Razer Inc. RZ040398 Gaming Headset RWO-RZ040398 RWORZ040398 rz040398
Report No.: BTL-FCCP-1-2107C155 FCC Radio Test Report FCC ID: RWO-RZ040398 Project No. Equipment Brand Name Test Model Series Model Applicant Address Manufacturer Address Factory Address Date of Receipt Date of Test Issued Date Report Version Test Sample Standard(s) This report concerns: Original Grant : 2107C155 : Gaming Headset : RAZER : RZ04-0398 : RZ04-0398XXXX-XXXX(X can be 0-9 or A-Z) : Razer Inc. : 9 Pasteur, Suite 100, Irvine, CA92618, USA : Razer (Asia-Pacific) Pte.,Ltd. : 1 one-north Crescent, #02-01, Singapore 138538 : RAZER TECHNOLOGY AND DEVELOPMENT (SHENZHEN) CO., LTD : East Wing, 3rd Floor, Block 2, Phase 1 of Vision Shenzhen Business Park Keji South Road, Hi-Tech Industrial Park, Shenzhen 518057, China : Jul. 23, 2021 : Jul. 26, 2021 ~ Aug. 19, 2021 : Nov. 16, 2021 : R01 : Sample No.: DG2021072371 for conducted, DG2021072372 for radiated. : FCC CFR Title 47, Part 15, Subpart C FCC KDB 558074 D01 15.247 Meas Guidance v05r02 ANSI C63.10-2013 The above equipment has been tested and found compliance with the requirement of the relative standards by BTL Inc. Prepared by : Vincent Tan Approved by : Ethan Ma Add: No. 3 Jinshagang 1st Rd. Shixia, Dalang Town, Dongguan City, Guangdong, People's Republic of China Tel: +86-769-8318-3000 Web: www.newbtl.com Page 1 of 86 Report No.: BTL-FCCP-1-2107C155 Declaration BTL represents to the client that testing is done in accordance with standard procedures as applicable and that test instruments used has been calibrated with standards traceable to international standard(s) and/or national standard(s). BTL's reports apply only to the specific samples tested under conditions. It is manufacture's responsibility to ensure that additional production units of this model are manufactured with the identical electrical and mechanical components. BTL shall have no liability for any declarations, inferences or generalizations drawn by the client or others from BTL issued reports. The report must not be used by the client to claim product certification, approval, or endorsement by NVLAP, NIST, A2LA, or any agency of the U.S. Government. This report is the confidential property of the client. As a mutual protection to the clients, the public and ourselves, the test report shall not be reproduced, except in full, without our written approval. BTL's laboratory quality assurance procedures are in compliance with the ISO/IEC 17025 requirements, and accredited by the conformity assessment authorities listed in this test report. BTL is not responsible for the sampling stage, so the results only apply to the sample as received. The information, data and test plan are provided by manufacturer which may affect the validity of results, so it is manufacturer's responsibility to ensure that the apparatus meets the essential requirements of applied standards and in all the possible configurations as representative of its intended use. Limitation For the use of the authority's logo is limited unless the Test Standard(s)/Scope(s)/Item(s) mentioned in this test report is (are) included in the conformity assessment authorities acceptance respective. Please note that the measurement uncertainty is provided for informational purpose only and are not use in determining the Pass/Fail results. Page 2 of 86 Report No.: BTL-FCCP-1-2107C155 Table of Contents REPORT ISSUED HISTORY 1 . SUMMARY OF TEST RESULTS 1.1 TEST FACILITY 1.2 MEASUREMENT UNCERTAINTY 1.3 TEST ENVIRONMENT CONDITIONS 2 . GENERAL INFORMATION 2.1 GENERAL DESCRIPTION OF EUT 2.2 DESCRIPTION OF TEST MODES 2.3 PARAMETERS OF TEST SOFTWARE 2.4 BLOCK DIAGRAM SHOWING THE CONFIGURATION OF SYSTEM TESTED 2.5 SUPPORT UNITS 3 . AC POWER LINE CONDUCTED EMISSIONS 3.1 LIMIT 3.2 TEST PROCEDURE 3.3 DEVIATION FROM TEST STANDARD 3.4 TEST SETUP 3.5 EUT OPERATING CONDITIONS 3.6 TEST RESULTS 4 . RADIATED EMISSIONS 4.1 LIMIT 4.2 TEST PROCEDURE 4.3 DEVIATION FROM TEST STANDARD 4.4 TEST SETUP 4.5 EUT OPERATING CONDITIONS 4.6 TEST RESULTS 9 KHZ TO 30 MHZ 4.7 TEST RESULTS 30 MHZ TO 1000 MHZ 4.8 TEST RESULTS ABOVE 1000 MHZ 5 . NUMBER OF HOPPING FREQUENCY 5.1 LIMIT 5.2 TEST PROCEDURE 5.3 DEVIATION FROM STANDARD 5.4 TEST SETUP 5.5 EUT OPERATION CONDITIONS Page 6 7 8 8 8 9 9 11 12 13 13 14 14 14 14 15 15 15 16 16 16 17 18 19 19 19 19 20 20 20 20 20 20 Page 3 of 86 Table of Contents 5.6 TEST RESULTS 6 . AVERAGE TIME OF OCCUPANCY 6.1 LIMIT 6.2 TEST PROCEDURE 6.3 DEVIATION FROM STANDARD 6.4 TEST SETUP 6.5 EUT OPERATION CONDITIONS 6.6 TEST RESULTS 7 . HOPPING CHANNEL SEPARATION 7.1 LIMIT 7.2 TEST PROCEDURE 7.3 DEVIATION FROM STANDARD 7.4 TEST SETUP 7.5 EUT OPERATION CONDITIONS 7.6 TEST RESULTS 8 . BANDWIDTH 8.1 LIMIT 8.2 TEST PROCEDURE 8.3 DEVIATION FROM STANDARD 8.4 TEST SETUP 8.5 EUT OPERATION CONDITIONS 8.6 TEST RESULTS 9 . MAXIMUM OUTPUT POWER 9.1 LIMIT 9.2 TEST PROCEDURE 9.3 DEVIATION FROM STANDARD 9.4 TEST SETUP 9.5 EUT OPERATION CONDITIONS 9.6 TEST RESULTS 10 . CONDUCTED SPURIOUS EMISSION 10.1 LIMIT 10.2 TEST PROCEDURE 10.3 DEVIATION FROM STANDARD 10.4 TEST SETUP Page 4 of 86 Report No.: BTL-FCCP-1-2107C155 Page 20 21 21 21 21 21 21 21 22 22 22 22 22 22 22 23 23 23 23 23 23 23 24 24 24 24 24 24 24 25 25 25 25 25 Report No.: BTL-FCCP-1-2107C155 Table of Contents Page 10.5 EUT OPERATION CONDITIONS 25 10.6 TEST RESULTS 25 11 . MEASUREMENT INSTRUMENTS LIST 26 APPENDIX A AC POWER LINE CONDUCTED EMISSIONS 28 APPENDIX B RADIATED EMISSION 9 KHZ TO 30 MHZ 31 APPENDIX C RADIATED EMISSION 30 MHZ TO 1000 MHZ 36 APPENDIX D RADIATED EMISSION ABOVE 1000 MHZ 39 APPENDIX E NUMBER OF HOPPING FREQUENCY 64 APPENDIX F AVERAGE TIME OF OCCUPANCY 66 APPENDIX G HOPPING CHANNEL SEPARATION 71 APPENDIX H BANDWIDTH 73 APPENDIX I MAXIMUM OUTPUT POWER 75 APPENDIX J CONDUCTED SPURIOUS EMISSION 79 APPENDIX K DECLARATION FOR BLUETOOTH DEVICE 84 Page 5 of 86 Report Version R00 R01 Report No.: BTL-FCCP-1-2107C155 REPORT ISSUED HISTORY Description Original Issue. Only updated the manufacturer information. Issued Date Aug. 25, 2021 Nov. 16, 2021 Page 6 of 86 Report No.: BTL-FCCP-1-2107C155 1. SUMMARY OF TEST RESULTS Test procedures according to the technical standard(s): Standard(s) Section 15.207 15.247(d) 15.205(a) 15.209(a) 15.247 (a)(1)(iii) 15.247 (a)(1)(iii) 15.247(a)(1) 15.247(a)(1) 15.247(a)(1) 15.247(d) 15.203 FCC CFR Title 47, Part 15, Subpart C Test Item Test Result Judgment Remark AC Power Line Conducted Emissions Radiated Emission APPENDIX A APPENDIX B APPENDIX C APPENDIX D PASS PASS ----------- Number of Hopping Frequency APPENDIX E PASS ------ Average Time of Occupancy APPENDIX F PASS ------ Hopping Channel Separation APPENDIX G PASS ------ Bandwidth APPENDIX H PASS ------ Maximum Output Power APPENDIX I PASS ------ Conducted Spurious Emission APPENDIX J PASS ------ Antenna Requirement ------ PASS Note(2) Note: (1) "N/A" denotes test is not applicable in this test report (2) The device what use a permanently attached antenna were considered sufficient to comply with the provisions of 15.203. Page 7 of 86 Report No.: BTL-FCCP-1-2107C155 1.1 TEST FACILITY The test facilities used to collect the test data in this report is at the location of No. 3 Jinshagang 1st Rd. Shixia, Dalang Town, Dongguan City, Guangdong, People's Republic of China. BTL's Test Firm Registration Number for FCC: 357015 BTL's Designation Number for FCC: CN1240 1.2 MEASUREMENT UNCERTAINTY ISO/IEC 17025 requires that an estimate of the measurement uncertainties associated with the emissions test results be included in the report. The measurement uncertainties given below are based on a 95% confidence level (based on a coverage factor (k=2)) The BTL measurement uncertainty as below table: A. AC power line conducted emissions test: Test Site Method Measurement Frequency Range DG-C02 CISPR 150kHz ~ 30MHz U, (dB) 2.68 B. Radiated emissions test: Test Site Method Measurement Frequency Range DG-CB03 CISPR 9kHz ~ 30MHz 30MHz ~ 200MHz 30MHz ~ 200MHz 200MHz ~ 1,000MHz 200MHz ~ 1,000MHz 1GHz ~ 6GHz 6GHz ~ 18GHz 18GHz ~ 26.5GHz 26.5GHz ~ 40GHz Ant. H / V V H V H - U, (dB) 3.02 4.26 3.38 3.98 3.94 3.96 5.24 3.62 4.00 C. Other Measurement: Test Item Conducted Spurious Emission Hopping Channel Separation Maximum Output Power Number of Hopping Frequency Bandwidth Temperature Humidity Uncertainty ±2.71 dB ±53.46 Hz ±0.95 dB ±53.46 Hz ±3.8 % ±0.08 oC ±1.5% Note: Unless specifically mentioned, the uncertainty of measurement has not been taken into account to declare the compliance or non-compliance to the specification. 1.3 TEST ENVIRONMENT CONDITIONS Test Item Temperature AC Power Line Conducted Emissions 25°C Radiated Emissions-9 kHz to 30 MHz 25°C Radiated Emissions-30 MHz to 1000 MHz 26°C Radiated Emissions-Above 1000 MHz 26°C Number of Hopping Frequency 24°C Average Time of Occupancy 24°C Hopping Channel Separation 24°C Bandwidth 24°C Maximum Output Power 24°C Conducted Spurious Emission 24°C Humidity 53% 60% 52% 52% 52% 52% 52% 52% 52% 52% Test Voltage AC 120V/60Hz DC 5V DC 5V DC 5V DC 5V DC 5V DC 5V DC 5V DC 5V DC 5V Tested By Laughing Zhang Hayden Chen Hayden Chen Hayden Chen Kwok Guo Kwok Guo Kwok Guo Kwok Guo Laughing Zhang Kwok Guo Page 8 of 86 Report No.: BTL-FCCP-1-2107C155 2. GENERAL INFORMATION 2.1 GENERAL DESCRIPTION OF EUT Equipment Gaming Headset Brand Name RAZER Test Model RZ04-0398 Series Model Model Difference(s) Power Source Power Rating Operation Frequency RZ04-0398XXXX-XXXX(X can be 0-9 or A-Z) The system's model name is RZ04-0398XXXX-XXXX (X: Can be 0-9, A-Z), and the system is contain a Gaming Headset (Model name: RZ04-0398) and USB Wireless Transceiver (Model name: RC30-0403). 1# Supplied from USB port. 2# Supplied from battery. Model: PL383450 1# 5V 500mA 2# 3.8V, 800mAh, 3.04Wh 2402 MHz ~ 2480 MHz Modulation Type GFSK, /4-DQPSK, 8-DPSK Bit Rate of Transmitter 1Mbps, 2Mbps, 3Mbps Max. Peak Output Power 3Mbps: 11.23 dBm (0.0133 W) Max. Average Output Power 2Mbps: 9.02 dBm (0.0080 W) Note: 1. For a more detailed features description, please refer to the manufacturer's specifications or the user's manual. Page 9 of 86 Report No.: BTL-FCCP-1-2107C155 2. Channel List: Channel 00 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 Frequency (MHz) 2402 2403 2404 2405 2406 2407 2408 2409 2410 2411 2412 2413 2414 2415 2416 2417 2418 2419 2420 2421 2422 2423 2424 2425 2426 2427 2428 Channel 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 Frequency (MHz) 2429 2430 2431 2432 2433 2434 2435 2436 2437 2438 2439 2440 2441 2442 2443 2444 2445 2446 2447 2448 2449 2450 2451 2452 2453 2454 2455 Channel 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 Frequency (MHz) 2456 2457 2458 2459 2460 2461 2462 2463 2464 2465 2466 2467 2468 2469 2470 2471 2472 2473 2474 2475 2476 2477 2478 2479 2480 3. Table for Filed Antenna: Ant. Manufacturer Model Name Shenzhen Horn Audio Co., 1 N/A Ltd. Note: The antenna gain is provided by the manufacturer. Antenna Type Printed Connector Gain (dBi) N/A 2.39 Page 10 of 86 Report No.: BTL-FCCP-1-2107C155 2.2 DESCRIPTION OF TEST MODES The test system was pre-tested based on the consideration of all possible combinations of EUT operation mode. Pretest Mode Description Mode 1 TX Mode_1Mbps Channel 00/39/78 Mode 2 TX Mode_2Mbps Channel 00/39/78 Mode 3 TX Mode_3Mbps Channel 00/39/78 Mode 4 TX Mode_3Mbps Channel 00 Following mode(s) was (were) found to be the worst case(s) and selected for the final test. AC power line conducted emissions test Final Test Mode Description Mode 4 TX Mode_3Mbps Channel 00 Final Test Mode Mode 4 Radiated emissions test - Below 1GHz Description TX Mode_3Mbps Channel 00 Final Test Mode Mode 1 Mode 3 Radiated emissions test - Above 1GHz Description TX Mode_1Mbps Channel 00/39/78 TX Mode_3Mbps Channel 00/39/78 Final Test Mode Mode 1 Mode 2 Mode 3 Maximum Output Power Description TX Mode_1Mbps Channel 00/39/78 TX Mode_2Mbps Channel 00/39/78 TX Mode_3Mbps Channel 00/39/78 Final Test Mode Mode 1 Mode 3 Other Conducted test Description TX Mode_1Mbps Channel 00/39/78 TX Mode_3Mbps Channel 00/39/78 Page 11 of 86 Report No.: BTL-FCCP-1-2107C155 Note: (1) The measurements for Output Power were tested with DH1/3/5 during 1Mbps, 2Mbps and 3Mbps, the worst case were 1Mbps (DH5) and 3Mbps (DH5), only worst case were documented for other test items except Average Time of Occupancy. (2) For radiated emission above 1 GHz test, the spurious points of 1GHz~26.5GHz have been pre-tested and in this report only recorded the worst case. The remaining spurious points are all below the limit value of 20dB. (3) For AC power line conducted emissions and radiated spurious emissions below 1 GHz test, the 3Mbps Channel 00 are found to be the worst case and recorded. (4) The product supports 2.4G Hopping technology and Bluetooth technology at the same time, and the technology used is similar to that of Bluetooth. The chip and fixed frequency software used at the same time are the same. The difference is that when the product does not work with Bluetooth technology, it needs to be used with a dongle. So all reports only tested one of Bluetooth technology and hopping technology. 2.3 PARAMETERS OF TEST SOFTWARE During testing, channel & power controlling software provided by the customer was used to control the operating channel as well as the output power level. Test Software Version Frequency (MHz) 1Mbps 2Mbps 3Mbps 2402 0x02 0x02 0x02 AWRDLABV2 1.0.9.9 2441 0x02 0x02 0x02 2480 0x02 0x02 0x02 Page 12 of 86 Report No.: BTL-FCCP-1-2107C155 2.4 BLOCK DIAGRAM SHOWING THE CONFIGURATION OF SYSTEM TESTED 2.5 SUPPORT UNITS Item Equipment A Notebook Item Cable Type 1 USB Cable Brand Lenovo Shielded Type NO Model No. V310-14ISK Ferrite Core NO Series No. LR07GZNB Length 2m Page 13 of 86 Report No.: BTL-FCCP-1-2107C155 3. AC POWER LINE CONDUCTED EMISSIONS 3.1 LIMIT Frequency of Emission (MHz) 0.15 - 0.5 0.5 - 5.0 5.0 - 30.0 Quasi-peak 66 to 56* 56 60 Limit (dBV) Average 56 to 46* 46 50 Note: (1) The tighter limit applies at the band edges. (2) The limit of " * " marked band means the limitation decreases linearly with the logarithm of the frequency in the range. 3.2 TEST PROCEDURE a. The EUT was placed 0.8 meters from the horizontal ground plane with EUT being connected to the power mains through a line impedance stabilization network (LISN). All other support equipment powered from additional LISN(s). The LISN provide 50 Ohm/ 50uH of coupling impedance for the measuring instrument. b. Interconnecting cables that hang closer than 40 cm to the ground plane shall be folded back and forth in the center forming a bundle 30 to 40 cm long. c. I/O cables that are not connected to a peripheral shall be bundled in the center. The end of the cable may be terminated, if required, using the correct terminating impedance. The overall length shall not exceed 1 m. d. LISN at least 80 cm from nearest part of EUT chassis. e. For the actual test configuration, please refer to the related Item EUT Test Photos. The following table is the setting of the receiver: Receiver Parameters Start Frequency Stop Frequency IF Bandwidth Setting 0.15 MHz 30 MHz 9 kHz 3.3 DEVIATION FROM TEST STANDARD No deviation. Page 14 of 86 3.4 TEST SETUP Vertical Reference Ground Plane Report No.: BTL-FCCP-1-2107C155 40 cm EUT Test Receiver LISN 80 cm Horizontal Reference Ground Plane 3.5 EUT OPERATING CONDITIONS The EUT was configured for testing in a typical function (as a customer would normally use it), EUT was programmed to be in continuously transmitting data or hopping on mode. 3.6 TEST RESULTS Please refer to the APPENDIX A. Remark: (1) All readings are QP Mode value unless otherwise stated AVG in column ofNote. If the QP Mode Measured value compliance with the QP Limits and lower than AVG Limits, the EUT shall be deemed to meet both QP & AVG Limits and then only QP Mode was measured, but AVG Mode didn`t perform in this case, a "*" marked in AVG Mode column of Interference Voltage Measured. (2) Measuring frequency range from 150 kHz to 30 MHz. Page 15 of 86 Report No.: BTL-FCCP-1-2107C155 4. RADIATED EMISSIONS 4.1 LIMIT In case the emission fall within the restricted band specified on 15.205(a), then the 15.209(a) limit in the table below has to be followed. LIMITS OF RADIATED EMISSION MEASUREMENT (9 kHz-1000 MHz) Frequency (MHz) 0.009-0.490 0.490-1.705 1.705-30.0 30-88 88-216 216-960 Above 960 Field Strength (microvolts/meter) 2400/F(kHz) 24000/F(kHz) 30 100 150 200 500 LIMITS OF RADIATED EMISSION MEASUREMENT (Above 1000 MHz) Measurement Distance (meters) 300 30 30 3 3 3 3 Frequency (MHz) Above 1000 Peak 74 (dBuV/m at 3 m) Average 54 Note: (1) The limit for radiated test was performed according to FCC CFR Title 47, Part 15, Subpart C. (2) The tighter limit applies at the band edges. (3) Emission level (dBuV/m)=20log Emission level (uV/m). 4.2 TEST PROCEDURE a. The measuring distance of 3 m shall be used for measurements. The EUT was placed on the top of a rotating table 0.8 meter above the ground at a 3 meter semi-anechoic chamber. The table was rotated 360 degrees to determine the position of the highest radiation.(below 1 GHz) b. The measuring distance of 3 m shall be used for measurements. The EUT was placed on the top of a rotating table 1.5 meter above the ground at a 3 meter semi-anechoic chamber. The table was rotated 360 degrees to determine the position of the highest radiation.(above 1 GHz) c. The height of the equipment or of the substitution antenna shall be 0.8m or 1.5m; the height of the test antenna shall vary between 1 m to 4 m. Both horizontal and vertical polarizations of the antenna are set to make the measurement. d. For each suspected emission, the EUT was arranged to its worst case and then the antenna was tuned to heights find the maximum reading (used Bore sight function). e. The receiver system was set to peak and average detect function and specified bandwidth with maximum hold mode when the test frequency is above 1 GHz. f. The initial step in collecting radiated emission data is a receiver peak detector mode pre-scanning the measurement frequency range. Significant peaks are then marked and then Quasi Peak detector mode re-measured. g. All readings are Peak unless otherwise stated QP in column of Note. Peak denotes that the Peak reading compliance with the QP Limits and then QP Mode measurement didn`t perform. (below 1 GHz) h. All readings are Peak Mode value unless otherwise stated AVG in column of Note. If the Peak Mode Measured value compliance with the Peak Limits and lower than AVG Limits, the EUT shall be deemed to meet both Peak & AVG Limits and then only Peak Mode was measured, but AVG Mode didn`t perform. (above 1 GHz) i. For the actual test configuration, please refer to the related Item EUT Test Photos. Page 16 of 86 The following table is the setting of the receiver: Spectrum Parameters Start ~ Stop Frequency Start ~ Stop Frequency Start ~ Stop Frequency Spectrum Parameters Start Frequency Stop Frequency RBW / VBW (Emission in restricted band) Spectrum Parameters Start ~ Stop Frequency Start ~ Stop Frequency Start ~ Stop Frequency Start ~ Stop Frequency Start ~ Stop Frequency Start ~ Stop Frequency 4.3 DEVIATION FROM TEST STANDARD No deviation. Report No.: BTL-FCCP-1-2107C155 Setting 9 kHz~150 kHz for RBW 200 Hz 0.15 MHz~30 MHz for RBW 9 kHz 30 MHz~1000 MHz for RBW 100 kHz Setting 1000 MHz 10th carrier harmonic 1 MHz / 3 MHz for PK value 1 MHz / 1/T Hz for AVG value Setting 9 kHz~90 kHz for PK/AVG detector 90 kHz~110 kHz for QP detector 110 kHz~490 kHz for PK/AVG detector 490 kHz~30 MHz for QP detector 30 MHz~1000 MHz for QP detector 1 GHz~26.5 GHz for PK/AVG detector Page 17 of 86 4.4 TEST SETUP 9 kHz to 30 MHz Absorbers Report No.: BTL-FCCP-1-2107C155 0.8 m EUT 0.8 m EUT 3 m 1 m Ground Plane Receiver 30 MHz to 1 GHz Absorbers 1-4 m 3 m 1 m Ground Plane Receiver Amp. Page 18 of 86 Above 1 GHz Absorbers Report No.: BTL-FCCP-1-2107C155 1.5 m EUT 1-4 m 3 m Absorbers Ground Plane 0.3 m Receiver 1 m Amp. 4.5 EUT OPERATING CONDITIONS The EUT was programmed to be in continuously transmitting mode. 4.6 TEST RESULTS - 9 kHz TO 30 MHz Please refer to the APPENDIX B. Remark: (1) Distance extrapolation factor = 40 log (specific distance / test distance) (dB). (2) Limit line = specific limits (dBuV) + distance extrapolation factor. 4.7 TEST RESULTS - 30 MHz TO 1000 MHz Please refer to the APPENDIX C. 4.8 TEST RESULTS - ABOVE 1000 MHz Please refer to the APPENDIX D. Remark: (1) No limit: This is fundamental signal, the judgment is not applicable. For fundamental signal judgment was referred to Peak output test. Page 19 of 86 Report No.: BTL-FCCP-1-2107C155 5. NUMBER OF HOPPING FREQUENCY 5.1 LIMIT Section FCC 15.247(a)(1)(iii) Test Item Number of Hopping Frequency Limit 15 5.2 TEST PROCEDURE a. The EUT was directly connected to the spectrum analyzer and antenna output port as show in the block diagram below. b. The following table is the setting of the spectrum analyzer: Spectrum Parameters Span Frequency RBW VBW Detector Trace Sweep Time Setting > Operating Frequency Range 100 kHz 100 kHz Peak Max Hold Auto 5.3 DEVIATION FROM STANDARD No deviation. 5.4 TEST SETUP 5.5 EUT OPERATION CONDITIONS The EUT was programmed to be in continuously transmitting mode. 5.6 TEST RESULTS Please refer to the APPENDIX E. Page 20 of 86 Report No.: BTL-FCCP-1-2107C155 6. AVERAGE TIME OF OCCUPANCY 6.1 LIMIT Section FCC 15.247(a)(1)(iii) Test Item Average Time of Occupancy Limit 0.4sec 6.2 TEST PROCEDURE a. Set the EUT for DH1, DH3 and DH5 packet transmitting. b. Measure the maximum time duration of one single pulse. c. DH1 Packet permit maximum 1600 / 79 /2 = 10.12 hops per second in each channel (1 time slot TX, 1 time slot RX). So, the dwell time is the time duration of the pulse times 10.12 x 31.6 = 320 within 31.6 seconds. d. DH3 Packet permit maximum 1600 / 79 / 4 = 5.06 hops per second in each channel (3 time slots TX, 1 time slot RX). So, the dwell time is the time duration of the pulse times 5.06 x 31.6 = 160 within 31.6 seconds. e. DH5 Packet permit maximum 1600/ 79 / 6 = 3.37 hops per second in each channel (5 time slots TX, 1 time slot RX). So, the dwell time is the time duration of the pulse times 3.37 x 31.6 = 106.6 within 31.6 seconds. f. The EUT was directly connected to the spectrum analyzer and antenna output port as show in the block diagram below. g. The following table is the setting of the spectrum analyzer: Spectrum Parameters Span Frequency RBW VBW Detector Trace Sweep Time Setting 0 MHz 1 MHz 1 MHz Peak Max Hold As necessary to capture the entire dwell time per hopping channel 6.3 DEVIATION FROM STANDARD No deviation. 6.4 TEST SETUP 6.5 EUT OPERATION CONDITIONS The EUT was programmed to be in continuously transmitting mode. 6.6 TEST RESULTS Please refer to the APPENDIX F. Page 21 of 86 Report No.: BTL-FCCP-1-2107C155 7. HOPPING CHANNEL SEPARATION 7.1 LIMIT Frequency hopping systems operating in the 2400-2483.5 MHz band may have hopping channel carrier frequencies that are separated by 25 kHz or two-thirds of the 20 dB bandwidth of the hopping channel, whichever is greater, provided the systems operate with an output power no greater than 125 mW. 7.2 TEST PROCEDURE a. The EUT was directly connected to the spectrum analyzer and antenna output port as show in the block diagram below. b. The following table is the setting of the spectrum analyzer: Spectrum Parameters Span Frequency RBW VBW Detector Trace Sweep Time Setting Wide enough to capture the peaks of two adjacent channels 30 kHz 100 kHz Peak Max Hold Auto 7.3 DEVIATION FROM STANDARD No deviation. 7.4 TEST SETUP 7.5 EUT OPERATION CONDITIONS The EUT was programmed to be in continuously transmitting mode. 7.6 TEST RESULTS Please refer to the APPENDIX G. Page 22 of 86 Report No.: BTL-FCCP-1-2107C155 8. BANDWIDTH 8.1 LIMIT Section FCC 15.247(a)(1) Test Item Bandwidth 8.2 TEST PROCEDURE a. The EUT was directly connected to the spectrum analyzer and antenna output port as show in the block diagram below. b. The following table is the setting of the spectrum analyzer: Spectrum Parameters Span Frequency RBW VBW Detector Trace Sweep Time Setting > Measurement Bandwidth 30 kHz 100 kHz Peak Max Hold Auto 8.3 DEVIATION FROM STANDARD No deviation. 8.4 TEST SETUP 8.5 EUT OPERATION CONDITIONS The EUT was programmed to be in continuously transmitting mode. 8.6 TEST RESULTS Please refer to the APPENDIX H. Page 23 of 86 Report No.: BTL-FCCP-1-2107C155 9. MAXIMUM OUTPUT POWER 9.1 LIMIT Section FCC 15.247(a)(1) Test Item Maximum Output Power Limit 0.1250 Watt or 20.97 dBm Note: Frequency hopping systems operating in the 2400-2483.5 MHz band may have hopping channel carrier frequencies that are separated by 25 kHz or two-thirds of the 20 dB bandwidth of the hopping channel, whichever is greater, provided the systems operate with an output power no greater than 125 mW. 9.2 TEST PROCEDURE a. The EUT was directly connected to the spectrum analyzer and antenna output port as show in the block diagram below. b. The following table is the setting of the spectrum analyzer: Spectrum Parameters Span Frequency RBW VBW Detector Trace Sweep Time Setting Approximately five times the 20 dB bandwidth, centered on a hopping channel. 3 MHz 3 MHz Peak Max Hold Auto 9.3 DEVIATION FROM STANDARD No deviation. 9.4 TEST SETUP 9.5 EUT OPERATION CONDITIONS The EUT was programmed to be in continuously transmitting mode. 9.6 TEST RESULTS Please refer to the APPENDIX I. Page 24 of 86 Report No.: BTL-FCCP-1-2107C155 10. CONDUCTED SPURIOUS EMISSION 10.1 LIMIT In any 100 kHz bandwidth outside the frequency band in which the spread spectrum or digitally modulated intentional radiator is operating, the radio frequency power that is produced by the intentional radiator shall be at least 20 dB below that in the 100 kHz bandwidth within the band that contains the highest level of the desired power, based on either an RF conducted or a radiated measurement, provided the transmitter demonstrates compliance with the peak Output Power limits. If the transmitter complies with the Output Power limits based on the use of RMS averaging over a time interval, as permitted under paragraph (b)(3) of this section, the attenuation required under this paragraph shall be 30 dB instead of 20 dB. Attenuation below the general limits specified in Section 15.209(a) is not required. 10.2 TEST PROCEDURE a. The EUT was directly connected to the spectrum analyzer and antenna output port as show in the block diagram below. b. The following table is the setting of the spectrum analyzer: Spectrum Parameters Start Frequency Stop Frequency RBW VBW Detector Trace Sweep Time Setting 30 MHz 26.5 GHz 100 kHz 100 kHz Peak Max Hold Auto 10.3 DEVIATION FROM STANDARD No deviation. 10.4 TEST SETUP 10.5 EUT OPERATION CONDITIONS The EUT was programmed to be in continuously transmitting mode. 10.6 TEST RESULTS Please refer to the APPENDIX J. Page 25 of 86 Report No.: BTL-FCCP-1-2107C155 11. MEASUREMENT INSTRUMENTS LIST Item Kind of Equipment 1 EMI Test Receiver 2 LISN 3 TWO-LINE V-NETWORK 4 50 Terminator 5 Measurement Software 6 Cable 7 643 Shield Room AC Power Line Conducted Emissions Manufacturer Type No. Serial No. R&S ESCI 100382 EMCO 3816/2 52765 R&S ENV216 101447 SHX Farad N/A ETS TF5-3 EZ-EMC Ver.NB-03A1-01 RG223 6*4*3m 15041305 N/A 12m N/A Item Kind of Equipment 1 Loop Antenna 2 Cable 3 EMI Test Receiver 4 Measurement Software 5 966 Chambe Room Radiated Emissions - 9 kHz to 30 MHz Manufacturer Type No. Serial No. EM EM-6876-1 230 N/A RG 213/U N/A R&S ESCI 100895 Farad EZ-EMC Ver.NB-03A1-01 N/A RM 9*6*6m N/A Item Kind of Equipment 1 Antenna 2 Amplifier 3 Receiver 4 Cable 5 Controller 6 Controller 7 Measurement Software 8 966 Chambe Room Radiated Emissions - 30 MHz to 1 GHz Manufacturer Type No. Serial No. Schwarzbeck VULB9160 9160-3232 HP 8447D 2944A08742 Agilent N9038A MY52130039 emci LMR-400(30MHz-1 GHz)(8m+5m) N/A CT SC100 N/A MF MF-7802 MF780208416 Farad EZ-EMC Ver.NB-03A1-01 N/A RM 9*6*6m N/A Item Kind of Equipment 1 Double Ridged Guide Antenna 2 Broad-Band Horn Antenna 3 Amplifier Microwave 4 Preamplifier With Adaptor 5 Receiver 6 Controller 7 Controller 8 Cable 9 Measurement Software 10 Filter 11 966 Chambe Room Radiated Emissions - Above 1 GHz Manufacturer Type No. Serial No. ETS 3115 75789 Schwarzbeck Agilent EMC INSTRUMENT Agilent CT MF N/A Farad STI RM BBHA 9170 8449B EMC2654045 N9038A SC100 MF-7802 EMC104-SM-SM-6 000 EZ-EMC Ver.NB-03A1-01 STI15-9912 9*6*6m 9170319 3008A02584 980039 & HA01 MY52130039 N/A MF780208416 N/A N/A N/A N/A Calibrated until Feb. 28, 2022 Feb. 27, 2022 Feb. 27, 2022 Feb. 27, 2022 N/A Mar. 09, 2022 N/A Calibrated until Apr. 28, 2022 May 27, 2022 Feb. 27, 2022 N/A Jul. 26, 2022 Calibrated until Mar. 15, 2022 Feb. 28, 2022 Mar. 19, 2022 May 20, 2022 N/A N/A N/A Jul. 26, 2022 Calibrated until May 10, 2022 Jun. 30, 2022 Jul. 10, 2022 Feb. 28, 2022 Mar. 19, 2022 N/A N/A Oct. 16, 2021 N/A Jul. 10, 2022 Jul. 26, 2022 Page 26 of 86 Report No.: BTL-FCCP-1-2107C155 Item Kind of Equipment 1 Spectrum Analyzer 2 Attenuator 3 RF Cable 4 DC Block Number of Hopping Frequency & Average Time of Occupancy & Hopping Channel Separation & Bandwidth & Maximum Output Power & Conducted Spurious Emission Manufacturer Type No. Serial No. R&S FSP40 100185 WOKEN 6SM3502 VAS1214NL Tongkaichuan N/A N/A Mini N/A N/A Remark "N/A" denotes no model name, serial no. or calibration specified. All calibration period of equipment list is one year. Calibrated until Jul. 10, 2022 Feb. 07, 2022 N/A N/A Page 27 of 86 Report No.: BTL-FCCP-1-2107C155 APPENDIX A - AC POWER LINE CONDUCTED EMISSIONS Page 28 of 86 Test Mode TX Mode_3Mbps Channel 00 Report No.: BTL-FCCP-1-2107C155 Phase Line REMARKS: (1) Measurement Value = Reading Level + Correct Factor. (2) Margin Level = Measurement Value - Limit Value. Page 29 of 86 Test Mode TX Mode_3Mbps Channel 00 Report No.: BTL-FCCP-1-2107C155 Phase Neutral REMARKS: (1) Measurement Value = Reading Level + Correct Factor. (2) Margin Level = Measurement Value - Limit Value. Page 30 of 86 Report No.: BTL-FCCP-1-2107C155 APPENDIX B - RADIATED EMISSION - 9 KHZ TO 30 MHZ Page 31 of 86 Test Mode TX Mode_3Mbps Channel 00 Report No.: BTL-FCCP-1-2107C155 Polarization Ant 0° REMARKS: (1) Measurement Value = Reading Level + Correct Factor. (2) Margin Level = Measurement Value - Limit Value. Page 32 of 86 Test Mode TX Mode_3Mbps Channel 00 Report No.: BTL-FCCP-1-2107C155 Polarization Ant 0° REMARKS: (1) Measurement Value = Reading Level + Correct Factor. (2) Margin Level = Measurement Value - Limit Value. Page 33 of 86 Test Mode TX Mode_3Mbps Channel 00 Report No.: BTL-FCCP-1-2107C155 Polarization Ant 90° REMARKS: (1) Measurement Value = Reading Level + Correct Factor. (2) Margin Level = Measurement Value - Limit Value. Page 34 of 86 Test Mode TX Mode_3Mbps Channel 00 Report No.: BTL-FCCP-1-2107C155 Polarization Ant 90° REMARKS: (1) Measurement Value = Reading Level + Correct Factor. (2) Margin Level = Measurement Value - Limit Value. Page 35 of 86 Report No.: BTL-FCCP-1-2107C155 APPENDIX C - RADIATED EMISSION - 30 MHZ TO 1000 MHZ Page 36 of 86 Test Mode TX Mode_3Mbps Channel 00 Report No.: BTL-FCCP-1-2107C155 Polarization Vertical REMARKS: (1) Measurement Value = Reading Level + Correct Factor. (2) Margin Level = Measurement Value - Limit Value. Page 37 of 86 Test Mode TX Mode_3Mbps Channel 00 Report No.: BTL-FCCP-1-2107C155 Polarization Horizontal REMARKS: (1) Measurement Value = Reading Level + Correct Factor. (2) Margin Level = Measurement Value - Limit Value. Page 38 of 86 Report No.: BTL-FCCP-1-2107C155 APPENDIX D - RADIATED EMISSION - ABOVE 1000 MHZ Page 39 of 86 Test Mode TX 2402 MHz _CH00_1Mbps Report No.: BTL-FCCP-1-2107C155 Polarization Vertical REMARKS: (1) Measurement Value = Reading Level + Correct Factor. (2) Margin Level = Measurement Value - Limit Value. Page 40 of 86 Test Mode TX 2402 MHz _CH00_1Mbps Report No.: BTL-FCCP-1-2107C155 Polarization Vertical REMARKS: (1) Measurement Value = Reading Level + Correct Factor. (2) Margin Level = Measurement Value - Limit Value. Page 41 of 86 Test Mode TX 2402 MHz _CH00_1Mbps Report No.: BTL-FCCP-1-2107C155 Polarization Horizontal REMARKS: (1) Measurement Value = Reading Level + Correct Factor. (2) Margin Level = Measurement Value - Limit Value. Page 42 of 86 Test Mode TX 2402 MHz _CH00_1Mbps Report No.: BTL-FCCP-1-2107C155 Polarization Horizontal REMARKS: (1) Measurement Value = Reading Level + Correct Factor. (2) Margin Level = Measurement Value - Limit Value. Page 43 of 86 Test Mode TX 2441 MHz _CH39_1Mbps Report No.: BTL-FCCP-1-2107C155 Polarization Vertical REMARKS: (1) Measurement Value = Reading Level + Correct Factor. (2) Margin Level = Measurement Value - Limit Value. Page 44 of 86 Test Mode TX 2441 MHz _CH39_1Mbps Report No.: BTL-FCCP-1-2107C155 Polarization Vertical REMARKS: (1) Measurement Value = Reading Level + Correct Factor. (2) Margin Level = Measurement Value - Limit Value. Page 45 of 86 Test Mode TX 2441 MHz _CH39_1Mbps Report No.: BTL-FCCP-1-2107C155 Polarization Horizontal REMARKS: (1) Measurement Value = Reading Level + Correct Factor. (2) Margin Level = Measurement Value - Limit Value. Page 46 of 86 Test Mode TX 2441 MHz _CH39_1Mbps Report No.: BTL-FCCP-1-2107C155 Polarization Horizontal REMARKS: (1) Measurement Value = Reading Level + Correct Factor. (2) Margin Level = Measurement Value - Limit Value. Page 47 of 86 Test Mode TX 2480 MHz _CH78_1Mbps Report No.: BTL-FCCP-1-2107C155 Polarization Vertical REMARKS: (1) Measurement Value = Reading Level + Correct Factor. (2) Margin Level = Measurement Value - Limit Value. Page 48 of 86 Test Mode TX 2480 MHz _CH78_1Mbps Report No.: BTL-FCCP-1-2107C155 Polarization Vertical REMARKS: (1) Measurement Value = Reading Level + Correct Factor. (2) Margin Level = Measurement Value - Limit Value. Page 49 of 86 Test Mode TX 2480 MHz _CH78_1Mbps Report No.: BTL-FCCP-1-2107C155 Polarization Horizontal REMARKS: (1) Measurement Value = Reading Level + Correct Factor. (2) Margin Level = Measurement Value - Limit Value. Page 50 of 86 Test Mode TX 2480 MHz _CH78_1Mbps Report No.: BTL-FCCP-1-2107C155 Polarization Horizontal REMARKS: (1) Measurement Value = Reading Level + Correct Factor. (2) Margin Level = Measurement Value - Limit Value. Page 51 of 86 Test Mode TX 2402 MHz _CH00_3Mbps Report No.: BTL-FCCP-1-2107C155 Polarization Vertical REMARKS: (1) Measurement Value = Reading Level + Correct Factor. (2) Margin Level = Measurement Value - Limit Value. Page 52 of 86 Test Mode TX 2402 MHz _CH00_3Mbps Report No.: BTL-FCCP-1-2107C155 Polarization Vertical REMARKS: (1) Measurement Value = Reading Level + Correct Factor. (2) Margin Level = Measurement Value - Limit Value. Page 53 of 86 Test Mode TX 2402 MHz _CH00_3Mbps Report No.: BTL-FCCP-1-2107C155 Polarization Horizontal REMARKS: (1) Measurement Value = Reading Level + Correct Factor. (2) Margin Level = Measurement Value - Limit Value. Page 54 of 86 Test Mode TX 2402 MHz _CH00_3Mbps Report No.: BTL-FCCP-1-2107C155 Polarization Horizontal REMARKS: (1) Measurement Value = Reading Level + Correct Factor. (2) Margin Level = Measurement Value - Limit Value. Page 55 of 86 Test Mode TX 2441 MHz _CH39_3Mbps Report No.: BTL-FCCP-1-2107C155 Polarization Vertical REMARKS: (1) Measurement Value = Reading Level + Correct Factor. (2) Margin Level = Measurement Value - Limit Value. Page 56 of 86 Test Mode TX 2441 MHz _CH39_3Mbps Report No.: BTL-FCCP-1-2107C155 Polarization Vertical REMARKS: (1) Measurement Value = Reading Level + Correct Factor. (2) Margin Level = Measurement Value - Limit Value. Page 57 of 86 Test Mode TX 2441 MHz _CH39_3Mbps Report No.: BTL-FCCP-1-2107C155 Polarization Horizontal REMARKS: (1) Measurement Value = Reading Level + Correct Factor. (2) Margin Level = Measurement Value - Limit Value. Page 58 of 86 Test Mode TX 2441 MHz _CH39_3Mbps Report No.: BTL-FCCP-1-2107C155 Polarization Horizontal REMARKS: (1) Measurement Value = Reading Level + Correct Factor. (2) Margin Level = Measurement Value - Limit Value. Page 59 of 86 Test Mode TX 2480 MHz _CH78_3Mbps Report No.: BTL-FCCP-1-2107C155 Polarization Vertical REMARKS: (1) Measurement Value = Reading Level + Correct Factor. (2) Margin Level = Measurement Value - Limit Value. Page 60 of 86 Test Mode TX 2480 MHz _CH78_3Mbps Report No.: BTL-FCCP-1-2107C155 Polarization Vertical REMARKS: (1) Measurement Value = Reading Level + Correct Factor. (2) Margin Level = Measurement Value - Limit Value. Page 61 of 86 Test Mode TX 2480 MHz _CH78_3Mbps Report No.: BTL-FCCP-1-2107C155 Polarization Horizontal REMARKS: (1) Measurement Value = Reading Level + Correct Factor. (2) Margin Level = Measurement Value - Limit Value. Page 62 of 86 Test Mode TX 2480 MHz _CH78_3Mbps Report No.: BTL-FCCP-1-2107C155 Polarization Horizontal REMARKS: (1) Measurement Value = Reading Level + Correct Factor. (2) Margin Level = Measurement Value - Limit Value. Page 63 of 86 Report No.: BTL-FCCP-1-2107C155 APPENDIX E - NUMBER OF HOPPING FREQUENCY Page 64 of 86 Test Mode: TX Mode_1Mbps Test Mode Number of Hopping Frequency Hopping Mode_1Mbps 79 Report No.: BTL-FCCP-1-2107C155 Limit 15 Test Result Pass Test Mode: TX Mode_3Mbps Test Mode Number of Hopping Frequency Hopping Mode_3Mbps 79 Limit 15 Test Result Pass Page 65 of 86 Report No.: BTL-FCCP-1-2107C155 APPENDIX F - AVERAGE TIME OF OCCUPANCY Page 66 of 86 Report No.: BTL-FCCP-1-2107C155 Test Mode Hopping Mode_1Mbps Data Packet DH1 DH3 DH5 DH1 DH3 DH5 DH1 DH3 DH5 Frequency (MHz) 2402 2402 2402 2441 2441 2441 2480 2480 2480 Pulse Duration (ms) 0.3950 1.6600 2.9200 0.3950 1.6600 2.9200 0.3950 1.6600 2.8800 Dwell Time (s) 0.1264 0.2656 0.3115 0.1264 0.2656 0.3115 0.1264 0.2656 0.3072 Test Mode: AFH Mode_1Mbps Data Packet DH1 DH3 DH5 DH1 DH3 DH5 DH1 DH3 DH5 Frequency (MHz) 2430 2430 2430 2439 2439 2439 2449 2449 2449 Pulse Duration (ms) 0.3950 1.6600 2.9200 0.3950 1.6600 2.9200 0.3950 1.6600 2.8800 Dwell Time (s) 0.0632 0.1328 0.1558 0.0632 0.1328 0.1558 0.0632 0.1328 0.1536 Limits (s) 0.4000 0.4000 0.4000 0.4000 0.4000 0.4000 0.4000 0.4000 0.4000 Limits (s) 0.4000 0.4000 0.4000 0.4000 0.4000 0.4000 0.4000 0.4000 0.4000 Test Result Pass Pass Pass Pass Pass Pass Pass Pass Pass Test Result Pass Pass Pass Pass Pass Pass Pass Pass Pass Page 67 of 86 CH00-DH1 CH39-DH1 Report No.: BTL-FCCP-1-2107C155 CH78-DH1 CH00-DH3 CH39-DH3 CH78-DH3 CH00-DH5 CH39-DH5 CH78-DH5 Page 68 of 86 Report No.: BTL-FCCP-1-2107C155 Test Mode Hopping Mode_3Mbps Data Packet 3DH1 3DH3 3DH5 3DH1 3DH3 3DH5 3DH1 3DH3 3DH5 Frequency (MHz) 2402 2402 2402 2441 2441 2441 2480 2480 2480 Pulse Duration (ms) 0.4000 1.6400 2.9200 0.4050 1.6600 2.8800 0.4000 1.6600 2.9200 Dwell Time (s) 0.1280 0.2624 0.3115 0.1296 0.2656 0.3072 0.1280 0.2656 0.3115 Limits (s) 0.4000 0.4000 0.4000 0.4000 0.4000 0.4000 0.4000 0.4000 0.4000 Test Result Pass Pass Pass Pass Pass Pass Pass Pass Pass Test Mode: AFH Mode_3Mbps Data Packet 3DH1 3DH3 3DH5 3DH1 3DH3 3DH5 3DH1 3DH3 3DH5 Frequency (MHz) 2430 2430 2430 2439 2439 2439 2449 2449 2449 Pulse Duration (ms) 0.3800 1.6200 2.8800 0.3800 1.6200 2.8800 0.3800 1.6400 2.8800 Dwell Time (s) 0.0640 0.1312 0.1558 0.0648 0.1328 0.1536 0.0640 0.1328 0.1558 Limits (s) 0.4000 0.4000 0.4000 0.4000 0.4000 0.4000 0.4000 0.4000 0.4000 Test Result Pass Pass Pass Pass Pass Pass Pass Pass Pass Page 69 of 86 CH00-3DH1 CH39-3DH1 Report No.: BTL-FCCP-1-2107C155 CH78-3DH1 CH00-3DH3 CH39-3DH3 CH78-3DH3 CH00-3DH5 CH39-3DH5 CH78-3DH5 Page 70 of 86 Report No.: BTL-FCCP-1-2107C155 APPENDIX G - HOPPING CHANNEL SEPARATION Page 71 of 86 Report No.: BTL-FCCP-1-2107C155 Test Mode Hopping Mode_1Mbps Channel 00 39 78 Frequency (MHz) 2402 2441 2480 Channel Separation (MHz) 1.002 1.003 1.008 CH00 CH39 2/3 of 20 dB Bandwidth (MHz) 0.572 0.569 0.611 Test Result Pass Pass Pass CH78 Test Mode Hopping Mode_3Mbps Channel 00 39 78 Frequency (MHz) 2402 2441 2480 Channel Separation (MHz) 0.996 1.008 1.006 CH00 CH39 2/3 of 20 dB Bandwidth (MHz) 0.838 0.841 0.843 Test Result Pass Pass Pass CH78 Page 72 of 86 Report No.: BTL-FCCP-1-2107C155 APPENDIX H - BANDWIDTH Page 73 of 86 Test Mode TX Mode _1Mbps Channel 00 39 78 Frequency (MHz) 2402 2441 2480 CH00 20 dB Bandwidth (MHz) 0.858 0.854 0.916 CH39 Report No.: BTL-FCCP-1-2107C155 99 % Occupied Bandwidth (MHz) 0.868 0.876 0.880 CH78 Test Mode TX Mode _3Mbps Channel 00 39 78 Frequency (MHz) 2402 2441 2480 CH00 20 dB Bandwidth (MHz) 1.257 1.261 1.265 CH39 99 % Occupied Bandwidth (MHz) 1.172 1.184 1.192 CH78 Page 74 of 86 Report No.: BTL-FCCP-1-2107C155 APPENDIX I - MAXIMUM OUTPUT POWER Page 75 of 86 Report No.: BTL-FCCP-1-2107C155 Test Mode TX Mode _1Mbps Channel 00 39 78 Frequency (MHz) 2402 2441 2480 Peak Output Power (dBm) 8.83 8.74 8.59 Max. Limit (dBm) 20.97 20.97 20.97 Channel 00 39 78 Frequency (MHz) 2402 2441 2480 Average Output Power (dBm) 8.77 8.67 8.50 Max. Limit (dBm) 20.97 20.97 20.97 CH00 CH39 Peak Output Power Max. Limit (W) 0.1250 0.1250 0.1250 Test Result Pass Pass Pass Max. Limit (W) 0.1250 0.1250 0.1250 Test Result Pass Pass Pass CH78 Average Output Power Page 76 of 86 Report No.: BTL-FCCP-1-2107C155 Test Mode TX Mode _2Mbps Channel 00 39 78 Frequency (MHz) 2402 2441 2480 Peak Output Power (dBm) 10.82 10.68 10.57 Max. Limit (dBm) 20.97 20.97 20.97 Channel 00 39 78 Frequency (MHz) 2402 2441 2480 Average Output Power (dBm) 9.00 9.02 8.87 Max. Limit (dBm) 20.97 20.97 20.97 CH00 CH39 Peak Output Power Max. Limit (W) 0.1250 0.1250 0.1250 Test Result Pass Pass Pass Max. Limit (W) 0.1250 0.1250 0.1250 Test Result Pass Pass Pass CH78 Average Output Power Page 77 of 86 Report No.: BTL-FCCP-1-2107C155 Test Mode TX Mode _3Mbps Channel 00 39 78 Frequency (MHz) 2402 2441 2480 Peak Output Power (dBm) 11.23 11.03 10.96 Max. Limit (dBm) 20.97 20.97 20.97 Channel 00 39 78 Frequency (MHz) 2402 2441 2480 Average Output Power (dBm) 8.99 8.95 8.91 Max. Limit (dBm) 20.97 20.97 20.97 CH00 CH39 Peak Output Power Max. Limit (W) 0.1250 0.1250 0.1250 Test Result Pass Pass Pass Max. Limit (W) 0.1250 0.1250 0.1250 Test Result Pass Pass Pass CH78 Average Output Power Page 78 of 86 Report No.: BTL-FCCP-1-2107C155 APPENDIX J - CONDUCTED SPURIOUS EMISSION Page 79 of 86 Test Mode TX Mode _1Mbps Bandedge CH00 (Lower) Report No.: BTL-FCCP-1-2107C155 Bandedge CH78 (Upper) Hopping on mode (Lower) Hopping on mode (Upper) Page 80 of 86 Report No.: BTL-FCCP-1-2107C155 CH00 10th Harmonic of the fundamental frequency CH39 10th Harmonic of the fundamental frequency CH78 10th Harmonic of the fundamental frequency Page 81 of 86 Test Mode TX Mode _3Mbps Bandedge CH00 (Lower) Report No.: BTL-FCCP-1-2107C155 Bandedge CH78 (Upper) Hopping on mode (Lower) Hopping on mode (Upper) Page 82 of 86 Report No.: BTL-FCCP-1-2107C155 CH00 10th Harmonic of the fundamental frequency CH39 10th Harmonic of the fundamental frequency CH78 10th Harmonic of the fundamental frequency Page 83 of 86 Report No.: BTL-FCCP-1-2107C155 APPENDIX K - DECLARATION FOR BLUETOOTH DEVICE Page 84 of 86 Report No.: BTL-FCCP-1-2107C155 1. Output power and channel separation of a Bluetooth device in the different operating modes: The different operating modes (data-mode, acquisition-mode) of a Bluetooth device has no influence on the output power and the channel spacing. There is only one transmitter which is driven by identical input parameters concerning these two parameters. Only a different hopping sequence will be used. For this reason the check of these RF parameters in one op-mode is sufficient. 2. Frequency range of a Bluetooth device: Hereby we declare that the maximum frequency of this device is: 2402 - 2480MHz. This is according to the Bluetooth Core Specification (+ critical errata) for devices which will be operated in the USA. This was checked during the Bluetooth Qualification tests (Test Case: TRM/CA/04-E). Other frequency ranges (e.g. for Spain, France, Japan) which are allowed according the Core Specification are not supported by this device. 3. Co-ordination of the hopping sequence in data mode to avoid simultaneous occupancy by multiple transmitters: Bluetooth units which want to communicate with other units must be organised in a structure called piconet. This piconet consist of max. 8 Bluetooth units. One unit is the master the other seven are the slaves. The master co-ordinates frequency occupation in this piconet for all units. As the master hop sequence is derived from its BD address which is unique for each Bluetooth device, additional masters intending to establish new piconets will always use different hop sequences. 4. Example of a hopping sequence in data mode: Example of a 79 hopping sequence in data mode: 40, 21, 44, 23, 42, 53, 46, 55, 48, 33, 52, 35, 50, 65, 54, 67, 56, 37, 60, 39, 58, 69, 62, 71, 64, 25, 68, 27, 66, 57, 70, 59, 72, 29, 76, 31, 74, 61, 78, 63, 01, 41, 05, 43, 03, 73, 07, 75, 09, 45, 13, 47, 11, 77, 15, 00, 64, 49, 66, 53, 68, 02, 70, 06, 01, 51, 03, 55, 05, 04 5. Equally average use of frequencies in data mode and behaviour for short transmissions: The generation of the hopping sequence in connection mode depends essentially on two input values: a) LAP/UAP of the master of the connection. b) Internal master clock. The LAP (lower address part) are the 24 LSB's of the 48 BD_ADDRESS. The BD_ADDRESS is an unambiguous number of every Bluetooth unit. The UAP (upper address part) are the 24 MSB's of the 48 BD_ADDRESS. The internal clock of a Bluetooth unit is derived from a free running clock which is never adjusted and is never turned off. For synchronisation with other units only offset are used. It has no relation to the time of the day. Its resolution is at least half the RX/TX slot length of 312.5 s. The clock has a cycle of about one day (23h30). In most case it is implemented as 28 bit counter. For the deriving of the hopping sequence the entire. LAP (24 bits), 4 LSB's (4 bits) (Input 1) and the 27 MSB's of the clock (Input 2) are used. With this input values different mathematical procedures (permutations, additions, XOR- operations) are performed to generate the sequence. This will be done at the beginning of every new transmission. Regarding short transmissions the Bluetooth system has the following behaviour: The first connection between the two devices is established, a hopping sequence was generated. For transmitting the wanted data the complete hopping sequence was not used. The connection ended. The second connection will be established. A new hopping sequence is generated. Due to the fact that the Bluetooth clock has a different value, because the period between the two transmission is longer (and it cannot be shorter) than the minimum resolution of the clock (312.5 s). The hopping sequence will always differ from the first one. Page 85 of 86 Report No.: BTL-FCCP-1-2107C155 6. Receiver input bandwidth and behaviour for repeated single or multiple packets: The input bandwidth of the receiver is 1 MHz. In every connection one Bluetooth device is the master and the other one is the slave. The master determines the hopping sequence (see chapter 5). The slave follows this sequence. Both devices shift between RX and TX time slot according to the clock of the master. Additionally the type of connection (e.g. single or multislot packet) is set up at the beginning of the connection. The master adapts its hopping frequency and its TX/RX timing according to the packet type of the connection. Also the slave of the connection will use these settings. Repeating of a packet has no influence on the hopping sequence. The hopping sequence generated by the master of the connection will be followed in any case. That means, a repeated packet will not be send on the same frequency, it is send on the next frequency of the hopping sequence. End of Test Report Page 86 of 86Adobe PDF Library 19.12.66