08HE175CE Viostor NVR 5020 CE Certificate
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Issue Date: Ref. Report No. Product Name: Model Number(s) Responsible Party Address : : : : Contact Person : 2008/08/08 ISL-08HE175CE Network Attached Storage Please reference the attachment QNAP System, Inc. 21F,No.77,Sec. 1,Xintai 5th Rd., Xizhi City,Taipei Country,221, Taiwan,R.O.C We, International Standards Laboratory, hereby certify that: The device bearing the trade name and model specified above has been shown to comply with the applicable technical standards as indicated in the measurement report and was tested in accordance with the measurement procedures specified in European Council Directive- EMC Directive 2004/108/EC. The device was passed the test performed according to : Standards: EN55022: 2006 / CISPR 22:2005; AS/NZS CISPR 22: 2006: Limits and methods of measurement of Radio Interference characteristics of Information Technology Equipment. (* Remarks: Testing radiated emissions above 1 GHz is not yet required in Australia.) EN55024: 1998/A1:2001/A2: 2003; AS/NZS CISPR 24: 2002: Information technology equipment-Immunity characteristics-Limits and methods of measurement. EN61000-3-2: 2006; AS/NZS 61000.3.2: 2007: Limits for harmonics current emissions EN61000-3-3: 1995/A1: 2001/A2:2005; AS/NZS 61000.3.3: 2006: Limits for voltage fluctuations and flicker in low-voltage supply systems. I attest to the accuracy of data and all measurements reported herein were performed by me or were made under my supervision and are correct to the best of my knowledge and belief. I assume full responsibility for the completeness of these measurements and vouch for the qualifications of all persons taking them. International Standards laboratory ___________________________ Jim Chu/ Director Lung-Tan LAB: No. 120, Lane 180, San Ho Tsuen, Hsin Ho Rd. Lung-Tan Hsiang, Tao Yuan County 325, Taiwan Tel: 886-3-407-1718; Fax: 886-3407-1738 His-Chih LAB: No. 65, Gu Dai Keng St.. Hsichih, Taipei Hsien 22117, Taiwan. Tel: 886-2-2646-2550; Fax: 886-2-2646-4641 Attachment: Model Number(s): TS-509 Pro; TS-509; TS-509 Pro II; TS-509 II; TS-508 Pro; TS-508; TS-508 Pro II; TS-508 II; TS-519; TS-519 Pro; TS-519 II; TS-519 Pro II;TS-2509 Pro; TS-2509; TS-2509 Pro II; TS-2509 II; NAS-501; NAS-502; NS-501; NS-502; MTS-509 Pro; MTS-509; MTS 508 Pro; MTS-508; MTS-509 Pro II; MTS-509 II; MTS-508 Pro II; MTS-508 II; NVR-509; NVR-509P; NVR-509V; NVR-509A; NVR-509C; NVR-509D; NVR-509S; NVR-509G; NVR-509U; NVR-509M; NVR-509Pro; NVR-509P-Pro; NVR-509V-Pro; NVR-509A-Pro; NVR-509C-Pro; NVR-509D-Pro; NVR-509S-Pro; NVR-509G-Pro; NVR-509M-Pro; NVR-509U-Pro; VioStor-509; VioStor-509P; VioStor-509V; VioStor-509A; VioStor-509C; VioStor-509D; VioStor-509S; VioStor-509G; VioStor-509U; VioStor-509M; VioStor-509Pro; VioStor-509P-Pro; VioStor-509V-Pro; VioStor-509A-Pro; VioStor-509C-Pro; VioStor-509D-Pro; VioStor-509S-Pro; VioStor-509G-Pro; VioStor-509M-Pro; VioStor-509U-Pro;NVR-501; NVR-501P; NVR-501V; NVR-501A; NVR-501C; NVR-501D; NVR-501S; NVR-501G; NVR-501U; NVR-501M; NVR-501Pro; NVR-501P-Pro; NVR-501V-Pro; NVR-501A-Pro; NVR-501C-Pro; NVR-501D-Pro; NVR-501S-Pro; NVR-501G-Pro; NVR-501M-Pro; NVR-501U-Pro;VioStor-501; VioStor-501P; VioStor-501V; VioStor-501A; VioStor-501C; VioStor-501D; VioStor-501S; VioStor-501G; VioStor-501U; VioStor-501M; VioStor-501ro; VioStor-501-Pro; VioStor-501V-Pro; VioStor-501A-Pro; VioStor-501C-Pro; VioStor-501D-Pro; VioStor-501S-Pro; VioStor-501G-Pro; VioStor-501M-Pro; VioStor-501U-Pro;NVR-5012; NVR-5012-Pro; NVR-5016; NVR-5016-Pro; NVR-5020; NVR-5020-Pro; NVR-5012P; NVR-5012P-Pro; NVR-5016P; NVR-5016P-Pro; NVR-5020P; NVR-5020P-Pro; NVR-5012A; NVR-5012A-Pro; NVR-5016A; NVR-5016A-Pro; NVR-5020A; NVR-5020A-Pro; NVR-5012V; NVR-5012V-Pro; NVR-5016V; NVR-5016V-Pro; NVR-5020V; NVR-5020V-Pro; NVR-5012U; NVR-5012U-Pro; NVR-5016U; NVR-5016U-Pro; NVR-5020U; NVR-5020U-Pro; NV-5012; NV-5012-Pro; NV-5016; NV-5016-Pro; NV-5020; NV-5020-Pro; NV-5012P; NV-5012P-Pro; NV-5016P; NV-5016P-Pro; NV-5020P; NV-5020P-Pro ; NV-5012A-Pro; NV-5012A-Pro; NV-5016A-Pro; NV-5016A-Pro; NV-5020A-Pro; NV-5020A-Pro; NV-5012V-Pro; NV-5012V-Pro; NV-5016V-Pro; NV-5016V-Pro; NV-5020V-Pro; NV-5020V-Pro; NV-5012U; NV-5012U-Pro; NV-5016U; NV-5016U-Pro; NV-5020U; NV-5020U-Pro CE MARK TECHNICAL FILE AS/NZS EMC CONSTRUCTION FILE of Product Name Network Attached Storage Model Please reference the attachment Contains: 1. Declaration of Conformity 2. EN55022/CISPR 22, AS/NZS CISPR 22 EMI test report 3. EN55024, AS/NZS CISPR 24, EN61000-3-2 / AS/NZS 61000.3.2, and EN61000-3-3 / AS/NZS 61000.3.3 test report 4. Certificate of EN60950-1 5. Block Diagram and Schematics 6. Users’ manual Page 1 of 2 Report No. ISL-08HE175CE Declaration of Conformity Name of Responsible Party: QNAP System, Inc. Address of Responsible Party: 21F,No.77,Sec. 1,Xintai 5th Rd. Xizhi City,Taipei Country,221 Taiwan,R.O.C Declares that product: Network Attached Storage Model: Please reference the attachment Assembled by: Address: Same as above Same as above Conforms to the EMC Directive 2004/108/EC as attested by conformity with the following harmonized standards: EN55022: 2006 / CISPR 22:2005; AS/NZS CISPR 22: 2006: Limits and methods of measurement of Radio Interference characteristics of Information Technology Equipment. (* Remarks: Testing radiated emissions above 1 GHz is not yet required in Australia.) EN55024: 1998/A1: 2001/A2: 2003; AS/NZS CISPR 24: 2002: Information technology equipment-Immunity characteristics-Limits and methods of measurement. Standard Description Results Criteria EN61000-4-2: 1995/A1: 1998/A2: 2001 AS/NZS 61000.4.2: 2002 Electrostatic Discharge Pass B EN61000-4-3: 2006 AS/NZS 61000.4.3: 2006 Radio-Frequency, Electromagnetic Field Pass A EN61000-4-4: 2004 AS/NZS 61000.4.4: 2006 Electrical Fast Transient/Burst Pass B EN61000-4-5: 2006 AS/NZS 61000.4.5: 2006 Surge Pass B EN61000-4-6: 1996/A1: 2001 AS/NZS 61000.4.6: 2006 Conductive Disturbance Pass A EN61000-4-8: 1993/A1: 2001 AS/NZS 61000.4.8: 2002 Power Frequency Magnetic Field Pass A EN61000-4-11: 2004 AS/NZS 61000.4.11: 2005 Voltage Dips / Short Interruption and Voltage Variation >95% in 0.5 period Pass B 30% in 25 period Pass C >95% in 250 period Pass CPage 2 of 2 Report No. ISL-08HE175CE Standard Description Results EN61000-3-2: 2006 AS/NZS 61000.3.2: 2007 Limits for harmonics current emissions Pass EN61000-3-3: 1995/A1: 2001/A2:2005 AS/NZS 61000.3.3: 2006 Limits for voltage fluctuations and flicker in low-voltage supply systems. Pass Conforms to the Low Voltage Directive 2006/95/EC, 93/68/EEC as attested by conformity with the following harmonized standard: EN60950-1: 2001+A11: Safety of Information Technology Equipment Including electrical business equipment We, QNAP System, Inc., hereby declare that the equipment bearing the trade name and model number specified above was tested conforming to the applicable Rules under the most accurate measurement standards possible, and that all the necessary steps have been taken and are in force to assure that production units of the same equipment will continue to comply with the requirements. --------------------------- QNAP System, Inc. Date: 2008/08/08 Page 1 of 2 Report No. ISL-08HE175CE Declaration of Conformity Name of Responsible Party: QNAP System, Inc. Address of Responsible Party: 21F,No.77,Sec. 1,Xintai 5th Rd. Xizhi City,Taipei Country,221 Taiwan,R.O.C Declares that product: Network Attached Storage Model: Please reference the attachment Assembled by: Address: Same as above Same as above Conforms to the C-Tick Mark requirement as attested by conformity with the following standards: EN55022: 2006 / CISPR 22:2005; AS/NZS CISPR 22: 2006: Limits and methods of measurement of Radio Interference characteristics of Information Technology Equipment. (* Remarks: Testing radiated emissions above 1 GHz is not yet required in Australia.) EN55024: 1998/A1: 2001/A2: 2003; AS/NZS CISPR 24: 2002: Information technology equipment-Immunity characteristics-Limits and methods of measurement. Standard Description Results Criteria EN61000-4-2: 1995/A1: 1998/A2: 2001 AS/NZS 61000.4.2: 2002 Electrostatic Discharge Pass B EN61000-4-3: 2006 AS/NZS 61000.4.3: 2006 Radio-Frequency, Electromagnetic Field Pass A EN61000-4-4: 2004 AS/NZS 61000.4.4: 2006 Electrical Fast Transient/Burst Pass B EN61000-4-5: 2006 AS/NZS 61000.4.5: 2006 Surge Pass B EN61000-4-6: 1996/A1: 2001 AS/NZS 61000.4.6: 2006 Conductive Disturbance Pass A EN61000-4-8: 1993/A1: 2001 AS/NZS 61000.4.8: 2002 Power Frequency Magnetic Field Pass A EN61000-4-11: 2004 AS/NZS 61000.4.11: 2005 Voltage Dips / Short Interruption and Voltage Variation >95% in 0.5 period Pass B 30% in 25 period Pass C >95% in 250 period Pass C Page 2 of 2 Report No. ISL-08HE175CE Standard Description Results EN61000-3-2: 2006 AS/NZS 61000.3.2: 2007 Limits for harmonics current emissions Pass EN61000-3-3: 1995/A1: 2001/A2:2005 AS/NZS 61000.3.3: 2006 Limits for voltage fluctuations and flicker in low-voltage supply systems. Pass We, QNAP System, Inc., hereby declare that the equipment bearing the trade name and model number specified above was tested conforming to the applicable Rules under the most accurate measurement standards possible, and that all the necessary steps have been taken and are in force to assure that production units of the same equipment will continue to comply with the requirements. --------------------------- QNAP System, Inc. Date: 2008/08/08 CE TEST REPORT of EN55022 / CISPR 22 / AS/NZS CISPR 22 Class A EN55024 / AS/NZS CISPR 24 / IMMUNITY EN61000-3-2 / EN61000-3-3 Product : Network Attached Storage Model(s): Please reference the attachment Applicant: QNAP System, Inc. Address: 21F,No.77,Sec. 1,Xintai 5th Rd. Xizhi City,Taipei Country,221 Taiwan,R.O.C Test Performed by: International Standards Laboratory *Site Registration No. BSMI:SL2-IN-E-0037; SL2-R1/R2-E-0037; TAF: 1178; IC: IC4067; VCCI: R-341,C-354; NEMKO: ELA 113A *Address: No. 65, Gu Dai Keng St. Hsichih, Taipei Hsien 22117, Taiwan *Tel: 886-2-2646-2550; Fax: 886-2-2646-4641 Report No.: ISL-08HE175CE Issue Date : 2008/08/08 Report Number: ISL-08HE175C ISL-T10-R2-11 Issue Date: 2008/08/08 -i- 1. 1.1 2. 2.1 2.2 3. 4. 4.1 4.2 4.3 5. 5.1 Contents of Report General............................................................................................................................. 1 Certification of Accuracy of Test Data ........................................................................ 1 Summary .......................................................................................................................... 2 Operation Environment ................................................................................................ 2 Test Standards .............................................................................................................. 2 Description of EUT.......................................................................................................... 4 Description of Support Equipment .................................................................................. 5 Description of Support Equipment ............................................................................... 5 Software for Controlling Support Unit......................................................................... 6 I/O Cable Condition of EUT and Support Units .......................................................... 7 Power Main Port Conducted Emissions .......................................................................... 8 Configuration and Procedure........................................................................................ 8 5.1.1 5.1.2 5.1.3 EUT Configuration ......................................................................................................................... 8 Test Procedure ................................................................................................................................ 8 EMI Receiver/Spectrum Analyzer Configuration (for the frequencies tested)............................... 8 5.2 Conduction Test Data: Configuration 1 ....................................................................... 9 6. Telecommunication Port Conducted Emissions ............................................................ 11 6.1 Configuration and Procedure...................................................................................... 11 6.1.1 6.1.2 6.1.3 EUT Configuration ....................................................................................................................... 11 Test Procedure .............................................................................................................................. 11 EMI Receiver/Spectrum Analyzer Configuration (for the frequencies tested)............................. 11 6.2 6.3 6.4 6.5 6.6 6.7 Test Data: LAN 1--GIGA (Voltage) .......................................................................... 12 Test Data: LAN 2--GIGA (Voltage) .......................................................................... 13 Test Data: LAN 1--100M ........................................................................................... 14 Test Data: LAN 2--100M ........................................................................................... 15 Test Data: LAN 1--10M ............................................................................................. 16 Test Data: LAN 2--10M ............................................................................................. 17 7. Radiated Disturbance Emissions ................................................................................... 18 7.1 Configuration and Procedure...................................................................................... 18 7.1.1 7.1.2 7.1.3 EUT Configuration ....................................................................................................................... 18 Test Procedure .............................................................................................................................. 18 Spectrum Analyzer Configuration (for the frequencies tested) .................................................... 18 7.2 Radiation Test Data: Configuration 1......................................................................... 19 8. Electrostatic discharge (ESD) immunity ....................................................................... 21 8.1 Electrostatic discharge (ESD) immunity test ............................................................. 21 9. Radio-Frequency, Electromagnetic Field immunity...................................................... 22 9.1 Radio-Frequency, Electromagnetic Field immunity test............................................ 22 10. Electrical Fast transients/burst immunity ...................................................................... 23 10.1 Electrical Fast transient/burst immunity test........................................................... 23 11. Surge Immunity ............................................................................................................. 25 11.1 Surge immunity test ................................................................................................ 25 12. Immunity to Conductive Disturbance............................................................................ 26 12.1 Immunity to Conductive Disturbance ..................................................................... 26 International Standards Laboratory Report Number: ISL-08HE175CE -ii- 13. Power Frequency Magnetic Field immunity ................................................................. 27 13.1 Power Frequency Magnetic field immunity test ..................................................... 27 14. Voltage Dips, Short Interruption and Voltage Variation immunity .............................. 28 14.1 Voltage Dips, Short Interruption and Voltage Variation immunity test ................. 28 15. Harmonics ...................................................................................................................... 29 15.1 Harmonics test......................................................................................................... 29 16. Voltage Fluctuations ...................................................................................................... 32 16.1 Voltage Fluctuations test......................................................................................... 32 17. Appendix........................................................................................................................ 34 17.1 Appendix A: Measurement Procedure for Main Power Port Conducted Emissions34 17.2 Appendix B: Measurement Procedure for Telecommunication Port Conducted Emissions.............................................................................................................................. 35 17.3 Appendix C: Test Procedure for Radiated Emissions............................................. 36 17.4 Appendix D: Test Equipment.................................................................................. 37 17.4.1 17.5 17.6 17.6.1 17.6.2 17.6.3 17.7 17.8 Test Equipment List...................................................................................................................... 37 Software for Controlling Spectrum/Receiver and Calculating Test Data............... 39 Appendix E: Layout of EUT and Support Equipment ............................................ 40 General Power Main Port Conducted Test Configuration............................................................ 40 General Telecommunication Port Conducted Emission Test Configuration ................................ 41 General Radiation Test Configuration.......................................................................................... 42 Appendix F: Uncertainty of Measurement.............................................................. 43 Appendix G: Photographs of EUT Configuration Test Set Up............................... 44 17.8.1 Photo of Main Power Port Conducted Emission and Telecommunication Port Conducted Emission Measurement ................................................................................................................................................ 44 17.8.2 Photo of Radiated Emission Measurement ................................................................................... 46 17.8.3 Photo of ESD Measurement ......................................................................................................... 47 17.8.4 Photo of RF Field Strength Susceptibility Measurement.............................................................. 47 17.8.5 Photo of Electrical Fast Transient/Burst Measurement ................................................................ 48 17.8.6 Photo of Surge Measurement........................................................................................................ 48 17.8.7 Photo of Conductive Measurement............................................................................................... 49 17.8.8 Photo of Magnetic field Measurement.......................................................................................... 49 17.8.9 Photo of Voltage Dips Measurement............................................................................................ 50 17.8.10 Photo of Harmonics and Voltage Fluctuations ......................................................................... 50 17.9 Photographs of EUT Please refer to the File of ISL-08HE175P ........................... 51 International Standards Laboratory Report Number: ISL-08HE175CE -11. General 1.1 Certification of Accuracy of Test Data Standards: Please refer to 2.2 Equipment Tested: Network Attached Storage Model: Please reference the attachment Applied by QNAP System, Inc. Sample received Date: 2008/08/01 Final test Date : 2008/08/06 Test Site: OATS 01; Conduction 01; HC Test Site Test Result: PASS Report Engineer: Lily L.C. Tseng Test Engineer: ______________________ David Y.Y. Wu Approve & Signature --------------------------------------------- Jim Chu / 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 54 pages, including 1 cover page , 2 contents page, and 51 pages for the test description. This test report accurately contains the test results of the above standards at the time of the test. The results in this report apply only to the sample(s) tested. This test report shall not be reproduced except in full, without the written approval of International Standards Laboratory. International Standards Laboratory Report Number: ISL-08HE175CE -22. Summary 2.1 Operation Environment Test Distance 10M (EMI test) Temperature Humidity: refer to each site test data refer to each site test data input power: Conduction input power: AC 230 V / 50 Hz Radiation input power: AC 230 V / 50 Hz Immunity input power: AC 230 V / 50 Hz 2.2 Test Standards The tests which this report describes were conducted by an independent electromagnetic compatibility consultant, International Standards Laboratory in accordance with the following EN55022: 2006 / CISPR 22:2005; AS/NZS CISPR 22: 2006: Class A: Limits and methods of measurement of Radio Interference characteristics of Information Technology Equipment. (* Remarks: Testing radiated emissions above 1 GHz is not yet required in Australia.) EN55024: 1998/A1: 2001/A2: 2003; AS/NZS CISPR 24: 2002: Information technology equipment-Immunity characteristics-Limits and methods of measurement. Standard Description Results Criteria EN61000-4-2: 1995/A1: 1998/A2: 2001 AS/NZS 61000.4.2: 2002 Electrostatic Discharge Pass B EN61000-4-3: 2006 AS/NZS 61000.4.3: 2006 Radio-Frequency, Electromagnetic Field Pass A EN61000-4-4: 2004 AS/NZS 61000.4.4: 2006 Electrical Fast Transient/Burst Pass B EN61000-4-5: 2006 AS/NZS 61000.4.5: 2006 Surge Pass B EN61000-4-6: 1996/A1: 2001 AS/NZS 61000.4.6: 2006 Conductive Disturbance Pass A EN61000-4-8: 1993/A1: 2001 AS/NZS 61000.4.8: 2002 Power Frequency Magnetic Field Pass A EN61000-4-11: 2004 AS/NZS 61000.4.11: 2005 Voltage Dips / Short Interruption and Voltage Variation >95% in 0.5 period Pass B 30% in 25 period Pass C >95% in 250 period Pass C International Standards Laboratory Report Number: ISL-08HE175CE -3- Standard Description Results EN61000-3-2: 2006 AS/NZS 61000.3.2: 2007 Limits for harmonics current emissions Pass EN61000-3-3: 1995/A1: 2001/A2:2005 AS/NZS 61000.3.3: 2006 Limits for voltage fluctuations and flicker in low-voltage supply systems. Pass International Standards Laboratory Report Number: ISL-08HE175CE -43. Description of EUT EUT Product Name: Condition: Model Number(s): Serial Number: Power Supply Type: Power Switch Button: Back Up Button: USB 2.0 Connector: E-Serial ATA Port: RJ45 Connector: VGA Port: COM Port: Hard Disk1: Hard Disk2: Hard Disk3: Hard Disk4: Hard Disk5: Network Attached Storage Pre-Production Please reference the attachment N/A Seasanic (Model: SS-250SU) 250W AC Input: 100~240V~5A, 50-60Hz one one Five (4-pins) one-7pin one (8-pins) (10/100Mbps/1Gbps) one-15pin one-9pin Seagate (Model: ST3750640AS) 750GB (Option) Seagate (Model: ST3250620AS) 250GB (Option)) Western Digital (Model: WD4000KS) 400GB (Option) Western Digital (Model: WD4000KS) 400GB (Option) Western Digital (Model: WD3200AAKS) 320GB (Option) All types of EUT Connect have been tested. The worst data listed in this test report. Test Configuration: Seagate (Model: ST3750640AS) 750GB + Seagate (Model: ST3250620AS) 250GB + Western Digital (Model: WD4000KS) 400GB + Western Digital (Model: WD4000KS) 400GB + Western Digital (Model: WD3200AAKS) 320GB + USB2.0 connect + LAN (1Gbps) + Seasanic (Model: SS-250SU) 250W Switching Power Supply. EMI Noise Source: Crystal: 4MHz (Y1), 25MHz (X1), 25MHz (X2), 25MHz (X3), 25MHz (X4), 25MHz (X5), 25MHz (X6). Clock Generator: ICS 95412BAFLF (U11) EMI Solution: None. International Standards Laboratory Report Number: ISL-08HE175CE -54. Description of Support Equipment 4.1 Description of Support Equipment Unit External HDD Enclosure*5 E-SATA External Hard Disk Rack mountable Switch Model Serial No. Brand OT-201 S/N: NA A-TEC QBack-35S QNAP DGS-1008D D-Link International Standards Laboratory Power Cord N/A FCC ID FCC DOC Non-shielded, FCC DOC Detachable D-Link FCC DOC (Model:AF-1205-B) Report Number: ISL-08HE175CE -64.2 Software for Controlling Support Unit Test programs exercising various part of EUT were used. The programs were executed as follows: A. Read and write to the disk drives. B. Send package to the Router LAN port (Router). C. Receive and transmit package of EUT to the Rack mountable Switch HUB through LAN port. D. Read and write data in the E-SATA Hard Disk through EUT E-SATA port. E. R/W External HDD Enclosure from USB Port. F. Used Tfgen.exe to Send signal to EUT RJ45 port through PC RJ45 Port. G. Search External HDD from PC RJ45 to EUT RJ45 with InterEMC.exe. H. Repeat the above steps. Filename Issued Date External Hard Disk InterEMC.exe 5/21/1996 E-SATA Intel EMCTEST.exe 9/04/2000 Rack mountable Switch ping.exe 05/05/1999 Router LAN Port Ping.exe EUT Hard Disk InterEMC.exe 04/16/2003 RJ45 Tfgen.exe 05/22/2001 International Standards Laboratory 5/5/1999 Report Number: ISL-08HE175CE -74.3 I/O Cable Condition of EUT and Support Units Description Path Cable Length Cable Type AC Power Cord 110V (~240V) to EUT SPS 1.8M Nonshielded, Detachable USB Data Cable*5 External HDD Enclosure USB Port to PC USB Port 0.98M Non-shielded, Detachable Metal Head (With Core) E-SATA Data Cable External Hard disk E-S ATA Port to 1.0M EUT E-SATA Port LAN Data Cable PC LAN Port to Connector Type Plastic Head Shielded, Detachable Metal Head 1.0M Nonshielded, Detachable RJ-45, with Plastic Head Router LAN Port. VGA Data Cable VGA Port dummy load 1.98M Shielded, Detachable (with cord) Metal Head COM port Data Cable COM port with dummy load 1.5M Shielded, Detachable Metal Head International Standards Laboratory Report Number: ISL-08HE175CE -85. Power Main Port Conducted Emissions 5.1 Configuration and Procedure 5.1.1 EUT Configuration The EUT was set up on the non-conductive table that is 1.0 by 1.5 meter, 80cm above ground. The wall was 40cm to the rear of the EUT. Power to the EUT was provided through the LISN. The impedance vs. frequency characteristic 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. A coaxial-type connector which provides one 50 ohms impedance termination was connected to the test instrument. The excess length of the power cord was folded back 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 EUT during testing, are noted in the following test record. If EUT has an extra auxiliary AC outlet which can provide power to an external monitor, all measurements will be made with the monitor power from EUT-mounted AC outlet and then from floor-mounted AC outlet. 5.1.2 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 the power cord and the results were recorded. The effect of varying the position of the interface cables 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 below the applicable limits, the emissions were also measured with the quasi-peak detectors. At the frequencies where the quasi-peak values of the emissions were higher than 6dß below the applicable average limits, the emissions were also measured with the average detectors. The highest emissions were analyzed in details by operating the spectrum analyzer in fixed tuned mode to determine the nature of the emissions and to provide information which could be useful in reducing their amplitude. 5.1.3 EMI Receiver/Spectrum Analyzer Configuration (for the frequencies tested) Frequency Range: 150KHz--30MHz Detector Function: Quasi-Peak / Average Mode Resolution Bandwidth: 9KHz International Standards Laboratory Report Number: ISL-08HE175CE -95.2 Conduction Test Data: Configuration 1 Table 5.2.1 Power Line Conducted Emissions (Hot) Note: Margin = Corrected Amplitude - Limit Corrected Amplitude = Receiver Reading + LISN Loss + Cable Loss A margin of -8dB means that the emission is 8dB below the limit The frequency spectrum graph is for final peak graph, and the attached table is for QP/AVG test result. If peak data can pass, it will be shown in “QP/AVG Correct” column, if not, QP/AVG data will instead. International Standards Laboratory Report Number: ISL-08HE175CE -10Table 5.2.2 Power Line Conducted Emissions (Neutral) Note: Margin = Corrected Amplitude - Limit Corrected Amplitude = Receiver Reading + LISN Loss + Cable Loss A margin of -8dB means that the emission is 8dB below the limit The frequency spectrum graph is for final peak graph, and the attached table is for QP/AVG test result. If peak data can pass, it will be shown in “QP/AVG Correct” column, if not, QP/AVG data will instead. International Standards Laboratory Report Number: ISL-08HE175CE -116. Telecommunication Port Conducted Emissions 6.1 Configuration and Procedure 6.1.1 EUT Configuration The EUT was set up on the non-conductive table that is 1.0 by 1.5 meter, 80cm above ground. The wall was 40cm to the rear of the EUT. The excess length of the power cord was folded back and forth at the center of the lead to form a bundle 30cm to 40cm in length. The distance between EUT and CDN is 80cm. CDN is connected to the reference ground plane. Any changes made to the configuration, or modifications made to the EUT, during testing are noted in the following test record. 6.1.2 Test Procedure The system was set up as described above, with the EMI diagnostic software running. The content of the software consist of both periodic and pseudo-random messages. The effect of varying the position of the interface cables has been investigated to find the configuration that produces maximum emission. The highest emissions were analyzed in details by operating the spectrum analyzer in fixed tuned mode to determine the nature of the emissions and to provide information which could be useful in reducing their amplitude. 6.1.3 EMI Receiver/Spectrum Analyzer Configuration (for the frequencies tested) Frequency Range: 150KHz--30MHz Detector Function: Quasi-Peak / Average Mode Resolution Bandwidth: 9KHz International Standards Laboratory Report Number: ISL-08HE175CE -126.2 Test Data: LAN 1--GIGA (Voltage) Table 6.2.1 Telecommunication Port Conducted Emission Note : Margin = Corrected Amplitude - Limit Corrected Amplitude = Receiver Reading + LISN Loss + Cable Loss A margin of -8dB means that the emission is 8dB below the limit The frequency spectrum graph is for final peak graph, and the attached table is for QP/AVG test result. If peak data can pass, it will be shown in “QP/AVG Correct” column, if not, QP/AVG data will instead. International Standards Laboratory Report Number: ISL-08HE175CE -136.3 Test Data: LAN 2--GIGA (Voltage) Table 6.3.1 Telecommunication Port Conducted Emission Note : Margin = Corrected Amplitude - Limit Corrected Amplitude = Receiver Reading + LISN Loss + Cable Loss A margin of -8dB means that the emission is 8dB below the limit The frequency spectrum graph is for final peak graph, and the attached table is for QP/AVG test result. If peak data can pass, it will be shown in “QP/AVG Correct” column, if not, QP/AVG data will instead. International Standards Laboratory Report Number: ISL-08HE175CE -146.4 Test Data: LAN 1--100M Table 6.4.1 Telecommunication Port Conducted Emission Note : Margin = Corrected Amplitude - Limit Corrected Amplitude = Receiver Reading + LISN Loss + Cable Loss A margin of -8dB means that the emission is 8dB below the limit The frequency spectrum graph is for final peak graph, and the attached table is for QP/AVG test result. If peak data can pass, it will be shown in “QP/AVG Correct” column, if not, QP/AVG data will instead. International Standards Laboratory Report Number: ISL-08HE175CE -156.5 Test Data: LAN 2--100M Table 6.5.1 Telecommunication Port Conducted Emission Note : Margin = Corrected Amplitude - Limit Corrected Amplitude = Receiver Reading + LISN Loss + Cable Loss A margin of -8dB means that the emission is 8dB below the limit The frequency spectrum graph is for final peak graph, and the attached table is for QP/AVG test result. If peak data can pass, it will be shown in “QP/AVG Correct” column, if not, QP/AVG data will instead. International Standards Laboratory Report Number: ISL-08HE175CE -166.6 Test Data: LAN 1--10M Table 6.6.1 Telecommunication Port Conducted Emission Note : Margin = Corrected Amplitude - Limit Corrected Amplitude = Receiver Reading + LISN Loss + Cable Loss A margin of -8dB means that the emission is 8dB below the limit The frequency spectrum graph is for final peak graph, and the attached table is for QP/AVG test result. If peak data can pass, it will be shown in “QP/AVG Correct” column, if not, QP/AVG data will instead. International Standards Laboratory Report Number: ISL-08HE175CE -176.7 Test Data: LAN 2--10M Table 6.7.1 Telecommunication Port Conducted Emission Note : Margin = Corrected Amplitude - Limit Corrected Amplitude = Receiver Reading + LISN Loss + Cable Loss A margin of -8dB means that the emission is 8dB below the limit The frequency spectrum graph is for final peak graph, and the attached table is for QP/AVG test result. If peak data can pass, it will be shown in “QP/AVG Correct” column, if not, QP/AVG data will instead. International Standards Laboratory Report Number: ISL-08HE175CE -187. Radiated Disturbance Emissions 7.1 Configuration and Procedure 7.1.1 EUT Configuration The equipment under test was set up on a non-conductive table 80cm above ground, on open field or chamber. The excess length of the power cord was folded back 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, during testing are noted in the following test record. If EUT has an extra auxiliary AC outlet which can provide power to an external monitor, all measurements will be made with the monitor power from EUT-mounted AC outlet and then from floor-mounted AC outlet. 7.1.2 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 the turntable. Both polarization of antenna, horizontal and vertical, were measured. The highest emissions between 30 MHz to 1000 MHz were analyzed in details by operating the spectrum analyzer and/or EMI receiver in quasi-peak mode to determine the precise amplitude of the emissions. While doing so, the interconnecting cables and major parts of the system were moved around, the antenna height was varied between one and four meters, its polarization was varied between vertical and horizontal, and the turntable was slowly rotated, to maximize the emission. 7.1.3 Spectrum Analyzer Configuration (for the frequencies tested) Frequency Range: Detector Function: Resolution Bandwidth: International Standards Laboratory 30MHz--1000MHz Quasi-Peak Mode 120KHz Report Number: ISL-08HE175CE -197.2 Radiation Test Data: Configuration 1 Table 7.2.1 Radiated Emissions (Horizontal) * Note: Margin = Corrected Amplitude – Limit Corrected Amplitude = Radiated Amplitude + Antenna Correction Factor + Cable Loss – Pre-Amplifier Gain A margin of -8dB means that the emission is 8dB below the limit BILOG Antenna Distance: 10 meter, Frequency: under 1000MHz Horn Antenna Distance: 3 meter, Frequency: 1000MHz—18GHz International Standards Laboratory Report Number: ISL-08HE175CE -20Table 7.2.1 Radiated Emissions (Vertical) * Note: Margin = Corrected Amplitude – Limit Corrected Amplitude = Radiated Amplitude + Antenna Correction Factor + Cable Loss – Pre-Amplifier Gain A margin of -8dB means that the emission is 8dB below the limit BILOG Antenna Distance: 10 meter, Frequency: under 1000MHz Horn Antenna Distance: 3 meter, Frequency: 1000MHz—18GHz International Standards Laboratory Report Number: ISL-08HE175CE -218. Electrostatic discharge (ESD) immunity 8.1 Electrostatic discharge (ESD) immunity test Port: Basic Standard: Enclosure EN61000-4-2/ AS/NZS 61000.4.2 (details referred to Sec 2.2) Air +/- 2 kV, +/- 4 kV, +/- 8 kV Contact +/- 2 kV, +/- 4 kV B refer to ISL QA T04-S03 26 °C 50% Test Level: Criteria: Test Procedure Temperature: Humidity: Selected Test Point Air: discharges were applied to slots, aperture or insulating surfaces. 10 single air discharges were applied to each selected points. Contact: Total 200 points minimum were to the selected contact points. Indirect Contact Points: 25 discharges were applied to center of one edge of VCP and each EUT side of HCP with 10 cm away from EUT. For final test points, please refer to EUT 6 to EUT 7 of “Appendix: Photographs of EUT”. Red arrow lines indicate the contact points, and blue arrow lines indicate the air points. Test Setup EUT is 1m from the wall and other metallic structure. When Battery test mode is needed, a cable with one 470KΩ resister at two rare ends is connected from metallic part of EUT and screwed to HCP. 10cm For battery VCP: 0.5m x 0.5m test mode 470KΩ EUT 0.5mm insulation HCP: 1.6m x 0.8m Non-Metallic Table 80cm 470K 470KΩ Ground reference Plane Test Result Performance of EUT complies with the given specification. International Standards Laboratory Report Number: ISL-08HE175CE -229. Radio-Frequency, Electromagnetic Field immunity 9.1 Radio-Frequency, Electromagnetic Field immunity test Port: Basic Standard: Test Level:: Modulation: Frequency range: Frequency Step: Dwell time: Polarization: EUT Azimuth Angle Criteria: Test Procedure Temperature: Humidity: Enclosure EN61000-4-3/ AS/NZS 61000.4.3 (details referred to Sec 2.2) 3 V/m AM 1KHz 80% 80 MHz~1 GHz 1% of last step frequency 3s Vertical and Horizontal 0° 90° 180° 270° A refer to ISL QA T04-S017 25°C 49% Test Setup The field sensor is placed at one calibration grid point to check the intensity of the established fields on both polarizations. EUT is adjusted to have each side of EUT face coincident with the calibration plane. A CCD camera and speakers are used to monitor the condition of EUT for the performance judgment. Test Result Performance of EUT complies with the given specification. International Standards Laboratory Report Number: ISL-08HE175CE -23- Electrical Fast transients/burst immunity 10. 10.1 Electrical Fast transient/burst immunity test Port: Basic Standard: AC mains; Twisted Pair LAN Port EN61000-4-4/ AS/NZS 61000.4.4 (details referred to Sec 2.2) AC Power Port: +/- 1 kV Test Level: Twisted Pair LAN Port (I/O Cables): +/- 0.5 kV Rise Time: Hold Time: Repetition Frequency: Criteria: Test Procedure Temperature: Humidity: 5ns 50ns 5KHz B refer to ISL QA T04-S05 26 °C 50% Test Procedure The EUT was setup on a nonconductive table 0.8 m above a reference ground plane. Test Points Line Neutral Ground Line to Neutral Line to Ground Neutral to Ground Line to Neutral to Ground Capacitive coupling clamp Polarity + + + + + + + + - Result N N N N N N N N N N N N N N N N Comment 60 sec 60 sec 60 sec 60 sec 60 sec 60 sec 60 sec 60 sec 60 sec 60 sec 60 sec 60 sec 60 sec 60 sec 60 sec 60 sec Note: ’N’ means normal, the EUT function is correct during the test. International Standards Laboratory Report Number: ISL-08HE175CE -24Test Setup EUT is at least 50cm from the conductive structure. Supply line Test Generator EUT 0.1m insulation support Metallic table 80cm Grounding cable Metal Full Soldered Ground Plane Signal lines 0.1m insulation support Test Generator Capacitive Coupling Clamp Grounding cable EUT 80cm Metallic table Metal Full Soldered Ground Plane Test Result Performance of EUT complies with the given specification. International Standards Laboratory Report Number: ISL-08HE175CE -2511. Surge Immunity 11.1 Surge immunity test Port: Basic Standard: AC mains EN61000-4-5/ AS/NZS 61000.4.5 (details referred to Sec 2.2) AC Power Port: Line to Line: +/- 0.5 kV, +/- 1 kV Line to Earth: +/- 0.5 kV, +/- 1 kV, +/- 2kV Test Level: Rise Time: Hold Time: Repetition Rate: Angle: Criteria: Test Procedure Temperature: Humidity: 1.2us 50us 30 second 0° 90° 180° 270° B refer to ISL QA T04-S04 26°C 50% Test Setup AC power supply and Voltage Supply to EUT To the Peripherals EUT To AC main Supply Test Generator Non-Metallic / Non-Conducted Table 80 cm Metal Full Soldered Ground Plane Test Result Performance of EUT complies with the given specification. International Standards Laboratory Report Number: ISL-08HE175CE -2612. Immunity to Conductive Disturbance 12.1 Immunity to Conductive Disturbance Port: Basic Standard: AC mains; Twisted Pair LAN Port EN61000-4-6/ AS/NZS 61000.4.6 (details referred to Sec 2.2) 3V AM 1KHz 80% 0.15 MHz - 80MHz 1% of last Frequency 3s A refer to ISL QA T04-S08 26°C 50% Test Level:: Modulation: Frequency range: Frequency Step: Dwell time: Criteria: Test Procedure Temperature: Humidity: Test Setup Test Generator 6d 10~30cm B EUT 50 To AE CDN To AC main CDN >3cm 0.1 m support Reference Ground Plane Test Result Performance of EUT complies with the given specification. International Standards Laboratory Report Number: ISL-08HE175CE -2713. Power Frequency Magnetic Field immunity 13.1 Power Frequency Magnetic field immunity test Port: Basic Standard: Enclosure EN61000-4-8/ AS/NZS 61000.4.8 (details referred to Sec 2.2) 1A/m X, Y, Z A refer to ISL QA T04-S02 26°C 50% Test Level: Polarization: Criteria: Test Procedure Temperature: Humidity: Test Setup <3M Induction Coil (1m x 1m) EUT To AC main To AC main Insulation 80cm Non-Metallic Test Generator A E Metal Ground Plane Metal Ground plane strip Ground Reference Plane Test Result Performance of EUT complies with the given specification. International Standards Laboratory Report Number: ISL-08HE175CE -2814. Voltage Dips, Short Interruption and Voltage Variation immunity 14.1 Voltage Dips, Short Interruption and Voltage Variation immunity test Port: Basic Standard: AC mains EN61000-4-11/ AS/NZS 61000.4.11 (details referred to Sec 2.2) >95% in 0.5 period B 30% in 25 period C >95% in 250 period C 0°; 180° 3 times with 10s each refer to ISL QA T04-S01 26°C 50% Test Level: Criteria: Test Level: Criteria: Test Level: Criteria: Phase: Test intervals: Test Procedure Temperature: Humidity: Test Setup EUT AC supply EUT To AE Non-Metallic Table To AC main 80cm Test Generator Ground Reference Plane Test Result Performance of EUT complies with the given specification. International Standards Laboratory Report Number: ISL-08HE175CE -2915. Harmonics 15.1 Harmonics test Port: Active Input Power: Basic Standard: Test Duration: Class: Test Procedure Temperature: Humidity: AC mains >75W EN61000-3-2/AS/NZS61000.3.2 (details referred to Sec 2.2) 2.5min D refer to ISL QA T04-S43 27°C 56% Test Procedure The EUT is supplied in series with shunts or current transformers from a source having the same nominal voltage and frequency as the rated supply voltage and frequency of the EUT. The EUT is configured to its rated current with additional resistive load when the testing is performed. Equipment having more than one rated voltage shall be tested at the rated voltage producing the highest harmonics as compared with the limits. Result Performance of EUT complies with the given specification. International Standards Laboratory Report Number: ISL-08HE175CE -30Test Data Date : 2008/8/5 AM 09:36:10 V4.16 Urms Irms P THDi = = = = 229.9V 0.446A 96.35W 21.0 % Freq Ipk S THDu = = = = 49.987 0.767A 102.6VA 0.20 % Test - Time : 5min Limit Reference: Pmax = 111.76W Range: cf = pf = Class D 2 A 1.718 0.939 ( 100 %) Test completed, Result: PASSED International Standards Laboratory Report Number: ISL-08HE175CE -31Order 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 Freq. [Hz] 50 100 150 200 250 300 350 400 450 500 550 600 650 700 750 800 850 900 950 1000 1050 1100 1150 1200 1250 1300 1350 1400 1450 1500 1550 1600 1650 1700 1750 1800 1850 1900 1950 2000 Iavg [A] 0.4608 0.0007 0.0918 0.0000 0.0115 0.0000 0.0035 0.0000 0.0138 0.0000 0.0058 0.0000 0.0103 0.0000 0.0062 0.0000 0.0136 0.0000 0.0095 0.0000 0.0068 0.0000 0.0000 0.0000 0.0040 0.0000 0.0027 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 Iavg%L [%] 24.163 5.3964 3.1244 24.753 14.720 31.009 21.620 53.802 42.068 33.378 0.0000 23.083 16.863 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 Imax [A] 0.4991 0.0060 0.0964 0.0007 0.0118 0.0005 0.0067 0.0006 0.0154 0.0009 0.0063 0.0010 0.0114 0.0011 0.0109 0.0012 0.0143 0.0011 0.0138 0.0011 0.0084 0.0010 0.0043 0.0009 0.0071 0.0009 0.0062 0.0006 0.0033 0.0007 0.0046 0.0010 0.0049 0.0010 0.0040 0.0009 0.0048 0.0009 0.0038 0.0007 International Standards Laboratory Imax%L [%] Limit [A] 25.378 0.3800 5.5760 0.2124 6.0071 0.1118 27.524 0.0559 16.227 0.0391 34.298 0.0331 37.873 0.0287 56.426 0.0253 60.908 0.0226 41.107 0.0205 22.837 0.0187 41.135 0.0172 39.064 0.0159 22.213 0.0148 33.419 0.0139 37.447 0.0130 32.766 0.0123 40.936 0.0116 34.298 0.0110 Status Report Number: ISL-08HE175CE -3216. Voltage Fluctuations 16.1 Voltage Fluctuations test Port: Basic Standard: Test Procedure Observation period: Temperature: Humidity: AC mains EN61000-3-3/AS/NZS61000.3.3 (details referred to Sec 2.2) refer to ISL QA T04-S44 For Pst 10min For Plt 2 hours 27°C 56% Test Procedure The EUT is supplied in series with reference impedance from a power source with the voltage and frequency as the nominal supply voltage and frequency of the EUT. Result Performance of EUT complies with the given specification. International Standards Laboratory Report Number: ISL-08HE175CE -33Test Data 10 min 120min International Standards Laboratory Report Number: ISL-08HE175CE -3417. Appendix 17.1 Appendix A: Measurement Procedure for Main Power Port Conducted Emissions The measurements are performed in a 3.5m x 3.4m x 2.5m shielded room, which referred as Conduction 01 test site, or a 3m x 3m x 2.3m test site, which referred as Conduction 02 test site. The EUT was placed on non-conduction 1.0m x 1.5m table, which is 0.8 meters above an earth-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 the LISNs were filtered to eliminate ambient signal interference and these filters were bonded to the ground plane. Peripheral equipment required to provide a functional system (support equipment) for EUT testing was powered from the second LISN through a ganged, metal power outlet 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 the distance separating the EUT from the LISN shall be folded back and forth at the center of the lead so as to form a bundle not exceeding 40cm in length. If the EUT is provided with a permanently coiled power cord, bundling of the cord is not required. If the EUT is supplied without a power cord, the EUT shall be connected to the LISN by a power cord of the type specified by the manufacturer which shall not be longer than 1 meter. The excess power cord shall be bundled as described above. If a non-flexible power cord is provided with the EUT, it shall 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 in fixed tuned mode to determine the nature of the emissions and to provide information which could be useful in reducing their amplitude. International Standards Laboratory Report Number: ISL-08HE175CE -3517.2 Appendix B: Measurement Procedure for Telecommunication Port Conducted Emissions The measurements are performed in a 3.5m x 3.4m x 2.5m shielded room, which referred as Conduction 01 test site, or a 3m x 3m x 2.3m test site, which referred as Conduction 02 test site. The EUT was placed on non-conduction 1.0m x 1.5m table, which is 0.8 meters above an earth-grounded. The EUT, any support equipment, and any interconnecting cables were arranged and moved to get the maximum measurement. Power to the EUT was provided through the LISN which has the Impedance (50 Ohm/50uH) vs. Frequency Characteristic in accordance with the standard. Power to the LISN was filtered to eliminate ambient signal interference and this filter was bonded to ground. Peripheral equipment to provide a functional system (support equipment) for EUT testing was powered through a ganged, metal power outlet box bonded to the ground. AC input power for the auxiliary power outlets was obtained from the same filtered source that provides input power to the LISN. If the EUT is supplied with a flexible power cord, if the power cord length in excess of 1 m, the excess cable shall be bundled at approximate center of the power cord with the bundles 30 cm to 40 cm in length. If the EUT is provided with a permanently coiled power cord, bundling of the cord is not required. If the EUT is supplied without a power cord, the EUT shall be connected to the LISN by a power cord of the type specified by the manufacturer which shall be 1 meter in length. If a non-flexible power cord is provided with the EUT, it shall be cut to the length necessary to attach the EUT to the LISN and shall not be bundled. The highest emissions were analyzed in details by operating the spectrum analyzer in fixed tuned mode to determine the nature of the emissions and to provide information could be useful in reducing their amplitude. International Standards Laboratory Report Number: ISL-08HE175CE -3617.3 Appendix C: Test Procedure for Radiated Emissions Preliminary Measurements in the Anechoic Chamber The radiated emissions are initially measured in the anechoic chamber at a measurement distance of 3 meters. Desktop EUT are placed on a wooden stand 0.8 meter in height. The measurement antenna is 3 meters from the EUT. The test setup in anechoic chamber is the same as open site. The turntable rotated 360°C. The antenna height is varied from 1-2.5m. The primary objective of the radiated measurements in the anechoic chamber is to identify the frequency spectrum in the absence of the electromagnetic environment existing on the open test site. The frequencies can then be pre-selected on the open test site to obtain the corresponding amplitude. The initial scan is made with the spectrum analyzer in automatic sweep mode. The spectrum peaks are then measured manually to determine the exact frequencies. Measurements on the Open Site or Chamber The radiated emissions test will then be repeated on the open site or chamber to measure the amplitudes accurately and without the multiple reflections existing in the shielded room. The EUT and support equipment are set up on the turntable of one of 10 meter open field 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 is changed in the vertical plane from vertical to horizontal polarization at each frequency. Both reading are recorded with the quasi-peak detector with 120KHz bandwidth. For frequency between 30 MHz and 1000MHz, the reading is recorded with peak detector or quasi-peak detector. At the highest amplitudes observed, the EUT is rotated in the horizontal plane while changing the antenna polarization in the vertical plane to maximize the reading. The interconnecting cables were 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 the readings. International Standards Laboratory Report Number: ISL-08HE175CE -3717.4 Appendix D: Test Equipment 17.4.1 Test Equipment List Location Conduction Equipment Name Coaxial Cable 1F-C1 Conduction Hygro-Thermo Meter 11 LISN 02 LISN 03 Conduction Conduction Conduction Conduction Conduction Conduction Conduction Radiation Radiation Radiation Radiation Radiation Rad. above 1Ghz Rad. above 1Ghz Rad. above 1Ghz Rad. above 1Ghz Radiation Radiation Brand Model Harbourindustr RG400 ies N/A TH-400 S/N 1F-C1 Last Cal. Date Next Cal. Date 10/25/2007 10/25/2008 ISL-002 02/19/2008 02/19/2009 EMCO R&S 1407 828874/010 07/07/2008 07/07/2008 07/07/2009 07/07/2009 21644 0411602 18711 02/19/2008 02/19/2008 07/12/2008 02/19/2009 02/19/2009 07/12/2009 Schwarzbeck FCKL 1528 Mess-Elektroni k Spectrum Analyzer 05 HP 8594EM BILOG Antenna 10 Sumol JB1 Sciences Coaxial Cable 3F-10M MIYAZAKI 8D-8F Coaxial Cable 3F-3M BELDEN RG-8/U Spectrum Analyzer 12 Advantest R3132 Hygro-Thermo Meter N/A TH-400 10 Horn Antenna 01 EMCO 3115 1528-202 09/05/2007 09/05/2008 3619A00192 A013004-1 02/19/2008 07/24/2008 02/19/2009 07/24/2009 10M-1 3F-3M 130200208 ISL-001 10/25/2007 10/25/2007 03/05/2008 02/19/2008 10/25/2008 10/25/2008 03/05/2009 02/19/2009 9504-4462 10/30/2007 10/30/2008 Horn Antenna 03 COM-Power 100A 02/20/2008 02/20/2009 Microwave Cable RF07-3 Preamplifier 01 HUBER+SUH Sucoflex 103 NER AG. R&S ESMI-Z7 42728/3 07/17/2008 07/17/2009 1045.502 07/17/2008 07/17/2009 Signal Generator 01 EMI Receiver 09 HP 8656B Schwarzbeck FCVU 1534 Mess-Elektroni k 2635A04675 1534-150 08/17/2007 05/08/2008 08/17/2008 05/08/2009 ISN T4 04 Current Probe 01 Capacitive Voltage Probe 01 EMI Receiver 08 Schaffner SOLAR Schaffner International Standards Laboratory 3825/2 ESH3-Z5 831.5518.52 ISN T400 9208-1 CVP2200A AH-826 Report Number: ISL-08HE175CE -38Location Equipment Name EN61K-3-2/3 DC Burn-In Load 02 EN61K-3-2/3 Harmonic/Flicker Test System 03 EN61K-3-2/3 Hygro-Thermo Meter 15 EN61K-4 Hygro-Thermo Meter 14 EN61K-4-,4,5, TRANSIENT 2000 01 8,11 EN61K-4-2 ESD GUN 04 EN61K-4-3 BILOG Antenna 06 EN61K-4-3 Amplifier 80Mz~1GHz 250W EN61K-4-3 Amplifier 800MHz~3.0GHz 60W EN61K-4-3 Broadband coupler 10K~220Mhz EN61K-4-3 Broadband Coupler 80M~1GHz EN61K-4-3 Broadband Coupler 1~4GHz EN61K-4-3 Coaxial Cable Chmb 04-3M-2 EN61K-4-3 Signal Generator 03 EN61K-4-4 Digital Oscilloscope EN61K-4-4 EFT Clamp EN61K-4-5 EN61K-4-5 EN61K-4-6 EN61K-4-6 EN61K-4-6 EN61K-4-6 EN61K-4-6 EN61K-4-6 EN61K-4-6 EN61K-4-6 EN61K-4-6 EN61K-4-6 EN61K-4-6 EN61K-4-6 EN61K-4-6 EN61K-4-6, CISPR 13, Antenna EN61K-4-8 EN61K-4-8 Brand D-RAM EMC Partner S/N 2100-910027 178 Last Cal. Date Next Cal. Date N/A N/A 03/27/2008 03/27/2009 N/A Model DBS-2100 HARMONICS1000 TH-400 ISL-006 02/19/2008 02/19/2009 N/A TH-400 ISL-005 02/19/2008 02/19/2009 EMC Partner 950 10/30/2007 10/30/2008 Schaffner Schaffner AR TRANSIENT2000 NSG 438 CBL6112B 250W1000A 489 2754 312494 03/07/2008 N/A N/A 03/07/2009 N/A N/A AR 60S1G3 312762 N/A N/A Amplifier Research Amplifier Research Werlatone DC2500 19810 N/A N/A DC6180 20364 N/A N/A C5291 6516 N/A N/A Belden RG-8/U N/A N/A 02/27/2008 N/A N/A 02/27/2009 N/A N/A N/A N/A 08/06/2006 08/06/2009 N/A N/A N/A N/A N/A 07/08/2008 07/08/2008 07/08/2008 N/A N/A N/A 07/08/2009 07/08/2009 07/08/2009 N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A 08/17/2007 08/17/2008 07/11/2008 N/A 07/11/2009 N/A Chmb 04-3M-2 Anritsu MG3642A 6200162550 Tektronix TDS 684A B010761 Precision 1604242 CNEFT1000-1 03 CDN-Kit -4 Precision 1604243 CDNKIT100032 CDN Surge Kit 01 EMC-PARTN CDNKIT1000 CDNKIT1000ER T; DN-T1; 24 DN-T2; CN-T1; CN-T2 6dB Attenuator Weinschel 33-6-34 BC5975 Corp Amplifier 4-6 Amplifier 150A100 1-1-R-02157 Research Attenuator 6dB 4-6 BIRO 100-A-FFN-06 0123 CDN M2+M3 Frankonia M2+M3 A3011016 CDN T2 01 Frankonia T2 A3010003 CDN T4 01 FCC Inc. FCC-801-T4 9721 EM-Clamp 01 FCC F-203I-23MM 539 Coaxial Cable 4-6 01-1 Harbour M17/128-RG4 4-6 01-1 Industries 00 Coaxial Cable 4-6 01-2 Harbour M17/128-RG4 4-6 01-2 Industries 00 Coaxial Cable 4-6 01-3 Harbour M17/128-RG4 4-6 01-3 Industries 00 KAL-AD RJ45S BIRO KAL-AD T2 BIRO Passive Impedance FCC FCC-801-150- 9758;9759 Adaptor 4-6 50-CDN Signal Generator 01 HP 8656B 2635A04675 Clamp Meter 4-8 TES Magnetic Field Antenna Precision International Standards Laboratory 3090 TRAIZ44B 990900322 MF1000-23 Report Number: ISL-08HE175CE -39- 17.5 Software for Controlling Spectrum/Receiver and Calculating Test Data Test Item Filename Version EN61000-3-2 HARCS.EXE 4.16 EN61000-3-3 HARCS.EXE 4.16 EN61000-4-3 2.0.P EN61000-4-6 Tile.Exe EN61000-4-6 Application Software EN61000-4-2 N/A 2.0 EN61000-4-4 Tema.EXE 1.69 EN61000-4-5 Tema.EXE 1.69 EN61000-4-8 N/A EN61000-4-11 VDS-2002Rs.EXE Radiation/Conduction Filename 1.13.e 2.00 Version Issued Date Hsichih Conduction EZ EMC 1.1.4.2 2/10/2007 Hsichih Radiation EZ EMC 1.1.4.2 1/24/2007 Lung_Tan Conduction EZ EMC 1.1.4.2 2/10/2007 Lung_Tan Radiation EZ EMC 1.1.4.2 1/24/2007 International Standards Laboratory Report Number: ISL-08HE175CE -4017.6 Appendix E: Layout of EUT and Support Equipment 17.6.1 General Power Main Port Conducted Test Configuration 40 cm EUT Non-Conducted Table 50Ω 50Ω AE CDN 80 cm Metal Ground Plane Printer Control PC International Standards Laboratory LISN LISN Filter Filter Receiver Report Number: ISL-08HE175CE -4117.6.2 General Telecommunication Port Conducted Emission Test Configuration 40 cm EUT Non-Conducted Table 50Ω AE CDN 80 cm Metal Ground Plane Printer Control PC International Standards Laboratory 50Ω LISN LISN Filter Filter Receiver Report Number: ISL-08HE175CE -4217.6.3 General Radiation Test Configuration 10 M 1-4M Non-Conducted Table Load Active EUT Antenna and turntable distance: 10 M 80 cm To Spectrum To Remote Controller To Remote Controller Metal Full Soldered Ground Plane Remote Controller Printer Control PC International Standards Laboratory To Turntable To Antenna Spectrum To Antenna Report Number: ISL-08HE175CE -4317.7 Appendix F: Uncertainty of Measurement The measurement uncertainty refers to CISPR 16-4-2:2003. The coverage factor k = 2 yields approximately a 95 % level of confidence. : ±1.57dB 30MHz~1GHz: ±2.60dB Test item Uncertainty EN61000-4-2 (ESD) ±38.43% EN61000-4-3 (RS) ±2.56dB EN61000-4-4 (EFT) ±17.16% EN61000-4-5 (Surge) ±14.79% EN61000-4-6 (CS) ±2.93dB EN61000-4-8 (Magnetic) ±0.01% EN61000-4-11 (Dips) ±4.61% EN61000-3-2 (Harmonics) ±0.01% EN61000-3-3 (Fluctuations and Flicker) ±0.01% International Standards Laboratory Report Number: ISL-08HE175CE -4417.8 Appendix G: Photographs of EUT Configuration Test Set Up 17.8.1 Photo of Main Power Port Conducted Emission and Telecommunication Port Conducted Emission Measurement Front View International Standards Laboratory Report Number: ISL-08HE175CE -45Back View International Standards Laboratory Report Number: ISL-08HE175CE -4617.8.2 Photo of Radiated Emission Measurement Front View Back View International Standards Laboratory Report Number: ISL-08HE175CE -4717.8.3 Photo of ESD Measurement 17.8.4 Photo of RF Field Strength Susceptibility Measurement . International Standards Laboratory Report Number: ISL-08HE175CE -4817.8.5 Photo of Electrical Fast Transient/Burst Measurement 17.8.6 Photo of Surge Measurement International Standards Laboratory Report Number: ISL-08HE175CE -4917.8.7 Photo of Conductive Measurement 17.8.8 Photo of Magnetic field Measurement International Standards Laboratory Report Number: ISL-08HE175CE -5017.8.9 Photo of Voltage Dips Measurement 17.8.10 Photo of Harmonics and Voltage Fluctuations International Standards Laboratory Report Number: ISL-08HE175CE -5117.9 Photographs of EUT Please refer to the File of ISL-08HE175P International Standards Laboratory Report Number: ISL-08HE175CE
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