Microsoft Word - FR B_R02_15C_High Tech_DIAM210_Report.doc

According to 47 CFR Part 15 Subpart C Equipment Model No. FCC ID Filing Type Applicant : PDA Phone : DIAM210 : NM8DMM : Certification : High Tech Computer Corp. 23 Xinghua Rd., Taoyuan 330, Taiwan The test result refers exclusively to the test presented test model / sample. Without written approval of SPORTON International Inc., the test report shall not be reproduced except in full. Certificate or Test Report must not be used by the applicant to claim the product in this test report endorsement by NVLAP or any agency of U.S. government. The data shown in this test report were carried out on May 15, 2008 at Sporton International Inc. LAB. Report No.: FR822609-05, Report Version: Rev.02 Roy Wu Manager SPORTON International Inc. No. 52, Hwa Ya 1 st Rd., Hwa Ya Technology Park, Kwei-Shan Hsiang, Tao Yuan Hsien, Taiwan, R.O.C. SPORTON International Inc. TEL : 886-3-327-3456 FAX : 886-3-328-4978 Report Version: Rev.02

Table of Contents History of This Test Report... ii 1. General Description of Equipment under Test...1 1.1 Applicant...1 1.2 Manufacturer...1 1.3 Basic Combination under Test...1 1.4 Feature of Equipment under Test...1 2. Test Configuration of Equipment under Test...2 2.1 Test Manner...2 2.2 Test Mode...2 2.3 Ancillary Equipment List...3 2.4 Connection Diagram of Test System...3 3. RF Utility...5 4. General Information of Test...6 4.1 Test Voltage...6 4.2 Standard for Methods of Measurement...6 4.3 Test Compliance...6 4.4 Frequency Range...6 4.5 Test Distance...6 5. Test Data and Test Result...7 5.1 List of Measurements and Examinations...7 5.2 Band Edges Measurement...8 5.3 Hopping Channel Separation...12 5.4 Number of Hopping Frequency...16 5.5 Hopping Channel Bandwidth...18 5.6 Dwell Time of Each Frequency...22 5.7 Peak Output Power Measurement...29 5.8 5.9 Conducted Emission...33 Radiated Emission Measurement...48 5.10 Antenna Requirements...62 6. List of Measuring Equipments...63 7. Uncertainty Evaluation...64 Appendix A Setup Photographs SPORTON International Inc. Page Number : i

History of This Test Report Report Issue Date: May 23, 2008 Report No. Description SPORTON International Inc. Page Number : ii

1. General Description of Equipment under Test 1.1 Applicant High Tech Computer Corp. 23 Xinghua Rd., Taoyuan 330, Taiwan 1.2 Manufacturer High Tech Computer Corp. 23 Xinghua Rd., Taoyuan 330, Taiwan 1.3 Basic Combination under Test PDA Phone A Photo Camera 1 + Video Camera 1 PDA Phone B Photo Camera 2 + Video Camera 2 1.4 Feature of Equipment under Test DUT Type : Model Name : FCC ID : Tx Frequency : Rx Frequency : Number of Channels : 79 Carrier Frequency of Each Channel : Channel Spacing : Maximum Output Power to Antenna : Type of Antenna Connector : Antenna Type : Antenna Gain : Type of Modulation : DUT Stage : Product Feature & Specification PDA Phone DIAM210 NM8DMM 2400 MHz ~ 2483.5 MHz 2400 MHz ~ 2483.5 MHz 2402+n*1 MHz; n=0~78 1 MHz Bluetooth: -0.60 dbm (1Mbps) Bluetooth EDR: 0.36dBm (2Mbps) / -0.02dBm (3Mbps) N/A PIFA Antenna -1 dbi Bluetooth (1Mbps) : GFSK Bluetooth EDR (2Mbps) : π/4-dqpsk Bluetooth EDR (3Mbps) : 8-DPSK Identical Prototype SPORTON International Inc. Page Number : 1 of 65

2. Test Configuration of Equipment under Test 2.1 Test Manner a. The EUT has been associated with peripherals pursuant to ANSI C63.4-2003 and configuration operated in a manner tended to maximize its emission characteristics in a typical application. b. The data rate, 2Mbps, was chosen to being tested, due to the highest RF output power. Data Rate / Modulation Channel Frequency GFSK π/4-dqpsk 8-DPSK 1Mbps 2Mbps 3Mbps Ch00 2400MHz -1.03 dbm -0.01 dbm -0.44 dbm Ch39 2441MHz -1.58 dbm -0.57 dbm -1.00 dbm Ch78 2480MHz -0.60 dbm 0.36 dbm -0.02 dbm Bluetooth uses frequency hopping spread spectrum (FHSS) operation which also facilities Bluetooth multiple access and coexistence among other types of wireless systems. The basic frequency-hopping pattern is a pseudo-random ordering of 79 channel frequencies in the ISM band and the hopping rate is nominally 1600 hops per second. The EDR modulation format uses one of two types of DPSK (Pi/4-DQPSK or 8-DPSK) in the payload section of the packet. As shown in figure, the EDR packet begins using GFSK modulation during the access code and header portions of the packet but changes to DPSK modulation after the guard time. Changing to a DPSK format allows increased data rates of 2 Mb/s or 3 Mb/s. c. The EUT is programmed to transmit signal continuously for all testings. d. Frequency range investigated: conduction 150 KHz to 30 MHz, radiation 30 MHz to 25000 MHz. 2.2 Test Mode Application Test Mode Radiated Emission / RF Conducted BT Tx(EDR 2Mbps) Mode 1: CH00_2402 MHz Mode 2: CH39_2441 MHz Mode 3: CH78_2480 MHz Mode 1: PDA Phone A + GSM1900 Idle + BT Link + WLAN Link + Battery 1 + Camera 1 + Adapter A + GPS Rx Mode 2: PDA Phone A + GSM1900 Idle + BT Link + WLAN Link + Battery 2 + Camera 1 + Adapter B + GPS Rx Mode 3: PDA Phone A + GSM1900 Idle + BT Link + WLAN Link + Battery 3 + Camera 2 + Adapter C + GPS Rx + Conducted Emission USB Cable A Mode 4: PDA Phone A + GSM1900 Idle + BT Link + WLAN Link + Battery 4 + Camera 2 + Adapter C + GPS Rx + USB Cable B Mode 5: PDA Phone A + EDGE Idle + BT Link + WLAN Link + Battery 5 + MPEG 4 + GPS Rx + USB Cable A Mode 6: PDA Phone A + EDGE Idle + BT Link + WLAN Link + Battery 6 + MPEG 4 + GPS Rx + USB Cable B Mode 7: PDA Phone B + GSM1900 Idle + BT Link + WLAN Link + Battery 2 + Camera 1 + Adapter B + GPS Rx SPORTON International Inc. Page Number : 2 of 65

2.3 Ancillary Equipment List Item Equipment Trade Name Model Name FCC ID Data Cable Power Cord 1. Base Station R&S CMU 200 N/A N/A Unshielded, 1.8 m 2. GPS Station T&E GS-50 N/A N/A Unshielded, 1.8 m 3. Notebook DELL D400 E2K24GBRL N/A 4. Bluetooth Earphone Engotech ET-BH111 PQY471087 N/A N/A 5. RS-232 Mouse State MS-303 DoC Unshielded, 1.2 m N/A 6. i-pod Apple A1199 N/A Unshielded, 1.2 m N/A AC I/P: Unshielded, 1.2 m DC O/P: Shielded, 1.8 m 7. BT Base Station Anritus 8852A N/A N/A Unshielded, 1.8 m 2.4 Connection Diagram of Test System <Conducted Emission> EUT with Adapter Mode SPORTON International Inc. Page Number : 3 of 65

EUT with USB Link Mode <Radiated Emission > SPORTON International Inc. Page Number : 4 of 65

3. RF Utility The programmed RF Utility is installed in EUT to provide channel selection, power level, data rate and the application type. RF Utility can send transmitting signal for all testings. SPORTON International Inc. Page Number : 5 of 65

4. General Information of Test Test Site Location : No. 52, Hwa Ya 1 st Rd., Hwa Ya Technology Park, Kwei-Shan Hsiang, Tao Yuan Hsien, Taiwan, R.O.C. TEL : 886-3-327-3456 FAX : 886-3-328-4978 Test Site No : CO04-HY, 03CH06-HY FCC Designation No : TW1022 4.1 Test Voltage AC 120V / 60Hz 4.2 Standard for Methods of Measurement ANSI C63.4-2003 4.3 Test Compliance 47 CFR Part 15 Subpart C 4.4 Frequency Range a. Conduction: from 150 khz to 30 MHz b. Radiation: from 30 MHz to 25000 MHz 4.5 Test Distance The test distance of radiated emission from antenna to EUT is 3 m. SPORTON International Inc. Page Number : 6 of 65

5. Test Data and Test Result 5.1 List of Measurements and Examinations The Emission Mode: Bluetooth FCC Rule Description of Test Result 15.207 Conducted Emission Pass 15.247(a)(1)(iii) Hopping Channel Bandwidth Pass 15.247(a)(1) Hopping Channel Separation Pass 15.247(a)(1)(iii) Number of Hopping Frequency Pass 15.247(a)(1)(iii) Dwell Time of Each Frequency Pass 15.247(b)(1) Output Power Pass 15.247(d) 100 KHz Bandwidth of Frequency Band Edges Pass 15.209(a) 15.247(d) Radiated Emission Pass 15.203 15.247(b)(4) Antenna Requirement Pass SPORTON International Inc. Page Number : 7 of 65

5.2 Band Edges Measurement 5.2.1 Measuring Instruments As described in chapter 6 of this test report. 5.2.2 Test Procedure 1. The transmitter output was connected to the spectrum analyzer via a low lose cable. 2. Set both RBW and VBW of spectrum analyzer to 100 KHz with suitable frequency span including 100 KHz bandwidth from band edge. 3. The band edges was measured and recorded. 5.2.3 Test Result Application Type : Bluetooth Temperature : 31~32 Relative Humidity : 30~31% Test Engineer : Sun Test Result in BT lower band : PASS Test Result in BT higher band : PASS Test Result in BT EDR(2Mbps) lower band : PASS Test Result in BT EDR(2Mbps) higher band : PASS Test Result in BT EDR(3Mbps) lower band : PASS Test Result in BT EDR(3Mbps) higher band : PASS 5.2.4 Note on Band Edge Emission BT EDR(2Mbps) CH00 (Horizontal) Frequency Level Over Limit Read Antenna Cable Preamp Ant Table Remark Limit Line Level Factor Loss Factor Pos Pos ( MHz ) ( dbuv/m ) ( db ) ( dbuv/m ) (dbuv) ( db ) ( db ) ( db ) ( cm ) ( deg ) 2389.61 47.00-27.00 74.00 46.90 31.86 3.92 35.68 100 0 Peak 2389.61 32.59-21.41 54.00 32.49 31.86 3.92 35.68 101 3 Average CH00 (Vertical) Frequency Level Over Limit Read Antenna Cable Preamp Ant Table Remark Limit Line Level Factor Loss Factor Pos Pos ( MHz ) ( dbuv/m ) ( db ) ( dbuv/m ) (dbuv) ( db ) ( db ) ( db ) ( cm ) ( deg ) 2389.61 46.36-27.64 74.00 46.26 31.86 3.92 35.68 100 0 Peak 2389.61 32.32-21.68 54.00 32.22 31.86 3.92 35.68 122 64 Average SPORTON International Inc. Page Number : 8 of 65

CH78 (Horizontal) Frequency Level Over Limit Read Antenna Cable Preamp Ant Table Remark Limit Line Level Factor Loss Factor Pos Pos ( MHz ) ( dbuv/m ) ( db ) ( dbuv/m ) (dbuv) ( db ) ( db ) ( db ) ( cm ) ( deg ) 2483.50 62.53-11.47 74.00 62.20 31.98 4.05 35.70 100 0 Peak 2483.50 49.77-4.23 54.00 49.44 31.98 4.05 35.70 102 354 Average CH78 (Vertical) Frequency Level Over Limit Read Antenna Cable Preamp Ant Table Remark Limit Line Level Factor Loss Factor Pos Pos ( MHz ) ( dbuv/m ) ( db ) ( dbuv/m ) (dbuv) ( db ) ( db ) ( db ) ( cm ) ( deg ) 2483.50 60.34-13.66 74.00 60.01 31.98 4.05 35.70 100 0 Peak 2483.50 48.23-5.77 54.00 47.90 31.98 4.05 35.70 162 122 Average SPORTON International Inc. Page Number : 9 of 65

5.2.5 20dB Band Edge BT EDR(2Mbps) CH00 * RBW 100 khz * VBW 100 khz Ref 20 dbm * Att 20 db * SWT 500 ms 20 Offset 19.3 db Marker 1 [T1 ] -46.87 dbm 2.386800000 GHz 10 A 1 PK MAXH 0 D1-2.19 dbm LVL -10-20 D2-22.19 dbm -30-40 -50 1 3DB -60-70 -80 Center 2.353 GHz 10 MHz/ F1 Span 100 MHz Date: 21.APR.2008 04:00:08 SPORTON International Inc. Page Number : 10 of 65

CH78 * RBW 100 khz * VBW 100 khz Ref 20 dbm * Att 20 db * SWT 500 ms 20 Offset 19.3 db Marker 1 [T1 ] -46.66 dbm 2.499800000 GHz 10 A 1 PK MAXH 0 D1-1.69 dbm LVL -10-20 D2-21.69 dbm -30 3DB -40 1-50 -60-70 F1-80 Center 2.527 GHz 10 MHz/ Span 100 MHz Date: 21.APR.2008 03:59:38 SPORTON International Inc. Page Number : 11 of 65

5.3 Hopping Channel Separation 5.3.1 Measuring Instruments As described in chapter 9 of this test report. 5.3.2 Test Procedure 1. The output of EUT was connected to the spectrum analyzer by a low loss cable.. 2. Set RBW of spectrum analyzer to 30 KHz and VBW to 100 KHz. 3. The Hopping Channel Separation is defined as the channel is separated with the next channel. 5.3.3 Test Setup Layout EUT Spectrum Analyzer 5.3.4 Test Result:The spectrum analyzer plots are attached as below Application Type : BT EDR(2Mbps) Temperature : 31~32 Relative Humidity : 30~31% Test Engineer : Sun Channel Frequency Carrier Frequency Separation Limits Plot (MHz) ( MHz ) ( MHz ) Ref. No. 00 2402 1.002 0.832 Plot 1 39 2441 1.002 0.830 Plot 2 78 2480 1.002 0.830 Plot 3 Remark: Hopping Channel Separation shall be greater 2/3 of 20dB bandwidth. SPORTON International Inc. Page Number : 12 of 65

5.3.5 Hopping Channel Seperation Plot 1 * RBW 30 khz * VBW 100 khz Ref 20 dbm * Att 20 db * SWT 500 ms 20 Offset 19.3 db 10 Delta 2 [T1 ] 0.04 db 1.002000000 MHz Marker 1 [T1 ] -1.42 dbm 2.401996000 GHz A 1 PK MAXH 0 1 2 LVL -10-20 -30 3DB -40-50 -60-70 -80 Center 2.4025 GHz 300 khz/ Span 3 MHz Date: 21.APR.2008 04:00:55 SPORTON International Inc. Page Number : 13 of 65

Plot 2 * RBW 30 khz * VBW 100 khz Ref 20 dbm * Att 20 db * SWT 500 ms 20 Offset 19.3 db 10 Delta 2 [T1 ] -0.03 db 1.002000000 MHz Marker 1 [T1 ] -1.91 dbm 2.440996000 GHz A 1 PK MAXH 0 1 2 LVL -10-20 -30 3DB -40-50 -60-70 -80 Center 2.4415 GHz 300 khz/ Span 3 MHz Date: 21.APR.2008 04:01:49 SPORTON International Inc. Page Number : 14 of 65

Plot 3 Ref 20 dbm * RBW 30 khz * VBW 100 khz * Att 20 db * SWT 500 ms Delta 2 [T1 ] 0.05 db 1.002000000 MHz 20 10 Offset 19.3 db Marker 1 [T1 ] -1.38 dbm 2.478996000 GHz A 1 PK MAXH 0 1 2 LVL -10-20 -30 3DB -40-50 -60-70 -80 Center 2.4795 GHz 300 khz/ Span 3 MHz Date: 7.MAY.2008 23:25:51 SPORTON International Inc. Page Number : 15 of 65

5.4 Number of Hopping Frequency 5.4.1 Measuring Instruments As described in chapter 9 of this test report. 5.4.2 Test Procedure a. The output of EUT was connected to the spectrum analyzer by a low loss cable. b. Set RBW of spectrum analyzer to 100 KHz and VBW to 100 KHz. c. The number of hopping frequency used is defined as the device has the numbers of total channel. 5.4.3 Test Setup Layout EUT Spectrum Analyzer 5.4.4 Test Result:See spectrum analyzer plots below Application Type : BT EDR(2Mbps) Temperature : 31~32 Relative Humidity : 30~31% Test Engineer : Sun Number of Hopping Frequency Limits (Channel) (Channel) 79 15 SPORTON International Inc. Page Number : 16 of 65

5.4.5 Number of Hopping Frequency BT EDR(2Mbps) * RBW 100 khz * VBW 100 khz Ref 20 dbm * Att 20 db * SWT 500 ms 20 Offset 19.3 db 1 PK MAXH 10 0 A LVL -10-20 -30-40 3DB -50-60 -70-80 Start 2.4 GHz 8.35 MHz/ Stop 2.4835 GHz Date: 21.APR.2008 04:10:37 SPORTON International Inc. Page Number : 17 of 65

5.5 Hopping Channel Bandwidth 5.5.1 Measuring Instruments As described in chapter 9 of this test report. 5.5.2 Test Procedure a. The transmitter output was connected to the spectrum analyzer by a low loss cable. b. Set RBW of spectrum analyzer to 30 KHz and VBW to 300 KHz. c. The Hopping Channel bandwidth is defined as the total spectrum the power of which is higher than peak power minus 20 db. 5.5.3 Test Setup Layout EUT Spectrum Analyzer 5.5.4 Test Result:See spectrum analyzer plots below Application Type : BT EDR(2Mbps) Temperature : 31~32 Relative Humidity : 30~31% Test Engineer : Sun Channel Frequency Hopping Channel Bandwidth Plot (MHz) (MHz) Ref. No. 00 2402 1.248 Plot 1 39 2441 1.245 Plot 2 78 2480 1.245 Plot 3 SPORTON International Inc. Page Number : 18 of 65

5.5.5 Hopping Channel Bandwidth Plot 1 * RBW 30 khz * VBW 300 khz Ref 20 dbm * Att 20 db * SWT 500 ms 20 Offset 19.3 db 10 Delta 2 [T1 ] -0.44 db 1.248000000 MHz Marker 1 [T1 ] -21.67 dbm 2.401370000 GHz A 1 PK MAXH 0 D1-2.21 dbm LVL -10-20 1 D2-22.21 dbm 2-30 -40 3DB -50-60 -70-80 Center 2.402 GHz 150 khz/ Span 1.5 MHz Date: 21.APR.2008 03:56:31 SPORTON International Inc. Page Number : 19 of 65

Plot 2 Ref 20 dbm * RBW 30 khz * VBW 300 khz * Att 20 db * SWT 500 ms Delta 2 [T1 ] -0.46 db 1.245000000 MHz 20 10 Offset 19.3 db Marker 1 [T1 ] -22.45 dbm 2.440370000 GHz A 1 PK MAXH 0 D1-3.02 dbm LVL -10-20 1 D2-23.02 dbm 2-30 -40 3DB -50-60 -70-80 Center 2.441 GHz 150 khz/ Span 1.5 MHz Date: 7.MAY.2008 23:27:33 SPORTON International Inc. Page Number : 20 of 65

Plot 3 * RBW 30 khz * VBW 300 khz Ref 20 dbm * Att 20 db * SWT 500 ms 20 Offset 19.3 db 10 Delta 2 [T1 ] -0.12 db 1.245000000 MHz Marker 1 [T1 ] -21.53 dbm 2.479370000 GHz A 1 PK MAXH 0 D1-1.7 dbm LVL -10-20 1 D2-21.7 dbm 2-30 -40 3DB -50-60 -70-80 Center 2.48 GHz 150 khz/ Span 1.5 MHz Date: 21.APR.2008 03:57:58 SPORTON International Inc. Page Number : 21 of 65

5.6 Dwell Time of Each Frequency 5.6.1 Measuring Instruments As described in chapter 9 of this test report. 5.6.2 Test Procedure a. The transmitter output was connected to the spectrum analyzer by a low loss cable. b. Set RBW of spectrum analyzer to 1MHz and VBW to 1MHz. c. Set the center frequency on any frequency would be measure and set the frequency span to zero span. d. The calculate =79 * 0.4 * (1600/79) * t (t = the time duration of one single pulse ) 5.6.3 Test Setup Layout EUT Spectrum Analyzer 5.6.4 Test Result:See spectrum analyzer plots below Application Type : BT EDR(2Mbps) Temperature : 31~32 Relative Humidity : 30~31% Test Engineer : Sun Package Mode Average Hopping Channel Package Transfer Time Dwell Time Limit (us) (s) (s) DH1 8.8 448 0.125 0.4 DH3 4.4 1720 0.239 0.4 DH5 3.4 3020 0.324 0.4 Remark: 1. Dwell Time=79(channels) x 0.4(s) x average hopping channel x package transfer time 2. 79 channels come from the Hopping Channel number. 3. Average Hopping Channel = hops/sweep time 4. t: Package Transfer Time(us) SPORTON International Inc. Page Number : 22 of 65

5.6.5 Dwell Time 2DH1 (CH39) Ref 20 dbm * Att 20 db RBW 1 MHz * VBW 1 MHz SWT 2 ms Delta 3 [T1 ] -0.88 db 1.248000 ms 1 PK * CLRWR 20 10 0 Offset 19.3 db Marker 1 [T1 ] -51.56 dbm 228.000000 µs Delta 2 [T1 ] -0.23 db 448.000000 µs A SGL LVL -10-20 -30 3DB -40-50 1 2 3-60 -70-80 Center 2.441 GHz 200 µs/ Date: 21.APR.2008 04:03:31 SPORTON International Inc. Page Number : 23 of 65

Ref 20 dbm 20 Offset 19.3 db * Att 20 db RBW 1 MHz * VBW 1 MHz SWT 10 s 1 PK * CLRWR 10 0 A SGL LVL -10-20 -30-40 3DB -50-60 -70-80 Center 2.441 GHz 1 s/ Date: 21.APR.2008 04:05:34 SPORTON International Inc. Page Number : 24 of 65

2DH3 (CH39) Ref 20 dbm * Att 20 db RBW 1 MHz * VBW 1 MHz SWT 5 ms Delta 3 [T1 ] 2.19 db 2.500000 ms 1 PK * CLRWR 20 10 0 Offset 19.3 db Marker 1 [T1 ] -51.28 dbm 580.000000 µs Delta 2 [T1 ] 0.96 db 1.720000 ms A SGL LVL -10-20 -30 3DB -40-50 1 2 3-60 -70-80 Center 2.441 GHz 500 µs/ Date: 21.APR.2008 04:04:10 SPORTON International Inc. Page Number : 25 of 65

Ref 20 dbm 20 Offset 19.3 db * Att 20 db RBW 1 MHz * VBW 1 MHz SWT 10 s 1 PK * CLRWR 10 0 A SGL LVL -10-20 -30-40 3DB -50-60 -70-80 Center 2.441 GHz 1 s/ Date: 21.APR.2008 04:06:00 SPORTON International Inc. Page Number : 26 of 65

2DH5 (CH39) Ref 20 dbm * Att 20 db RBW 1 MHz * VBW 1 MHz SWT 10 ms Delta 3 [T1 ] -0.20 db 3.780000 ms 1 PK * CLRWR 20 10 0 Offset 19.3 db Marker 1 [T1 ] -49.45 dbm 1.960000 ms Delta 2 [T1 ] -0.19 db 3.020000 ms A SGL LVL -10-20 -30 3DB -40-50 1 2 3-60 -70-80 Center 2.441 GHz 1 ms/ Date: 21.APR.2008 04:04:47 SPORTON International Inc. Page Number : 27 of 65

Ref 20 dbm 20 Offset 19.3 db * Att 20 db RBW 1 MHz * VBW 1 MHz SWT 10 s 1 PK * CLRWR 10 0 A SGL LVL -10-20 -30-40 3DB -50-60 -70-80 Center 2.441 GHz 1 s/ Date: 21.APR.2008 04:05:11 SPORTON International Inc. Page Number : 28 of 65

5.7 Peak Output Power Measurement 5.7.1 Measuring Instruments As described in chapter 6 of this test report. 5.7.2 Test Procedure The antenna port (RF output) of the EUT was connected to the input (RF input) of a spectrum analyzer for BT measurement. RBW and VBW are set to 3MHz. The cable loss has been offset before testing. 5.7.3 Test Setup Layout EUT Power Meter 5.7.4 Test Result Application Type : BT Temperature : 31~32 Relative Humidity : 30~31% Test Engineer : Sun BT EDR(2Mbps) Channel Frequency Measured Output Power Limits (MHz) (dbm) (Watt/dBm) 00 2402-0.01 1W/30dBm 39 2441-0.57 1W/30dBm 78 2480 0.36 1W/30dBm SPORTON International Inc. Page Number : 29 of 65

5.7.5 Output Power Bluetooth(2Mbps) Mode : CH00 (2402MHz) * RBW 3 MHz * VBW 3 MHz Ref 20 dbm * Att 20 db * SWT 500 ms 20 Offset 19.3 db Marker 1 [T1 ] -0.01 dbm 2.401950000 GHz 10 A 1 PK MAXH 0 1 LVL -10-20 -30 3DB -40-50 -60-70 -80 Center 2.402 GHz 500 khz/ Span 5 MHz Date: 21.APR.2008 03:28:01 SPORTON International Inc. Page Number : 30 of 65

Bluetooth(2Mbps) Mode : CH39 (2441MHz) * RBW 3 MHz * VBW 3 MHz Ref 20 dbm * Att 20 db * SWT 500 ms 20 Offset 19.3 db Marker 1 [T1 ] -0.57 dbm 2.440910000 GHz 10 A 1 PK MAXH 0 1 LVL -10-20 -30 3DB -40-50 -60-70 -80 Center 2.441 GHz 500 khz/ Span 5 MHz Date: 21.APR.2008 03:28:15 SPORTON International Inc. Page Number : 31 of 65

Bluetooth(2Mbps) Mode : CH78 (2480MHz) * RBW 3 MHz * VBW 3 MHz Ref 20 dbm * Att 20 db * SWT 500 ms 20 Offset 19.3 db Marker 1 [T1 ] 0.36 dbm 2.480210000 GHz 10 A 1 PK MAXH 0 1 LVL -10-20 -30 3DB -40-50 -60-70 -80 Center 2.48 GHz 500 khz/ Span 5 MHz Date: 21.APR.2008 03:28:31 SPORTON International Inc. Page Number : 32 of 65

5.8 Conducted Emission 5.8.1 Measuring Instruments As described in chapter 6 of this test Report. 5.8.2 Test Procedures 1. The EUT was placed 0.4 meter from the conducting wall of the shielding room was kept at least 80 centimeters from any other grounded conducting surface. 2. Connect EUT to the power port of a line impedance stabilization network (LISN). 3. All the support units are connected to the other LISN. 4. The LISN provides 50 ohm coupling impedance for the measuring instrument. 5. The FCC states that a 50 ohm, 50 microhenry LISN should be used. 6. Both sides of AC line were checked for maximum conducted interference. 7. The frequency range from 150 KHz to 30 MHz was searched. 8. Set the test-receiver system to Peak Detect Function and specified bandwidth with Maximum Hold Mode. SPORTON International Inc. Page Number : 33 of 65

5.8.3 Test Data Temperature : 31~32 Relative Humidity : 30~31% Test Engineer : Darren Test Mode : Mode 1 The test that passed at minimum margin was marked by the frame in the following table. SPORTON International Inc. Page Number : 34 of 65

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Temperature : 31~32 Relative Humidity : 30~31% Test Engineer : Darren Test Mode : Mode 2 The test that passed at minimum margin was marked by the frame in the following table. SPORTON International Inc. Page Number : 36 of 65

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Temperature : 31~32 Relative Humidity : 30~31% Test Engineer : Darren Test Mode : Mode 3 The test that passed at minimum margin was marked by the frame in the following table. SPORTON International Inc. Page Number : 38 of 65

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Temperature : 31~32 Relative Humidity : 30~31% Test Engineer : Darren Test Mode : Mode 4 The test that passed at minimum margin was marked by the frame in the following table. SPORTON International Inc. Page Number : 40 of 65

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Temperature : 31~32 Relative Humidity : 30~31% Test Engineer : Darren Test Mode : Mode 5 The test that passed at minimum margin was marked by the frame in the following table. SPORTON International Inc. Page Number : 42 of 65

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Temperature : 31~32 Relative Humidity : 30~31% Test Engineer : Darren Test Mode : Mode 6 The test that passed at minimum margin was marked by the frame in the following table. SPORTON International Inc. Page Number : 44 of 65

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Temperature : 31~32 Relative Humidity : 30~31% Test Engineer : Darren Test Mode : Mode 7 The test that passed at minimum margin was marked by the frame in the following table. SPORTON International Inc. Page Number : 46 of 65

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5.9 Radiated Emission Measurement 5.9.1 Measuring Instruments As described in chapter 6 of this Report. 5.9.2 Test Procedures 1. The EUT was placed on a rotatable table top 0.8 meter above ground. 2. The EUT was set 3 meters from the interference receiving antenna which was mounted on the top of a variable height antenna tower. 3. The table was rotated 360 degrees to determine the position of the highest radiation. 4. The antenna is a broadband antenna and its height is varied between one meter and four meters above ground to find the maximum value of the field strength for both horizontal polarization and vertical polarization of the antenna. 5. For each suspected emission, the EUT was arranged to its worst case and then tune the antenna tower (from 1 m to 4 m) and turntable (from 0 degree to 360 degrees) to find the maximum reading. 6. Set the test-receiver system to Peak or CISPR quasi-peak Detect Function and specified bandwidth with Maximum Hold Mode. 7. For testing below 1GHz, If the emission level of the EUT in peak mode was 3 db lower than the limit specified, then testing will be stopped and peak values of EUT will be reported, otherwise, the emissions will be repeated one by one using the quasi-peak method and reported. 8. For testing above 1GHz, the emission level of the EUT in peak mode was 20dB lower than average limit (that means the emission level in average 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. SPORTON International Inc. Page Number : 48 of 65

5.9.3 Typical Test Setup Layout of Radiated Emission Antenna EUT 1~4m 3 m 0.8 M Ground Plane TurnTable Spectrum Analyzer / Test Receiver SPORTON International Inc. Page Number : 49 of 65

5.9.4 Test Data Temperature : 26~28 Relating Humidity : 55~57% Test Engineer : Sun Test Mode : Mode 1 Polarization : Horizontal (30MHz-1GHz) The test that passed at minimum margin was marked by the boldface in the following table. SPORTON International Inc. Page Number : 50 of 65

Polarization : Horizontal (1GHz-25GHz) The test that passed at minimum margin was marked by the boldface in the following table. Remark: #4 and #5 are Fundamental Signals SPORTON International Inc. Page Number : 51 of 65

Polarization : Vertical (30MHz-1GHz) The test that passed at minimum margin was marked by the boldface in the following table. SPORTON International Inc. Page Number : 52 of 65

Polarization : Vertical (1GHz-25GHz) The test that passed at minimum margin was marked by the boldface in the following table. Remark: #4 and #5 are Fundamental Signals SPORTON International Inc. Page Number : 53 of 65

Test Mode : Mode 2 Polarization : Horizontal (30MHz-1GHz) The test that passed at minimum margin was marked by the boldface in the following table. SPORTON International Inc. Page Number : 54 of 65

Polarization : Horizontal (1GHz-25GHz) The test that passed at minimum margin was marked by the boldface in the following table. Remark: #4 and #5 are Fundamental Signals SPORTON International Inc. Page Number : 55 of 65

Polarization : Vertical (30MHz-1GHz) The test that passed at minimum margin was marked by the boldface in the following table. SPORTON International Inc. Page Number : 56 of 65

Polarization : Vertical (1GHz-25GHz) The test that passed at minimum margin was marked by the boldface in the following table. Remark: #4 and #5 are Fundamental Signals SPORTON International Inc. Page Number : 57 of 65

Test Mode : Mode 3 Polarization : Horizontal (30MHz-1GHz) The test that passed at minimum margin was marked by the boldface in the following table. SPORTON International Inc. Page Number : 58 of 65

Polarization : Horizontal (1GHz-25GHz) The test that passed at minimum margin was marked by the boldface in the following table. Remark: #3 and #4 are Fundamental Signals SPORTON International Inc. Page Number : 59 of 65

Polarization : Vertical (30MHz-1GHz) The test that passed at minimum margin was marked by the boldface in the following table. SPORTON International Inc. Page Number : 60 of 65

Polarization : Vertical (1GHz-25GHz) The test that passed at minimum margin was marked by the boldface in the following table. Remark: #4 and #5 are Fundamental Signals SPORTON International Inc. Page Number : 61 of 65

5.10 Antenna Requirements 5.10.1 Standard Applicable For intentional device, according to FCC 47 CFR Section 15.203, an intentional radiator shall be designed to ensure that no other antenna except assembled by the responsible party shall be used with the device. And according to FCC 47 CFR Section 15.247 (b), if directional gain of transmitting antennas is greater than 6dBi, the power shall be reduced by the same level in db comparing to gain minus 6dBi. 5.10.2 Antenna Connected Construction The antenna used in this product is PIFA Antenna for BT. It is considered to meet antenna requirement of FCC. 5.10.3 Antenna Gain The antenna gain of EUT is less than 6 dbi. Therefore, it is not necessany to reduce maximum peak output powen limit. SPORTON International Inc. Page Number : 62 of 65

6. List of Measuring Equipments Instrument Manufacturer Model No. Serial No. Characteristics Calibration Date Due Date Remark EMC Receiver R&S ESCS 30 100359 9kHz 2.75GHz Mar. 03, 2008 Mar. 02, 2009 LISN MessTec NNB-2/16Z 99079 9kHz 30MHz Mar. 31, 2008 Mar. 29, 2009 Conduction (CO04-HY) Conduction (CO04-HY) LISN (Support Unit) EMCO 3810/2NM 9703-1839 9kHz 30MHz Mar. 22, 2008 Mar. 21, 2009 Conduction (CO04-HY) RF Cable-CON UTIFLEX 3102-26886-4 CB049 9kHz 30MHz Apr. 20, 2008 Apr. 19, 2009 ISN SCHAFFNER ISN T400 21653 9kHz 30MHz Mar. 27, 2008 Mar. 26, 2009 EMI Filter LINDGREN LRE-2030 2651 < 450 Hz N/A N/A Spectrum Analyzer Agilent E4408B MY44211028 9KHz-26.5GHz Oct. 17, 2007 Oct. 16, 2008 EMI Test Receiver R&S ESCS30 100356 9KHz-2.75GHz Jul. 26, 2007 Jul. 25, 2008 Bilog Antenna SCHAFFNER CBL6112B 2885 30MHz -2GHz Dec. 01, 2007 Nov. 30, 2008 Double Ridge Com-Power AH118 071025 1G~18G Jun. 04, 2007 Jun. 03, 2008 Horn Antenna SHF-EHF Horn SCHWARZBECK BBHA 9170 9170-251 14G - 40G Oct. 17, 2007 Oct. 16, 2008 Pre Amplifier Agilent 8449B 3008A01917 1G - 26.5G Nov. 22, 2007 Nov. 21, 2008 PA303-SMA-0 Pre Amplifier EMEC PA303 100K~3GHz Nov. 26, 2007 Nov. 25, 2008 59 Base Station R & S CMU200 103937 Third-Band Oct. 19, 2007 Oct. 18, 2008 Simulator Conduction (CO04-HY) Conduction (CO04-HY) Conduction (CO04-HY) Radiation (03CH06-HY) Radiation (03CH06-HY) Radiation (03CH06-HY) Radiation (03CH06-HY) Radiation (03CH06-HY) Radiation (03CH06-HY) Radiation (03CH06-HY) Radiation (03CH06-HY) SPORTON International Inc. Page Number : 63 of 65

7. Uncertainty Evaluation Uncertainty of Conducted Emission Measurement (150 KHz ~ 30 MHz) Contribution db Uncertainty of xi Probability Distribution u( x i ) Receiver reading 0.10 Normal(k=2) 0.05 Cable loss 0.10 Normal(k=2) 0.05 AMN insertion loss 2.50 Rectangular 0.63 Receiver Spec 1.50 Rectangular 0.43 Site imperfection 1.39 Rectangular 0.80 Mismatch +0.34/-0.35 U-shape 0.24 Combined standard uncertainty Uc(y) 1.13 Measuring uncertainty for a level of confidence of 95% U=2Uc(y) 2.26 Uncertainty of Radiated Emission Measurement (30 MHz ~ 1000 MHz) Contribution db Uncertainty of xi Probability Distribution u ( x i ) Receiver reading 0.11 Normal(k=2) 0.06 Antenna factor calibration 0.91 Normal(k=2) 0.46 Cable loss calibration 0.12 Normal(k=2) 0.06 Pre Amplifier Gain calibration 0.15 Normal(k=2) 0.08 RCV/SPA specification 2.50 Rectangular 0.72 Antenna Factor Interpolation for Frequency 1.00 Rectangular 0.29 Site imperfection 1.52 Rectangular 0.88 Mismatch +0.45/-0.48 U-shaped 0.33 Combined standard uncertainty Uc(y) 1.30 Measuring uncertainty for a level of confidence of 95% U=2Uc(y) 2.60 SPORTON International Inc. Page Number : 64 of 65

Uncertainty of Radiated Emission Measurement (1 GHz ~ 40 GHz) x Uncertainty of i Contribution Probability db Distribution u ( x i ) Ci Ci *u( x i ) Receiver reading ±0.10 Normal(k=1) 0.10 1 0.10 Antenna factor calibration ±1.70 Normal(k=2) 0.85 1 0.85 Cable loss calibration ±0.50 Normal(k=2) 0.25 1 0.25 Receiver Correction ±2.00 Rectangular 1.15 1 1.15 Antenna Factor Directional ±1.50 Rectangular 0.87 1 0.87 Site imperfection ±2.80 Triangular 1.14 1 1.14 Mismatch Receiver VSWR Γ1= 0.197 Antenna VSWR Γ2= 0.194 Uncertainty=20log(1-Γ1*Γ2*Γ3) +0.34/-0.35 U-shaped 0.244 1 0.244 Combined standard uncertainty Uc(y) 2.36 Measuring uncertainty for a level of confidence of 95% U=2Uc(y) 4.72 The measured result is :y dbuv ± U db for a level of confidence of approximately 95%,( k= 2 ) SPORTON International Inc. Page Number : 65 of 65