DFS Test Report

FCC ID: JOYDB05

Test Report

Download: PDF
FCCID_4509959

Report on the RF Testing of: KYOCERA Corporation Mobile Phone, Model: DBO5 FCC ID: JOYDBO5 In accordance with FCC Part15 Subpart E (DFS) Prepared for: KYOCERA Corporation Add value. Yokohama Office 2—1—1 Kagahara, Tsuzuki—ku Inspire trust. Yokohama—shi, Kanagawa, Japan Phone: +81—45—943—6253 Fax: +81—45—943—6314 COMMERCIAL—IN—CONFIDENCE Document Number: JPD—TR—19160—0 JOB TITLE RESPONSIBLE FOR ISSUE DATE Hiroaki Suzuki Deputy Manager of RF Group | Approved Signatory 19 OCT 2019 Signatures in this approval box have checked this document in line with the requlirements of TUV SUD Japan Ltd. document control rules. EXECUTIVE SUMMARY A sample(s) of this product was tested and found to be compliant with FCC Part15 Subpart E. nviad&® > DISCLAIMER AND COPYRIGHT @ \\\\“\'\'!'/'l"/,,, The results in this report are applicable only to the equipment tested. _ _ EME This report shall not be re—produced except in full without the written approval of TUV SUD TESTING "4,,,4,'7\\\\‘\“\? ACCREDIATION NVLAP LAB CODE 200306—0 ts This test report must not be used by the client to claim product certification, approval, or endorsement by NVLAP, NIST, or any agency of the U.S. Government. TUV SUD Japa!l Ltd. Phone: +81 (0) 238 28 2881 mmI:hsyng Center Fax: +81 (0) 238 28 2888 imanpara, . Yonezawa—shi, Yamagata, wwwtuy—sud—ip 992—1128 Japan TUV SUD Japan Ltd.

Document Number: JPD-TR-19160-0 Contents 1 Summary of Test .................................................................................................................... 3 1.1 Modification history of the test report ........................................................................................ 3 1.2 Standards ................................................................................................................................ 3 1.3 Test methods ........................................................................................................................... 3 1.4 Deviation from standards.......................................................................................................... 3 1.5 List of applied test(s) of the EUT............................................................................................... 3 1.6 Test information ....................................................................................................................... 3 1.7 Test set up ............................................................................................................................... 3 1.8 Test period ............................................................................................................................... 3 2 Equipment Under Test ........................................................................................................... 4 2.1 EUT information ....................................................................................................................... 4 2.2 Modification to the EUT ............................................................................................................ 5 2.3 Variation of family model(s) ...................................................................................................... 5 2.4 Description of EUT ................................................................................................................... 6 2.5 EUT Maximum Conducted Power............................................................................................. 6 2.6 Transmit Power Control (TPC) ................................................................................................. 6 2.7 Statement of Maunfacturer ....................................................................................................... 7 2.8 U-NII DFS Rule Requirements ................................................................................................. 7 2.9 Parameters of DFS Test Signals .............................................................................................. 9 3 Configuration of Equipment ................................................................................................ 10 3.1 EUT used ............................................................................................................................... 10 3.2 Support Unit used .................................................................................................................. 10 4 Test Result ........................................................................................................................... 11 4.1 DFS Detection Threshold Levels ............................................................................................ 11 4.2 Channel Loading/Data Streaming ........................................................................................... 13 4.3 Channel Closing Transmission Time and Channel Move Time................................................ 15 4.4 Non-Occupancy Reriod .......................................................................................................... 20 5 Measurement uncertainty .................................................................................................... 22 6 Laboratory Information ........................................................................................................ 23 Appendix A. Test Equipment............................................................................................................... 24 TÜV SÜD Japan Ltd. Page 2 of 24

Document Number: JPD-TR-19160-0 1 Summary of Test 1.1 Modification history of the test report Document Number Modification History Issue Date JPD-TR-19160-0 First Issue Refer to the cover page 1.2 Standards CFR47 FCC Part 15 Subpart E FCC 14-30 1.3 Test methods ANSI C63.10-2013 KDB905462 D02 UNII DFS Compliance Procedures New Rules v02 KDB905462 D03 UNII Clients Without Radar Detection New Rules v01r02 1.4 Deviation from standards None 1.5 List of applied test(s) of the EUT Test item Test item Condition Result Remark section KDB905462 D02 DFS Detection Threshold Levels Radiated N/A - (8.2) KDB905462 D02 Channel Loading/Data Streaming Radiated N/A - (7.7, 8.3) KDB905462 D02 Channel Closing Transmission Time Radiated PASS - (5.1, 5.2, 5.3, 6.1, 7.3.3, 7.6.1, 7.8.3) and Channel Move Time KDB905462 D02 (5.1.2, 5.2, 5.3, 6.1, 7.3.3, 7.6.1, 7.8.3) Non-Occupancy Reriod Radiated PASS - KDB905462 D03 1.6 Test information None 1.7 Test set up Table-top 1.8 Test period 5-September-2019 - 20-September-2019 TÜV SÜD Japan Ltd. Page 3 of 24

Document Number: JPD-TR-19160-0 2 Equipment Under Test 2.1 EUT information Applicant KYOCERA Corporation Yokohama Office 2-1-1 Kagahara, Tsuzuki-ku Yokohama-shi, Kanagawa, Japan Phone: +81-45-943-6253 Fax: +81-45-943-6314 Equipment Under Test (EUT) Mobile Phone Model number DB05 Serial number N/A Trade name Kyocera Number of sample(s) 1 EUT condition Pre-Production Power rating Battery: DC 3.85 V Size (W) 73.0 × (D) 153.0 × (H) 8.9 mm Environment Indoor and Outdoor use Terminal limitation -20˚C to 60˚C Hardware version DMT1 Software version 0.400BE Firmware version Not applicable RF Specification Protocol IEEE802.11a, IEEE802.11n (HT20), IEEE802.11n (HT40) IEEE802.11ac (HT20), IEEE802.11ac (HT40), EEE802.11ac (HT80) Frequency range IEEE802.11a/n/ac (HT20): 5180 MHz-5320 MHz, 5500 MHz-5700 MHz IEEE802.11n/ac (HT40): 5190 MHz-5310 MHz, 5510 MHz-5670 MHz IEEE802.11ac (HT80): 5210 MHz, 5290 MHz, 5530 MHz, 5610 MHz Number of RF Channels IEEE802.11a/n/ac (HT20): 19 Channels IEEE802.11n/ac (HT40): 9 Channels IEEE802.11ac (HT80): 4 Channels Modulation type IEEE802.11a/n/ac: OFDM (BPSK, QPSK, 16QAM, 64QAM, 256QAM) TÜV SÜD Japan Ltd. Page 4 of 24

Document Number: JPD-TR-19160-0 Data rate IEEE802.11a: 6, 9, 12, 18, 24, 36, 48, 54 Mbps IEEE802.11n (HT20 LGI): 6.5, 13, 19.5, 26, 39, 52, 58.5, 65Mbps IEEE802.11n (HT20 SGI): 7.2, 14.4, 21.7, 28.9, 43.3, 57.8, 65, 72.2Mbps IEEE802.11ac (HT20 LGI): 6.5, 13, 19.5, 26, 39, 52, 58.5, 65, 78, 86.5Mbps IEEE802.11ac (HT20 SGI): 7.2, 14.4, 21.7, 28.9, 43.3, 57.8, 65, 72.2, 86.6, 96.1Mbps IEEE802.11n (HT40 LGI): 13.5, 27, 40.5, 54, 81, 108, 121.5, 135Mbps IEEE802.11n (HT40 SGI): 15, 30, 45, 60, 90, 120, 135, 150Mbps IEEE802.11ac (HT40 LGI): 13.5, 27, 40.5, 54, 81, 108, 121.5, 135, 162, 180Mbps IEEE802.11ac (HT40 SGI): 15, 30, 45, 60, 90, 120, 135, 150, 180, 200Mbps IEEE802.11ac (HT80 LGI): 29.3, 58.5, 87.8, 117, 175.5, 234, 263.3, 292.6, 351, 390Mbps IEEE802.11ac (HT80 SGI): 32.5, 65, 97.5, 130, 195, 260, 292.5, 325, 390, 433.3Mbps Channel separation IEEE802.11a/n/ac (HT20): 20 MHz IEEE802.11n/ac (HT40): 40 MHz IEEE802.11ac (HT80): 80 MHz Output power 27.805 mW (IEEE802.11a) 26.683 mW (IEEE802.11n: HT20) 20.405 mW (IEEE802.11n: HT40) 20.423 mW (IEEE802.11ac: HT80) DFS Function Client (Without Radar Detection) TPC Function 500mW not required Antenna type Internal antenna Antenna gain 5.15-5.25 GHz band: -0.4 dBi 5.25-5.35 GHz band: -0.4 dBi 5.47-5.725 GHz band: -0.3 dBi 2.2 Modification to the EUT The table below details modifications made to the EUT during the test project. Modification State Description of Modification Modification fitted by Date of Modification Model: DB05, Serial Number: N/A 0 As supplied by the applicant Not Applicable Not Applicable 2.3 Variation of family model(s) 2.3.1 List of family model(s) Not applicable 2.3.2 Reason for selection of EUT Not applicable TÜV SÜD Japan Ltd. Page 5 of 24

Document Number: JPD-TR-19160-0 2.4 Description of EUT Operational Frequency Range Operational Mode 5250-5350MHz 5470-5725MHz Client without radar detection and Applicable Applicable adhoc function For FCC and IC the EUT operates over the 5250-5350 MHz and 5470-5725 MHz ranges excluding the 5600-5650 MHz range. 2.5 EUT Maximum Conducted Power Maximum Conducted Output Power Maximum EIRP Frequency Band Mode Test Result Test Result Antenna Gain Result (MHz) (dBm) (mW) (dBi) (mW) 5250-5350 13.81 24.050 -0.4 21.934 802.11a 5470-5725 14.4 27.805 -0.3 25.949 Maximum Conducted Output Power Maximum EIRP Frequency Band Mode Test Result Test Result Antenna Gain Result (MHz) (dBm) (mW) (dBi) (mW) 802.11n 5250-5350 13.65 23.187 -0.4 21.147 (20MHz) 5470-5725 14.3 26.683 -0.3 24.902 Maximum Conducted Output Power Maximum EIRP Frequency Band Mode Test Result Test Result Antenna Gain Result (MHz) (dBm) (mW) (dBi) (mW) 802.11n 5250-5350 12.60 18.199 -0.4 16.598 (40MHz) 5470-5725 13.1 20.405 -0.3 19.043 Maximum Conducted Output Power Maximum EIRP Frequency Band Mode Test Result Test Result Antenna Gain Result (MHz) (dBm) (mW) (dBi) (mW) 802.11ac 5250-5350 12.54 17.962 -0.4 16.381 (80MHz) 5470-5725 13.1 20.423 -0.3 19.060 2.6 Transmit Power Control (TPC) U-NII devices operating in the 5.25-5.35 GHz band and the 5.47-5.725 GHz band shall employ a TPC mechanism. The U-NII device is required to have the capability to operate at least 6 dB below the mean EIRP value of 30 dBm. A TPC mechanism is not required for systems with an E.I.R.P. of less than 500 mW. Maximum EIRP of this device is 25.949 mW which less than 500mW, therefore it’s not require TPC function. TÜV SÜD Japan Ltd. Page 6 of 24

Document Number: JPD-TR-19160-0 2.7 Statement of Maunfacturer Manufacturer statement confirming that information regarding the parameters of the detected Radar Waveforms is not available to the end user. And the device doesn’t have Ad Hoc mode on DFS frequency band. 2.8 U-NII DFS Rule Requirements The manufacturer shall state whether the UUT is capable of operating as a Master and/or a Client. If the UUT is capable of operating in more than one operating mode then each operating mode shall be tested separately. DFS Requirements Prior to Use of a Channel KDB905462 D02 Table 1: Applicability of DFS Requirements Prior to Use of a Channel Operational Mode Client Client Requirement Master Without Radar With Radar Detection Detection Non-Occupancy Period Yes Not required Yes DFS Detection Threshold Yes Not required Yes Channel Availability Check Time Yes Not required Not required U-NII Detection Bandwidth Yes Not required Yes DFS requirements during normal operation KDB905462 D02 Table 2: Applicability of DFS requirements during normal operation Operational Mode Requirement Master Device or Client Client Without with Radar Detection Radar Detection DFS Detection Threshold Yes Not required Channel Closing Transmission Time Yes Yes Channel Move Time Yes Yes U-NII Detection Bandwidth Yes Not required Additional requirements for devices Master Device or Client Client Without Radar with multiple bandwidth modes with Radar Detection Detection U-NII Detection Bandwidth and All BW modes must be Not required Statistical Performance Check tested Test using the widest Channel Move Time and Channel Test using widest BW BW mode available for the Closing Transmission Time mode available link All other tests Any single BW mode Not required Note: Frequencies selected for statistical performance check (Section 7.8.4) should include several frequencies within the radar detection bandwidth and frequencies near the edge of the radar detection bandwidth. For 802.11 devices it is suggested to select frequencies in each of the bonded 20 MHz channels and the channel center frequency. TÜV SÜD Japan Ltd. Page 7 of 24

Document Number: JPD-TR-19160-0 DFS Detection Thresholds KDB905462 D02 Table 3: DFS Detection Thresholds for Master Devices and Client Devices with Radar Detection Value Maximum Transmit Power (See Notes 1, 2, and 3) EIRP ≥ 200 milliwatt -64 dBm EIRP < 200 milliwatt and -62 dBm power spectral density < 10 dBm/MHz EIRP < 200 milliwatt that do not meet the power spectral density -64 dBm requirement Note 1: This is the level at the input of the receiver assuming a 0 dBi receive antenna. Note 2: Throughout these test procedures an additional 1 dB has been added to the amplitude of the test transmission waveforms to account for variations in measurement equipment. This will ensure that the test signal is at or above the detection threshold level to trigger a DFS response. Note3: EIRP is based on the highest antenna gain. For MIMO devices refer to KDB Publication 662911 D01. Response Requirements KDB905462 D02 Table 4: provides the response requirements for Master and Client Devices incorporating DFS. Parameter Value Non-occupancy period Minimum 30 minutes Channel Availability Check Time 60 seconds 10 seconds Channel Move Time See Note 1. 200 milliseconds + an aggregate of 60 milliseconds Channel Closing Transmission Time over remaining 10 second period. See Notes 1 and 2. NII 99% transmission power bandwidth. U-NII Detection Bandwidth See Note 3. Note 1: Channel Move Time and the Channel Closing Transmission Time should be performed with Radar Type 0. The measurement timing begins at the end of the Radar Type 0 burst. Note 2: The Channel Closing Transmission Time is comprised of 200 milliseconds starting at the beginning of the Channel Move Time plus any additional intermittent control signals required to facilitate a Channel move (an aggregate of 60 milliseconds) during the remainder of the 10 second period. The aggregate duration of control signals will not count quiet periods in between transmissions. Note 3: During the U-NII Detection Bandwidth detection test, radar type 0 should be used. For each frequency step the minimum percentage of detection is 90 percent. Measurements are performed with no data traffic. TÜV SÜD Japan Ltd. Page 8 of 24

Document Number: JPD-TR-19160-0 2.9 Parameters of DFS Test Signals Short Pulse Radar Test Waveforms KDB905462 D02 Table 5: Short Pulse Radar Test Waveforms Minimum Pulse Minimum Radar PRI Percentage of Width Number of Pulses Number of Type (µsec) Successful (µsec) Trials Detection 0 1 1428 18 See Note 1See Note 1 1 1 Test A: 15 Roundup: 60% 30 unique {(1/360) x (19 x 106 PRI values PRIusec)} randomly selected from the list of 23 PRI values in Table 5a Test B: 15 unique PRI values randomly selected within the range of 518-3066 μsec, with a minimum increment of 1 μsec, excluding PRI values selected in Test A 2 1-5 150-230 23-29 60% 30 3 6-10 200-500 16-18 60% 30 4 11-20 200-500 12-16 60% 30 Aggregate (Radar Types 1-4) 80% 120 Note 1: Short Pulse Radar Type 0 should be used for the detection bandwidth test, channel move time, and channel closing time tests. Long Pulse Radar Test Waveform KDB905462 D02 Table 6: Long Pulse Radar Test Waveform Minimum Pulse Chirp Number Minimum Radar PRI Number Percentage of Width Width of Pulses Number of Type (µsec) of Bursts Successful (µsec) (MHz) per Burst Trials Detection 5 50-100 5-20 1000-2000 1-3 8-20 80% 30 TÜV SÜD Japan Ltd. Page 9 of 24

Document Number: JPD-TR-19160-0 Frequency Hopping Radar Test Waveform KDB905462 D02 Table 7: Frequency Hopping Radar Test Waveform Hopping Minimum Pulse Pulses Hopping Minimum Radar PRI Sequence Percentage of Width per Rate Number of Type (µsec) Length Successful (µsec) Hop (kHz) Trials (msec) Detection 6 1 333 9 0.333 300 70% 30 3 Configuration of Equipment 3.1 EUT used No. Equipment Company Model No. Serial No. FCC ID / DoC Comment 1 Mobile Phone KYOCERA DB05 N/A JOYDB05 EUT 3.2 Support Unit used No. Equipment Company Model No. Serial No. FCC ID Comment a Access Point Cisco AIR-CAP3702E-A-K9 FJC1938F0NV LDK102087 *1, *2 NOTE: 1. This device was functioned as a Master device during the DFS test. NOTE: 2. The rated output power of the Master unit is > 23dBm (EIRP). Therefore the required interference threshold level is –64 dBm. After correction for procedural adjustments, the required radiated threshold at the antenna port is –64 + 1 = -63 dBm. TÜV SÜD Japan Ltd. Page 10 of 24

Document Number: JPD-TR-19160-0 4 Test Result 4.1 DFS Detection Threshold Levels 4.1.1 Measurement procedure [KDB905462 D02(8.2)] Spectrum analyzer is connected to a horn antenna via a coaxial cable, with the reference level offset set to (horn antenna gain - coaxial cable loss). The signal generator is set to CW mode. The amplitude of the signal generator is adjusted to yield a level of -63 dBm as measured on the spectrum analyzer. The rated output power of the Master unit is > 23dBm (EIRP). Therefore the required interference threshold level is -64 dBm. After correction for procedural adjustments, the required radiated threshold at the antenna port is -64 + 1 = -63 dBm. The spectrum analyzer is set to; - RBW=3 MHz, VBW=3 MHz, Span=Zero span Sweep=10ms, Detector=Peak, Trace mode=Clear / write - Test configuration Double Ridged Guide Antenna Double Ridged Guide Antenna d=3m Microwave Cable Microwave Cable Vector Signal Spectrum generator Analyzer 4.1.2 Limit None TÜV SÜD Japan Ltd. Page 11 of 24

Document Number: JPD-TR-19160-0 4.1.3 Radar Waveform Date : 5-September-2019 Temperature : 20.6 [˚C] Humidity : 54.1 [%] Test engineer : Test place : 3m Semi-anechoic chamber Taiki Watanabe Radar Type 0 Calibration Plot Frequency: 5290MHz [5.3GHz Band] Frequency: 5530MHz [5.6GHz Band] TÜV SÜD Japan Ltd. Page 12 of 24

Document Number: JPD-TR-19160-0 4.2 Channel Loading/Data Streaming 4.2.1 Measurement procedure [KDB905462 D02(7.7, 8.3)] System testing will be performed with channel-loading using means appropriate to the data types that are used by the unlicensed device. The following requirements apply: -The data file must be of a type that is typical for the device (i.e., MPEG-2, MPEG-4, WAV, MP3, MP4, AVI, etc.) and must generally be transmitting in a streaming mode. -Timing plots are required with calculations demonstrating a minimum channel loading of approximately 17% or greater. The spectrum analyzer is set to; - RBW=3 MHz, VBW=3 MHz, Span=Zero span Sweep=10ms, Detector=Peak, Trace mode=Clear / write - Test configuration Double Ridged Guide Antenna d=3m Master Device Microwave Cable Double Ridged Guide Antenna Vector Signal generator Microwave Cable Client Device Spectrum Analyzer 4.2.2 Limit Timing plot duty cycle greater than 17% TÜV SÜD Japan Ltd. Page 13 of 24

Document Number: JPD-TR-19160-0 4.2.3 Measurement result Date : 20-September-2019 Temperature : 21.6 [˚C] Humidity : 56.1 [%] Test engineer : Test place : 3m Semi-anechoic chamber Taiki Watanabe Client device Data Traffic Plot Frequency: 5290MHz [5.3GHz Band] ON Time ON+OFF Time Duty Cycle [ms] [ms] [%] 11.05 31.475 35.11 Frequency: 5530MHz [5.6GHz Band] ON Time ON+OFF Time Duty Cycle [ms] [ms] [%] 15.8625 34.6375 45.80 TÜV SÜD Japan Ltd. Page 14 of 24

Document Number: JPD-TR-19160-0 4.3 Channel Closing Transmission Time and Channel Move Time 4.3.1 Measurement procedure [KDB905462 D02(5.1, 5.2, 5.3, 6.1, 7.3.3, 7.6.1, 7.8.3)] Channel Move Time and the Channel Closing Transmission Time should be performed with Radar Type 0. The measurement timing begins at the end of the Radar Type 0 burst. The Channel Closing Transmission Time is comprised of 200 milliseconds starting at the beginning of the Channel Move Time plus any additional intermittent control signals required to facilitate a Channel move (an aggregate of 60 milliseconds) during the remainder of the 10 second period. The aggregate duration of control signals will not count quiet periods in between transmissions. The spectrum analyzer is set to; - RBW=3 MHz, VBW=3 MHz, Span=Zero span Sweep=30 s, Detector=Peak, Trace mode=Clear / write - Test configuration Double Ridged Guide Antenna d=3m Master Device Microwave Cable Double Ridged Guide Antenna Vector Signal generator Microwave Cable Client Device Spectrum Analyzer 4.3.2 Limit (1) Channel Closing Transmission Time: The Aggregate Transmission Time is within 60ms within the Channel Move Time range excluding 200ms after the radar waveform is detected. (2) Channel Move Time: The time to stop all transmissions on the current channel within 10 seconds when a radar waveform above the DFS detection threshold is detected. TÜV SÜD Japan Ltd. Page 15 of 24

Document Number: JPD-TR-19160-0 4.3.3 Calculation method Measurement of the aggregate duration of the Channel Closing Transmission Time method. Dwell[ms]= S[ms] / B[points] - Dwell is the dwell time per spectrum analyzer sampling bin. - S is the sweep time. - B is the number of spectrum analyzer sampling bins. An upper bound of the aggregate duration of the intermittent control signals of Channel Closing Transmission Time is calculated by: C[ms]= N[bins] x Dwell[ms] - C is the Closing Time. - N is the number of spectrum analyzer sampling bins (intermittent control signals) showing a U-NII transmission and Dwell is the dwell time per bin. TÜV SÜD Japan Ltd. Page 16 of 24

Document Number: JPD-TR-19160-0 4.3.4 Measurement result Date : 20-September-2019 Temperature : 21.6 [˚C] Humidity : 56.1 [%] Test engineer : Test place : 3m Semi-anechoic chamber Taiki Watanabe Channel Closing Transmission Time Plot Frequency: 5290MHz [5.3GHz Band] S B Dwell N Aggregate Channel Closing Transmission Time Limit [ms] [points] [ms] [bins] [ms] [ms] 11300 11332 1.00 0 0.00 60 Frequency: 5530MHz [5.6GHz Band] TÜV SÜD Japan Ltd. Page 17 of 24

Document Number: JPD-TR-19160-0 Frequency: 5530MHz [5.6GHz Band] (Zoom) S B Dwell N Aggregate Channel Closing Transmission Time Limit [ms] [points] [ms] [bins] [ms] [ms] 10900 10855 1.00 1 1.00 60 TÜV SÜD Japan Ltd. Page 18 of 24

Document Number: JPD-TR-19160-0 Channel Move Time Plot Frequency: 5290MHz [5.3GHz Band] Channel Move Time Limit [s] [s] 0.064 10 Frequency: 5530MHz [5.6GHz Band] Channel Move Time Limit [s] [s] 0.039 10 TÜV SÜD Japan Ltd. Page 19 of 24

Document Number: JPD-TR-19160-0 4.4 Non-Occupancy Reriod 4.4.1 Measurement procedure [KDB905462 D02(5.1.2, 5.2, 5.3, 6.1, 7.3.3, 7.6.1, 7.8.3), KDB905462 D03] The client test frequency must be monitored to ensure no transmission of any type has occurred for 30 minutes. If the client moves with the master, the device is considered compliant if nothing appears in the client non-occupancy period test. For devices that shut down (rather than moving channels), no beacons should appear. The spectrum analyzer is set to; - RBW=3 MHz, VBW=3 MHz, Span=Zero span Sweep=2000 s, Detector=Peak, Trace mode=Clear / write - Test configuration Double Ridged Guide Antenna d=3m Master Device Microwave Cable Double Ridged Guide Antenna Vector Signal generator Microwave Cable Client Device Spectrum Analyzer 4.4.2 Limit The client has vacated the Channel in the specified time (Channel Closing Transmission Time and Channel Move Time) and does not transmit on a Channel for 30 minutes after the detection and Channel move (Non- Occupancy Period). TÜV SÜD Japan Ltd. Page 20 of 24

Document Number: JPD-TR-19160-0 4.4.3 Measurement result Date : 20-September-2019 Temperature : 21.6 [˚C] Humidity : 56.1 [%] Test engineer : Test place : 3m Semi-anechoic chamber Taiki Watanabe Non-Occupancy Reriod Plot Frequency: 5290MHz [5.3GHz Band] Frequency: 5530MHz [5.6GHz Band] TÜV SÜD Japan Ltd. Page 21 of 24

Document Number: JPD-TR-19160-0 5 Measurement uncertainty Expanded uncertainties stated are calculated with a coverage Factor k=2. Please note that these results are not taken into account when measurement uncertainty considerations contained in ETSI TR 100 028 Parts 1 and 2 determining compliance or non- compliance with test result. Test item Measurement uncertainty Conducted emission, AMN (9 kHz – 150 kHz) ±3.8 dB Conducted emission, AMN (150 kHz – 30 MHz) ±3.3 dB Radiated emission ( 9kHz – 30 MHz) ±3.1 dB Radiated emission (30 MHz – 1000 MHz) ±4.9 dB Radiated emission (1 GHz – 6 GHz) ±4.8 dB Radiated emission (6 GHz – 18 GHz) ±5.1 dB Radiated emission (18 GHz – 40 GHz) ±5.8 dB Radio Frequency ±1.4 * 10-8 RF power, conducted ±0.6 dB Temperature ±0.6 °C Humidity ±1.2 % Voltage (DC) ±0.4 % Voltage (AC, <10kHz) ±0.2 % TÜV SÜD Japan Ltd. Page 22 of 24

Document Number: JPD-TR-19160-0 6 Laboratory Information Testing was performed and the report was issued at: TÜV SÜD Japan Ltd. Yonezawa Testing Center Address: 5-4149-7 Hachimanpara, Yonezawa-shi, Yamagata, 992-1128 Japan Phone: +81-238-28-2881 Fax: +81-238-28-2888 Accreditation and Registration NVLAP LAB CODE: 200306-0 VLAC Accreditation No.: VLAC-013 BSMI Laboratory Code: SL2-IN-E-6018, SL2-A1-E-6018 Innovation, Science and Economic Development Canada Site number Facility Expiration date 4224A-4 3 m Semi-anechoic chamber 27-November-2020 4224A-5 10 m Semi-anechoic chamber No. 1 27-November-2020 4224A-6 10 m Semi-anechoic chamber No. 2 14-December-2019 VCCI Council Registration number Expiration date A-0166 03-July-2021 TÜV SÜD Japan Ltd. Page 23 of 24

Document Number: JPD-TR-19160-0 Appendix A. Test Equipment Radiated Equipment Company Model No. Serial No. Cal. Due Cal. Date Spectrum analyzer ROHDE&SCHWARZ FSV40 101731 31-Dec-2019 07-Dec-2018 Vector Signal Generator ROHDE&SCHWARZ SMBV100A 257406 31-Jul-2020 17-Jul-2019 Double ridged guide antenna ETS LINDGREN 3117 00224193 31-Jan-2020 23-Jan-2019 Attenuator Agilent Technologies 8491B MY39268633 31-Mar-2020 08-Mar-2019 Double ridged guide antenna ETS LINDGREN 3117 00209352 30-Nov-2019 06-Nov-2018 Micro wave cable HUBER+SUHNER Sucoflex 102/2m MY3385/2 31-Mar-2020 08-Mar-2019 Micro wave cable HUBER+SUHNER SUCOFLEX104/8m SN MY30031/4 31-Jan-2020 16-Jan-2019 PC HP HP ProBook 450 G2 JPA524M85J N/A N/A Software ROHDE&SCHWARZ R&S Pulse Sequencer DFS V1.4 Build:6130 N/A N/A 3m Semi an-echoic Chamber TOKIN N/A N/A(9002-NSA) 31-May-2020 14-May-2019 3m Semi an-echoic Chamber TOKIN N/A N/A(9002-SVSWR) 31-May-2020 13-May-2019 *: The calibrations of the above equipment are traceable to NIST or equivalent standards of the reference organizations. TÜV SÜD Japan Ltd. Test Report Rev. FCC-E(DFS) 1.0 Page 24 of 24


Document Created: 2019-11-11 19:32:14
Document Modified: 2019-11-11 19:32:14
© 2024 FCC.report
This site is not affiliated with or endorsed by the FCC