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Users Manual | Users Manual | 517.84 KiB | August 08 2019 | |||
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External Photos | External Photos | 1.43 MiB | August 08 2019 | |||
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ID Lable Location Info | ID Label/Location Info | 162.54 KiB | August 08 2019 | |||
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Internal Photos | Internal Photos | 2.38 MiB | August 08 2019 | |||
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LTC Request Letter | Cover Letter(s) | 125.58 KiB | August 08 2019 | |||
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Test Report 1-2 | Test Report | 3.56 MiB | August 08 2019 | |||
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Test Report 2-2 | Test Report | 3.75 MiB | August 08 2019 | |||
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Test Setup Photos | Test Setup Photos | 329.56 KiB | August 08 2019 |
1 | Users Manual | Users Manual | 517.84 KiB | August 08 2019 |
LED light-up wireless projeion speaker Disco Ball Bluetooth /Charging Indicator Hold-Power on/o Press-Play/Pause Charge Port Speaker Included LED light-up wireless projeion speaker 6 Micro USB Charging Cable Pairing Power ON using ON/OFF switch Rapid ashing white light, followed by a chime Use Bluetooth settings on your phone to pair with MORE THAN MAGIC 03 Slow ashing white light - pairing successful White Rapid Flash - Powered on Red/White Alternating Until Paired - Bluetooth pairing Slow Flashing White - Paired Red - Battery low Chirping Tones - Powering on Single Chime - Ready to pair Echoing Chime - Paired Rapid Chirping Tone - Low battery Quick Low Tone - Max. Volume/Min. Volume Charging Plug micro end of charging cable into charge port of speaker Plug USB end of charging cable into a DC 5V USB power supply Troubleshooting and tips If the speaker is not working correly, turn it on/o to reset If the speaker wont turn on, recharge the battery and try again If the speaker wont charge, make sure the supply works, is 5V >1A, and not damaged If the speaker makes no sound, adju the volume If the speaker makes no sound make sure it is not paused. Press the play button if it is paused If the speaker makes no sound or ds not show as an available device, make sure it is not paired to another device, if so, un-pair the device and re-pair the desired device This device ds not have a pairing code. If prompted for one make sure you are conneing to the corre device. If you are, forget the device and re-pair. If you are ill prompted enter 0000 NOTE:
The unit will power o aer 20 minutes of non-use. Need some help?
Cant get it to pair? Have a queion or comment?
Call us at: 877-698-4883 or: 877-MyTgtTech online at: TargetTechSupport.com Safety Do not use near any water source Do not modify or repair this device Do not use in high temperatures or extreme weather Do not use chemical detergents to clean your device, use a so dry cloth FCC ID: OKUCAB9H680 Model: TT1144 Input: 5V Max 1A Made in China This device complies with part 15 of the FCC Rules. Operation is subject to the following two conditions: (1)This device may not cause harmful interference, and (2)This device must accept any interference received, including interference that may cause undesired operation. Warning: Changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate the equipment. NOTE: This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by using one or more of the following measures:
Reorient or relocate the receiving antenna. Increase the separation between the equipment and receiver. Connect the equipment to an outlet on a circuit different from that to which the receiver is connected. Consult the dealer or an experienced radio/TV technician for help. Target Corp.Mpls.MN,55403 Phone:1-612-304-6073
1 | External Photos | External Photos | 1.43 MiB | August 08 2019 |
External Photos Test model: TT1145 TOP VIEW OF EUT BOTTOM VIEW OF EUT FRONT VIEW OF EUT BACK VIEW OF EUT LEFT VIEW OF EUT RIGHT VIEW OF EUT VIEW OF EUT(PORT) Series model: CAB-9H680 ALL VIEW OF EUT TOP VIEW OF EUT BOTTOM VIEW OF EUT FRONT VIEW OF EUT BACK VIEW OF EUT LEFT VIEW OF EUT RIGHT VIEW OF EUT VIEW OF EUT(PORT)
1 | ID Lable Location Info | ID Label/Location Info | 162.54 KiB | August 08 2019 |
CAB-9H680,CAB-XXXX(X XXX can be 0-9, A-Z or blank which represent color of unit) FCC ID Label Location FCC ID: OKUCAB9H680 Brand Name: More than Magic Model Name: TT1145
1 | Internal Photos | Internal Photos | 2.38 MiB | August 08 2019 |
Internal Photos Test model: TT1145 OPEN VIEW OF EUT-1 OPEN VIEW OF EUT-2 VIEW OF BATTERY INTERNAL VIEW OF EUT-1 INTERNAL VIEW OF EUT-2 INTERNAL VIEW OF EUT-3 Antenna INTERNAL VIEW OF EUT-4 INTERNAL VIEW OF EUT-5 INTERNAL VIEW OF EUT-6 Series model: CAB-9H680 OPEN VIEW OF EUT VIEW OF BATTERY INTERNAL VIEW OF EUT-1 INTERNAL VIEW OF EUT-2 INTERNAL VIEW OF EUT-3 Antenna INTERNAL VIEW OF EUT-4 INTERNAL VIEW OF EUT-5 INTERNAL VIEW OF EUT-6
1 | LTC Request Letter | Cover Letter(s) | 125.58 KiB | August 08 2019 |
SHENZHEN JUNLAN ELECTRONIC LTD Aug. 01, 2019 Federal Communication Commission Authorization and Evaluation Division FCC ID: OKUCAB9H680 Re: Confidentiality Request Pursuant to Sections 0.457 and 0.459 of the Commissions Rules, the applicant hereby requests confidential treatment of information applied this application as outlined below:
1: Block Diagram 2: Schematics 3: Operational Description The above materials contain trade secrets and proprietary information not customarily released to the public. The public disclosure of these matters might be harmful to the applicant and provide unjustified benefits to its competitors. The Applicant understands that pursuant to Rules 0.457, disclosure of this Application and all accompanying documentation will not be made before the date of the Grant for this application. Sincerely, SHENZHEN JUNLAN ELECTRONIC LTD Contact person: peng xiao
1 | Test Report 1-2 | Test Report | 3.56 MiB | August 08 2019 |
Page 1 of 77 FCC Test Report Report No.: AGC03329190702FE03 FCC ID
: OKUCAB9H680 APPLICATION PURPOSE
: Original Equipment PRODUCT DESIGNATION
: LED light-up wireless projection speaker BRAND NAME
: More than Magic MODEL NAME
:
TT1145, CAB-9H680,CAB-XXXX(XXXX can be 0-9, A-Z or blank which represent color of unit) APPLACANT
: SHENZHEN JUNLAN ELECTRONIC LTD DATE OF ISSUE
:
Jul. 31, 2019 STANDARD(S)
: FCC Part 15.247 REPORT VERSION
: V1.0 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. Report No.: AGC03329190702FE03 Page 2 of 77 REPORT REVISE RECORD Report Version Revise Time Issued Date Valid Version Notes V1.0
/
Jul. 31, 2019 Valid Initial Release Report No.: AGC03329190702FE03 Page 3 of 77 TABLE OF CONTENTS 1. VERIFICATION OF CONFORMITY ............................................................................................................... 5 2. GENERAL INFORMATION ............................................................................................................................ 6 2.1. PRODUCT DESCRIPTION ..................................................................................................................... 6 2.2. TABLE OF CARRIER FREQUENCYS ..................................................................................................... 6 2.3. RECEIVER INPUT BANDWIDTH ............................................................................................................ 7 2.4. EXAMPLE OF A HOPPING SEQUENCY IN DATA MODE ....................................................................... 7 2.5. EQUALLY AVERAGE USE OF FREQUENCIES AND BEHAVIOUR ........................................................ 7 2.6. RELATED SUBMITTAL(S) / GRANT (S) .................................................................................................. 8 2.7. TEST METHODOLOGY .......................................................................................................................... 8 2.8. SPECIAL ACCESSORIES ....................................................................................................................... 8 2.9. EQUIPMENT MODIFICATIONS .............................................................................................................. 8 3. MEASUREMENT UNCERTAINTY ................................................................................................................. 9 4. DESCRIPTION OF TEST MODES ............................................................................................................... 10 5. SYSTEM TEST CONFIGURATION ............................................................................................................. 11 5.1. CONFIGURATION OF EUT SYSTEM .................................................................................................... 11 5.2 EQUIPMENT USED IN TESTED SYSTEM .............................................................................................. 11 5.3. SUMMARY OF TEST RESULTS ............................................................................................................. 11 6. TEST FACILITY ........................................................................................................................................... 12 7. PEAK OUTPUT POWER ............................................................................................................................. 13 7.1. MEASUREMENT PROCEDURE ........................................................................................................... 13 7.2. TEST SET-UP (BLOCK DIAGRAM OF CONFIGURATION) ................................................................... 13 7.3. LIMITS AND MEASUREMENT RESULT ............................................................................................... 14 8. 20DB BANDWIDTH ..................................................................................................................................... 20 8.1. MEASUREMENT PROCEDURE ........................................................................................................... 20 8.2. TEST SET-UP (BLOCK DIAGRAM OF CONFIGURATION) ................................................................... 20 8.3. LIMITS AND MEASUREMENT RESULTS ............................................................................................. 20 9. CONDUCTED SPURIOUS EMISSION ........................................................................................................ 27 9.1. MEASUREMENT PROCEDURE ........................................................................................................... 27 Report No.: AGC03329190702FE03 Page 4 of 77 9.2. TEST SET-UP (BLOCK DIAGRAM OF CONFIGURATION) ................................................................... 27 9.3. MEASUREMENT EQUIPMENT USED .................................................................................................. 27 9.4. LIMITS AND MEASUREMENT RESULT ............................................................................................... 27 10. RADIATED EMISSION ............................................................................................................................... 37 10.1. MEASUREMENT PROCEDURE ......................................................................................................... 37 10.2. TEST SETUP ....................................................................................................................................... 39 10.3. LIMITS AND MEASUREMENT RESULT ............................................................................................. 40 10.4. TEST RESULT ..................................................................................................................................... 40 11. NUMBER OF HOPPING FREQUENCY ..................................................................................................... 50 11.1. MEASUREMENT PROCEDURE ......................................................................................................... 50 11.2. TEST SETUP (BLOCK DIAGRAM OF CONFIGURATION) .................................................................. 50 11.3. MEASUREMENT EQUIPMENT USED ................................................................................................ 50 11.4. LIMITS AND MEASUREMENT RESULT .............................................................................................. 50 12. TIME OF OCCUPANCY (DWELL TIME) ................................................................................................... 51 12.1. MEASUREMENT PROCEDURE ......................................................................................................... 51 12.2. TEST SETUP (BLOCK DIAGRAM OF CONFIGURATION) .................................................................. 51 12.3. MEASUREMENT EQUIPMENT USED ................................................................................................ 51 12.4. LIMITS AND MEASUREMENT RESULT ............................................................................................. 51 13. FREQUENCY SEPARATION ..................................................................................................................... 55 13.1. MEASUREMENT PROCEDURE ......................................................................................................... 55 13.2. TEST SETUP (BLOCK DIAGRAM OF CONFIGURATION) .................................................................. 55 13.3. MEASUREMENT EQUIPMENT USED ................................................................................................ 55 13.4. LIMITS AND MEASUREMENT RESULT ............................................................................................. 55 14. FCC LINE CONDUCTED EMISSION TEST .............................................................................................. 56 14.1. LIMITS OF LINE CONDUCTED EMISSION TEST............................................................................... 56 14.2. BLOCK DIAGRAM OF LINE CONDUCTED EMISSION TEST ............................................................ 56 14.3. PRELIMINARY PROCEDURE OF LINE CONDUCTED EMISSION TEST .......................................... 57 14.4. FINAL PROCEDURE OF LINE CONDUCTED EMISSION TEST ........................................................ 57 14.5. TEST RESULT OF LINE CONDUCTED EMISSION TEST .................................................................. 58 APPENDIX A: PHOTOGRAPHS OF TEST SETUP ........................................................................................ 60 APPENDIX B: PHOTOGRAPHS OF EUT ....................................................................................................... 62 Report No.: AGC03329190702FE03 Page 5 of 77 1. VERIFICATION OF CONFORMITY Applicant Address SHENZHEN JUNLAN ELECTRONIC LTD No.277 PingKui Road, Shijing Community, Pingshan Street, Pingshan New District, Shenzhen, China Manufacturer SHENZHEN JUNLAN ELECTRONIC LTD Address Factory Address No.277 PingKui Road, Shijing Community, Pingshan Street, Pingshan New District, Shenzhen, China SHENZHEN JUNLAN ELECTRONIC LTD No.277 PingKui Road, Shijing Community, Pingshan Street, Pingshan New District, Shenzhen, China Product Designation LED light-up wireless projection speaker Brand Name Test Model Series Model More than Magic TT1145 CAB-9H680,CAB-XXXX(XXXX can be 0-9, A-Z or blank which represent color of unit) Difference Description All the same except for the model name and appearance color Date of test Deviation Jul. 08, 2019 to Jul. 31, 2019 None Condition of Test Sample Normal Test Result Pass Report Template AGCRT-US-BR/RF We hereby certify that:
The above equipment was tested by Attestation of Global Compliance (Shenzhen) Co., Ltd. The test data, data evaluation, test procedures, and equipment configurations shown in this report were made in accordance with the procedures given in ANSI C63.10 (2013) and the energy emitted by the sample EUT tested as described in this report is in compliance with radiated emission limits of FCC PART 15.247. Tested By Reviewed By Sky Dong(Dong Huihui) Jul. 31, 2019 Max Zhang(Zhang Yi) Jul. 31, 2019 Approved By Forrest Lei(Lei Yonggang) Authorized Officer Jul. 31, 2019 2. GENERAL INFORMATION 2.1. PRODUCT DESCRIPTION The EUT is designed as LED light-up wireless projection speaker. It is designed by way of utilizing the GFSK, Report No.: AGC03329190702FE03 Page 6 of 77 Pi/4 DQPSK and 8DPSK technology to achieve the system operation. A major technical description of EUT is described as following Operation Frequency 2.402 GHz to 2.480GHz RF Output Power 1.043dBm(Max) Bluetooth Version V 5.0 Modulation Number of channels Hardware Version Software Version BR GFSK, EDR /4-DQPSK, 8DPSK BLE GFSK 1Mbps GFSK 2Mbps 79 V2 V1.0 Antenna Designation PCB Antenna(Comply with requirements of the FCC part 15.203) Antenna Gain Power Supply 0dBi DC 5V 1A for USB cable or Build-in Li-ion Battery DC 3.7V ,500mAh Note: The EUT doesnt support BLE 2.2. TABLE OF CARRIER FREQUENCYS Frequency Band Channel Number 0 1
:
38 39 40
:
77 78 2402~2480MHZ Frequency 2402MHZ 2403MHZ
:
2440 MHZ 2441 MHZ 2442 MHZ
:
2479 MHZ 2480 MHZ Report No.: AGC03329190702FE03 Page 7 of 77 2.3. RECEIVER INPUT BANDWIDTH The input bandwidth of the receiver is 1.3MHZ,In every connection one Bluetooth device is the master and the other one is slave. The master determines the hopping sequence. The slave follows this sequence. Both devices shift between RX and TX time slot according to the clock of the master. Additionally the type of connection(e.g. single of multislot packet) is set up at the beginning of the connection. The master adapts its hopping frequency and its TX/RX timing according to the packet type of the connection. Also the slave of the connection will use these settings. Repeating of a packet has no influence on the hopping sequence. The hopping sequence generated by the master of the connection will be followed in any case. That means, a repeated packet will not be send on the same frequency, it is send on the next frequency of the hopping sequence. 2.4. EXAMPLE OF A HOPPING SEQUENCY IN DATA MODE Example of a 79 hopping sequence in data mode:
40,21,44,23,42,53,46,55,48,33,52,35,50,65,54,67 56,37,60,39,58,69,62,71,64,25,68,27,66,57,70,59 72,29,76,31,74,61,78,63,01,41,05,43,03,73,07,75 09,45,13,47,11,77,15,00,64,49,66,53,68,02,70,06 01, 51, 03, 55, 05, 04 2.5. EQUALLY AVERAGE USE OF FREQUENCIES AND BEHAVIOUR The generation of the hopping sequence in connection mode depends essentially on two input values:
1. LAP/UAP of the master of the connection. 2. Internal master clock The LAP(lower address part) are the 24 LSBs of the 48 BD_ADDRESS. The BD_ADDRESS is an unambiguous number of every Bluetooth unit. The UAP(upper address part) are the 24MSBs of the 48BD_ADDRESS The internal clock of a Bluetooth unit is derived from a free running clock which is never adjusted and is never turned off. For ehavior zation with other units only offset are used. It has no relation to the time of the day. Its resolution is at least half the RX/TX slot length of 312.5us.The clock has a cycle of about one day(23h30).In most case it is implemented as 28 bit counter. For the deriving of the hopping sequence the entire. LAP(24 bits),4LSBs(4bits)(Input 1) and the 27MSBs of the clock(Input 2) are used. With this input values different mathematical procedures(permutations, additions, XOR-operations)are performed to generate te Sequence. This will be done at the beginning of every new transmission. Regarding short transmissions the Bluetooth system has the following ehavior:
The first connection between the two devices is established, a hopping sequence was generated. For Transmitting the wanted data the complete hopping sequence was not used. The connection ended. The second connection will be established. A new hopping sequence is generated. Due to the fact the Bluetooth clock has a different value, because the period between the two transmission is longer(and it Cannot be shorter) than the minimum resolution of the clock(312.5us).The hopping sequence will always Differ from the first one. Report No.: AGC03329190702FE03 Page 8 of 77 2.6. RELATED SUBMITTAL(S) / GRANT (S) This submittal(s) (test report) is intended for FCC ID: OKUCAB9H680 filing to comply with the FCC PART 15.247 requirements. 2.7. TEST METHODOLOGY Both conducted and radiated testing was performed according to the procedures in ANSI C63.10 (2013). Radiated testing was performed at an antenna to EUT distance 3 meters. 2.8. SPECIAL ACCESSORIES Refer to section 5.2. 2.9. EQUIPMENT MODIFICATIONS Not available for this EUT intended for grant. Report No.: AGC03329190702FE03 Page 9 of 77 3. MEASUREMENT UNCERTAINTY The reported uncertainty of measurement y U, where expended uncertainty U is based on a standard uncertainty multiplied by a coverage factor of k=2, providing a level of confidence of approximately 95%.
- Uncertainty of Conducted Emission, Uc = 3.2 dB
- Uncertainty of Radiated Emission below 1GHz, Uc = 3.9 dB
- Uncertainty of Radiated Emission above 1GHz, Uc = 4.8 dB
- Uncertainty of total RF power, conducted, Uc = 0.8dB
- Uncertainty of spurious emissions, conducted, Uc = 2.7dB
- Uncertainty of Occupied Channel Bandwidth: Uc = 2 %
- Uncertainty of Dwell Time: Uc = 2 %
- Uncertainty of Frequency: Uc = 2 %
4. DESCRIPTION OF TEST MODES NO. TEST MODE DESCRIPTION Report No.: AGC03329190702FE03 Page 10 of 77 1 2 3 4 5 6 7 8 9 10 11 12 Low channel GFSK Middle channel GFSK High channel GFSK Low channel /4-DQPSK Middle channel /4-DQPSK High channel /4-DQPSK Low channel 8DPSK Middle channel 8DPSK High channel 8DPSK Hopping mode GFSK Hopping mode /4-DQPSK Hopping mode 8DPSK Note:
1. Only the result of the worst case was recorded in the report, if no other cases. 2. For Radiated Emission, 3axis were chosen for testing for each applicable mode. 3. For Conducted Test method, a temporary antenna connector is provided by the manufacture. 4.The test software is the BK32xx RF Test_V1.7 which can set the EUT into the individual test modes. Report No.: AGC03329190702FE03 Page 11 of 77 5. SYSTEM TEST CONFIGURATION 5.1. CONFIGURATION OF EUT SYSTEM Radiated Emission Configure :
EUT AE Conducted Emission Configure :
EUT AE 5.2 EQUIPMENT USED IN TESTED SYSTEM Item Equipment Model No. ID or Specification Remark 1 2 3 LED light-up wireless projection speaker TT1145 OKUCAB9H680 EUT Adapter DYS602-050200W DC 5V/1A AE USB charge line A23 1.84m Accessory 5.3. SUMMARY OF TEST RESULTS FCC RULES 15.247 (b)(1) 15.247 (a)(1) 15.247 (d) 15.209 15.247 (a)(1)(iii) 15.247 (a)(1)(iii) 15.247 (a)(1) 15.207 DESCRIPTION OF TEST Peak Output Power 20 dB Bandwidth Conducted Spurious Emission Radiated Emission Number of Hopping Frequency Time of Occupancy Frequency Separation Conducted Emission RESULT Compliant Compliant Compliant Compliant Compliant Compliant Compliant Compliant Report No.: AGC03329190702FE03 Page 12 of 77 6. TEST FACILITY Test Site Attestation of Global Compliance (Shenzhen) Co., Ltd Location 1-2/F, Building 19, Junfeng Industrial Park, Chongqing Road, Heping Community, Fuhai Street, Bao'an District, Shenzhen, Guangdong, China Designation Number CN1259 FCC Test Firm Registration Number 975832 A2LA Cert. No. 5054.02 Description Attestation of Global Compliance(Shenzhen) Co., Ltd is accredited by A2LA TEST EQUIPMENT OF CONDUCTED EMISSION TEST Equipment Manufacturer Model S/N Cal. Date Cal. Due TEST RECEIVER LISN R&S R&S ESPI 101206 Jun. 12, 2019 Jun. 11, 2020 ESH2-Z5 100086 Aug. 28, 2018 Aug. 27, 2019 TEST EQUIPMENT OF RADIATED EMISSION TEST Equipment S/N Manufacturer Model Cal. Date Cal. Due TEST RECEIVER R&S ESCI 10096 Jun. 12, 2019 Jun. 26, 2020 EXA Signal Analyzer Aglient N9010A MY53470504 Dec. 20, 2018 Dec. 19, 2019 2.4GHz Fliter EM Electronics 2400-2500MHz Attenuator ZHINAN E-002 N/A N/A Feb. 27, 2019 Feb. 26, 2020 Aug. 28, 2018 Aug. 27, 2019 Horn antenna SCHWARZBECK BBHA 9170
#768 Jun. 12, 2019 Jun. 26, 2020 Active loop antenna
(9K-30MHz) Double-Ridged Waveguide Horn Broadband Preamplifier ZHINAN ZN30900C 18051 Jun. 14, 2018 Jun. 13, 2020 ETS LINDGREN 3117 00034609 May. 26, 2018 May. 25, 2020 ETS LINDGREN 3117PA 00225134 Oct. 25, 2018 Oct. 24, 2019 ANTENNA SCHWARZBECK VULB9168 D69250 Sep. 28, 2017 Sep. 27, 2019 Report No.: AGC03329190702FE03 Page 13 of 77 7. PEAK OUTPUT POWER 7.1. MEASUREMENT PROCEDURE For peak power test:
1. Connect EUT RF output port to the Spectrum Analyzer through an RF attenuator 2. Span: Approximately five times the 20 dB bandwidth, centered on a hopping channel. 3. RBW > 20 dB bandwidth of the emission being measured. 4. VBW RBW. 5. Sweep: Auto. 6. Detector function: Peak. 7. Trace: Max hold. Allow trace to stabilize. Use the marker-to-peak function to set the marker to the peak of the emission. The indicated level is the peak output power, after any corrections for external attenuators and cables. 7.2. TEST SET-UP (BLOCK DIAGRAM OF CONFIGURATION) PEAK POWER TEST SETUP RF Attenuator Report No.: AGC03329190702FE03 Page 14 of 77 7.3. LIMITS AND MEASUREMENT RESULT PEAK OUTPUT POWER MEASUREMENT RESULT FOR GFSK MOUDULATION Frequency Peak Power Applicable Limits
(GHz) 2.402 2.441 2.480
(dBm)
-1.747
-1.536
-2.659 CH0
(dBm) 30 30 30 Pass or Fail Pass Pass Pass CH39 CH78 Report No.: AGC03329190702FE03 Page 15 of 77 Report No.: AGC03329190702FE03 Page 16 of 77 Frequency
(GHz) 2.402 2.441 2.480 PEAK OUTPUT POWER MEASUREMENT RESULT FOR /4-DQPSK MODULATION Peak Power
(dBm) 0.125 0.569
-0.624 CH0 Applicable Limits
(dBm) Pass or Fail 30 30 30 Pass Pass Pass CH39 CH78 Report No.: AGC03329190702FE03 Page 17 of 77 Report No.: AGC03329190702FE03 Page 18 of 77 Frequency
(GHz) 2.402 2.441 2.480 PEAK OUTPUT POWER MEASUREMENT RESULT FOR 8-DPSK MODULATION Peak Power
(dBm) 0.712 1.043
-0.256 CH0 Applicable Limits
(dBm) Pass or Fail 30 30 30 Pass Pass Pass CH39 CH78 Report No.: AGC03329190702FE03 Page 19 of 77 Report No.: AGC03329190702FE03 Page 20 of 77 8. 20DB BANDWIDTH 8.1. MEASUREMENT PROCEDURE 1. Connect EUT RF output port to the Spectrum Analyzer through an RF attenuator 2, Set the EUT Work on the top, the middle and the bottom operation frequency individually. 3. Set Span = approximately 2 to 5 times the 20 dB bandwidth, centered on a hoping channel The nominal IF filter bandwidth (3 dB RBW) shall be in the range of 1% to 5% of the OBW and video bandwidth (VBW) shall be approximately three times RBW; Sweep = auto; Detector function = peak 4. Set SPA Trace 1 Max hold, then View. 8.2. TEST SET-UP (BLOCK DIAGRAM OF CONFIGURATION) 8.3. LIMITS AND MEASUREMENT RESULTS MEASUREMENT RESULT FOR GFSK MOUDULATION Applicable Limits N/A Measurement Result Test Data (MHz) Low Channel Middle Channel High Channel 1.019 1.016 1.021 Criteria PASS PASS PASS Report No.: AGC03329190702FE03 Page 21 of 77 TEST PLOT OF BANDWIDTH FOR LOW CHANNEL TEST PLOT OF BANDWIDTH FOR MIDDLE CHANNEL Report No.: AGC03329190702FE03 Page 22 of 77 TEST PLOT OF BANDWIDTH FOR HIGH CHANNEL Report No.: AGC03329190702FE03 Page 23 of 77 MEASUREMENT RESULT FOR /4-DQPSK MODULATION Applicable Limits N/A Measurement Result Test Data (MHz) Low Channel Middle Channel High Channel 1.358 1.359 1.358 Criteria PASS PASS PASS TEST PLOT OF BANDWIDTH FOR LOW CHANNEL Report No.: AGC03329190702FE03 Page 24 of 77 TEST PLOT OF BANDWIDTH FOR MIDDLE CHANNEL TEST PLOT OF BANDWIDTH FOR HIGH CHANNEL Report No.: AGC03329190702FE03 Page 25 of 77 MEASUREMENT RESULT FOR 8-DPSK MODULATION Applicable Limits N/A Measurement Result Test Data (MHz) Low Channel Middle Channel High Channel 1.343 1.344 1.344 Criteria PASS PASS PASS TEST PLOT OF BANDWIDTH FOR LOW CHANNEL Report No.: AGC03329190702FE03 Page 26 of 77 TEST PLOT OF BANDWIDTH FOR MIDDLE CHANNEL TEST PLOT OF BANDWIDTH FOR HIGH CHANNEL Report No.: AGC03329190702FE03 Page 27 of 77 9. CONDUCTED SPURIOUS EMISSION 9.1. MEASUREMENT PROCEDURE 1. Connect EUT RF output port to the Spectrum Analyzer through an RF attenuator 2. Set the EUT Work on the top, the Middle and the bottom operation frequency individually. 3. Set the Span = wide enough to capture the peak level of the in-band emission and all spurious emissions from the lowest frequency generated in the EUT up through the 10th harmonic. RBW = 100 kHz; VBW= 300 kHz; Sweep = auto; Detector function = peak. 4. Set SPA Trace 1 Max hold, then View. 9.2. TEST SET-UP (BLOCK DIAGRAM OF CONFIGURATION) The same as described in section 8.2 9.3. MEASUREMENT EQUIPMENT USED The same as described in section 6 9.4. LIMITS AND MEASUREMENT RESULT LIMITS AND MEASUREMENT RESULT Applicable Limits Measurement Result Test Data Criteria In any 100 KHz Bandwidth Outside the At least -20dBc than the limit frequency band in which the spread spectrum Specified on the BOTTOM PASS intentional radiator is operating, the radio frequency Channel power that is produce by the intentional radiator shall be at least 20 dB below that in 100KHz bandwidth within the band that contains the highest level of the desired power. At least -20dBc than the limit In addition, radiation emissions which fall in the Specified on the TOP Channel PASS restricted bands, as defined in 15.205(a), must also comply with the radiated emission limits specified in15.209(a)) Report No.: AGC03329190702FE03 Page 28 of 77 TEST RESULT FOR ENTIRE FREQUENCY RANGE TEST PLOT OF OUT OF BAND EMISSIONS WITH THE WORST CASE OF 8-DPSK MODULATION IN LOW CHANNEL Report No.: AGC03329190702FE03 Page 29 of 77 TEST PLOT OF OUT OF BAND EMISSIONS OF 8-DPSK MODULATION IN MIDDLE CHANNEL Report No.: AGC03329190702FE03 Page 30 of 77 TEST PLOT OF OUT OF BAND EMISSIONS OF 8-DPSK MODULATION IN HIGH CHANNEL Note: The peak emissions without marker on the above plots are fundamental wave and need not to compare with the limit. The 8-DPSK modulation is the worst case and only those data recorded in the report. Report No.: AGC03329190702FE03 Page 31 of 77 TEST RESULT FOR BAND EDGE GFSK MODULATION IN LOW CHANNEL Hopping off Hopping on Report No.: AGC03329190702FE03 Page 32 of 77 GFSK MODULATION IN HIGH CHANNEL Hopping off Hopping on Report No.: AGC03329190702FE03 Page 33 of 77
/4-DQPSK MODULATION IN LOW CHANNEL Hopping off Hopping on Report No.: AGC03329190702FE03 Page 34 of 77
/4-DQPSK MODULATION IN HIGH CHANNEL Hopping off Hopping on Report No.: AGC03329190702FE03 Page 35 of 77 8-DPSK MODULATION IN LOW CHANNEL Hopping off Hopping on Report No.: AGC03329190702FE03 Page 36 of 77 8-DPSK MODULATION IN HIGH CHANNEL Hopping off Hopping on Report No.: AGC03329190702FE03 Page 37 of 77 10. RADIATED EMISSION 10.1. MEASUREMENT PROCEDURE 1. The EUT was placed on the top of the turntable 0.8 or 1.5 meter above ground. The phase center of the receiving antenna mounted on the top of a height-variable antenna tower was placed 3 meters far away from the turntable. 2. Power on the EUT and all the supporting units. The turntable was rotated by 360 degrees to determine the position of the highest radiation. 3. The height of the broadband receiving antenna was varied between one meter and four meters above ground to find the maximum emissions field strength of both horizontal and vertical polarization. 4. For each suspected emissions, the antenna tower was scan (from 1 M to 4 M) and then the turntable was rotated (from 0 degree to 360 degrees) to find the maximum reading. 5. Set the test-receiver system to Peak or CISPR quasi-peak Detect Function with specified bandwidth under Maximum Hold Mode. 6. For emissions above 1GHz, use 1MHz RBW and 3MHz VBW for peak reading. Place the measurement antenna away from each area of the EUT determined to be a source of emissions at the specified measurement distance, while keeping the measurement antenna aimed at the source of emissions at each frequency of significant emissions, with polarization oriented for maximum response. The measurement antenna may have to be higher or lower than the EUT, depending on the radiation pattern of the emission and staying aimed at the emission source for receiving the maximum signal. The final measurement antenna elevation shall be that which maximizes the emissions. The measurement antenna elevation for maximum emissions shall be restricted to a range of heights of from 1 m to 4 m above the ground or reference ground plane. 7. When the radiated emissions limits are expressed in terms of the average value of the emissions, and pulsed operation is employed, the measurement field strength shall be determined by averaging over one complete pulse train, including blanking intervals, as long as the pulse train does not exceed 0.1 seconds. As an alternative (provided the transmitter operates for longer than 0.1 seconds) or in cases where the pulse train exceeds 0.1 seconds, the measured field strength shall be determined from the average absolute voltage during a 0.1 second interval during which the field strength is at its maximum values. 8.If the emissions level of the EUT in peak mode was 3 dB lower than the average limit specified, then testing will be stopped and peak values of EUT will be reported, otherwise, the emissions which do not have 3 dB margin will be repeated one by one using the quasi-peak method for below 1GHz. 9. For testing above 1GHz, the emissions level of the EUT in peak mode was lower than average limit (that means the emissions level in peak mode also complies with the limit in average mode), then testing will be stopped and peak values of EUT will be reported, otherwise, the emissions will be measured in average mode again and reported. 10. In case the emission is lower than 30MHz, loop antenna has to be used for measurement and the recorded data should be QP measured by receiver. High - Low scan is not required in this case. The following table is the setting of spectrum analyzer and receiver. Report No.: AGC03329190702FE03 Page 38 of 77 Spectrum Parameter Start ~Stop Frequency Start ~Stop Frequency Start ~Stop Frequency Start ~Stop Frequency Receiver Parameter Start ~Stop Frequency Start ~Stop Frequency Start ~Stop Frequency Setting 9KHz~150KHz/RB 200Hz for QP 150KHz~30MHz/RB 9KHz for QP 30MHz~1000MHz/RB 120KHz for QP 1GHz~26.5GHz 1MHz/3MHz for Peak, 1MHz/3MHz for Average Setting 9KHz~150KHz/RB 200Hz for QP 150KHz~30MHz/RB 9KHz for QP 30MHz~1000MHz/RB 120KHz for QP 10.2. TEST SETUP Radiated Emission Test-Setup Frequency Below 30MHz Report No.: AGC03329190702FE03 Page 39 of 77 RADIATED EMISSION TEST SETUP 30MHz-1000MHz RADIATED EMISSION TEST SETUP ABOVE 1000MHz 10.3. LIMITS AND MEASUREMENT RESULT 15.209 Limit in the below table has to be followed Frequencies
(MHz) 0.009~0.490 0.490~1.705 1.705~30.0 30~88 88~216 216~960 Above 960 Field Strength
(micorvolts/meter) 2400/F(KHz) 24000/F(KHz) 30 100 150 200 500 Report No.: AGC03329190702FE03 Page 40 of 77 Measurement Distance
(meters) 300 30 30 3 3 3 3 Note: All modes were tested For restricted band radiated emission, the test records reported below are the worst result compared to other modes. 10.4. TEST RESULT RADIATED EMISSION BELOW 30MHZ No emission found between lowest internal used/generated frequencies to 30MHz. Report No.: AGC03329190702FE03 Page 41 of 77 EUT Temperature Pressure Test Mode RADIATED EMISSION BELOW 1GHZ LED light-up wireless projection speaker 25C 960hPa Mode 4 Model Name TT1145 Relative Humidity 55.4%
Test Voltage Normal Voltage Antenna Horizontal NO. Freq.
[MHz]
Level
[dBV/m]
Factor
[dB]
Limit
[dBV/m]
Margin
[dB]
Height
[cm]
Angle
[]
1 2 3 4 5 6 48.4300 78.5000 135.7300 274.4400 524.7000 837.0400 23.98 18.39 20.92 21.18 28.73 35.42 14.71 10.46 14.56 15.79 22.72 29.07 40.00 40.00 43.50 46.00 46.00 46.00 16.02 21.61 22.58 24.82 17.27 10.58 100 200 100 100 200 200 173 123 254 163 195 176 RESULT: PASS Polarity Horizontal Horizontal Horizontal Horizontal Horizontal Horizontal Report No.: AGC03329190702FE03 Page 42 of 77 EUT Temperature Pressure Test Mode LED light-up wireless projection speaker 25C 960hPa Mode 4 Model Name TT1145 Relative Humidity 55.4%
Test Voltage Normal Voltage Antenna Vertical NO. Freq.
[MHz]
1 2 3 4 5 6 48.4300 78.5000 140.5800 291.9000 505.3000 892.3300 Level
[dBV/m
]
27.49 19.03 21.40 21.81 29.31 37.35 Factor
[dB]
Limit
[dBV/m]
Margin
[dB]
Height
[cm]
Angle
[]
14.71 10.46 14.88 16.06 22.30 30.02 40.00 40.00 43.50 46.00 46.00 46.00 12.51 20.97 22.10 24.19 16.69 8.65 100 100 100 100 100 100 11 298 358 190 353 246 Polarity Vertical Vertical Vertical Vertical Vertical Vertical RESULT: PASS Note: 1. Factor=Antenna Factor + Cable loss, Margin=Measurement-Limit. 2. All test modes had been pre-tested. The mode 4 is the worst case and recorded in the report. Report No.: AGC03329190702FE03 Page 43 of 77 EUT Temperature Pressure Test Mode RADIATED EMISSION ABOVE 1GHZ LED light-up wireless projection speaker 25C 960hPa Mode 1 Model Name TT1145 Relative Humidity 55.4%
Test Voltage Normal Voltage Antenna Horizontal EUT Temperature Pressure Test Mode LED light-up wireless projection speaker 25C 960hPa Mode 1 Model Name TT1145 Relative Humidity 55.4%
Test Voltage Normal Voltage Antenna Vertical FrequencyMeter ReadingFactor Emission LevelLimitsMargin (MHz)(dBV) (dB)(dBV/m)(dBV/m)(dB) Value Type4804.000 55.774-18.3peak 4804.000 50.2154-3.79AVG 7206.000 51.4774-22.53peak 7206.000 44.454-9.6AVG 55.620.0850.130.0849.262.2142.192.21Remark:Factor = Antenna Factor + Cable Loss Pre-amplifier.FrequencyMeter ReadingFactor Emission LevelLimitsMargin (MHz)(dBV) (dB)(dBV/m)(dBV/m)(dB) Value Type4804.000 53.9474-20.06peak 4804.000 47.8254-6.18AVG 7206.000 47.8274-26.18peak 7206.000 41.8854-12.12AVG 53.860.0847.740.0845.612.2139.672.21Remark:Factor = Antenna Factor + Cable Loss Pre-amplifier. Report No.: AGC03329190702FE03 Page 44 of 77 EUT Temperature Pressure Test Mode LED light-up wireless projection speaker 25C 960hPa Mode 2 Model Name TT1145 Relative Humidity 55.4%
Test Voltage Normal Voltage Antenna Horizontal EUT Temperature Pressure Test Mode LED light-up wireless projection speaker 25C 960hPa Mode 2 Model Name TT1145 Relative Humidity 55.4%
Test Voltage Normal Voltage Antenna Vertical FrequencyMeter ReadingFactor Emission LevelLimitsMargin (MHz)(dBV) (dB)(dBV/m)(dBV/m)(dB) Value Type4882.000 54.6174-19.39peak 4882.000 48.3454-5.66AVG 7323.000 49.9874-24.02peak 7323.000 44.3454-9.66AVG 54.470.1448.20.1447.622.3641.982.36Remark:Factor = Antenna Factor + Cable Loss Pre-amplifier.FrequencyMeter ReadingFactor Emission LevelLimitsMargin (MHz)(dBV) (dB)(dBV/m)(dBV/m)(dB) Value Type4882.000 52.8574-21.15peak 4882.000 46.8154-7.19AVG 7323.000 48.4774-25.53peak 7323.000 41.7654-12.24AVG 52.710.1446.670.1446.112.3639.42.36Remark:Factor = Antenna Factor + Cable Loss Pre-amplifier. Report No.: AGC03329190702FE03 Page 45 of 77 EUT Temperature Pressure Test Mode LED light-up wireless projection speaker 25C 960hPa Mode 3 Model Name TT1145 Relative Humidity 55.4%
Test Voltage Normal Voltage Antenna Horizontal EUT Temperature Pressure Test Mode RESULT: PASS Note:
LED light-up wireless projection speaker 25C 960hPa Mode 3 Model Name TT1145 Relative Humidity 55.4%
Test Voltage Normal Voltage Antenna Vertical Other emissions from 1G to 25 GHz are considered as ambient noise. No recording in the test report. Factor = Antenna Factor + Cable loss - Amplifier gain, Over=Measure-Limit. The Factor value can be calculated automatically by software of measurement system. All test modes had been tested. The GFSK modulation is the worst case and recorded in the report. FrequencyMeter ReadingFactor Emission LevelLimitsMargin (MHz)(dBV) (dB)(dBV/m)(dBV/m)(dB) Value Type4960.000 53.874-20.2peak 4960.000 47.2454-6.76AVG 7440.000 48.8274-25.18peak 7440.000 42.3254-11.68AVG 53.580.2247.020.2246.182.6439.682.64Remark:Factor = Antenna Factor + Cable Loss Pre-amplifier.FrequencyMeter ReadingFactor Emission LevelLimitsMargin (MHz)(dBV) (dB)(dBV/m)(dBV/m)(dB) Value Type4960.000 51.774-22.3peak 4960.000 44.9654-9.04AVG 7440.000 46.4274-27.58peak 7440.000 39.6254-14.38AVG 51.480.2244.740.2243.782.6436.982.64Remark:Factor = Antenna Factor + Cable Loss Pre-amplifier. Report No.: AGC03329190702FE03 Page 46 of 77 EUT Temperature Pressure Test Mode TEST RESULT FOR RESTRICTED BANDS REQUIREMENTS LED light-up wireless projection speaker 25C 960hPa Mode 1 Model Name TT1145 Relative Humidity 55.4%
Test Voltage Normal Voltage Antenna Horizontal PK AV RESULT: PASS Report No.: AGC03329190702FE03 Page 47 of 77 EUT Temperature Pressure Test Mode LED light-up wireless projection speaker 25C 960hPa Mode 1 Model Name TT1145 Relative Humidity 55.4%
Test Voltage Normal Voltage Antenna Vertical PK AV RESULT: PASS Report No.: AGC03329190702FE03 Page 48 of 77 EUT Temperature Pressure Test Mode LED light-up wireless projection speaker 25C 960hPa Mode 3 Model Name TT1145 Relative Humidity 55.4%
Test Voltage Normal Voltage Antenna Horizontal PK AV RESULT: PASS Report No.: AGC03329190702FE03 Page 49 of 77 EUT Temperature Pressure Test Mode LED light-up wireless projection speaker 25C 960hPa Mode 3 Model Name TT1145 Relative Humidity 55.4%
Test Voltage Normal Voltage Antenna Vertical PK AV RESULT: PASS Note: The factor had been edited in the Input Correction of the Spectrum Analyzer. So the Amplitude of test plots is equal to Reading level plus the Factor in dB. Use the A dB(V) to represent the Amplitude. Use the F dB(V/m) to represent the Field Strength. So A=F. All test modes had been pre-tested. The GFSK modulation is the worst case and recorded in the report. Report No.: AGC03329190702FE03 Page 50 of 77 11. NUMBER OF HOPPING FREQUENCY 11.1. MEASUREMENT PROCEDURE The EUT shall have its hopping function enabled. Use the following spectrum analyzer settings:
1. Span: The frequency band of operation. Depending on the number of channels the device supports, it may be necessary to divide the frequency range of operation across multiple spans, to allow the individual channels to be clearly seen. 2. RBW: To identify clearly the individual channels, set the RBW to less than 30% of the channel spacing or the 20 dB bandwidth, whichever is smaller. 3. VBW RBW. Sweep: Auto. Detector function: Peak. Trace: Max hold. 4. Allow the trace to stabilize. 11.2. TEST SETUP (BLOCK DIAGRAM OF CONFIGURATION) Same as described in section 8.2 11.3. MEASUREMENT EQUIPMENT USED The same as described in section 6 11.4. LIMITS AND MEASUREMENT RESULT TOTAL NO. OF HOPPING CHANNEL LIMIT (NO. OF CH) MEASUREMENT
(NO. OF CH)
>=15 79 TEST PLOT FOR NO. OF TOTAL CHANNELS RESULT PASS Note: The GFSK modulation is the worst case and recorded in the report. Report No.: AGC03329190702FE03 Page 51 of 77 12. TIME OF OCCUPANCY (DWELL TIME) 12.1. MEASUREMENT PROCEDURE The EUT shall have its hopping function enabled. Use the following spectrum analyzer settings:
1. Span: Zero span, centered on a hopping channel. 2. RBW shall bechannel spacing and where possible RBW should be set >> 1 / T, where T is the expected dwell time per channel. 3. Sweep: As necessary to capture the entire dwell time per hopping channel; where possible use a video trigger and trigger delay so that the transmitted signal starts a little to the right of the start of the plot. The trigger level might need slight adjustment to prevent triggering when the system hops on an adjacent channel;
a second plot might be needed with a longer sweep time to show two successive hops on a channel. 4. Detector function: Peak. Trace: Max hold. 5. Use the marker-delta function to determine the transmit time per hop. 6. Repeat the measurement using a longer sweep time to determine the number of hops over the period specified in the requirements. The sweep time shall be equal to, or less than, the period specified in the requirements. Determine the number of hops over the sweep time and calculate the total number of hops in the period specified in the requirements, using the following equation:
(Number of hops in the period specified in the requirements) = (number of hops on spectrum analyzer)
(period specified in the requirements / analyzer sweep time) 7. The average time of occupancy is calculated from the transmit time per hop multiplied by the number of hops in the period specified in the requirements. 12.2. TEST SETUP (BLOCK DIAGRAM OF CONFIGURATION) Same as described in section 8.2 12.3. MEASUREMENT EQUIPMENT USED The same as described in section 6 12.4. LIMITS AND MEASUREMENT RESULT Time of Pulse Channel for DH5 Low Middle High
(ms) 2.932 2.922 2.910 Number of hops in the period Sweep Time specified in the requirements
(ms) 26*4 26*4 25*4 304.93 303.89 291.00 Limit
(ms) 400 400 400 Note: The 8-DPSK modulation is the worst case and recorded in the report. Report No.: AGC03329190702FE03 Page 52 of 77 TEST PLOT OF LOW CHANNEL
1 | Test Report 2-2 | Test Report | 3.75 MiB | August 08 2019 |
Report No.: AGC03329190702FE03 Page 53 of 77 TEST PLOT OF MIDDLE CHANNEL Report No.: AGC03329190702FE03 Page 54 of 77 TEST PLOT OF HIGH CHANNEL Report No.: AGC03329190702FE03 Page 55 of 77 13. FREQUENCY SEPARATION 13.1. MEASUREMENT PROCEDURE The EUT shall have its hopping function enabled. Use the following spectrum analyzer settings:
1. Span: Wide enough to capture the peaks of two adjacent channels. 2. RBW: Start with the RBW set to approximately 30% of the channel spacing; adjust as necessary to best identify the center of each individual channel. 3. Video (or average) bandwidth (VBW) RBW. 4. Sweep: Auto. e) Detector function: Peak. f) Trace: Max hold. g) Allow the trace to stabilize. Use the marker-delta function to determine the separation between the peaks of the adjacent channels. 13.2. TEST SETUP (BLOCK DIAGRAM OF CONFIGURATION) Same as described in section 6.2 13.3. MEASUREMENT EQUIPMENT USED The same as described in section 6.3 13.4. LIMITS AND MEASUREMENT RESULT CHANNEL CH01-CH02 CHANNEL SEPARATION KHz 1001 LIMIT KHz
>=25 KHz or 2/3 20 dB BW RESULT Pass TEST PLOT FOR FREQUENCY SEPARATION Note: The 8-DPSK modulation is the worst case and recorded in the report. Report No.: AGC03329190702FE03 Page 56 of 77 14. FCC LINE CONDUCTED EMISSION TEST 14.1. LIMITS OF LINE CONDUCTED EMISSION TEST Frequency 150kHz~500kHz 500kHz~5MHz 5MHz~30MHz Maximum RF Line Voltage Q.P.( dBuV) Average( dBuV) 66-56 56 60 56-46 46 50 Note:
1. The lower limit shall apply at the transition frequency. 2. The limit decreases linearly with the logarithm of the frequency in the range 0.15 MHz to 0.50 MHz. 14.2. BLOCK DIAGRAM OF LINE CONDUCTED EMISSION TEST EUT & Support Units Report No.: AGC03329190702FE03 Page 57 of 77 14.3. PRELIMINARY PROCEDURE OF LINE CONDUCTED EMISSION TEST 1. The equipment was set up as per the test configuration to simulate typical actual usage per the users manual. When the EUT is a tabletop system, a wooden table with a height of 0.8 meters is used and is placed on the ground plane as per ANSI C63.10 (see Test Facility for the dimensions of the ground plane used). When the EUT is a floor-standing equipment, it is placed on the ground plane which has a 3-12 mm non-conductive covering to insulate the EUT from the ground plane. 2. Support equipment, if needed, was placed as per ANSI C63.10. 3. All I/O cables were positioned to simulate typical actual usage as per ANSI C63.10. 4. All support equipments received AC120V/60Hz power from a LISN, if any. 5. The EUT received DC 5V power from adapter which received AC120V/60Hz power from a LISN. 6. The test program was started. Emissions were measured on each current carrying line of the EUT using a spectrum Analyzer / Receiver connected to the LISN powering the EUT. The LISN has two monitoring points: Line 1 (Hot Side) and Line 2 (Neutral Side). Two scans were taken: one with Line 1 connected to Analyzer / Receiver and Line 2 connected to a 50 ohm load; the second scan had Line 1 connected to a 50 ohm load and Line 2 connected to the Analyzer / Receiver. 7. Analyzer / Receiver scanned from 150 kHz to 30MHz for emissions in each of the test modes. 8. During the above scans, the emissions were maximized by cable manipulation. 9. The test mode(s) were scanned during the preliminary test. Then, the EUT configuration and cable configuration of the above highest emission level were recorded for reference of final testing. 14.4. FINAL PROCEDURE OF LINE CONDUCTED EMISSION TEST 1. EUT and support equipment was set up on the test bench as per step 2 of the preliminary test. 2. A scan was taken on both power lines, Line 1 and Line 2, recording at least the six highest emissions. Emission frequency and amplitude were recorded into a computer in which correction factors were used to calculate the emission level and compare reading to the applicable limit. If EUT emission level was less 2dB to the A.V. limit in Peak mode, then the emission signal was re-checked using Q.P and Average detector. 3. The test data of the worst case condition(s) was reported on the Summary Data page. Report No.: AGC03329190702FE03 Page 58 of 77 14.5. TEST RESULT OF LINE CONDUCTED EMISSION TEST Line Conducted Emission Test Line 1-L Report No.: AGC03329190702FE03 Page 59 of 77 Line Conducted Emission Test Line 2-N RESULT: PASS Note: All the test modes had been tested, the mode 1 was the worst case. Only the data of the worst case would be record in this test report. Report No.: AGC03329190702FE03 Page 60 of 77 APPENDIX A: PHOTOGRAPHS OF TEST SETUP RADIATED EMISSION TEST SETUP BELOW 1GHZ RADIATED EMISSION TEST SETUP ABOVE 1GHZ Report No.: AGC03329190702FE03 Page 61 of 77 CONDUCTED EMISSION TEST SETUP APPENDIX B: PHOTOGRAPHS OF EUT Test model: TT1145 TOP VIEW OF EUT Report No.: AGC03329190702FE03 Page 62 of 77 BOTTOM VIEW OF EUT Report No.: AGC03329190702FE03 Page 63 of 77 FRONT VIEW OF EUT BACK VIEW OF EUT Report No.: AGC03329190702FE03 Page 64 of 77 LEFT VIEW OF EUT RIGHT VIEW OF EUT Report No.: AGC03329190702FE03 Page 65 of 77 VIEW OF EUT(PORT) OPEN VIEW OF EUT-1 Report No.: AGC03329190702FE03 Page 66 of 77 OPEN VIEW OF EUT-2 VIEW OF BATTERY Report No.: AGC03329190702FE03 Page 67 of 77 INTERNAL VIEW OF EUT-1 INTERNAL VIEW OF EUT-2 Report No.: AGC03329190702FE03 Page 68 of 77 INTERNAL VIEW OF EUT-3 Antenna INTERNAL VIEW OF EUT-4 Report No.: AGC03329190702FE03 Page 69 of 77 INTERNAL VIEW OF EUT-5 INTERNAL VIEW OF EUT-6 Series model: CAB-9H680 ALL VIEW OF EUT Report No.: AGC03329190702FE03 Page 70 of 77 TOP VIEW OF EUT Report No.: AGC03329190702FE03 Page 71 of 77 BOTTOM VIEW OF EUT FRONT VIEW OF EUT Report No.: AGC03329190702FE03 Page 72 of 77 BACK VIEW OF EUT LEFT VIEW OF EUT Report No.: AGC03329190702FE03 Page 73 of 77 RIGHT VIEW OF EUT VIEW OF EUT(PORT) Report No.: AGC03329190702FE03 Page 74 of 77 OPEN VIEW OF EUT VIEW OF BATTERY Report No.: AGC03329190702FE03 Page 75 of 77 INTERNAL VIEW OF EUT-1 INTERNAL VIEW OF EUT-2 Report No.: AGC03329190702FE03 Page 76 of 77 INTERNAL VIEW OF EUT-3 Antenna INTERNAL VIEW OF EUT-4 Report No.: AGC03329190702FE03 Page 77 of 77 INTERNAL VIEW OF EUT-5 INTERNAL VIEW OF EUT-6
----END OF REPORT----
1 | Test Setup Photos | Test Setup Photos | 329.56 KiB | August 08 2019 |
Test Setup Photos RADIATED EMISSION TEST SETUP BELOW 1GHZ RADIATED EMISSION TEST SETUP ABOVE 1GHZ CONDUCTED EMISSION TEST SETUP
frequency | equipment class | purpose | ||
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1 | 2019-08-08 | 2402 ~ 2480 | DSS - Part 15 Spread Spectrum Transmitter | Original Equipment |
app s | Applicant Information | |||||
---|---|---|---|---|---|---|
1 | Effective |
2019-08-08
|
||||
1 | Applicant's complete, legal business name |
Shenzhen Junlan Electronic Ltd
|
||||
1 | FCC Registration Number (FRN) |
0021880893
|
||||
1 | Physical Address |
No.277 PingKui Road, Shijing Community, Pingshan Street, Pingshan New District
|
||||
1 |
No.277 PingKui Road, Shijing Community
|
|||||
1 |
Shenzhen, N/A
|
|||||
1 |
China
|
|||||
app s | TCB Information | |||||
1 | TCB Application Email Address |
b******@phoenix-testlab.de
|
||||
1 | TCB Scope |
A4: UNII devices & low power transmitters using spread spectrum techniques
|
||||
app s | FCC ID | |||||
1 | Grantee Code |
OKU
|
||||
1 | Equipment Product Code |
CAB9H680
|
||||
app s | Person at the applicant's address to receive grant or for contact | |||||
1 | Name |
p******** x****
|
||||
1 | Title |
safety engineer
|
||||
1 | Telephone Number |
0755-********
|
||||
1 | Fax Number |
0755-********
|
||||
1 |
x******@jump-lan.com
|
|||||
app s | Technical Contact | |||||
n/a | ||||||
app s | Non Technical Contact | |||||
n/a | ||||||
app s | Confidentiality (long or short term) | |||||
1 | Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | Yes | ||||
1 | Long-Term Confidentiality Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | No | ||||
if no date is supplied, the release date will be set to 45 calendar days past the date of grant. | ||||||
app s | Cognitive Radio & Software Defined Radio, Class, etc | |||||
1 | Is this application for software defined/cognitive radio authorization? | No | ||||
1 | Equipment Class | DSS - Part 15 Spread Spectrum Transmitter | ||||
1 | Description of product as it is marketed: (NOTE: This text will appear below the equipment class on the grant) | LED light-up wireless projection speaker | ||||
1 | Related OET KnowledgeDataBase Inquiry: Is there a KDB inquiry associated with this application? | No | ||||
1 | Modular Equipment Type | Does not apply | ||||
1 | Purpose / Application is for | Original Equipment | ||||
1 | Composite Equipment: Is the equipment in this application a composite device subject to an additional equipment authorization? | No | ||||
1 | Related Equipment: Is the equipment in this application part of a system that operates with, or is marketed with, another device that requires an equipment authorization? | No | ||||
1 | Grant Comments | Output Power listed is peak conduted. | ||||
1 | Is there an equipment authorization waiver associated with this application? | No | ||||
1 | If there is an equipment authorization waiver associated with this application, has the associated waiver been approved and all information uploaded? | No | ||||
app s | Test Firm Name and Contact Information | |||||
1 | Firm Name |
Attestation of Global Compliance (Shenzhen) Co., L
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1 | Name |
D****** L****
|
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1 | Telephone Number |
+86-7********
|
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1 |
d******@agc-cert.com
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Equipment Specifications | |||||||||||||||||||||||||||||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
1 | 1 | 15C | 2402.00000000 | 2480.00000000 | 0.0013000 |
some individual PII (Personally Identifiable Information) available on the public forms may be redacted, original source may include additional details
This product uses the FCC Data API but is not endorsed or certified by the FCC