No. Workshop, M-, Middle section, Science & Technology Park, Shenzhen, Guangdong, China 5857 Telephone: +86 () 755 26 253 Fax: +86 () 755 267 594 Email: ee.shenzhen@sgs.com Page: of 8 Cover page pplication No: pplicant: Manufacturer: Factory: Product Name: Model No.(EUT): dd Model No.: Trade Mark: FCC ID: FCC REPORT SZEM687437CR Monument Labs, Inc. Monument Labs, Inc. Qingyuan Gadmei Electronics Technology Co., Ltd. Monument Photo Management Device 272 27B2, 27C2, 27D2, 27E2 Monument 2JP5-MN27 Standards: 47 CFR Part 5, Subpart C (25) Date of Receipt: 26-9-9 Date of Test: 26-9-9 to 26--27 Date of Issue: 26--3 Test Result: PSS *. * In the configuration tested, the EUT complied with the standards specified above. uthorized Signature: Jack Zhang EMC Laboratory Manager The manufacturer should ensure that all products in series production are in conformity with the product sample detailed in this report. If the product in this report is used in any configuration other than that detailed in the report, the manufacturer must ensure the new system complies with all relevant standards. ny mention of SGS International Electrical pprovals or testing done by SGS International Electrical pprovals in connection with, distribution or use of the product described in this report must be approved by SGS International Electrical pprovals in writing. The report must not be used by the client to claim product certification, approval, or endorsement by NVLP, NIST, or any agency of the federal government. ll test results in this report can be traceable to National or International Standards. its intervention only and within the limits of Client s instructions, if any. The Company s sole responsibility is to its Client and this document does not exonerate parties to a transaction from exercising all their rights and obligations under the transaction documents. This document cannot be reproduced except in full, without prior written approval of the Company. ny unauthorized alteration, forgery or falsification of the content or appearance of this document is unlawful and offenders may be prosecuted to the fullest extent of the law. Unless otherwise stated the results shown in this test report refer only to the sample(s) tested and such sample(s) are retained for 3 days only.
2 Version Page: 2 of 8 Revision Record Version Chapter Date Modifier Remark 26--3 Original uthorized for issue by: Tested By 26--27 (Peter Geng) /Project Engineer Date Checked By 26--3 (Eric Fu) /Reviewer Date
3 Test Summary Page: 3 of 8 Test Item Test Requirement Test method Result ntenna Requirement 47 CFR Part 5, Subpart C Section 5.23/5.247 (c) NSI C63. 23 PSS C Power Line Conducted Emission 47 CFR Part 5, Subpart C Section 5.27 NSI C63. 23 PSS Conducted Peak Output Power 47 CFR Part 5, Subpart C Section 5.247 (b)(3) NSI C63. 23 PSS 6dB Occupied Bandwidth 47 CFR Part 5, Subpart C Section 5.247 (a)(2) NSI C63. 23 PSS Power Spectral Density 47 CFR Part 5, Subpart C Section 5.247 (e) NSI C63. 23 PSS Band-edge for RF Conducted Emissions 47 CFR Part 5, Subpart C Section 5.247(d) NSI C63. 23 PSS RF Conducted Spurious Emissions 47 CFR Part 5, Subpart C Section 5.247(d) NSI C63. 23 PSS Radiated Spurious Emissions 47 CFR Part 5, Subpart C Section 5.25/5.29 NSI C63. 23 PSS Restricted bands around fundamental frequency (Radiated Emission) 47 CFR Part 5, Subpart C Section 5.25/5.29 NSI C63. 23 PSS
Page: 4 of 8 4 Contents COVER PGE... 2 VERSION... 2 3 TEST SUMMRY... 3 4 CONTENTS... 4 5 GENERL INFORMTION... 5 Page 5. CLIENT INFORMTION... 5 5.2 GENERL DESCRIPTION OF EUT... 5 5.3 TEST ENVIRONMENT ND MODE... 7 5.4 DESCRIPTION OF SUPPORT UNITS... 7 5.5 TEST LOCTION... 7 5.6 TEST FCILITY... 8 5.7 DEVITION FROM STNDRDS... 8 5.8 BNORMLITIES FROM STNDRD CONDITIONS... 8 5.9 OTHER INFORMTION REQUESTED BY THE CUSTOMER... 8 5. EQUIPMENT LIST... 9 6 TEST RESULTS ND MESUREMENT DT... 6. NTENN REQUIREMENT... 6.2 CONDUCTED EMISSIONS... 2 6.3 CONDUCTED PEK OUTPUT POWER... 6 6.4 6DB OCCUPY BNDWIDTH... 23 6.5 POWER SPECTRL DENSITY... 3 6.6 BND-EDGE FOR RF CONDUCTED EMISSIONS... 37 6.7 RF CONDUCTED SPURIOUS EMISSIONS... 4 TEST PLOT S FOLLOWS:... 42 6.8 RDITED SPURIOUS EMISSIONS... 56 6.8. Radiated emission below GHz... 59 6.8.2 Transmitter emission above GHz... 6 6.9 RESTRICTED BNDS ROUND FUNDMENTL FREQUENCY... 66 7 PHOTOGRPHS - EUT TEST SETUP... 8 7. CONDUCTED EMISSION... 8 7.2 RDITED EMISSION... 8 7.3 RDITED SPURIOUS EMISSION... 8 8 PHOTOGRPHS - EUT CONSTRUCTIONL DETILS... 8
5 General Information 5. Client Information Page: 5 of 8 pplicant: ddress of pplicant: Manufacturer: ddress of Manufacturer: Factory: ddress of Factory: Monument Labs, Inc. 65 N. Michigan ve., 4th Floor, Chicago, IL 66, US Monument Labs, Inc. 65 N. Michigan ve., 4th Floor, Chicago, IL 66, US Qingyuan Gadmei Electronics Technology Co., Ltd. YinZhan Forest,QingCheng District,QingYuan City,Guangdong Province, China 5.2 General Description of EUT Product Name: Model No.: Trade Mark: Operation Frequency: Channel Numbers: Channel Separation: Type of Modulation: ntenna Type: ntenna Gain: EUT Power Supply: Monument Photo Management Device 272 Monument IEEE 82.b/g/n(HT2): 242MHz to 2462MHz IEEE 82.b/g, IEEE 82.n HT2: Channels 5MHz IEEE for 82.b: DSSS(CCK,DQPSK,DBPSK) IEEE for 82.g : OFDM(64QM, 6QM, QPSK, BPSK) IEEE for 82.n(HT2) : OFDM (64QM, 6QM,QPSK,BPSK) PIF 3.7dBi DPTER MODEL:22-52UC INPUT:C -24V, 5/6Hz OUTPUT:DC 5V,2m Remark: Model No.: 272, 27B2, 27C2, 27D2, 27E2 Only the model 272 was tested, since the electrical circuit design, layout, components used, internal wiring and functions were identical for all the above models, only different on model number, package and case color. nd Ethernet plug is not included for 27E2.
Page: 6 of 8 Operation Frequency each of channel(82.b/g/n HT2) Channel Frequency Channel Frequency Channel Frequency Channel Frequency 242MHz 4 2427MHz 7 2442MHz 2457MHz 2 247MHz 5 2432MHz 8 2447MHz 2462MHz 3 2422MHz 6 2437MHz 9 2452MHz Note: In section 5.3(m), regards to the operating frequency range over 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: For 82.b/g/n (HT2): Channel The Lowest channel The Middle channel The Highest channel Frequency 242MHz 2437MHz 2462MHz
5.3 Test Environment and Mode Operating Environment: Temperature: 25. C Humidity: tmospheric Pressure: Test mode: Transmitting mode: 55 % RH 5 mbar Page: 7 of 8 Keep the EUT in transmitting mode with all kind of modulation and all kind of data rate. 5.4 Description of Support Units The EUT has been tested with associated equipment below. Description Manufacturer Model No. MITSUBISHI Television MITSUBISHI X25 5.5 Test Location HDMI cable Provided by SGS lab N/ ll tests were performed at:, No. Workshop, M-, Middle Section, Science & Technology Park, Shenzhen, Guangdong, China. 5857. Tel: +86 755 26 253 Fax: +86 755 267 594 No tests were sub-contracted.
Page: 8 of 8 5.6 Test Facility The test facility is recognized, certified, or accredited by the following organizations: CNS (No. CNS L2929) CNS has accredited EMC Lab to ISO/IEC 725:25 General Requirements for the Competence of Testing and Calibration Laboratories (CNS-CL ccreditation Criteria for the Competence of Testing and Calibration Laboratories) for the competence in the field of testing. 2L (Certificate No. 386.), Shenzhen EMC Laboratory is accredited by the merican ssociation for Laboratory ccreditation(2l). Certificate No. 386.. VCCI The m Semi-anechoic chamber and Shielded Room of SGS-CSTC Standards Technical Services Co., Ltd. have been registered in accordance with the Regulations for Voluntary Control Measures with Registration No.: G-823, R-488, T-53 and C-2383 respectively. FCC Registration No.: 556682, Shenzhen EMC Laboratory has been registered and fully described in a report filed with the (FCC) Federal Communications Commission. The acceptance letter from the FCC is maintained in our files. Registration No.: 556682. Industry Canada (IC) Two 3m Semi-anechoic chambers and the m Semi-anechoic chamber of SGS-CSTC Standards Technical Services Co., Ltd. EMC Lab have been registered by Certification and Engineering Bureau of Industry Canada for radio equipment testing with Registration No.: 462C-, 462C-2, 462C-3. 5.7 Deviation from Standards None. 5.8 bnormalities from Standard Conditions None. 5.9 Other Information Requested by the Customer None.
Page: 9 of 8 5. Equipment List Conducted Emission Item Test Equipment Manufacturer Model No. Inventory No. Cal. Date (yyyy-mmdd) Cal. Due date (yyyy-mmdd) Shielding Room ZhongYu Electron GB-88 SEM-6 26-5-3 27-5-3 2 LISN Rohde & Schwarz ENV26 SEM7-26--9 27--9 3 LISN ETS-LINDGREN 386/2 SEM7-2 26-4-25 27-4-25 4 8 Line ISN Fischer Custom FCC-TLISN-T8- Communications Inc. 2 EMC2 26-9-28 27-9-28 5 4 Line ISN Fischer Custom FCC-TLISN-T4- Communications Inc. 2 EMC2 26-9-28 27-9-28 6 2 Line ISN Fischer Custom FCC-TLISN-T2- Communications Inc. 2 EMC22 26-9-28 27-9-28 7 EMI Test Receiver Rohde & Schwarz ESCI SEM4-2 26-4-25 27-4-25 8 DC Power Supply Zhao Xin RXN-35D SEM-2 26--9 27--9 RE in Chamber Item Test Equipment Manufacturer Model No. Inventory No. Cal. Date (yyyy-mmdd) Cal. Due date (yyyy-mmdd) 3m Semi-nechoic Chamber UDIX N/ SEM-2 26-5-3 27-5-3 2 EMI Test Receiver Rohde & Schwarz ESIB26 SEM4-4 26-4-25 27-4-25 3 BiConiLog ntenna (26-3MHz) ETS-Lindgren 342C SEM3-2 24--5 27--5 4 mplifier (.-3MHz) HP 8447D SEM5-2 26--9 27--9 5 Horn ntenna (-8GHz) Rohde & Schwarz HF97 SEM3-7 25-6-4 28-6-4 6 Horn ntenna (8-26GHz) ETS-Lindgren 36 SEM3-2 24--24 27--24 7 Horn ntenna(26ghz- 4GHz).H.Systems, inc. SS-573 SEM3-3 25-2-2 28-2-2 8 Low Noise mplifier Black Diamond Series BDLN-8-3528 SEM5-5 26--9 27--9 9 Band filter mindeon si 334 SEM23- N/ N/ RF connected test Item Test Equipment Manufacturer Model No. Inventory No. Cal. Date (yyyy-mmdd) Cal. Due date (yyyy-mmdd) DC Power Supply ZhaoXin RXN-35D SEM-2 26--9 27--9 2 Spectrum nalyzer Rohde & Schwarz FSP SEM4-6 26--9 27--9 3 Signal Generator Rohde & Schwarz SML3 SEM6-2 26-4-25 27-4-25
Page: of 8 4 Power Meter Rohde & Schwarz NRVS SEM4-2 26--9 27--9
6 Test results and Measurement Data 6. ntenna Requirement Standard requirement: 5.23 requirement: 47 CFR Part 5C Section 5.23 /247(c) Page: of 8 n 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. 5.247(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)(), (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 ntenna: The antenna is integrated on the main PCB and no consideration of replacement. The best case gain of the antenna is 3.7dBi.
Page: 2 of 8 6.2 Conducted Emissions Test Requirement: 47 CFR Part 5C Section 5.27 Test Method: NSI C63.: 23 Test Frequency Range: 5kHz to 3MHz Limit: Test Procedure: Frequency range (MHz) Quasi-peak Limit (dbuv) verage.5-.5 66 to 56* 56 to 46*.5-5 56 46 5-3 6 5 * Decreases with the logarithm of the frequency. ) The mains terminal disturbance voltage test was conducted in a shielded room. 2) The EUT was connected to C power source through a LISN (Line Impedance Stabilization Network) which provides a 5Ω/5µH + 5Ω linear 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 for the unit being measured. 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.8m above the ground reference plane. nd for floor-standing arrangement, the EUT was placed on the horizontal ground reference plane, 4) The test was performed with a vertical ground reference plane. The rear of the EUT shall be.4 m from the vertical ground reference plane. The vertical ground reference plane was bonded to the horizontal ground reference plane. The LISN was placed.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 and the EUT. ll other units of the EUT and associated equipment was at least.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 NSI C63.: 23 on conducted measurement.
Test Setup: Page: 3 of 8 Exploratory Test Mode: Final Test Mode: Instruments Used: Test Results: Transmitting with all kind of modulations, data rates at lowest, middle and highest channel. Through Pre-scan, find the Mbps of rate of 82.b at lowest channel is the worst case. Only the worst case is recorded in the report. Refer to section 5. for details Pass
Page: 4 of 8 Measurement Data n initial pre-scan was performed on the live and neutral lines with peak detector. Quasi-Peak and verage measurement were performed at the frequencies with maximized peak emission were detected. Live Line:
Page: 5 of 8 Neutral Line: Notes:. The following Quasi-Peak and verage measurements were performed on the EUT: 2. Final Test Level =Receiver Reading + LISN Factor + Cable Loss.
6.3 Conducted Peak Output Power Test Requirement: 47 CFR Part 5C Section 5.247 (b)(3) Test Method: NSI C63. :23 Section.9. Test Setup: Page: 6 of 8 Test Instruments: Remark: Offset the High-Frequency cable loss.5db in the spectrum analyzer. Refer to section 5. for details Exploratory Test Mode: Transmitting with all kind of modulations, data rates Final Test Mode: Limit: Test Results: Through Pre-scan, find the Mbps of rate is the worst case of 82.b; 6Mbps of rate is the worst case of 82.g ; 6.5Mbps of rate is the worst case of 82.n(HT2) 3dBm Pass
Page: 7 of 8 Measurement Data 82.b mode Test channel Peak Output Power (dbm) Limit (dbm) Result Lowest 9.29 3. Pass Middle 9.3 3. Pass Highest 8.77 3. Pass 82.g mode Test channel Peak Output Power (dbm) Limit (dbm) Result Lowest 23.63 3. Pass Middle 23.22 3. Pass Highest 22.84 3. Pass 82.n(HT2)mode Test channel Peak Output Power (dbm) Limit (dbm) Result Lowest 22.28 3. Pass Middle 22.4 3. Pass Highest 2.49 3. Pass
Test plot as follows: Page: 8 of 8 Test mode: 82.b Test channel: Lowest PK MXH Ref 2 dbm - -2-3 -4-5 -6-7 Offset.5 db tt 4 db * RBW MHz * VBW 3 MHz SWT 5 ms Marker [T ].77 dbm 2.434 GHz Center 2.42 GHz 3 MHz/ Span 3 MHz Tx Channel Bandwidth 2 MHz Power 9.29 dbm Test mode: 82.b Test channel: Middle Ref 2 dbm Offset.5 db tt 4 db * RBW MHz * VBW 3 MHz SWT 5 ms Marker [T ].62 dbm 2.4388 GHz PK MXH - -2-3 -4-5 -6-7 Center 2.437 GHz 3 MHz/ Span 3 MHz Tx Channel Bandwidth 2 MHz Power 9.3 dbm
Page: 9 of 8 Test mode: 82.b Test channel: Highest PK MXH Ref 2 dbm - -2-3 -4-5 -6-7 Offset.5 db tt 4 db * RBW MHz * VBW 3 MHz SWT 5 ms Marker [T ].28 dbm 2.4698 GHz Center 2.462 GHz 3 MHz/ Span 3 MHz Tx Channel Bandwidth 2 MHz Power 8.77 dbm Test mode: 82.g Test channel: Lowest Ref 2 dbm Offset.5 db tt 4 db * RBW MHz * VBW 3 MHz SWT 5 ms Marker [T ] 4.4 dbm 2.426 GHz PK MXH - -2-3 -4-5 -6-7 Center 2.42 GHz 3 MHz/ Span 3 MHz Tx Channel Bandwidth 2 MHz Power 23.63 dbm
Page: 2 of 8 Test mode: 82.g Test channel: Middle Ref 2 dbm Offset.5 db tt 4 db * RBW MHz * VBW 3 MHz SWT 5 ms Marker [T ] 4.46 dbm 2.43694 GHz PK MXH - -2-3 -4-5 -6-7 Center 2.437 GHz 3 MHz/ Span 3 MHz Tx Channel Bandwidth 2 MHz Power 23.22 dbm Test mode: 82.g Test channel: Highest PK MXH Ref 2 dbm - -2-3 -4-5 -6-7 Offset.5 db tt 4 db * RBW MHz * VBW 3 MHz SWT 5 ms Marker [T ] 3.4 dbm 2.4625 GHz Center 2.462 GHz 3 MHz/ Span 3 MHz Tx Channel Bandwidth 2 MHz Power 22.84 dbm
Page: 2 of 8 Test mode: 82.n(HT2) Test channel: Lowest PK MXH Ref 2 dbm - -2-3 -4-5 -6-7 Offset.5 db tt 4 db * RBW MHz * VBW 3 MHz SWT 5 ms Marker [T ] 2.64 dbm 2.4543 GHz Center 2.42 GHz 3 MHz/ Span 3 MHz Tx Channel Bandwidth 2 MHz Power 22.28 dbm Test mode: 82.n(HT2) Test channel: Middle Ref 2 dbm Offset.5 db tt 4 db * RBW MHz * VBW 3 MHz SWT 5 ms Marker [T ].73 dbm 2.4336 GHz PK MXH - -2-3 -4-5 -6-7 Center 2.437 GHz 3 MHz/ Span 3 MHz Tx Channel Bandwidth 2 MHz Power 22.4 dbm
Page: 22 of 8 Test mode: 82.n(HT2) Test channel: Highest Ref 2 dbm Offset.5 db tt 4 db * RBW MHz * VBW 3 MHz SWT 5 ms Marker [T ].9 dbm 2.45546 GHz PK MXH - -2-3 -4-5 -6-7 Center 2.462 GHz 3 MHz/ Span 3 MHz Tx Channel Bandwidth 2 MHz Power 2.49 dbm
Page: 23 of 8 6.4 6dB Occupy Bandwidth Test Requirement: 47 CFR Part 5C Section 5.247 (a)(2) Test Method: NSI C63.: 23 Section.8 Test Setup: Instruments Used: Exploratory Test Mode: Final Test Mode: Limit: Test Results: Refer to section 5. for details Transmitting with all kind of modulations, data rates Through Pre-scan, find the Mbps of rate is the worst case of 82.b; 6Mbps of rate is the worst case of 82.g ; 6.5Mbps of rate is the worst case of 82.n(HT2) 5 khz Pass
Page: 24 of 8 Measurement Data 82.b mode Test channel 6dB Occupy Bandwidth (MHz) Limit (khz) Result Lowest 9.9 5 Pass Middle 8.58 5 Pass Highest 9.9 5 Pass 82.g mode Test channel 6dB Occupy Bandwidth (MHz) Limit (khz) Result Lowest 5.87 5 Pass Middle 5.84 5 Pass Highest 5.87 5 Pass 82.n(HT2) mode Test channel 6dB Occupy Bandwidth (MHz) Limit (khz) Result Lowest 7.6 5 Pass Middle 7.6 5 Pass Highest 7.6 5 Pass
Page: 25 of 8 Test plot as follows: Test mode: 82.b Test channel: Lowest Ref 2 dbm tt 5 db * RBW khz * VBW 3 khz SWT 5 ms Delta 3 [T ].5 db 9.9 MHz PK 2 Offset.5 db 2 3 Marker [T ].32 dbm 2.4747 GHz Marker 2 [T ] 8. dbm 2.425 GHz - -2-3 -4-5 -6-7 -8 Center 2.42 GHz 3 MHz/ Span 3 MHz Test mode: 82.b Test channel: Middle Ref 2 dbm tt 5 db * RBW khz * VBW 3 khz SWT 5 ms Delta 3 [T ] -.45 db 8.58 MHz PK 2 Offset.5 db 2 3 Marker [T ] 2.8 dbm 2.4325 GHz Marker 2 [T ] 8.7 dbm 2.43652 GHz - -2-3 -4-5 -6-7 -8 Center 2.437 GHz 3 MHz/ Span 3 MHz
Page: 26 of 8 Test mode: 82.b Test channel: Highest Ref 2 dbm tt 5 db * RBW khz * VBW 3 khz SWT 5 ms Delta 3 [T ].28 db 9.9 MHz PK 2 Offset.5 db 2 3 Marker [T ].74 dbm 2.45747 GHz Marker 2 [T ] 7.6 dbm 2.4625 GHz - -2-3 -4-5 -6-7 -8 Center 2.462 GHz 3 MHz/ Span 3 MHz Test mode: 82.g Test channel: Lowest Ref 2 dbm tt 5 db * RBW khz * VBW 3 khz SWT 5 ms Delta 3 [T ].72 db 5.87 MHz PK 2 Offset.5 db 2 Marker [T ] -.86 dbm 2.448 GHz Marker 2 [T ] 3 5.8 dbm 2.4576 GHz - -2-3 -4-5 -6-7 -8 Center 2.42 GHz 3 MHz/ Span 3 MHz
Page: 27 of 8 Test mode: 82.g Test channel: Middle Ref 2 dbm tt 5 db * RBW khz * VBW 3 khz SWT 5 ms Delta 3 [T ] -.5 db 5.84 MHz PK 2 Offset.5 db 2 Marker [T ] -.6 dbm 2.429 GHz Marker 2 [T ] 4.93 dbm 3 2.4376 GHz - -2-3 -4-5 -6-7 -8 Center 2.437 GHz 3 MHz/ Span 3 MHz Test mode: 82.g Test channel: Highest Ref 2 dbm tt 5 db * RBW khz * VBW 3 khz SWT 5 ms Delta 3 [T ] -.7 db 5.87 MHz PK 2 Offset.5 db Marker [T ] -.82 dbm 2.4548 GHz 2 Marker 2 [T ] 4.43 dbm 3 2.45576 GHz - -2-3 -4-5 -6-7 -8 Center 2.462 GHz 3 MHz/ Span 3 MHz
Page: 28 of 8 Test mode: 82.n(HT2) Test channel: Lowest Ref 2 dbm tt 5 db * RBW khz * VBW 3 khz SWT 5 ms Delta 3 [T ].6 db 7.6 MHz PK 2 Offset.5 db Marker [T ] -2.72 dbm 2.432 GHz 2 Marker 2 [T ] 3.72 dbm 2.4579 3 GHz - -2-3 -4-5 -6-7 -8 Center 2.42 GHz 3 MHz/ Span 3 MHz Test mode: 82.n(HT2) Test channel: Middle Ref 2 dbm tt 5 db * RBW khz * VBW 3 khz SWT 5 ms Delta 3 [T ] -.4 db 7.6 MHz PK 2 Offset.5 db Marker [T ] -3. dbm 2.4282 GHz 2 Marker 2 [T ] 3.6 dbm 2.4376 3 GHz - -2-3 -4-5 -6-7 -8 Center 2.437 GHz 3 MHz/ Span 3 MHz
Page: 29 of 8 Test mode: 82.n(HT2) Test channel: Highest Ref 2 dbm tt 5 db * RBW khz * VBW 3 khz SWT 5 ms Delta 3 [T ] -. db 7.6 MHz PK 2 Offset.5 db Marker [T ] -3.58 dbm 2.4532 GHz 2 Marker 2 [T ] 3.7 dbm 2.45576 3 GHz - -2-3 -4-5 -6-7 -8 Center 2.462 GHz 3 MHz/ Span 3 MHz
Page: 3 of 8 6.5 Power Spectral Density Test Requirement: 47 CFR Part 5C Section 5.247 (e) Test Method: NSI C63. :23 Section..2 Test Setup: Test Instruments: Remark: Offset the High-Frequency cable loss.5db in the spectrum analyzer. Refer to section 5. for details Exploratory Test Mode: Transmitting with all kind of modulations, data rates Final Test Mode: Limit: Test Results: Through Pre-scan, find the Mbps of rate is the worst case of 82.b; 6Mbps of rate is the worst case of 82.g ; 6.5Mbps of rate is the worst case of 82.n(HT2) 8.dBm/3kHz Pass
Page: 3 of 8 Measurement Data 82.b mode Test channel Power Spectral Density Limit (dbm/3khz) Result (dbm/3khz) Lowest -6.4 8. Pass Middle -6.66 8. Pass Highest -6.56 8. Pass 82.g mode Test channel Power Spectral Density Limit (dbm/3khz) Result (dbm/3khz) Lowest -9.3 8. Pass Middle -8.56 8. Pass Highest -.27 8. Pass 82.n (HT2) mode Test channel Power Spectral Density Limit (dbm/3khz) Result (dbm/3khz) Lowest -9.98 8. Pass Middle -.33 8. Pass Highest -.28 8. Pass
Page: 32 of 8 Test plot as follows: Test mode: 82.b Test channel: Lowest Ref 2 dbm tt 5 db * RBW 3 khz * VBW khz SWT 3.4 s Marker [T ] -6.4 dbm 2.4266 GHz 2 Offset.5 db PK MXH - -2-3 -4-5 -6-7 -8 Center 2.42 GHz 3 MHz/ Span 3 MHz Test mode: 82.b Test channel: Middle Ref 2 dbm tt 5 db * RBW 3 khz * VBW khz SWT 3.4 s Marker [T ] -6.66 dbm 2.4369 GHz 2 Offset.5 db PK MXH - -2-3 -4-5 -6-7 -8 Center 2.437 GHz 3 MHz/ Span 3 MHz
Page: 33 of 8 Test mode: 82.b Test channel: Highest Ref 2 dbm tt 5 db * RBW 3 khz * VBW khz SWT 3.4 s Marker [T ] -6.56 dbm 2.46 GHz 2 Offset.5 db PK MXH - -2-3 -4-5 -6-7 -8 Center 2.462 GHz 3 MHz/ Span 3 MHz Test mode: 82.g Test channel: Lowest Ref 2 dbm tt 5 db * RBW 3 khz * VBW khz SWT 3.4 s Marker [T ] -9.3 dbm 2.474 GHz 2 Offset.5 db PK MXH - -2-3 -4-5 -6-7 -8 Center 2.42 GHz 3 MHz/ Span 3 MHz
Page: 34 of 8 Test mode: 82.g Test channel: Middle Ref 2 dbm tt 5 db * RBW 3 khz * VBW khz SWT 3.4 s Marker [T ] -8.56 dbm 2.43763 GHz 2 Offset.5 db PK MXH - -2-3 -4-5 -6-7 -8 Center 2.437 GHz 3 MHz/ Span 3 MHz Test mode: 82.g Test channel: Highest Ref 2 dbm tt 5 db * RBW 3 khz * VBW khz SWT 3.4 s Marker [T ] -.27 dbm 2.4677 GHz 2 Offset.5 db PK MXH - -2-3 -4-5 -6-7 -8 Center 2.462 GHz 3 MHz/ Span 3 MHz
Page: 35 of 8 Test mode: 82.n (HT2) Test channel: Lowest Ref 2 dbm tt 5 db * RBW 3 khz * VBW khz SWT 3.4 s Marker [T ] -9.98 dbm 2.4827 GHz 2 Offset.5 db PK MXH - -2-3 -4-5 -6-7 -8 Center 2.42 GHz 3 MHz/ Span 3 MHz Test mode: 82.n (HT2) Test channel: Middle Ref 2 dbm tt 5 db * RBW 3 khz * VBW khz SWT 3.4 s Marker [T ] -.33 dbm 2.43793 GHz 2 Offset.5 db PK MXH - -2-3 -4-5 -6-7 -8 Center 2.437 GHz 3 MHz/ Span 3 MHz
Page: 36 of 8 Test mode: 82.n (HT2) Test channel: Highest Ref 2 dbm tt 5 db * RBW 3 khz * VBW khz SWT 3.4 s Marker [T ] -.28 dbm 2.4674 GHz 2 Offset.5 db PK MXH - -2-3 -4-5 -6-7 -8 Center 2.462 GHz 3 MHz/ Span 3 MHz
Page: 37 of 8 6.6 Band-edge for RF Conducted Emissions Test Requirement: 47 CFR Part 5C Section 5.247 (d) Test Method: NSI C63.: 23 Section.3 Test Setup: Remark: Offset the High-Frequency cable loss.5db in the spectrum analyzer. Exploratory Test Mode: Transmitting with all kind of modulations, data rates Final Test Mode: Limit: Instruments Used: Test Results: Through Pre-scan, find the Mbps of rate is the worst case of 82.b; 6Mbps of rate is the worst case of 82.g ; 6.5Mbps of rate is the worst case of 82.n(HT2) In any 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 2 db below that in the khz bandwidth within the band that contains the highest level of the desired power, based on either an RF conducted or a radiated measurement. Refer to section 5. for details Pass
Test plot as follows: Page: 38 of 8 Test mode: 82.b Test channel: Lowest Ref 2 dbm tt 5 db * RBW khz * VBW 3 khz SWT 5 ms Marker 3 [T ] 8.63 dbm 2.4258 GHz PK 2 Offset.5 db Marker [T ] -34.23 dbm 3 2.39755 GHz Marker 2 [T ] -39.9 dbm 2.4 GHz - limit -2-3 -4 2-5 -6-7 -8 Start 2.3 GHz.5 MHz/ Stop 2.425 GHz Test mode: 82.b Test channel: Highest Ref 2 dbm tt 5 db * RBW khz * VBW 3 khz SWT 5 ms Marker 3 [T ] -39.5 dbm 2.4888 GHz PK 2 Offset.5 db Marker [T ] 7.39 dbm 2.4625 GHz Marker 2 [T ] -42.77 dbm 2.4835 GHz - limit -2-3 -4 2 3-5 -6-7 -8 Start 2.45 GHz 5 MHz/ Stop 2.5 GHz
Page: 39 of 8 Test mode: 82.g Test channel: Lowest Ref 2 dbm tt 5 db * RBW khz * VBW 3 khz SWT 5 ms Marker 3 [T ] 4.88 dbm 2.45795 GHz PK 2 Offset.5 db Marker [T ] -28.24 dbm 2.399585 GHz 3 Marker 2 [T ] -3.75 dbm 2.4 GHz - limit -2-3 2-4 -5-6 -7-8 Start 2.3 GHz.5 MHz/ Stop 2.425 GHz Test mode: 82.g Test channel: Highest Ref 2 dbm tt 5 db * RBW khz * VBW 3 khz SWT 5 ms Marker 3 [T ] -37.9 dbm 2.4839 GHz PK 2 Offset.5 db Marker [T ] 4.5 dbm 2.45575 GHz Marker 2 [T ] -38.46 dbm 2.4835 GHz - limit -2-3 2 3-4 -5-6 -7-8 Start 2.45 GHz 5 MHz/ Stop 2.5 GHz
Page: 4 of 8 Test mode: 82.n (HT2) Test channel: Lowest Ref 2 dbm tt 5 db * RBW khz * VBW 3 khz SWT 5 ms Marker 3 [T ] 3.4 dbm 2.43385 GHz PK 2 Offset.5 db Marker [T ] -3.5 dbm 2.39985 GHz Marker 2 [T 3] -33.33 dbm 2.4 GHz - limit -2-3 2-4 -5-6 -7-8 Start 2.3 GHz.5 MHz/ Stop 2.425 GHz Test mode: 82.n (HT2) Test channel: Highest Ref 2 dbm tt 5 db * RBW khz * VBW 3 khz SWT 5 ms Marker 3 [T ] -37.45 dbm 2.4855 GHz PK 2 Offset.5 db Marker [T ] 2.89 dbm 2.45575 GHz Marker 2 [T ] -39.82 dbm 2.4835 GHz - limit -2-3 -4 2 3-5 -6-7 -8 Start 2.45 GHz 5 MHz/ Stop 2.5 GHz
Page: 4 of 8 6.7 RF Conducted Spurious Emissions Test Requirement: 47 CFR Part 5C Section 5.247 (d) Test Method: NSI C63.: 23 Section. Test Setup: Remark: Offset the High-Frequency cable loss.5db in the spectrum analyzer. Exploratory Test Mode: Transmitting with all kind of modulations, data rates Final Test Mode: Limit: Instruments Used: Test Results: Through Pre-scan, find the Mbps of rate is the worst case of 82.b; 6Mbps of rate is the worst case of 82.g ; 6.5Mbps of rate is the worst case of 82.n(HT2) In any 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 2 db below that in the khz bandwidth within the band that contains the highest level of the desired power, based on either an RF conducted or a radiated measurement. Refer to section 5. for details Pass
Test plot as follows: Page: 42 of 8 Test mode: 82.b Test channel: Lowest Ref 2.5 dbm * tt 3 db * RBW khz * VBW 3 khz SWT 4 ms Marker [T ] 7.46 dbm 2.45375 GHz 2 Offset.5 db PK - limit -2-3 -4-5 -6-7 Start 2.4 GHz MHz/ Stop 2.5 GHz Ref 2.5 dbm * tt 3 db * RBW MHz * VBW 3 MHz SWT 2 ms Marker 2 [T ] -4.78 dbm 3.434325 GHz 2 Offset.5 db Marker [T ] 2.2 dbm 2.43375 GHz PK - limit -2-3 -4 2-5 -6-7 Start 3 MHz 997 MHz/ Stop GHz
Page: 43 of 8 Ref dbm * tt db * RBW MHz * VBW 3 MHz SWT 3 ms Marker [T ] -5.27 dbm 3.875625 GHz Offset.5 db PK - limit -2-3 -4-5 -6-7 -8-9 - Start GHz.5 GHz/ Stop 25 GHz Test mode: 82.b Test channel: Middle Ref 2.5 dbm * tt 3 db * RBW khz * VBW 3 khz SWT 4 ms Marker [T ] 7.69 dbm 2.43825 GHz 2 Offset.5 db PK - limit -2-3 -4-5 -6-7 Start 2.4 GHz MHz/ Stop 2.5 GHz
Page: 44 of 8 Ref 2.5 dbm * tt 3 db * RBW MHz * VBW 3 MHz SWT 2 ms Marker 2 [T ] -42.6 dbm 3.8555 GHz 2 Offset.5 db Marker [T ].75 dbm 2.437755 GHz PK - limit -2-3 -4 2-5 -6-7 Start 3 MHz 997 MHz/ Stop GHz Ref dbm * tt db * RBW MHz * VBW 3 MHz SWT 3 ms Marker [T ] -5.97 dbm 4.9625 GHz Offset.5 db PK - limit -2-3 -4-5 -6-7 -8-9 - Start GHz.5 GHz/ Stop 25 GHz
Page: 45 of 8 Test mode: 82.b Test channel: Highest Ref 2.5 dbm * tt 3 db * RBW khz * VBW 3 khz SWT 4 ms Marker [T ] 6.63 dbm 2.462525 GHz 2 Offset.5 db PK - limit -2-3 -4-5 -6-7 Start 2.4 GHz MHz/ Stop 2.5 GHz Ref 2.5 dbm * tt 3 db * RBW MHz * VBW 3 MHz SWT 2 ms Marker 2 [T ] -42. dbm 3.83325 GHz PK 2 Offset.5 db Marker [T ].8 dbm 2.46268 GHz - limit -2-3 -4 2-5 -6-7 Start 3 MHz 997 MHz/ Stop GHz
Ref dbm Offset.5 db * tt db * RBW MHz * VBW 3 MHz SWT 3 ms Page: 46 of 8 Marker [T ] -5.8 dbm 4.83375 GHz PK - limit -2-3 -4-5 -6-7 -8-9 - Start GHz.5 GHz/ Stop 25 GHz Test mode: 82.g Test channel: Lowest Ref 2.5 dbm * tt 3 db * RBW khz * VBW 3 khz SWT 4 ms Marker [T ] 5.24 dbm 2.45775 GHz 2 Offset.5 db PK - limit -2-3 -4-5 -6-7 Start 2.4 GHz MHz/ Stop 2.5 GHz
Page: 47 of 8 Ref 2.5 dbm * tt 3 db * RBW MHz * VBW 3 MHz SWT 2 ms Marker 2 [T ] -4.73 dbm 3.693375 GHz PK 2 Offset.5 db Marker [T ] 2.94 dbm 2.4785 GHz - limit -2-3 -4 2-5 -6-7 Start 3 MHz 997 MHz/ Stop GHz Ref dbm * tt db * RBW MHz * VBW 3 MHz SWT 3 ms Marker [T ] -5.44 dbm 4.835625 GHz Offset.5 db PK - limit -2-3 -4-5 -6-7 -8-9 - Start GHz.5 GHz/ Stop 25 GHz
Page: 48 of 8 Test mode: 82.g Test channel: Middle Ref 2.5 dbm * tt 3 db * RBW khz * VBW 3 khz SWT 4 ms Marker [T ] 4.6 dbm 2.438275 GHz 2 Offset.5 db PK - limit -2-3 -4-5 -6-7 Start 2.4 GHz MHz/ Stop 2.5 GHz Ref 2.5 dbm * tt 3 db * RBW MHz * VBW 3 MHz SWT 2 ms Marker 2 [T ] 2.8 dbm 2.432775 GHz 2 Offset.5 db 2 Marker [T ] 2.67 dbm 2.44274 GHz PK - limit -2-3 -4-5 -6-7 Start 3 MHz 997 MHz/ Stop GHz
Page: 49 of 8 Ref dbm * tt db * RBW MHz * VBW 3 MHz SWT 3 ms Marker [T ] -5.4 dbm 3.7925 GHz Offset.5 db PK - limit -2-3 -4-5 -6-7 -8-9 - Start GHz.5 GHz/ Stop 25 GHz Test mode: 82.g Test channel: Highest Ref 2.5 dbm * tt 3 db * RBW khz * VBW 3 khz SWT 4 ms Marker [T ] 4.44 dbm 2.4557625 GHz 2 Offset.5 db PK - limit -2-3 -4-5 -6-7 Start 2.4 GHz MHz/ Stop 2.5 GHz
Page: 5 of 8 Ref 2.5 dbm * tt 3 db * RBW MHz * VBW 3 MHz SWT 2 ms Marker 2 [T ] -37.2 dbm 2.453525 GHz 2 Offset.5 db Marker [T ].45 dbm 2.455225 GHz PK - limit -2-3 2-4 -5-6 -7 Start 3 MHz 997 MHz/ Stop GHz Ref dbm * tt db * RBW MHz * VBW 3 MHz SWT 3 ms Marker [T ] -5.5 dbm 3.88875 GHz Offset.5 db PK - limit -2-3 -4-5 -6-7 -8-9 - Start GHz.5 GHz/ Stop 25 GHz
Page: 5 of 8 Test mode: 82.n (HT2) Test channel: Lowest Ref 2.5 dbm * tt 3 db * RBW khz * VBW 3 khz SWT 4 ms Marker [T ] 4. dbm 2.457625 GHz 2 Offset.5 db PK - limit -2-3 -4-5 -6-7 Start 2.4 GHz MHz/ Stop 2.5 GHz Ref 2.5 dbm * tt 3 db * RBW MHz * VBW 3 MHz SWT 2 ms Marker 2 [T ] -39.3 dbm 2.47265 GHz 2 Offset.5 db Marker [T ].28 dbm 2.453225 GHz PK - limit -2-3 -4 2-5 -6-7 Start 3 MHz 997 MHz/ Stop GHz
Page: 52 of 8 Ref dbm * tt db * RBW MHz * VBW 3 MHz SWT 3 ms Marker [T ] -5.22 dbm 4.97825 GHz Offset.5 db PK - limit -2-3 -4-5 -6-7 -8-9 - Start GHz.5 GHz/ Stop 25 GHz Test mode: 82.n (HT2) Test channel: Middle Ref 2.5 dbm * tt 3 db * RBW khz * VBW 3 khz SWT 4 ms Marker [T ] 3.37 dbm 2.437875 GHz 2 Offset.5 db PK - limit -2-3 -4-5 -6-7 Start 2.4 GHz MHz/ Stop 2.5 GHz
Page: 53 of 8 Ref 2.5 dbm * tt 3 db * RBW MHz * VBW 3 MHz SWT 2 ms Marker 2 [T ] -4.2 dbm 2.3654725 GHz 2 Offset.5 db Marker [T ].49 dbm 2.432775 GHz PK - limit -2-3 -4 2-5 -6-7 Start 3 MHz 997 MHz/ Stop GHz Ref dbm * tt db * RBW MHz * VBW 3 MHz SWT 3 ms Marker [T ] -5.2 dbm 4.93325 GHz Offset.5 db PK - limit -2-3 -4-5 -6-7 -8-9 - Start GHz.5 GHz/ Stop 25 GHz
Page: 54 of 8 Test mode: 82.n (HT2) Test channel: Highest Ref 2.5 dbm * tt 3 db * RBW khz * VBW 3 khz SWT 4 ms Marker [T ] 3.3 dbm 2.4557875 GHz 2 Offset.5 db PK - limit -2-3 -4-5 -6-7 Start 2.4 GHz MHz/ Stop 2.5 GHz Ref 2.5 dbm * tt 3 db * RBW MHz * VBW 3 MHz SWT 2 ms Marker 2 [T ] -38.49 dbm 2.5626875 GHz 2 Offset.5 db Marker [T ].34 dbm 2.45644875 GHz PK - limit -2-3 2-4 -5-6 -7 Start 3 MHz 997 MHz/ Stop GHz
Page: 55 of 8 Ref dbm * tt db * RBW MHz * VBW 3 MHz SWT 3 ms Marker [T ] -5.5 dbm 5.625 GHz Offset.5 db PK - limit -2-3 -4-5 -6-7 -8-9 - Start GHz.5 GHz/ Stop 25 GHz Remark: Use khz RBW to determine the relative limit in the band 2.4GHz to 2.5GHz, and Use MHz RBW to measure spurious emissions in the band 3MHz to GHz and GHz to 25GHz. The sweep points set to 3.
6.8 Radiated Spurious Emissions Test Requirement: 47 CFR Part 5C Section 5.29 and 5.25 Test Method: NSI C63. :23 Section.2 Test Site: Measurement Distance: 3m (Full-nechoic Chamber) Page: 56 of 8 Receiver Setup: Frequency Detector RBW VBW Remark Limit:.9MHz-.9MHz Peak khz 3kHz Peak.9MHz-.9MHz verage khz 3kHz verage.9mhz-.mhz Quasi-peak khz 3kHz Quasi-peak.MHz-.49MHz Peak khz 3kHz Peak.MHz-.49MHz verage khz 3kHz verage.49mhz -3MHz Quasi-peak khz 3kHz Quasi-peak 3MHz-GHz Quasi-peak khz 3kHz Quasi-peak bove GHz Frequency Peak MHz 3MHz Peak Peak MHz Hz verage Field strength (microvolt/meter) Limit (dbuv/m) Remark Measurement distance (m).9mhz-.49mhz 24/F(kHz) - - 3.49MHz-.75MHz 24/F(kHz) - - 3.75MHz-3MHz 3 - - 3 3MHz-88MHz 4. Quasi-peak 3 88MHz-26MHz 5 43.5 Quasi-peak 3 26MHz-96MHz 2 46. Quasi-peak 3 96MHz-GHz 5 54. Quasi-peak 3 bove GHz 5 54. verage 3 Note: 5.35(b), Unless otherwise specified, the limit on peak radio frequency emissions is 2dB 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.
Page: 57 of 8 Test Setup: Figure. Below 3MHz Figure 2. 3MHz to GHz Figure 3. bove GHz Test Procedure: a. For below GHz, the EUT was placed on the top of a rotating table.8 meters above the ground at a 3 meter semi-anechoic chamber. The table was rotated 36 degrees to determine the position of the highest radiation. b. For above GHz, the EUT was placed on the top of a rotating table.5 meters above the ground at a 3 meter full-anechoic chamber. The table was rotated 36 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. e. For each suspected emission, the EUT was arranged to its worst case and then the antenna was tuned to heights from meter to 4 meters(for the test frequency of below 3MHz, the antenna was tuned to heights meter) and the rotatable table was turned from degrees to 36 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 db lower than the limit specified, then testing could be stopped and the peak values of the
Exploratory Test Mode: Final Test Mode: Instruments Used: Test Results: Page: 58 of 8 EUT would be reported. Otherwise the emissions that did not have db 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,the middle channel,the Highest channel i. The radiation measurements are performed in X, Y, Z axis positioning for Transmitting mode,nd found the X axis positioning which it is worse case. j. Repeat above procedures until all frequencies measured was complete. Transmitting with all kind of modulations, data rates. Transmitting mode Pretest the EUT at Transmitting mode, found the Transmitting mode which it is worse case Through Pre-scan, find the Mbps of rate is the worst case of 82.b; 6Mbps of rate is the worst case of 82.g ; 6.5Mbps of rate is the worst case of 82.n(HT2) For below GHz, through Pre-scan, find the Mbps of rate of 82.b at lowest channel is the worst case. Only the worst case is recorded in the report. Refer to section 5. for details Pass
6.8. Radiated emission below GHz 3MHz~GHz(QP) Test mode: Transmitting Vertical Page: 59 of 8
Page: 6 of 8 Test mode: Transmitting Horizontal
6.8.2 Transmitter emission above GHz Page: 6 of 8 Test mode: 82.b Test channel: Lowest Remark: Peak Frequency (MHz) ntenna Factor (db/m) Cable loss (db) Preamp Factor (db) Read Level (dbuv) Level (dbuv/m) Limit Line (dbuv/m) Over Limit (db) Polarization 39.52 3.53 7.54 38.27 5.5 5.85 74. -22.5 Vertical 378.495 33. 7.73 38.6 44.5 46.65 74. -27.35 Vertical 4824. 34.9 8.9 39.4 43.25 47.3 74. -26.7 Vertical 583.88 34.59. 39.2 46.2 5.7 74. -22.3 Vertical 7236. 36.4.69 38.5 42.7 5. 74. -22.99 Vertical 9648. 37.53 2.52 36.97 4.2 53.29 74. -2.7 Vertical 328.56 3.54 7.54 38.27 46.55 47.36 74. -26.64 Horizontal 3972.78 33.53 7.8 38.69 44.5 46.79 74. -27.2 Horizontal 4824. 34.9 8.9 39.4 42.56 46.6 74. -27.39 Horizontal 582.5 34.59.6 39.2 45.7 5.33 74. -22.67 Horizontal 7236. 36.4.69 38.5 42.97 5.9 74. -22.9 Horizontal 9648. 37.53 2.52 36.97 4.43 53.5 74. -2.49 Horizontal Test mode: 82.b Test channel: Middle Remark: Peak Frequency (MHz) ntenna Factor (db/m) Cable loss (db) Preamp Factor (db) Read Level (dbuv) Level (dbuv/m) Limit Line (dbuv/m) Over Limit (db) Polarization 39.52 3.53 7.54 38.27 48.8 49.6 74. -24.4 Vertical 3972.78 33.53 7.8 38.69 45.28 47.92 74. -26.8 Vertical 4874. 34.28 8.97 39.5 42.5 46.7 74. -27.3 Vertical 625.66 34.72.53 38.98 45. 5.28 74. -22.72 Vertical 73. 36.37.72 38.7 42.38 5.4 74. -22.6 Vertical 9748. 37.55 2.58 36.92 39.82 53.3 74. -2.97 Vertical 39.52 3.53 7.54 38.27 5.5 5.3 74. -22.7 Horizontal 378.495 33. 7.73 38.6 45.3 47.45 74. -26.55 Horizontal 4874. 34.28 8.97 39.5 43.98 48.8 74. -25.82 Horizontal 63.48 34.79.4 38.93 45.52 5.79 74. -22.2 Horizontal 73. 36.37.72 38.7 42.42 5.44 74. -22.56 Horizontal 9748. 37.55 2.58 36.92 39.88 53.9 74. -2.9 Horizontal
Page: 62 of 8 Test mode: 82.b Test channel: Highest Remark: Peak Frequency (MHz) ntenna Factor (db/m) Cable loss (db) Preamp Factor (db) Read Level (dbuv) Level (dbuv/m) Limit Line (dbuv/m) Over Limit (db) Polarization 324.37 3.54 7.54 38.27 5.22 5.3 74. -22.97 Vertical 3786.97 33.3 7.74 38.6 44.25 46.42 74. -27.58 Vertical 4924. 34.37 9.4 39.7 44.35 48.69 74. -25.3 Vertical 5769.698 34.57 9.9 39.2 46.9 5.55 74. -22.45 Vertical 7386. 36.34.75 38. 4.53 5.62 74. -23.38 Vertical 9848. 37.57 2.63 36.87 39.69 53.2 74. -2.98 Vertical 39.52 3.53 7.54 38.27 5.52 52.32 74. -2.68 Horizontal 3858.877 33.22 7.76 38.64 44.8 47.5 74. -26.85 Horizontal 4924. 34.37 9.4 39.7 43.73 48.7 74. -25.93 Horizontal 687.2 34.77.45 38.94 44.47 5.75 74. -23.25 Horizontal 7386. 36.34.75 38. 4.93 5.2 74. -22.98 Horizontal 9848. 37.57 2.63 36.87 39.62 52.95 74. -2.5 Horizontal Test mode: 82.g Test channel: Lowest Remark: Peak Frequency (MHz) ntenna Factor (db/m) Cable loss (db) Preamp Factor (db) Read Level (dbuv) Level (dbuv/m) Limit Line (dbuv/m) Over Limit (db) Polarization 3842.63 33.8 7.76 38.63 45.23 47.54 74. -26.46 Vertical 4824. 34.9 8.9 39.4 43.9 47.24 74. -26.76 Vertical 625.66 34.72.53 38.98 45.2 5.48 74. -22.52 Vertical 7236. 36.4.69 38.5 42.88 5.82 74. -22.8 Vertical 9648. 37.53 2.52 36.97 39.9 52.99 74. -2. Vertical 9.76 38.5 4.47 38.22 39.2 53.78 74. -2.22 Vertical 3776.27 33. 7.73 38.6 47.44 49.57 74. -24.43 Horizontal 4824. 34.9 8.9 39.4 43.82 47.87 74. -26.3 Horizontal 669.43 34.76.47 38.96 44.77 5.4 74. -22.96 Horizontal 7236. 36.4.69 38.5 43.7 52.65 74. -2.35 Horizontal 9648. 37.53 2.52 36.97 4.3 53.39 74. -2.6 Horizontal 639.6 38.24 4.7 37.95 39.36 53.82 74. -2.8 Horizontal
Page: 63 of 8 Test mode: 82.g Test channel: Middle Remark: Peak Frequency (MHz) ntenna Factor (db/m) Cable loss (db) Preamp Factor (db) Read Level (dbuv) Level (dbuv/m) Limit Line (dbuv/m) Over Limit (db) Polarization 3836.67 33.6 7.75 38.63 46.25 48.53 74. -25.47 Vertical 4874. 34.28 8.97 39.5 42.93 47.3 74. -26.87 Vertical 576.355 34.56 9.89 39.2 45.62 5.5 74. -22.95 Vertical 73. 36.37.72 38.7 43.28 52.3 74. -2.7 Vertical 9748. 37.55 2.58 36.92 4.57 53.78 74. -2.22 Vertical 998.25 38.6 4.56 38.3 38.32 53.8 74. -2.82 Vertical 3748.88 32.92 7.72 38.59 45.87 47.92 74. -26.8 Horizontal 4874. 34.28 8.97 39.5 43.2 47.32 74. -26.68 Horizontal 669.43 34.76.47 38.96 45.9 5.46 74. -22.54 Horizontal 73. 36.37.72 38.7 42.85 5.87 74. -22.3 Horizontal 9748. 37.55 2.58 36.92 4.4 53.35 74. -2.65 Horizontal 2226.7 38.74 4.37 38.53 39.29 53.87 74. -2.3 Horizontal Test mode: 82.g Test channel: Highest Remark: Peak Frequency (MHz) ntenna Factor (db/m) Cable loss (db) Preamp Factor (db) Read Level (dbuv) Level (dbuv/m) Limit Line (dbuv/m) Over Limit (db) Polarization 383.6 33.5 7.75 38.62 45.2 47.4 74. -26.6 Vertical 492.738 34.36 9.3 39.7 44.6 48.93 74. -25.7 Vertical 66.637 34.75.48 38.96 45.38 5.65 74. -22.35 Vertical 7389.373 36.34.75 37.99 42.43 5.53 74. -22.47 Vertical 9855.8 37.57 2.63 36.87 4.55 53.88 74. -2.2 Vertical 2226.7 38.74 4.37 38.53 38.99 53.57 74. -2.43 Vertical 383.6 33.5 7.75 38.62 45.65 47.93 74. -26.7 Horizontal 4924. 34.37 9.4 39.7 44.54 48.88 74. -25.2 Horizontal 5956.34 34.67.44 39. 45.83 5.94 74. -22.6 Horizontal 7386. 36.34.75 38. 42.58 5.67 74. -22.33 Horizontal 9848. 37.57 2.63 36.87 4.8 53.5 74. -2.49 Horizontal 2386.32 38.83 4.24 38.7 38.9 53.28 74. -2.72 Horizontal
Page: 64 of 8 Test mode: 82.n(HT2) Test channel: Lowest Remark: Peak Frequency (MHz) ntenna Factor (db/m) Cable loss (db) Preamp Factor (db) Read Level (dbuv) Level (dbuv/m) Limit Line (dbuv/m) Over Limit (db) Polarization 3842.63 33.8 7.76 38.63 45.2 47.52 74. -26.48 Vertical 4824. 34.9 8.9 39.4 43.44 47.49 74. -26.5 Vertical 678.2 34.76.46 38.95 45.3 5.3 74. -22.7 Vertical 7236. 36.4.69 38.5 43.74 52.68 74. -2.32 Vertical 9648. 37.53 2.52 36.97 4.44 53.52 74. -2.48 Vertical 22.87 38.66 4.47 38.4 38.49 53.2 74. -2.79 Vertical 3553.389 32.36 7.65 38.49 44.95 46.47 74. -27.53 Horizontal 4824. 34.9 8.9 39.4 44.48 48.53 74. -25.47 Horizontal 687.2 34.77.45 38.94 46.3 52.3 74. -2.69 Horizontal 7236. 36.4.69 38.5 43.22 52.6 74. -2.84 Horizontal 9648. 37.53 2.52 36.97 39.97 53.5 74. -2.95 Horizontal 22.39 38.67 4.46 38.42 39.28 53.99 74. -2. Horizontal Test mode: 82.n(HT2) Test channel: Middle Remark: Peak Frequency (MHz) ntenna Factor (db/m) Cable loss (db) Preamp Factor (db) Read Level (dbuv) Level (dbuv/m) Limit Line (dbuv/m) Over Limit (db) Polarization 3792.453 33.4 7.74 38.6 45.35 47.52 74. -26.48 Vertical 4874. 34.28 8.97 39.5 44.36 48.56 74. -25.44 Vertical 678.2 34.76.46 38.95 45.82 52.9 74. -2.9 Vertical 73. 36.37.72 38.7 42.4 5.42 74. -22.58 Vertical 9748. 37.55 2.58 36.92 4.48 53.69 74. -2.3 Vertical 2368.4 38.82 4.26 38.68 38.74 53.4 74. -2.86 Vertical 3836.67 33.6 7.75 38.63 45.33 47.6 74. -26.39 Horizontal 4874. 34.28 8.97 39.5 43.25 47.45 74. -26.55 Horizontal 678.2 34.76.46 38.95 44.77 5.4 74. -22.96 Horizontal 73. 36.37.72 38.7 4.87 5.89 74. -23. Horizontal 9748. 37.55 2.58 36.92 39.52 52.73 74. -2.27 Horizontal 233.2 38.62 4.53 38.33 38.27 53.9 74. -2.9 Horizontal
Page: 65 of 8 Test mode: 82.n(HT2) Test channel: Highest Remark: Peak Frequency (MHz) ntenna Factor (db/m) Cable loss (db) Preamp Factor (db) Read Level (dbuv) Level (dbuv/m) Limit Line (dbuv/m) Over Limit (db) Polarization 3825.52 33.3 7.75 38.62 45.7 47.33 74. -26.67 Vertical 4924. 34.37 9.4 39.7 44.67 49. 74. -24.99 Vertical 66.637 34.75.48 38.96 44.7 5.98 74. -23.2 Vertical 7386. 36.34.75 38. 43.3 52.2 74. -2.88 Vertical 9848. 37.57 2.63 36.87 39.97 53.3 74. -2.7 Vertical 228.39 38.73 4.39 38.52 39.7 53.67 74. -2.33 Vertical 3836.67 33.6 7.75 38.63 45.3 47.59 74. -26.4 Horizontal 4924. 34.37 9.4 39.7 43.94 48.28 74. -25.72 Horizontal 634.386 34.73.52 38.98 45.46 5.73 74. -22.27 Horizontal 7386. 36.34.75 38. 42.9 5.8 74. -22.82 Horizontal 9848. 37.57 2.63 36.87 39.85 53.8 74. -2.82 Horizontal 2386.32 38.83 4.24 38.7 39.9 53.46 74. -2.54 Horizontal Remark: ) The field strength is calculated by adding the ntenna Factor, Cable Factor & Preamplifier. The basic equation with a sample calculation is as follows: Final Test Level =Receiver Reading + ntenna Factor + Cable Factor Preamplifier Factor 2) Scan from 9kHz to 25GHz,The disturbance above 3GHz and below 3MHz was very low, and the above harmonics were the highest point could be found when testing, so only the above harmonics had been displayed. The amplitude of spurious emissions from the radiator which are attenuated more than 2dB below the limit need not be reported. 3)s shown in this section, for frequencies above GHz, the 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 2 db under any condition of modulation. So, only the peak measurements were shown in the report.
6.9 Restricted bands around fundamental frequency Test Requirement: 47 CFR Part 5C Section 5.29 and 5.25 Test Method: NSI C63.: 23 Section.2 Test Site: Page: 66 of 8 Measurement Distance: 3m (Full-nechoic Chamber) Limit: Frequency Limit (dbuv/m @3m) Remark Test Setup: 3MHz-88MHz 4. Quasi-peak Value 88MHz-26MHz 43.5 Quasi-peak Value 26MHz-96MHz 46. Quasi-peak Value 96MHz-GHz 54. Quasi-peak Value bove GHz 54. verage Value 74. Peak Value Figure. 3MHz to GHz Figure 2. bove GHz
Page: 67 of 8 Test Procedure: a. For below GHz, the EUT was placed on the top of a rotating table.8 meters above the ground at a 3 meter semi-anechoic chamber. The table was rotated 36 degrees to determine the position of the highest radiation. Exploratory Test Mode: Final Test Mode: Instruments Used: Test Results: b. For above GHz, the EUT was placed on the top of a rotating table.5 meters above the ground at a 3 meter full-anechoic chamber. The table was rotated 36 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. e. For each suspected emission, the EUT was arranged to its worst case and then the antenna was tuned to heights from meter to 4 meters and the rotatable table was turned from degrees to 36 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. Place a marker at the end of the restricted band closest to the transmit frequency to show compliance. lso measure any emissions in the restricted bands. Save the spectrum analyzer plot. Repeat for each power and modulation for lowest and highest channel h. Test the EUT in the lowest channel, the Highest channel i. Repeat above procedures until all frequencies measured was complete. Transmitting with all kind of modulations, data rates. Through Pre-scan, find the Mbps of rate is the worst case of 82.b; 6Mbps of rate is the worst case of 82.g ; 6.5Mbps of rate is the worst case of 82.n(HT2) ; Only the worst case is recorded in the report. Refer to section 5. for details Pass
Page: 68 of 8 Worse case mode: 82.b Test channel: Lowest Remark: Peak Vertical
Page: 69 of 8 Worse case mode: 82.b Test channel: Lowest Remark: Peak Horizontal
Page: 7 of 8 Worse case mode: 82.b Test channel: Highest Remark: Peak Vertical
Page: 7 of 8 Worse case mode: 82.b Test channel: Highest Remark: Peak Horizontal
Page: 72 of 8 Worse case mode: 82.g Test channel: Lowest Remark: Peak Vertical
Page: 73 of 8 Worse case mode: 82.g Test channel: Lowest Remark: Peak Horizontal
Page: 74 of 8 Worse case mode: 82.g Test channel: Highest Remark: Peak Vertical
Page: 75 of 8 Worse case mode: 82.g Test channel: Highest Remark: Peak Horizontal
Page: 76 of 8 Worse case mode: 82. n2 Test channel: Lowest Remark: Peak Vertical
Page: 77 of 8 Worse case mode: 82. n2 Test channel: Lowest Remark: Peak Horizontal
Page: 78 of 8 Worse case mode: 82. n2 Test channel: Highest Remark: Peak Vertical
Page: 79 of 8 Worse case mode: 82. n2 Test channel: Highest Remark: Peak Horizontal Note: The field strength is calculated by adding the ntenna Factor, Cable Factor & Preamplifier. The basic equation with a sample calculation is as follows: Final Test Level =Receiver Reading + ntenna Factor + Cable Factor Preamplifier Factor
7 Photographs - EUT Test Setup Test model No.: 272 7. Conducted Emission Page: 8 of 8 7.2 Radiated Emission
Page: 8 of 8 7.3 Radiated Spurious Emission 8 Photographs - EUT Constructional Details Refer to ppendix - Photographs of EUT Constructional Details for SZEM687437CR.