FCC Part 90 Rules Test Report

Size: px
Start display at page:

Download "FCC Part 90 Rules Test Report"

Transcription

1 Page 1 of 147 FCC Part 90 Rules Test Report FCC ID : POD-DMR2 PRODUCT DESIGNATION : DMR Digital Transceiver BRAND NAME : TYT MODEL NAME : MD-2017, MD-760 CLIENT : TYT ELECTRONICS CO., LTD DATE OF ISSUE : May, 10,2017 STANDARD(S) : REPORT VERSION : V 1.0 FCC Part 90 Rules FCC Part 22 Rules Attestation of Global Compliance (Shenzhen) Co., Ltd CAUTION: This report shall not be reproduced except in full without the written permission of the test laboratory and shall not be quoted out of context.

2 Page 2 of 147 Report Revise Record Report Version Revise Time Issued Date Valid Version Notes V1.0 / May. 10,2017 Valid Original Report

3 VERIFICATION OF COMPLIANCE Applicant: Manufacturer: Product Designation: TYT ELECTRONICS CO., LTD Page 3 of 147 Block 39-1, Optoelectronics-information industry base, Nan an, Quanzhou, Fujian, China TYT ELECTRONICS CO., LTD Block 39-1, Optoelectronics-information industry base, Nan an, Quanzhou, Fujian, China DMR Digital Transceiver Brand Name: Test Model Series Model TYT MD-2017 MD-760 Difference description All the same except for the model name. Date of Test: May.02, 2017 to May.10, 2017 WE HEREBY CERTIFY THAT: The above equipment was tested by Dongguan Precise Testing Service Co., Ltd. The data evaluation, test procedures, and equipment configurations shown in this report were made in accordance with the procedures given in TIA/EIA 603. The sample tested as described in this report is in compliance with the FCC Rules Part 90 and FCC Rules Part 22 requirements The test results of this report relate only to the tested sample identified in this report. Tested by Steven Zhou(Zhou Pengyun) May,10, 2017 Reviewed by Bart Xie(Xie Xiaobin) May,10, 2017 Approved by Solger Zhang(Zhang Hongyi) Authorized Officer May,10, 2017

4 Page 4 of 147 TABLE OF CONTENTS 1. GENERAL INFORMATION PRODUCT DESCRIPTION RELATED SUBMITTAL(S) / GRANT (S) TEST METHODOLOGY TEST FACILITY SPECIAL ACCESSORIES EQUIPMENT MODIFICATIONS SYSTEM TEST CONFIGURATION EUT CONFIGURATION EUT EXERCISE GENERAL TECHNICAL REQUIREMENTS CONFIGURATION OF TESTED SYSTEM SUMMARY OF TEST RESULTS DESCRIPTION OF TEST MODES FREQUENCY TOLERANCE PROVISIONS APPLICABLE MEASUREMENT PROCEDURE TEST SETUP BLOCK DIAGRAM TEST RESULT EMISSION BANDWIDTH PROVISIONS APPLICABLE MEASUREMENT PROCEDURE TEST SETUP BLOCK DIAGRAM MEASUREMENT RESULT UNWANTED RADIATION PROVISIONS APPLICABLE MEASUREMENT PROCEDURE TEST SETUP BLOCK DIAGRAM MEASUREMENT RESULTS: EMISSION MASK PLOT MODULATION CHARACTERISTICS PROVISIONS APPLICABLE MEASUREMENT METHOD MEASUREMENT RESULT... 87

5 Page 5 of MAXIMUMN TRANSMITTER POWER (CONDUCTED OUTPUT POWER) PROVISIONS APPLICABLE TEST PROCEDURE TEST CONFIGURATION TEST RESULT CONDUCT SPURIOUS PLOT RANSMITTER FREQUENCY BEHAVIOR PROVISIONS APPLICABLE TEST METHOD DESCRIBE LIMIT LINE OF RANSMITTER FREQUENCY BEHAVIOR MEASURE RESULT AUDIO LOW PASS FILTER RESPONSE LIMITS METHOD OF MEASUREMENTS TEST DATA APPENDIX I: PHOTOGRAPHS OF SETUP APPENDIX II: EXTERNAL VIEW OF EUT

6 1. GENERAL INFORMATION Page 6 of PRODUCT DESCRIPTION The EUT is a DIGITAL/ANALOG RADIO designed for voice/data communication. It is designed by way of utilizing the FM/4FSK modulation achieves the system operating. A major technical description of EUT is described as following: Communication Type Voice / Data Hardware Version V3.0 Software Version D03.16 Modulation Emission Type Emission Bandwidth Peak Frequency Deviation FM/4FSK 11K0F3E, 7K60FXD, 7K60FXW Analog:10.20KHz(5W),10.20KHz(1W) ---VHF Digital: 9.798KHz(5W), KHz(1W) ---VHF Analog:10.20KHz(5W),10.20KHz(1W) ---UHF Digital:9.175KHz(5W), 9.782KHz(1W) ---UHF 1.99KHz Audio Frequency Response db Maximum Transmitter Power Output power Modification Data Rate Antenna Designation Antenna Gain Power Supply Adapter Parameter Limiting Voltage Operation Frequency Range and Channel Analog:36.93 dbm(5w), 29.92dBm (1W) ---VHF Digital: dbm(5w), 29.93dBm (1W) ---VHF Analog:36.91 dbm(5w), 29.93dBm (1W) ---UHF Digital: dbm(5w), 29.91dBm (1W) ---UHF UHF/VHF:1W/5W (It was fixed by the manufacturer, any individual can t arbitrarily change it.) 9600bps/12.5KHz(Channel Spacing) Detachable 1.2 dbi DC 7.4V, 2200mAh (by battery) INPUT:AC 110V-250V, 50/60Hz, 0.2A OUTPUT:DC 12.5V, 0.5A DC 6V-8.51V Frequency Range: 136 MHz to 174 MHz (VHF) 400 MHz to 480 MHz (UHF) Channel Separation: 12.5KHz (Analog), 12.5KHz(Digital) Bottom Channel: MHz Bottom Channel: MHz Middle Channel:151.85MHz Middle Channel: MHz Middle Channel: MHz Middle Channel: MHz Middle Channel:161.61MHz Top Channel: MHz Top Channel: MHz

7 Frequency Tolerance 1.122ppm Page 7 of 147 Frequency Range Rated Transmit Transmit Mode/Emission Designator (MHz) Power(W)(Conducted) W/5W 11K0F3E(Analog Vioce;NB) W/5W 7K60FXD/7K60FXW(9600Data/Digital Voice NB ) Frequency Range Rated Transmit Transmit Mode/Emission Designator (MHz) Power(W)(Conducted) /5 11K0F3E(Analog Vioce;NB) /5 7K60FXD/7K60FXW(9600Data/Digital Voice NB ) Channel No. (6.25KHz) Channel No. (12.5KHz) 12.5KHz Channel Spaced 400MHz Band Plan(MHz) Channel No. (6.25KHz) Channel No. (12.5KHz) 12.5KHz Channel Spaced 400MHz Band Plan(MHz) FCC Rules and Regulations Part 2.202: Necessary Bandwidth and Emission Bandwidth Voice FM Analog (12.5KHz) Calculation: Max modulation (M) in khz : 3.0 Max deviation(d) in khz:2.5 Constant factor (K): 1(assumed)

8 Bn= 2XM +2XDK=11.0 KHz Emission designator: 11K0F3E Page 8 of Digital Vioce/date (12.5KHz) Calculation: Data rate in bps(r)=9600 Deviation Peak deviation of carrier(d)= Constant factor (K): 1 (default) Bn= 3.86D+1.27RK= 3.86( )+0.27(9600)(1)=11.7KHz Emission designator: 11K0FXD

9 1.2 RELATED SUBMITTAL(S) / GRANT (S) Page 9 of 147 This submittal(s) (test report) is intended for FCC ID: POD-DMR2, filing to comply with Part 2, Part 22, and Part 90 of the Federal Communication Commission rules. 1.3 TEST METHODOLOGY The radiated emission testing was performed according to the procedures of TIA/EIA 603 and FCC CFR 47 Rules of , , , , , , TEST FACILITY Site Location Description FCC Registration No Dongguan Precise Testing Service Co., Ltd. Building D, Baoding Technology Park,Guangming Road2, Dongcheng District, Dongguan, Guangdong, China. The test site is constructed and calibrated to meet the FCC requirements in documents TIA/EIA SPECIAL ACCESSORIES Not available for this EUT intended for grant. 1.6 EQUIPMENT MODIFICATIONS Not available for this EUT intended for grant.

10 2. SYSTEM TEST CONFIGURATION Page 10 of EUT CONFIGURATION The EUT configuration for testing is installed on RF field strength measurement to meet the Commission s requirement and operating in a manner which intends to maximize its emission characteristics in a continuous normal application. 2.2 EUT EXERCISE The Transmitter was operated in the normal operating mode. The TX frequency was fixed which was for the purpose of the measurements. 2.3 GENERAL TECHNICAL REQUIREMENTS For FCC Part 90& Part 22 requirements: (1). Section &22.565: RF Output Power (2). Section : Modulation Characteristic (3). Section &22.359: Occupied Bandwidth (4). Section &22.359: Emission Mask (5). Section &22.355: Frequency Tolerance (6). Section : Transient Frequency Behavior

11 2.4 CONFIGURATION OF TESTED SYSTEM Page 11 of 147 Fig. 2-1 Configuration of Tested System EUT Table 2-1 Equipment Used in Tested System Item Equipment Model No. Identifier Note 1 DMR Digital Transceiver MD-2017 FCC ID: POD-DMR2 EUT 3. SUMMARY OF TEST RESULTS FCC Rules Description Of Test & Maximum Transmitter Power Compliant Modulation Characteristic Compliant & Occupied Bandwidth Compliant & Emission Mask Compliant & Frequency Tolerance Compliant Transient Frequency Behavior Compliant

12 LIST OF EQUIPMENTS USED Page 12 of 147 NAME OF EQUIPMENT MANUFACTURER MODEL SERIAL NO. Cal. Date Cal. Due CLIMATE CHAMBER EXPERY TN-400 TN2007SR ATTENUATOR WEINSCHEL CORP ML DC POWER SUPPLY ZHAOXIN RXN-605D N/A MODULATION ANALYZER HP 8920B 3104A SIGNAL GENERATOR AGILENT E4421B SIGNAL GENERATOR R&S SMT03 A EMI Test Receiver Rohde & Schwarz ESCI Trilog Broadband Antenna SCHWARZBECK VULB Substitution Antenna SCHWARZBECK VULB Signal Amplifier SCHWARZBECK BBV RF Cable SCHWARZBECK AK9515E m Anechoic Chamber CHENGYU 966 PTS MULTI-DEVICE Positioning Controller Active loop antenna (9K-30MHz) Max-Full MF-7802 MF N/A N/A Schwarzbeck FMZB Spectrum analyzer Agilent E4407B MY Double-Ridged Waveguide Horn ETS LINDGREN Substitution ANTENNA EM EM-AH Modulation Domain Analyzer HP 53310A 3121A EMI Test Receiver Rohde & Schwarz ESCI RF Cable SCHWARZBECK AK9515E Shielded Room CHENGYU 843 PTS Note: 8920B can generate audio modulation frequency.

13 4. DESCRIPTION OF TEST MODES RF TEST MODES Page 13 of 147 The EUT (DMR Digital Transceiver) has been tested under normal operating condition. (The top channel, the middle channel and the bottom channel) are chosen for testing at each channel separation. Analog: No. TEST MODES CHANNEL SEPARATION 1 Low Channel 12.5 KHz 2 Middle Channel 12.5 KHz 3 High Channel 12.5 KHz Digital: No. TEST MODES CHANNEL SEPARATION 1 Low Channel 12.5 KHz 2 Middle Channel 12.5 KHz 3 High Channel 12.5 KHz Note: Only the result of the worst case was recorded in the report.

14 5. FREQUENCY TOLERANCE Page 14 of PROVISIONS APPLICABLE a). According to FCC , and , the frequency stability shall be measured with variation of ambient temperature from 30 to +50 centigrade. b). According to FCC Part 2 Section (d)(2), for battery powered equipment, the frequency stability shall be measured with reducing primary supply voltage to the battery operating end point, which is specified by the manufacturer. c). According to FCC Part 90 Section , the frequency tolerance must be maintained within % for 12.5 KHz channel separation and % for 6.25 KHz channel separation. 5.2 MEASUREMENT PROCEDURE Frequency stability versus environmental temperature 1. Setup the configuration per figure 1 for frequencies measurement inside an environment chamber, Install new battery in the EUT. 2. Turn on EUT and set SA center frequency to the EUT radiated frequency. Set SA Resolution Bandwidth to 1KHz and Video Resolution Bandwidth to 1KHz and Frequency Span to 50KHz.Record this frequency as reference frequency. 3. Set the temperature of chamber to 50. Allow sufficient time (approximately 30 min) for the temperature of the chamber to stabilize. While maintaining a constant temperature inside the chamber, turn the EUT on and measure the EUT operating frequency. 4. Repeat step 2 with a 10 decreased per stage until the lowest temperature -30 is measured, record all measured frequencies on each temperature step Frequency stability versus input voltage 1. Setup the configuration per figure 1 for frequencies measured at temperature if it is within 15 to 25. Otherwise, an environment chamber set for a temperature of 20 shall be used. The EUT shall be powered by DC 7.4V. 2. Set SA center frequency to the EUT radiated frequency. Set SA Resolution Bandwidth to 1 KHz and Video Resolution Bandwidth to 1KHz. Record this frequency as reference frequency. 3. Supply the EUT primary voltage at the operating end point which is specified by manufacturer and record the frequency.

15 5.3 TEST SETUP BLOCK DIAGRAM Page 15 of 147 Temperature Chamber Spectrum analyzer Or Receiver RF Attenuator EUT Variable DC power supply Figure 1

16 5.3 TEST RESULT Page 16 of 147 VHF-Analog: (1) Frequency stability versus input voltage (Supply nominal voltage is 7.40V)-5W Environment Power Reference Frequency Limit: Temperature( ) (V) MHz MHz MHz ppm 50 DC DC DC DC DC DC DC DC DC Pass Environment Power Reference Frequency Limit: Temperature( ) (V) MHz MHz ppm 50 DC 7.40 V DC 7.40 V DC 7.40 V DC 7.40 V DC 7.40 V DC 7.40 V DC 7.40 V DC 7.40 V DC 7.40 V Pass (2) Frequency stability versus input voltage (Battery limiting voltage is 6.29V) -5W Environment Power Reference Frequency Limit: Temperature( ) (V) MHz MHz MHz ppm 50 DC DC DC DC DC 6.29 V DC 6.29 V DC 6.29 V DC V DC V V Pass

17 Page 17 of 147 Environment Power Reference Frequency Limit: Temperature( ) (V) MHz MHz ppm 50 DC DC DC DC DC DC DC DC DC Pass (3) Frequency stability versus input voltage (Battery Fully Charged voltage is 8.51V) -5W Environment Power Reference Frequency Limit: Temperature( ) (V) MHz MHz MHz ppm 50 DC DC DC DC DC DC DC DC DC Pass Environment Power Reference Frequency Limit: Temperature( ) (V) MHz MHz ppm 50 DC DC DC DC DC 8.51 V DC 8.51 V DC 8.51 V DC DC V V DC 8.51 V V Pass 5

18 (4) Frequency stability versus input voltage (Battery endpoint is 6V) -5W Page 18 of 147 Environment Power Reference Frequency Limit: Temperature( ) (V) MHz MHz MHz ppm 50 DC DC DC DC DC DC DC DC DC Pass Environment Power Reference Frequency Limit: Temperature( ) (V) MHz MHz ppm 50 DC 6.00 V DC 6.00 V DC 6.00 V DC 6.00 V DC 6.00 V DC 6.00 V DC 6.00 V DC 6.00 V DC 6.00 V Pass

19 Page 19 of 147 (1) Frequency stability versus input voltage (Supply nominal voltage is 7.40V)-1W Environment Power Reference Frequency Limit: Temperature( ) (V) MHz MHz MHz ppm 50 DC DC DC DC DC DC DC DC DC Pass Environment Power Reference Frequency Limit: Temperature( ) (V) MHz MHz ppm 50 DC 7.40 V DC 7.40 V DC 7.40 V DC 7.40 V DC 7.40 V DC 7.40 V DC 7.40 V DC 7.40 V DC 7.40 V Pass (2) Frequency stability versus input voltage (Battery limiting voltage is 6.29V) -1W Environment Power Reference Frequency Limit: Temperature( ) (V) MHz MHz MHz ppm 50 DC DC DC DC DC 6.29 V DC 6.29 V DC 6.29 V DC V DC V V Pass

20 Page 20 of 147 Environment Power Reference Frequency Limit: Temperature( ) (V) MHz MHz ppm 50 DC DC DC DC DC DC DC DC DC Pass (3) Frequency stability versus input voltage (Battery Fully Charged voltage is 8.51V) -1W Environment Power Reference Frequency Limit: Temperature( ) (V) MHz MHz MHz ppm 50 DC DC DC DC DC DC DC DC DC Pass Environment Power Reference Frequency Limit: Temperature( ) (V) MHz MHz ppm 50 DC DC DC DC DC 8.51 V DC 8.51 V DC 8.51 V DC DC V V DC 8.51 V V Pass

21 (4) Frequency stability versus input voltage (Battery endpoint is 6V) -1W Page 21 of 147 Environment Power Reference Frequency Limit: Temperature( ) (V) MHz MHz MHz ppm 50 DC DC DC DC DC DC DC DC DC Pass Environment Power Reference Frequency Limit: Temperature( ) (V) MHz MHz ppm 50 DC 6.00 V DC 6.00 V DC 6.00 V DC 6.00 V DC 6.00 V DC 6.00 V DC 6.00 V DC 6.00 V DC 6.00 V Pass

22 Digital: (1) Frequency stability versus input voltage (Supply nominal voltage is 7.40V)-5W Page 22 of 147 Environment Power Reference Frequency Limit: Temperature( ) (V) MHz MHz MHz ppm 50 DC DC DC DC DC DC DC DC DC Pass Environment Power Reference Frequency Limit: Temperature( ) (V) MHz MHz ppm 50 DC 7.40 V DC 7.40 V DC 7.40 V DC 7.40 V DC 7.40 V DC 7.40 V DC 7.40 V DC 7.40 V DC 7.40 V Pass (2) Frequency stability versus input voltage (Battery limiting voltage is 6.29V) -5W Environment Power Reference Frequency Limit: Temperature( ) (V) MHz MHz MHz ppm 50 DC DC DC DC DC 6.29 V DC 6.29 V DC 6.29 V DC V DC V V Pass

23 Page 23 of 147 Environment Power Reference Frequency Limit: Temperature( ) (V) MHz MHz ppm 50 DC DC DC DC DC DC DC DC DC Pass (3) Frequency stability versus input voltage (Battery Fully Charged voltage is 8.51V) -5W Environment Power Reference Frequency Limit: Temperature( ) (V) MHz MHz MHz ppm 50 DC DC DC DC DC DC DC DC DC Pass Environment Power Reference Frequency Limit: Temperature( ) (V) MHz MHz ppm 50 DC DC DC DC DC 8.51 V DC 8.51 V DC 8.51 V DC DC V V DC 8.51 V V Pass

24 (4) Frequency stability versus input voltage(battery endpoint is 6V) -5W Page 24 of 147 Environment Power Reference Frequency Limit: Temperature( ) (V) MHz MHz MHz ppm 50 DC DC DC DC DC DC DC DC DC Pass Environment Power Reference Frequency Limit: Temperature( ) (V) MHz MHz ppm 50 DC DC DC DC DC DC DC DC DC Pass (1) Frequency stability versus input voltage (Supply nominal voltage is 7.40V)-1W Environment Power Reference Frequency Limit: Temperature( ) (V) MHz MHz MHz ppm 50 DC DC DC DC DC V DC V DC V DC V DC V V Pass

25 Page 25 of 147 Environment Power Reference Frequency Limit: Temperature( ) (V) MHz MHz ppm 50 DC 7.40 V DC 7.40 V DC 7.40 V DC 7.40 V DC 7.40 V DC 7.40 V DC 7.40 V DC 7.40 V DC 7.40 V Pass (2) Frequency stability versus input voltage (Battery limiting voltage is 6.29V) -1W Environment Power Reference Frequency Limit: Temperature( ) (V) MHz MHz MHz ppm 50 DC DC DC DC DC DC DC DC DC Pass Environment Power Reference Frequency Limit: Temperature( ) (V) MHz MHz ppm 50 DC DC DC DC DC 6.29 V DC 6.29 V DC 6.29 V DC DC V V DC V V Pass

26 Page 26 of 147 (3) Frequency stability versus input voltage (Battery Fully Charged voltage is 8.51V) -1W Environment Power Reference Frequency Limit: Temperature( ) (V) MHz MHz MHz ppm 50 DC DC DC DC DC DC DC DC DC Pass Environment Power Reference Frequency Limit: Temperature( ) (V) MHz MHz ppm 50 DC DC DC DC DC DC DC DC DC Pass (4) Frequency stability versus input voltage (Battery endpoint is 6V) -1W Environment Power Reference Frequency Limit: Temperature( ) (V) MHz MHz MHz ppm 50 DC DC DC DC V DC V DC DC DC V DC V V Pass

27 Page 27 of 147 Environment Power Reference Frequency Limit: Temperature( ) (V) MHz MHz ppm 50 DC DC DC DC DC DC DC DC DC Pass

28 UHF: Analog: (1) Frequency stability versus input voltage (Supply nominal voltage is 7.40V)-5W Page 28 of 147 Environment Power Reference Frequency Limit: Temperature( ) (V) MHz MHz MHz ppm 50 DC DC DC DC DC DC DC DC DC Pass (2) Frequency stability versus input voltage (Battery limiting voltage is 6.29V) -5W Environment Power Reference Frequency Limit: Temperature( ) (V) MHz MHz MHz ppm 50 DC DC DC DC DC DC DC DC DC Pass (3) Frequency stability versus input voltage (Battery Fully Charged voltage is 8.51V) -5W Environment Power Reference Frequency Limit: Temperature( ) (V) MHz MHz MHz ppm 50 DC DC DC DC 8.51 V DC 8.51 V DC 8.51 V DC 8.51 V DC V DC 8.51 V V Pass

29 Page 29 of 147 (4) Frequency stability versus input voltage (Battery endpoint is 6V) -5W Environment Power Reference Frequency Limit: Temperature( ) (V) MHz MHz MHz ppm 50 DC DC DC DC DC DC DC DC DC Pass

30 Page 30 of 147 (1) Frequency stability versus input voltage (Supply nominal voltage is 7.40V)-1W Environment Power Reference Frequency Limit: Temperature( ) (V) MHz MHz MHz ppm 50 DC DC DC DC DC DC DC DC DC Pass (2) Frequency stability versus input voltage (Battery limiting voltage is 6.29V) -1W Environment Power Reference Frequency Limit: Temperature( ) (V) MHz MHz MHz ppm 50 DC DC DC DC DC DC DC DC DC Pass (3) Frequency stability versus input voltage (Battery Fully Charged voltage is 8.51V) -1W Environment Power Reference Frequency Limit: Temperature( ) (V) MHz MHz MHz ppm 50 DC DC DC DC 8.51 V DC 8.51 V DC 8.51 V DC 8.51 V DC V DC 8.51 V V Pass

31 Page 31 of 147 (4) Frequency stability versus input voltage (Battery endpoint is 6V) -1W Environment Power Reference Frequency Limit: Temperature( ) (V) MHz MHz MHz ppm 50 DC DC DC DC DC DC DC DC DC Pass

32 Digital: (1) Frequency stability versus input voltage (Supply nominal voltage is 7.40V)-5W Page 32 of 147 Environment Power Reference Frequency Limit: Temperature( ) (V) MHz MHz MHz ppm 50 DC DC DC DC DC DC DC DC DC Pass (2) Frequency stability versus input voltage (Battery limiting voltage is 6.29V) -5W Environment Power Reference Frequency Limit: Temperature( ) (V) MHz MHz MHz ppm 50 DC DC DC DC DC DC DC DC DC Pass 5 (3) Frequency stability versus input voltage (Battery Fully Charged voltage is 8.51V) -5W Environment Power Reference Frequency Limit: Temperature( ) (V) MHz MHz MHz ppm 50 DC DC DC DC 8.51 V DC 8.51 V DC 8.51 V DC 8.51 V DC V DC 8.51 V V Pass

33 Page 33 of 147 (4) Frequency stability versus input voltage(battery endpoint is 6V) -5W Environment Power Reference Frequency Limit: Temperature( ) (V) MHz MHz MHz ppm 50 DC DC DC DC DC DC DC DC DC Pass

34 Page 34 of 147 (1) Frequency stability versus input voltage (Supply nominal voltage is 7.40V)-1W Environment Power Reference Frequency Limit: Temperature( ) (V) MHz MHz MHz ppm 50 DC DC DC DC DC DC DC DC DC Pass (2) Frequency stability versus input voltage (Battery limiting voltage is 6.29V) -1W Environment Power Reference Frequency Limit: Temperature( ) (V) MHz MHz MHz ppm 50 DC DC DC DC DC DC DC DC DC Pass (3) Frequency stability versus input voltage (Battery Fully Charged voltage is 8.51V) -1W Environment Power Reference Frequency Limit: Temperature( ) (V) MHz MHz MHz ppm 50 DC DC DC DC 8.51 V DC 8.51 V DC 8.51 V DC 8.51 V DC V DC 8.51 V V Pass

35 Page 35 of 147 (4) Frequency stability versus input voltage (Battery endpoint is 6V) -1W Environment Power Reference Frequency Limit: Temperature( ) (V) MHz MHz MHz ppm 50 DC DC DC DC DC DC DC DC DC Pass

36 6. EMISSION BANDWIDTH Page 36 of PROVISIONS APPLICABLE FCC Part 90 & FCC Part 22: The authorized bandwidth shall be KHz for 12.5 KHz channel separation and 6 KHz for 6.25 KHz channel separation. 6.2 MEASUREMENT PROCEDURE 1). The EUT was placed on a turn table which is 0.8m above ground plane. 2). The EUT was modulated by 2.5 KHz Sine wave audio signal, The level of the audio signal employed is 16 db greater than that necessary to produce 50% of rated system deviation. Rated system deviation is 2.5 khz (12.5 khz channel spacing). 3). Set SPA Center Frequency = fundamental frequency, RBW=100Hz.VBW= 300 Hz, Span =50 KHz. 4). Set SPA Max hold. Mark peak, -26 db. 6.3 TEST SETUP BLOCK DIAGRAM

37 6.4 MEASUREMENT RESULT VHF: Analog: Operating Frequency 26 db Bandwidth Measurement 12.5 KHz Channel Separation Page 37 of 147 Test Data Limits MHz 10.20KHz KHz Pass MHz 10.18KHz KHz Pass MHz 10.16KHz KHz Pass MHz 10.18KHz KHz Pass MHz 10.15KHz KHz Pass Occupied bandwidth of Bottom Channel (Maximum)-5W

38 Page 38 of 147 Occupied bandwidth of Middle Channel ( MHz)-5W Occupied bandwidth of Middle Channel ( MHz)-5W

39 26 db Bandwidth Measurement Page 39 of 147 Operating Frequency 12.5 KHz Channel Separation Test Data Limits MHz 10.20KHz KHz Pass MHz 10.18KHz KHz Pass MHz 10.17KHz KHz Pass MHz 10.18KHz KHz Pass MHz 10.14KHz KHz Pass Occupied bandwidth of Bottom Channel (Maximum)-1W

40 Page 40 of 147 Occupied bandwidth of Middle Channel ( MHz)-1W Occupied bandwidth of Middle Channel ( MHz)-1W

41 Digital: TEST RESULTS 26 DB BANDWIDTH MEASUREMENT RESULT Page 41 of KHz Channel Separation Operating Frequency Test Data Limits MHz 9.740KHz KHz Pass MHz 9.798KHz KHz Pass MHz 9.731KHz KHz Pass MHz 9.368KHz KHz Pass MHz 9.735KHz KHz Pass Occupied bandwidth of Bottom Channel (Maximum)-5W

42 Page 42 of 147 Occupied bandwidth of Middle Channel ( MHz)-5W Occupied bandwidth of Middle Channel ( MHz)-5W

43 TEST RESULTS Page 43 of DB BANDWIDTH MEASUREMENT RESULT 12.5 KHz Channel Separation Operating Frequency Test Data Limits MHz 9.782KHz KHz Pass MHz 9.245KHz KHz Pass MHz 9.761KHz KHz Pass MHz 9.503KHz KHz Pass MHz 9.753KHz KHz Pass Occupied bandwidth of Bottom Channel (Maximum)-1W

44 Page 44 of 147 Occupied bandwidth of Middle Channel ( MHz)-1W Occupied bandwidth of Middle Channel ( MHz)-1W

45 UHF: Analog: Operating Frequency 26 DB BANDWIDTH MEASUREMENT RESULT 12.5 KHz Channel Separation Page 45 of 147 Test Data Limits MHz 10.20KHz KHz Pass MHz 10.19KHz KHz Pass MHz 10.19KHz KHz Pass MHz 10.18KHz KHz Pass Occupied bandwidth of Bottom Channel (Maximum)-5W

46 Page 46 of 147 Occupied bandwidth of Middle Channel (Maximum)-5W Occupied bandwidth of Middle Channel (Maximum)-5W

47 26 DB BANDWIDTH MEASUREMENT RESULT Page 47 of 147 Operating Frequency 12.5 KHz Channel Separation Test Data Limits MHz 10.18KHz KHz Pass MHz 10.20KHz KHz Pass MHz 10.18KHz KHz Pass MHz 10.16KHz KHz Pass Occupied bandwidth of Bottom Channel (Maximum)-1W

48 Page 48 of 147 Occupied bandwidth of Middle Channel (Maximum)-1W Occupied bandwidth of Middle Channel (Maximum)-1W

49 Digital: TEST RESULTS Page 49 of DB BANDWIDTH MEASUREMENT RESULT 12.5 KHz Channel Separation Operating Frequency Test Data Limits MHz 9.175KHz KHz Pass MHz 9.131KHz KHz Pass MHz 8.389KHz KHz Pass MHz 9.162KHz KHz Pass Occupied bandwidth of Bottom Channel (Maximum) -5W

50 Page 50 of 147 Occupied bandwidth of Middle Channel (Maximum)-5W Occupied bandwidth of Middle Channel (Maximum)-5W

51 TEST RESULTS Page 51 of DB BANDWIDTH MEASUREMENT RESULT 12.5 KHz Channel Separation Operating Frequency Test Data Limits MHz 9.700KHz KHz Pass MHz 9.198KHz KHz Pass MHz 9.332KHz KHz Pass MHz 9.689KHz KHz Pass Occupied bandwidth of Bottom Channel (Maximum) -1W

52 Page 52 of 147 Occupied bandwidth of Middle Channel (Maximum)-1W Occupied bandwidth of Middle Channel (Maximum)-1W

53 7. UNWANTED RADIATION Page 53 of PROVISIONS APPLICABLE According to FCC , and , the power of each unwanted emission shall be less than Transmitted Power as specified below for transmitters designed to operate with each channel separation. Emission Mask D -for 12.5 KHz Channel Separation: (1).On any frequency removed from the center of the authorized bandwidth fo to KHz removed from fo: Zero db. (2).On any frequency removed from the center of the authorized bandwidth by a displacement Frequency (fd in KHz) fo of more than KHz but no more than 12.5 KHz: At least 7.27(fd-2.88 KHz) db (3).On any frequency removed from the center of the authorized bandwidth by a displacement Frequency (fd in KHz)fo of more than 12.5 KHz: At least log(p) db or 70 db, whichever is lesser attenuation. 7.2 MEASUREMENT PROCEDURE (1)On a test site, the EUT shall be placed on a turntable, and in the position closest to the normal use as declared by the user. (2)The test antenna shall be oriented initially for vertical polarization located 3m from the EUT to correspond to the transmitter. (3)The output of the antenna shall be connected to the measuring receiver and either a peak or quasi-peak detector was used for the measurement as indicated on the report. The detector selection is based on how close the emission level was approaching the limit. (4)The transmitter shall be switched on; if possible, without the modulation and the measurement receiver shall be tuned to the frequency of the transmitter under test. (5)The test antenna shall be raised and lowered through the specified range of height until the measuring receiver detects a maximum signal level. (6)The transmitter shall than be rotated through 360 in the horizontal plane, until the maximum signal level is detected by the measuring receiver. (7)The test antenna shall be raised and lowered again through the specified range of height until the measuring receiver detects a maximum signal level. (8)The maximum signal level detected by the measuring receiver shall be noted. (9)The measurement shall be repeated with the test antenna set to horizontal polarization. (10) Replace the antenna with a proper Antenna (substitution antenna). (11)The substitution antenna shall be oriented for vertical polarization and, if necessary, the length of the substitution antenna shall be adjusted to correspond to the frequency of transmitting. (12)The substitution antenna shall be connected to a calibrated signal generator. (13)If necessary, the input attenuator setting of the measuring receiver shall be adjusted in order to

54 increase the sensitivity of the measuring receiver. Page 54 of 147 (14)The test antenna shall be raised and lowered through the specified range of the height to ensure that the maximum signal is received. (15)The input signal to substitution antenna shall be adjusted to the level that produces a level detected by the measuring receiver, that is equal to the level noted while the transmitter radiated power was measured, corrected for the change of input attenuation setting of the measuring receiver. (16)The input level to the substitution antenna shall be recorded as power level in dbm, corrected for any change of input attenuator setting of the measuring receiver. (17)The measurement shall be repeated with the test antenna and the substitution antenna oriented for horizontal polarization. 7.3 TEST SETUP BLOCK DIAGRAM SUBSTITUTION METHOD: (Radiated Emissions) Radiated Below1GHz Radiated Above 1 GHz

55 Page 55 of MEASUREMENT RESULTS: Applicable Standard FCC , and On any frequency removed from the center of the authorized bandwidth by a displacement Frequency (fd in KHz)for of more than 12.5 KHz: at least log(p) db or 70 db, whichever is lesser attenuation. Test Procedure The RF output of the EUT was connected to a spectrum analyzer through appropriate attenuation. The resolution bandwidth of the spectrum analyzer was set at 100 khz for below 1GHz, and 1MHz for above 1GHz. Sufficient scans were taken to show any out of band emissions up to 10 harmonic. Limit: At least log (P) =50+10log (5) =57 (db) 5W At least log (P) =50+10log (1) =50 (db) 1W th

56 VHF: Analog: Page 56 of 147 Measurement for 12.5 KHz Channel MHz-5W Emission Frequency Ant. Polarity(H/V) Measurement Limit below (MHz) Below carrier(dbc) carrier(dbc) H 0 pass H pass H pass H pass H pass H pass H pass H pass H pass H pass (P/F) Emission Frequency Ant. Polarity(H/H) Measurement Limit below (MHz) Below carrier(dbc) carrier(dbc) V 0 pass V pass V pass V pass V pass V pass V pass V pass V pass V pass Measurement for 12.5 KHz Channel MHz-5W Emission Frequency (MHz) Ant. Polarity(H/V) Measurement Below carrier(dbc) Limit below carrier(dbc) H 0 pass H pass H pass H pass H pass H pass H pass H pass H pass H pass (P/F) (P/F)

57 Emission Frequency (MHz) Ant. Polarity(H/H) Measurement Below carrier(dbc) V 0 pass V pass V pass V pass V pass V pass V pass V pass V pass V pass Page 57 of 147 Limit below carrier(dbc) (P/F) Measurement for 12.5 KHz Channel MHz-5W Emission Frequency (MHz) Ant. Polarity(H/V) Measurement Below carrier(dbc) Limit below carrier(dbc) H 0 pass H pass H pass H pass H pass H pass H pass H pass H pass H pass (P/F) Emission Frequency Ant. Polarity(H/H) Measurement Limit below (MHz) Below carrier(dbc) carrier(dbc) V 0 pass V pass V pass V pass V pass V pass V pass V pass V pass V pass (P/F)

58 Emission Frequency Page 58 of 147 Measurement for 12.5 KHz Channel MHz-5W Ant. Polarity(H/V) Measurement Limit below (MHz) Below carrier(dbc) carrier(dbc) H 0 pass H pass H pass H pass H pass H pass H pass H pass H pass H pass (P/F) Emission Frequency Ant. Polarity(H/H) Measurement Limit below (MHz) Below carrier(dbc) carrier(dbc) V 0 pass V pass V pass V pass V pass V pass V pass V pass V pass V pass (P/F)

59 Page 59 of 147 Measurement for 12.5 KHz Channel MHz-5W Emission Frequency Ant. Polarity(H/V) Measurement Limit below (MHz) Below carrier(dbc) carrier(dbc) H 0 pass H pass H pass H pass H pass H pass H pass H pass H pass H pass (P/F) Emission Frequency Ant. Polarity(H/V) Measurement Limit below (MHz) Below carrier(dbc) carrier(dbc) V 0 pass V pass V pass V pass V pass V pass V pass V pass V pass V pass (P/F)

60 Page 60 of 147 Measurement for 12.5 KHz Channel MHz-1W Emission Frequency Ant. Polarity(H/V) Measurement Limit below (MHz) Below carrier(dbc) carrier(dbc) H 0 pass H pass H pass H pass H pass H pass H pass H pass H pass H pass (P/F) Emission Frequency Ant. Polarity(H/H) Measurement Limit below (MHz) Below carrier(dbc) carrier(dbc) V 0 pass V pass V pass V pass V pass V pass V pass V pass V pass V pass (P/F) Measurement for 12.5 KHz Channel MHz-1W Emission Frequency (MHz) Ant. Polarity(H/V) Measurement Below carrier(dbc) Limit below carrier(dbc) H 0 pass H pass H pass H pass H pass H pass H pass H pass H pass H pass (P/F)

61 Emission Frequency (MHz) Ant. Polarity(H/H) Measurement Below carrier(dbc) V 0 pass V pass V pass V pass V pass V pass V pass V pass V pass V pass Page 61 of 147 Limit below carrier(dbc) (P/F) Measurement for 12.5 KHz Channel MHz-1W Emission Frequency (MHz) Ant. Polarity(H/V) Measurement Below carrier(dbc) Limit below carrier(dbc) H 0 pass H pass H pass H pass H pass H pass H pass H pass H pass H pass (P/F) Emission Frequency Ant. Polarity(H/H) Measurement Limit below (MHz) Below carrier(dbc) carrier(dbc) V 0 pass V pass V pass V pass V pass V pass V pass V pass V pass V pass (P/F)

62 Page 62 of 147 Measurement for 12.5 KHz Channel MHz-1W Emission Frequency Ant. Polarity(H/V) Measurement Limit below (MHz) Below carrier(dbc) carrier(dbc) H 0 pass H pass H pass H pass H pass H pass H pass H pass H pass H pass (P/F) Emission Frequency Ant. Polarity(H/V) Measurement Limit below (MHz) Below carrier(dbc) carrier(dbc) V 0 pass V pass V pass V pass V pass V pass V pass V pass V pass V pass (P/F) Measurement for 12.5 KHz Channel MHz-1W Emission Frequency Ant. Polarity(H/V) Measurement Limit below (MHz) Below carrier(dbc) carrier(dbc) H 0 pass H pass H pass H pass H pass H pass H pass H pass H pass H pass (P/F)

63 Page 63 of 147 Emission Frequency Ant. Polarity(H/V) Measurement Limit below (MHz) Below carrier(dbc) carrier(dbc) V 0 pass V pass V pass V pass V pass V pass V pass V pass V pass V pass (P/F)

64 Digital: Page 64 of 147 Measurement for 12.5 KHz Channel MHz-5W Emission Frequency Ant. Polarity(H/V) Measurement Limit below (MHz) Below carrier(dbc) carrier(dbc) H 0 pass H pass H pass H pass H pass H pass H pass H pass H pass H pass (P/F) Emission Frequency Ant. Polarity(H/V) Measurement Limit below (MHz) Below carrier(dbc) carrier(dbc) V 0 pass V pass V pass V pass V pass V pass V pass V pass V pass V pass (P/F) Measurement for 12.5 KHz Channel MHz-5W Emission Frequency Ant. Polarity(H/V) Measurement Limit below (MHz) Below carrier(dbc) carrier(dbc) H 0 pass H pass H pass H pass H pass H pass H pass H pass H pass H pass (P/F)

65 Page 65 of 147 Emission Frequency Ant. Polarity(H/V) Measurement Limit below (MHz) Below carrier(dbc) carrier(dbc) V 0 pass V pass V pass V pass V pass V pass V pass V pass V pass V pass (P/F) Measurement for 12.5 KHz Channel MHz-5W Emission Frequency (MHz) Ant. Polarity(H/V) Measurement Below carrier(dbc) Limit below carrier(dbc) H 0 pass H pass H pass H pass H pass H pass H pass H pass H pass H pass (P/F) Emission Frequency Ant. Polarity(H/H) Measurement Limit below (MHz) Below carrier(dbc) carrier(dbc) V 0 pass V pass V pass V pass V pass V pass V pass V pass V pass V pass (P/F)

66 Page 66 of 147 Measurement for 12.5 KHz Channel MHz-5W Emission Frequency Ant. Polarity(H/V) Measurement Limit below (MHz) Below carrier(dbc) carrier(dbc) H 0 pass H pass H pass H pass H pass H pass H pass H pass H pass H pass (P/F) Emission Frequency Ant. Polarity(H/V) Measurement Limit below (MHz) Below carrier(dbc) carrier(dbc) V 0 pass V pass V pass V pass V pass V pass V pass V pass V pass V pass (P/F) Measurement for 12.5 KHz Channel MHz-5W Emission Frequency Ant. Polarity(H/V) Measurement Limit below (MHz) Below carrier(dbc) carrier(dbc) H 0 pass H pass H pass H pass H pass H pass H pass H pass H pass H pass (P/F)

67 Emission Frequency (MHz) Ant. Polarity(H/V) Measurement Below carrier(dbc) V 0 pass V pass V pass V pass V pass V pass V pass V pass V pass V pass Page 67 of 147 Limit below carrier(dbc) (P/F) Measurement for 12.5 KHz Channel MHz-1W Emission Frequency Ant. Polarity(H/V) Measurement Limit below (MHz) Below carrier(dbc) carrier(dbc) H 0 pass H pass H pass H pass H pass H pass H pass H pass H pass H pass (P/F) Emission Frequency Ant. Polarity(H/H) Measurement Limit below (MHz) Below carrier(dbc) carrier(dbc) V 0 pass V pass V pass V pass V pass V pass V pass V pass V pass V pass (P/F)

68 Page 68 of 147 Measurement for 12.5 KHz Channel MHz-1W Emission Frequency Ant. Polarity(H/V) Measurement Limit below (MHz) Below carrier(dbc) carrier(dbc) H 0 pass H pass H pass H pass H pass H pass H pass H pass H pass H pass (P/F) Emission Frequency Ant. Polarity(H/H) Measurement Limit below (MHz) Below carrier(dbc) carrier(dbc) V 0 pass V pass V pass V pass V pass V pass V pass V pass V pass V pass (P/F) Measurement for 12.5 KHz Channel MHz-1W Emission Frequency (MHz) Ant. Polarity(H/V) Measurement Below carrier(dbc) Limit below carrier(dbc) H 0 pass H pass H pass H pass H pass H pass H pass H pass H pass H pass (P/F)

69 Emission Frequency (MHz) Ant. Polarity(H/H) Measurement Below carrier(dbc) V 0 pass V pass V pass V pass V pass V pass V pass V pass V pass V pass Page 69 of 147 Limit below carrier(dbc) (P/F) Measurement for 12.5 KHz Channel MHz-1W Emission Frequency Ant. Polarity(H/V) Measurement Limit below (MHz) Below carrier(dbc) carrier(dbc) H 0 pass H pass H pass H pass H pass H pass H pass H pass H pass H pass (P/F) Emission Frequency Ant. Polarity(H/H) Measurement Limit below (MHz) Below carrier(dbc) carrier(dbc) V 0 pass V pass V pass V pass V pass V pass V pass V pass V pass V pass (P/F)

70 Page 70 of 147 Measurement for 12.5 KHz Channel MHz-1W Emission Frequency Ant. Polarity(H/V) Measurement Limit below (MHz) Below carrier(dbc) carrier(dbc) H 0 pass H pass H pass H pass H pass H pass H pass H pass H pass H pass (P/F) Emission Frequency Ant. Polarity(H/V) Measurement Limit below (MHz) Below carrier(dbc) carrier(dbc) V 0 pass V pass V pass V pass V pass V pass V pass V pass V pass V pass (P/F)

71 UHF: Analog: TEST RESULTS--5W Measurement for 12.5 KHz Channel MHz Page 71 of 147 Emission Frequency Ant. Polarity(H/V) Measurement Limit below (MHz) Below carrier(dbc) carrier(dbc) H 0 pass H pass H pass H pass H pass H pass H pass H pass H pass H pass Emission Frequency Ant. Polarity(H/V) Measurement Limit below (MHz) Below carrier(dbc) carrier(dbc) V 0 pass V pass V pass V pass V pass V pass V pass V pass V pass V pass Emission Frequency Measurement for 12.5 KHz Channel MHz Ant. Polarity(H/V) Measurement Limit below (MHz) Below carrier(dbc) carrier(dbc) H 0 pass H pass H pass H pass H pass H pass H pass H pass H pass H pass (P/F) (P/F) (P/F)

72 Emission Frequency Ant. Polarity(H/V) Measurement (MHz) Below carrier(dbc) carrier(dbc) V 0 pass V pass V pass V pass V pass V pass V pass V pass V pass V pass Page 72 of 147 Limit below (P/F) Emission Frequency Measurement for 12.5 KHz Channel MHz Ant. Polarity(H/V) Measurement Limit below (MHz) Below carrier(dbc) carrier(dbc) V 0 pass V pass V pass V pass V pass V pass V pass V pass V pass V pass (P/F) Emission Frequency TEST RESULTS--1W Measurement for 12.5 KHz Channel MHz Ant. Polarity(H/V) Measurement Limit below (MHz) Below carrier(dbc) carrier(dbc) H 0 pass H pass H pass H pass H pass H pass H pass H pass H pass H pass (P/F)

73 Emission Frequency Ant. Polarity(H/V) Measurement (MHz) Below carrier(dbc) carrier(dbc) V 0 pass V pass V pass V pass V pass V pass V pass V pass V pass V pass Page 73 of 147 Limit below (P/F) Emission Frequency Measurement for 12.5 KHz Channel MHz Ant. Polarity(H/V) Measurement Limit below (MHz) Below carrier(dbc) carrier(dbc) H 0 pass H pass H pass H pass H pass H pass H pass H pass H pass H pass Emission Frequency Ant. Polarity(H/V) Measurement Limit below (MHz) Below carrier(dbc) carrier(dbc) V 0 pass V pass V pass V pass V pass V pass V pass V pass V pass V pass (P/F) (P/F)

74 Page 74 of 147 Measurement for 12.5 KHz Channel MHz Emission Frequency Ant. Polarity(H/V) Measurement Limit below (MHz) Below carrier(dbc) carrier(dbc) H 0 pass H pass H pass H pass H pass H pass H pass H pass H pass H pass Emission Frequency Ant. Polarity(H/V) Measurement Limit below (MHz) Below carrier(dbc) carrier(dbc) V 0 pass V pass V pass V pass V pass V pass V pass V pass V pass V pass (P/F) (P/F) Digital: TEST RESULTS-5W Measurement for 12.5 KHz Channel MHz Emission Frequency Ant. Polarity(H/V) Measurement Limit below (MHz) Below carrier(dbc) carrier(dbc) H 0 pass H pass H pass H pass H pass H pass H pass H pass H pass H pass (P/F)

75 Emission Frequency Ant. Polarity(H/V) Measurement (MHz) Below carrier(dbc) carrier(dbc) V 0 pass V pass V pass V pass V pass V pass V pass V pass V pass V pass Page 75 of 147 Limit below (P/F) Emission Frequency Measurement for 12.5 KHz Channel MHz Ant. Polarity(H/V) Measurement Limit below (MHz) Below carrier(dbc) carrier(dbc) H 0 pass H pass H pass H pass H pass H pass H pass H pass H pass H pass (P/F) Emission Frequency Ant. Polarity(H/V) Measurement Limit below (MHz) Below carrier(dbc) carrier(dbc) V 0 pass V pass V pass V pass V pass V pass V pass V pass V pass V pass (P/F)

76 Page 76 of 147 Measurement for 12.5 KHz Channel MHz Emission Frequency Ant. Polarity(H/V) Measurement Limit below (MHz) Below carrier(dbc) carrier(dbc) H 0 pass H pass H pass H pass H pass H pass H pass H pass H pass H pass Emission Frequency Ant. Polarity(H/V) Measurement Limit below (MHz) Below carrier(dbc) carrier(dbc) V 0 pass V pass V pass V pass V pass V pass V pass V pass V pass V pass (P/F) (P/F) Emission Frequency TEST RESULTS-1W Measurement for 12.5 KHz Channel MHz Ant. Polarity(H/V) Measurement Limit below (MHz) Below carrier(dbc) carrier(dbc) H 0 pass H pass H pass H pass H pass H pass H pass H pass H pass H pass (P/F)

77 Emission Frequency Ant. Polarity(H/V) Measurement (MHz) Below carrier(dbc) carrier(dbc) V 0 pass V pass V pass V pass V pass V pass V pass V pass V pass V pass Page 77 of 147 Limit below (P/F) Emission Frequency Measurement for 12.5 KHz Channel MHz Ant. Polarity(H/V) Measurement Limit below (MHz) Below carrier(dbc) carrier(dbc) H 0 pass H pass H pass H pass H pass H pass H pass H pass H pass H pass (P/F) Emission Frequency Ant. Polarity(H/V) Measurement Limit below (MHz) Below carrier(dbc) carrier(dbc) V 0 pass V pass V pass V pass V pass V pass V pass V pass V pass V pass (P/F)

78 Page 78 of 147 Measurement for 12.5 KHz Channel MHz Emission Frequency Ant. Polarity(H/V) Measurement Limit below (MHz) Below carrier(dbc) carrier(dbc) H 0 pass H pass H pass H pass H pass H pass H pass H pass H pass H pass Emission Frequency Ant. Polarity(H/V) Measurement Limit below (MHz) Below carrier(dbc) carrier(dbc) V 0 pass V pass V pass V pass V pass V pass V pass V pass V pass V pass (P/F) (P/F)

79 7.5 EMISSION MASK PLOT Page 79 of 147 The detailed procedure employed for Emission Mask measurements are specified as following: - The transmitter shall be modulated by a 2.5 khz audio signal, - The level of the audio signal employed is 16 db greater than that necessary to produce 50% of rated system deviation. Rated system deviation is 2.5 khz. VHF: Analog: The Worst Emission Mask D for 12.5 KHz channel Separation (5W)

80 Page 80 of 147 The Worst Emission Mask D for 12.5 KHz channel Separation (1W) The Worst Emission Mask for (161.61MHz) of 12.5 KHz channel Separation (1W)

81 Digital: The Worst Emission Mask D for 12.5 KHz channel Separation (5W) Page 81 of 147 The Worst Emission Mask for (161.61MHz) of 12.5 KHz channel Separation (5W)

82 Page 82 of 147 The Worst Emission Mask D for 12.5 KHz channel Separation (1W)

83 UHF: Analog: The Worst Emission Mask D for 12.5 KHz channel Separation (5W) Page 83 of 147 The Worst Emission Mask D for 12.5 KHz channel Separation (1W)

84 Page 84 of 147 The Worst Emission Mask for ( MHz) of 12.5 KHz channel Separation (1W) Digital: The Worst Emission Mask D for 12.5 KHz channel Separation (5W)

85 Page 85 of 147 The Worst Emission Mask for ( MHz) of 12.5 KHz channel Separation (5W) The Worst Emission Mask D for 12.5 KHz channel Separation (1W)

86 8. MODULATION CHARACTERISTICS Page 86 of PROVISIONS APPLICABLE According to FCC and , for Voice Modulation Communication Equipment, the frequency response of the audio modulation circuit over a range of 100 to 5000Hz shall be measured. 8.2 MEASUREMENT METHOD Modulation Limit (1). Configure the EUT as shown in figure 1, adjust the audio input for 60% of rated system deviation at 1KHz using this level as a reference (0dB) and vary the input level from 20 to +20dB. Record the frequency deviation obtained as a function of the input level. (2). Repeat step 1 with input frequency changing to 300, 1000, 1500 and 3000Hz in sequence Audio Frequency Response (1). Configure the EUT as shown in figure 1. (2). Adjust the audio input for 20% of rated system deviation at 1 KHz using this level as a reference (0 db). (3). Vary the Audio frequency from 100 Hz to 10 KHz and record the frequency deviation. (4). Audio Frequency Response = 20log10 (Deviation of test frequency/deviation of 1 KHz reference). EUT 30dB Att. or Ant. Coupler Modulation Analyzer Synthesizer/ Function Generator Figure 1: Modulation characteristic measurement configuration

87 8.3 MEASUREMENT RESULT Page 87 of 147 VHF: Analog: TEST RESULTS FOR H POWER (A). MODULATION LIMIT: Middle 12.5 KHz Channel Separations Modulation Peak Freq. Peak Freq. Peak Freq. Peak Freq. Level Deviation Deviation Deviation Deviation (db) At 300 Hz At 1000 Hz At 1500 Hz At 3000 Hz Note: All the modes had been tested, but only the worst data recorded in the report.

88 (B). AUDIO FREQUENCY RESPONSE: Frequency (Hz) Middle 12.5 KHz Channel Separations Deviation (KHz) Page 88 of 147 Audio Frequency Response(dB)

89 Page 89 of 147 Frequency Response of Middle Channel Note: All the modes had been tested, but only the worst data recorded in the report.

90 Digital: TEST RESULTS FOR H POWER (A). MODULATION LIMIT: Middle 12.5 KHz Channel Separations Page 90 of 147 Modulation Peak Freq. Peak Freq. Peak Freq. Peak Freq. Level Deviation Deviation Deviation Deviation (db) At 300 Hz At 1000 Hz At 1500 Hz At 3000 Hz Note: All the modes had been tested, but only the worst data recorded in the report.

91 (B). AUDIO FREQUENCY RESPONSE: Frequency (Hz) Bottom 12.5 KHz Channel Separations Deviation (KHz) Page 91 of 147 Audio Frequency Response(dB)

92 Page 92 of 147 Frequency Response of Bottom Channel Note: All the modes had been tested, but only the worst data recorded in the report.

93 UHF: Analog: TEST RESULT TS FOR H POWER H LEVEL (A). MODULATION LIMIT: Middle 12.5 KHz Channel Separations Page 93 of 147 Modulation Peak Freq. Peak Freq. Peak Freq. Peak Freq. Level Deviation Deviation Deviation Deviation (db) At 300 Hz At 1000 Hz At 1500 Hz At 3000 Hz Note: All the modes had been tested, but only the worst data recorded in the report.

94 (B). AUDIO FREQUENCY RESPONSE: Frequency (Hz) Middle 12.5 KHz Channel Separations Deviation (KHz) Page 94 of 147 Audio Frequency Response(dB)

95 Page 95 of 147 Frequency Response of High Channel Note: All the modes had been tested, but only the worst data recorded in the report.

96 Digital: (A). MODULATION LIMIT: Middle 12.5 KHz Channel Separations---H Power Page 96 of 147 Modulation Peak Freq. Peak Freq. Peak Freq. Peak Freq. Level Deviation Deviation Deviation Deviation (db) At 300 Hz At 1000 Hz At 1500 Hz At 3000 Hz Note: All the modes had been tested, but only the worst data recorded in the report.

97 (B). AUDIO FREQUENCY RESPONSE: Frequency (Hz) Middle 12.5 KHz Channel Separations---L Power Deviation (KHz) Page 97 of 147 Audio Frequency Response(dB)

98 Page 98 of 147 Frequency Response of Bottom Channel---H Power Note: All the modes had been tested, but only the worst data recorded in the report.

99 Page 99 of MAXIMUMN TRANSMITTER POWER (CONDUCTED OUTPUT POWER) 9.1 PROVISIONS APPLICABLE Per FCC and : Maximum ERP is dependent upon the station s antenna HAAT and required service area. 9.2 TEST PROCEDURE The RF output of Two-way Radio was conducted to a spectrum analyzer through an appropriate attenuator. 9.3 TEST CONFIGURATION Conducted Output Power: Effective Radiated Power Radiated Below1GHz

100 Radiated Above 1 GHz Page 100 of 147

101 9.4 TEST RESULT Page 101 of 147 VHF: Analog: The maximum Conducted Power (CP) for VHF/UHF is Analog: 5W/1 W for 12.5 KHz Channel Separation Digital: 5W/1 W for 12.5 KHz Channel Separation Calculation Formula: CP = R + A + L * Note: CP: The final Conducted Power R : The reading value from spectrum analyzer A : The attenuation value of the used attenuator L : The loss of all connection cables Conducted Power Measurement s Channel Separation Channel Measurement (dbm) For 36.99dBm(5W) Bottom( MHz) Middle( MHz) KHz Middle( MHz) Middle( MHz) Top ( MHz) Radiated Power Measurement s Channel Separation Channel Measurement (dbm) For 36.99dBm(5W) Bottom( MHz) Middle( MHz) KHz Middle( MHz) Middle( MHz) Top ( MHz) 36.76

102 Page 102 of 147 Conducted Power Measurement s Channel Separation Channel Measurement (dbm) For 30dBm(1W) Bottom( MHz) Middle( MHz) KHz Middle( MHz) Middle( MHz) Top ( MHz) Radiated Power Measurement s Channel Separation Channel Measurement (dbm) For 30dBm(1W) Bottom( MHz) Middle( MHz) KHz Middle( MHz) Middle( MHz) Top ( MHz) Digital: Date + voice: Conducted Power Measurement s Channel Separation Channel Measurement (dbm) For 36.99dBm(5W) Bottom( MHz) Middle( MHz) KHz Middle( MHz) Middle( MHz) Top ( MHz) 36.75

103 Channel Separation Radiated Power Measurement s Channel Page 103 of 147 Measurement (dbm) For 36.99dBm(5W) Bottom( MHz) Middle( MHz) KHz Middle( MHz) Middle( MHz) Top ( MHz) Date transmission mode: Conducted Power Measurement s Channel Separation Channel Measurement (dbm) For 36.99dBm(5W) Bottom( MHz) Middle( MHz) KHz Middle( MHz) Middle( MHz) Top ( MHz) Radiated Power Measurement s Measurement (dbm) Channel Separation Channel For 36.99dBm(5W) Bottom( MHz) Middle( MHz) KHz Middle( MHz) Middle( MHz) Top ( MHz) 36.84

104 Date + voice: Channel Separation Conducted Power Measurement s Channel Page 104 of 147 Measurement (dbm) For 30dBm(1W) Bottom( MHz) Middle( MHz) KHz Middle( MHz) Middle( MHz) Top ( MHz) Radiated Power Measurement s Channel Separation Channel Measurement (dbm) For 30dBm(1W) Bottom( MHz) Middle( MHz) KHz Middle( MHz) Middle( MHz) Top ( MHz) Date transmission mode: Conducted Power Measurement s Channel Separation Channel Measurement (dbm) For 30dBm(1W) Bottom( MHz) Middle( MHz) KHz Middle( MHz) Middle( MHz) Top ( MHz) 29.82

105 Channel Separation Radiated Power Measurement s Channel Page 105 of 147 Measurement (dbm) For 30dBm(1W) Bottom( MHz) Middle( MHz) KHz Middle( MHz) Middle( MHz) Top ( MHz) 29.85

106 UHF: Analog: Page 106 of 147 Conducted Power Measurement s-5w Channel Separation Channel Measurement (dbm) For 36.99dBm(5W) Bottom( MHz) KHz Middle( MHz) Middle( MHz) Top ( MHz) Radiated Power Measurement s-5w Channel Separation Channel Measurement (dbm) For 36.99dBm(5W) Bottom( MHz) KHz Middle( MHz) Middle( MHz) Top ( MHz) Conducted Power Measurement s-1w Channel Separation Channel Measurement (dbm) For 30dBm(1W) Bottom( MHz) KHz Middle( MHz) Middle( MHz) Top ( MHz) 29.92

107 Page 107 of 147 Radiated Power Measurement s-1w Channel Separation Channel Measurement (dbm) For 30dBm(1W) Bottom( MHz) KHz Middle( MHz) Middle( MHz) Top ( MHz) Digital: Date + voice: Conducted Power Measurement s Channel Separation Channel Measurement (dbm) For 36.99dBm(5W) Bottom( MHz) KHz Middle( MHz) Middle( MHz) Top ( MHz) Radiated Power Measurement s Channel Separation Channel Measurement (dbm) For 36.99dBm(5W) Bottom( MHz) KHz Middle( MHz) Middle( MHz) Top ( MHz) 36.72

108 Date transmission mode: Channel Separation 12.5 KHz Conducted Power Measurement s Channel Page 108 of 147 Measurement (dbm) For 36.99dBm(5W) Bottom( MHz) Middle( MHz) Middle( MHz) Top ( MHz) Radiated Power Measurement s Measurement (dbm) Channel Separation Channel For 36.99dBm(5W) Bottom( MHz) KHz Middle( MHz) Middle( MHz) Top ( MHz) Date + voice: Conducted Power Measurement s Channel Separation Channel Measurement (dbm) For 30dBm(1W) Bottom( MHz) KHz Middle( MHz) Middle( MHz) Top ( MHz) 29.91

109 Page 109 of 147 Radiated Power Measurement s Channel Separation Channel Measurement (dbm) For 30dBm(1W) Bottom( MHz) KHz Middle( MHz) Middle( MHz) Top ( MHz) Date transmission mode: Conducted Power Measurement s Channel Separation Channel Measurement (dbm) For 30dBm(1W) Bottom( MHz) KHz Middle( MHz) Middle( MHz) Top ( MHz) Radiated Power Measurement s Measurement (dbm) Channel Separation Channel For 30dBm(1W) Bottom( MHz) KHz Middle( MHz) Middle( MHz) Top ( MHz) 29.65

110 9.5 CONDUCT SPURIOUS PLOT Page 110 of 147 VHF: Analog: Conducted Spurious Emission With 12.5 KHz Channel Separation-5W 30MHz-1GHz

111 Page 111 of 147 Conduct Spurious Emission MHz With 12.5 KHz Channel Separation-5W 1GHz-12.75GHz Conducted Spurious Emission MHz With 12.5 KHz Channel Separation-5W 30MHz-1GHz

112 Page 112 of 147 Conduct Spurious Emission MHz With 12.5 KHz Channel Separation-5W 1GHz-12.75GHz Conducted Spurious Emission With 12.5 KHz Channel Separation-1W 30MHz-1GHz

113 Page 113 of 147 Conduct Spurious Emission MHz With 12.5 KHz Channel Separation-1W 1GHz-12.75GHz Conducted Spurious Emission MHz With 12.5 KHz Channel Separation-1W 30MHz-1GHz

114 Page 114 of 147 Conduct Spurious Emission MHz With 12.5 KHz Channel Separation-1W 1GHz-12.75GHz Digital: Conducted Spurious Emission With 12.5 KHz Channel Separation-5W 30MHz-1GHz

115 Page 115 of 147 Conduct Spurious Emission MHz With 12.5 KHz Channel Separation-5W 1GHz-12.75GHz Conducted Spurious Emission MHz With 12.5 KHz Channel Separation-5W 30MHz-1GHz

116 Page 116 of 147 Conduct Spurious Emission MHz With 12.5 KHz Channel Separation-5W 1GHz-12.75GHz Conducted Spurious Emission With 12.5 KHz Channel Separation-1W 30MHz-1GHz

117 Page 117 of 147 Conduct Spurious Emission MHz With 12.5 KHz Channel Separation-1W 1GHz-12.75GHz Conducted Spurious Emission MHz With 12.5 KHz Channel Separation-1W 30MHz-1GHz

118 Page 118 of 147 Conduct Spurious Emission MHz With 12.5 KHz Channel Separation-1W 1GHz-12.75GHz Note: only result the worst case in this part.

119 UHF: Analog: Page 119 of 147 Conducted Spurious Emission MHz With 12.5 KHz Channel Separation-5W 30MHz-1GHz Conduct Spurious Emission MHz With 12.5 KHz Channel Separation-5W 1GHz-12.75GHz

120 Page 120 of 147 Conducted Spurious Emission MHz With 12.5 KHz Channel Separation-5W 30MHz-1GHz Conduct Spurious Emission MHz With 12.5 KHz Channel Separation-5W 1GHz-12.75GHz

121 Page 121 of 147 Conducted Spurious Emission MHz With 12.5 KHz Channel Separation-5W 30MHz-1GHz Conduct Spurious Emission MHz With 12.5 KHz Channel Separation-5W 1GHz-12.75GHz

122 Page 122 of 147 Conducted Spurious Emission MHz With 12.5 KHz Channel Separation-1W 30MHz-1GHz Conduct Spurious Emission MHz With 12.5 KHz Channel Separation-1W 1GHz-12.75GHz

123 Page 123 of 147 Conducted Spurious Emission MHz With 12.5 KHz Channel Separation-1W 30MHz-1GHz Conduct Spurious Emission MHz With 12.5 KHz Channel Separation-1W 1GHz-12.75GHz

124 Page 124 of 147 Conducted Spurious Emission MHz With 12.5 KHz Channel Separation-1W 30MHz-1GHz Conduct Spurious Emission MHz With 12.5 KHz Channel Separation-1W 1GHz-12.75GHz Note: All the test frequencies was tested, but only the worst data be recorded in this part.

125 Digital: Page 125 of 147 Conducted Spurious Emission With 12.5 KHz Channel Separation-5W 30MHz-1GHz Conduct Spurious Emission MHz With 12.5 KHz Channel Separation-5W 1GHz-12.75GHz

126 Page 126 of 147 Conducted Spurious Emission MHz With 12.5 KHz Channel Separation-5W 30MHz-1GHz Conduct Spurious Emission MHz With 12.5 KHz Channel Separation-5W 1GHz-12.75GHz

127 Page 127 of 147 Conducted Spurious Emission MHz With 12.5 KHz Channel Separation-5W 30MHz-1GHz Conduct Spurious Emission MHz With 12.5 KHz Channel Separation-5W 1GHz-12.75GHz

128 Page 128 of 147 Conducted Spurious Emission MHz MHz With 12.5 KHz Channel Separation-1W 30MHz-1GHz Conduct Spurious Emission MHz MHz With 12.5 KHz Channel Separation-1W 1GHz-12.75GHz

129 Page 129 of 147 Conducted Spurious Emission MHz With 12.5 KHz Channel Separation-1W 30MHz-1GHz Conduct Spurious Emission MHz With 12.5 KHz Channel Separation-1W 1GHz-12.75GHz

130 Page 130 of 147 Conducted Spurious Emission MHz With 12.5 KHz Channel Separation-1W 30MHz-1GHz Conduct Spurious Emission MHz With 12.5 KHz Channel Separation-1W 1GHz-12.75GHz Note: All the test frequencies was tested, but only the worst data be recorded in this part.

131 10. RANSMITTER FREQUENCY BEHAVIOR Page 131 of PROVISIONS APPLICABLE FCC TEST METHOD TIA/EIA

132 Page 132 of DESCRIBE LIMIT LINE OF RANSMITTER FREQUENCY BEHAVIOR ton: The switch-on instant ton of a transmitter is defined by the condition when the output power, measured at the antenna terminal, exceeds 0,1 % of the full output power (-30 dbc). t1: period of time starting at ton and finishing according to above 11.1 t2: period of time starting at the end of t1 and finishing according to above 11.1 toff: switch-off instant defined by the condition when the output power falls below 0,1 % of the full output power (-30 dbc). t3: period of time that finishing at toff and starting according to above 11.1

133 10.4 MEASURE RESULT Page 133 of 147 VHF: Transmitter Frequency 12.5 KHz Channel Separation--Off to On Transmitter Frequency 12.5 KHz Channel Separation--On to Off

134 UHF: Page 134 of 147 Transmitter Frequency 12.5 KHz Channel Separation--Off to On Transmitter Frequency 12.5 KHz Channel Separation--On to Off

135 11. AUDIO LOW PASS FILTER RESPONSE Page 135 of LIMITS (a): Voice modulated communication equipment. A curve or equivalent data showing the frequency response of the audio modulating circuit over a range of 100 to 5000 Hz shall be submitted. For equipment required to have an audio low-pass filter, a curve showing the frequency response of the filter or of all circuitry installed between the modulation limiter and the modulated stage shall be submitted (b)(8): Recommended audio filter attenuation characteristics are given below: METHOD OF MEASUREMENTS The rated audio input signal was applied to the input of the audio low-pass filter (or of all modulation stages) using an audio oscillator, this input signal level and its corresponding output signal were then measured and recorded using the FFT Digital Spectrum Analyzer. Tests were repeated at different audio signal frequencies from 0 to 50 KHz.

136 11.3 TEST DATA Page 136 of 147 Analog: 12.5 KHZ CHANNEL SPACING, F3E, FREQUENCY OF ALL MODULATION STATES (TEST RESULT FOR UHF)-5W Frequency Audio In Audio out Attenuation Attenuation Recommended Attenuation (KHz) (dbv) (dbv) (Out_In) Rel.to 3 KHz (db) db (db)

137 Page 137 of 147 Note: Due to the difficulty of measuring the Frequency Response of the internal low-pass filter, the Frequency Response of All Modulation States is performed to show the roll-off at 3 KHz in comparison with the recommended audio filter attenuation.

138 Page 138 of KHZ CHANNEL SPACING, F3E, FREQUENCY OF ALL MODULATION STATES (TEST RESULT FOR VHF)-5W Frequency Audio In Audio out Attenuation Attenuation Recommended Attenuation (KHz) (dbv) (dbv) (Out_In) Rel.to 3 KHz (db) db (db)

139 Page 139 of 147 Note: Due to the difficulty of measuring the Frequency Response of the internal low-pass filter, the Frequency Response of All Modulation States is performed to show the roll-off at 3 KHz in comparison with the recommended audio filter attenuation.

140 Page 140 of 147 APPENDIX I: PHOTOGRAPHS OF SETUP RADIATED EMISSION TEST SETUP

141 Page 141 of 147 APPENDIX II: EXTERNAL VIEW OF EUT TOTAL VIEW OF EUT TOP VIEW OF EUT

142 BOTTOM VIEW OF EUT Page 142 of 147 FRONT VIEW OF EUT

143 BACK VIEW OF EUT Page 143 of 147 LEFT VIEW OF EUT

144 RIGHT VIEW OF EUT Page 144 of 147 THE LABLE OF POWER ADAPTER MARKETED

145 OPEN VIEW-1 OF EUT Page 145 of 147 OPEN VIEW-2 OF EUT

146 INTERNAL VIEW-1 OF EUT Page 146 of 147 INTERNAL VIEW-2 OF EUT

147 INTERNAL VIEW-3 OF EUT Page 147 of 147 INTERNAL VIEW-4 OF EUT ----END OF REPORT----

FCC Part 90 Rules Test Report

FCC Part 90 Rules Test Report Page 1 of 147 FCC Part 90 Rules Test Report FCC ID : POD-DMR2 PRODUCT DESIGNATION : DMR Digital Transceiver BRAND NAME : TYT MODEL NAME : MD-2017, MD-760 CLIENT : TYT ELECTRONICS CO., LTD DATE OF ISSUE

More information

FCC Test Report. Report No.: AGC FE02 CLIENT : INNOVATIVE CONCEPTS AND DESIGN LLC. Attestation of Global Compliance (Shenzhen) Co., Ltd.

FCC Test Report. Report No.: AGC FE02 CLIENT : INNOVATIVE CONCEPTS AND DESIGN LLC. Attestation of Global Compliance (Shenzhen) Co., Ltd. Page 1 of 43 FCC Test Report Report No.: AGC03588150607FE02 FCC ID : 2AE6GUHF 6000HHM APPLICATION PURPOSE : ORIGINAL EQUIPMENT PRODUCT DESIGNATION : Wireless Microphone BRAND NAME : Gemini MODEL NAME :

More information

FCC Test Report. Report No.: AGC FE08. Attestation of Global Compliance (Shenzhen) Co., Ltd

FCC Test Report. Report No.: AGC FE08. Attestation of Global Compliance (Shenzhen) Co., Ltd Page 1 of 27 FCC Test Report Report No.: AGC01039170608FE08 FCC ID : PODTYT-X1U TYPE OF AUTHORIZATION : Certification APPLICATION PURPOSE : Original Equipment PRODUCT DESIGNATION : Analog Transceiver BRAND

More information

RF Test Report. Report No.: AGC EE13. CLIENT : Zhengzhou Eshow Import and Export Trade Co.,Ltd.

RF Test Report. Report No.: AGC EE13. CLIENT : Zhengzhou Eshow Import and Export Trade Co.,Ltd. Page 1 of 80 RF Test Report Report No.: AGC08074160901EE13 PRODUCT DESIGNATION : Two way radio BRAND NAME : Retevis MODEL NAME : RT1 CLIENT : Zhengzhou Eshow Import and Export Trade Co.,Ltd. DATE OF ISSUE

More information

RF Test Report. Report No.: AGC EE13 : VR 6600PRO, VR 6610, VR 6700, VRP 6000, VRP 6800 : VERO GLOBAL COMMUNICATION CO.

RF Test Report. Report No.: AGC EE13 : VR 6600PRO, VR 6610, VR 6700, VRP 6000, VRP 6800 : VERO GLOBAL COMMUNICATION CO. Page 1 of 52 RF Test Report PRODUCT DESIGNATION BRAND NAME TEST MODEL CLIENT : Dual Band Mobile Radio : VGC : VR 6600PRO, VR 6610, VR 6700, VRP 6000, VRP 6800 : VERO GLOBAL COMMUNICATION CO.,LTD DATE OF

More information

FCC Test Report. Report No.: PTCDQ FC01

FCC Test Report. Report No.: PTCDQ FC01 Page 1 of 63 FCC Test Report Report No.: PTCDQ04170450501-FC01 FCC ID : 2AL2XW801 APPLICATION PURPOSE : Original Equipment PRODUCT DESIGNATION : WIFI DoorBell BRAND NAME : EASTIC MODEL NAME : W801, W802,

More information

FCC Test Report. Report No.: AGC FE08 MODEL NAME : TH 9800,TH 9800D,TH 7800,TH 7900 CLIENT : TYT ELECTRONICS CO., LTD

FCC Test Report. Report No.: AGC FE08 MODEL NAME : TH 9800,TH 9800D,TH 7800,TH 7900 CLIENT : TYT ELECTRONICS CO., LTD Page 1 of 27 FCC Test Report Report No.: AGC01039140401FE08 FCC ID PODTH 9800 TYPE OF AUTHORIZATION : Certification APPLICATION PURPOSE : Original Equipment PRODUCT DESIGNATION : Mobile radio BRAND NAME

More information

FCC Test Report. Report No.: AGC FE03. : Shenzhen Liangzi Zhineng Technology Co., Ltd. Attestation of Global Compliance (Shenzhen) Co.

FCC Test Report. Report No.: AGC FE03. : Shenzhen Liangzi Zhineng Technology Co., Ltd. Attestation of Global Compliance (Shenzhen) Co. Page 1 of 70 FCC Test Report Report No.: AGC06913160501FE03 FCC ID APPLICATION PURPOSE PRODUCT DESIGNATION BRAND NAME : 2AIM7JAZZ6 : Original Equipment : Bluetooth Headset : BlueFit, Kavoxii MODEL NAME

More information

FCC Test Report. Report No.: AGC FE04. Attestation of Global Compliance (Shenzhen) Co., Ltd

FCC Test Report. Report No.: AGC FE04. Attestation of Global Compliance (Shenzhen) Co., Ltd Page 1 of 74 FCC Test Report Report No.: AGC07248170302FE04 FCC ID : TV7WBM APPLICATION PURPOSE : Original Equipment PRODUCT DESIGNATION : Woobm-USB BRAND NAME : N/A MODEL NAME : Woobm-USB CLIENT : Mikrotikls

More information

FCC Test Report. Report No.: AGC FE03. MODEL NAME : Ci3, Ti3, CB3, AO, UI, Vinyl I, Vinyl B, M2

FCC Test Report. Report No.: AGC FE03. MODEL NAME : Ci3, Ti3, CB3, AO, UI, Vinyl I, Vinyl B, M2 Page 1 of 51 FCC Test Report FCC ID : VO8CI3 APPLICATION PURPOSE : Original Equipment PRODUCT DESIGNATION : Bluetooth headset BRAND NAME : Bluedio MODEL NAME : Ci3, Ti3, CB3, AO, UI, Vinyl I, Vinyl B,

More information

Table of Contents 1. GENERAL INFORMATION SYSTEM TEST CONFIGURATION CONDUCTED EMISSIONS TEST RADIATED EMISSION TEST...

Table of Contents 1. GENERAL INFORMATION SYSTEM TEST CONFIGURATION CONDUCTED EMISSIONS TEST RADIATED EMISSION TEST... Table of Contents 1. GENERAL INFORMATION... 4 1.1 PRODUCT DESCRIPTION FOR EQUIPMENT UNDER TEST... 4 1.2 RELATED SUBMITTAL(S) / GRANT (S)... 7 1.3 TEST METHODOLOGY... 7 1.4 EQUIPMENT MODIFICATIONS... 7

More information

TEST REPORT Part 95(A/B) & IC RSS-210(Issue 8)

TEST REPORT Part 95(A/B) & IC RSS-210(Issue 8) TEST REPORT Part 95(A/B) & IC RSS-210(Issue 8) Equipment Under Test FRS / GMRS Model Name LXT600 FCC ID MMALXT600 IC Certification 3690A- LXT600 Applicant Midland Radio Corporation Manufacturer Global

More information

FCC Part 22H & 24E Measurement and Test Report

FCC Part 22H & 24E Measurement and Test Report FCC Part 22H & 24E Measurement and Test Report For Shenzhen Concox Information Technology Co., Ltd Floor 4th, Building B, Gaoxinqi Industrial Park, Liuxian 1st Road, District 67, Bao an, Shenzhen, China

More information

FCC Test Report. Report No.: AGC FE03. Attestation of Global Compliance (Shenzhen) Co., Ltd

FCC Test Report. Report No.: AGC FE03. Attestation of Global Compliance (Shenzhen) Co., Ltd Page 1 of 55 FCC Test Report FCC ID : XELA01 APPLICATION PURPOSE : Original Equipment PRODUCT DESIGNATION : Bluetooth Headset BRAND NAME : ORiCORE MODEL NAME : A01 CLIENT : DATE OF ISSUE : Nov.30, 2016

More information

Measurement Procedure & Test Equipment Used

Measurement Procedure & Test Equipment Used Measurement Procedure & Test Equipment Used Except where otherwise stated, all measurements are made following the Electronic Industries Association (EIA) Minimum Standard for Portable/Personal Land Mobile

More information

FCC REPORT. Dongguan Hele Electronics Co.,Ltd. * In the configuration tested, the EUT complied with the standards specified above.

FCC REPORT. Dongguan Hele Electronics Co.,Ltd. * In the configuration tested, the EUT complied with the standards specified above. Report No.: GTS201708000040F02 FCC REPORT Applicant: Address of Applicant: Manufacturer: Dongguan Hele Electronics Co.,Ltd. Dalingya Industrial Zone,Daojiao Town,Dongguan City,Guangdong,China Dongguan

More information

FCC REPORT. Dongguan Hele Electronics Co.,Ltd. * In the configuration tested, the EUT complied with the standards specified above.

FCC REPORT. Dongguan Hele Electronics Co.,Ltd. * In the configuration tested, the EUT complied with the standards specified above. + Applicant: Address of Applicant: Manufacturer: FCC REPORT Dongguan Hele Electronics Co.,Ltd. Report No.: GTS201708000040F01 Dalingya Industrial Zone,Daojiao Town,Dongguan City,Guangdong,China Dongguan

More information

FCC REPORT. 570 E1 Camino Real #200, Redwood City, CA 94063, United Manufacturer:

FCC REPORT. 570 E1 Camino Real #200, Redwood City, CA 94063, United Manufacturer: FCC REPORT Applicant: Address of Applicant: Manufacturer: Striiv Inc. 570 E1 Camino Real #200, Redwood City, CA 94063, United States Striiv Inc. Address of 570 E1 Camino Real #200, Redwood City, CA 94063,

More information

FCC PART 95 MEASUREMENT AND TEST REPORT. Powerwerx, Inc.

FCC PART 95 MEASUREMENT AND TEST REPORT. Powerwerx, Inc. FCC PART 95 MEASUREMENT AND TEST REPORT For Powerwerx, Inc. 23695 Via Del Rio Yorba Linda California 92887, United States FCC ID: 2ACK8TR505D Report Type: Original Report Product Type: Two-way radio Test

More information

FCC REPORT. Dongguan Hele Electronics Co., Ltd. J11, J12, J13, Q7, Q28, Q26, Q29

FCC REPORT. Dongguan Hele Electronics Co., Ltd. J11, J12, J13, Q7, Q28, Q26, Q29 FCC REPORT Applicant: Dongguan Hele Electronics Co., Ltd. Address of Applicant: Dalingya Industrial Zone, Daojiao Town, Dongguan City, Guangdong China Equipment Under Test (EUT) Product Name: Model No.:

More information

FCC PART MEASUREMENT AND TEST REPORT FOR. Guangzhou Walkera Technology CO., LTD

FCC PART MEASUREMENT AND TEST REPORT FOR. Guangzhou Walkera Technology CO., LTD FCC PART 15.249 MEASUREMENT AND TEST REPORT FOR Guangzhou Walkera Technology CO., LTD Taishi Industrial Park, Yuwoto Town, Panyu District, 511475 Guangzhou, China. FCC ID: S29WK-2801PRO Report Concerns:

More information

For Sky. Phone LLC. FCC Part 22H. FCC Rules: 3G Smart Phone. Report No.: By: Tested By: Manager. Prepared. Shenzhen SEM.

For Sky. Phone LLC. FCC Part 22H. FCC Rules: 3G Smart Phone. Report No.: By: Tested By: Manager. Prepared. Shenzhen SEM. FCC Part 22H & 24E Measurement and Test Report For Sky Phone LLC 1348 Washington Av. Suite 350, Miamii Beach, Florida, F United States FCCC ID: 2ABOSSKYPLATA55 FCC Rules: Product Description: Tested Model:

More information

EMC Test Report. Report No.: AGC EE01 : VR 6600PRO, VR 6610, VR 6700, VRP 6000, VRP 6800 : VERO GLOBAL COMMUNICATION CO.

EMC Test Report. Report No.: AGC EE01 : VR 6600PRO, VR 6610, VR 6700, VRP 6000, VRP 6800 : VERO GLOBAL COMMUNICATION CO. Page 1 of 38 EMC Test Report PRODUCT DESIGNATION BRAND NAME MODEL NAME CLIENT : Dual Band Mobile Radio : VGC : VR 6600PRO, VR 6610, VR 6700, VRP 6000, VRP 6800 : VERO GLOBAL COMMUNICATION CO.,LTD DATE

More information

SHENZHEN TIMEWAY TESTING LABORATORIES. Test result: ISO/IEC17025Accredited Lab. Report No: FCC File reference No:

SHENZHEN TIMEWAY TESTING LABORATORIES. Test result: ISO/IEC17025Accredited Lab. Report No: FCC File reference No: Report No: FCC 1501131 File reference No: 2015-08-06 ISO/IEC17025Accredited Lab. Applicant: Fujian Nan an Baofeng Electronic Co., Ltd. Product: Model No: Trademark: walkie talkie BF-888s, GT-1, BF-U1 N/A

More information

FCC PART 95 MEASUREMENT AND TEST REPORT HENAN ESHOW ELECTRONIC COMMERCE CO., LTD

FCC PART 95 MEASUREMENT AND TEST REPORT HENAN ESHOW ELECTRONIC COMMERCE CO., LTD FCC PART 95 MEASUREMENT AND TEST REPORT For HENAN ESHOW ELECTRONIC COMMERCE CO., LTD Room 722, Sanjiang Building, No.170 Nanyang Road, Huiji District, Zhengzhou, Henan, China FCC ID: 2AAR8RETEVISRT27 Report

More information

TABLE OF CONTENTS. 6. PHOTOGRAPH Photo of Conducted Emission Measurement Photo of Radiation Emission Measurement...

TABLE OF CONTENTS. 6. PHOTOGRAPH Photo of Conducted Emission Measurement Photo of Radiation Emission Measurement... TABLE OF CONTENTS 1. SUMMARY OF TEST RESULTS... 4 2. GENERAL INFORMATION... 5 2.1 Details of E.U.T.... 5 2.2 Description of Support Device... 5 2.3 Block Diagram of Test Setup... 5 2.4 Test Facility...

More information

Ave output power ANT 1(dBm) Ave output power ANT 2 (dbm)

Ave output power ANT 1(dBm) Ave output power ANT 2 (dbm) Page 41 of 103 9.6. Test Result The test was performed with 802.11b Channel Frequency (MHz) power ANT 1(dBm) power ANT 2 (dbm) power ANT 1(mW) power ANT 2 (mw) Limits dbm / W Low 2412 7.20 7.37 5.248 5.458

More information

FCC ID: B4OCC264BPA-S

FCC ID: B4OCC264BPA-S FCC TEST REPORT FCC ID: B4OCC264BPA-S Product : Bluetooth LE Module Model Name : CC264BPA-S, CC265BPA-S, CC26xBPA Brand : GT-tronics Report No. : PTC801181160622E-FC01 Prepared for GT-tronics HK Ltd Unit

More information

FCC CERTIFICATION TEST REPORT

FCC CERTIFICATION TEST REPORT Report No:DDT-RE120176 Issued Date: 2013/01/05 FCC CERTIFICATION TEST REPORT FOR Applicant : AliMed Inc. Address : 297 High St Dedham Ma 02026 Equipment under Test : Alert transmitter Model No : #712716

More information

For. Unit D16/F. should not use it to claim FCC ID: 2AAIN-MNGLOS

For. Unit D16/F. should not use it to claim FCC ID: 2AAIN-MNGLOS Page 1 of 49 TESTT REPORT For Applicant : ACOUSTMAX INTERNATIONAL CO.., LTD Unit D16/F Cheuk Nang Plaza 250 Hennessy Road Address : WanchaiHongKong Product Name : Monster GLO Model Name : MNGLO-S, MNGLO-L,MNGLO-M,MNGLO-Mini

More information

STC Test Report. Date : Page 1 of 13 No. : HM161169

STC Test Report. Date : Page 1 of 13 No. : HM161169 Date : 2009-05-11 Page 1 of 13 Applicant (ATS001): Atech Scientific Measurement Limited. Room A-C, 18 Floor, Luk Hop Ind. Bldg, 8 Luk Hop Street, Kowloon Manufacturer: Atech Scientific Measurement Limited.

More information

Revision history. Revision Date of issue Test report No. Description KES-RF-14T0042 Initial

Revision history. Revision Date of issue Test report No. Description KES-RF-14T0042 Initial Page (2 ) of (34) Revision history Revision Date of issue Test report No. Description - 2014.08.25 Initial Page (3 ) of (34) TABLE OF CONTENTS 1. General information... 4 1.1. EUT description... 4 1.2.

More information

FCC RF Test Report. : FCC 47 CFR Part 2, and 90(S) : PCS Licensed Transmitter (PCB)

FCC RF Test Report. : FCC 47 CFR Part 2, and 90(S) : PCS Licensed Transmitter (PCB) FCC RF Test Report APPLICANT EQUIPMENT BRAND NAME MODEL NAME FCC ID STANDARD CLASSIFICATION : ZTE CORPORATION : LTE Ufi : ZTE : MF920VS : SRQ-MF920VS : FCC 47 CFR Part 2, and 90(S) : PCS Licensed Transmitter

More information

FCC PART TEST REPORT. Weccan Industrial Limited

FCC PART TEST REPORT. Weccan Industrial Limited FCC PART 15.249 TEST REPORT For Weccan Industrial Limited Rm209, 2/F, Building W1-A, No.34 Gaoxin South 4th St Hi-Tech Industrial Park, Nanshan District, Shenzhen China FCC ID: Z3CWECCANDRONE Report Type:

More information

Dongguan Nore Testing Center Co., Ltd. Report No.: NTC F TABLE OF CONTENTS

Dongguan Nore Testing Center Co., Ltd. Report No.: NTC F TABLE OF CONTENTS TABLE OF CONTENTS 1. SUMMARY OF TEST RESULTS... 4 2. GENERAL INFORMATION... 5 2.1 Details of E.U.T.... 5 2.2 Description of Support Device... 5 2.3 Block Diagram of Test Setup... 5 2.4 Test Facility...

More information

APPLICATION FOR VERIFICATION On Behalf of Carewell Electric Technology (Zhongshan) Co., Ltd. REMOTE CONTROL Model No.: AC8 FCC ID: 2AAZPAC8

APPLICATION FOR VERIFICATION On Behalf of Carewell Electric Technology (Zhongshan) Co., Ltd. REMOTE CONTROL Model No.: AC8 FCC ID: 2AAZPAC8 Page 1 of 19 APPLICATION FOR VERIFICATION On Behalf of Carewell Electric Technology (Zhongshan) Co., Ltd. REMOTE CONTROL Model No.: AC8 Prepared for : Carewell Electric Technology (Zhongshan) Co., Ltd.

More information

Page 1 of 51 Report No.: T TEST REPORT FCC ID: 2AGJ5WAP-30. In Accordance with: FCC PART 15, SUBPART C : 2015 (Section 15.

Page 1 of 51 Report No.: T TEST REPORT FCC ID: 2AGJ5WAP-30. In Accordance with: FCC PART 15, SUBPART C : 2015 (Section 15. Page 1 of 51 Report No.: T1851663 01 TEST REPORT FCC ID: 2AGJ5WAP-30 Applicant Address : Gonsin Conference Equipment Co., Ltd : No.401-406,Block C, Idea Industry Park, No.41 Fengxiang Road, Shunde, Foshan,

More information

FCC REPORT. Lightcomm Technology Co., Ltd.

FCC REPORT. Lightcomm Technology Co., Ltd. FCC REPORT Report No.: GTS201608000267E01 Applicant: Lightcomm Technology Co., Ltd. Address of Applicant: RM 1808 18/F FO TAN INDUSTRIAL CENTRE NOS. 26-28 AU PUI WAN STREET FO TAN SHATIN NEW TERRITORIES

More information

TEST SUMMARY Seite 2 von 31. Prüfbericht - Nr.: Test Report No ANTENNA REQUIREMENT RESULT: Pass

TEST SUMMARY Seite 2 von 31. Prüfbericht - Nr.: Test Report No ANTENNA REQUIREMENT RESULT: Pass Prüfbericht - Nr.: Test Report No. Seite 2 von 31 Page 2 of 31 TEST SUMMARY 5.1.1 ANTENNA REQUIREMENT RESULT: Pass 5.1.2 PEAK OUTPUT POWER RESULT: Pass 5.1.3 26DB BANDWIDTH RESULT: Pass 5.1.4 FREQUENCY

More information

Version TEST REPORT NO. DATE DESCRIPTION

Version TEST REPORT NO. DATE DESCRIPTION Version NO. DATE DESCRIPTION HCTR1302FR13 February 14, 2013 - First Approval Report - Additional Model Name Page 2 of 25 Table of Contents 1. GENERAL INFORMATION... 4 2. EUT DESCRIPTION... 4 3. TEST METHODOLOGY...

More information

FCC Test Report. Report No.: AGC FE01 2AAP6UB15MSKB. Attestation of Global Compliance (Shenzhen) Co., Ltd

FCC Test Report. Report No.: AGC FE01 2AAP6UB15MSKB. Attestation of Global Compliance (Shenzhen) Co., Ltd Page 1 of 24 FCC Test Report Report No.: AGC03052141001FE01 FCC ID 2AAP6UB15MSKB PRODUCT DESIGNATION : Keyboard BRAND NAME : N/A MODEL NAME : UB-15MSKB CLIENT : Shenzhen Zowee Technology Co., Ltd. DATE

More information

FCC Part 90 Certification Application. FCC Form 731. For The. Guardian UHF RADIO MODEM FCC ID: NP

FCC Part 90 Certification Application. FCC Form 731. For The. Guardian UHF RADIO MODEM FCC ID: NP Page 1 of 41 CAlamp Wireless Networks Corp. 299 Johnson Avenue, Suite 110 Waseca, MN 56093-0833 USA Phone: 507-833-8819 Fax: 507-833-6748 FCC Part 90 Certification Application FCC Form 731 For The Guardian

More information

EN / EN RADIO TEST REPORT. Shanghai Anviz Technology Co.Ltd Fingerprint & RFID Time Attendance Model No.: A300

EN / EN RADIO TEST REPORT. Shanghai Anviz Technology Co.Ltd Fingerprint & RFID Time Attendance Model No.: A300 Page 1 of 28 Report No.: T1861387 02 EN 300 330-1/ EN 300 330-2 RADIO TEST REPORT On Behalf of Shanghai Anviz Technology Co.Ltd Fingerprint & RFID Time Attendance Model No.: A300 Prepared for : Shanghai

More information

FCC PART 90 AND IC RSS-119, RSS-GEN TEST REPORT

FCC PART 90 AND IC RSS-119, RSS-GEN TEST REPORT 849 NW STATE ROAD 45 NEWBERRY, FL 32669 USA PH: 888.472.2424 OR 352.472.5500 FAX: 352.472.2030 EMAIL: INFO@TIMCOENGR.COM HTTP://WWW.TIMCOENGR.COM FCC PART 90 AND IC RSS-119, RSS-GEN TEST REPORT APPLICANT

More information

FCC PART 90 Test Report

FCC PART 90 Test Report FCC PART 90 Test Report Shenzhen CTL Testing Technology Co., Ltd. Tel: +86-755-89486194 Fax: +86-755-26636041 Report Reference No...: Compiled by CTL1406281472-WF ( position+printed name+signature)..:

More information

MEASUREMENT PROCEDURE AND TEST EQUIPMENT USED

MEASUREMENT PROCEDURE AND TEST EQUIPMENT USED MEASUREMENT PROCEDURE AND TEST EQUIPMENT USED Except where otherwise stated, all measurements are made following the Electronic Industries Association (EIA) Minimum Standard for Portable/Personal Land

More information

Verification On Behalf of Shenzhen Leer Chuang Technology Co., Ltd.

Verification On Behalf of Shenzhen Leer Chuang Technology Co., Ltd. Page 1 of 13 Report No. R011603851E Verification On Behalf of Shenzhen Leer Chuang Technology Co., Ltd. Digital Scale Model No.: SH-370, SH-368, SH-366, SH-367, SH-369, SH-233, SH-228, SH-258, SH-235,

More information

FCC & RSS-216 (Class II Permissive Change) Wireless Power Transfer Report. for A Acer Incorporated

FCC & RSS-216 (Class II Permissive Change) Wireless Power Transfer Report. for A Acer Incorporated Page 1 of 17 FCC 15.209 & RSS-216 (Class II Permissive Change) Wireless Power Transfer Report for A Acer Incorporated 8F., No.88, Sec. 1, Xintai 5th Rd., Xizhi, New Taipei City 22181, Taiwan (R.O.C) Product

More information

For. Tzone FCC ID: FCC Part Description: Product TZ-BT04. Report to Tested By: Manager STR I

For. Tzone FCC ID: FCC Part Description: Product TZ-BT04. Report to Tested By: Manager STR I FCCC Part 15C Measurement and Test For Report Tzone Digitall Technology Co.., LTD 16D, Haiying Building, South of Caitian Road, Futiann District, Shenzhen China FCC ID: 2AKSQTZBT04 FCC Rule(s): Product

More information

FCC Part 90 Mobile UHF Repeater Test Report

FCC Part 90 Mobile UHF Repeater Test Report 849 NW STATE ROAD 45 NEWBERRY, FL 32669 USA PH: 888.472.2424 OR 352.472.5500 EMAIL: INFO@TIMCOENGR.COM HTTP://WWW.TIMCOENGR.COM FCC Part 90 Mobile UHF Repeater Test Report APPLICANT FCC ID MODEL NUMBER

More information

FCC TEST REPORT FCC ID: 2ALCFXO-9319

FCC TEST REPORT FCC ID: 2ALCFXO-9319 Product : Bluetooth Speaker FCC TEST REPORT FCC ID: 2ALCFXO-9319 Model Name : XO-9319 Brand : N/A Report No. : PTCDQ01170710302-FC01 Prepared for Dongguan Xing Yue Electronic co., Ltd #98 LiWu Swan Industrial

More information

TABLE OF CONTENTS. 6. PHOTOGRAPH Photo of Conducted Emission Measurement Photo of Radiation Emission Measurement...

TABLE OF CONTENTS. 6. PHOTOGRAPH Photo of Conducted Emission Measurement Photo of Radiation Emission Measurement... TABLE OF CONTENTS 1. SUMMARY OF TEST RESULTS... 4 2. GENERAL INFORMATION... 5 2.1 Details of E.U.T.... 5 2.2 Description of Support Device... 6 2.3 Block Diagram of Test Setup... 6 2.4 Test Facility...

More information

King Pigeon Communication Co., Limited

King Pigeon Communication Co., Limited APPLICATION FOR ELECTROMAGNETIC COMPATIBILITY DIRECTIVE On Behalf of King Pigeon Communication Co., Limited Remote Controller RTU Model No.: S130, S140, S150, S180, S25x, S26x, S27x, RTU501x, RTU502x,

More information

TEST REPORT. Building 6, XinXinTian Industrial Park, XinSha Road, ShaJing, Baoan District, ShenZhen, China. Shenzhen Innokin Technology Co.

TEST REPORT. Building 6, XinXinTian Industrial Park, XinSha Road, ShaJing, Baoan District, ShenZhen, China. Shenzhen Innokin Technology Co. TEST REPORT Applicant Address Shenzhen Innokin Technology Co., Ltd Building 6, XinXinTian Industrial Park, XinSha Road, ShaJing, Baoan District, ShenZhen, China Manufacturer or Supplier Address Product

More information

Test Report. Prepared for: Becker Avionics, Inc. Model: TG Description: Aeronautical basestation radio used for emergencies

Test Report. Prepared for: Becker Avionics, Inc. Model: TG Description: Aeronautical basestation radio used for emergencies Test Report Prepared for: Becker Avionics, Inc Model: TG660-50 Description: Aeronautical basestation radio used for emergencies Serial Number: 10001, 10002 FCC ID: 2AHX9TG660 To FCC Part 87 Date of Issue:

More information

RF test report AU01+W02

RF test report AU01+W02 Customer: Kehlbergstrasse 109 8054 Graz Austria Tel.: +43 664 415 6260 RF test report 170186-AU01+W02 The test result refers exclusively to the tested model. This test report may not be copied or published

More information

FCC 47 CFR PART 15 SUBPART B TEST REPORT SHENZHEN EAGLE TECHNOLOGY CO., LTD Mirror photo booth Model No.: EAGMR

FCC 47 CFR PART 15 SUBPART B TEST REPORT SHENZHEN EAGLE TECHNOLOGY CO., LTD Mirror photo booth Model No.: EAGMR FCC 47 CFR PART 15 SUBPART B TEST REPORT SHENZHEN EAGLE TECHNOLOGY CO., LTD Mirror photo booth Model No.: EAGMR Prepared for Address : SHENZHEN EAGLE TECHNOLOGY CO., LTD : A FIoor 1 BIdg.14, Changfeng

More information

REPORT ON Radio testing of the VERTEX STANDARD VX-2100-G6-45 / VX-2200-G6-45 In accordance with ANSI/TIA/EIA-603, RSS-119. Report number TA000506

REPORT ON Radio testing of the VERTEX STANDARD VX-2100-G6-45 / VX-2200-G6-45 In accordance with ANSI/TIA/EIA-603, RSS-119. Report number TA000506 Page 1 of 48 REPORT ON Radio testing of the VERTEX STANDARD VX-2100-G6-45 / VX-2200-G6-45 In accordance with ANSI/TIA/EIA-603, RSS-119 Report number TA000506 June 2007 Report number TA000506 Page 2 of

More information

FCC TEST REPORT. For EASYACC TECHNOLOGY CO., LIMITED Wireless speaker

FCC TEST REPORT. For EASYACC TECHNOLOGY CO., LIMITED Wireless speaker FCC ID: 2AJUJ-DP300 Page1 of 46 Report No.: R0217060058W FCC TEST REPORT For EASYACC TECHNOLOGY CO., LIMITED Wireless speaker Model No.: DP300 Prepared For : EASYACC TECHNOLOGY CO., LIMITED Address : UNIT

More information

FCC PART 15C TEST REPORT FOR CERTIFICATION On Behalf of. ION Audio, LLC. Portable Karaoke PA speaker with vocal effects

FCC PART 15C TEST REPORT FOR CERTIFICATION On Behalf of. ION Audio, LLC. Portable Karaoke PA speaker with vocal effects FCC PART 15C TEST REPORT FOR CERTIFICATION Behalf of ION Audio, LLC Portable Karaoke PA speaker with vocal effects Model Number: ipk3 KARAOKE STAR PLUS FCC ID: 2AB3E-IPK3 Prepared for: Prepared By: ION

More information

Class II Permissive Change Report

Class II Permissive Change Report Engineering and Testing for EMC and Safety Compliance Class II Permissive Change Report Harris Corporation 221 Jefferson Ridge Parkway Lynchburg, VA 24501 Daryl Popowitch Phone: (434) 455-9527 Model: P5400

More information

Test Report Version. Test Report No. Date Description. DRTFCC Jan. 13, 2015 Initial issue

Test Report Version. Test Report No. Date Description. DRTFCC Jan. 13, 2015 Initial issue Test Report Version Test Report No. Date Description DRTFCC1501-0004 Jan. 13, 2015 Initial issue TRF-RF-219(00)130701 Page2 / 37 Table of Contents 1. GENERAL INFORMATION... 4 2. EUT DESCRIPTION... 4 2.1

More information

Version TEST REPORT NO. DATE DESCRIPTION. HCTR1208FR50 August 29, 2012 First Approval Report

Version TEST REPORT NO. DATE DESCRIPTION. HCTR1208FR50 August 29, 2012 First Approval Report Version TEST REPORT NO. DATE DESCRIPTION First Approval Report Page 2 of 101 Table of Contents 1. GENERAL INFORMATION... 4 2. INTRODUCTION... 5 2.1. EUT DESCRIPTION... 5 2.2. MEASURING INSTRUMENT CALIBRATION...

More information

MODEL: P5400 UHF-L Portable Radio

MODEL: P5400 UHF-L Portable Radio Engineering and Testing for EMC and Safety Compliance Accredited under NVLAP Lab Code 200061-0 Certification Report M/A-COM, Inc. 221 Jefferson Ridge Parkway Lynchburg, VA 24501 Daryl Popowitch Phone:

More information

Pass* * In the configuration tested, the EUT complied with the standards specified above.

Pass* * In the configuration tested, the EUT complied with the standards specified above. No. 1 Workshop, M-10, Middle section, Science & Technology Park, Shenzhen, Guangdong, China 518057 Telephone: +86 (0) 755 2601 2053 Fax: +86 (0) 755 2671 0594 Email: ee.shenzhen@sgs.com Page: 1 of 41 Application

More information

3. MEASURING DEVICES AND TEST EQUIPMENT For Radiated Emission Measurement... 6

3. MEASURING DEVICES AND TEST EQUIPMENT For Radiated Emission Measurement... 6 TABLE OF CONTENTS 1. SUMMARY OF TEST RESULTS... 3 2. GENERAL INFORMATION... 4 2.1 Details of E.U.T.... 4 2.2 Description of Support Device... 4 2.3 Block Diagram of Test Setup... 5 2.4 Test Facility...

More information

FCC TEST REPORT. For. SPECTRA Technologies Holdings Co. Ltd EFTPOS. Model No. : SPECTRA T1000

FCC TEST REPORT. For. SPECTRA Technologies Holdings Co. Ltd EFTPOS. Model No. : SPECTRA T1000 FCC ID: VWZT1000-1 - FCC TEST REPORT For SPECTRA Technologies Holdings Co. Ltd EFTPOS Model No. : SPECTRA T1000 Prepared for : SPECTRA Technologies Holdings Co. Ltd Address Unit1301-1309,19-20,Tower11,Grand

More information

FCC RF Test Report. : FCC 47 CFR Part 2, and 90(S) : PCS Licensed Transmitter Held to Ear (PCE)

FCC RF Test Report. : FCC 47 CFR Part 2, and 90(S) : PCS Licensed Transmitter Held to Ear (PCE) FCC RF Test Report APPLICANT EQUIPMENT BRAND NAME MODEL NAME MARKETING NAME FCC ID STANDARD CLASSIFICATION : BLU Products, Inc. : Mobile phone : BLU : S1, VIVO S : BLU S1 : YHLBLUS1 : FCC 47 CFR Part 2,

More information

FCC 47 CFR PART 15 SUBPART B TEST REPORT KST DIGITAL TECHNOLOGY LIMITED. Brushless Servo

FCC 47 CFR PART 15 SUBPART B TEST REPORT KST DIGITAL TECHNOLOGY LIMITED. Brushless Servo FCC 47 CFR PART 15 SUBPART B TEST REPORT KST DIGITAL TECHNOLOGY LIMITED Brushless Servo Model No.: X20-3612 Additional Model No.: X20-1035, X20-2208, X20-3012, X20-9650, BLS159, BLS651, BLS259, BLS359,

More information

Vertex Standard Co., Ltd. Page 1 of 38

Vertex Standard Co., Ltd. Page 1 of 38 Page 1 of 38 REPORT ON Radio testing of the VERTEX STANDARD VX-2100-G6-45 / VX-2200-G6-45 In accordance with ANSI/TIA/EIA-603-C, RSS-119 Report number TA001110 December 2011 Report number TA001110 Page

More information

TABLE OF CONTENTS 1. GENERAL INFORMATION... 4

TABLE OF CONTENTS 1. GENERAL INFORMATION... 4 TABLE OF CONTENTS 1. GENERAL INFORMATION... 4 1.1. EUT DESCRIPTION... 4 1.2. TEST STANDARDS AND RESULTS... 5 1.3. FACILITIES AND ACCREDITATIONS... 6 1.3.1. FACILITIES... 6 1.3.2. TEST ENVIRONMENT CONDITIONS...

More information

FCC & IC Class II Permissive Change Report

FCC & IC Class II Permissive Change Report Engineering Solutions & Electromagnetic Compatibility Services FCC & IC Class II Permissive Change Report Standards Referenced for this Report Part 2: 2010 Frequency Allocations and Radio Treaty Matters;

More information

Verification of Conformity On Behalf of

Verification of Conformity On Behalf of Verification of Conformity On Behalf of EVERPRO TECHNOLOGIES COMPANY LTD. HDMI Active optical Cable Model No.: HDMI OPTICAL FIBER CABLE 330FT, 300FT, 250FT, 200FT, 150FT, 100FT, 50FT Prepared for : EVERPRO

More information

EMC TEST REPORT for Repel-it. REPEL-IT ULTRASONIC PEST REPELLER Model No. : REPEL-IT/UPR/AN-B019

EMC TEST REPORT for Repel-it. REPEL-IT ULTRASONIC PEST REPELLER Model No. : REPEL-IT/UPR/AN-B019 Page 1 of 22 Report No. 201311760E EMC TEST REPORT for Repel-it REPEL-IT ULTRASONIC PEST REPELLER Model No. : REPEL-IT/UPR/AN-B019 Applicant : Repel-it Address 168 Logan Road, Woolloongabba, Brisbane,

More information

TEST REPORT Part 90 & IC RSS-119(Issue 11)

TEST REPORT Part 90 & IC RSS-119(Issue 11) TEST REPORT Part 90 & IC RSS-119(Issue 11) Equipment under test ALPHA & SERIAL TX Model name LTK-1400AHN FCC ID QBT LTK-1400AHN IC 5269A- LTK1400AHN Applicant Lee Technology Korea Co., Ltd. Manufacturer

More information

TEST REPORT. For ELECTRONICS TECHNOLOGY (DONG GUAN) COMPANY LIMITED EN V9.0.2 ( )

TEST REPORT. For ELECTRONICS TECHNOLOGY (DONG GUAN) COMPANY LIMITED EN V9.0.2 ( ) TEST REPORT For ELECTRONICS TECHNOLOGY (DONG GUAN) COMPANY LIMITED No.161, Xin Min Road, Tong Luo Wei Industrial Zone, Jin Xia, Chang An Town, Dong Guan City, Guang Dong Province, China EN 301 511 V9.0.2

More information

TRANSMITTER MODEL: KAS-2030M

TRANSMITTER MODEL: KAS-2030M Page 1 of 16 FCC PART 15, SUBPART B and C TEST REPORT for TRANSMITTER MODEL: KAS-2030M Prepared for WILDLIFE TECHNOLOGIES 115 WOLCOTT STREET MANCHESTER, NEW HAMPSHIRE 03103 Prepared by: KYLE FUJIMOTO Approved

More information

REPORT REVISION HISTORY...

REPORT REVISION HISTORY... Reference No.: WTS17S0579239E Page 2 of 39 2 Contents Page 1 COVER PAGE... 1 2 CONTENTS... 2 3 REPORT REVISION HISTORY... 3 4 GENERAL INFORMATION... 4 4.1 GENERAL DESCRIPTION OF E.U.T.... 4 4.2 DETAILS

More information

TEST REPORT. : Masterbuilt Manufacturing Inc. 1 Masterbuilt Court Columbus, Georgia, 31907, USA

TEST REPORT. : Masterbuilt Manufacturing Inc. 1 Masterbuilt Court Columbus, Georgia, 31907, USA Applicant Name & Address Sample Description Product TEST REPORT Report No.: 170527172GZU-001 : Masterbuilt Manufacturing Inc. 1 Masterbuilt Court Columbus, Georgia, 31907, USA : 30 inch Electric Smoker

More information

FCC PART 15C TEST REPORT FOR CERTIFICATION On Behalf of. DEI Sales Inc. dba Definitive Technology. Model Number: STUDIO SLIM SUBWOOFER

FCC PART 15C TEST REPORT FOR CERTIFICATION On Behalf of. DEI Sales Inc. dba Definitive Technology. Model Number: STUDIO SLIM SUBWOOFER FCC PART 15C TEST REPORT FOR CERTIFICATION On Behalf of DEI Sales Inc. dba Definitive Technology 3.1 Home Theater Sound Bar and Wireless Subwoofer System Model Number: STUDIO SLIM SUBWOOFER FCC ID: IPUSTUSLIMSUB

More information

FCC Verification TEST REPORT

FCC Verification TEST REPORT FCC Verification TEST REPORT Product: 5 in 1 Environment Meter Model no.: ET-965 Trade Mark: N/A Report No.: TCT140915E005 Issued Date: Sep. 22, 2014 Issued for: Shenzhen Flus Technology Co., Ltd 3rd Floor,

More information

FCC Test Report. Report No.: AGC FE03 CLIENT : COMERCIALIZADORA MILENIO SA DE CV. Attestation of Global Compliance (Shenzhen) Co.

FCC Test Report. Report No.: AGC FE03 CLIENT : COMERCIALIZADORA MILENIO SA DE CV. Attestation of Global Compliance (Shenzhen) Co. Page 1 of 57 FCC Test Report FCC ID : 2ABD2PMID703GK APPLICATION PURPOSE : Original Equipment PRODUCT DESIGNATION : GSM Mobile Tablet BRAND NAME : Polaroid MODEL NAME : PMID703GK CLIENT : COMERCIALIZADORA

More information

PCTEST Engineering Laboratory, Inc B Dobbin Road Columbia, MD U.S.A. TEL (410) FAX (410)

PCTEST Engineering Laboratory, Inc B Dobbin Road Columbia, MD U.S.A. TEL (410) FAX (410) PCTEST Engineering Laboratory, Inc. 6660-B Dobbin Road Columbia, MD 21045 U.S.A. TEL (410) 290-6652 FAX (410) 290-6654 http://www.pctestlab.com CERTIFICATE OF COMPLIANCE FCC Part 24 & 22 Certification

More information

FCC Test Report. FCC Part 15 Subpart B. Neets A/S. Touch Panel (Touch Panel-7B) 2AM ZKS E. William Liu (Engineer)

FCC Test Report. FCC Part 15 Subpart B. Neets A/S. Touch Panel (Touch Panel-7B) 2AM ZKS E. William Liu (Engineer) FCC Test Report FCC Rule(s): Applicant: Product Name: Model: FCC ID: Report No.: FCC Part 15 Subpart B Neets A/S Touch Panel 313-0001(Touch Panel-7B) 2AM35-313-0001 ZKS170600143E Tested Date: 2017-07-06

More information

RF Test Report. Report No.: AGC EE10. TEST NAME : 1999/5/EC R&TTE Directive Art.3.2 STANDARD(S) : EN V : V1.

RF Test Report. Report No.: AGC EE10. TEST NAME : 1999/5/EC R&TTE Directive Art.3.2 STANDARD(S) : EN V : V1. Page 1 of 49 RF Test Report Report No.: AGC05278160201EE10 TEST NAME : 1999/5/EC R&TTE Directive Art.3.2 PRODUCT DESIGNATION : ihere3.0 BRAND NAME : ihere3.0 MODEL NAME : ihere3.0 CLIENT : No NDA Inc.

More information

FCC TEST REPORT. For Datastore Technology Corp. T35278

FCC TEST REPORT. For Datastore Technology Corp. T35278 FCC TEST REPORT For Datastore Technology Corp. T35278 Model No. : T3527 VIII Prepared for : Datastore Technology Corp. 9F, No. 10, Sec. 1, Chung Hsing Rd., Wu-Ku District, New Taipei City, Taiwan, R.O.C.

More information

FCC ID: A3LSLS-BD106Q. Report No.: HCT-RF-1801-FC003. Plot Data for Output Port 2_QPSK 9 khz ~ 150 khz Middle channel 150 khz ~ 30 MHz Low channel

FCC ID: A3LSLS-BD106Q. Report No.: HCT-RF-1801-FC003. Plot Data for Output Port 2_QPSK 9 khz ~ 150 khz Middle channel 150 khz ~ 30 MHz Low channel Plot Data for Output Port 2_QPSK 9 khz ~ 150 khz Middle channel 150 khz ~ 30 MHz Low channel 30 MHz ~ 1 GHz Middle channel 1 GHz ~ 2.491 GHz Low channel 2.695 GHz ~ 12.75 GHz High channel 12.75 GHz ~ 26.5

More information

EXHIBIT 7: MEASUREMENT PROCEDURES Pursuant 47 CFR 2.947

EXHIBIT 7: MEASUREMENT PROCEDURES Pursuant 47 CFR 2.947 EXHIBIT 7: MEASUREMENT PROCEDURES Pursuant 47 CFR 2.947 7.1 RF Power -- Pursuant to 47 CFR 2.947(c) Method of Conducted Output Power Measurement: Adaptation of TIA/EIA-603-A clause 2.2.1 for Pulsed Measurements

More information

FCC TEST REPORT On Behalf of GZTOD.CO., LTD The Multifunctional Platooninsert Model No.: YA30WSL-6AU6U

FCC TEST REPORT On Behalf of GZTOD.CO., LTD The Multifunctional Platooninsert Model No.: YA30WSL-6AU6U FCC TEST REPORT On Behalf of GZTOD.CO., LTD The Multifunctional Platooninsert Model No.: YA30WSL-6AU6U Prepared for Address : GZTOD.CO., LTD : 2-5/F, Building A4, Huimingsheng Industrial Park, Tongfuyu

More information

FCC Test Report. Received Date : Dec. 18, Tested Date : Jan. 08 ~ Jan. 23, 2014

FCC Test Report. Received Date : Dec. 18, Tested Date : Jan. 08 ~ Jan. 23, 2014 FCC Test Report FCC ID Equipment Model No. Brand Name Applicant Address Standard : MXF-WLTCS106 : WiMAX Gateway : WLTCS-106 : Gemtek Received Date : Dec. 18, 2013 : Gemtek Technology Co., Ltd. : No. 15-1

More information

Spectrian Dual Mode Cellular Power Amplifier Model No.: SCLPA 800 CR FCC ID: I2ONTHX51AA

Spectrian Dual Mode Cellular Power Amplifier Model No.: SCLPA 800 CR FCC ID: I2ONTHX51AA A Class II Permissive Change - FCC Part 22 Type Acceptance Test Report for Spectrian Dual Mode Cellular Power Amplifier Model No.: SCLPA 800 CR FCC ID: I2ONTHX51AA Date of Report: May 26, 1999 Total No.

More information

Test Report Version. Test Report No. Date Description. DRTFCC Sep. 12, 2014 Initial issue

Test Report Version. Test Report No. Date Description. DRTFCC Sep. 12, 2014 Initial issue DEMC1407-02828 FCC ID: 2AAAQH660W Test Report Version Test Report No. Date Description DRTFCC1409-1165 Sep. 12, 2014 Initial issue Page 2 DEMC1407-02828 FCC ID: 2AAAQH660W Table of Contents 1. EUT DESCRIPTION...

More information

FCC PART 15C TEST REPORT FOR CERTIFICATION On Behalf of. Superior communications. Wireless charger. Model Number: Additional Model: 06122

FCC PART 15C TEST REPORT FOR CERTIFICATION On Behalf of. Superior communications. Wireless charger. Model Number: Additional Model: 06122 FCC PART 15C TEST REPORT FOR CERTIFICATION On Behalf of Superior communications. Wireless charger Model Number: 06121 Additional Model: 06122 FCC ID: YJW06121 Prepared for: Superior communications. 5027

More information

Test Summary Seite 2 von 26. Prüfbericht - Nr.: Test Report No. Page 2 of 26

Test Summary Seite 2 von 26. Prüfbericht - Nr.: Test Report No. Page 2 of 26 Prüfbericht - Nr.: Test Report No. Seite 2 von 26 Page 2 of 26 Test Summary 5.1.1 ANTENNA REQUIREMENT RESULT: Pass 5.1.2 MAXIMUM CONDUCTED OUTPUT POWER RESULT: Pass 5.1.3 CONDUCTED POWER SPECTRAL DENSITY

More information

RF Emissions Test Report To Determine Compliance With: FCC, Part 15 Rules and Regulations

RF Emissions Test Report To Determine Compliance With: FCC, Part 15 Rules and Regulations RF Emissions Test Report To Determine Compliance With: FCC, Part 15 Rules and Regulations Model numbers: HT130022 Rev. B. December 17, 2002 Manufacturer: HQ, Inc. 210 9th Steet Drive Palmetto, FL 34221

More information

FCC Test Report. : Wireless Way Richmond, BC, V6V 3A4 Canada : 47 CFR FCC Part 27 Subpart L

FCC Test Report. : Wireless Way Richmond, BC, V6V 3A4 Canada : 47 CFR FCC Part 27 Subpart L FCC Test Report FCC ID Equipment Model No. Brand Name Applicant Address Standard : N7NHL7688 : Wireless Module : HL7688 : AirPrime : Sierra Wireless Inc. Received Date : Jul. 12, 2016 : 13811 Wireless

More information

FCC PART MEASUREMENT AND TEST REPORT

FCC PART MEASUREMENT AND TEST REPORT FCC PART 15.109 MEASUREMENT AND TEST REPORT FOR ThinNetworks IT products Limited SAAN 02 #260- Industrial Zone Brasilia- DF, Brazil- 70.632-200 FCC ID: WQ3CF-000585 Report Concerns: Original Report Equipment

More information

FCC PART 15C TEST REPORT FOR CERTIFICATION On Behalf of SUNVALLEYTEK INTERNATIONAL, INC. VAVA Docking Station. Model Number: VA-DK001

FCC PART 15C TEST REPORT FOR CERTIFICATION On Behalf of SUNVALLEYTEK INTERNATIONAL, INC. VAVA Docking Station. Model Number: VA-DK001 FCC PART 15C TEST REPORT FOR CERTIFICATION On Behalf of SUNVALLEYTEK INTERNATIONAL, INC. VAVA Docking Station Model Number: VA-DK001 Prepared for: SUNVALLEYTEK INTERNATIONAL, INC. 46724 Lakeview Blvd,

More information

OUTDOOR SOUND MODULE/TRANSMITTER MODEL: THE BANDIT

OUTDOOR SOUND MODULE/TRANSMITTER MODEL: THE BANDIT Page 1 of 16 FCC PART 15, SUBPART B and C TEST REPORT for OUTDOOR SOUND MODULE/TRANSMITTER MODEL: THE BANDIT Prepared for MINASKA OUTDOORS 6517 PLATTE AVENUE LINCOLN, NEBRASKA 68507 Prepared by: KYLE FUJIMOTO

More information

Spurious Emissions & Emission Mark Report

Spurious Emissions & Emission Mark Report Spurious Emissions & Emission Mark Report for the SRT Marine Technology Ltd Neon 403-0001 AIS Class B Transceiver No. Issue#1: 20 th July 2009 EU Notified Body FCC & VCCI Registered BSMI Lab ID: SL2-IN-E-3008

More information