Source: http://hobbydocbox.com/Radio/65949094-Application-for-certification-on-behalf-of-futaba-corporation-radio-control-model-no-t10cg-2-4g-fcc-id-azpt10cg-24g-brand-futaba.html
Timestamp: 2018-09-23 02:07:09
Document Index: 81152954

Matched Legal Cases: ['ART 15', 'art 15', 'art 15', 'art 15', 'arts 15', 'art15', 'art15']

APPLICATION FOR CERTIFICATION On Behalf of Futaba Corporation Radio Control Model No.:T10CG-2.4G FCC ID:AZPT10CG-24G Brand : Futaba - PDF
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1 FCC ID. AZPT10CG-24G Page 1 of 56 APPLICATION FOR CERTIFICATION On Behalf of Futaba Corporation Radio Control Model No.:T10CG-2.4G FCC ID:AZPT10CG-24G Brand : Futaba Prepared for : Futaba Corporation 1080 Yabutsuka Chosei-son Chosei-gun Chiba, Japan. Prepared by : EMC Department No , Tin-Fu Tsun, Lin-Kou Hsiang, Taipei Hsien, Taiwan Tel : (02) , Fax: (02) File Number : EM Report Number : EM-F Date of Test : Mar. 02 ~ 10, 2009 Date of Report : Mar. 11, 2009
2 FCC ID. AZPT10CG-24G Page 2 of 56 TABLE OF CONTENTS Description Page TEST REPORT CERTIFICATION GENERAL INFORMATION Description of Device (EUT) Tested Supporting System Details Description of Test Facility Measurement Uncertainty CONDUCTED EMISSION MEASUREMET Test Equipment Block Diagram of Test Setup Powerline Conducted Emission Limit Operating Condition of EUT Test Procedure Conducted Emission Measurement Results RADIATED EMISSION MEASUREMENT Test Equipment Test Setup Radiated Emission Limits ( ) Operating Condition of EUT Test Procedure Test Results dB BANDWIDTH MEASUREMENT Test Equipment Block Diagram of Test Setup Specification Limits ( (a)(2)) Operating Condition of EUT Test Procedure Test Results MAXIMUM PEAK OUTPUT POWER MEASUREMENT Test Equipment Block Diagram of Test Setup Specification Limits ( (b)-(3)) Operating Condition of EUT Test Procedure Test Results EMISSION LIMITATIONS MEASUREMENT Test Equipment Block Diagram of Test Setup Specification Limits ( (c)) Operating Condition of EUT Test Procedure Test Results BAND EDGES MEASUREMENT Test Equipment Block Diagram of Test Setup Specification Limits ( (c)) Operating Condition of EUT Test Procedure Test Results POWER SPECTRAL DENSITY MEASUREMENT...46
3 FCC ID. AZPT10CG-24G Page 3 of Test Equipment Block Diagram of Test Setup Specification Limits ( (d)) Operating Condition of EUT Test Procedure Test Results DEVIATION TO TEST SPECIFICATIONS PHOTOGRAPHS Photos of Conducted Disturbance Measurement Photos of Radiated Measurement at Semi-Anechoic Chamber Photo of 6dB Bandwidth Measurement Photo of Maximum Peak Output Measurement Photo of Emission Limitations Measurement Photo of Band Edges Measurement Photo of Power Spectral Density Measurement...56 APPENDIX I (Radiated Test Data for frequency rang above 1GHz at Semi-Anechoic Chamber)
4 FCC ID. AZPT10CG-24G Page 4 of 56 TEST REPORT CERTIFICATION Applicant : Futaba Corporation Manufacturer : Futaba Corporation EUT Description : Radio Control FCC ID : AZPT10CG-24G (A) Model No. : T10CG-2.4G (B) Serial No. : N/A (C) Brand : Futaba (D) Power Supply : DC 9.6V (E) Test Voltage : (1) AC 120V/60Hz (Via Ni-Cd Charger) (2) DC 9.6V (Via Ni-Cd Battery) Measurement Procedure Used: FCC RULES AND REGULATIONS PART 15 SUBPART B & C, July AND ANSI C63.4/2003 (FCC CFR 47 Part 15B, and ) (FCC CFR 47 Part 15C, and and ) The device described above was tested by to determine the maximum emission levels emanating from the device. The maximum emission levels were compared to the FCC Part 15 subpart B & C limits. The measurement results are contained in this test report and AUDIX Technology Corporation is assumed full responsibility for the accuracy and completeness of these measurements. Also, this report shows that the EUT to be technically compliant with the FCC official limits. This report applies to above tested sample only. This report shall not be reproduced in part without written approval of. Date of Test : Mar. 02 ~ 10, 2009 Date of Report : Mar. 11, 2009 Producer : Review : Signatory : (Tina Huang/Administrator) (Henning Chang/Supervisor) (Ben Cheng/Manager)
5 FCC ID. AZPT10CG-24G Page 5 of GENERAL INFORMATION 1.1. Description of Device (EUT) Description : Radio Control (Transmitter Unit) Model Number : T10CG-2.4G Serial Number : N/A Brand : Futaba FCC ID : AZPT10CG-24G Applicant : Futaba Corporation Manufacturer : Futaba Corporation Radio Technology : DSSS Modulation 1080 Yabutsuka Chosei-son Chosei-gun Chiba, Japan Yabutsuka Chosei-son Chosei-gun Chiba, Japan. Frequency Band : MHz ~ MHz Tested Frequency : MHz (Channel 02) MHz (Channel 38) MHz (Channel 72) Frequency Channel : 36 channels Antenna (Pencil Antenna) : Antenna Gain: 1.3dBi Ni-Cd Battery : Futaba, M/N NT8S700B 9.6VDC, 700mA
6 FCC ID. AZPT10CG-24G Page 6 of 56 Ni-Cd Charger : Futaba, M/N FBC-20A(4) DC Power Cord Link to EUT: Non-Shielded, Undetachable, 1.8m Link to Ni-Cd Battery: Non-Shielded, Undetachable, 1.8m Date of Receipt of Sample : Feb. 16, 2009 Date of Test : Mar. 02 ~ 10, Tested Supporting System Details Ni-Cd BATTERY Model Number : NR5F600 Serial Number : N/A Manufacturer : Futaba Capacity : 6VDC, 600mAh POWER SOCKET Power Cord : Non-Shielded, Detachable, 1.8m 1.3. Description of Test Facility Name of Firm : EMC Department No , Tin-Fu Tsun, Lin-Kou Hsiang, Taipei Hsien, Taiwan Test Location & Facility : No. 2 Shielded Room (C2/AC) No , Tin-Fu Tsun, Lin-Kou Hsiang, Taipei Hsien, Taiwan. Semi-Anechoic Chamber No , Tin-Fu Tsun, Lin-Kou Hsiang, Taipei Hsien, Taiwan. May 15, 2006 File on Federal Communication Commission Registration Number: NVLAP Lab. Code : (NVLAP is a NATA accredited body under Mutual Recognition Agreement) TAF Accreditation No : 1724
7 FCC ID. AZPT10CG-24G Page 7 of Measurement Uncertainty Test Item Frequency Range Uncertainty (db), (V/m) Conduction Test 150kHz~30MHz ±1.73dB 30MHz~300MHz Radiation Test 300MHz~1000MHz (Distance: 3m) Above 1GHz Remark:Uncertainty = ku c (y) ± 2.91dB ± 2.74dB ± 5.02dB Test Item 6dB Bandwidth Emission Limitations Maximum peak output power Band edges Power spectral density Uncertainty ± 0.05kHz ± 0.13dB ± 0.33dBm ± 0.13dB ± 0.13dB
8 FCC ID. AZPT10CG-24G Page 8 of CONDUCTED EMISSION MEASUREMET 2.1. Test Equipment The following test equipment were used during the conducted measurement: (No. 2 Shielded Room) Item Type Manufacturer Model No. Serial No. Last Cal. Next Cal. 1. Test Receiver R&S ESCS Mar. 05, 09 Mar. 04, A.M.N. R & S ESH2-Z /023 Jan. 14, 09 Jan. 13, Pulse Limiter R&S ESH3-Z2 001 Feb. 20, 09 Feb. 19, Block Diagram of Test Setup AC POWER SOURCE TRANSFORMER A.M.N. PULSE LIMITER TEST RECEIVER POWER SOCKET PC SYSTEM PRINTER Ni-Cd BATTERY RADIO CONTROL (EUT) : POWER LINE : SIGNAL LINE : Ni-Cd CHARGER 2.3. Powerline Conducted Emission Limit Frequency Maximum RF Line Voltage Quasi-Peak Level Average Level 150kHz ~ 500kHz 66 ~ 56 dbμv 56 ~ 46 dbμv 500kHz ~ 5MHz 56 dbμv 46 dbμv 5MHz ~ 30MHz 60 dbμv 50 dbμv Remark1.: If the average limit is met when using a Quasi-Peak detector, the EUT shall be deemed to meet both limits and measurement with the average detector is unnecessary. 2.: The lower limit applies at the band edges.
9 FCC ID. AZPT10CG-24G Page 9 of Operating Condition of EUT Set up the EUT (Radio Control) and simulator as shown on To turn on the power of all equipments Both of EUT and Ni-Cd Battery were via Ni-Cd charger and on charging status during all testing Test Procedure The EUT (via Ni-Cd Charger) was put on table which was above the ground by 80cm and Ni-Cd Charger connected to the AC mains through an Artificial Mains Network (A.M.N.). The other peripheral devices power cord connected to the power mains through a line impedance stabilization network (L.I.S.N.). This provided a 50 ohm coupling impedance for the measuring equipment. (Please refer to the block diagram of the test setup and photographs.) Both sides of A.C. line were checked for maximum conducted interference. In order to find the maximum emission, the relative positions simulators of the interface cables should be manipulated according to FCC ANSI C during conducted measurement. The bandwidth of the R&S Test Receiver ESCS30 was set at 9kHz. The frequency range from 150kHz to 30MHz was checked. All the final readings from Test Receiver were measured with the Quasi-Peak detector and Average detector. (Remark: If the Average limit is met when using a Quasi-Peak detector, the Average detector is unnecessary) 2.6. Conducted Emission Measurement Results PASSED. (All the emissions not reported below are too low against the prescribed limits.) EUT (via Ni-Cd Charger) was performed during this section testing and all the test results are attached in next pages. EUT:Radio Control M/N:T10CG-2.4G Test Date:Mar. 10, 2009 Temperature:21 Humidity:57% Reference Test Data No.: Neutral: # 1 ; Line: # 2
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12 FCC ID. AZPT10CG-24G Page 12 of RADIATED EMISSION MEASUREMENT 3.1. Test Equipment The following test equipment was used during the radiated emission measurement: For Frequency Range 30MHz~1000MHz (at Semi-Anechoic Chamber) Item Type Manufacturer Model No. Serial No. Last Cal. Next Cal. 1. Spectrum Analyzer HP 8564EC 3946A00249 Oct. 24, 08 Oct. 23, Test Receiver R & S ESCS Aug. 28, 08 Aug. 27, Pre-Amplifier HP 8447D 2944A06305 Feb. 04, 09 Feb. 03, Biconical Antenna CHASE VBA6106A 1264 Apr. 10, 08 Apr. 09, Log Periodic Antenna Schwarzbeck UHALP91 08-A For Frequency Above 1GHz (at Semi-Anechoic Chamber) 0810 Apr. 10, 08 Apr. 09, 09 Item Type Manufacturer Model No. Serial No. Last Cal. Next Cal. 1. Spectrum Analyzer HP 8564EC 3946A00249 Oct. 24, 08 Oct. 23, Pre-Amplifier HP 8449B 3008A01284 Jun. 17, 08 Jun. 16, GHz Notch EWT-14-0 EWT Filter 070 G2 Dec. 08, 08 Dec. 07, G High Pass HP Jan. 09, 09 Jan. 08, 10 Filter Horn Antenna EMCO May 20, 08 May 19, Horn Antenna EMCO Oct. 03, 08 Oct. 02, Test Setup Block Diagram of connection between EUT and simulators Test Mode: Charge AC POWER SOURCE POWER SOCKET Ni-Cd BATTERY RADIO CONTROL (EUT) : Ni-Cd CHARGER Test Modes: Transmit and Receive RADIO CONTROL (EUT)
13 FCC ID. AZPT10CG-24G Page 13 of Semi-Anechoic Chamber (3m) Setup Diagram for MHz ANTENNA TOWER ANTENNA ELEVATION VARIES FROM 1m TO 4m 3 METERS EUT TURN TABLE 0.8m GROUND PLANE TEST EQUIPMENT Semi-Anechoic Chamber (3m) Setup Diagram for above 1GHz ANTENNA TOWER ANTENNA ELEVATION VARIES FROM 1m TO 4m 3 m EUT 0.8 m TURN TABLE GROUND PLANE TEST EQUIPMENT
14 FCC ID. AZPT10CG-24G Page 14 of Radiated Emission Limits ( ) FREQUENCY DISTANCE FIELD STRENGTHS LIMITS MHz Meters μv/m dbμv/m 30 ~ ~ ~ Above Above dbμv/m (Peak) 54.0 dbμv/m (Average) Remark:(1) Emission level (dbμv/m) = 20 log Emission level (μv/m) (2) The tighter limit applies at the edge between two frequency bands. (3) Distance refers to the distance in meters between the measuring instrument antenna and the closed point of any part of the device or system. (4) The limits in this table are based on CFR 47 Part (a)(b) and Part (a). (5) The over 1GHz limit, FCC limit is used based on CFR 47 Part (b) and Part (b) & Part (e) and Part (c) Operating Condition of EUT Set up the EUT (Radio Control) as shown on To turn on the power of all equipment The EUT was set the PC system using test program Futaba Term Charge Mode: Both of EUT and Ni-Cd Battery were via Ni-Cd charger and on charging status during all testing Transmit Mode: The EUT was set to continuously transmit signals at MHz MHz and MHz during testing Receive Mode: The EUT was set to continuously receive signals at MHz during testing Test Procedure The EUT and its simulators were placed on a turn table which was 0.8 meter above the ground. The turn table rotated 360 degrees to determine the position of the maximum emission level. EUT was set 3 meters away from the receiving antenna which was mounted on an antenna tower. The antenna moved up and down between 1 to 4 meters to find out the maximum emission level. Broadband antenna such as calibrated biconical and log-periodical antenna or horn antenna were used as a receiving antenna. Both horizontal and vertical polarization of the antenna were set on measurement. In order to find the maximum emission, all of the interface cables were manipulated according to FCC ANSI C regulation. The bandwidth of the R&S Test Receiver ESCS30 was set at 120kHz. (For 30MHz to 1000MHz)
15 FCC ID. AZPT10CG-24G Page 15 of 56 The resolution bandwidth and video bandwidth of test spectrum analyzer is 1MHz for peak detection (PK) at frequency above 1GHz. The resolution bandwidth of test spectrum analyzer is 1MHz and the video bandwidth is 10Hz for average detection (AV) at frequency above 1GHz. The frequency range from 30MHz to 25GHz (Up to 10 th harmonics from fundamental frequency) was checked Test Results PASSED. (All emissions not reported below are too low against the prescribed limits.) EUT:Radio Control M/N:T10CG-2.4G Test Date:Mar. 02, 2009 Temperature:25 Humidity:58% For Frequency Range 30MHz~1000MHz: The EUT select worst position stand and with following test modes were performed during this section testing and all the test results are listed in section Reference Test Data Mode Test Voltage Channel Frequency Test Mode Position Horizontal Vertical 1. AC 120V/60Hz Charge -- # 2 # MHz Transmit Stand # 11 # MHz Transmit Stand # 12 # 11 DC 9.6V MHz Transmit Stand # 11 # MHz Receive Stand # 10 # 9 * Above all final readings were measured with Quasi-Peak detector. For Frequency above 1GHz: The EUT select worst position stand and with the following test modes were measured within semi-anechoic chamber. All the graphical results are attached in Appendix I and all the final readings are listed in section Mode Test Voltage Channel Frequency Test Mode Position MHz Transmit Stand MHz Transmit Stand DC 9.6V MHz Transmit Stand MHz Receive Stand * Above all final readings were measured with Peak detector and Average detector.
16 FCC ID. AZPT10CG-24G Page 16 of 56 For Restricted Bands: The EUT was tested in restricted bands and all the test results are listed in section (The restricted bands defined in part (a)) Reference Test Data Mode Channel Frequency Test Mode Horizontal Vertical MHz Transmit # 2, #3 #1, # MHz Transmit #7, #6 #8, #5
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27 FCC ID. AZPT10CG-24G Page 27 of Above 1GHz Frequency Range Measurement Results Date of Test: Mar. 02, 2009 Temperature: 25 EUT: Radio Control Humidity: 58% Test Mode: Transmit, Channel: 02 (Frequency: MHz), Position: Stand Emission Antenna Cable Meter Reading Emission Level Frequency Factor Loss Horizontal Horizontal Limits Margin MHz db/m db dbμv dbμv/m dbμv/m db Peak Average Remark : 1. Emission Level = Antenna Factor + Cable Loss + Meter Reading. 2. Measurement was up to 25GHz, but the emissions level were too low against the official limit and not report. Emission Antenna Cable Meter Reading Emission Level Frequency Factor Loss Vertical Vertical Limits Margin MHz db/m db dbμv dbμv/m dbμv/m db Peak Average Remark : 1. Emission Level = Antenna Factor + Cable Loss + Meter Reading. 2. Measurement was up to 25GHz, but the emissions level were too low against the official limit and not report.
28 FCC ID. AZPT10CG-24G Page 28 of 56 Date of Test: Mar. 02, 2009 Temperature: 25 EUT: Radio Control Humidity: 58% Test Mode: Transmit, Channel: 38 (Frequency: MHz), Position: Stand Emission Antenna Cable Meter Reading Emission Level Frequency Factor Loss Horizontal Horizontal Limits Margin MHz db/m db dbμv dbμv/m dbμv/m db Peak Average Remark : 1. Emission Level = Antenna Factor + Cable Loss + Meter Reading. 2. Measurement was up to 25GHz, but the emissions level were too low against the official limit and not report. Emission Antenna Cable Meter Reading Emission Level Frequency Factor Loss Vertical Vertical Limits Margin MHz db/m db dbμv dbμv/m dbμv/m db Peak Average Remark : 1. Emission Level = Antenna Factor + Cable Loss + Meter Reading. 2. Measurement was up to 25GHz, but the emissions level were too low against the official limit and not report.
29 FCC ID. AZPT10CG-24G Page 29 of 56 Date of Test: Mar. 02, 2009 Temperature: 25 EUT: Radio Control Humidity: 58% Test Mode: Transmit, Channel: 72 (Frequency: MHz), Position: Stand Emission Antenna Cable Meter Reading Emission Level Frequency Factor Loss Horizontal Horizontal Limits Margin MHz db/m db dbμv dbμv/m dbμv/m db Peak Average Remark : 1. Emission Level = Antenna Factor + Cable Loss + Meter Reading. 2. Measurement was up to 25GHz, but the emissions level were too low against the official limit and not report. Emission Antenna Cable Meter Reading Emission Level Frequency Factor Loss Vertical Vertical Limits Margin MHz db/m db dbμv dbμv/m dbμv/m db Peak Average Remark : 1. Emission Level = Antenna Factor + Cable Loss + Meter Reading. 2. Measurement was up to 25GHz, but the emissions level were too low against the official limit and not report.
30 FCC ID. AZPT10CG-24G Page 30 of 56 Date of Test: Mar. 02, 2009 Temperature: 25 EUT: Radio Control Humidity: 58% Test Mode: Receive, Channel: 38 (Frequency: MHz), Position: Stand Measurement was up to 25GHz, but the emissions level were too low against the official limit and not report. The graphical results are attached in Appendix I.
31 FCC ID. AZPT10CG-24G Page 31 of Restricted Bands Measurement Results Date of Test: Mar. 02, 2009 Temperature: 25 EUT: Radio Control Humidity: 58% Test Mode: Transmit, Channel: 02, Frequency: MHz Emission Antenna Cable Meter Reading Emission Level Frequency Factor Loss Horizontal Horizontal Limits Margin MHz db/m db dbμv dbμv/m dbμv/m db Peak * Average * Remark : 1. Emission Level = Antenna Factor + Cable Loss + Meter Reading. 2. Low frequency section (spurious in the restricted band MHz). 3. * The field strength of emission appearing within Part (a) shall not exceed the limits shown in section
32 FCC ID. AZPT10CG-24G Page 32 of 56 Date of Test: Mar. 02, 2009 Temperature: 25 EUT: Radio Control Humidity: 58% Test Mode: Transmit, Channel: 02, Frequency: MHz Emission Antenna Cable Meter Reading Emission Level Frequency Factor Loss Vertical Vertical Limits Margin MHz db/m db dbμv dbμv/m dbμv/m db Peak * Average * Remark : 1. Emission Level = Antenna Factor + Cable Loss + Meter Reading. 2. Low frequency section (spurious in the restricted band MHz). 3. * The field strength of emission appearing within Part (a) shall not exceed the limits shown in section
33 FCC ID. AZPT10CG-24G Page 33 of 56 Date of Test: Mar. 02, 2009 Temperature: 25 EUT: Radio Control Humidity: 58% Test Mode: Transmit, Channel: 72, Frequency: MHz Emission Antenna Cable Meter Reading Emission Level Frequency Factor Loss Horizontal Horizontal Limits Margin MHz db/m db dbμv dbμv/m dbμv/m db Peak * Average * Remark : 1. Emission Level = Antenna Factor + Cable Loss + Meter Reading. 2. High frequency section (spurious in the restricted band MHz). 3. * The field strength of emission appearing within Part (a) shall not exceed the limits shown in section
34 FCC ID. AZPT10CG-24G Page 34 of 56 Date of Test: Mar. 02, 2009 Temperature: 25 EUT: Radio Control Humidity: 58% Test Mode: Transmit, Channel: 72, Frequency: MHz Emission Antenna Cable Meter Reading Emission Level Frequency Factor Loss Vertical Vertical Limits Margin MHz db/m db dbμv dbμv/m dbμv/m db Peak * Average * Remark : 1. Emission Level = Antenna Factor + Cable Loss + Meter Reading. 2. High frequency section (spurious in the restricted band MHz). 3. * The field strength of emission appearing within Part (a) shall not exceed the limits shown in section
35 FCC ID. AZPT10CG-24G Page 35 of dB BANDWIDTH MEASUREMENT 4.1. Test Equipment The following test equipment was used during the Emission Bandwidth measurement: Item Type Manufacturer Model No. Serial No. Last Cal. Next Cal. 1. Spectrum Analyzer Agilent E4446A US Aug. 07, 08 Aug. 06, Block Diagram of Test Setup RADIO CONTROL (EUT) SPECTRUM ANALYZER 4.3. Specification Limits ( (a)(2)) The minimum 6dB bandwidth shall be at least 500kHz Operating Condition of EUT The test program Futaba Term was used to enable the EUT to transmit data at different channel frequency individually Test Procedure The transmitter output was connected to the spectrum analyzer. The bandwidth of the fundamental frequency was measure by spectrum analyzer with 100kHz RBW and 100kHz VBW. The 6dB bandwidth is defined as the total spectrum the power of which is higher than peak power minus 6dB Test Results PASSED. All the test results are attached in next pages. (Test Date : Mar. 02, 2009 Temperature : 25 Humidity : 56 %) Channel Frequency 6dB Bandwidth MHz 1.567MHz MHz 1.617MHz MHz 1.650MHz
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38 FCC ID. AZPT10CG-24G Page 38 of MAXIMUM PEAK OUTPUT POWER MEASUREMENT 5.1. Test Equipment The following test equipment was used during the maximum peak output power measurement: Item Type Manufacturer Model No. Serial No. Last Cal. Next Cal. 1. Power Meter Anritsu ML2487A 6K Feb. 19, 09 Feb. 18, Power Sensor Anritsu MA2491A Feb. 19, 09 Feb. 18, Block Diagram of Test Setup RADIO CONTROL (EUT) POWER SENSOR POWER METER 5.3. Specification Limits ( (b)-(3)) The Limits of maximum Peak Output Power for digital modulation in MHz is : 1Watt. (30dBm) 5.4. Operating Condition of EUT The test program Futaba Term was used to enable the EUT to transmit data at different channel frequency individually Test Procedure The transmitter output was connected to the power meter that was designed to detect peak value automatically.
39 FCC ID. AZPT10CG-24G Page 39 of Test Results PASSED. All the test results are listed below. (Test Date : Mar. 02, 2009 Temperature : 25 Humidity : 56 %) Channel Frequency Peak Output Power Limit MHz 17.05dBm 30dBm MHz 17.66dBm 30dBm MHz 17.93dBm 30dBm
40 FCC ID. AZPT10CG-24G Page 40 of EMISSION LIMITATIONS MEASUREMENT 6.1. Test Equipment The following test equipment was used during the emission limitations test: Item Type Manufacturer Model No. Serial No. Last Cal. Next Cal. 1. Spectrum Analyzer Agilent E4446A US Aug. 07, 08 Aug. 06, Block Diagram of Test Setup The same as section Specification Limits ( (c)) In any 100kHz bandwidth outside the frequency band in which the spread spectrum or digitally modulated intentional radiator is operating, the radio frequency power that is produced by the intentional radiator shall be at least 20dB below that in the 100kHz bandwidth within the band that contains the highest level of the desired power, based on either an RF conducted or a radiated measurement. Attenuation below the general limits specified in Section (a) is not required. In addition, radiated emissions which fall in restricted bands, as defined in Section (a), must also comply with the radiated emission limits specified in Section (a) (See Section (c)).( This test result attaching to 3.6.3) 6.4. Operating Condition of EUT The test program Futaba Term was used to enable the EUT to transmit data at different channel frequency individually Test Procedure The transmitter output was connected to the spectrum analyzer. The bandwidth of the fundamental frequency was measure by spectrum analyzer with 100kHz RBW and 100kHz VBW.
41 FCC ID. AZPT10CG-24G Page 41 of Test Results PASSED. The testing data was attached in the next pages. (Test Date : Mar. 02, 2009 Temperature : 25 Humidity : 56 %) MHz: During 30MHz~25GHz bandwidth. In the 1.61GHz, the 42.03dBm is max value that is lower than 20dB of primary channel MHz: During 30MHz~25GHz bandwidth. In the 1.61GHz, the 34.22dBm is max value that is lower than 20dB of primary channel MHz: During 30MHz~25GHz bandwidth. In the 1.65GHz, the 32.61dBm is max value that is lower than 20dB of primary channel. Note: The peak above the limit line is the carrier frequency.
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44 FCC ID. AZPT10CG-24G Page 44 of BAND EDGES MEASUREMENT 7.1. Test Equipment The following test equipment was used during the band edges measurement: Item Type Manufacturer Model No. Serial No. Last Cal. Next Cal. 1. Spectrum Analyzer Agilent E4446A US Aug. 07, 08 Aug. 06, Block Diagram of Test Setup The same as section Specification Limits ( (c)) The highest level should be at least 20 db below that in the 100kHz bandwidth Operating Condition of EUT The test program Futaba Term was used to enable the EUT to transmit data at different channel frequency individually Test Procedure The transmitter output was connected to the spectrum analyzer. Set both RBW and VBW of spectrum analyzer to 100kHz with suitable frequency span including 100kHz bandwidth from band edge Test Results PASSED. All the test results are attached in next pages. (Test Date : Mar. 02, 2009 Temperature : 25 Humidity : 56 %) 1. Below Band edge: The highest emission level is 41.29dBm on GHz 2. Upper Band edge : The highest emission level is 48.71dBm on GHz
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46 FCC ID. AZPT10CG-24G Page 46 of POWER SPECTRAL DENSITY MEASUREMENT 8.1. Test Equipment The following test equipment was used during the power spectral density measurement: Item Type Manufacturer Model No. Serial No. Last Cal. Next Cal. 1. Spectrum Analyzer Agilent E4446A US Aug. 07, 08 Aug. 06, Block Diagram of Test Setup The same as section Specification Limits ( (d)) The peak power spectral density conducted from the intentional radiator to the antenna shall not be greater than 8dBm in any 3kHz band Operating Condition of EUT The test program Futaba Term was used to enable the EUT to transmit data at different channel frequency individually Test Procedure The transmitter output was connected to the spectrum analyzer. The bandwidth of the fundamental frequency was measured with the spectrum analyzer using 3kHz RBW and 30kHz VBW, set sweep time = span/300khz Test Results PASSED. All the test results are attached in next pages. (Test Date : Mar. 02, 2009 Temperature : 25 Humidity : 56 %) Channel Frequency Power Spectral Density Limit MHz 6.04dBm 8dBm MHz 6.48dBm 8dBm MHz 6.09dBm 8dBm
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49 FCC ID. AZPT10CG-24G Page 49 of DEVIATION TO TEST SPECIFICATIONS NONE
50 FCC ID. AZPT10CG-24G Page 50 of PHOTOGRAPHS Photos of Conducted Disturbance Measurement FRONT VIEW OF CONDUCTED MEASUREMENT BACK VIEW OF CONDUCTED MEASUREMENT
51 FCC ID. AZPT10CG-24G Page 51 of Photos of Radiated Measurement at Semi-Anechoic Chamber Frequency Below 1GHz Test Mode: Charge FRONT VIEW OF RADIATED MEASUREMENT BACK VIEW OF RADIATED MEASUREMENT
52 FCC ID. AZPT10CG-24G Page 52 of 56 Test Mode: Transmit and Receiver (Position: Stand)
53 FCC ID. AZPT10CG-24G Page 53 of Frequency Above 1GHz Test Mode: Transmit and Receiver (Position: Stand)
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57 FCC ID. AZPT10CG-24G APPENDIX I APPENDIX I (Radiated Test Data for frequency rang above 1GHz at Semi-Anechoic Chamber) Total Pages: 28 Pages
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