certificateebiz.aopen.com/aoeb-news/certificate/uploadfiles/... · 2006. 5. 4. · certificate test...

No. 65, Ku Dai Keng St., Hsichih, Taipei 221, R.O. C. Tel: 886-2-2646-2550 FAX: 886-2-26464641No. 120, Lane 180, San Ho Tsuen, Hsin Ho Rd. Lung-Tan Hsiang,Tao Yuan County 325, Taiwan, R.O.C. Tel: 886-3-407-1718 FAX:886-3-407-1738

CertificateTest Report No.: ISL-05LE134FBIssue Date: 2005/05/23

Product Name: Personal ComputerModel: EZ945;EX945;EY945Responsible Party AOpen Inc. Address: N0. 83 , Ko Waug Road, Gau Yuan Tsun, Lung Tan Hsiang,

Tao-Yuan Hsien 325,Taiwan, R. O. C.

Contact Person: Gavin Lin / PM Director

FCC Rule Part(s): FCC Rules Part 15 Subpart B Class BANSI C63.4-2003ANSI C63.4-2003

We, International Standards Laboratory, certify that

The device bearing the trade name and model specified above has been shown to comply with theapplicable technical standards as indicated in the measurement report and was tested inaccordance with the measurement procedures specified. (see Test Report if any modificationswere made for compliance).

I attest to the accuracy of data and all measurements reported herein were performed by me orwere made under my supervision and are correct to the best of my knowledge and belief. Iassume full responsibility for the completeness of these measurements and vouch for thequalifications of all persons taking them.

We certify that no party to this application has been denied the FCC benefits pursuant to Section5301 of the Anti-Drug Abuse Act of 1988.21 U.S.C. 853(a)

---------------------------------------Eddy Hsiung/DirectorInternational Standards Laboratory

Declaration of Conformity

This device complies with Part 15 of the FCC Rules. The test result has been shown inthe ISL test report with number ISL-05LE134FB. Operation is subject to the followingtwo conditions: (1) this device may not cause harmful interference, and (2) this devicemust accept any interference received, including interference that may cause undesiredoperation.

Product Name: Personal Computer

Model: EZ945;EX945;EY945

Name of Responsible Party: AOpen Inc.

Address of Responsible Party: N0. 83 , Ko Waug Road, Gau Yuan Tsun,Lung Tan Hsiang,Tao-Yuan Hsien 325,Taiwan, R. O. C.

Contact Person: Gavin Lin / PM Director

Phone No.: 03-407-1666

Fax No.: 03-407-1649

We, AOpen Inc., hereby declare that the equipment bearing the trade name and modelnumber specified above was tested conforming to the applicable FCC Rules under the mostaccurate measurement standards possible, and that all the necessary steps have been takenand are in force to assure that production units of the same equipment will continue tocomply with the Commissions requirements.

---------------------------Gavin Lin / PM DirectorAOpen Inc.Issue Date: 2005/05/23

Report Number: ISL-05LE134FB Issue Date: 2005/05/23HC LAB:NVLAP:200234-0;VCCI: R-341,C-354;NEMKO:ELA 113a,113c;BSMI:SL2-IN-E-0037;SL2-R1-E-0037;CNLA:1178LT LAB:NVLAP:200234-0;VCCI: R-1435,C-1440;NEMKO:ELA 113b,113d;BSMI:SL2-IN-E-0013;CNLA:0997ISL-T10-R4-10

TEST REPORTFOR

DECLARATION OF CONFORMITY

of

Product Name

Personal Computer

Model

EZ945;EX945;EY945

Applied by:

AOpen Inc.N0. 83 , Ko Waug Road, Gau Yuan Tsun, Lung Tan Hsiang,

Tao-Yuan Hsien 325,Taiwan, R. O. C.

Test Performed by:International Standards Laboratory

Hsichih LAB (V) Lung-Tan LABSite Registration No.: (NVLAP Lab. Code: 200234-0) Site Registration No.: (NVLAP Lab. Code: 200234-0)

No. 65, Ku Dai Keng St. No. 120, Lane 180, San Ho Tsuen, Hsin Ho Rd.Hsichih, Taipei Hsien 22117 Lung-Tan Hsiang, Tao Yuan County 325

Taiwan, R.O.C. Taiwan, R.O.CTel:(02)2646-2550 Tel:(03)407-1718Fax:(02)2646-4641 Fax:(03)407-1738


International Standards Laboratory Report Number: ISL-05LE134FBHC LAB: NVLAP: 200234-0; VCCI: R-341, C-354; NEMKO: ELA 113a, 113c; BSMI: SL2-IN-E-0037, SL2-R1-E-0037; CNLA:1178LT LAB: NVLAP: 200234-0; VCCI: R-1435, C-1440; NEMKO: ELA 113b,113d; BSMI: SL2-IN-E-0013; CNLA:0997

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Contents of Report

1. General .................................................................................................. 11.1 Certification of Accuracy of Test Data...................................................................... 11.2 Applicant Information............................................................................................... 21.3 Operation Environment............................................................................................. 2

2. Powerline Conducted Emissions ................................................. 32.1 Configuration and Procedure .................................................................................... 3

2.1.1 EUT Configuration.................................................................................................................... 32.1.2 Test Procedure...........................................................................................................................32.1.3 EMI Receiver/Spectrum Analyzer Configuration (for the frequencies tested) .............................3

2.2 Test Data: Test Configuration 1................................................................................ 42.3 Test Data: Test Configuration 2................................................................................ 6

3. Open Field Radiated Emissions ................................................... 83.1 Configuration and Procedure .................................................................................... 8

3.1.1 EUT Configuration.................................................................................................................... 83.1.2 Test Procedure...........................................................................................................................83.1.3 Spectrum Analyzer Configuration (for the frequencies tested) ................................................... 8

3.2 Test Data: Test Configuration 1................................................................................ 93.3 Test Data: Test Configuration 2.............................................................................. 11

4. Appendix ............................................................................................ 134.1 Appendix A: Warning Labels .................................................................................. 134.2 Appendix B: Warning Statement............................................................................. 144.3 Appendix C: Measurement Procedure for Powerline Conducted Emissions ............. 154.4 Appendix D: Test Procedure for Radiated Emissions .............................................. 164.5 Appendix E: Test Equipment .................................................................................. 17

4.5.1 Test Equipment List ................................................................................................................ 174.5.2 Software for Controlling Spectrum/Receiver and Calculating Test Data................................... 18

4.6 Appendix F: Layout of EUT and Support Equipment.............................................. 194.6.1 General Conducted Test Configuration.................................................................................... 194.6.2 General Radiation Test Configuration ..................................................................................... 20

4.7 Appendix G: Description of Support Equipment ..................................................... 214.7.1 Description of Support Equipment........................................................................................... 214.7.2 Software for Controlling Support Unit ..................................................................................... 274.7.3 I/O Cable Condition of EUT and Support Units ....................................................................... 28

4.8 Appendix H: Description of Equipment Under Test ................................................ 304.9 Appendix I: Uncertainty of Measurement................................................................ 324.10 Appendix J: Photographs of EUT Configuration Test Set Up............................... 374.11 Appendix K: Photographs of EUT Please refer to the File of ISL-05LE134P .... 40



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1. General

1.1 Certification of Accuracy of Test Data

Standards: ANSI C63.4-2003, CFR 47 Part 15 Subpart B Section15.107 and 15.109Industry Canada Interference-Causing Equipment StandardICES-003 Issue 4: 2004

Equipment Tested: Personal Computer

Model: EZ945;EX945;EY945

Applied by AOpen Inc.

Sample received Date: 2005/05/12

Final test Date : refer to the date of test data

Test Result PASS

Test Engineer:

______________________

Jason Liao

All the tests in this report have been performed and recorded in accordance with the standardsdescribed above and performed by an independent electromagnetic compatibility consultant,International Standards Laboratory.

The test results contained in this report accurately represent the radiated and power line conductedelectromagnetic emissions generated by sample equipment under test at the time of the test.

The sample equipment tested as described in this report is in compliance with the limits of abovestandards.

Approve & Signature

---------------------------------------Eddy Hsiung/Director

Test results given in this report apply only to the specific sample(s) tested under stated test conditions.This report shall not be reproduced other than in full without the explicit written consent of ISL. This report totally

contains 41 pages, including 1 cover page , 1 contents page, and 39 pages for the test description.This report must not be use to claim product endorsement by NVLAP or any agency of the U.S. Government.

This test data shown below is traceable to NIST or national or international standard.International Standards Laboratory certifies that no party to this application has been denied the FCC benefits

pursuant to Section 5301 of the Anti-Drug Abuse Act of 1988, 21 U.S.C. 853(a).



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1.2 Applicant Information

Applicant: AOpen Inc.N0. 83 , Ko Waug Road, Gau Yuan Tsun, Lung Tan Hsiang,Tao-Yuan Hsien 325,Taiwan, R. O. C.

1.3 Operation Environment

Test Site: Chamber 02; Conduction 02

Test Distance 10M

Temperature refer to each site test dataHumidity: refer to each site test data

input power: Conduction input power: AC 110 V / 60 HzRadiation input power: AC 110 V / 60 Hz



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2. Powerline Conducted Emissions

2.1 Configuration and Procedure

2.1.1 EUT Configuration

The EUT was set up on the non-conductive table that is 1.0 by 1.5 meter, 80cm aboveground. The wall was 40cm to the rear of the EUT.

Power to the EUT was provided through the LISN. The impedance vs. frequencycharacteristic of the LISN is complied with the limit of standards used.

Both lines (neutral and hot) were connected to the LISN in series at testing. Acoaxial-type connector which provides one 50 ohms impedance termination was connected tothe test instrument. The excess length of the power cord was folded back and forth at the centerof the lead to form a bundle 30cm to 40cm in length.

Any changes made to the configuration or modifications made to EUT during testing,are noted in the following test record.

If EUT has an extra auxiliary AC outlet which can provide power to an externalmonitor, all measurements will be made with the monitor power from EUT-mounted AC outletand then from floor-mounted AC outlet.

2.1.2 Test Procedure

The system was set up as described above, with the EMI diagnostic software running.The main power line conducted EMI tests were run on both hot and neutral conductors of thepower cord and the results were recorded. The effect of varying the position of the interfacecables has been investigated to find the configuration that produces maximum emission.

At the frequencies where the peak values of the emissions were higher than 6dß belowthe applicable limits, the emissions were also measured with the quasi-peak detectors. At thefrequencies where the quasi-peak values of the emissions were higher than 6dß below theapplicable average limits, the emissions were also measured with the average detectors.

The highest emissions were analyzed in details by operating the spectrum analyzer infixed tuned mode to determine the nature of the emissions and to provide information whichcould be useful in reducing their amplitude.

2.1.3 EMI Receiver/Spectrum Analyzer Configuration (for the frequencies tested)Frequency Range: 150KHz~30MHzDetector Function: Quasi-Peak / Average ModeResolution Bandwidth: 9KHz



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2.2 Test Data: Test Configuration 1

Table 2.2.1 Power Line Conducted Emissions (Hot)Operator: Jason Liao

Temperature (C): 2510:28:34 AM, Monday, May 16, 2005 Humidity (%): 49

Frequency LISN Loss Cable Loss QP Corrct. QP Limit QP Margin AVE Corrct. AVE Limit AVE Margin MHz (dB) (dB) Amp.(dBuV) (dBuV) (dB) Amp.(dBuV) (dBuV) (dB)

0.16565 0.10 0.03 37.80 65.55 -27.75 32.09 55.55 -23.460.43463 0.11 0.08 32.71 57.87 -25.16 30.76 47.87 -17.110.49678 0.12 0.07 30.98 56.09 -25.12 28.15 46.09 -17.940.5641 0.13 0.07 34.52 56.00 -21.48 29.64 46.00 -16.360.82783 0.17 0.07 23.85 56.00 -32.15 10.06 46.00 -35.9416.166 0.49 0.31 45.67 60.00 -14.33 44.50 50.00 -5.5016.2269 0.50 0.31 49.67 60.00 -10.33 45.17 50.00 -4.8321.632 0.83 0.34 37.22 60.00 -22.78 33.11 50.00 -16.8923.647 0.87 0.33 35.63 60.00 -24.37 29.29 50.00 -20.7124.045 0.88 0.33 43.23 60.00 -16.77 39.98 50.00 -10.02

* Note:Margin = Corrected Amplitude - LimitCorrected Amplitude = Receiver Reading + LISN Loss + Cable LossA margin of -8dB means that the emission is 8dB below the limit



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Table 2.2.2 Power Line Conducted Emissions (Neutral)Operator: Jason Liao AOPEN



0.16378 0.10 0.03 40.34 65.61 -25.27 39.21 55.61 -16.390.42733 0.10 0.08 36.09 58.08 -21.99 35.29 48.08 -12.790.49233 0.12 0.07 30.55 56.22 -25.67 24.93 46.22 -21.290.55798 0.13 0.07 35.79 56.00 -20.21 35.25 46.00 -10.750.82003 0.17 0.07 23.38 56.00 -32.62 13.78 46.00 -32.2216.2283 0.15 0.31 50.12 60.00 -9.88 46.01 50.00 -3.9917.7238 0.21 0.32 35.86 60.00 -24.14 32.59 50.00 -17.4121.6327 0.37 0.34 37.28 60.00 -22.72 32.28 50.00 -17.7223.1292 0.43 0.33 49.17 60.00 -10.83 46.05 50.00 -3.95




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Table 2.3.1 Power Line Conducted Emissions (Hot)Operator: Jason Liao



0.16219 0.10 0.03 48.89 65.65 -16.77 36.21 55.65 -19.450.4236 0.10 0.08 36.51 58.18 -21.68 35.46 48.18 -12.730.48851 0.11 0.07 31.41 56.33 -24.92 25.33 46.33 -21.000.52071 0.12 0.07 31.83 56.00 -24.17 29.36 46.00 -16.640.55413 0.13 0.07 36.49 56.00 -19.51 35.84 46.00 -10.16 17.09 0.57 0.32 44.66 60.00 -15.34 39.10 50.00 -10.90

19.9278 0.79 0.34 34.24 60.00 -25.76 27.36 50.00 -22.6421.6328 0.83 0.34 32.27 60.00 -27.73 27.20 50.00 -22.8022.5705 0.85 0.33 34.59 60.00 -25.41 32.77 50.00 -17.2322.7896 0.86 0.33 42.85 60.00 -17.15 41.97 50.00 -8.03




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Table 2.3.2 Power Line Conducted Emissions (Neutral)Operator: Jason Liao AOPEN



0.16426 0.10 0.03 41.98 65.59 -23.61 41.33 55.59 -14.260.19598 0.10 0.04 39.10 64.69 -25.58 30.09 54.69 -24.590.42666 0.10 0.08 37.26 58.10 -20.84 36.79 48.10 -11.300.49298 0.12 0.07 30.18 56.20 -26.02 24.98 46.20 -21.220.55698 0.13 0.07 36.85 56.00 -19.15 36.27 46.00 -9.736.98395 0.17 0.17 27.25 60.00 -32.75 19.59 50.00 -30.4116.2274 0.15 0.31 34.48 60.00 -25.52 31.26 50.00 -18.7421.6341 0.37 0.34 30.53 60.00 -29.47 25.29 50.00 -24.7121.8215 0.37 0.34 30.29 60.00 -29.71 24.77 50.00 -25.2322.5712 0.40 0.33 34.57 60.00 -25.43 31.64 50.00 -18.36




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3. Open Field Radiated Emissions

3.1 Configuration and Procedure

3.1.1 EUT Configuration

The equipment under test was set up on a non-conductive table 80cm above ground,on a 10 meter open field or 10 meter chamber. The excess length of the power cord was foldedback and forth at the center of the lead to form a bundle 30cm to 40cm in length.

Any changes made to the configuration, or modifications made to the EUT, duringtesting are noted in the following test record.

If EUT has an extra auxiliary AC outlet which can provide power to an externalmonitor, all measurements will be made with the monitor power from EUT-mounted AC outletand then from floor-mounted AC outlet.

3.1.2 Test Procedure

The system was set up as described above, with the EMI diagnostic software running.The maximum emission was measured by varying the height of antenna and then by rotating theturntable. Both polarization of antenna, horizontal and vertical, were measured. The highest emissions between 30 MHz to 1000 MHz were analyzed in details by operatingthe spectrum analyzer and/or EMI receiver in quasi-peak mode to determine the precise amplitude ofthe emissions. While doing so, the interconnecting cables and major parts of the system were movedaround, the antenna height was varied between one and four meters, its polarization was variedbetween vertical and horizontal, and the turntable was slowly rotated, to maximize the emission. Thehighest emissions of frequency higher than 1000 MHz was analyzed in peak mode and/or averagemode to determine the precise amplitude of the emission.

3.1.3 Spectrum Analyzer Configuration (for the frequencies tested)

Frequency Range: 30MHz--1000MHzDetector Function: Quasi-Peak ModeResolution Bandwidth: 120KHz

Frequency Range: Above 1000MhzDetector Function: Peak/Average ModeResolution Bandwidth: 1MHz



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Table 3.2.1 Radiated Emissions (Horizontal)Operator: Jason Liao

Temperature (C): 2506:56:27 PM, Friday, May 13, 2005 Humidity (%): 52

Frequency RX_R Ant_F Cab_L PreAmp Emission Limit Margin Ant.Pos Table PosMHz dBuV dB/m dB dB dBuV/m dBuV/m dB cm deg.

179.38 13.29 8.59 2.58 0.00 24.46 30.00 -5.54 192 149 194.9 13.88 8.70 2.66 0.00 25.24 30.00 -4.76 346 174209.45 15.10 8.43 2.78 0.00 26.30 30.00 -3.70 260 145224.97 11.48 8.65 2.89 0.00 23.01 30.00 -6.99 190 305285.11 15.55 13.20 3.41 0.00 32.17 37.00 -4.83 222 321314.21 14.55 13.80 3.76 0.00 32.11 37.00 -4.89 130 154 359.8 13.17 14.61 4.17 0.00 31.96 37.00 -5.04 144 106540.22 9.43 18.55 5.46 0.00 33.43 37.00 -3.57 342 120639.16 6.57 18.98 6.23 0.00 31.78 37.00 -5.22 198 131934.04 3.30 20.88 8.32 0.00 32.50 37.00 -4.50 237 1081798.2 42.98 26.39 2.45 34.78 37.04 54.00 -16.96 100 183

2666.34 43.35 29.13 1.39 35.05 38.81 54.00 -15.19 100 172

* Note:Margin = Corrected Amplitude – LimitCorrected Amplitude = Radiated Amplitude + Antenna Correction Factor + Cable Loss – Pre-Amplifier GainA margin of -8dB means that the emission is 8dB below the limitBILOG Antenna Distance: 10 meter, Frequency: under 1000MHzHorn Antenna Distance: 3 meter, Frequency: 1000MHz—18GHz



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Table 3.2.2 Radiated Emissions (Vertical)

Operator: Jason Liao Temperature (C): 25

07:29:52 PM, Friday, May 13, 2005 Humidity (%): 52


62.01 19.27 5.40 1.37 0.00 26.04 30.00 -3.96 193 144109.54 7.45 11.64 2.03 0.00 21.12 30.00 -8.88 115 182209.45 15.33 8.43 2.78 0.00 26.53 30.00 -3.47 260 145224.97 11.58 8.65 2.89 0.00 23.12 30.00 -6.88 190 305540.22 5.94 18.55 5.46 0.00 29.94 37.00 -7.06 342 120639.16 6.24 18.98 6.23 0.00 31.45 37.00 -5.55 198 131659.53 4.16 19.00 6.37 0.00 29.52 37.00 -7.48 170 109750.71 6.20 20.10 6.99 0.00 33.30 37.00 -3.70 393 214791.45 3.22 20.10 7.28 0.00 30.60 37.00 -6.40 232 297979.63 2.34 21.16 8.71 0.00 32.21 37.00 -4.79 206 521796.2 47.70 26.39 2.45 34.78 41.76 54.00 -12.24 100 1672912.1 45.23 29.89 1.43 34.84 41.72 54.00 -12.28 100 185




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Table 3.3.1 Radiated Emissions (Horizontal)Operator: Jason Liao

Temperature (C): 2507:59:09 PM, Friday, May 13, 2005 Humidity (%): 52


119.24 13.20 11.70 2.06 0.00 26.96 30.00 -3.04 210 20179.38 14.41 8.59 2.58 0.00 25.59 30.00 -4.41 192 149 194.9 14.91 8.70 2.66 0.00 26.26 30.00 -3.74 346 174209.45 15.49 8.43 2.78 0.00 26.70 30.00 -3.30 260 145224.97 12.98 8.65 2.89 0.00 24.52 30.00 -5.48 190 305329.73 10.52 14.02 3.92 0.00 28.46 37.00 -8.54 135 124491.72 5.25 17.30 5.20 0.00 27.75 37.00 -9.25 178 213540.22 7.26 18.55 5.46 0.00 31.26 37.00 -5.74 342 120639.16 6.36 18.98 6.23 0.00 31.57 37.00 -5.43 198 131989.33 2.56 21.18 8.78 0.00 32.52 37.00 -4.48 206 35

1833.96 45.38 26.53 2.48 34.85 39.54 54.00 -14.46 100 1692664.34 43.77 29.13 1.39 35.05 39.23 54.00 -14.77 100 184




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Table 3.3.2 Radiated Emissions (Vertical)

Operator: Jason Liao Temperature (C): 25

07:59:09 PM, Friday, May 13, 2005 Humidity (%): 52

Frequency RX_R Ant_F Cab_L PreAmp Emission Limit Margin Ant.Pos Table PosMHz dBuV dB/m dB dB dBuV/m dBuV/m dB cm deg. 49.4 18.20 7.59 1.19 0.00 26.98 30.00 -3.02 368 137

149.31 9.74 9.46 2.33 0.00 21.54 30.00 -8.46 189 335 194.9 13.22 8.70 2.66 0.00 24.58 30.00 -5.42 346 174209.45 13.20 8.43 2.78 0.00 24.41 30.00 -5.59 260 145329.73 10.34 14.02 3.92 0.00 28.28 37.00 -8.72 135 124540.22 5.98 18.55 5.46 0.00 29.98 37.00 -7.02 342 120639.16 5.33 18.98 6.23 0.00 30.53 37.00 -6.47 198 131 747.8 6.49 20.05 6.98 0.00 33.52 37.00 -3.48 383 209839.95 3.89 20.50 7.73 0.00 32.12 37.00 -4.88 200 153959.26 2.59 21.12 8.54 0.00 32.25 37.00 -4.75 205 90

1596.41 46.41 25.58 2.30 34.39 39.91 54.00 -14.09 100 1902398.61 45.28 28.30 1.43 35.20 39.81 54.00 -14.19 100 181




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4. Appendix

4.1 Appendix A: Warning Labels

Label Requirements

A Class B digital device subject to Declaration of Conformity of FCC shall carry a labelwhich includes the following statement:

* * * W A R N I N G * * *

This device complies with Part 15 of the FCC Rules.Operation is subject to the following two conditions: (1)this device may not cause harmful interference, and (2)this device must accept any interference received,including interference that may cause undesiredoperation.

The sample label shown shall be permanently affixed at a conspicuous location on the device andbe readily visible to the user at the time of purchase.



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4.2 Appendix B: Warning Statement

Statement Requirements

The operators manual for a Class B digital device shall contain the following statementsor their equivalent:

* * * W A R N I N G * * *

This equipment has been tested and found to comply with the limits for a Class B digital device,pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonableprotection against harmful interference when the equipment is operated in a residentialinstallation. This equipment generates, uses, and can radiate radio frequency energy and if notinstalled and used in accordance with the instruction manual may cause harmful interference toradio communications. However, there is no guarantee that interference will not occur in aparticular installation. If this equipment does cause harmful interference to radio or televisionreception, which can be determined by turning the equipment off and on, the user is encouragedto try to correct the interference by one or more of the following measures:

• Reorient or relocate the receiving antenna.

• Increase the separation between the equipment and receiver.

• Connect the equipment into an outlet on a circuit different from that to which the receiver isconnected.

• Consult the dealer or an experienced radio TV technician for help.

Notice: The changes or modifications not expressly approved by the party responsible forcompliance could void the user's authority to operate the equivalent.

* * * * * * * * *

If the EUT was tested with special shielded cables the operators manual for such product shallalso contain the following statements or their equivalent:

Shielded interface cables and/or AC power cord, if any, must be used in order to comply with theemission limits.



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4.3 Appendix C: Measurement Procedure for Powerline Conducted Emissions

The measurements are performed in a 3.5m x 3.4m x 2.5m shielded room, which referredas Conduction 01 test site, or a 3m x 3m x 2.3m test site, which referred as Conduction 02 testsite. The EUT was placed on non-conduction 1.0m x 1.5m table, which is 0.8 meters above anearth-grounded.

Power to the EUT was provided through the LISN which has the Impedance(50ohm/50uH) vs. Frequency Characteristic in accordance with the standard. Power to theLISNs were filtered to eliminate ambient signal interference and these filters were bonded to theground plane. Peripheral equipment required to provide a functional system (supportequipment) for EUT testing was powered from the second LISN through a ganged, metal poweroutlet box which is bonded to the ground plane at the LISN.

If the EUT is supplied with a flexible power cord, the power cord length in excess of thedistance separating the EUT from the LISN shall be folded back and forth at the center of thelead so as to form a bundle not exceeding 40cm in length. If the EUT is provided with apermanently coiled power cord, bundling of the cord is not required. If the EUT is suppliedwithout a power cord, the EUT shall be connected to the LISN by a power cord of the typespecified by the manufacturer which shall not be longer than 1 meter. The excess power cordshall be bundled as described above. If a non-flexible power cord is provided with the EUT, itshall be cut to the length necessary to attach the EUT to the LISN and shall not be bundled.

The interconnecting cables were arranged and moved to get the maximum measurement.Both the line of power cord, hot and neutral, were measured.

The highest emissions were analyzed in details by operating the spectrum analyzer infixed tuned mode to determine the nature of the emissions and to provide information whichcould be useful in reducing their amplitude.



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4.4 Appendix D: Test Procedure for Radiated Emissions

Preliminary Measurements in the Anechoic Chamber

The radiated emissions are initially measured in the anechoic chamber at a measurementdistance of 3 meters. Desktop EUT are placed on a wooden stand 0.8 meter in height. Themeasurement antenna is 3 meters from the EUT. The test setup in anechoic chamber is the same asopen site. The turntable rotated 360°C. The antenna height is varied from 1-2.5m. The primaryobjective of the radiated measurements in the anechoic chamber is to identify the frequency spectrumin the absence of the electromagnetic environment existing on the open test site. The frequencies canthen be pre-selected on the open test site to obtain the corresponding amplitude. The initial scan ismade with the spectrum analyzer in automatic sweep mode. The spectrum peaks are then measuredmanually to determine the exact frequencies.

Measurements on the Open Site or 10m EMC Chamber

The radiated emissions test will then be repeated on the open site or 10m EMC chamberto measure the amplitudes accurately and without the multiple reflections existing in the shieldedroom. The EUT and support equipment are set up on the turntable of one of 3 or 10 meter openfield sites. Desktop EUT are set up on a wooden stand 0.8 meter above the ground.

For the initial measurements, the receiving antenna is varied from 1-4 meter height and ischanged in the vertical plane from vertical to horizontal polarization at each frequency. Bothreading are recorded with the quasi-peak detector with 120KHz bandwidth. For frequencybetween 30 MHz and 1000MHz, the reading is recorded with peak detector or quasi-peakdetector. For frequency above 1 GHz, the reading is recorded with peak detector or averagedetector with 1 MHz bandwidth.

At the highest amplitudes observed, the EUT is rotated in the horizontal plane while changingthe antenna polarization in the vertical plane to maximize the reading. The interconnecting cableswere arranged and moved to get the maximum measurement. Once the maximum reading is obtained,the antenna elevation and polarization will be varied between specified limits to maximize thereadings.



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4.5 Appendix E: Test Equipment

4.5.1 Test Equipment List

Location Equipment Name Brand Model S/N Last Cal. Date Next Cal.Date

Conduction CDN T2 03 FCC Inc. FCC-801-T2 02066 01/07/2005 01/07/2006Conduction CDN T4 04 FCC Inc. FCC-801-T4 02069 02/03/2005 02/03/2006Conduction Coaxial Cable 1F-C2 Harbourindustr

iesRG400 1F-C2 06/02/2004 06/02/2005

Conduction Current Probe Schaffner SMZ 11 18030 12/28/2004 12/28/2005Conduction Digital

Hygro-ThermometerConduct

MicroLife HT-2126G ISL-Conduction02

12/04/2004 12/04/2005

Conduction EMI Receiver 02 HP 85460A 3448A00183 10/01/2004 10/01/2005Conduction ISN T4 Schaffner ISN T400 16593 12/27/2004 12/27/2005Conduction ISN T4 02 FCC F-CMISN-CA

T502003 12/27/2004 12/27/2005

Conduction Capacitive VoltageProbe

FCC F-CVP-1 68 05/19/2005 05/19/2006

Conduction LISN 06 R&S ESH3-Z5 828874/009 12/18/2004 12/18/2005Conduction LISN 04 EMCO 3810/2 9604-1429 12/24/2004 12/24/2005Radiation BILOG Antenna 08 Schaffner CBL6112B 2756 06/02/2004 06/02/2005Radiation Coaxial Cable Chmb

02-10MBelden RG-8/U Chmb 02-10M 11/16/2004 11/16/2005

Radiation DigitalHygro-ThermometerChmb 02

MicroLife HT-2126G Chmb 02 11/30/2004 11/30/2005

Radiation EMI Receiver 03 HP 85460A 3448A00209 01/08/2005 01/08/2006Radiation Loop Antenna 01 R&S HFH2-Z2 881056/46 07/29/2004 07/29/2005Radiation Spectrum Analyzer 13 Advantest R3132 121200411 02/16/2005 02/16/2006Rad. Above1Ghz

Horn Antenna 02 Com-Power AH-118 10088 02/17/2005 02/17/2006

Rad. Above1Ghz

Horn Antenna 04 Com-Power AH-826 081-001 01/13/2005 01/13/2006

Rad. Above1Ghz

Horn Antenna 05 Com-Power AH-640 100A 09/22/2004 09/22/2005

Rad. Above1Ghz

Microwave Cable RFSK-01

HUBER+SUHNER AG.

Sucoflex 102 22139 /2 07/07/2004 07/07/2005

Rad. Above1Ghz

Preamplifier 02 MITEQ AFS44-00102650-40-10P-44

728229 01/12/2005 01/12/2006

Rad. Above1Ghz

Preamplifier 10 MITEQ JS-26004000-27-5A

818471 02/28/2005 02/28/2006

Rad. Above1Ghz

Spectrum Analyzer 14 Advantest R3182 140600028 09/09/2004 09/09/2005



-18-

4.5.2 Software for Controlling Spectrum/Receiver and Calculating Test Data

Radiation/Conduction Filename Version Issued Date

Hsichih Conduction Tile.exe 2.0.P 2/12/2002

Hsichih Radiation Tile.exe 2.0.P 2/12/2002

Lung_Tan Conduction Tile.exe 2.3.B 12/30/2003

Lung_Tan Radiation Tile.exe 2.3.B 12/30/2003



-19-

4.6 Appendix F: Layout of EUT and Support Equipment

4.6.1 General Conducted Test Configuration

40 cm

Non-Conducted Table

80 cm

Metal Ground Plane

LISN

LISN

LoadActive

EUT

Printer SpectrumControl PC

Filter

Filter



-20-

4.6.2 General Radiation Test Configuration

10 M

1-4M

Non-ConductedTable

To Spectrum

80 cm To RemoteController

To Remote Controller

Metal Full Soldered Ground Plane

To TurntableTo Antenna

To Antenna

Antenna andturntable distance3 m to 10 m.

LoadActive

EUT

Printer SpectrumControl PC

RemoteController



-21-

4.7 Appendix G: Description of Support Equipment

4.7.1 Description of Support Equipment

Support Unit 1.Description: KOKA HeadphoneModel Number: ST-304Serial Number: N/APower Supply Type: N/APower Cord: N/AFCC ID: N/A






-22-Support Unit 5.

Description: KOKA MicrophoneModel Number: DM-510Serial Number: N/APower Supply Type: N/APower Cord: N/AFCC ID: N/A

Support Unit 6.Description: Digital Video CameraModel: DCR-PC100Serial Number: 173009Power Supply Type: AC Power Adaptor

(SONY, Model: AC-L10A)Power Cord: Nonshielded, DetachableFCC ID: (Comply with FCC DOC)

Support Unit 7.Description: USB 2.0 Card Reader/WriterModel Number: UID12WSerial Number: N/APower Supply Type: From USB PortUSB 2.0 Port: one 4-pinSD/MMC Card Slot: oneSecureDigital Card (Option): SD (Model: SD-M16B1) 16MBUSB Cable: Shielded, Detachable (With Cord)FCC ID: (Comply with FCC DOC)




-23-Support Unit 9.

Description: USB 2.0 Card Reader/WriterModel Number: UID12WSerial Number: N/APower Supply Type: From USB PortUSB 2.0 Port: one 4-pinSD/MMC Card Slot: oneSecureDigital Card (Option): SD (Model: SD-M16B1) 16MBUSB Cable: Shielded, Detachable (With Cord)FCC ID: (Comply with FCC DOC)



Support Unit 12.Description: KOKA MicrophoneModel Number: DM-510Serial Number: N/APower Supply Type: N/APower Cord: N/AFCC ID: N/A

Support Unit 13.Description: Coson radio cassette playerModel Number: C-2087Serial Number: N/APower Supply Type: N/APower Cord: N/A



-24-Support Unit 14.

Description: HP Printer (for parallel interface port)Model Number: C2642ASerial Number: TH84T1N3J3Power Supply Type: AC Adaptor (HP Model: C2175A)Power Cord: Non-shielded, DetachableData Cable: Shielded, Detachable, With Metal HoodFCC ID: B94C2642X

Support Unit 15.Description: DELL MouseModel Number: M-SAW34Serial Number: LZE24108086Power Supply Type: N/APower Cord: N/AFCC ID: DZL211029

Support Unit 16.Description: Aceex Modem

(for serial interface port)Model Number: DM1414Serial Number: 0301000557Power Supply Type: Linear, Power Adapter

( AC to AC Xfmr, Wall Mounted Type )Power Cord: Nonshielded, Without Grounding PinFCC ID: IFAXDM1414

Support Unit 17.Description: SONY Video MonitorModel Number: KV-XA25N90Serial Number: 1450610Power Supply Type: N/APower Cord: N/AFCC ID: N/A

Support Unit 18.Description: Philips MonitorModel: 109P40Serial Number: BZ000421172019Power Cord: Non-shielded, DetachableFCC ID: A3KM092



-25-Support Unit 19.

Description: DELL KeyboardModel Number: SK-8110Serial Number: MY-05N456-38843-2BK-3315Power Supply Type: N/APower Cord: N/AFCC ID: N/A (comply with FCC DOC)

Support Unit 20.Description: DELL Notebook Personal ComputerModel: Latitude D400Serial Number: N/ACPU: Pentium M- 1.5GHz( FSB 400 MHz)A/C Adapter Type: LITEON 65W (Model PA-1650-05D) 3 PinsHard Disk Driver: Toshiba (Model: MK4019GAX) 40 GBMDC Modem: Conexant (Model: RD01-D480)VGA Connector: One 15 PinsSerial Connector: One 9 PinsRJ11 Connector: One 2 PinsRJ45 Connector: One 8 PinsUSB Connector: Two 4 Pins1394 Connector: One 4 PinsSmart Card Slot: OnePCMCIA Slot: OneEarphone Port: OneMicrophone Port: OnePower In Port: OneBattery: Sanyo 6-cell (Model: 6T087)RAM: Nanya DDR 256MB x 1LCD Panel and Inverter: Toshiba 12.1”XGA

(Model: LTM12C505D)RICOH KEIKI Inverter(Model: K3E19T5 0090)

Power Cord: Non-shielded, Detachable

Support Unit 21.Description: DTS/Dolby Digital Surround Sound DecoderModel Number: AD-300Serial Number: AD30000021115-0400A/C Adapter: Model: AD48-1201000DUPower Cord: Non-shielded, Detachable

Support Unit 22.Description: SpeakerModel: A-1Serial Number: N/A



-26-

Support Unit 23.Description: External Hard Disk CaseManufacturer : TeraSysModel Number: F12-UFSerial Number NAPower Supply Type: YHI(Model:YS-1015U12)1394 Port: one 6-PinsUSB: one 4-PinsPower In: onePower Cable: Non-shielded, Detachable, (Can Dismantle)

Support Unit 24.Description: External Hard Disk CaseManufacturer : TeraSysModel Number: F12-UFSerial Number NAPower Supply Type: YHI(Model:YS-1015U12)1394 Port: one 6-PinsUSB: one 4-PinsPower In: onePower Cable: Non-shielded, Detachable, (Can Dismantle)



-27-

4.7.2 Software for Controlling Support Unit

Test programs exercising various part of EUT were used. The programs wereexecuted as follows:

A. Read and write to the disk drives.B. Capture the image from digital video camera then transfer to display.(CCD).C. R/W memory card form EUT USB Port through Card Reader/WriterD. Send audio signal to the headphone.E. Receive audio signal from the microphone.F. Receive audio signal from walkman.G. Send H pattern to the parallel port device (Printer).H. Send H pattern to the serial port device (Modem).I. Send H pattern to the video port device (TV).J. Send H pattern to the video port device (Monitor).K. Send signal to the DTS/Dolby Digital Surround Sound DecoderL. Send audio signal to the SpeakerM.R/W Hard Disk form EUT USB Port through External Hard Disk CaseN. From DVD/CD-ROM Open Windows Media player.exe, Audio signals and to

send them to the speakerO. Through LAN Port(Gigabit)From EUT Send Singal to NoteBookP. Repeat the above steps.

Filename Issued Date

TV EMITEST.exe 05/01/1990

Modem 1 EMC.exe 11/22/1996

Printer1 EMC.exe 11/22/1996

Digital Video Camera Divpcam.exe 12/10/1998

Monitor EMITEST.exe 05/01/1990

External Hard Disk Case EMC.exe 11/22/1996

DVD/CD-ROM Windows Media player.exe 1/1/2001

LAN Ping.exe 8/3/2001



-28-

4.7.3 I/O Cable Condition of EUT and Support Units

Description Path Cable Length Cable Type Connector Type

AC Power Cord 110V (~240V) toEUT SPS

1.8M Nonshielded, Detachable Plastic Head

Server Data Cable Server to PC LANPort

33 feet Non-shielded, Detachable RJ-45, withPlastic Head

Keyboard DataCable

Keyboard to PCKeyboard port

1.8M Shielded, Undetachable Metal Head

Monitor DataCable

Monitor to PCVGA Port

1.6M Shielded, Detachable Metal Head

TV Data Cable TV to PC STerminal


Modem Data Cable Modem to PCCOM 1 port


Mouse Data Cable Mouse to PCMouse port

1.8M Shielded, Un-detachable Metal Head

Printer Data Cable Printer to PCParallel port


Audio-in DataCable

Walkman to PCLine In Port

2M Non-shielded, Detachable Plastic Head

Microphone DataCable*2

Microphone to PCMicrophone Port

1.5M Nonshielded,Undetachable

Plastic Head

Headphone DataCable*5

Headphone to PCLine Out Port

1.2M Nonshielded,Undetachable

Plastic Head

USB Data Cable*4 PC USB Port toCardReader/Writer

1.0 M Shielded, detachable (withcord)

Metal Head

Digital VideoCamera 1394 DataCable

Digital VideoCamera to 1394port of PC


1394 Data Cable*2 EUT 1394 Port (6Pin) to ExternalHard Disk Case1394 Port(6 Pin)

2M Non-shielded, Detachable Metal Head

SPDIF Data Cable EUT SPDIF OutPort to

DTS/DolbySPDIF In Port

1.5M Shielded, Detachable Plastic Head

SPDIF Data Cable EUT SPDIF Input 1.5M Shielded, Detachable Plastic Head



-29-Port to

SN41G2(SupportPC) Output

SPDIF

Speaker Cable Speaker toDTS/Dolby Line

Out Port

1.5M Non-shielded, Detachable Metal Head

RCA Data Cable EUT RCA Out Portto DTS/Dolby RCA

In Port

1.5M Shielded, Detachable Plastic Head

D4 Data Cable EUT D4 Out Port toTV R G B Port




-30-

4.8 Appendix H: Description of Equipment Under Test

EUT

Description: Personal ComputerCondition: Pre-ProductionModel: EZ945;EX945;EY945Serial Number: N/AMotherboard: AOpen (Model: UX945G)CPU: FSB 533 MHz Pentium 4-3.73 GHzPower Supply Type: AOPEN (Model:FSP275-60CU(PF))Hard Disk Driver: Western Digital (Model:WD1200JD-00FYB0)Flopply Disk Driver: Panasonic (Model:JU-257A607P)DVD/CD-ROM Drive: AOpen (Model: COM4824/AAH)Power in Port: oneVGA Port: one(15 pin)Parallel Port: one(25-pin)Serial Port: one(9-pin)Keyboard Connector: one(6-pin)Mouse Connector: one(6-pin)USB Connector: four(4-pin)LAN Port: one(8-pin)1394 Connector: three (one 4-pin , two 6-pin)Microphone Port: twoLine In Port: oneLine out Poer: threeHeadphone Port: twoS-Video Port: one(8-pin)D4 Port: one(14-pin)RCA AUDIO Port: oneOptical fiber out Port: oneMemory: DDRII533 *1 (128MB)Power Cord: Non-shielded, DetachableAll types of LAN and VGA Resolution, listed above have been tested. We present the worstcase test data in the report. The test configuration is listed below:

Test Mode CPU VGA Resolution LAN1 FSB 1066 MHz Pentium

4-3.73 GHzVGA+S 1Gbps

2 FSB 533 MHz Pentium4-3.73 GHz

D4 100M



-31-

Difference From:Model name COLOR

EZ945 WhiteEX945 BlackEY945 Silver

EMI Noise Source:Crystal: 25MHz (X1), 14.318MHz (X2), 24.5MHz (X3), 27MHz (X4),32.768KHzClock Generator: U28EMI Solution:None



-32-

4.9 Appendix I: Uncertainty of Measurement

The measurement uncertainties mentioned below refer to CISPR 16-4: 2002 Uncertainty inEMC measurements.

Test Site: Conduction 02Item Source of Uncertainty Probability

DistributionTotal Uncertainties (dB) Standard Uncertainty

(dB)1 Systematic Effects:

(Assessment from 20 repeatobservation; 1 reading on

EUT)

Normal k=1 0.058 k=1 0.058

2 Random Effects:(Assessment from 20 random

observations; 1 reading onEUT)

Normal k=2 0.144 k=1 0.072

3 Receiver: Sine wave voltage Normal k=2 0.500 k=2 0.2504 Receiver: Pulse amplitude

responseRectangular k=1.73 0.500 k=1 0.289

5 Receiver: Pulse repetitionrate response

Rectangular k=1.73 0.500 k=1 0.289

6 Receiver: Noise floorproximity

Normal k=1.73 0.500 k=1 0.250

7 LISN Loss Calibration Normal k=2 1.200 k=1 0.600

8 Cable Loss Calibration Normal k=2 1.000 k=1 0.5009 Combined Standard

Uncertainty Uc(y)Normal k=1 0.954

10 Total Uncertainty @95%minimum Confidence Level

Normal k=2 1.908

Measurement Uncertainty Calculations:Uc (y) = square root ( u1 (y)2 + u2 (y)2 + ..........+un (y)2 )U = 2 * Uc (y)



-33-

Test Site: Chamber 02-10M (30M~1GHz)Item Source of Uncertainty Probability

DistributionTotal Uncertainties

(dB)Standard Uncertainty

(dB)k (dB) k (dB)

1 Systematic Effects:(Assessment from 20 repeatobservation; 1 reading on

EUT)

Normal 1 0.067 1 0.067

2 Random Effects:(Assessment from 20 random

observations; 1 reading onEUT)

Normal 1 0.103 1 0.103

3 Antenna Factor Calibration Normal 2 1.400 1 0.700

4 Receiver: Sine wave voltage Normal 2 0.470 1 0.235

5 Receiver: Pulse amplituderesponse

Rectangular 1.73 1.600 1 0.925

6 Receiver: Pulse repetitionrate response

Rectangular 1.73 0.400 1 0.231

7 Receiver: Noise floorproximity

Normal 2 0.500 1 0.250

8 Mismatch: antenna-receiver U-shaped 1.5 1.000 1 0.6679 Antenna: AF freq.

InterpolationRectangular 1.73 0.300 1 0.173

10 Antenna: Directivitydifference

Rectangular 1.73 1.000 1 0.578

11 Antenna: Balance Rectangular 1.73 0.300 1 0.17312 Site separation distance Rectangular 1.73 0.300 1 0.17313 Cable Loss Calibration Normal 2 1.000 1 0.500

14 Combined StandardUncertainty Uc(y)

Normal 1.000 1.628


Normal 2.000 3.256




-34-

Test Site: Chamber 02-3M (1G~18Ghz)Item Source of Uncertainty Probability


(dB)Standard Uncertainty (dB)

k (dB) k (dB)1 Systematic Effects: (Assessment

from 20 repeat observation; 1reading on EUT)

Normal 1 0.039 1 0.039

2 Random Effects: (Assessmentfrom 20 random observations; 1

reading on EUT)

Normal 1 0.072 1 0.072

3 Antenna Factor Calibration Normal 2 1.700 1 0.8504 Receiver: Sine wave voltage Normal 2 0.470 1 0.2355 Receiver: Pulse amplitude

responseRectangular 1.73 1.600 1 0.925

6 Receiver: Pulse repetition rateresponse

Rectangular 1.73 0.400 1 0.231

7 Receiver: Noise floor proximity Normal 2 0.500 1 0.250

8 Mismatch: antenna-receiver U-shaped 1.5 1.000 1 0.667

9 Antenna: AF freq. Interpolation Rectangular 1.73 0.300 1 0.173

10 Antenna: Directivity difference Rectangular 1.73 1.000 1 0.578

11 Antenna: Balance Rectangular 1.73 0.300 1 0.17312 Site separation distance Rectangular 1.73 0.300 1 0.17313 Cable Loss Calibration Normal 2 1.000 1 0.500

14 Combined Standard UncertaintyUc(y)

Normal 1.000 1.695


Normal 2.000 3.391




-35-




(dB)k (dB) k (dB)

1 Systematic Effects: (Assessmentfrom 20 repeat observation; 1

reading on EUT)

Normal 1 0.060 1 0.060


reading on EUT)

Normal 1 0.094 1 0.094


4 Receiver: Sine wave voltage Normal 2 0.470 1 0.235

5 Receiver: Pulse amplituderesponse

Rectangular 1.73 1.600 1 0.925


Rectangular 1.73 0.400 1 0.231

7 Receiver: Noise floor proximity Normal 2 0.500 1 0.2508 Mismatch: antenna-receiver U-shaped 1.5 1.000 1 0.667


10 Antenna: Directivity difference Rectangular 1.73 1.000 1 0.57811 Antenna: Balance Rectangular 1.73 0.300 1 0.17312 Site separation distance Rectangular 1.73 0.300 1 0.17313 Cable Loss Calibration Normal 2 1.000 1 0.500

14 Combined Standard UncertaintyUc(y)

Normal 1.000 1.777

15 Total Uncertainty @95% mim.Confidence Level

Normal 2.000 3.554




-36-




(dB)k (dB) k (dB)

1 Systematic Effects:(Assessment from 20 repeat

observation; 1 reading on EUT)

Normal 1 0.044 1 0.044


reading on EUT)

Normal 1 0.089 1 0.089


4 Receiver: Sine wave voltage Normal 2 0.470 1 0.2355 Receiver: Pulse amplitude

responseRectangular 1.73 1.600 1 0.925


Rectangular 1.73 0.400 1 0.231

7 Receiver: Noise floor proximity Normal 2 0.500 1 0.250

8 Mismatch: antenna-receiver U-shaped 1.5 1.000 1 0.667


10 Antenna: Directivity difference Rectangular 1.73 1.000 1 0.578

11 Antenna: Balance Rectangular 1.73 0.300 1 0.17312 Site separation distance Rectangular 1.73 0.300 1 0.17313 Cable Loss Calibration Normal 2 1.000 1 0.50014 Combined Standard Uncertainty

Uc(y)Normal 1.000 1.776

15 Total Uncertainty @95%mim. Confidence Level

Normal 2.000 3.553




-37-

4.10 Appendix J: Photographs of EUT Configuration Test Set Up

The measurement results along with the appropriate limits for comparison shall be presented intabular form. If an alternate test method is used, the test report must identify that method andjustification for its use shall be provided. Instrumentation, instrument attenuator and bandwidthsettings, detector function, EUT arrangements, a sample calculation with all conversion factorsand all other pertinent details shall be included along with the measurement results. Whenautomatic scan techniques are used, an explanation of how each emission from the EUT wasmaximized shall be included in the test report along with the scan rate used to obtain each level.

The justification for selecting a particular EUT configuration and particular length of interfacecable to produce maximized emissions must be documented in the test report. Photographsclearly showing the test set-up and interface cable arrangement for the highest radiated and lineconducted emission measured shall be included.

The Front View of Highest Conducted Set-up For EUT



-38-The Back View of Highest Conducted Set-up For EUT



-39-The Front View of Highest Radiated Set-up For EUT

The Back View of Highest Radiated Set-up For EUT



-40-

4.11 Appendix K: Photographs of EUT

Please refer to the File of ISL-05LE134P

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