Test Report 1

FCC ID: JOYKB46

Test Report

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FCCID_4373777

Report on the RF Testing of: KYOCERA Corporation Mobile Phone, Model: KB46 FCC ID: JOYKB46 In accordance with FCC Part 15 Subpart C (15.249) 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—19135—0 SIGNATURE t:bl.a/gv?wflv\ JOB TITLE RESPONSIBLE FOR ISSUE DATE Hiroaki Suzuki Deputy Manager of RF Group Approved Signatory 11 JUL 2018 Signatures in this approval box have checked this document in line with the requirements 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 Part 15 Subpart C (15.249). DISCLAIMER AND COPYRIGHT ©®© \\\“\3"’11, The results in this report are applicable only to the equipment tested. Lo l :S\\\:/__//’;,‘ This report shall not be re—produced except in full without the written approval of TUV SUD Nv w Japan Ltd. TESTING "frjpy® ACCREDIATION NVLAP LAB CODE 200306—0 h 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 Japan Ltd. Phone: +81 (0) 238 28 2881 Yonezawa Testing Center Fax: +81 (0) 238 28 2888 5—4149—7 Hachimanpara, Yonezawa—shi, Yamagata, wwwduv—sudjp 992—1128 Japan TUV SUD Japan Ltd.

Document Number: JPD-TR-19135-0 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 ............................................................................................................ 4 2.3 Variation of family model(s) ...................................................................................................... 5 2.4 Operating channels and frequencies ........................................................................................ 5 2.5 Operating mode ....................................................................................................................... 6 2.6 Operating flow.......................................................................................................................... 6 3 Configuration of Equipment .................................................................................................. 7 3.1 Equipment used ....................................................................................................................... 7 3.2 Cable(s) used........................................................................................................................... 7 3.3 System configuration................................................................................................................ 7 4 Test Result ............................................................................................................................. 8 4.1 Occupied Bandwidth ................................................................................................................ 8 4.2 Spurious Emissions - Radiated -............................................................................................. 10 4.3 Restricted Band of Operation ................................................................................................. 23 4.4 AC Power Line Conducted Emissions .................................................................................... 27 5 Antenna requirement ........................................................................................................... 30 6 Measurement Uncertainty.................................................................................................... 31 7 Laboratory Information ........................................................................................................ 32 Appendix A. Test Equipment............................................................................................................... 33 Appendix B. Duty Cycle....................................................................................................................... 34 TÜV SÜD Japan Ltd. Page 2 of 34

Document Number: JPD-TR-19135-0 1 Summary of Test 1.1 Modification history of the test report Document Number Modification History Issue Date JPD-TR-19135-0 First Issue Refer to the cover page 1.2 Standards CFR47 FCC Part 15 Subpart C (15.249) 1.3 Test methods ANSI C63.10-2013 1.4 Deviation from standards None 1.5 List of applied test(s) of the EUT Test item Test item Condition Result Remark section 2.1049 Occupied Bandwidth Conducted PASS - RSS-Gen 6.7 15.249(a), (b), (c), (d), (e) Spurious Emissions Radiated PASS - RSS-210 B.10(a), (b) - Field Strength of Fundamental and Harmonics - 15.249(c), (d) Restricted Bands of Operation Radiated PASS - RSS-210 B.10(b) 15.207 AC Power Line Conducted Emissions Conducted PASS - RSS-Gen 8.8 1.6 Test information None 1.7 Test set up Table-top 1.8 Test period 24-May-2019 - 10-July-2019 TÜV SÜD Japan Ltd. Page 3 of 34

Document Number: JPD-TR-19135-0 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 KB46 Serial number N/A Trade name Kyocera Number of sample(s) 1 EUT condition Pre-Production Power rating Battery: DC 3.8 V Size (W) 78.2 × (D) 151.5 × (H) 17.4 mm Environment Indoor and Outdoor use Terminal limitation -20 ˚C to 60 ˚C Hardware version DMT2 Software version V0.030PR Firmware version Not applicable RF Specification Protocol ANT+ Frequency range 2402 MHz-2480 MHz Number of RF Channels 79 Channels Modulation method/Data rate GFSK (20 Kbps) Channel separation 1 MHz Output power Peak: 93.7dBuV/m @ 3m Average: 76.4dBuV/m @ 3m Antenna type Internal antenna Antenna gain 1.0 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: KB46, Serial Number: N/A 0 As supplied by the applicant Not Applicable Not Applicable TÜV SÜD Japan Ltd. Page 4 of 34

Document Number: JPD-TR-19135-0 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 2.4 Operating channels and frequencies Channel Frequency Channel Frequency Channel Frequency [MHz] [MHz] [MHz] 0 2402 27 2429 54 2456 1 2403 28 2430 55 2457 2 2404 29 2431 56 2458 3 2405 30 2432 57 2459 4 2406 31 2433 58 2460 5 2407 32 2434 59 2461 6 2408 33 2435 60 2462 7 2409 34 2436 61 2463 8 2410 35 2437 62 2464 9 2411 36 2438 63 2465 10 2412 37 2439 64 2466 11 2413 38 2440 65 2467 12 2414 39 2441 66 2468 13 2415 40 2442 67 2469 14 2416 41 2443 68 2470 15 2417 42 2444 69 2471 16 2418 43 2445 70 2472 17 2419 44 2446 71 2473 18 2420 45 2447 72 2474 19 2421 46 2448 73 2475 20 2422 47 2449 74 2476 21 2423 48 2450 75 2477 22 2424 49 2451 76 2478 23 2425 50 2452 77 2479 24 2426 51 2453 78 2480 25 2427 52 2454 26 2428 53 2455 TÜV SÜD Japan Ltd. Page 5 of 34

Document Number: JPD-TR-19135-0 2.5 Operating mode The EUT had been tested under operating condition. There are three channels have been tested as following: Tested Channel Frequency [MHz] Low 2402 Middle 2441 High 2480 The pre-test has been conducted to determine the worst-case mode from all possible combinations between available modulations, data rates. Tested Channel Modulation Type Data Rate Low, Middle, High GFSK 20 Kbps The field strength of spurious emissions was measured at each position of all three axis X, Y and Z to compare the level, and the maximum noise. The worst emission was found in X-axis and the worst case recorded. Pre-scan has been conducted to determine the worst-case mode from all possible combinations between available modulations, data rates and antenna ports. 2.6 Operating flow [Tx mode] i) Test program setup to the DM tool ii) Select a Test mode Operating frequency: Channel Low: 2402 MHz, Channel Middle: 2441 MHz, Channel High: 2480 MHz iii) Start test mode [Rx mode] i) Test program setup to the DM tool ii) Select a Test mode Operating frequency: Channel Low: 2402 MHz, Channel Middle: 2441 MHz, Channel High: 2480 MHz iii) Start test mode TÜV SÜD Japan Ltd. Page 6 of 34

Document Number: JPD-TR-19135-0 3 Configuration of Equipment Numbers assigned to equipment on the diagram in “3.3 System configuration” correspond to the list in “3.1 Equipment used” and “3.2 Cable(s) used”. Cabling and setup(s) were taken into consideration and test data was taken under worse case condition. 3.1 Equipment used No. Equipment Company Model No. Serial No. FCC ID/DoC Comment 1 Mobile Phone KYOCERA KB46 N/A JOYKB46 EUT 2 AC Adapter KDDI 0301PQA N/A N/A * *:AC power line Conducted Emission Test. 3.2 Cable(s) used No. Equipment Length[m] Shield Connector Comment a USB cable (for AC Adapter) 1.0 Yes Metal * *:AC power line Conducted Emission Test. 3.3 System configuration 1. Mobile Phone (EUT) a. 2. AC Adapter AC 120 V USB Type-C 60 Hz TÜV SÜD Japan Ltd. Page 7 of 34

Document Number: JPD-TR-19135-0 4 Test Result 4.1 Occupied Bandwidth 4.1.1 Measurement procedure [2.1049, RSS-Gen 6.7] The transmitter output is connected to the spectrum analyzer. The RBW is set to 1% to 3% of the 99% bandwidth. The VBW is set to 3 times the RBW. The sweep time is coupled. The spectrum analyzer internal 99% bandwidth function is utilized. The spectrum analyzer is set to; a) RBW = 20 kHz b) VBW ≥ 3 x RBW c) Sweep time = auto-couple d) Detector = peak e) Trace mode = max hold - Test configuration EUT Spectrum Attenuator Analyzer Coaxial cable 4.1.2 Limit None 4.1.3 Measurement result Date : 10-July-2019 Temperature : 21.9 [˚C] Humidity : 50.8 [%] Test engineer : Test place : Shielded room No.4 Kazunori Saito Channel Frequency [MHz] Occupied Bandwidth [MHz] Low 2402 1.0020 Middle 2441 1.0013 High 2480 1.0007 TÜV SÜD Japan Ltd. Page 8 of 34

Document Number: JPD-TR-19135-0 4.1.4 Trace data Channel Low Channel Middle Channel High TÜV SÜD Japan Ltd. Page 9 of 34

Document Number: JPD-TR-19135-0 4.2 Spurious Emissions - Radiated - 4.2.1 Measurement procedure [FCC 15.205, 15.209, 15.249(a), (b), (c), (d), (e), 15.35(b), RSS-210 B.10(a), (b), RSS-Gen 8.9] Test was applied by following conditions. Test method : ANSI C63.10 Frequency range : 9kHz to 25GHz Test place : 3m Semi-anechoic chamber EUT was placed on : Styrofoam table / (W)1.0m × (D)1.0m × (H)0.8m (below 1GHz) Styrofoam table / (W)0.6m × (D)0.6m ×(H)1.5m (above 1GHz) Antenna distance : 3m Test receiver setting Below 1GHz - Detector : Average (9kHz-90kHz, 110kHz-490kHz), Quasi-peak - Bandwidth : 200Hz, 120kHz Spectrum analyzer setting Above 1GHz - Peak : RBW=1MHz, VBW=3MHz, Span=0Hz, Sweep=auto - Average : Peak reading + DCF Average Measurement Setting [VBW] Duty Cycle Ton Toff 1/Ton Duty cycle factor Data rate 100ms (%) (us) (us) (kHz) 20log (Dc %) (dB) Window 20 Kbps 7.87 156 1827 6.410 87 -17.35 Radiated emission measurements are performed at 3m distance with the broadband antenna (Loop antenna, Biconical antenna, Log periodic antenna, Double ridged guide antenna and Broad-band horn Antenna). The antenna is positioned both the horizontal and vertical planes of polarization and height is varied 1m to 4m and stopped at height producing the maximum emission. As for the Loop antenna, it is positioned with its plane vertical, and the center of the Loop antenna is 1m above the ground plane. The EUT is Placed on a turntable, which is 0.8m/1.5m above ground plane. The turntable shall be rotated for 360 degrees to determine the position of maximum emission level. The test results represent the worst case emission for each emission with manipulating the EUT, support equipment, interconnecting cables and varying the mode of operation. Sufficient time for the EUT, support equipment, and test equipment are allowed in order for them to warm up to their normal operating condition. - Test configuration TÜV SÜD Japan Ltd. Page 10 of 34

Document Number: JPD-TR-19135-0 4.2.2 Calculation method [9kHz to 150kHz] Emission level = Reading + (Ant factor + Cable system loss) Margin = Limit – Emission level [150kHz to 25GHz] Emission level = Reading + (Ant factor + Cable system loss - Amp. Gain) Margin = Limit – Emission level Example: Limit @ 4804.0MHz : 74.0dBuV/m (Peak Limit) S.A Reading = 39.9dBuV Cable system loss = 8.3dB Result = 39.9 + 8.3 = 48.2dBuV/m Margin = 74.0 - 48.2 = 25.8dB 4.2.3 Limit Fundamental Frequency Field strength of Field strength of Distance [MHz] fundamental harmonics [m] [mV/m] [dBuV/m] [mV/m] [dBuV/m] 2400-2483.5 50 20logE [uV/m] 500 20logE [uV/m] 3 Frequency Field strength Distance [MHz] [uV/m] [dBuV/m] [m] 0.009-0.490 2400 / F [kHz] 20logE [uV/m] 300 0.490-1.705 24000 / F [kHz] 20logE [uV/m] 30 1.705-30 30 29.5 30 30-88 100 40.0 3 88-216 150 43.5 3 216-960 200 46.0 3 Above 960 500 54.0 3 Note: 1. The lower limit shall apply at the transition frequencies. 2. Emission level [dBuV/m] = 20log Emission [uV/m] 3. As shown in 15.35(b), for frequencies above 1000MHz, the field strength limits are based on average detector, however, the peak field strength of any emission shall not exceed the maximum permitted average limits, specified above by more than 20dB under any condition modulation. TÜV SÜD Japan Ltd. Page 11 of 34

Document Number: JPD-TR-19135-0 4.2.4 Test data Date : 24-May-2019 Temperature : 20.3 [˚C] Humidity : 37.3 [%] Test engineer : Test place : 3m Semi-anechoic chamber Tadahiro Seino Date : 27-May-2019 Temperature : 20.7 [˚C] Humidity : 52.7 [%] Test engineer : Test place : 3m Semi-anechoic chamber Tadahiro Seino Date : 5-June-2019 Temperature : 22.0 [˚C] Humidity : 54.9 [%] Test engineer : Test place : 3m Semi-anechoic chamber Tadahiro Seino Date : 14-June-2019 Temperature : 20.7 [˚C] Humidity : 54.6 [%] Test engineer : Test place : 3m Semi-anechoic chamber Chiaki Kanno Channel Low Peak Frequency Reading c.f Duty cycle factor Result Limit Margin (P) [MHz] [dBμV/m] [dB(1/m)] [dB(1/m)] [dBμV/m] [dBμV/m] [dB] H 2402 86.9 6.1 - 93.0 114 21.0 V 2402 80.8 6.1 - 86.9 114 27.1 H 4804 48.9 10 - 58.9 74 15.1 Average Frequency Reading c.f Duty cycle factor Result Limit Margin (P) [MHz] [dBμV/m] [dB(1/m)] [dB(1/m)] [dBμV/m] [dBμV/m] [dB] H 2402 86.9 6.1 17.35 75.7 94 18.4 V 2402 80.8 6.1 17.35 69.6 94 24.5 H 4804 48.9 10 17.35 41.6 54 12.5 Channel Middle Peak Frequency Reading c.f Duty cycle factor Result Limit Margin (P) [MHz] [dBμV/m] [dB(1/m)] [dB(1/m)] [dBμV/m] [dBμV/m] [dB] H 2441 87.6 6.1 - 93.7 114 20.3 V 2441 81.6 6.1 - 87.7 114 26.3 H 4882 48.9 10.3 - 59.2 74 14.8 Average Frequency Reading c.f Duty cycle factor Result Limit Margin (P) [MHz] [dBμV/m] [dB(1/m)] [dB(1/m)] [dBμV/m] [dBμV/m] [dB] H 2441 87.6 6.1 17.35 76.4 94 17.7 V 2441 81.6 6.1 17.35 70.4 94 23.7 H 4882 48.9 10.3 17.35 41.9 54 12.2 TÜV SÜD Japan Ltd. Page 12 of 34

Document Number: JPD-TR-19135-0 Channel High Peak Frequency Reading c.f Duty cycle factor Result Limit Margin (P) [MHz] [dBμV/m] [dB(1/m)] [dB(1/m)] [dBμV/m] [dBμV/m] [dB] H 2480 86.8 6.2 - 93.0 114 21.0 V 2480 80.8 6.2 - 87.0 114 27.0 H 4960 50.1 10.3 - 60.4 74 13.6 Average Frequency Reading c.f Duty cycle factor Result Limit Margin (P) [MHz] [dBμV/m] [dB(1/m)] [dB(1/m)] [dBμV/m] [dBμV/m] [dB] H 2480 86.8 6.2 17.35 75.7 94 18.4 V 2480 80.8 6.2 17.35 69.7 94 24.4 H 4960 50.1 10.3 17.35 43.1 54 11.0 Note: 1. Emission Level (Margin) = Limit - [Reading + Factor ( Antenna + Cable – Amp)] 2. No emission were detected in frequency range 9kHz to 1000MHz at the 3 meters distance. 3. No emission was detected in the receive mode. TÜV SÜD Japan Ltd. Page 13 of 34

Document Number: JPD-TR-19135-0 [Transmission mode ] Channel: Low BELOW 1 GHz Note: 1. Emission Level (Margin) = Limit - [Reading + Factor ( Antenna + Cable – Amp)] 2. No emission were detected in frequency range 9kHz to 30MHz at the 3 meters distance. TÜV SÜD Japan Ltd. Page 14 of 34

Document Number: JPD-TR-19135-0 Channel: Low ABOVE 1 GHz Note: 1. Emission Level (Margin) = Limit - [Reading + Factor ( Antenna + Cable – Amp)] 2. No emission were detected in frequency range 18GHz to 25GHz at the 3 meters distance. TÜV SÜD Japan Ltd. Page 15 of 34

Document Number: JPD-TR-19135-0 Channel: Middle BELOW 1 GHz Note: 1. Emission Level (Margin) = Limit - [Reading + Factor ( Antenna + Cable – Amp)] 2. No emission were detected in frequency range 9kHz to 30MHz at the 3 meters distance. TÜV SÜD Japan Ltd. Page 16 of 34

Document Number: JPD-TR-19135-0 Channel: Middle ABOVE 1 GHz Note: 1. Emission Level (Margin) = Limit - [Reading + Factor ( Antenna + Cable – Amp)] 2. No emission were detected in frequency range 18GHz to 25GHz at the 3 meters distance. TÜV SÜD Japan Ltd. Page 17 of 34

Document Number: JPD-TR-19135-0 Channel: High BELOW 1 GHz Note: 1. Emission Level (Margin) = Limit - [Reading + Factor ( Antenna + Cable – Amp)] 2. No emission were detected in frequency range 9kHz to 30MHz at the 3 meters distance. TÜV SÜD Japan Ltd. Page 18 of 34

Document Number: JPD-TR-19135-0 Channel: High ABOVE 1 GHz Note: 1. Emission Level (Margin) = Limit - [Reading + Factor ( Antenna + Cable – Amp)] 2. No emission were detected in frequency range 18GHz to 25GHz at the 3 meters distance. TÜV SÜD Japan Ltd. Page 19 of 34

Document Number: JPD-TR-19135-0 [Receive mode ] Channel: Low BELOW 1 GHz Note: 1. Emission Level (Margin) = Limit - [Reading + Factor ( Antenna + Cable – Amp)] 2. No emission were detected in frequency range 9kHz to 30MHz and 1GHz to 25GHz at the 3 meters distance. TÜV SÜD Japan Ltd. Page 20 of 34

Document Number: JPD-TR-19135-0 Channel: Middle BELOW 1 GHz Note: 1. Emission Level (Margin) = Limit - [Reading + Factor ( Antenna + Cable – Amp)] 2. No emission were detected in frequency range 9kHz to 30MHz and 1GHz to 25GHz at the 3 meters distance. TÜV SÜD Japan Ltd. Page 21 of 34

Document Number: JPD-TR-19135-0 Channel: High BELOW 1 GHz Note: 1. Emission Level (Margin) = Limit - [Reading + Factor ( Antenna + Cable – Amp)] 2. No emission were detected in frequency range 9kHz to 30MHz and 1GHz to 25GHz at the 3 meters distance. TÜV SÜD Japan Ltd. Page 22 of 34

Document Number: JPD-TR-19135-0 4.3 Restricted Band of Operation 4.3.1 Measurement procedure [FCC 15.205, 15.209, 15.249(c), (d), RSS-210 B.10(b)] Test was applied by following conditions. Test method : ANSI C63.10 Test place : 3m Semi-anechoic chamber EUT was placed on : Styrofoam table / (W)0.6m × (D)0.6m ×(H)1.5m Antenna distance : 3m Spectrum analyzer setting - Peak : RBW=1MHz, VBW=3MHz, Span=Arbitrary setting, Sweep=auto - Average : RBW=1MHz, VBW=10kHz, Span=Arbitrary setting, Sweep=auto Display mode=Linear Average Measurement Setting [VBW] Duty Cycle Ton Toff 1/Ton Data rate Determined VBW Setting (%) (us) (us) (kHz) 20 Kbps 7.87 156 1827 6.410 10kHz Radiated emission measurements are performed at 3m distance with the broadband antenna (Double ridged guide antenna). The antenna is positioned both the horizontal and vertical planes of polarization and height is varied 1m to 4m and stopped at height producing the maximum emission. The EUT is Placed on a turntable, which is 1.5m above ground plane. The turntable shall be rotated for 360 degrees to determine the position of maximum emission level. The test results represent the worst case emission for each emission with manipulating the EUT, support equipment, interconnecting cables and varying the mode of operation. Sufficient time for the EUT, support equipment, and test equipment are allowed in order for them to warm up to their normal operating condition. - Test configuration Signal Analyzer TÜV SÜD Japan Ltd. Page 23 of 34

Document Number: JPD-TR-19135-0 4.3.2 Limit Emission at the boundary of the restricted band provided by 15.205 shall be lower than 15.209 limit. 4.3.3 Measurement result Channel Frequency [MHz] Results Chart Result Low 2402 See the Trace Data Pass High 2480 See the Trace Data Pass 4.3.4 Test data Date : 11-June-2019 Temperature : 21.4 [˚C] Humidity : 55.4 [%] Test engineer : Test place : 3m Semi-anechoic chamber Tadahiro Seino TÜV SÜD Japan Ltd. Page 24 of 34

Document Number: JPD-TR-19135-0 Channel: Low Horizontal Peak Average Vertical Peak Average TÜV SÜD Japan Ltd. Page 25 of 34

Document Number: JPD-TR-19135-0 Channel: High Horizontal Peak Average Vertical Peak Average TÜV SÜD Japan Ltd. Page 26 of 34

Document Number: JPD-TR-19135-0 4.4 AC Power Line Conducted Emissions 4.4.1 Measurement procedure [FCC 15.207, RSS-Gen 8.8] Test was applied by following conditions. Test method : ANSI C63.10 Frequency range : 0.15 MHz to 30 MHz Test place : 3 m Semi-anechoic chamber EUT was placed on : FRP table / (W)2.0 m × (D)1.0 m × (H)0.8 m Vertical Metal Reference Plane : (W)2.0 m × (H)2.0 m 0.4 m away from EUT Test receiver setting - Detector : Quasi-peak, Average - Bandwidth : 9 kHz EUT and peripherals are connected to 50Ω/50μH Line Impedance Stabilization Network (LISN) which are connected to reference ground plane, and are placed 80cm away from EUT. Excess of AC power cable is bundled in center. LISN for peripheral is terminated in 50Ω. EUT operating mode is selected to emit the maximum noise. Overall frequency range is investigated with spectrum analyzer using peak detector. Maximum emission configuration is determined by manipulating the EUT, peripherals, interconnecting cables. Then, emission measurements are performed with test receiver in above setting to each current-carrying conductor of the mains port. Sufficient time for EUT, peripherals and test equipment is provided in order for them to warm up to their normal operating condition. If the average limit is met when using a quasi-peak detector receiver, the EUT shall be deemed to meet both limits. - Test configuration TÜV SÜD Japan Ltd. Page 27 of 34

Document Number: JPD-TR-19135-0 4.4.2 Calculation method Emission level = Reading + (LISN. Factor + Cable system loss) Margin = Limit – Emission level Example: Limit @ 6.770 MHz : 60.0 dBμV(Quasi-peak) : 50.0 dBμV(Average) (Quasi peak) Reading = 41.2 dBμV c.f = 10.3 dB Emission level = 41.2 + 10.3 = 51.5 dBμV Margin = 60.0 – 51.5 = 8.5 dB (Average) Reading = 35.0 dBμV c.f = 10.3 dB Emission level = 35.0 + 10.3 = 45.3 dBμV Margin = 50.0 – 45.3 = 4.7 dB 4.4.3 Limit Frequency Limit [MHz] QP [dBuV] AV [dBuV] 0.15-0.5 66-56* 56-46* 0.5-5 56 46 5-30 60 50 *: The limit decreases linearly with the logarithm of the frequency in the range 0.15MHz to 0.5MHz. TÜV SÜD Japan Ltd. Page 28 of 34

Document Number: JPD-TR-19135-0 4.4.4 Test data TÜV SÜD Japan Ltd. Page 29 of 34

Document Number: JPD-TR-19135-0 5 Antenna requirement According to FCC section 15.203, an intentional radiator shall be designed to ensure that no antenna other than furnished by the responsible party shall be used with the device. The antenna is a special antenna mounted inside of the EUT. Therefore, the EUT complies with the antenna requirement of FCC section 15.203. TÜV SÜD Japan Ltd. Page 30 of 34

Document Number: JPD-TR-19135-0 6 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 31 of 34

Document Number: JPD-TR-19135-0 7 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 32 of 34

Document Number: JPD-TR-19135-0 Appendix A. Test Equipment Antenna port conducted test Equipment Company Model No. Serial No. Cal. Due Cal. Date Spectrum analyzer Agilent Technologies E4440A US44302655 31-Jul-2019 02-Jul-2018 Attenuator Weinschel 56-10 J4180 31-Jul-2019 12-Jul-2018 Radiated emission Equipment Company Model No. Serial No. Cal. Due Cal. Date EMI Receiver ROHDE&SCHWARZ ESCI 100765 30-Sep-2019 20-Sep-2018 Spectrum analyzer Agilent Technologies E4447A MY46180188 30-Apr-2020 16-Apr-2019 Spectrum analyzer Agilent Technologies E4440A US40420937 31-Oct-2019 12-Oct-2018 Signal analyzer ROHDE&SCHWARZ FSV40 101731 31-Dec-2019 07-Dec-2018 Preamplifier SONOMA 310 372170 30-Sep-2019 20-Sep-2018 Loop antenna ROHDE&SCHWARZ HFH2-Z2 100515 31-Mar-2020 07-Mar-2019 Attenuator TDC TAT-43B-06 N/A(S209) 31-Jul-2019 11-Jul-2018 Biconical antenna Schwarzbeck VHA9103/BBA9106 VHA91032155 31-Aug-2019 06-Aug-2018 Log periodic antenna Schwarzbeck UHALP9108A 0560 31-Aug-2019 06-Aug-2018 Attenuator TAMAGAWA.ELEC CFA-01/6dB N/A(S465) 31-May-2020 17-May-2019 Attenuator TAMAGAWA.ELEC CFA-10/3dB N/A(S503) 31-Jul-2019 11-Jul-2018 Preamplifier TSJ MLA-100M18-B02-40 1929118 31-Jan-2020 17-Jan-2019 Attenuator AEROFLEX 26A-10 081217-08 31-Jan-2020 17-Jan-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 DRGH antenna A.H.Systems Inc. SAS-574 469 31-Aug-2019 24-Aug-2018 Preamplifier TSJ MLA-1840-B03-35 1240332 31-Aug-2019 24-Aug-2018 Notch filter Micro-Tronics BRM50702 045 31-May-2020 16-May-2019 SUCOFLEX104/9m MY30037/4 31-Jan-2020 16-Jan-2019 SUCOFLEX104/1m my24610/4 31-Jan-2020 16-Jan-2019 SUCOFLEX104/8m SN MY30031/4 31-Jan-2020 16-Jan-2019 Microwave cable HUBER+SUHNER SUCOFLEX104 MY32976/4 31-Jan-2020 16-Jan-2019 SUCOFLEX104/1.5m MY19309/4 31-Jan-2020 16-Jan-2019 SUCOFLEX104/7m 41625/6 31-Jan-2020 16-Jan-2019 PC DELL DIMENSION E521 75465BX N/A N/A Software TOYO Corporation EP5/RE-AJ 0611193/V5.6.0 N/A N/A Absorber RIKEN PFP30 N/A 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 Conducted emission at mains port Equipment Company Model No. Serial No. Cal. Due Cal. Date EMI Receiver ROHDE&SCHWARZ ESCI 100765 30-Sep-2019 20-Sep-2018 Attenuator HUBER+SUHNER 6810.01.A N/A (S411) 31-Jan-2020 17-Jan-2019 Kyoritsu Electrical Line impedance stabilization network KNW-407F2 12-17-110-2 31-May-2020 16-May-2019 Works, Ltd. Coaxial cable FUJIKURA 5D-2W/4m N/A (S350) 31-Jan-2020 16-Jan-2019 Coaxial cable FUJIKURA 5D-2W/1m N/A (S193) 31-Jan-2020 16-Jan-2019 Coaxial cable HUBER+SUHNER RG214/U/10m N/A (S194) 31-Jan-2020 16-Jan-2019 PC DELL DIMENSION 75465BX N/A N/A Software TOYO Corporation EP5/CE-AJ 0611193/V5.4.11 N/A N/A *: 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-C 5.0 Page 33 of 34

Document Number: JPD-TR-19135-0 Appendix B. Duty Cycle [Plot & Calculation] Duty Cycle Factor Calculation RF duty cycle factor: Calculation according to RF burst Para 15.35 (c) Pulse width is 0.156ms There are 87 pulses in 100ms window 0.156ms x 87 = 13.572ms, It is 13.572ms in 100ms Duty cycle: 13.572/100 = 0.136 Duty cycle factor: 20log (0.136) = -17.35dB Maximum is used duty cycle according to Para 15.35 (b): 20dB TÜV SÜD Japan Ltd. Test Report Rev. FCC-C 5.0 Page 34 of 34


Document Created: 2019-07-11 17:52:30
Document Modified: 2019-07-11 17:52:30
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