Test Report

FCC ID: GX9862

Test Report

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FCCID_3449819

FCC PART 15 SUBPART C TEST REPORT for PIR Motion Sensor Camera Model No.: VST-862xxx-xxxxx Series (x=0~9, A~Z or blank) FCC ID: GX9862 of Applicant:CLIMAX TECHNOLOGY CO., LTD. Address: No. 258, Sinhu 2nd Rd., Neihu District 114 Taipei City Taiwan (R.O.C.) Tested and Prepared by Worldwide Testing Services (Taiwan) Co., Ltd. FCC Registration No.: 930600 Industry Canada filed test laboratory Reg. No. IC 5679A-1, IC 5107A-1 A2LA Accredited No.: 2732.01 Report No.: W6M21704-16846-C-1 6F, NO. 58, LANE 188, RUEY-KUANG RD., NEIHU TAIPEI 114, TAIWAN, R.O.C. TEL: 886-2-66068877 FAX: 886-2-66068879 E-mail: wts@wts-lab.com

Registration number: W6M21704-16846-C-1 FCC ID: GX9862 TABLE OF CONTENTS 1 General Information ........................................................................................................................2 1.1 Notes ..........................................................................................................................................2 1.2 Testing laboratory .......................................................................................................................3 1.2.1 Location ..................................................................................................................................3 1.2.2 Details of accreditation status ................................................................................................3 1.3 Details of approval holder...........................................................................................................3 1.4 Application details ......................................................................................................................4 1.5 Test item .....................................................................................................................................4 1.6 Test standards .............................................................................................................................4 2 Technical test ..................................................................................................................................5 2.1 Summary of test results...............................................................................................................5 2.2 Test environment ........................................................................................................................5 2.3 Test Mode ...................................................................................................................................5 2.4 Test equipment utilized ...............................................................................................................6 2.5 General Test Procedure ...............................................................................................................8 3 Test results (enclosure) ...................................................................................................................9 3.1 Transmission Requirements ......................................................................................................10 3.1.1 Limit of Transmission Time ..................................................................................................10 3.1.2 Active Time ...........................................................................................................................10 3.2 Output Power (Field Strength) ..................................................................................................11 3.3 Out of Band Radiated Emissions ..............................................................................................13 3.4 Transmitter Radiated Emissions in restricted Bands ................................................................14 3.5 Spurious Emission radiated, Transmitter ..................................................................................15 3.6 Channel Bandwidth...................................................................................................................26 3.7 Antenna requirement.................................................................................................................27 3.8 Duty Cycle ................................................................................................................................28 3.9 Conducted Measurement at (AC) Power Line ..........................................................................29 Worldwide Testing Services(Taiwan) Co., Ltd. Page 1 of 29

Registration number: W6M21704-16846-C-1 FCC ID: GX9862 1 General Information 1.1 Notes The purpose of conformity testing is to increase the probability of adherence to the essential requirements or conformity specifications, as appropriate. The complexity of the technical specifications, however, means that full and thorough testing is impractical for both technical and economic reasons. Furthermore, there is no guarantee that a test sample which has passed all the relevant tests conforms to a specification. Neither is there any guarantee that such a test sample will interwork with other genuinely open systems. The existence of the tests nevertheless provides the confidence that the test sample possesses the qualities as maintained and that is performance generally conforms to representative cases of communications equipment. The test results of this test report relate exclusively to the item tested as specified in 1.5. The test report may only be reproduced or published in full. Reproduction or publication of extracts from the report requires the prior written approval of the Worldwide Testing Services(Taiwan) Co., Ltd. Tester: June 23, 2017 Kent Lin Date WTS-Lab. Name Signature Technical responsibility for area of testing: June 23, 2017 Kevin Wang Date WTS Name Signature Worldwide Testing Services(Taiwan) Co., Ltd. Page 2 of 29

Registration number: W6M21704-16846-C-1 FCC ID: GX9862 1.2 Testing laboratory 1.2.1 Location OATS No.5-1, Lishui, Shuang Sing Village, Wanli Dist., New Taipei City 207, Taiwan (R.O.C.) 3 meter semi-anechoic chamber No.35, Aly. 21, Ln. 228, Ankang Rd., Neihu Dist., Taipei City 114, Taiwan (R.O.C.) TEL:886-2-6613-0228 FAX:886-2-2791-5046 Company Worldwide Testing Services(Taiwan) Co., Ltd. 6F, NO. 58, LANE 188, RUEY-KUANG RD. NEIHU, TAIPEI 114, TAIWAN R.O.C. Tel : 886-2-66068877 Fax : 886-2-66068879 1.2.2 Details of accreditation status Accredited testing laboratory A2LA accredited number: 2732.01 FCC filed test laboratory Reg. No. 930600 Industry Canada filed test laboratory Reg. No. IC 5679A-1, IC 5107A-1 Test location, where different from Worldwide Testing Services (Taiwan) Co., Ltd. : Name: ./. Accredited number: ./. Street: ./. Town: ./. Country: ./. Telephone: ./. Fax: ./. 1.3 Details of approval holder Name: CLIMAX TECHNOLOGY CO., LTD. Street: No. 258, Sinhu 2nd Rd., Neihu District City: 114 Taipei City Country: Taiwan (R.O.C.) Telephone: +886-2-2794-0001 Fax: +886-2-2792-6618 Worldwide Testing Services(Taiwan) Co., Ltd. Page 3 of 29

Registration number: W6M21704-16846-C-1 FCC ID: GX9862 1.4 Application details Date of receipt of test item: May 4, 2017 Date of test: from May 5, 2017 to June 23, 2017 1.5 Test item Description of test item: PIR Motion Sensor Camera Type identification: VST-862xxx-xxxxx Series (x=0~9, A~Z or blank) Brand name: ./. Multi-listing model number: without Transmitting frequency: 433.82 MHz Operation mode: simplex Voltage supply: Battery: 3 Vd.c. (The device is tested under fresh battery condition.) Highest clock frequency: 433.82 MHz Antenna type: Monopole antenna Photos: see Annex Manufacturer (if applicable) Name: ./. Street: ./. Town: ./. Country: ./. Additional information: ./. 1.6 Test standards Technical standard : FCC RULES PART 15 SUBPART C § 15.231 (a) (2016-10) Worldwide Testing Services(Taiwan) Co., Ltd. Page 4 of 29

Registration number: W6M21704-16846-C-1 FCC ID: GX9862 2 Technical test 2.1 Summary of test results No deviations from the technical specification(s) were ascertained in the course  of the tests performed. or The deviations as specified in 3 were ascertained in the course of the tests  performed. 2.2 Test environment Temperature: 23 oC Relative humidity content: 20 ... 75 % Air pressure: 86 ... 103 kPa Test item Name Uncertainty Estimation Result of Uncertainty of Conducted Emission Expanded Uncertainty:0.74 dB Expanded Uncertainty: 0.009-30 MHz:2.17 dB Estimation Result of Uncertainty of Radiated Emission(3M) 30-1000 MHz:3.30 dB 1-18 GHz:2.28 dB 18-40 GHz:2.19 dB Estimation Result of Uncertainty of Bandwidth Measurement Expanded Uncertainty:0.45 kHz 20 dB Bandwidth, Occupied bandwidth, Channel bandwidth, Necessary Bandwidth Estimation Result of Uncertainty of Frequency Drift Measurement Frequency stability Expanded Uncertainty:6.09 Hz Estimation Result of Uncertainty of Band Edge Measurement Expanded Uncertainty:0.98 dBc 2.3 Test Mode This EUT is the portable device. So the EUT was tested on three different axes. Please see assessment test results as section 3 of this test report. Worldwide Testing Services(Taiwan) Co., Ltd. Page 5 of 29

Registration number: W6M21704-16846-C-1 FCC ID: GX9862 2.4 Test equipment utilized Next Cal. No. Test equipment Type Serial No. Manufacturer Cal. Date Date ETSTW-CE 001 EMI TEST RECEIVER ESHS10 842121/013 R&S 2017/5/19 2018/5/19 ETSTW-CE 003 AC POWER SOURCE APS-9102 D161137 GW Function Test HF-EICHLEITUNG RF ETSTW-CE 008 STEP ATTENUATOR 334.6010.02 844581/024 R&S Function Test 139dB DPSP TEMP.&HUMIDITY ETSTW-CE 009 GTH-225-40-1P-U MAA0305-009 GIANT FORCE 2016/7/15 2017/7/14 CHAMBER ETSTW-CE 016 TWO-LINE V-NETWORK ENV216 100050 R&S 2016/9/12 2017/9/11 ETSTW-CE 028 MXE EMI Receiver N9038A MY53220110 Agilent 2016/8/26 2017/8/25 ETSTW-RE 003 EMI TEST RECEIVER ESI 26 831438/001 R&S 2017/5/19 2018/5/18 ETSTW-RE 004 EMI TEST RECEIVER ESI 40 832427/004 R&S 2017/5/19 2018/5/18 ETSTW-RE 005 EMI TEST RECEIVER ESVS10 843207/020 R&S 2016/7/4 2017/7/3 TUNABLE BANDREJECT ETSTW-RE 012 D.C 0309 146 K&L Function Test FILTER TUNABLE BANDREJECT ETSTW-RE 013 D.C 0336 397 K&L Function Test FILTER MICROWAVE HORN ETSTW-RE 018 AT4560 27212 AR 2016/6/24 2017/6/23 ANTENNA ETSTW-RE 027 Passive Loop Antenna 6512 00034563 ETS-Lindgren 2016/6/29 2017/6/28 Double-Ridged Guide Horn ETSTW-RE 030 3117 00035224 ETS-Lindgren 2017/3/22 2018/3/21 Antenna ETSTW-RE 042 Biconical Antenna HK116 100172 R&S 2017/2/7 2018/2/6 Log-Periodic Dipole ETSTW-RE 043 HL223 100166 R&S 2017/4/10 2018/4/9 Antenna ETSTW-RE 044 Log-Periodic Antenna HL050 100094 R&S 2017/4/27 2018/4/26 ESA-E SERIES ETSTW-RE 045 E4404B MY45111242 Agilent Pre-test Use SPECTRUM ANALYZER ETSTW-RE 050 Attenuator 10dB 50HF-010-1 None JFW 2017/3/1 2018/2/28 ETSTW-RE 051 Attenuator 6dB 50HF-006-1 None JFW 2017/3/1 2018/2/28 ETSTW-RE 053 Attenuator 3dB 50HF-003-1 None JFW 2017/3/1 2018/2/28 ETSTW-RE 055 SPECTRUM ANALYZER FSU 26 200074 R&S 2017/3/1 2018/2/28 ETSTW-RE 060 Attenuator 30dB 5015-30 F651012z-01 ATM 2017/3/1 2018/2/28 ETSTW-RE 062 Amplifier Module CHC 2 None KMIC 2017/4/12 2018/4/11 ETSTW-RE 064 Bluetooth Test Set MT8852B-042 6K00005709 Anritsu Function Test Double-Ridged Guide Horn ETSTW-RE 069 3117 00069377 ETS-Lindgren Function Test Antenna ETSTW-RE 072 CELL SITE TEST SET 8921A 3339A00375 HP 2016/9/8 2017/9/7 SOLID STATE ETSTW-RE 088 KMA180265A01 99057 KMIC 2016/9/20 2017/9/19 AMPLIFIER ETSTW-RE 091 Match Pad MDCS1500 None WOKEN 2017/4/6 2018/4/5 ETSTW-RE 099 DC Block 50DB-007-1 None JFW 2017/3/1 2018/2/28 ETSTW-RE 112 AC POWER SOURCE TFC-1005 T-0A023536 T-Power Function test MICROWAVE ETSTW-RE 115 2.4GHz Notch Filter N0124411 473874 2017/1/12 2018/1/11 CIRCUITS ETSTW-RE 120 RF Player MP9200 MP9210-111022 ADIVIC Function test ETSTW-RE 122 SIGNAL GENERATOR SMF100A 102149 R&S 2017/5/19 2018/5/18 5NSL11- ETSTW-RE 125 5GHz Notch filter 1 K&L Microwave 2016/8/10 2017/8/9 5200/E221.3-O/O 5NSL12- ETSTW-RE 126 5GHz Notch filter 1 K&L Microwave 2016/8/10 2017/8/9 5800/E221.3-O/O ETSTW-RE 127 RF Switch Box RFS-01 None WTS 2017/3/1 2018/2/28 ETSTW-RE 128 5.3GHz Notch filter N0153001 SN487233 Microwave Circuits 2016/8/10 2017/8/9 Worldwide Testing Services(Taiwan) Co., Ltd. Page 6 of 29

Registration number: W6M21704-16846-C-1 FCC ID: GX9862 ETSTW-RE 129 5.5GHz Notch filter N0555984 SN487234 Microwave Circuits 2016/8/10 2017/8/9 Handheld RF Spectrum ETSTW-RE 130 N9340A CN0147000204 Agilent Pre-test Use Analyzer ETSTW-RE 142 Amplifier 8447D 2805A03378 Agilent 2017/4/12 2018/4/11 Humidity Temperature ETSTW-RE 143 TES-1260 110104623 TES 2016/8/19 2017/8/18 Meter ETSTW-RE 147 Bi-log Hybrid Antenna MCTD 2786B BLB16M04005 ETC 2017/3/22 2018/3/21 ETSTW-EMI 011 USB Compact Modulator SFC-U 101689 R&S 2017/5/10 2018/5/9 Universal Radio ETSTW-GSM 002 CMU 200 109439 R&S 2017/2/24 2018/2/23 Communication Tester Radio Communication ETSTW-GSM 003 MT8820C 6201342073 Anritsu 2017/2/10 2018/2/9 Analyzer Wideband Radio ETSTW-GSM 004 CMW500 128092 R&S 2016/12/15 2017/12/14 Communication Tester WRCTF824/849- ETSTW-GSM 019 Band Reject Filter 3 WI 2017/1/12 2018/1/11 822/851-40 /12+9SS WRCD1747/1748- ETSTW-GSM 020 Band Reject Filter 1 WI 2017/1/12 2018/1/11 1743/1752-32/5SS WRCD1879.5/1880.5 ETSTW-GSM 021 Band Reject Filter -1875.5/1884.5- 3 WI 2017/1/12 2018/1/11 32/5SS WRCT901.9/903.1- ETSTW-GSM 022 Band Reject Filter 1 WI 2017/1/12 2018/1/11 904.25-50/8SS ETSTW-GSM 023 Power Divider 4901.19.A None SUHNER 2016/9/14 2017/9/13 ETSTW-Cable 010 BNC Cable RGS-142 None THERMAX 2016/9/12 2017/9/11 ETSTW-Cable 011 SMA to N type Cable RGU-400 None THERMAX Pre-test Use NCR ETSTW-Cable 012 BNC Cable RGS-400 None THERMAX 2016/9/12 2017/9/11 ETSTW-Cable 016 BNC Cable Switch Box B Cable 1 Schwarz beck 2017/2/23 2018/2/22 ETSTW-Cable 017 BNC Cable X Cable B Cable 2 Schwarz beck 2017/2/23 2018/2/22 ETSTW-Cable 018 BNC Cable Y Cable B Cable 3 Schwarz beck 2017/2/23 2018/2/22 ETSTW-Cable 019 BNC Cable Z Cable B Cable 4 Schwarz beck 2017/2/23 2018/2/22 ETSTW-Cable 020 N TYPE Cable OATS Cable 1 N30N30-L335-15M JYE BAO CO.,LTD. 2017/4/21 2018/4/20 ETSTW-Cable 022 N TYPE Cable 5006 0002 JYE BAO CO.,LTD. 2017/4/6 2018/4/5 ETSTW-Cable 026 Microwave Cable SUCOFLEX 104 279075 HUBER+SUHNER 2017/3/1 2018/2/28 ETSTW-Cable 027 Microwave Cable SUCOFLEX 104 279083 HUBER+SUHNER 2017/5/3 2018/5/2 ETSTW-Cable 028 Microwave Cable FA147A0015M2020 30064-2 UTIFLEX 2016/9/20 2017/9/19 ETSTW-Cable 029 Microwave Cable FA147A0015M2020 30064-3 UTIFLEX 2016/9/20 2017/9/19 SUCOFLEX 104 ETSTW-Cable 030 Microwave Cable 279067 HUBER+SUHNER 2017/3/1 2018/2/28 (S_Cable 9) SUCOFLEX 104 ETSTW-Cable 031 Microwave Cable 238092 HUBER+SUHNER 2017/4/12 2018/4/11 (S_Cable 10) ETSTW-Cable 043 Microwave Cable SUCOFLEX 104 317576 HUBER+SUHNER 2017/4/12 2018/4/11 ETSTW-Cable 048 Microwave Cable SUCOFLEX 104 325519 HUBER+SUHNER 2017/4/12 2018/4/11 ETSTW-Cable 058 Microwave Cable SUCOFLEX 104 none HUBER+SUHNER 2017/2/20 2018/2/19 ETSTW-Cable 064 Microwave Cable SUCOFLEX 104 MY28891 HUBER+SUHNER 2017/4/12 2018/4/11 ETSTW-Cable 066 SMA type cable 32022 None ASTROLAB 2016/9/12 2017/9/11 EMCCFD400-NM- ETSTW-Cable 071 N TYPE CABLE 170239 EMCI 2017/2/20 2018/2/19 NM-25000 WTSTW-SW 002 EMI TEST SOFTWARE EZ_EMC None Farad Version ETS-03A1 WTSTW-SW 006 EMI TEST SOFTWARE e3 None AUDIX Version 9.161014 WTSTW-SW 008 Signal studio Agilent None AUDIX Version 2.0.0.1 Worldwide Testing Services(Taiwan) Co., Ltd. Page 7 of 29

Registration number: W6M21704-16846-C-1 FCC ID: GX9862 2.5 General Test Procedure POWER LINE CONDUCTED INTERFERENCE: The procedure used was ANSI STANDARD C63.10-2013 6.2 using a LISN (if necessary). Both lines were observed. The bandwidth of the spectrum analyzer was 10 kHz with an appropriate sweep speed. RADIATION INTERFERENCE: The test procedure used was ANSI STANDARD C63.10-2013 6.3 using a spectrum analyzer. The bandwidth of the spectrum analyzer was 100 kHz with an appropriate sweep speed. The analyzer was calibrated in dB above a microvolt at the output of the antenna. The resolution bandwidth was the 100 kHz and the video bandwidth was 300 kHz. FORMULA OF CONVERSION FACTORS: The Field Strength at 3m was established by adding the meter reading of the spectrum analyzer (which is set to read in units of dBµV) to the antenna correction factor supplied by the antenna manufacturer. The antenna correction factors are stated in terms of dB. Example: Freq (MHz) METER READING + ACF + CABLE LOSS (to the receiver) = FS 33 20 dBµV + 10.36 dB/m + 6 dB = 36.36 dBµV/m @3m ANSI STANDARD C63.10-2013 6.2.2 MEASUREMENT PROCEDURES: The EUT was placed on a table 80 cm high and with dimensions of 1m by 1.5m (non metallic table). The EUT was placed in the center of the table. The table used for radiated measurements is capable of continuous rotation. The spectrum was scanned from 30 MHz to 10th harmonic of the fundamental. Peak readings were taken in three (3) orthogonal planes and the highest readings. Measurements were made by Worldwide Testing Services(Taiwan) Co., Ltd. at the registered open field test site located at. The Registration Number: 930600 When an emission was found, the table was rotated to produce the maximum signal strength. At this point, the antenna was raised and lowered from 1m to 4m. The antenna was placed in both the horizontal and vertical planes. ANSI STANDARD C63.10-2013 B.2.7: Any measurements that utilize special test software shall be indicated and referenced in the test report. During testing, test software ’EZ EMC’ was used for setting up different operation modes. Worldwide Testing Services(Taiwan) Co., Ltd. Page 8 of 29

Registration number: W6M21704-16846-C-1 FCC ID: GX9862 3 Test results (enclosure)  1st test  test after modification  production test Required Test Test TEST CASE Para. Number passed failed Transmission Requirements FCC 15.231(a)    Radiated Emission FCC 15.231(b)    Bandwidth of Emission FCC 15.231(c)    Frequency Tolerance FCC 15.231(d)    Period Alternate Field Strength Requirements FCC 15.231(e)    Antenna Requirement FCC 15.203    Conducted Measurement at (AC) Power Line FCC 15.207    The following is intentionally left blank. Worldwide Testing Services(Taiwan) Co., Ltd. Page 9 of 29

Registration number: W6M21704-16846-C-1 FCC ID: GX9862 3.1 Transmission Requirements FCC 15.231(a) 3.1.1 Limit of Transmission Time  According to 15.231(a)(1), a manually operated transmitter shall employ a switch that will automatically deactivate the transmitter within not more than 5 seconds of being released.  According to 15.231(a)(2), a transmitter activated automatically shall cease transmission within 5 seconds after activation. 3.1.2 Active Time  This manually operated transmitter employs a switch that automatically deactivate the transmitter within 2.224849699 s of being released.  This transmitter is operated by automatic activation and active will cease transmission in ms after activation.. Test equipment used : ETSTW-RE 004 Worldwide Testing Services(Taiwan) Co., Ltd. Page 10 of 29

Registration number: W6M21704-16846-C-1 FCC ID: GX9862 3.2 Output Power (Field Strength) Worldwide Testing Services(Taiwan) Co., Ltd. Page 11 of 29

Registration number: W6M21704-16846-C-1 FCC ID: GX9862 Limit 15.231(b) Fundamental Frequency Field strength of fundamental, limit (MHz) µV/m 40.66 – 40.70 2,250 70 – 130 1,250 130 – 174 1,250 to 3,750 174 – 260 3,750 260 – 470 3,750 to 12,500** (433.82 MHz: 80.82 dBµV/m = 10,992 µV/m) Above 470 12,500 ** linear interpolation Test equipment used: ETSTW-RE 004, ETSTW-RE 062, ETSTW-RE 142, ETSTW-RE 147 Worldwide Testing Services(Taiwan) Co., Ltd. Page 12 of 29

Registration number: W6M21704-16846-C-1 FCC ID: GX9862 3.3 Out of Band Radiated Emissions FCC Rule: 15.231(b) , 15.35 For out of band emissions that are close to or that exceed the 20 dB attenuation requirement described in the specification, radiated measurements were performed at a 3 m separation distance to determine whether these emissions complied with the general radiated emission requirement. Guidance on Measurement of pulsed emission: 15.35(c) “the measurement field strength shall be determined by averaging over one complete pulse train, including blanking intervals, as long as the pulse train does not exceed 0.1 seconds. As an alternative (provided the transmitter operates for longer than 0.1 seconds) or in cases where the pulse train exceeds 0.1 seconds, the measured field strength shall be determined from the average absolute voltage during a 0.1 second interval during which the field strength is at its maximum value.” Duty Cycle correction = 20 log (dwell time/100ms or one period) Limits: For frequencies (Average measurements) Correction factor conform 15.35 (c) (Average measurements) Duty cycle correction : Max. Peak reading – duty cycle correction Max permitted average Limits = Max permitted Fundamental limit – 20 dB For example for 433.85 fundamental carrier: Max permitted average Limit: 80.8 dBµV/m - 20 dB= 60.8 dBµV/m For frequencies above 1GHz (Peak measurements). Modified Limits for peak conform 15.35 (b) = Max Permitted average Limits + 20dB (because Peak detector is used) Worldwide Testing Services(Taiwan) Co., Ltd. Page 13 of 29

Registration number: W6M21704-16846-C-1 FCC ID: GX9862 3.4 Transmitter Radiated Emissions in restricted Bands FCC Rules: 15.231 (b), 15.205, 15.209, 15.35 Radiated emission measurements were performed from 30 MHz to 8000 MHz. For radiated emission tests, the analyzer setting was as followings: RES BW VID BW Frequency <1 GHz 100 kHz 100 kHz (Peak measurements) Frequency >1 GHz 1 MHz 1 MHz (Peak measurements) 1 MHz 1 MHz (Average measurements) Limits: For frequencies below 1GHz : Frequency of Emission Field strength Field Strength (MHz) (microvolts/meter) (dB microvolts/meter) 30 – 88 100 40.0 88 – 216 150 43.5 216 – 960 200 46.0 Above 960 500 54.0 For frequencies above 1GHz (Average measurements). Guidance on Measurement of pulsed emission: “If the emission is pulsed, modify the unit for continues operation , use the settings shown above, then correct the reading by subtracting the peak-average correction factor, derived from the appropriate duty cycle calculation. For frequencies above 1GHz (Average measurements). The correction factor, based on the channel dwell tine in a 100 ms period, may be mathematically applied to a measurement made with an average detector, to further reduce the value. Duty cycle correction = 20 log (dwell time/100ms) No duty cycle correction was added to the reading Modified Limits for peak conform 15.35 (b) = Max Permitted average Limits + 20dB (because Peak detector is used) Above 960 MHz For mode DSSS CW: 54 dBµV/m + 20 dB = 74 dBµV/m Worldwide Testing Services(Taiwan) Co., Ltd. Page 14 of 29

Registration number: W6M21704-16846-C-1 FCC ID: GX9862 3.5 Spurious Emission radiated, Transmitter Spurious emission was measured with modulation (declared by manufacturer). The limits on the field strength of the spurious emission in the table § 15.231(b) are based on the fundamental frequency of the intentional radiator. Spurious emission shall be attenuated to the average (or alternatively, CISPR quasi-peak) limits shown in this table or to the general limits shown in § 15.209, whichever limit permits a higher field strength. In addition, radiated emission which fall in the restricted bands, as defined in § 15.205(a), must also comply with the radiated emission limits specified in § 15.209(a) (see § 15.205(c)). SAMPLE CALCULATION OF LIMIT. All results will be updated by an automatic measuring system in accordance to point 2.3. Calculation of test results: Such factors like antenna correction, cable loss, external attenuation etc. are already included in the provided measurement results. This is done by using validated test software and calibrated test system according the accreditation requirements. The peak and average spurious emission plots was measured with the average limits. In the Table being listed the critical peak and average value an exhibit the compliance with the above calculated Limits. Summary table with radiated data of the test plots Worldwide Testing Services(Taiwan) Co., Ltd. Page 15 of 29

Registration number: W6M21704-16846-C-1 FCC ID: GX9862 Worldwide Testing Services(Taiwan) Co., Ltd. Page 16 of 29

Registration number: W6M21704-16846-C-1 FCC ID: GX9862 Worldwide Testing Services(Taiwan) Co., Ltd. Page 17 of 29

Registration number: W6M21704-16846-C-1 FCC ID: GX9862 Worldwide Testing Services(Taiwan) Co., Ltd. Page 18 of 29

Registration number: W6M21704-16846-C-1 FCC ID: GX9862 Worldwide Testing Services(Taiwan) Co., Ltd. Page 19 of 29

Registration number: W6M21704-16846-C-1 FCC ID: GX9862 Worldwide Testing Services(Taiwan) Co., Ltd. Page 20 of 29

Registration number: W6M21704-16846-C-1 FCC ID: GX9862 Worldwide Testing Services(Taiwan) Co., Ltd. Page 21 of 29

Registration number: W6M21704-16846-C-1 FCC ID: GX9862 Worldwide Testing Services(Taiwan) Co., Ltd. Page 22 of 29

Registration number: W6M21704-16846-C-1 FCC ID: GX9862 Worldwide Testing Services(Taiwan) Co., Ltd. Page 23 of 29

Registration number: W6M21704-16846-C-1 FCC ID: GX9862 Worldwide Testing Services(Taiwan) Co., Ltd. Page 24 of 29

Registration number: W6M21704-16846-C-1 FCC ID: GX9862 Note 1. Correction Factor = Antenna factor + Cable loss - Preamplifier 2. The formula of measured value as: Test Result = Reading + Correction Factor 3. Detector function in the form : PK = Peak, QP = Quasi Peak, AV = Average 4. All not in the table noted test results are more than 20 dB below the relevant limits. 5. Measurement uncertainty for 3m measurement: 30-1000 MHz = ± 3.30 dB, 1-18 GHz = ± 2.28 dB, 18-40 GHz= ± 2.19 dB ; Reported uncertainties represent expanded uncertainties expressed at approximately the 95% confidence level using a coverage factor of k = 2. 6. Up Line: PK Limit Line, Down Line: Ave Limit Line. All other not noted test plots do not contain significant test results in relation to the limits Test results: The unit meet the FCC requirements. Test equipment used: ETSTW-RE 004, ETSTW-RE 030, ETSTW-RE 062, ETSTW-RE 142, ETSTW- RE 147 Worldwide Testing Services(Taiwan) Co., Ltd. Page 25 of 29

Registration number: W6M21704-16846-C-1 FCC ID: GX9862 3.6 Channel Bandwidth Measurement of Necessary Bandwidth (BN) Used frequency Bandwidth Limit 433.81 MHz 52.10420842 kHz 1.084525 MHz Explanation: The bandwidth fulfills the requirements of FCC § 15.231, Limits: The bandwidth of the emission shall be no wider than 0.25% of the center frequency for devices operating above 70 MHz and below 900 MHz. For devices operating above 900 MHz, the emission shall be no wider than 0.5% of the center frequency. Bandwidth is determined at the points 20 dB down from the modulated carrier. Test equipment used: ETSTW-RE 004 Worldwide Testing Services(Taiwan) Co., Ltd. Page 26 of 29

Registration number: W6M21704-16846-C-1 FCC ID: GX9862 3.7 Antenna requirement An intentional radiator shall be designed to ensure that no antenna other than that furnished by the responsible party shall be used with the device. The use of a permanently attached antenna or of an antenna that uses a unique coupling to the intentional radiator shall be considered sufficient to comply with the provisions of this Section. The manufacturer may design the unit so that a broken antenna can be replaced by the user, but the use of a standard antenna jack or electrical connector is prohibited. This requirement does not apply to carrier current devices or to devices operated under the provisions of Sections 15.211, 15.213, 15.217, 15.219, or 15.221. Further, this requirement does not apply to intentional radiators that must be professionally installed, such as perimeter protection systems and some field disturbance sensors, or to other intentional radiators which, in accordance with Section 15.31(d), must be measured at the installation site. However, the installer shall be responsible for ensuring that the proper antenna is employed so that the limits in this Part are not exceeded. Explanation: This Monopole antenna is integral antenna which passes antenna requirement. The equipment meets the yes no requirements   Worldwide Testing Services(Taiwan) Co., Ltd. Page 27 of 29

Registration number: W6M21704-16846-C-1 FCC ID: GX9862 3.8 Duty Cycle The correction factor, based on the channel dwell time in a 100ms period, may be mathematically applied to a measurement made with an average detector, to further reduce the measured value. Average Reading = Peak Reading (dBuV/m) + Duty Cycle Correction Duty Cycle Correction = 20 log (Cycle) In order to determine the Duty Cycle, the EUT is measured as: T period T on Duty Cycle Correction Testing Mode Duty Cycle (ms) (ms) 20*log(Duty Cycle) Transmitting 100 36.07214 0.361 -8.86 mode Test equipment used: ETSTW-RE 055, ETSTW-RE 004 Worldwide Testing Services(Taiwan) Co., Ltd. Page 28 of 29

Registration number: W6M21704-16846-C-1 FCC ID: GX9862 3.9 Conducted Measurement at (AC) Power Line For an intentional radiator which is designed to be connected to the public utility (AC) power line, the radio frequency voltage that is conducted back onto the AC line on any frequency or frequencies within the band 150 kHz to 30 MHz shall not exceed the limits in the table bellows with this provision shall be based on the measurement of the radio frequency voltage between each power line and ground at the power terminals. This measurement was transact first with instrumentation using an average and peak detector and a 10 kHz bandwidth. If the peak detector achieves a calculated level, the measurement is repeated by an instrumentation using a quasi-peak detector. Level Frequency quasi-peak (dBµV/m) average (dBµV/m) -- kHz -- -- Note 1. The formula of measured value as: Test Result = Reading + Correction Factor 2. The Correction Factor = Cable Loss + LISN Insertion Loss + Pulse Limit Loss 3. Detector function in the form : PK = Peak, QP = Quasi Peak, AV = Average 4. All not in the table noted test results are more than 20 dB below the relevant limits. 5. Measurement uncertainty = ±0.74 dB; Reported uncertainties represent expanded uncertainties expressed at approximately the 95% confidence level using a coverage factor of k = 2. 6. Up Line: QP Limit Line, Down Line: Ave Limit Line. 7. This test is not required because the EUT is battery-used. Limits: Frequency of Emission (MHz) Conducted Limit (dBuV) Quasi Peak Average 0.15-0.5 66 to 56 56 to 46 0.5-5 56 46 5-30 60 50 Test equipment used: ETSTW-CE 001, ETSTW-CE 016, ETSTW-CE 028. Worldwide Testing Services(Taiwan) Co., Ltd. Page 29 of 29


Document Created: 2017-06-27 09:56:12
Document Modified: 2017-06-27 09:56:12
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