FCC RADIO TEST REPORT

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1 Statement FCC RDIO TEST REPORT Equipment Model No. Brand Name Filing Type pplicant Manufacturer according to 47 CFR FCC Part 5 Subpart C FCC ID Received Date : Mar. 23, 2 Final Test Date : May 2, 2 : 82.n,Dual Band, Wireless LN PCI Express Half Mini Card : WPE-2N : Sparklan : New pplication : SparkLN Communications, Inc 8F., No.257, Sec. 2, Tiding Blvd., Neihu District, Taipei City 493, Taiwan. : RYK-WPE-2N Test result included is only for the 82.a/b/g (5725~585 MHz / 24~2483.5MHz) part of the product. The test result in this report refers exclusively to the presented test model / sample. Without written approval of SPORTON International Inc., the test report shall not be reproduced except in full. The measurements and test results shown in this test report were made in accordance with the procedures and found in compliance with the limit given in NSI C and 47 CFR FCC Part 5 Subpart C. The test equipment used to perform the test is calibrated and traceable to NML/ROC. SPORTON International Inc. No. 52 Hwa Ya st Rd., Hwa Ya Technology Park, Kwei-Shan Hsiang, Tao Yuan Hsien, Taiwan, R.O.C. SPORTON International Inc. Report Format Version: b

2 Table of Contents SUMMRY OF THE TEST RESULT GENERL INFORMTION Product Details Table for Filed ntenna Table for Carrier Frequencies Table for Test Modes Table for Testing Locations Table for Supporting Units Table for Parameters of Test Software Setting EUT Operation during Test Test Configuration TEST RESULT C Power Line Conducted Emissions Measurement Peak Output Power Measurement Power Spectral Density Measurement dB Spectrum Bandwidth Measurement Radiated Emissions Measurement Band Edge and Fundamental Emissions Measurement ntenna Requirements LIST OF MESURING EQUIPMENTS TEST LOCTION TF CERTIFICTE OF CCREDITTION PPENDIX. MXIMUM PERMISSIBLE EXPOSURE... ~ 3 PPENDIX B. TEST PHOTOS... B ~ B7 PPENDIX C. PHOTOGRPHS OF EUT... C ~ C6 SPORTON International Inc. Page No. : i of ii

3 History of This Test Report Original Issue Date: Jul. 22, 2 Report No.: FR3667-C No additional attachment. dditional attachment were issued as following record: ttachment No. Issue Date Description FR3667C May 2, 2 Original. FR3667-C Jul. 22, 2 dditional original filing power. 47 CFR FCC Part 5 Subpart C Turbo MHz Further, this requirement does not apply to intentional radiators that must be professionally installed. SPORTON International Inc. Page No. : ii of ii

4 CERTIFICTE OF COMPLINCE according to 47 CFR FCC Part 5 Subpart C Equipment Model No. Brand Name pplicant : 82.n,Dual Band, Wireless LN PCI Express Half Mini Card : WPE-2N : Sparklan : SparkLN Communications, Inc 8F., No.257, Sec. 2, Tiding Blvd., Neihu District, Taipei City 493, Taiwan. Sporton International as requested by the applicant to evaluate the EMC performance of the product sample received on Mar. 23, 2 would like to declare that the tested sample has been evaluated and found to be in compliance with the tested rule parts. The data recorded as well as the test configuration specified is true and accurate for showing the sample s EMC nature. Wayne Hsu / Vice Manager Reviewed Data: Jul. 3, 24 SPORTON International Inc. No. 52 Hwa Ya st Rd., Hwa Ya Technology Park, Kwei-Shan Hsiang, Tao Yuan Hsien, Taiwan, R.O.C. SPORTON International Inc. Page No. : of 82

5 SUMMRY OF THE TEST RESULT pplied Standard: 47 CFR FCC Part 5 Subpart C Part Rule Section Description of Test Result Under Limit C Power Line Conducted Emissions Complies 2.86 db (b)(3) Maximum Peak Output Power Complies 5.34 db (e) Power Spectral Density Complies 2.9 db (a)(2) 6dB Spectrum Bandwidth Complies (d) Radiated Emissions Complies.2 db (d) Band Edge and Fundamental Emissions Complies.9 db ntenna Requirements Complies - Test Items Uncertainty Remark C Power Line Conducted Emissions ±2.3dB Confidence levels of 95% Maximum Peak Output Power ±.8dB Confidence levels of 95% Power Spectral Density ±.5dB Confidence levels of 95% 6dB Spectrum Bandwidth ±8.5-8 Confidence levels of 95% Radiated Emissions (9kHz~3MHz) ±.8dB Confidence levels of 95% Radiated Emissions (3MHz~MHz) ±.9dB Confidence levels of 95% Radiated / Band Edge Emissions (GHz~8GHz) ±.9dB Confidence levels of 95% Radiated Emissions (8GHz~4GHz) ±.9dB Confidence levels of 95% Temperature ±.7 Confidence levels of 95% Humidity ±3.2% Confidence levels of 95% DC / C Power Source ±.4% Confidence levels of 95% SPORTON International Inc. Page No. : 2 of 82

6 2 GENERL INFORMTION 2. Product Details Only the radio detail of IEEE 82.a/b/g is shown in this report. For more detailed features description, please refer to the specifications or user s manual. Items Description Power Type Power from host Modulation DSSS for IEEE 82.b ; OFDM for IEEE 82.a/g Data Modulation DSSS (DBPSK / DQPSK / CCK) ; OFDM (BPSK / QPSK / 6QM / 64QM) Data Rate (Mbps) DSSS (/ 2/ 5.5/) ; OFDM (6/9/2/8/24/36/48/54) Frequency Range 24 ~ MHz / 5725 ~ 585MHz Channel Number a: 5 ; b/g: Channel Band Width (99%) 5G-a: 6.76 MHz 2.4G-b: 3.92 MHz ; g: 6.52 MHz Conducted Output Power 5G-a: dbm 2.4G-b: dbm ; g: 2.92 dbm 2.2 Table for Filed ntenna ntenna & Bandwidth ntenna Mode Two Chain Bandwidth Mode 2 MHz 4 MHz 82.a (5725~585 MHz) V X 82.b/g (24~2483.5MHz) V X nt. ntenna Type Connector Gain (dbi) Remark Dipole ntenna Reversed-SM 2. TX / RX B Dipole ntenna Reversed-SM 2. TX / RX Note:. IEEE 82.a/b/g used two antennas are for signal transmitting and receiving. (2T2R Spatial Multiplexing MIMO configuration) 2. Directional gain = GNT + log(n) dbi = 2 + log(2) = 5 dbi 2.3 Table for Carrier Frequencies Frequency Band Channel No. Frequency MHz MHz 5725~585 MHz MHz MHz MHz Frequency Band Channel No. Frequency Channel No. Frequency 242 MHz MHz MHz MHz 24~2483.5MHz MHz MHz MHz 2457 MHz MHz 2462 MHz MHz - - SPORTON International Inc. Page No. : 3 of 82

7 2.4 Table for Test Modes Preliminary tests were performed in different data rate to find the worst radiated emission. The data rate shown in the table below is the worst-case rate with respect to the specific test item. Investigation has been done on the entire possible configuration for searching the worst cases. The following table is a list of the test modes shown in this test report. Test Items Mode Data Rate Channel ntenna C Power Line Conducted Emissions Normal Mode uto - - Radiated Emissions Below GHz Maximum Peak Output Power Power Spectral Density a/bpsk 6 Mbps 49/57/65 /B b/cck Mbps /6/ +B g/bpsk 54 Mbps /6/ 6dB Spectrum Bandwidth a/bpsk 6 Mbps 49/57/65 /B b/cck Mbps /6/ g/bpsk 54 Mbps /6/ Radiated Emissions bove GHz a/bpsk 6 Mbps 49/57/65 b/cck Mbps /6/ g/bpsk 54 Mbps /6/ Band Edge Emissions a/bpsk 6 Mbps 49/65 /B b/cck Mbps / g/bpsk 54 Mbps / 2.5 Table for Testing Locations Test Site No. Site Category Location CO-HY Conduction Hwa Ya TH-HY OVEN Room Hwa Ya 3CH2-HY SC Hwa Ya Semi nechoic Chamber (SC). 2.6 Table for Supporting Units Support Unit Brand Model FCC ID Notebook DELL PP2L DoC (USB) Mouse Microsoft 4 DoC ipod nano pple 5 N/ Wireless P (Remote workstation) D-Link DNS-G2 N/ ** The EUT tested with test fixture in this report. ** The wireless P supporting unit only tested by C power conducted emission. ** For the radiated emissions only tested by using notebook. SPORTON International Inc. Page No. : 4 of 82

8 2.7 Table for Parameters of Test Software Setting During testing, Channel & Power Controlling Software provided by the customer was used to control the operating channel as well as the output power level. The RF output power selection is for the setting of RF output power expected by the customer and is going to be fixed on the firmware of the final end product. Power Parameters of IEEE 82.a Test Software Version RT2-GUI Frequency 5745 MHz 5785 MHz 5825 MHz IEEE 82.a 3.5/ /9.5 6/6 Power Parameters of IEEE 82.b/g Test Software Version RT2-GUI Frequency 242 MHz 2437 MHz 2462 MHz IEEE 82.b 8/8 8/8 6/6 IEEE 82.g.5/.5.5/.5 9.5/ EUT Operation during Test n executive program, EMCTEST.EXE under Win XP, which generates a complete line of continuously repeating "H" pattern was used as the test software. The program was executed as follows : a. Turn on the power of all equipment. b. The NB sends "H" messages to the panel and displays "H" patterns on the screen. t the same time, the following programs were executed: - Executed "WiFi" to link with the remote workstation to receive and transmit data. - Executed "ping" to link with the remote workstation to receive and transmit data by WLN. - Executed RT2-GUI to keep transmitting signals at fixed frequency. (Only for radio tested.) SPORTON International Inc. Page No. : 5 of 82

9 2.9 Test Configuration 2.9. Radiation Emissions Test Configuration For radiated emissions 9kHz~GHz dapter 2 Vac / 6 Hz Notebook EUT with test fixture For radiated emissions above GHz dapter 2 Vac / 6 Hz Notebook EUT with test fixture SPORTON International Inc. Page No. : 6 of 82

10 3 TEST RESULT 3. C Power Line Conducted Emissions Measurement 3.. Limit For this product which is designed to be connected to the C power line, the radio frequency voltage that is conducted back onto the C power line on any frequency or frequencies within the band 5 khz to 3 MHz shall not exceed below limits table. Class B Frequency (MHz) QP Limit (dbuv) V Limit (dbuv).5~.5 66~56 56~46.5~ ~ Measuring Instruments and Setting Please refer to section 4 of equipments list in this report. The following table is the setting of the receiver. Receiver Parameters Setting ttenuation db Start Frequency.5 MHz Stop Frequency 3 MHz IF Bandwidth 9 KHz 3..3 Test Procedures. The EUT warm up about 5 minutes then start test. 2. Configure the EUT according to NSI C63.4. The EUT or host of EUT has to be placed.4 meter far from the conducting wall of the shielding room and at least 8 centimeters from any other grounded conducting surface. 3. Connect EUT or host of EUT to the power mains through a line impedance stabilization network (LISN). 4. ll the support units are connected to the other LISNs. The LISN should provide 5uH/5ohms coupling impedance. 5. The frequency range from 5 KHz to 3 MHz was searched. 6. Set the test-receiver system to Peak Detect Function and Specified Bandwidth with Maximum Hold Mode. 7. The measurement has to be done between each power line and ground at the power terminal. SPORTON International Inc. Page No. : 7 of 82

11 3..4 Test Setup Layout LEGEND: () Interconnecting cables that hang closer than 4 cm to the ground plane shall be folded back and forth in the center forming a bundle 3 to 4 cm long. (2) I/O cables that are not connected to a peripheral shall be bundled in the center. The end of the cable may be terminated, if required, using the correct terminating impedance. The overall length shall not exceed m. (3) EUT connected to one LISN. Unused LISN measuring port connectors shall be terminated in 5 Ω. LISN can be placed on top of, or immediately beneath, reference ground plane. (3.) ll other equipment powered from additional LISN(s). (3.2) Multiple outlet strip can be used for multiple power cords of non-eut equipment. (3.3) LISN at least 8 cm from nearest part of EUT chassis. (4) Cables of hand-operated devices, such as keyboards, mice, etc., shall be placed as for normal use. (5) Non-EUT components of EUT system being tested. (6) Rear of EUT, including peripherals, shall all be aligned and flush with rear of tabletop. (7) Rear of tabletop shall be 4 cm removed from a vertical conducting plane that is bonded to the ground plane Test Deviation There is no deviation with the original standard EUT Operation during Test The EUT was placed on the test table and programmed in normal function. SPORTON International Inc. Page No. : 8 of 82

12 3..7 Results of C Power Line Conducted Emissions Measurement Final Test Date pr. 3, 2 Test Site No. CO-HY Temperature 2.2 Humidity 5.9% Test Engineer David Configuration Normal Mode Line SPORTON International Inc. Page No. : 9 of 82

13 Neutral Note: Level = Read Level + LISN Factor + Cable Loss. SPORTON International Inc. Page No. : of 82

14 3.2 Peak Output Power Measurement 3.2. Limit For systems using digital modulation in the MHz, the limit for peak output power is 3dBm. The limited has to be reduced by the amount in db that the gain of the antenna exceed 6dBi. In case of point-to-multipoint antenna reduction operation, the limit has to be reduced by db for every db that the directional gain of the antenna exceeds 6dBi. Systems operating in the MHz band that are used exclusively for fixed, point-to-point operations may employ transmitting antennas with directional gain greater than 6 dbi without any corresponding reduction in transmitter conducted output power Measuring Instruments and Setting Please refer to section 4 of equipments list in this report. The following table is the setting of the power meter. Power Meter Parameter Setting Filter No. uto Measurement time.35 s ~ 26 s Used Peak Sensor M24B Test Procedures. The transmitter output (antenna port) was connected to the power meter. 2. Turn on the EUT and power meter and then record the peak power value. 3. Repeat above procedures on all channels needed to be tested. 4. When measuring maximum conducted output power within multiple antenna systems, add every result of the values by mathematic formula Test Setup Layout Test Deviation There is no deviation with the original standard EUT Operation during Test The EUT was programmed to be in continuously transmitting mode. SPORTON International Inc. Page No. : of 82

15 3.2.7 Test Result of Peak Output Power Final Test Date pr. 2, 2 Test Site No. TH-HY Temperature 26 Humidity 62% Test Engineer Ian Configurations 82.a/b/g Configuration IEEE 82.a nt. Channel Frequency Conducted Power Max. Limit (dbm) (dbm) Result MHz Complies MHz Complies MHz Complies Configuration IEEE 82.a nt. B Channel Frequency Conducted Power Max. Limit (dbm) (dbm) Result MHz Complies MHz Complies MHz Complies Configuration IEEE 82.a nt. +nt. B Channel Frequency Conducted Power Max. Limit (dbm) (dbm) Result MHz Complies MHz Complies MHz Complies Configuration IEEE 82.b nt. Channel Frequency Conducted Power Max. Limit (dbm) (dbm) Result 242 MHz Complies MHz Complies 2462 MHz Complies Configuration IEEE 82.b nt. B Channel Frequency Conducted Power Max. Limit (dbm) (dbm) Result 242 MHz Complies MHz Complies 2462 MHz Complies Configuration IEEE 82.b nt. +nt. B Channel Frequency Conducted Power Max. Limit (dbm) (dbm) Result 242 MHz Complies MHz Complies 2462 MHz Complies SPORTON International Inc. Page No. : 2 of 82

16 Configuration IEEE 82.g nt. Channel Frequency Conducted Power Max. Limit (dbm) (dbm) Result 242 MHz Complies MHz Complies 2462 MHz Complies Configuration IEEE 82.g nt. B Channel Frequency Conducted Power Max. Limit (dbm) (dbm) Result 242 MHz Complies MHz Complies 2462 MHz Complies Configuration IEEE 82.g nt. +nt. B Channel Frequency Conducted Power Max. Limit (dbm) (dbm) Result 242 MHz Complies MHz Complies 2462 MHz Complies SPORTON International Inc. Page No. : 3 of 82

17 3.3 Power Spectral Density Measurement 3.3. Limit For digitally modulated systems, the power spectral density conducted from the intentional radiator to the antenna shall not be greater than 8 dbm in any 3 khz band during any time interval of continuous transmission Measuring Instruments and Setting Please refer to section 4 of equipments list in this report. The following table is the setting of the spectrum analyzer. Spectrum Parameter Setting ttenuation uto Span Frequency.5MHz RB 3 khz VB 3 khz Detector Peak Trace Max Hold Sweep Time 5s Test Procedures. The transmitter output (antenna port) was connected to the spectrum analyzer. 2. Set RBW of spectrum analyzer to 3 khz and VBW to 3 khz. Set Detector to Peak, Trace to Max Hold. 3. Mark the frequency with maximum peak power as the center of the display of the spectrum. 4. Set the span to.5mhz and the sweep time to 5s and record the maximum peak value. 5. When measuring maximum conducted power spectral density within multiple antenna systems, add every result of the values by mathematic formula Test Setup Layout Test Deviation There is no deviation with the original standard EUT Operation during Test The EUT was programmed to be in continuously transmitting mode. SPORTON International Inc. Page No. : 4 of 82

18 3.3.7 Test Result of Power Spectral Density Final Test Date pr. 2, 2 Test Site No. TH-HY Temperature 26 Humidity 62% Test Engineer Ian Configurations 82.a/b/g Configuration IEEE 82.a nt. Channel Frequency Power Density Max. Limit (dbm) (dbm) Result MHz Complies MHz Complies MHz Complies Configuration IEEE 82.a nt. B Channel Frequency Power Density Max. Limit (dbm) (dbm) Result MHz Complies MHz Complies MHz Complies Configuration IEEE 82.a nt. +nt. B Channel Frequency Power Density Max. Limit (dbm) (dbm) Result MHz Complies MHz Complies MHz Complies SPORTON International Inc. Page No. : 5 of 82

19 Configuration IEEE 82.b nt. Channel Frequency Power Density Max. Limit (dbm) (dbm) Result 242 MHz Complies MHz Complies 2462 MHz Complies Configuration IEEE 82.b nt. B Channel Frequency Power Density Max. Limit (dbm) (dbm) Result 242 MHz Complies MHz Complies 2462 MHz Complies Configuration IEEE 82.b nt. +nt. B Channel Frequency Power Density Max. Limit (dbm) (dbm) Result 242 MHz Complies MHz Complies 2462 MHz Complies SPORTON International Inc. Page No. : 6 of 82

20 Configuration IEEE 82.g nt. Channel Frequency Power Density Max. Limit (dbm) (dbm) Result 242 MHz Complies MHz Complies 2462 MHz Complies Configuration IEEE 82.g nt. B Channel Frequency Power Density Max. Limit (dbm) (dbm) Result 242 MHz Complies MHz Complies 2462 MHz Complies Configuration IEEE 82.g nt. +nt. B Channel Frequency Power Density Max. Limit (dbm) (dbm) Result 242 MHz Complies MHz Complies 2462 MHz Complies SPORTON International Inc. Page No. : 7 of 82

21 Power Density Plot on Configuration IEEE 82.a nt. / 5745 MHz 2 O f f s e t 2. 3 d B * t t 3 d B * R B W 3 k H z * V B W 3 k H z * S W T 5 s M a r k e r [ T ] d B m G H z * C e n t e r G H z 5 k H z / S p a n. 5 M H z D a t e : 8. P R. 2 2 : 9 : Power Density Plot on Configuration IEEE 82.a nt. / 5785 MHz 2 O f f s e t 2. 3 d B * t t 3 d B * R B W 3 k H z * V B W 3 k H z * S W T 5 s M a r k e r [ T ] d B m G H z * C e n t e r G H z 5 k H z / S p a n. 5 M H z D a t e : 8. P R. 2 2 : 5 7 : 5 5 SPORTON International Inc. Page No. : 8 of 82

22 Power Density Plot on Configuration IEEE 82.a nt. / 5825 MHz 2 O f f s e t 2. 3 d B * t t 3 d B * R B W 3 k H z * V B W 3 k H z * S W T 5 s M a r k e r [ T ] d B m G H z * C e n t e r G H z 5 k H z / S p a n. 5 M H z D a t e : 8. P R. 2 2 : 2 : 2 9 SPORTON International Inc. Page No. : 9 of 82

23 Power Density Plot on Configuration IEEE 82.a nt. B / 5745 MHz 2 O f f s e t 2. 3 d B * t t 3 d B * R B W 3 k H z * V B W 3 k H z * S W T 5 s M a r k e r [ T ] d B m G H z * C e n t e r G H z 5 k H z / S p a n. 5 M H z D a t e : 8. P R. 2 2 : 4 : Power Density Plot on Configuration IEEE 82.a nt. B / 5785 MHz 2 O f f s e t 2. 3 d B * t t 3 d B * R B W 3 k H z * V B W 3 k H z * S W T 5 s M a r k e r [ T ] - 9. d B m G H z * C e n t e r G H z 5 k H z / S p a n. 5 M H z D a t e : 8. P R. 2 2 : 7 : 3 6 SPORTON International Inc. Page No. : 2 of 82

24 Power Density Plot on Configuration IEEE 82.a nt. B / 5825 MHz 2 O f f s e t 2. 3 d B * t t 3 d B * R B W 3 k H z * V B W 3 k H z * S W T 5 s M a r k e r [ T ] -. 4 d B m G H z * C e n t e r G H z 5 k H z / S p a n. 5 M H z D a t e : 8. P R. 2 2 : 2 2 : 2 3 SPORTON International Inc. Page No. : 2 of 82

25 Power Density Plot on Configuration IEEE 82.b nt. / 242 MHz * R B W 3 k H z M a r k e r [ T ] * V B W 3 k H z d B m * t t 3 d B * S W T 5 s G H z 2 O f f s e t. 4 d B * DB C e n t e r G H z 5 k H z / S p a n. 5 M H z Date: 2.PR.2 6:4:28 Power Density Plot on Configuration IEEE 82.b nt. / 2437 MHz * R B W 3 k H z M a r k e r [ T ] * V B W 3 k H z d B m * t t 3 d B * S W T 5 s G H z 2 O f f s e t. 4 d B * DB C e n t e r G H z 5 k H z / S p a n. 5 M H z Date: 2.PR.2 6:: SPORTON International Inc. Page No. : 22 of 82

26 Power Density Plot on Configuration IEEE 82.b nt. / 2462 MHz * R B W 3 k H z M a r k e r [ T ] * V B W 3 k H z - 9. d B m * t t 3 d B * S W T 5 s G H z 2 O f f s e t. 4 d B * DB C e n t e r G H z 5 k H z / S p a n. 5 M H z Date: 2.PR.2 6:22:37 SPORTON International Inc. Page No. : 23 of 82

27 Power Density Plot on Configuration IEEE 82.b nt. B / 242 MHz * R B W 3 k H z M a r k e r [ T ] * V B W 3 k H z d B m * t t 3 d B * S W T 5 s G H z 2 O f f s e t. 4 d B * DB C e n t e r G H z 5 k H z / S p a n. 5 M H z Date: 2.PR.2 7:8:6 Power Density Plot on Configuration IEEE 82.b nt. B / 2437 MHz * R B W 3 k H z M a r k e r [ T ] * V B W 3 k H z d B m * t t 3 d B * S W T 5 s G H z 2 O f f s e t. 4 d B * DB C e n t e r G H z 5 k H z / S p a n. 5 M H z Date: 2.PR.2 7:27:5 SPORTON International Inc. Page No. : 24 of 82

28 Power Density Plot on Configuration IEEE 82.b nt. B / 2462 MHz * R B W 3 k H z M a r k e r [ T ] * V B W 3 k H z d B m * t t 3 d B * S W T 5 s G H z 2 O f f s e t. 4 d B * DB C e n t e r G H z 5 k H z / S p a n. 5 M H z Date: 2.PR.2 7:4:25 SPORTON International Inc. Page No. : 25 of 82

29 Power Density Plot on Configuration IEEE 82.g nt. / 242 MHz 2 O f f s e t. 4 d B * t t 3 d B * R B W 3 k H z * V B W 3 k H z * S W T 5 s M a r k e r [ T ] d B m G H z * C e n t e r G H z 5 k H z / S p a n. 5 M H z D a t e : 8. P R. 2 9 : 3 : 2 8 Power Density Plot on Configuration IEEE 82.g nt. / 2437 MHz 2 O f f s e t. 4 d B * t t 3 d B * R B W 3 k H z * V B W 3 k H z * S W T 5 s M a r k e r [ T ] d B m G H z * C e n t e r G H z 5 k H z / S p a n. 5 M H z D a t e : 8. P R. 2 9 : 3 5 : 5 7 SPORTON International Inc. Page No. : 26 of 82

30 Power Density Plot on Configuration IEEE 82.g nt. / 2462 MHz 2 O f f s e t. 4 d B * t t 3 d B * R B W 3 k H z * V B W 3 k H z * S W T 5 s M a r k e r [ T ] d B m G H z * C e n t e r G H z 5 k H z / S p a n. 5 M H z D a t e : 8. P R. 2 9 : 4 : 2 9 SPORTON International Inc. Page No. : 27 of 82

31 Power Density Plot on Configuration IEEE 82.g nt. B / 242 MHz 2 O f f s e t. 4 d B * t t 3 d B * R B W 3 k H z * V B W 3 k H z * S W T 5 s M a r k e r [ T ] d B m G H z * C e n t e r G H z 5 k H z / S p a n. 5 M H z D a t e : 8. P R. 2 9 : 5 : 4 Power Density Plot on Configuration IEEE 82.g nt. B / 2437 MHz 2 O f f s e t. 4 d B * t t 3 d B * R B W 3 k H z * V B W 3 k H z * S W T 5 s M a r k e r [ T ] d B m G H z * C e n t e r G H z 5 k H z / S p a n. 5 M H z D a t e : 8. P R. 2 9 : 5 4 : 2 2 SPORTON International Inc. Page No. : 28 of 82

32 Power Density Plot on Configuration IEEE 82.g nt. B / 2462 MHz 2 O f f s e t. 4 d B * t t 3 d B * R B W 3 k H z * V B W 3 k H z * S W T 5 s M a r k e r [ T ] d B m G H z * C e n t e r G H z 5 k H z / S p a n. 5 M H z D a t e : 8. P R. 2 9 : 5 8 : 2 2 SPORTON International Inc. Page No. : 29 of 82

3.4 6dB Spectrum Bandwidth Measurement 3.4. Limit For digital modulation systems, the minimum 6dB bandwidth shall be at least 5 khz. 3.4.2 Measuring Instruments and Setting Please refer to section 4 of equipments list in this report.

33 3.4 6dB Spectrum Bandwidth Measurement 3.4. Limit For digital modulation systems, the minimum 6dB bandwidth shall be at least 5 khz Measuring Instruments and Setting Please refer to section 4 of equipments list in this report. The following table is the setting of the spectrum analyzer. Spectrum Parameters Setting ttenuation uto Span Frequency > 6dB Bandwidth RB khz VB khz Detector Peak Trace Max Hold Sweep Time uto Test Procedures. The transmitter output (antenna port) was connected to the spectrum analyzer in peak hold mode. 2. The resolution bandwidth of khz and the video bandwidth of khz were used. 3. Measured the spectrum width with power higher than 6dB below carrier Test Setup Layout Test Deviation There is no deviation with the original standard EUT Operation during Test The EUT was programmed to be in continuously transmitting mode. SPORTON International Inc. Page No. : 3 of 82

34 3.4.7 Test Result of 6dB Spectrum Bandwidth Final Test Date pr. 2, 2 Test Site No. TH-HY Temperature 26 Humidity 62% Test Engineer Ian Configurations 82.a/b/g Configuration IEEE 82.a nt. Channel Frequency 6dB Bandwidth (MHz) 99% Occupied Bandwidth (MHz) Min. Limit (khz) Test Result MHz Complies MHz Complies MHz Complies Configuration IEEE 82.a nt. B Channel Frequency 6dB Bandwidth (MHz) 99% Occupied Bandwidth (MHz) Min. Limit (khz) Test Result MHz Complies MHz Complies MHz Complies Configuration IEEE 82.b nt. Channel Frequency 6dB Bandwidth (MHz) 99% Occupied Bandwidth (MHz) Min. Limit (khz) Test Result 242 MHz Complies MHz Complies 2462 MHz Complies Configuration IEEE 82.b nt. B Channel Frequency 6dB Bandwidth (MHz) 99% Occupied Bandwidth (MHz) Min. Limit (khz) Test Result 242 MHz Complies MHz Complies 2462 MHz Complies Configuration IEEE 82.g nt. Channel Frequency 6dB Bandwidth (MHz) 99% Occupied Bandwidth (MHz) Min. Limit (khz) SPORTON International Inc. Page No. : 3 of 82 Test Result 242 MHz Complies MHz Complies 2462 MHz Complies Configuration IEEE 82.g nt. B Channel Frequency 6dB Bandwidth (MHz) 99% Occupied Bandwidth (MHz) Min. Limit (khz) Test Result 242 MHz Complies MHz Complies 2462 MHz Complies

35 6 db Bandwidth Plot on Configuration IEEE 82.a nt. / 5745 MHz P O W E R B W ( % ) * R B W k H z D e l t a [ T ] 9 9 % * V B W k H z. 9 d B * t t 3 d B * S W T 5 m s M H z 2 O f f s e t 2. 3 d B O B W M H z M a r k e r [ T ]. 6 5 d B m D 6. 3 d B m G H z T e m p [ T O B W ] D 2. 3 d B m T d B m T G H z T e m p 2 [ T O B W ] d B m G H z * F F 2 C e n t e r G H z 2 M H z / S p a n 2 M H z D a t e : 8. P R. 2 2 : 6 : db Bandwidth Plot on Configuration IEEE 82.a nt. / 5785 MHz P O W E R B W ( % ) 9 9 % * V B W k H z 2 - O f f s e t 2. 3 d B D d B m D d B m T * t t 3 d B * R B W k H z * S W T 5 m s D e l t a [ T ] M a r k e r [ T ]. 5 3 d B M H z O B W M H z. 4 d B m G H z T e m p [ T O B W ] - 7. T6 23 d B m G H z T e m p 2 [ T O B W ] d B m G H z * F F 2 C e n t e r G H z 2 M H z / S p a n 2 M H z D a t e : 8. P R. 2 2 : 5 7 : 3 SPORTON International Inc. Page No. : 32 of 82

36 6 db Bandwidth Plot on Configuration IEEE 82.a nt. / 5825 MHz P O W E R B W ( % ) * R B W k H z D e l t a [ T ] 9 9 % * V B W k H z. 9 9 d B * t t 3 d B * S W T 5 m s M H z 2 O f f s e t 2. 3 d B O B W 6. 6 M H z M a r k e r [ T ] d B m G H z D d B m T e m p [ T O B W ] d B m T D d B m T G H z T e m p 2 [ T O B W ] d B m G H z * F F 2 C e n t e r G H z 2 M H z / S p a n 2 M H z D a t e : 8. P R. 2 2 : : 3 8 SPORTON International Inc. Page No. : 33 of 82

37 6 db Bandwidth Plot on Configuration IEEE 82.a nt. B / 5745 MHz P O W E R B W ( % ) * R B W k H z D e l t a [ T ] 9 9 % * V B W k H z. 4 4 d B * t t 3 d B * S W T 5 m s M H z 2 O f f s e t 2. 3 d B O B W M H z M a r k e r [ T ]. 9 d B m D d B m G H z T e m p [ T O B W ] D d B m T d B m T G H z T e m p 2 [ T O B W ] d B m G H z * F F 2 C e n t e r G H z 2 M H z / S p a n 2 M H z D a t e : 8. P R. 2 2 : 2 : 4 6 db Bandwidth Plot on Configuration IEEE 82.a nt. B / 5785 MHz P O W E R B W ( % ) 9 9 % * V B W k H z 2 - O f f s e t 2. 3 d B T D 7. 2 d B m D 2. 2 d B m * t t 3 d B * R B W k H z * S W T 5 m s D e l t a [ T ] M a r k e r [ T ] -. 2 d B 6. 4 M H z O B W M H z. 5 7 d B m G H z T e m p [ T O B W ] - 2. T 29 d B m G H z T e m p 2 [ T O B W ] - 3. d B m G H z * F F 2 C e n t e r G H z 2 M H z / S p a n 2 M H z D a t e : 8. P R. 2 2 : 6 : 4 5 SPORTON International Inc. Page No. : 34 of 82

38 6 db Bandwidth Plot on Configuration IEEE 82.a nt. B / 5825 MHz P O W E R B W ( % ) * R B W k H z D e l t a [ T ] 9 9 % * V B W k H z. 5 d B * t t 3 d B * S W T 5 m s 2 O f f s e t 2. 3 d B D d B m T D d B m M H z O B W M H z M a r k e r [ T ] d B m G H z T e m p [ T O B W ] - 3. T7 28 d B m G H z T e m p 2 [ T O B W ] d B m G H z * F F 2 C e n t e r G H z 2 M H z / S p a n 2 M H z D a t e : 8. P R. 2 2 : 2 : 2 3 SPORTON International Inc. Page No. : 35 of 82

39 6 db Bandwidth Plot on Configuration IEEE 82.b nt. / 242 MHz * R B W k H z D e l t a [ T ] * V B W k H z. d B * t t 3 d B * S W T 5 m s. 6 M H z - 2 O f f s e t. 4 d B O B W M H z M a r k e r [ T ] D 9. 6 d B m d B m G H z D d B m T e m p [ T O B W ] T d B m T G H z T e m p 2 [ T O B W ] d B m G H z * DB F F 2 C e n t e r G H z 2 M H z / S p a n 2 M H z Date: 2.PR.2 6:27:59 6 db Bandwidth Plot on Configuration IEEE 82.b nt. / 2437 MHz * R B W k H z D e l t a [ T ] * V B W k H z. 4 3 d B * t t 3 d B * S W T 5 m s. 6 M H z - 2 O f f s e t. 4 d B O B W M H z M a r k e r [ T ] D d B m 3. 2 d B m G H z D d B m T e m p [ T O B W ] T d B m T G H z T e m p 2 [ T O B W ] d B m G H z * DB F F 2 C e n t e r G H z 2 M H z / S p a n 2 M H z Date: 2.PR.2 6:7:33 SPORTON International Inc. Page No. : 36 of 82

40 6 db Bandwidth Plot on Configuration IEEE 82.b nt. / 2462 MHz 2 - O f f s e t. 4 d B D 6. 5 d B m D 2. 5 d B m T * R B W k H z * V B W k H z * t t 3 d B * S W T 5 m s D e l t a [ T ] M a r k e r [ T ]. 7 8 d B. 6 M H z O B W M H z. 4 8 d B m G H z T e m p [ T O B W ] d B m G H z T 2 T e m p 2 [ T O B W ] d B m G H z * DB F F 2 C e n t e r G H z 2 M H z / S p a n 2 M H z Date: 2.PR.2 6:4:57 SPORTON International Inc. Page No. : 37 of 82

41 6 db Bandwidth Plot on Configuration IEEE 82.b nt. B / 242 MHz 2 - O f f s e t. 4 d B D 7. 9 d B m D 2. 9 d B m T * R B W k H z * V B W k H z * t t 3 d B * S W T 5 m s D e l t a [ T ] M a r k e r [ T ]. 8 3 d B. 6 M H z O B W M H z. 7 2 d B m G H z T e m p [ T O B W ] d B m T 2 8 G H z T e m p 2 [ T O B W ] d B m G H z * DB F F 2 C e n t e r G H z 2 M H z / S p a n 2 M H z Date: 2.PR.2 7:6:6 6 db Bandwidth Plot on Configuration IEEE 82.b nt. B / 2437 MHz 2 - O f f s e t. 4 d B D d B m D d B m T * R B W k H z * V B W k H z * t t 3 d B * S W T 5 m s D e l t a [ T ] M a r k e r [ T ]. 6 5 d B. 6 M H z O B W 3. 8 M H z. 5 d B m G H z T e m p [ T O B W ] d B m T 2 8 G H z T e m p 2 [ T O B W ] d B m G H z * DB F F 2 C e n t e r G H z 2 M H z / S p a n 2 M H z Date: 2.PR.2 7:2:44 SPORTON International Inc. Page No. : 38 of 82

42 6 db Bandwidth Plot on Configuration IEEE 82.b nt. B / 2462 MHz 2 - O f f s e t. 4 d B D d B m D d B m T * R B W k H z * V B W k H z * t t 3 d B * S W T 5 m s D e l t a [ T ] M a r k e r [ T ] d B m G H z T em p [ T O B W ]. 5 9 d B M H z O B W 3. 8 M H z - 8. d B m G H z T 2 T e m p 2 [ T O B W ] d B m G H z * DB F F 2 C e n t e r G H z 2 M H z / S p a n 2 M H z Date: 2.PR.2 7:32:48 SPORTON International Inc. Page No. : 39 of 82

43 6 db Bandwidth Plot on Configuration IEEE 82.g nt. / 242 MHz P O W E R B W ( % ) * R B W k H z D e l t a [ T ] 9 9 % * V B W k H z -. 2 d B * t t 3 d B * S W T 5 m s M H z 2 O f f s e t. 4 d B O B W M H z M a r k e r [ T ] d B m G H z T e m p [ T O B W ] D -. 2 d B m d B m T T 2 G H z D d B m T e m p 2 [ T O B W ] d B m G H z * F F 2 C e n t e r G H z 2 M H z / S p a n 2 M H z D a t e : 8. P R. 2 9 : 2 8 : db Bandwidth Plot on Configuration IEEE 82.g nt. / 2437 MHz P O W E R B W ( % ) 9 9 % * V B W k H z 2 - O f f s e t. 4 d B D d B m T D d B m * t t 3 d B * R B W k H z * S W T 5 m s D e l t a [ T ] M a r k e r [ T ]. 7 4 d B M H z O B W M H z d B m G H z T e m p [ T O B W ] d B m G H z T 2 T e m p 2 [ T O B W ] d B m G H z * F F 2 C e n t e r G H z 2 M H z / S p a n 2 M H z D a t e : 8. P R. 2 9 : 3 4 : 4 SPORTON International Inc. Page No. : 4 of 82

44 6 db Bandwidth Plot on Configuration IEEE 82.g nt. / 2462 MHz P O W E R B W ( % ) * R B W k H z D e l t a [ T ] 9 9 % * V B W k H z. 5 8 d B * t t 3 d B * S W T 5 m s M H z 2 O f f s e t. 4 d B O B W M H z M a r k e r [ T ] d B m G H z T e m p [ T O B W ] d B m D d B m G H z T T 2 D d B m T e m p 2 [ T O B W ] d B m G H z * F F 2 C e n t e r G H z 2 M H z / S p a n 2 M H z D a t e : 8. P R. 2 9 : 3 8 : 4 7 SPORTON International Inc. Page No. : 4 of 82

45 6 db Bandwidth Plot on Configuration IEEE 82.g nt. B / 242 MHz P O W E R B W ( % ) 9 9 % * V B W k H z 2 - O f f s e t. 4 d B D d B m T D d B m * t t 3 d B * R B W k H z * S W T 5 m s D e l t a [ T ] M a r k e r [ T ]. 5 d B M H z O B W M H z - 7. d B m G H z T e m p [ T O B W ] d B m G H z T 2 T e m p 2 [ T O B W ] d B m G H z * F F 2 C e n t e r G H z 2 M H z / S p a n 2 M H z D a t e : 8. P R. 2 9 : 4 8 : db Bandwidth Plot on Configuration IEEE 82.g nt. B / 2437 MHz P O W E R B W ( % ) 9 9 % * V B W k H z 2 - O f f s e t. 4 d B D d B m T D d B m * t t 3 d B * R B W k H z * S W T 5 m s D e l t a [ T ] M a r k e r [ T ]. 5 8 d B M H z O B W M H z d B m G H z T e m p [ T O B W ] d B m G H z T e m p 2 [ T O B W T] d B m G H z * F F 2 C e n t e r G H z 2 M H z / S p a n 2 M H z D a t e : 8. P R. 2 9 : 5 2 : 4 9 SPORTON International Inc. Page No. : 42 of 82

46 6 db Bandwidth Plot on Configuration IEEE 82.g nt. B / 2462 MHz P O W E R B W ( % ) 9 9 % * V B W k H z 2 - O f f s e t. 4 d B D d B m T D d B m * t t 3 d B * R B W k H z * S W T 5 m s D e l t a [ T ] M a r k e r [ T ]. 8 d B M H z O B W M H z d B m G H z T e m p [ T O B W ] d B m G H z T e m p 2 [ T O B W T] d B m G H z * F F 2 C e n t e r G H z 2 M H z / S p a n 2 M H z D a t e : 8. P R. 2 9 : 5 6 : 2 SPORTON International Inc. Page No. : 43 of 82

47 3.5 Radiated Emissions Measurement 3.5. Limit In any khz bandwidth outside the frequency band in which the spread spectrum or digitally modulated intentional radiator is operating, the radio frequency power that is produced by the intentional radiator shall be at least 2dB 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. If the transmitter measurement is based on the maximum conducted output power, the attenuation required under this paragraph shall be 3dB instead of 2dB. In addition, radiated emissions which fall in section 5.25(a) the restricted bands must also comply with the radiated emission limit specified in section 5.29(a). Frequencies (MHz) Field Strength (microvolt/meter).9~.49 24/F(KHz) 3.49~.75 24/F(KHz) 3.75~ ~ ~ ~ bove Measuring Instruments and Setting Measurement Distance (meters) Please refer to section 4 of equipments list in this report. The following table is the setting of spectrum analyzer and receiver. Spectrum Parameter Setting ttenuation uto Start Frequency MHz Stop Frequency th carrier harmonic RB / VB (Emission in restricted band) MHz / MHz for Peak, MHz / Hz for verage RB / VB (Emission in non-restricted band) MHz / MHz for peak Receiver Parameter ttenuation Start ~ Stop Frequency Start ~ Stop Frequency Start ~ Stop Frequency Setting uto 9kHz~5kHz / RB 2Hz for QP 5kHz~3MHz / RB 9kHz for QP 3MHz~MHz / RB 2kHz for QP SPORTON International Inc. Page No. : 44 of 82

48 3.5.3 Test Procedures. Configure the EUT according to NSI C63.4. The EUT was placed on the top of the turntable.8 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 36 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 M to 4 M) and then the turntable was rotated (from degree to 36 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 GHz, use MHz VBW and RBW for peak reading. Then MHz RBW and Hz VBW for average reading in spectrum analyzer. 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. seconds. s an alternative (provided the transmitter operates for longer than. seconds) or in cases where the pulse train exceeds. seconds, the measured field strength shall be determined from the average absolute voltage during a. second interval during which the field strength is at its maximum value. 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 GHz. 9. For testing above GHz, 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.. In case the emission is lower than 3MHz, 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. SPORTON International Inc. Page No. : 45 of 82

49 3.5.4 Test Setup Layout For radiated emissions below 3MHz For radiated emissions above 3MHz 3 or m bove GHz shall be extrapolated to the specified distance using an extrapolation factor of 2 db/decade form 3m to m. Distance extrapolation factor = 2 log (specific distance [3m] / test distance [m]) (db); Limit line = specific limits (dbuv) + distance extrapolation factor [9.54 db] Test Deviation There is no deviation with the original standard EUT Operation during Test The EUT was programmed to be in continuously transmitting mode. SPORTON International Inc. Page No. : 46 of 82

50 3.5.7 Results of Radiated Emissions (9kHz~3MHz) Final Test Date Mar. 26, 2 Test Site No. 3CH2-HY Temperature 23 Humidity 5.5% Test Engineer Daniel Freq. Level Over Limit Limit Line Remark (MHz) (dbuv) (db) (dbuv) See Note Note: The amplitude of spurious emissions that are attenuated by more than 2 db below the permissible value has no need to be reported. Distance extrapolation factor = 4 log (specific distance / test distance) (db); Limit line = specific limits (dbuv) + distance extrapolation factor. SPORTON International Inc. Page No. : 47 of 82

51 3.5.8 Results of Radiated Emissions (3MHz~GHz) Final Test Date Mar. 26, 2 Test Site No. 3CH2-HY Temperature 23 Humidity 5.5% Test Engineer Daniel Configurations Normal Mode Horizontal SPORTON International Inc. Page No. : 48 of 82

52 Vertical Note: The amplitude of spurious emissions that are attenuated by more than 2dB below the permissible value has no need to be reported. Emission level (dbuv/m) = 2 log Emission level (uv/m). Corrected Reading: ntenna Factor + Cable Loss + Read Level - Preamp Factor = Level. SPORTON International Inc. Page No. : 49 of 82

53 3.5.9 Results for Radiated Emissions (GHz~ th Harmonic) Final Test Date Mar. 24, 2 Test Site No. 3CH2-HY Temperature 23 Humidity 5.5% Test Engineer Daniel Configuration 82.a Ch. 49 Horizontal Note: The items and 4 are on un-restricted band, so the limit is -2dB for the field strength of the fundamental emissions (see section 3.6.7). SPORTON International Inc. Page No. : 5 of 82

54 Vertical Note: The items and 4 are on un-restricted band, so the limit is -2dB for the field strength of the fundamental emissions (see section 3.6.7). SPORTON International Inc. Page No. : 5 of 82

55 Final Test Date Mar. 24, 2 Test Site No. 3CH2-HY Temperature 23 Humidity 5.5% Test Engineer Daniel Configuration 82.a Ch. 57 Horizontal Note: The items and 4 are on un-restricted band, so the limit is -2dB for the field strength of the fundamental emissions (see section 3.6.7). SPORTON International Inc. Page No. : 52 of 82

56 Vertical Note: The items and 4 are on un-restricted band, so the limit is -2dB for the field strength of the fundamental emissions (see section 3.6.7). SPORTON International Inc. Page No. : 53 of 82

57 Final Test Date Mar. 24, 2 Test Site No. 3CH2-HY Temperature 23 Humidity 5.5% Test Engineer Daniel Configuration 82.a Ch. 65 Horizontal Note: The items and 4 are on un-restricted band, so the limit is -2dB for the field strength of the fundamental emissions (see section 3.6.7). SPORTON International Inc. Page No. : 54 of 82

58 Vertical Note: The items and 4 are on un-restricted band, so the limit is -2dB for the field strength of the fundamental emissions (see section 3.6.7). SPORTON International Inc. Page No. : 55 of 82

59 Final Test Date Mar. 24, 2 Test Site No. 3CH2-HY Temperature 23 Humidity 5.5% Test Engineer Daniel Configuration 82.b Ch. Horizontal Note: The items 3 and 4 are on un-restricted band, so the limit is -2dB for the field strength of the fundamental emissions (see section 3.6.7). SPORTON International Inc. Page No. : 56 of 82

60 Vertical Note: The items 3 and 4 are on un-restricted band, so the limit is -2dB for the field strength of the fundamental emissions (see section 3.6.7). SPORTON International Inc. Page No. : 57 of 82

61 Final Test Date Mar. 24, 2 Test Site No. 3CH2-HY Temperature 23 Humidity 5.5% Test Engineer Daniel Configuration 82.b Ch. 6 Horizontal Note: The item 5 is on un-restricted band, so the limit is -2dB for the field strength of the fundamental emissions (see section 3.6.7). SPORTON International Inc. Page No. : 58 of 82

62 Vertical Note: The item 5 is on un-restricted band, so the limit is -2dB for the field strength of the fundamental emissions (see section 3.6.7). SPORTON International Inc. Page No. : 59 of 82

63 Final Test Date Mar. 24, 2 Test Site No. 3CH2-HY Temperature 23 Humidity 5.5% Test Engineer Daniel Configuration 82.b Ch. Horizontal Note: The item 5 is on un-restricted band, so the limit is -2dB for the field strength of the fundamental emissions (see section 3.6.7). SPORTON International Inc. Page No. : 6 of 82

64 Vertical Note: The item 5 is on un-restricted band, so the limit is -2dB for the field strength of the fundamental emissions (see section 3.6.7). SPORTON International Inc. Page No. : 6 of 82

65 Final Test Date Mar. 24, 2 Test Site No. 3CH2-HY Temperature 23 Humidity 5.5% Test Engineer Daniel Configuration 82.g Ch. Horizontal Note: The items 2 and 3 are on un-restricted band, so the limit is -2dB for the field strength of the fundamental emissions (see section 3.6.7). SPORTON International Inc. Page No. : 62 of 82

66 Vertical Note: The items 3 and 4 are on un-restricted band, so the limit is -2dB for the field strength of the fundamental emissions (see section 3.6.7). SPORTON International Inc. Page No. : 63 of 82

67 Final Test Date Mar. 24, 2 Test Site No. 3CH2-HY Temperature 23 Humidity 5.5% Test Engineer Daniel Configuration 82.g Ch. 6 Horizontal Note: The item 4 is on un-restricted band, so the limit is -2dB for the field strength of the fundamental emissions (see section 3.6.7). SPORTON International Inc. Page No. : 64 of 82

68 Vertical Note: The item 5 is on un-restricted band, so the limit is -2dB for the field strength of the fundamental emissions (see section 3.6.7). SPORTON International Inc. Page No. : 65 of 82

69 Final Test Date Mar. 24, 2 Test Site No. 3CH2-HY Temperature 23 Humidity 5.5% Test Engineer Daniel Configuration 82.g Ch. Horizontal Note: The item 4 is on un-restricted band, so the limit is -2dB for the field strength of the fundamental emissions (see section 3.6.7). SPORTON International Inc. Page No. : 66 of 82

70 Vertical Note: The item 4 is on un-restricted band, so the limit is -2dB for the field strength of the fundamental emissions (see section 3.6.7). Emission level (dbuv/m) = 2 log Emission level (uv/m). Corrected Reading: ntenna Factor + Cable Loss + Read Level - Preamp Factor = Level. SPORTON International Inc. Page No. : 67 of 82

71 3.6 Band Edge and Fundamental Emissions Measurement 3.6. Limit In any khz bandwidth outside the frequency band in which the spread spectrum or digitally modulated intentional radiator is operating, the radio frequency power that is produced by the intentional radiator shall be at least 2dB 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. If the transmitter measurement is based on the maximum conducted output power, the attenuation required under this paragraph shall be 3dB instead of 2dB. In addition, radiated emissions which fall in section 5.25(a) the restricted bands must also comply with the radiated emission limit specified in section 5.29(a). Frequencies (MHz) Field Strength (micorvolts/meter).9~.49 24/F(KHz) 3.49~.75 24/F(KHz) 3.75~ ~ ~ ~ bove Measuring Instruments and Setting Measurement Distance (meters) Please refer to section 4 of equipments list in this report. The following table is the setting of the spectrum analyzer. Spectrum Parameter Setting ttenuation uto Span Frequency MHz RB / VB (Emission in restricted band) MHz / MHz for Peak, MHz / Hz for verage RB / VB (Emission in non-restricted band) MHz / MHz for Peak Test Procedures. The test procedure is the same as section 3.5.3; only the frequency range investigated is limited to MHz around band edges. 2. In case the emission is fail due to the used RB/VB is too wide, marker-delta method of FCC Public Notice D-75 will be followed Test Setup Layout This test setup layout is the same as that shown in section Test Deviation There is no deviation with the original standard EUT Operation during Test The EUT was programmed to be in continuously transmitting mode. SPORTON International Inc. Page No. : 68 of 82

3.6.7 Test Result of Band Edge and Fundamental Emissions Final Test Date Mar. 25, 2 Test Site No. 3CH2-HY Temperature 23 Humidity 5.5% Test Engineer Daniel Configuration 82.a Ch.

72 3.6.7 Test Result of Band Edge and Fundamental Emissions Final Test Date Mar. 25, 2 Test Site No. 3CH2-HY Temperature 23 Humidity 5.5% Test Engineer Daniel Configuration 82.a Ch. 49, 57, 65 Channel 49 The item 2 is fundamental emissions and the item is on un-restricted band, so the limit is -2dB for the field strength of the fundamental emissions. Channel 57 The item 2 is fundamental emissions and the items and 3 are on un-restricted band, so the limit is -2dB for the field strength of the fundamental emissions. Channel 65 The item is fundamental emissions and the item 2 is on un-restricted band, so the limit is -2dB for the field strength of the fundamental emissions. Note: Emission level (dbuv/m) = 2 log Emission level (uv/m). Corrected Reading: ntenna Factor + Cable Loss + Read Level - Preamp Factor = Level. SPORTON International Inc. Page No. : 69 of 82

CE Test Report. : abn (1x1) + Bluetooth (2.1) module

CE Test Report. : abn (1x1) + Bluetooth (2.1) module CE Test Report Equipment Model No. Brand Name Applicant : 802.11abn (1x1) + Bluetooth (2.1) module : SDC-SSD40NBT : Laird Technologies : Laird Technologies Address : 11160 Thompson Ave., Lenexa, Kansas