS BPSK DFT-s- 48 30 10 641666 3624.99 OFDM 1@23 see graph PASS BPSK DFT-s- 48 30 10 641666 3624.99 OFDM 1@23 see graph --- QPSK DFT-s- 48 30 10 641666 3624.99 OFDM 1@23 see graph PASS QPSK DFT-s- 48 30 10 641666 3624.99 OFDM 1@23 see graph PASS QPSK DFT-s- 48 30 10 641666 3624.99 OFDM 24@0 see graph --- BPSK DFT-s- 48 30 10 641666 3624.99 OFDM 24@0 see graph PASS BPSK DFT-s- 48 30 10 641666 3624.99 OFDM 24@0 see graph PASS BPSK DFT-s- 48 30 10 641666 3624.99 OFDM 24@0 see graph --- QPSK DFT-s- 48 30 10 641666 3624.99 OFDM 24@0 see graph PASS QPSK DFT-s- 48 30 10 641666 3624.99 OFDM 24@0 see graph PASS QPSK DFT-s- 48 30 10 646332 3694.98 OFDM 1@0 see graph --- BPSK DFT-s- 48 30 10 646332 3694.98 OFDM 1@0 see graph PASS BPSK DFT-s- 48 30 10 646332 3694.98 OFDM 1@0 see graph PASS BPSK DFT-s- 48 30 10 646332 3694.98 OFDM 1@0 see graph --- QPSK DFT-s- 48 30 10 646332 3694.98 OFDM 1@0 see graph PASS QPSK DFT-s- 48 30 10 646332 3694.98 OFDM 1@0 see graph PASS QPSK DFT-s- 48 30 10 646332 3694.98 OFDM 1@23 see graph --- BPSK DFT-s- 48 30 10 646332 3694.98 OFDM 1@23 see graph PASS BPSK DFT-s- 48 30 10 646332 3694.98 OFDM 1@23 see graph PASS BPSK DFT-s- 48 30 10 646332 3694.98 OFDM 1@23 see graph --- QPSK DFT-s- 48 30 10 646332 3694.98 OFDM 1@23 see graph PASS QPSK DFT-s- 48 30 10 646332 3694.98 OFDM 1@23 see graph PASS QPSK DFT-s- 48 30 10 646332 3694.98 OFDM 24@0 see graph --- BPSK DFT-s- 48 30 10 646332 3694.98 OFDM 24@0 see graph PASS BPSK DFT-s- 48 30 10 646332 3694.98 OFDM 24@0 see graph PASS BPSK DFT-s- 48 30 10 646332 3694.98 OFDM 24@0 see graph --- QPSK DFT-s- 48 30 10 646332 3694.98 OFDM 24@0 see graph PASS QPSK DFT-s- 48 30 10 646332 3694.98 OFDM 24@0 see graph PASS QPSK DFT-s- 48 30 20 637334 3560.01 OFDM 1@0 see graph --- BPSK DFT-s- 48 30 20 637334 3560.01 OFDM 1@0 see graph PASS BPSK DFT-s- 48 30 20 637334 3560.01 OFDM 1@0 see graph PASS BPSK DFT-s- 48 30 20 637334 3560.01 OFDM 1@0 see graph --- QPSK DFT-s- 48 30 20 637334 3560.01 OFDM 1@0 see graph PASS QPSK DFT-s- 48 30 20 637334 3560.01 OFDM 1@0 see graph PASS QPSK DFT-s- 48 30 20 637334 3560.01 OFDM 1@50 see graph --- BPSK DFT-s- 48 30 20 637334 3560.01 OFDM 1@50 see graph PASS BPSK DFT-s- 48 30 20 637334 3560.01 OFDM 1@50 see graph PASS BPSK DFT-s- 48 30 20 637334 3560.01 OFDM 1@50 see graph --- QPSK DFT-s- 48 30 20 637334 3560.01 OFDM 1@50 see graph PASS QPSK DFT-s- 48 30 20 637334 3560.01 OFDM 1@50 see graph PASS QPSK DFT-s- 48 30 20 637334 3560.01 OFDM 50@0 see graph --- BPSK DFT-s- 48 30 20 637334 3560.01 OFDM 50@0 see graph PASS BPSK DFT-s- 48 30 20 637334 3560.01 OFDM 50@0 see graph PASS BPSK DFT-s- 48 30 20 637334 3560.01 OFDM 50@0 see graph --- QPSK DFT-s- 48 30 20 637334 3560.01 OFDM 50@0 see graph PASS QPSK DFT-s- 48 30 20 637334 3560.01 OFDM 50@0 see graph PASS QPSK DFT-s- 48 30 20 641666 3624.99 OFDM 1@0 see graph --- BPSK DFT-s- 48 30 20 641666 3624.99 OFDM 1@0 see graph PASS BPSK DFT-s- 48 30 20 641666 3624.99 OFDM 1@0 see graph PASS BPSK DFT-s- 48 30 20 641666 3624.99 OFDM 1@0 see graph --- QPSK DFT-s- 48 30 20 641666 3624.99 OFDM 1@0 see graph PASS QPSK DFT-s- 48 30 20 641666 3624.99 OFDM 1@0 see graph PASS QPSK DFT-s- 48 30 20 641666 3624.99 OFDM 1@50 see graph --- BPSK DFT-s- 48 30 20 641666 3624.99 OFDM 1@50 see graph PASS BPSK DFT-s- 48 30 20 641666 3624.99 OFDM 1@50 see graph PASS BPSK DFT-s- 48 30 20 641666 3624.99 OFDM 1@50 see graph --- QPSK DFT-s- 48 30 20 641666 3624.99 OFDM 1@50 see graph PASS QPSK DFT-s- 48 30 20 641666 3624.99 OFDM 1@50 see graph PASS QPSK DFT-s- 48 30 20 641666 3624.99 OFDM 50@0 see graph --- BPSK DFT-s- 48 30 20 641666 3624.99 OFDM 50@0 see graph PASS BPSK DFT-s- 48 30 20 641666 3624.99 OFDM 50@0 see graph PASS BPSK DFT-s- 48 30 20 641666 3624.99 OFDM 50@0 see graph --- QPSK DFT-s- 48 30 20 641666 3624.99 OFDM 50@0 see graph PASS QPSK DFT-s- 48 30 20 641666 3624.99 OFDM 50@0 see graph PASS QPSK DFT-s- 48 30 20 646000 3690.0 OFDM 1@0 see graph --- BPSK DFT-s- 48 30 20 646000 3690.0 OFDM 1@0 see graph PASS BPSK DFT-s- 48 30 20 646000 3690.0 OFDM 1@0 see graph PASS BPSK DFT-s- 48 30 20 646000 3690.0 OFDM 1@0 see graph --- QPSK DFT-s- 48 30 20 646000 3690.0 OFDM 1@0 see graph PASS QPSK DFT-s- 48 30 20 646000 3690.0 OFDM 1@0 see graph PASS QPSK DFT-s- 48 30 20 646000 3690.0 OFDM 1@50 see graph --- BPSK DFT-s- 48 30 20 646000 3690.0 OFDM 1@50 see graph PASS BPSK DFT-s- 48 30 20 646000 3690.0 OFDM 1@50 see graph PASS BPSK DFT-s- 48 30 20 646000 3690.0 OFDM 1@50 see graph --- QPSK DFT-s- 48 30 20 646000 3690.0 OFDM 1@50 see graph PASS QPSK DFT-s- 48 30 20 646000 3690.0 OFDM 1@50 see graph PASS QPSK DFT-s- 48 30 20 646000 3690.0 OFDM 50@0 see graph --- BPSK DFT-s- 48 30 20 646000 3690.0 OFDM 50@0 see graph PASS BPSK DFT-s- 48 30 20 646000 3690.0 OFDM 50@0 see graph PASS BPSK DFT-s- 48 30 20 646000 3690.0 OFDM 50@0 see graph --- QPSK DFT-s- 48 30 20 646000 3690.0 OFDM 50@0 see graph PASS QPSK DFT-s- 48 30 20 646000 3690.0 OFDM 50@0 see graph PASS QPSK DFT-s- 48 30 40 638000 3570.0 OFDM 1@0 see graph --- BPSK DFT-s- 48 30 40 638000 3570.0 OFDM 1@0 see graph PASS BPSK DFT-s- 48 30 40 638000 3570.0 OFDM 1@0 see graph PASS BPSK DFT-s- 48 30 40 638000 3570.0 OFDM 1@0 see graph --- QPSK DFT-s- 48 30 40 638000 3570.0 OFDM 1@0 see graph PASS QPSK DFT-s- 48 30 40 638000 3570.0 OFDM 1@0 see graph PASS QPSK DFT-s- 48 30 40 638000 3570.0 OFDM 1@105 see graph --- BPSK DFT-s- 48 30 40 638000 3570.0 OFDM 1@105 see graph PASS BPSK DFT-s- 48 30 40 638000 3570.0 OFDM 1@105 see graph PASS BPSK DFT-s- 48 30 40 638000 3570.0 OFDM 1@105 see graph --- QPSK DFT-s- 48 30 40 638000 3570.0 OFDM 1@105 see graph PASS QPSK DFT-s- 48 30 40 638000 3570.0 OFDM 1@105 see graph PASS QPSK DFT-s- 48 30 40 638000 3570.0 OFDM 100@0 see graph --- BPSK DFT-s- 48 30 40 638000 3570.0 OFDM 100@0 see graph PASS BPSK DFT-s- 48 30 40 638000 3570.0 OFDM 100@0 see graph PASS BPSK DFT-s- 48 30 40 638000 3570.0 OFDM 100@0 see graph --- QPSK DFT-s- 48 30 40 638000 3570.0 OFDM 100@0 see graph PASS QPSK DFT-s- 48 30 40 638000 3570.0 OFDM 100@0 see graph PASS QPSK DFT-s- 48 30 40 641666 3624.99 OFDM 1@0 see graph --- BPSK DFT-s- 48 30 40 641666 3624.99 OFDM 1@0 see graph PASS BPSK DFT-s- 48 30 40 641666 3624.99 OFDM 1@0 see graph PASS BPSK DFT-s- 48 30 40 641666 3624.99 OFDM 1@0 see graph --- QPSK DFT-s- 48 30 40 641666 3624.99 OFDM 1@0 see graph PASS QPSK DFT-s- 48 30 40 641666 3624.99 OFDM 1@0 see graph PASS QPSK DFT-s- 48 30 40 641666 3624.99 OFDM 1@105 see graph --- BPSK DFT-s- 48 30 40 641666 3624.99 OFDM 1@105 see graph PASS BPSK DFT-s- 48 30 40 641666 3624.99 OFDM 1@105 see graph PASS BPSK DFT-s- 48 30 40 641666 3624.99 OFDM 1@105 see graph --- QPSK DFT-s- 48 30 40 641666 3624.99 OFDM 1@105 see graph PASS QPSK DFT-s- 48 30 40 641666 3624.99 OFDM 1@105 see graph PASS QPSK DFT-s- 48 30 40 641666 3624.99 OFDM 100@0 see graph --- BPSK DFT-s- 48 30 40 641666 3624.99 OFDM 100@0 see graph PASS BPSK DFT-s- 48 30 40 641666 3624.99 OFDM 100@0 see graph PASS BPSK DFT-s- 48 30 40 641666 3624.99 OFDM 100@0 see graph --- QPSK DFT-s- 48 30 40 641666 3624.99 OFDM 100@0 see graph PASS QPSK DFT-s- 48 30 40 641666 3624.99 OFDM 100@0 see graph PASS QPSK DFT-s- 48 30 40 645332 3679.98 OFDM 1@0 see graph --- BPSK DFT-s- 48 30 40 645332 3679.98 OFDM 1@0 see graph PASS BPSK DFT-s- 48 30 40 645332 3679.98 OFDM 1@0 see graph PASS BPSK DFT-s- 48 30 40 645332 3679.98 OFDM 1@0 see graph --- QPSK DFT-s- 48 30 40 645332 3679.98 OFDM 1@0 see graph PASS QPSK DFT-s- 48 30 40 645332 3679.98 OFDM 1@0 see graph PASS QPSK DFT-s- 48 30 40 645332 3679.98 OFDM 1@105 see graph --- BPSK DFT-s- 48 30 40 645332 3679.98 OFDM 1@105 see graph PASS BPSK DFT-s- 48 30 40 645332 3679.98 OFDM 1@105 see graph PASS BPSK DFT-s- 48 30 40 645332 3679.98 OFDM 1@105 see graph --- QPSK DFT-s- 48 30 40 645332 3679.98 OFDM 1@105 see graph PASS QPSK DFT-s- 48 30 40 645332 3679.98 OFDM 1@105 see graph PASS QPSK DFT-s- 48 30 40 645332 3679.98 OFDM 100@0 see graph --- BPSK DFT-s- 48 30 40 645332 3679.98 OFDM 100@0 see graph PASS BPSK DFT-s- 48 30 40 645332 3679.98 OFDM 100@0 see graph PASS BPSK DFT-s- 48 30 40 645332 3679.98 OFDM 100@0 see graph --- QPSK DFT-s- 48 30 40 645332 3679.98 OFDM 100@0 see graph PASS QPSK DFT-s- 48 30 40 645332 3679.98 OFDM 100@0 see graph PASS QPSK N48(10M)_DFT-sOFDM_BPSK_Edge_1RB_Left_Low_CH N48(10M)_DFT-sOFDM_BPSK_Edge_1RB_Left_Low_CH N48(10M)_DFT-s- N48(10M)_DFT-s- OFDM_QPSK_Edge_1RB_Left_Low_CH OFDM_QPSK_Edge_1RB_Left_Low_CH N48(10M)_DFT-s- N48(10M)_DFT-s- OFDM_BPSK_Edge_1RB_Right_Low_CH OFDM_BPSK_Edge_1RB_Right_Low_CH
Related FCC IDs:
- XHG-CG890 - Franklin Technology Inc. Mobile Hotspot CG890 [-CG890] PDFium PDFium