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BESEN Test Report Test Report.hwp ARAM Solution Co., Ltd.
ARAM Solution Co., Ltd. BESENSee More Details For FCC ID: 2AAVTABP-1000Purchase on Amazon:
Download: Document DescriptionTest ReportDocument TypeTest ReportDate Submitted2017-01-10 00:00:00Producing SoftwareAcrobat Distiller 9.5.5 (Windows)Document TitleTest Report.hwp
STANDARD ENGINEERING FCC ID : 2AAVTABP-1000Report Number : STD-FCC-16080 Page 1/49TEST REPORT Tested by Approved by SoonHo, Kim / Test Engineer SeongSeok, Seo / Compliance EngineerThis report may not be reproduced without the full written consent of Standard Engineering Laboratory. Standard Engineering Co. Ltd.377-11, Sinjang-ri, Eumam-myeon, Seosan-si, ChoongNam 356-844, South KoreaTel.: +82-41-663-9436, Fax :+82-41-663-9434 www.stdeng.com 1. Applicant Name :ARAM Solution Co.,Ltd Brand Name :N/A Address :Venture-dong #202, jeonbuk technopark,109, Ballyong-ro, Deokjin-gu, Jeonju-si, Jeollabuk-do, Korea FCC ID :2AAVTABP-10002. Products Name :BESEN Model No. :ABP-1000 Variant Model No. :N/A Manufacturer :ARAM Solution Co.,Ltd Address :Venture-dong #202, jeonbuk technopark,109, Ballyong-ro, Deokjin-gu, Jeonju-si, Jeollabuk-do, Korea3. Test Standard : 47 CFR Part 15, Subpart C4. Test Method : ANSI C63.10-20135. Test Result : PASS6. Dates of Test : December 08, 2016 to December 14, 20167. Date of Issue : December 16, 20168. Test Laboratory : Standard Engineering Co. Ltd.FCC Designation Number : 624439
STANDARD ENGINEERING FCC ID : 2AAVTABP-1000Report Number : STD-FCC-16080 Page 2/491. Test SummaryTest Test Requirement Test method ResultAntenna Requirement 47 CFR Part 15, Subpart C Section 15.203/15.247 (c) ANSI C63.10 2013 PASSAC Power LineConductedEmission47 CFR Part 15, Subpart C Section 15.207 ANSI C63.10 2013 PASSConducted Peak OutputPower47 CFR Part 15, Subpart C Section 15.247 (b)(3)KDB558074 D01v03r05 PASS6dB OccupiedBandwidth47 CFR Part 15, Subpart C Section 15.247 (a)(2)KDB558074 D01v03r05 PASSPower Spectral Density 47 CFR Part 15, Subpart C Section 15.247 (e)KDB558074 D01v03r05 PASSBand-edge for RFConducted Emissions47 CFR Part 15, Subpart C Section 15.247(d)KDB558074 D01v03r05 PASSRF Conducted SpuriousEmissions47 CFR Part 15, Subpart C Section 15.247(d)KDB558074 D01v03r05 PASSRadiated SpuriousEmissions47 CFR Part 15, Subpart C Section 15.205/15.209 ANSI C63.10 2013 PASSBand Edge (RadiatedEmission)47 CFR Part 15, Subpart C Section 15.205/15.209 ANSI C63.10 2013 PASS
STANDARD ENGINEERING FCC ID : 2AAVTABP-1000Report Number : STD-FCC-16080 Page 3/492. TABLE OF CONTENTS 1. Test Summary...........................................................................................................................................................22. Table of Contents....................................................................................................................................................33. General Information...............................................................................................................................................4 3.1 Client Information............................................................................................................................................4 3.2 General Description of E.U.T........................................................................................................................4 3.3 Details of E.U.T..................................................................................................................................................4 3.4 Operation Frequency each of channel.....................................................................................................5 3.5 Description of Support Units ......................................................................................................................5 3.6 Duty Cycle Of Test signal.............................................................................................................................6 3.7 Abnormalities from Standard Conditions...............................................................................................6 3.8 Other Information Requested by the Customer..................................................................................6 3.9 Test Location.....................................................................................................................................................64. Equipment Used during Test..............................................................................................................................75. Test Results and Measurement Data...............................................................................................................8 5.1 Antenna Requirement....................................................................................................................................8 5.2 Conducted Peak Output Power..................................................................................................................9 5.3 6dB Occupy Bandwidth...............................................................................................................................13 5.4 Power Spectral Density...............................................................................................................................16 5.5 Band-edge for RF Conducted Emissions..............................................................................................19 5.6 RF Conducted Spurious Emissions..........................................................................................................21 5.7 Radiated Spurious Emissions....................................................................................................................25 5.7.1Harmonic and other spurious emissions........................................................................................29 5.7.1.1 Test at Lowest Channel in transmitting status..........................................................................29 5.7.1.2 Test at middle Channel in transmitting status..........................................................................32 5.7.1.3 Test at Highest Channel in transmitting status........................................................................35 5.8 Band Edge (Radiated Emission)...............................................................................................................38 5.9 Conducted Emissions at Mains Terminals 150 kHz to 30 MHz....................................................43 5.9.1 Measurement Data................................................................................................................................45 5.10 Radio Frequency Exposure Procedures..............................................................................................47 ** APPENDIX............................................................................................................................................................49
STANDARD ENGINEERING FCC ID : 2AAVTABP-1000Report Number : STD-FCC-16080 Page 4/493. General Information3.1. Client InformationApplicant : ARAM Solution Co.,LtdAddress of Applicant : Venture-dong #202, jeonbuk technopark,109, Ballyong-ro, Deokjin-gu, Jeonju-si, Jeollabuk-do, Korea3.2. General Description of E.U.T.Product Name : BESENModel No. : ABP-10003.3. Details of E.U.T.Operation Frequency : 2402 MHz to 2480 MHzWireless Type : BluetoothChannel Numbers : 40 ChannelsChannel Spacing : 2MHzType of Modulation : GFSKAntenna Type : Pattern AntennaAntenna Gain : -0.68 dBiTest Software : nrfgostudio_win-64_1.21.2_installerPower Supply : DC 5.0 VTest Voltage : DC 5.0 V
STANDARD ENGINEERING FCC ID : 2AAVTABP-1000Report Number : STD-FCC-16080 Page 5/493.4. Operation Frequency each of channelChannel Frequency Channel Frequency Channel Frequency Channel Frequency12402MHz 11 2422MHz 21 2442MHz 31 2462MHz22404MHz 12 2424MHz 22 2444MHz 32 2464MHz32406MHz 13 2426MHz 23 2446MHz 33 2466MHz42408MHz 14 2428MHz 24 2448MHz 34 2468MHz52410MHz 15 2430MHz 25 2450MHz 35 2470MHz62412MHz 16 2432MHz 26 2452MHz 36 2472MHz72414MHz 17 2434MHz 27 2454MHz 37 2474MHz82416MHz 18 2436MHz 28 2456MHz 38 2476MHz92418MHz 19 2438MHz 29 2458MHz 39 2478MHz10 2420MHz 20 2440MHz 30 2460MHz 40 2480MHzNote:In section 15.31(m), regards to the operating frequency range over 10 MHz, the Lowest frequency, the middle frequency, and the highest frequency of channel were selected to perform the test, and the selected channel see below: Channel Frequency Lowest channel 2402MHzMiddle channel 2440MHzHighest channel 2480MHz3.5. Description of Support Units The EUT has been tested with corresponding accessories as below: Supplied by Standard Engineering Laboratory.:Description Manufacturer Model No. Serial No.NoteBook LG SD550 308QCZP556717USB Cable - --Jig NORDIC SEMICONDUCTOR JVE-M2 E232940Power Supply Provice PWS-5005D 205050
STANDARD ENGINEERING FCC ID : 2AAVTABP-1000Report Number : STD-FCC-16080 Page 6/493.6. Duty Cycle Of Test signal Duty cycle is <93%, duty factor shall be considered. Duty cycle=Tx on/(Tx on+Tx off), Duty factor=10*log(1/duty cycle) Band Rate Duty cycle Duty Cycle Factor2.4 GHz band 1 Byte 0.206 6.863.7. Abnormalities from Standard ConditionsNone.3.8. Other Information Requested by the CustomerNone.3.9. Test Location377-11, Sinjang-ri, Eumam-myeon, Seosan-si, ChoongNam 356-844, South Korea (FCC Designation Number : 624439)This test site is in compliance with ISO/IEC 17025 for general requirements for the competence of testing and calibration laboratories.
STANDARD ENGINEERING FCC ID : 2AAVTABP-1000Report Number : STD-FCC-16080 Page 7/494. Equipment Used during TestNo. Test Equipment Manufacturer Model No. Serial No. Cal. Date Next Cal. Data Used equipment1 EMI Test Receiver LIG LSA-265 L07098033 03/08/2016 03/08/2017 ■2 EMI Test Receiver Rhode & Schwarz ESIB7 3311 02/11/2016 02/11/2017 ■3 Bi-log Antenna Schwarzbeck VULB9163 164 09/15/2014 09/30/2017 ■4 Loop Antenna EMCO 6502 9206-2769 01/28/2016 01/28/2018 ■5 Spectrum Analyzer Agilent E4440A US45303130 01/26/2016 01/26/2017 ■6 Frequency Counter HP 5347A 3009A02742 01/26/2016 01/26/2017 □7 Attenuator Agilent 8495B 3308A22485 01/26/2016 01/26/2017 □8 Power Meter Agilent E4418B MY405111655 01/26/2016 01/26/2017 □9 Power Sensor HP 8485A 2347A02746 01/26/2016 01/26/2017 □10 RF Cable GigalaneSMS102-MF141-SMS102-1.0MPB1252301285 N/A N/A ■11 Signal Generator HP 83630A 3420A00728 01/26/2016 01/26/2017 □12 Oscilloscope HP 54815A US38380122 01/26/2016 01/26/2017 □13 Pre Amplifier Agilent 8449B 3008A02105 01/26/2016 01/26/2017 ■14 Signal Generator Rhode & Schwarz SML03 102330 01/26/2016 01/26/2017 □15 Power Divider Agilent 11636B 50309 01/26/2016 01/26/2017 □16 Power Sensor Seoksan Tech SE-CT-02 S7400JD5340618 01/26/2016 01/26/2017 □17 DC Power Supply HP 6032A US35420383 01/26/2016 01/26/2017 ■18 Slidacs Sunchang Electrics 5KV N/A 01/26/2016 01/26/2017 □19 Bandreject Filter K&L Microwave 50140 555 01/26/2016 01/26/2017 □20 Horn Antenna Schwarzbeck BBHA9120A 346 02/05/2016 02/05/2018 ■21 Horn Antenna A.H. SYSTEMS SAS-572 269 09/03/2015 09/03/2017 ■22 DC Power Supply Provice PWS-5005D 205050 01/26/2016 01/26/2017 ■23 Pulse Limiter Rhode & Schwarz ESH3-Z2 100137 11/10/2016 11/10/2017 ■24 LISN Rhode & Schwarz ESH3-Z5 100204 11/10/2016 11/10/2017 ■
STANDARD ENGINEERING FCC ID : 2AAVTABP-1000Report Number : STD-FCC-16080 Page 8/495. Test Results and Measurement Data5.1. Antenna RequirementStandard requirement: 47 CFR Part 15C Section 15.203 /247(c)15.203 requirement: An intentional radiator shall be designed to ensure that no antenna other than that furnished by the responsible party shall be used with the device. The use of a permanently attached antenna or of an antenna that uses a unique coupling to the intentional radiator, the manufacturer may design the unit so that a broken antenna can be replaced by the user, but the use of a standard antenna jack or electrical connector is prohibited.15.247(b) (4) requirement: The conducted output power limit specified in paragraph (b) of this section is based on the use of antennas with directional gains that do not exceed 6 dBi. Except as shown in paragraph (c) of this section, if transmitting antennas of directional gain greater than 6 dBi are used, the conducted output power from the intentional radiator shall be reduced below the stated values in paragraphs (b)(1), (b)(2), and (b)(3) of this section, as appropriate, by the amount in dB that the directional gain of the antenna exceeds 6 dBi. EUT Antenna PASS The transmitter has an Internal Pattern antenna. The directional gain of the antenna is -0.68 dBi. please refer to the EUT Internal photos and Antenna gain.
STANDARD ENGINEERING FCC ID : 2AAVTABP-1000Report Number : STD-FCC-16080 Page 9/495.2. Conducted Peak Output PowerTest Requirement: 47 CFR Part 15C Section 15.247 (b)(3)Test Method: KDB558074 D01 v03r05Test Configuration:Test Instruments: Refer to section 4.10 for detailsExploratory Test Mode:Transmitting modeFinal Test Mode: Non-hopping transmitting with GFSK modulation Limit: 30dBmTest Results: PassMeasurement Data Peak Power Test channel Peak Output Power (dBm) Limit (dBm) Result Lowest 3.25 30.00 PassMiddle 2.11 30.00 PassHighest 0.38 30.00 PassAverage Power Test channel Conducted Power (dBm) Duty Cycle FactorFinal Conducted Power (dBm) Limit (dBm) Result Lowest -4.19 6.86 2.67 30.00 PassMiddle -6.10 6.86 0.76 30.00 PassHighest -6.94 6.86 -0.08 30.00 Pass
STANDARD ENGINEERING FCC ID : 2AAVTABP-1000Report Number : STD-FCC-16080 Page 10/49Result plot as follows:Test mode: Peak PowerLowest Channel: Middle Channel: STANDARD ENGINEERING FCC ID : 2AAVTABP-1000Report Number : STD-FCC-16080 Page 11/49Highest Channel: Result plot as follows:Test mode: Average PowerLowest Channel: STANDARD ENGINEERING FCC ID : 2AAVTABP-1000Report Number : STD-FCC-16080 Page 12/49 Middle Channel: Highest Channel: STANDARD ENGINEERING FCC ID : 2AAVTABP-1000Report Number : STD-FCC-16080 Page 13/495.3. 6dB Occupy BandwidthTest Requirement: 47 CFR Part 15C Section 15.247 (a)(2)Test Method: KDB558074 D01 v03r05Test Configuration:Instruments Used: Refer to section 4.10 for detailsExploratory Test Mode: Transmitting modeFinal Test Mode: Non-hopping transmitting with GFSK modulation Limit: ≥ 500 kHzTest Results: PassMeasurement Data Test channel 6dB Occupy Bandwidth (kHz) Limit (kHz) Result Lowest 752 ≥ 500 PassMiddle 714 ≥ 500 PassHighest 731 ≥ 500 Pass
STANDARD ENGINEERING FCC ID : 2AAVTABP-1000Report Number : STD-FCC-16080 Page 14/49Result plot as follows:Test mode: GFSKLowest Channel: Middle Channel: STANDARD ENGINEERING FCC ID : 2AAVTABP-1000Report Number : STD-FCC-16080 Page 15/49Highest Channel:
STANDARD ENGINEERING FCC ID : 2AAVTABP-1000Report Number : STD-FCC-16080 Page 16/495.4. Power Spectral DensityTest Requirement: 47 CFR Part 15C Section 15.247 (e)Test Method: KDB558074 D01 v03r05Test Configuration:Test Instruments: Refer to section 4.10 for detailsExploratory Test Mode:Transmitting modeFinal Test Mode: Non-hopping transmitting with GFSK modulation Limit: ≤8dBm/3kHzTest Results: PassMeasurement Data GFSK mode Test channel Power Spectral Density (dBm/3kHz)Limit (dBm/3kHz) Result Lowest -10.39 ≤8 dBm/3kHz PassMiddle -11.01 ≤8 dBm/3kHz PassHighest -12.51 ≤8 dBm/3kHz Pass
STANDARD ENGINEERING FCC ID : 2AAVTABP-1000Report Number : STD-FCC-16080 Page 17/49Result plot as follows:Test mode: GFSKLowest Channel: Middle Channel: STANDARD ENGINEERING FCC ID : 2AAVTABP-1000Report Number : STD-FCC-16080 Page 18/49Highest Channel:
STANDARD ENGINEERING FCC ID : 2AAVTABP-1000Report Number : STD-FCC-16080 Page 19/495.5. Band-edge for RF Conducted EmissionsTest Requirement: FCC Part15 C section 15.247 (d) Test Method: KDB558074 D01 v03r05Test Configuration:Exploratory Test Mode: Transmitting modeFinal Test Mode: Non-hopping transmitting with GFSK modulation Limit: In any 100 kHz bandwidth outside the frequency band in which the spread spectrum intentional radiator is operating, the radio frequency power that is produced by the intentional radiator shall be at least 20 dB below that in the 100 kHz bandwidth within the band that contains the highest level of the desired power, based on either an RF conducted or a radiatedmeasurement.Instruments Used: Refer to section 4.10 for detailsTest Results: Pass
STANDARD ENGINEERING FCC ID : 2AAVTABP-1000Report Number : STD-FCC-16080 Page 20/49Result plot as follows:Test mode: GFSKLowest Channel: Highest Channel: STANDARD ENGINEERING FCC ID : 2AAVTABP-1000Report Number : STD-FCC-16080 Page 21/495.6. RF Conducted Spurious EmissionsTest Requirement: 47 CFR Part 15C Section 15.247 (d)Test Method: KDB558074 D01 v03r05Test Configuration:Exploratory Test Mode: Transmitting modeFinal Test Mode: Non-hopping transmitting with GFSK modulation Limit: In any 100 kHz bandwidth outside the frequency band in which the spread spectrum intentional radiator is operating, the radio frequency power that is produced by the intentional radiator shall be at least 20 dB below that in the 100 kHz bandwidth within the band that contains the highest level of the desired power, based on either an RF conducted or a radiatedmeasurement.Instruments Used: Refer to section 4.10 for detailsTest Results: Pass
STANDARD ENGINEERING FCC ID : 2AAVTABP-1000Report Number : STD-FCC-16080 Page 22/49Result plot as follows:Test mode: GFSKLowest Channel: STANDARD ENGINEERING FCC ID : 2AAVTABP-1000Report Number : STD-FCC-16080 Page 23/49 Middle Channel: STANDARD ENGINEERING FCC ID : 2AAVTABP-1000Report Number : STD-FCC-16080 Page 24/49Highest Channel:
STANDARD ENGINEERING FCC ID : 2AAVTABP-1000Report Number : STD-FCC-16080 Page 25/495.7. Radiated Spurious EmissionsTest equirement: 47 CFR Part 15C Section 15.209 and 15.205Test Method: ANSI C63.10 2013Test Site: Measurement Distance: 3mReceiver Setup:Frequency Detector RBW VBW Remark0.009MHz-0.090MHz Peak 10kHz 30kHz Peak0.009MHz-0.090MHz Average 10kHz 30kHz Average0.090MHz-0.110MHz Quasi-peak 10kHz 30kHz Quasi-peak0.110MHz-0.490MHz Peak 10kHz 30kHz Peak0.110MHz-0.490MHz Average 10kHz 30kHz Average0.490MHz -30MHz Quasi-peak 10kHz 30kHz Quasi-peak30MHz-1GHz Quasi-peak 100kHz 300kHz Quasi-peakAbove 1GHz Peak 1MHz 3MHz PeakPeak 1MHz 10Hz AverageLimit:Frequency Field strength(microvolt/meter)Limit(dBuV/m) Remark Measurementdistance (m)0.009MHz-0.490MHz 2400/F(kHz) - - 3000.490MHz-1.705MHz 24000/F(kHz) - - 301.705MHz-30MHz 30 - - 3030MHz-88MHz 100 40.0 Quasi-peak 388MHz-216MHz 150 43.5 Quasi-peak 3216MHz-960MHz 200 46.0 Quasi-peak 3960MHz-1GHz 500 54.0 Quasi-peak 3Above 1GHz 500 54.0 Average 3Note: 15.35(b), Unless otherwise specified, the limit on peak radio frequency emissions is 20dB above the maximum permitted average emission limit applicable to the equipment under test. This peak limit applies to the total peak emission level radiated by the device.
STANDARD ENGINEERING FCC ID : 2AAVTABP-1000Report Number : STD-FCC-16080 Page 26/49Test Configuration:1) 9 kHz to 30 MHz emissions:2) 30 MHz to 1 GHz emissions:
STANDARD ENGINEERING FCC ID : 2AAVTABP-1000Report Number : STD-FCC-16080 Page 27/493) 1 GHz to 25 GHz emissions: Test Procedure:a. For below 1GHz, the EUT was placed on the top of a rotating table 0.8 meters above the ground at a 3 meter OATS. The table was rotated 360 degrees to determine the position of the highest radiation. b. For above 1GHz, the EUT was placed on the top of a rotating table 1.5 meters above the ground at a 3 meter anechoic chamber. The table was rotated 360 degrees to determine the position of the highest radiation. c. The EUT was set 3 meters away from the interference-receiving antenna, which was mounted on the top of a variable-height antenna tower.d. The antenna height is varied from one meter to four meters above the ground to determine the maximum value of the field strength. Both horizontal and vertical polarizations of the antenna are set to make the measurement. d. The antenna height is varied from one meter to four meters above the ground to determine the maximum value of the field strength. Both horizontal and vertical polarizations of the antenna are set to make the measurement.
STANDARD ENGINEERING FCC ID : 2AAVTABP-1000Report Number : STD-FCC-16080 Page 28/49Test Procedure:e. For each suspected emission, the EUT was arranged to its worst case and then the antenna was tuned to heights from 1 meter to 4 meters (for the test frequency of below 30MHz, the antenna was tuned to heights 1 meter) and the rotatable table was turned from 0 degrees to 360 degrees to find the maximum reading. f. The test-receiver system was set to Peak Detect Function and Specified Bandwidth with Maximum Hold Mode. g. If the emission level of the EUT in peak mode was 10dB lower than the limit specified, then testing could be stopped and the peak values of the EUT would be reported. Otherwise the emissions that did not have 10dB margin would be re-tested one by one using peak, quasi-peak or average method as specified and then reported in a data sheet.h. Test the EUT in the lowest channel (2402MHz),the middle channel (2440MHz),the Highest channel (2480MHz) i. The radiation measurements are performed in X, Y, Z axis positioning for Transmitting mode, and found the X axis positioning which it is the worst case. j. Repeat above procedures until all frequencies measured was complete.Test Mode: Transmitting mode.Test Results: Pass
STANDARD ENGINEERING FCC ID : 2AAVTABP-1000Report Number : STD-FCC-16080 Page 29/495.7.1. Harmonic and other spurious emissions5.7.1.1. Test at Lowest Channel in transmitting status9 kHz~30 MHz Field Strength of Unwanted Emissions. Quasi-Peak MeasurementThe measurements with active loop antenna were greater than 20dB below the limit, so the test data were not recorded in the test report.30 MHz~1 GHz Spurious Emissions. Quasi-Peak Measurement Test Mode: GFSK Test channel: Lowest Vertical: Level (dBμV/m) Quasi-peak measurementFrequency(MHz)Detect ModePolarization(V/H)Measured Value(dB㎶)Antenna Factor+Cable Loss(dB/m)Emission Level(dB㎶/m)Limit(dB㎶/m)56.70 QP V 33.31 6.18 27.13 40.061.80 QP V 34.39 5.65 28.74 40.0152.28 QP V 32.81 11.88 20.93 43.5342.68 QP V 29.37 16.62 12.75 46.0481.45 QP V 37.47 20.38 17.09 46.0609.31 QP V 37.79 23.03 14.76 46.0719.27 QP V 42.14 24.40 17.74 46.0
STANDARD ENGINEERING FCC ID : 2AAVTABP-1000Report Number : STD-FCC-16080 Page 30/49Horizontal: Level (dBμV/m) Quasi-peak measurementFrequency(MHz)Detect ModePolarization(V/H)Measured Value(dB㎶)Antenna Factor+Cable Loss(dB/m)Emission Level(dB㎶/m)Limit(dB㎶/m)58.18 QP H 33.12 5.82 27.30 40.063.97 QP H 34.14 5.97 28.17 40.0113.81 QP H 28.88 11.68 17.20 43.5166.08 QP H 37.92 11.12 26.80 46.0236.71 QP H 37.01 13.33 23.68 46.0480.73 QP H 39.66 20.36 19.30 46.0719.97 QP H 44.97 24.41 20.56 46.0899.99 QP H 44.30 26.65 17.65 46.0
STANDARD ENGINEERING FCC ID : 2AAVTABP-1000Report Number : STD-FCC-16080 Page 31/491~25 GHz Harmonics & Spurious Emissions. Peak & Average MeasurementPeak / Average Measurement:Frequency(MHz)Polarization(V/H)Measured Value(dB㎶)Antenna Factor+Cable Loss(dB/m)Amplifier Gain(dB)Emission Level(dB㎶/m)Limit(dB㎶/m)The amplitude of spurious emissions that are attenuated by more than 20 dB below the permissible value has no need to be reported.
STANDARD ENGINEERING FCC ID : 2AAVTABP-1000Report Number : STD-FCC-16080 Page 32/495.7.1.2. Test at middle Channel in transmitting status9 kHz~30 MHz Field Strength of Unwanted Emissions. Quasi-Peak MeasurementThe measurements with active loop antenna were greater than 20dB below the limit, so the test data were not recorded in the test report.30 MHz~1 GHz Spurious Emissions. Quasi-Peak MeasurementTest Mode: GFSK Test channel: MiddleVertical: Level (dBμV/m) Quasi-peak measurementFrequency(MHz)Detect ModePolarization(V/H)Measured Value(dB㎶)Antenna Factor+Cable Loss(dB/m)Emission Level(dB㎶/m)Limit(dB㎶/m)57.07 QP V 33.47 6.09 27.38 40.064.71 QP V 32.16 6.07 26.09 40.0152.34 QP V 33.63 11.87 21.76 43.5228.45 QP V 32.84 12.63 20.21 46.0478.18 QP V 37.17 20.29 16.88 46.0609.30 QP V 39.37 23.03 16.34 46.0718.20 QP V 44.14 24.38 19.76 46.0
STANDARD ENGINEERING FCC ID : 2AAVTABP-1000Report Number : STD-FCC-16080 Page 33/49Horizontal: Level (dBμV/m) Quasi-peak measurementFrequency(MHz)Detect ModePolarization(V/H)Measured Value(dB㎶)Antenna Factor+Cable Loss(dB/m)Emission Level(dB㎶/m)Limit(dB㎶/m)58.54 QP H 29.12 5.74 23.38 40.064.69 QP H 32.62 6.07 26.55 40.0151.84 QP H 34.99 11.90 23.09 43.5237.07 QP H 35.55 13.36 22.19 46.0480.71 QP H 36.67 20.36 16.31 46.0719.61 QP H 42.37 24.40 17.97 46.0900.03 QP H 42.64 26.65 15.99 46.0
STANDARD ENGINEERING FCC ID : 2AAVTABP-1000Report Number : STD-FCC-16080 Page 34/491~25 GHz Harmonics & Spurious Emissions. Peak & Average MeasurementPeak / Average Measurement:Frequency(MHz)Polarization(V/H)Measured Value(dB㎶)Antenna Factor+Cable Loss(dB/m)Amplifier Gain(dB)Emission Level(dB㎶/m)Limit(dB㎶/m)The amplitude of spurious emissions that are attenuated by more than 20 dB below the permissible value has no need to be reported.
STANDARD ENGINEERING FCC ID : 2AAVTABP-1000Report Number : STD-FCC-16080 Page 35/495.7.1.3. Test at Highest Channel in transmitting status9 kHz~30 MHz Field Strength of Unwanted Emissions. Quasi-Peak MeasurementThe measurements with active loop antenna were greater than 20dB below the limit, so the test data were not recorded in the test report.30 MHz~1 GHz Spurious Emissions. Quasi-Peak MeasurementTest Mode: GFSK Test channel: HighestVertical: Level (dBμV/m) Quasi-peak measurementFrequency(MHz)Detect ModePolarization(V/H)Measured Value(dB㎶)Antenna Factor+Cable Loss(dB/m)Emission Level(dB㎶/m)Limit(dB㎶/m)57.08 QP V 33.19 6.09 27.10 40.063.66 QP V 33.28 5.92 27.36 40.0152.33 QP V 33.03 11.87 21.16 43.5228.49 QP V 31.49 12.63 18.86 46.0380.76 QP V 32.23 17.68 14.55 46.0480.72 QP V 37.37 20.36 17.01 46.0609.27 QP V 37.55 23.03 14.52 46.0720.00 QP V 42.26 24.41 17.85 46.0
STANDARD ENGINEERING FCC ID : 2AAVTABP-1000Report Number : STD-FCC-16080 Page 36/49Horizontal: Level (dBμV/m) Quasi-peak measurementFrequency(MHz)Detect ModePolarization(V/H)Measured Value(dB㎶)Antenna Factor+Cable Loss(dB/m)Emission Level(dB㎶/m)Limit(dB㎶/m)57.84 QP H 29.66 5.91 23.75 40.063.97 QP H 31.28 5.97 25.31 40.0151.72 QP H 36.76 11.91 24.85 43.5238.89 QP H 33.19 13.52 19.67 46.0479.99 QP H 40.07 20.34 19.73 46.0719.25 QP H 42.13 24.40 17.73 46.0899.99 QP H 42.62 26.65 15.97 46.0
STANDARD ENGINEERING FCC ID : 2AAVTABP-1000Report Number : STD-FCC-16080 Page 37/491~25 GHz Harmonics & Spurious Emissions. Peak & Average MeasurementPeak / Average Measurement:Frequency(MHz)Polarization(V/H)Measured Value(dB㎶)Antenna Factor+Cable Loss(dB/m)Amplifier Gain(dB)Emission Level(dB㎶/m)Limit(dB㎶/m)Remark:1). The field strength is calculated by adding the Antenna Factor. Cable Factor & Preamplifier. The basic equation with a sample calculation is as follows:Emission = Measured Value + Antenna Factor + Cable Loss –Amplifier Gain.2). As shown in Section, for frequencies above 1000 MHz. the above field strength limits are based on average limits. However, the peak field strength of any emission shall not exceed the maximum permitted average limits specified above by more than 20 dB under any condition of modulation.3). The test only perform the EUT in transmitting status since the test frequencies were over 1GHz only required transmitting status.The amplitude of spurious emissions that are attenuated by more than 20 dB below the permissible value has no need to be reported.
STANDARD ENGINEERING FCC ID : 2AAVTABP-1000Report Number : STD-FCC-16080 Page 38/495.8. Band Edge (Radiated Emission)Test Requirement: FCC Part15 C Section 15.247(d) In addition, radiated emissions which fall in the restricted bands. as defined in Section 15.205(a), must also comply with the radiated emission limits specified in Section 15.209(a) (see Section 15.205(c)).Test Method: ANSI C63.10: 2013Measurement 3m Limit: Section 15.209(a)40.0 dBμV/m between 30MHz & 88MHz; Quasi-peak Value43.5 dBμV/m between 88MHz & 216MHz; Quasi-peak Value46.0 dBμV/m between 216MHz & 960MHz; Quasi-peak Value54.0 dBμV/m between 960MHz.& 1GHz; Quasi-peak Value54.0 dBμV/m Above 1GHz; Average Value74.0 dBμV/m Above 1GHz; Peak ValueTest Procedure: a. The EUT was placed on the top of a rotating table 0.8 meters above the ground at a 3 meter semi-anechoic camber. The table was rotated 360 degrees to determine the position of the highest radiation.b. The EUT was set 3 meters away from the interference-receiving antenna, which was mounted on the top of a variable-height antenna tower.c. The antenna height is varied from one meter to four meters above the ground to determine the maximum value of the field strength. Both horizontal and vertical polarizations of the antenna are set to make the measurement.d. For each suspected emission, the EUT was arranged to its worst case and then the antenna was tuned to heights from 1 meter to 4 meters and the rotatable table was turned from 0 degrees to 360 degrees to find the maximum reading.e. The test-receiver system was set to Peak Detect Function and Specified Bandwidth with Maximum Hold Mode.f. Place a marker at the end of the restricted band closest to the transmit frequency to show compliance. Also measure any emissions in the restricted bands. Save the spectrum analyzer plot. Repeat for each power and modulation for lowest and highest channelg. Test the EUT in the lowest channel , the Highest channel h. The radiation measurements are performed in X, Y, Z axis positioning.And found the X axis positioning which it is worse case, only the test worst case mode is recorded in the report.i. Repeat above procedures until all frequencies measured was complete.
STANDARD ENGINEERING FCC ID : 2AAVTABP-1000Report Number : STD-FCC-16080 Page 39/49Exploratory Test Mode:Transmitting modeFinal Test Mode: Non-hopping transmitting with GFSK modulation Instruments Used: Refer to section 4.10 for detailsTest Results: Pass
STANDARD ENGINEERING FCC ID : 2AAVTABP-1000Report Number : STD-FCC-16080 Page 40/49 Measurement Result:Lowest Channel , Horizontal , Peak/Average Detector High Channel , Horizontal , Peak/Average Detector STANDARD ENGINEERING FCC ID : 2AAVTABP-1000Report Number : STD-FCC-16080 Page 41/49Low Channel , Vertical , Peak/Average Detector High Channel , Vertical , Peak/Average Detector
STANDARD ENGINEERING FCC ID : 2AAVTABP-1000Report Number : STD-FCC-16080 Page 42/49Section 15.205 Restricted bands of operation.(a) Except as shown in paragraph (d) of this section. only spurious emissions are permitted in any of the frequency bands listed below:
STANDARD ENGINEERING FCC ID : 2AAVTABP-1000Report Number : STD-FCC-16080 Page 43/495.9. Conducted Emissions at Mains Terminals 150 kHz to 30 MHzTest Requirement: FCC Part 15 C section 15.207Test Method: ANSI C63.10: ANSI C63.10: 2013Frequency Range: 150 kHz to 30 MHzDetector: Peak for pre-scan (9 kHz Resolution Bandwidth)Test LimitEUT Operation: Test in normal operating mode. For intentional radiators, measurements of the variation of the input power or the radiated signal level of the fundamental frequency component of the emission, as appropriate, shall be performed with the supply voltage varied between 85% and 115% of the nominal rated supply voltage.Pre-Scan has been conducted to determine the worst-case mode from all possible combinations between available modulations, data rates and antenna ports (if EUT with antenna diversity architecture).
STANDARD ENGINEERING FCC ID : 2AAVTABP-1000Report Number : STD-FCC-16080 Page 44/49Test Configuration:Test procedure:1. The mains terminal disturbance voltage test was conducted in a shielded room.2. The EUT was connected to AC power source through a LISN 1 (Line Impedance StabilizationNetwork) which provides a 50/50μH + 5linear impedance. The power cables of all other units of the EUT were connected to a second LISN 2, which was bonded to the ground reference plane in the same way as the LISN 1 for the unit being measured. A multiple socket outlet strip was used to connect multiple power cables to a single LISN provided the rating of the LISN was not exceeded.3. The tabletop EUT was placed upon a non-metallic table 0.8m above the ground reference plane. And for floor-standing arrangement, the EUT was placed on the horizontal ground reference plane, but separated from metallic contact with the ground reference plane by 0.1m of insulation.4. The test was performed with a vertical ground reference plane. The rear of the EUT shall be 0,4 m from the vertical ground reference plane. The vertical ground reference plane was bonded to the horizontal ground reference plane. The LISN 1 was placed 0,8 m from the boundary of the unit under test and bonded to a ground reference plane for LISNs mounted on top of the ground reference plane. This distance was between the closest points of the LISN 1 and the EUT. All other units of the EUT and associated equipment was at least 0,8 m from the LISN 2.5) In order to find the maximum emission, the relative positions of equipment and all of the interface cables must be changed according to ANSI C63.10: 2009 on conducted measurement.
STANDARD ENGINEERING FCC ID : 2AAVTABP-1000Report Number : STD-FCC-16080 Page 45/495.9.1. Measurement DataPre-scan was performed with peak detected on all ports, Quasi-peak & average measurements were performed at the frequencies at which maximum peak emission level were detected. Please see the attached Quasi-peak and Average test results.Line - PE(QusiPeak and Average detector used) REDUCTION TABLENo Freq(MHz)Level(dBuV)Corr(dB)Limit(dBuV)Margin(dB)State Reference 1 0.180 47.90 10.06 64.49 16.59 Pass QP2 0.273 37.79 9.96 61.03 23.24 Pass QP3 0.378 33.59 10.94 58.33 24.74 Pass QP4 0.473 29.91 9.98 56.46 26.55 Pass QP5 2.000 28.19 10.12 56.00 27.81 Pass QP6 16.527 30.19 10.92 60.00 29.81 Pass QP7 27.468 31.24 11.31 60.00 28.76 Pass QP8 0.180 27.71 10.06 54.49 26.78 Pass AV9 0.273 20.51 9.96 51.03 30.52 Pass AV10 0.378 21.07 10.94 48.33 27.26 Pass AV11 0.473 20.53 9.98 46.46 25.93 Pass AV12 2.000 19.16 10.12 46.00 26.84 Pass AV13 16.527 19.71 10.92 50.00 30.29 Pass AV14 27.468 23.31 11.31 50.00 26.69 Pass AV STANDARD ENGINEERING FCC ID : 2AAVTABP-1000Report Number : STD-FCC-16080 Page 46/49Neutral – PE(QusiPeak and Average detector used) REDUCTION TABLENo Freq(MHz)Level(dBuV)Corr(dB)Limit(dBuV)Margin(dB)State Reference 1 0.163 48.89 10.15 65.31 16.42 Pass QP2 0.715 23.94 9.99 56.00 32.06 Pass QP3 1.232 27.98 10.04 56.00 28.02 Pass QP4 3.547 29.45 10.18 56.00 26.55 Pass QP5 4.793 26.75 10.25 56.00 29.25 Pass QP6 17.476 28.72 10.80 60.00 31.28 Pass QP7 26.340 32.00 11.05 60.00 28.00 Pass QP8 0.163 27.47 10.15 55.31 27.84 Pass AV9 0.715 17.28 9.99 46.00 28.72 Pass AV10 1.232 21.57 10.04 46.00 24.43 Pass AV11 3.547 20.18 10.18 46.00 25.82 Pass AV12 4.793 16.60 10.25 46.00 29.40 Pass AV13 17.476 17.94 10.80 50.00 32.06 Pass AV14 26.340 25.04 11.05 50.00 24.96 Pass AV Measurement data:* Detector function was set into Quasi-peak & Average mode. * Corr = LISN Factor + Cable loss + Pulse Limiter STANDARD ENGINEERING FCC ID : 2AAVTABP-1000Report Number : STD-FCC-16080 Page 47/495.10. Radio Frequency Exposure Procedures Regulation According to §2.1091, §2.1093 and §1.1307(b), systems operating under the provisions ofthis section shall be operated in a manner that ensures that the public is not exposed toradio frequency energy level in excess of the Commission’&apos;s guidelines. Note 1 to Table 1: Occupational/controlled limits apply in situations in which persons are exposed as a consequence of their employment provided those persons are fully aware of the potential for exposure and can exercise control over their exposure. Limits for occupational/controlled exposure also apply in situations when an individual is transient through a location where occupational/controlled limits apply provided he or she is made aware of the potential for exposure.The S = PG / (4πR²)Where S = power density in mW/cm² P = transmit power in mW G = numeric gain of transmit antenna (numeric gain=Log-1(dB antenna gain/10)) R = distance (cm)The calculations in the table below use the highest gain of antenna for client EUT. Thesecalculations represent worst case in terms of the exposure levels.
STANDARD ENGINEERING FCC ID : 2AAVTABP-1000Report Number : STD-FCC-16080 Page 48/49Measurement Data Note: 1.0 mW/cm² from 1.310 §Table 1The worst MPE = 0.00035 mW/cm² < 1.0 mW/cm². Conclusion : The SAR measurement is exempt. Channel Frequency Power Antenna GainNumeric antenna gainRSLimits(MHz) (dBm) (mW) (dBi) (mW) (cm) (mW/cm2)(mW/cm2)2402 3.25 2.113 -0.68 0.855 20 0.00035 1.02440 2.11 1.626 -0.68 0.855 20 0.00027 1.02480 0.38 1.091 -0.68 0.855 20 0.00018 1.0
STANDARD ENGINEERING FCC ID : 2AAVTABP-1000Report Number : STD-FCC-16080 Page 49/49 APPENDIX 1. EUT photo
Download: Document ID3253887Application IdnCAqd+IVDPi9FQ9Kp0Ozzg==Document DescriptionTest ReportShort Term ConfidentialNoPermanent ConfidentialNoSupercedeNoDocument TypeTest ReportDisplay FormatAdobe Acrobat PDF - pdfFilesize5261373Date Submitted2017-01-10 00:00:00Date Available2017-01-10 00:00:00Creation Date2017-01-10 12:40:08Producing SoftwareAcrobat Distiller 9.5.5 (Windows)Document Lastmod2017-01-10 12:40:08Document TitleTest Report.hwpDocument CreatorPScript5.dll Version 5.2.2Document Author: © FCCID.io 2017