TABLE OF CONTENTS DESCRIPTION PAGE 1. CERTIFICATION... 3 2. SUMMARY OF TEST RESULTS... 4 3. GENERAL INFORMATION... 5 3.1 PRODUCTION DESCRIPTION... 5 3.2 TEST MODES & EUT COMPONENTS DESCRIPTION... 5 3.3 CONFIGURATION OF THE TESTED SYSTEM... 6 3.4 BLOCK DIAGRAM OF CONNECTIONS BETWEEN EUT AND SIMULATORS... 7 3.5 TEST METHODOLOGY... 8 3.6 TEST FACILITY... 8 4. CONDUCTED EMISSION MEASUREMENT... 9 4.1 TEST EQUIPMENTS... 9 4.2 BLOCK DIAGRAM OF TEST SETUP... 9 4.3 CONDUCTED EMISSION LIMIT... 10 4.4 EUT CONFIGURATION ON MEASUREMENT... 10 4.5 CONDUCTED EMISSION DATA... 10 4.6 OPERATING CONDITIONS OF THE EUT... 11 4.7 CONDUCTED EMISSION MEASUREMENT RESULTS... 12 5. RADIATED EMISSION MEASUREMENT... 14 5.1 TEST EQUIPMENT... 14 5.2 OPEN TEST SITE SETUP DIAGRAM... 14 5.3 RADIATED EMISSION LIMIT... 15 5.4 EUT CONFIGURATION... 15 5.5 OPERATING CONDITION OF EUT... 15 5.6 RADIATED EMISSION DATA... 15 5.7 RADIATED EMISSIONS MEASUREMENT RESULTS... 16 6. PHOTOGRAPHS FOR TEST... 18 6.1 TEST PHOTOGRAPHS FOR CONDUCTION... 18 6.2 TEST PHOTOGRAPHS FOR RADIATED... 19 7. PHOTOGRAPHS FOR PRODUCT... 20 8. EMI/EMS REDUCTION METHOD DURING COMPLIANCE TESTING... 23 Accredited Lab. Of BSMI, NEMKO, NVLAP. Page 2 of 25
2. SUMMARY OF TEST RESULTS The Worst Emission data was found as following TEST STANDARD TEST ITEM RESULT REMARKS (1)FCC Part 15 (2)CISPR 22 3 rd Edition:1997 (3)Canadian ICES-003. Class B Conducted emission (Mode 1) Radiated emission (Mode 1) PASS PASS The worst emission frequency is 14.9539 MHz. And minimum passing margin is -11.51 db. The measurement uncertainty is 3.6 db. The worst emission frequency is 123.9525 MHz at Vertical. And minimum passing margin is 2.57 db. Height of antenna is 1.03 M. Angle of turntable is 12. The measurement uncertainty is 5.1 db. Accredited Lab. Of BSMI, NEMKO, NVLAP. Page 4 of 25
3.3 CONFIGURATION OF THE TESTED SYSTEM The FCC IDs/Types for all equipment, plus descriptions of all cables used in the tested system (including inserted cards, which have grants) are: Device No. Configuration Manufacturer : Logitech Model Number : M-SBF83 PS2 Mouse M02-334 BSMI ID : R41126 FCC ID : N/A Data Cable : Shielded, Undetachable, 1.5m Manufacturer : acer Model Number : T200-P PS2 Keyboard K01-099 BSMI ID : R41097 FCC ID : N/A Data Cable : Shielded, Undetachable, 1.8 m Manufacturer : Hewlett Packard Model Number : 2225C Serial Number : 2548S40842 Printer P01-018 BSMI ID : 3892A957 FCC ID : BS46XU2225C Data Cable : Shielded, Detachable, 1.2m, Parallel Cable Power Cord : Non-Shielded, Detachable, 1.8m Manufacturer : TOSHIBA DVD PLAYER D01-023 Model Number : SD-K860SU AC INPUT :120V~60Hz,13W Power Cord : Non-Shielded, Detachable, 2Pin, 1.8m Model Number :Pavilion a000 BSMI ID :R33001 Serial Number :TWL410000F PC System HP PC07 C.P.U :AMD Athlon XP 2400+ DDR FDD H.D.D. DVD-ROM Mother Board S.P.S :infineon PC2700 256M *2 DDR333 :MITSUMI M/N:D353M3D BSMI ID:D63119 :Manufacturer :SAMSUNG M/N:SV041IN 40G BSMI ID:D33475 :Manufacturer :PHILIPS M/N:DR0M6016/4A BSMI ID:D43002 :ASUS M/N:A7V8X-LA BSMI ID:D33005 :HIPRO M/N: HP-D2537F3H Input: 100-127V /6 A, 200-240V/ 4A 47~63 Hz Output: +5V/22A, -12V/0.8A, +12V/14A, +3.3V/18A, +5VSB/2A BSMI ID:D33036 Accredited Lab. Of BSMI, NEMKO, NVLAP. Page 6 of 25
3.4 BLOCK DIAGRAM OF CONNECTIONS BETWEEN EUT AND SIMULATORS AC in Printer DVD Player Adaptor EUT: 10.4 Rugged LCD P.C. PS2 Keyboard PS2 Mouse Accredited Lab. Of BSMI, NEMKO, NVLAP. Page 7 of 25
3.5 TEST METHODOLOGY Both conducted and radiated testing were performed according to the procedures in ANSI C63.4-2003. Radiated testing was performed at an antenna to EUT distance of 10 meters. (For frequencies below 1000MHz) 3.6 TEST FACILITY Ambient conditions in the laboratory: ITEMS Requirement TEMPERATURE ( C) 10-40 HUMIDITY (%RH) 10-90 BAROMETRIC PRESSURE (mbar) 860-1060 FCC SITE DESCRIPTION Aug. 10, 1995 /Aug. 25, 1998 File on FCC Engineering Laboratory Federal Communication Commission 7435 Oakland Mills Road Columbia, MD 21046 Reference 31040/SIT1300F2 NVLAP LAB. CODE 200085-0 United Stated Department of commerce National Institute of Standards and Technology National Voluntary Laboratory Accreditation Program Accreditation on NVLAP effective through Sep. 30,2008 For CISPR 22, FCC Method and AS/NZS CISPR 22 Measurement. Taiwan Accreditation Recognized by the Council of Taiwan Accreditation Foundation (TAF) Foundation and confirmed to meet the requirements of ISO/IEC 17025. Registration No.: 1082 Registration on TAF effective through Sep. 19,2009 Accredited Lab. Of BSMI, NEMKO, NVLAP. Page 8 of 25
4. CONDUCTED EMISSION MEASUREMENT 4.1 TEST EQUIPMENTS The following test equipment are used during the conducted power line tests: Item Instrument Manufacturer Model Serial No. Next Cal. Date 1 Test Receiver R & S ESCS30 825022/003 2008.05.25 2 LISN.(EUT) ROLF HEINE NNB-2/16Z 99042 2007.12.21 3 L.I.S.N.(AE) ROLF HEINE NNB-2/16Z 98091 2008.07.22 4 Pulse Limiter R & S ESH3-Z2 357.8810.52 2008.08.01 5 RF CABLE GTK N/A GTK-E-A149-01 2008.09.06 6 50 Ohm Terminator GTK N/A GTK-E-A130-01 N/A 7 Shielded Room GTK N/A B5 N/A 4.2 BLOCK DIAGRAM OF TEST SETUP 80cm Load Non-conducted table Metal Ground Plane EUT: 10.4 Rugged LCD 80cm 40cm L.I.S.N. (EUT) L.I.S.N. (AE) Test Receiver Pulse Limiter Transformer/ Convertor Filter(EUT) Filter(AE) Note: This is a reprehensive setup diagram for Table-top EUT. For Floor-standing EUT, the table will be removed with all others setup condition remain the same. Accredited Lab. Of BSMI, NEMKO, NVLAP. Page 9 of 25
4.3 CONDUCTED EMISSION LIMIT FCC Limit Frequency Class A Maximum RF Line Voltage Class B MHz µv dbµv µv dbµv 0.45 to 1.705 1000 60.0 250 48.0 1.705 to 30 3000 69.5 250 48.0 Remarks : CISPR Limit 1. RF Line Voltage (dbµv) = 20 log RF Line Voltage (µv). 2. In the Above Table, the tighter limit applies at the band edges. Frequency Maximum RF Line Voltage db(µv) Class A Class B MHz QUASI-PEAK AVERAGE QUASI-PEAK AVERAGE 0.15 to 0.50 79 66 66 to 56 56 to 46 0.50 to 5.0 73 60 56 46 5.0 to 30 73 60 60 50 Remarks : In the Above Table, the tighter limit applies at the band edges. 4.4 EUT CONFIGURATION ON MEASUREMENT The equipments that are listed 4.1 are installed on Conducted Power Line Test to meet the Commission requirement and operating in a manner, which tends to maximize its emission characteristics in a normal application. The device under test, installed in a representative system as described in section 4.2, was placed on a non-conductive table whose total height equal to 80cm. Powered from one L.I.S.N. which signal output to receiver, and the other peripherals was powered from another L.I.S.N. which signal output was terminated by 50Ω. 4.5 CONDUCTED EMISSION DATA The measurement range of conducted emission, which is from 0.15 MHz to 30 MHz, was investigated. All readings are quasi-peak and average values with a resolution Bandwidth of 9 KHz. The initial step in collecting conducted data is a spectrum analyzer peak scan of the measurement range for all the test modes. Then the worst modes were reported the following data pages. Accredited Lab. Of BSMI, NEMKO, NVLAP. Page 10 of 25
4.6 OPERATING CONDITIONS OF THE EUT The EUT exercise program used during conducted testing was designed to exercise the EUT in a manner similar to a typical use. The exercise sequence is listed as below: 1. Setup the EUT and simulators as shown on 4.3. 2. Turn on the power of all equipments. 3. Boot the P.C. from Hard Disk and setup the video to Windows XP, active all devices. 4. Adjust to appropriate video resolution. 5. Active other internal devices such as network function. 6. Run WinRFI test program under Windows XP. 7. P.C. sent H pattern to monitor, make the H pattern full in the screen. 8. P.C. sent H pattern to parallel and serial port. 9. Repeat above steps. Accredited Lab. Of BSMI, NEMKO, NVLAP. Page 11 of 25
4.7 CONDUCTED EMISSION MEASUREMENT RESULTS Date of Test November 23, 2007 Temperature 26 EUT 10.4 Rugged LCD Humidity 60 % Test Mode Mode 1 Display Pattern H Pattern Test Power Supply No. Frequency MHz Reading Level dbµv AC 120V/60Hz Factor db Line Measurement dbµv Limit dbµv Over Limit db Detector 1 0.1610 34.19 9.58 43.77 65.41-21.64 QP 2 0.1610 19.61 9.58 29.19 55.41-26.22 AVG 3 0.1830 37.98 9.59 47.57 64.35-16.78 QP 4 0.1830 28.38 9.59 37.97 54.35-16.38 AVG 5 0.2428 28.95 9.60 38.55 62.00-23.45 QP 6 0.2428 21.97 9.60 31.57 52.00-20.43 AVG 7 0.3733 24.39 9.62 34.01 58.43-24.42 QP 8 0.3733 15.75 9.62 25.37 48.43-23.06 AVG 9 9.9881 25.32 9.96 35.28 60.00-24.72 QP 10 9.9881 23.75 9.96 33.71 50.00-16.29 AVG 11 14.9539 29.80 10.23 40.03 60.00-19.97 QP 12 14.9539 28.26 10.23 38.49 50.00-11.51 AVG Remarks : 1. All readings are Quasi-peak and Average values. 2. Measurement = Reading + Factor (Could have 0.01 tolerance due to computer automatically round off calculation). 3. Over Limit (Margin Value)=Measurement level-limit value. 4. Factor = L.I.S.N. insertion loss + cable loss 5. means that this data is the worse case measurement level. 6. The measurement uncertainty is 3.6 db. Line Remark: 1. The Limit in right-up corner in above diagram refers to Quasi-peak ; AVG refers to the limit of Average. Accredited Lab. Of BSMI, NEMKO, NVLAP. Page 12 of 25
Date of Test November 23, 2007 Temperature 26 EUT 10.4 Rugged LCD Humidity 60 % Test Mode Mode 1 Display Pattern H Pattern Test Power Supply No. Frequency MHz Reading Level dbµv AC 120V/60Hz Factor db Neutral Measurement dbµv Limit dbµv Over Limit db Detector 1 0.1795 36.13 9.59 45.72 64.51-18.79 QP 2 0.1795 27.51 9.59 37.10 54.51-17.41 AVG 3 0.2422 29.09 9.60 38.69 62.02-23.33 QP 4 0.2422 22.42 9.60 32.02 52.02-20.00 AVG 5 0.2998 25.61 9.61 35.22 60.25-25.03 QP 6 0.2998 18.72 9.61 28.33 50.25-21.92 AVG 7 0.3680 24.35 9.62 33.97 58.55-24.58 QP 8 0.3680 15.62 9.62 25.24 48.55-23.31 AVG 9 9.9877 26.23 10.06 36.29 60.00-23.71 QP 10 9.9877 24.67 10.06 34.73 50.00-15.27 AVG 11 14.9533 29.19 10.43 39.62 60.00-20.38 QP 12 14.9533 27.57 10.43 38.00 50.00-12.00 AVG Remarks : 1. All readings are Quasi-peak and Average values. 2. Measurement = Reading + Factor (Could have 0.01 tolerance due to computer automatically round off calculation). 3. Over Limit (Margin Value)=Measurement level-limit value. 4. Factor = L.I.S.N. insertion loss + cable loss 5. means that this data is the worse case measurement level. 6. The measurement uncertainty is 3.6 db. Neutral Remark: 1. The Limit in right-up corner in above diagram refers to Quasi-peak ; AVG refers to the limit of Average. Accredited Lab. Of BSMI, NEMKO, NVLAP. Page 13 of 25
5. RADIATED EMISSION MEASUREMENT 5.1 TEST EQUIPMENT The following test equipments are used during the radiated emission tests: Item Instrument Manufacturer Model Serial No. Next Cal. Date 1 TEST RECEIVER R & S ESCS30 100035 2008.05.20 2 SPECTRUM RS FSL6 100517 2008.06.13 3 PRE-AMPLIFIER HP 8447D 2944A08610 2008.09.09 4 BILOG Antenna SCHAFFNER CBL6112B 2833 2007.11.23 5 RF Cable GTK N/A GTK-E-A316-01 2008.11.06 6 Open Site GTK N/A A2 2008.07.04 5.2 OPEN TEST SITE SETUP DIAGRAM Note: This is a reprehensive setup diagram for Table-top EUT. For Floor-standing EUT, the table will be removed with all others setup condition remain the same. 10m FRP Dome Broadband or Dipole Antenna Antenna height can be moved from 1m to 4m; Antenna and turntable distance 10m 1m to 4m Non- Conductive Table Load EUT 80cm Antenna Mast Test Receiver Metal Full Soldered Ground Plane TO controller To Receiver Accredited Lab. Of BSMI, NEMKO, NVLAP. Page 14 of 25
5.3 RADIATED EMISSION LIMIT FCC Class A Limit at 10m Frequency Distance Field Strength MHz Meter µv/m dbµv/m 30 to 88 10 90 39.0 88 to 216 10 150 43.5 216 to 960 10 210 46.4 Above 960 10 300 49.5 Remark :1. The tighter limit shall apply at the edge between two frequency bands. 2. Distance refers to the distance in meters between the measuring instrument antenna and the closed point of any part of the device or system. CISPR Class B Limit at 10m Frequency Distance Field Strength MHz Meter db(µv/m) 30 to 230 10 30 230 to 1000 10 37 Remark :1. The tighter limit shall apply at the edge between two frequency bands. 2. Distance refers to the distance in meters between the measuring instrument antenna and the closed point of any part of the device or system. 5.4 EUT CONFIGURATION The equipment which is listed 5.1 are installed on Radiated Emission Test to meet the Commission requirement and operating in a manner which tends to maximize its emission characteristics in a normal application. The device under test, installed in a representative system as described in section 5.2, was placed on a non-conductive table whose total height equaled 80 cm. This table can be rotated 360 degree. The measurement antenna was mounted to a non-conductive mast capable of moving the antenna vertically. Antenna height was varied from 1 meter to 4 meters and the system under test was rotated from 0 degree through 360 degrees relative to the antenna position and polarization (Horizontal and Vertical). Also the I/O cable position was investigated to find the maximum emission condition. 5.5 OPERATING CONDITION OF EUT Same as section 4.6. 5.6 RADIATED EMISSION DATA The measurement range of radiated emission, which is from 30 MHz to 1 GHz, was investigated. All readings are quasi-peak values with a resolution Bandwidth of 120 KHz. The initial step in collecting radiated emission data is a spectrum analyzer peak scans of the measurement range for all the test modes and then use test receiver for final measurement. Then the worst modes were reported the following data pages. Accredited Lab. Of BSMI, NEMKO, NVLAP. Page 15 of 25
5.7 RADIATED EMISSIONS MEASUREMENT RESULTS Date of Test November 26, 2007 Temperature 26 deg/c EUT 10.4 Rugged LCD Humidity 60 %RH Working Cond. Mode 1 Display Pattern H Pattern Antenna distance 10m at Horizontal Frequency Range 30-1000MHz Test Power Supply AC 120V/60Hz No. Frequency Reading Level Factor Measurement Limit Over Limit MHz dbµv db dbµv/m dbµv/m db Detector 1 123.6855 36.34-11.74 24.60 30.00-5.40 QP 2 203.4005 33.45-13.11 20.34 30.00-9.66 QP 3 241.9855 37.15-10.23 26.92 37.00-10.08 QP 4 401.0660 30.21-5.53 24.68 37.00-12.32 QP 5 600.5440 25.21-1.84 23.37 37.00-13.63 QP 6 729.8490 23.33-0.14 23.19 37.00-13.81 QP Remarks: 1. All Readings below 1GHz are Quasi-Peak. 2. Measurement = Reading + Factor (Could have 0.01 tolerance due to computer automatically round off calculation). 3. Over Limit (Margin Value)=Measurement level-limit value. 4. Factor = antenna factor + cable loss amplifier gain. 5. means that this data is the worse case measurement level. 6. The measurement uncertainty is 5.1 db. Remark: 1. The Limit in right-up corner in above diagram refers to Quasi-peak ; AVG refers to the limit of Average. Accredited Lab. Of BSMI, NEMKO, NVLAP. Page 16 of 25
Date of Test November 26, 2007 Temperature 26 deg/c EUT 10.4 Rugged LCD Humidity 60 %RH Working Cond. Mode 1 Display Pattern H Pattern Antenna distance 10m at Vertical Frequency Range 30-1000MHz Test Power Supply AC 120V/60Hz No. Frequency Reading Level Factor Measurement Limit Over Limit MHz dbµv db dbµv/m dbµv/m db Detector 1 123.9525 39.18-11.75 27.43 30.00-2.57 QP 2 201.6270 38.66-13.24 25.42 30.00-4.58 QP 3 240.0163 41.65-10.37 31.28 37.00-5.72 QP 4 279.6637 37.55-8.75 28.80 37.00-8.20 QP 5 400.1800 28.45-5.55 22.90 37.00-14.10 QP 6 682.7930 29.65-0.86 28.79 37.00-8.21 QP Remarks: 1. All Readings below 1GHz are Quasi-Peak. 2. Measurement = Reading + Factor (Could have 0.01 tolerance due to computer automatically round off calculation). 3. Over Limit (Margin Value)=Measurement level-limit value. 4. Factor = antenna factor + cable loss amplifier gain. 5. means that this data is the worse case measurement level. 6. The measurement uncertainty is 5.1 db. Remark: 1. The Limit in right-up corner in above diagram refers to peak ; AVG refers to the limit of Average. Accredited Lab. Of BSMI, NEMKO, NVLAP. Page 17 of 25
6. PHOTOGRAPHS FOR TEST 6.1 TEST PHOTOGRAPHS FOR CONDUCTION Mode 1 Accredited Lab. Of BSMI, NEMKO, NVLAP. Page 18 of 25
6.2 TEST PHOTOGRAPHS FOR RADIATED Mode 1 Accredited Lab. Of BSMI, NEMKO, NVLAP. Page 19 of 25
7. PHOTOGRAPHS FOR PRODUCT 1. Front View Of 10.4 Rugged LCD (EUT) 2. Back View Of 10.4 Rugged LCD (EUT) Accredited Lab. Of BSMI, NEMKO, NVLAP. Page 20 of 25
3. Port Accredited Lab. Of BSMI, NEMKO, NVLAP. Page 21 of 25
4. Front View Of Adaptor. 5. Back View Of Adaptor. Accredited Lab. Of BSMI, NEMKO, NVLAP. Page 22 of 25
8. EMI/EMS REDUCTION METHOD DURING COMPLIANCE TESTING No modification was made during testing. Accredited Lab. Of BSMI, NEMKO, NVLAP. Page 23 of 25
Appendix A Circuit (Block) Diagram (Shall be added by Applicant) Accredited Lab. Of BSMI, NEMKO, NVLAP. Page 24 of 25
Appendix B User Manual (Shall be added by Applicant) Accredited Lab. Of BSMI, NEMKO, NVLAP. Page 25 of 25