TEST REPORT - ICP DAS USA`s I
Contents
1.2. Seda CM NE 18 6 2 Test Procedure Ret t ee iter ee tue 18 6 3 Test Equipimient pee Ie iste iniecta pates 18 6L Test Results coe u tec e qe eee E 19 EN 61000 3 3 Voltage 20 7T L1 Operat ng Environmelt uoo creo te oaa 20 7 2 Test PROCE CUE C nie n MGR 20 TES Test Equipment sua npa ede qc te ptos ees ties inte 20 TE Test tesult on aa ete aa eese ONERE VEM ONG 21 1158574 EIL SEMKO Report No EME 041156 Page 3 of 39 8 61000 4 2 Electrostatic Discharge Immunity Test 22 8 1 Operating Environment 22 8 2 PDTD0S6 Isto SSS Buts 22 TESE Bii m EH EE 22 9 4 TEs COM i DI 22 Me aes 23 8 6 Test d e ass assss 23 9 IEC 61000 4 3 Radiated Radio Frequency Electromagnetic Field Immunity 25 TGS 25 9 T Operating Environment 25 PIDOSCuc M nnl D u 25 9 3 MISI IBN 25 94 Test
3. 8 Subs tandaredss cue ED ERE A eL Say 8 3 2 Mode of operation during the test 8 3 3 Performance Criteria ws uuu eden Quq las vd hag a HO Redon Ed 9 3 4 Performance verification 9 EN 55022 Conducted Emission Test eese 10 4 1 Mains Terminals Emission Test 10 4 1 1 Operating Environment doe idee ni das 10 4 1 2 TIest Procedure eui IRURE 10 4 1 3 Test Equipment seo cire ORE VEREOR er Opa pee usado ter gas rv oe dE re HUE 11 4 1 4 Conducted Emission 11 4 1 5 Uncertainty of Conducted Emission eene 11 4 1 6 Mains Terminals Emission Data 12 EN 55022 Radiated Emission Test eese 14 5A Operaune EnvVifoninentu u u erepta eque nae nent ant 14 5 2 14 nt PR nr ney tte 15 5 4 Radiated Emission 15 5 5 Uncertainty of Radiated 15 5 6 Radiated Emission Test 16 EN 61000 3 2 Harmonics 18 6 1 Operating Environment
4. er ied esr taie 32 2 eee 32 1252 PUN OSE pneus dissidiis obese 32 12 3 Test Set UP s n audes aqa pasas 32 12 4 Test Conditions E 32 ESE Bquipiietib EE Sh 33 12 6 Generation And Calibration Of The Disturbance Signal 33 12 7 Test Resultsz iu taa et aun ERE UR da 34 11758574 EIL SEMKO Report No EME 041156 Page 4 of 39 13 61000 4 11 Voltage Dips Short Interruptions And Voltage Variations 35 inii m 35 15 1 Operating Fn u u gaai 35 13 2 POrp0S62 a ay deuda a ee 35 13 9 Test Setel p oe tech ob emet deeds iles coh 35 3 4 TeSUCODQIUDIE 35 13 9 Test Equipment T 35 13 6 Generation Of The Disturbance Signal 36 MI Gold ecce 36 Appendix A1 External photo of EUT olea anie ie a e eds 37 Appendix Conducted Emission Test 5 38 Appendix B2 Radiated Emission Test 5 39 1175854 EIL SEMKO Report No EME 041156 Page 5 of 39
5. Los qox gt a E GNE NN 4 sides VCP pe e 4 sides 4 25 Note 1 means EUT pass the test Note 2 7 means not applicable Meet criterion operated as intended during and after the test O Meet criterion B operated as intended after the test Meet criterion C loss error of function 455 4 SEMKO Report No EME 041156 Page 24 of 39 Figure 1 ESD Discharge Points 1158574 EIL SEMKO Report No EME 041156 Page 25 of 39 9 IEC 61000 4 3 Radiated Radio Frequency Electromagnetic Field Immunity Test 9 1 Operating Environment Temperature 20 Atmospheric Pressure 1023 hPa Relative Humidity 48 Test Voltage 230Vac 50Hz 9 2 Purpose This test method subjects the EUT to a power source of disturbance comprising electric and magnetic field simulating those coming from intentional RF transmitters 9 3 Test Set Up The EUT was placed on a non metallic table 0 8 m above the reference ground plane RGP and was operated according to its specified operating mode Ferrite tiles absorbers were placed on the RGP between the EUT and the antenna to reduce the reflections from the RGP and its cables were exposed for the electromagnetic field for 1 5m vertically and 1 5m horizontally distance between antenna and 16 3 meter 9 4 Tes
6. H Horizontal V Vertical Frequency Horizontal Result Criteria Remark MHz Vertical Level 80MHz to 1GHz 80MHz to 1GHz Note 1 means the pass the test Note 2 7 means not applicable Meet criterion operated as intended during and after the test L Meet criterion B operated as intended after the test L Meet criterion C loss error of function 1158574 EIL SEMKO Report No EME 041156 Page 28 of 39 10 IEC 61000 4 4 Electrical Fast Transient Burst Immunity Test 10 1 Operating Environment Temperature 20 15 35 Relative Humidity 50 25 75 Atmospheric Pressure 1023 hPa Test Voltage 230Vac 50Hz 10 2 Purpose The purpose of this test is to evaluate the EUT performance during the repetitive transient bursts applied to power port and ports for I O ports For power port testing the EUT was placed on a non metallic table 0 8 m above a reference ground plane RGP and was put into operation according to the specified operating mode 10 3 Test Set Up For I O ports testing the EUT was placed on a non metallic support 0 1 m above a reference ground plane RGP and operated in the operating mode specified 10 4 Test Condition Open circuit output test voltage 11092 and repetition rate of impulses 20 Onpowersupiypon PE poene Level Voltage Repetition rate Voltage peak Repetition rate K
7. 1 2001 amp Flicker PASS Meet the requirements Immunity EN 55024 1998 1 2001 2 2003 Standard Test Type Result Performance Criteria Test Judgment IEC 61000 4 2 Meets tl ts of 1995 A1 1998 A2 ESD test PASS Criterion O Performance Criterion A 2000 IEC 61000 4 3 2002 RS test PASS Criterion A Meo ot Performance Criterion A IEC 61000 4 4 2004 EFT test PASS Criterion he requirements or Performance Criterion A IEC 61000 4 5 2001 Surge test PASS Criterion B Performance Criterion A Meets the requirements of Performance Criterion A IEC 61000 4 11 1994 A1 2001 Dip test PASS 1 gt 95 reduction Performance Criterion B 2 30 reduction Performance Criterion C 3 gt 95 reduction Performance Criterion C Meets the requirements of Voltage Dips 1 gt 95 reduction Performance Criterion A 2 30 reduction Performance Criterion A 3 gt 95 reduction Performance Criterion B Remark The EUT has been tested evaluated and pass the EN 55022 without modification 1175854 EIL SEMKO Report No EME 041156 Page 8 of 39 3 Test Specifications 3 1 Standards EN 55022 1998 1 2000 2 2003 Electromagnetic compatibility requirements for radio disturbance characteristics of information technology equipment EN 61000 3 2 2000 Electromagnetic compatibility
8. Part 3 Limits Section 2 Limits for harmonic current emissions equipment input current 16 A per phase EN 61000 3 3 1995 1 2001 Electromagnetic compatibility Part 3 Limits Section 3 Limitation of voltage fluctuations and flicker in low voltage supply systems for equipment with rated current lt 16A EN 55024 1998 1 2001 A2 2003 Information technology equipment Immunity characteristics Limits and methods of measurement 3 2 Mode of operation during the test The EUT was supplied with 230Vac 50Hz The EUT was tested in normal operating mode Magnetic field immunity test The equipment does not contain devices components susceptitable to magnetic fields therefore the test waived can be ignored 1175854 EIL SEMKO Report No EME 041156 Page 9 of 39 3 3 Performance criteria The performance criteria are based on the general criteria in the standard and specified by the manufacturer derived from the product specification Criteria A The equipment shall continue to operate as intended No performance or loss of function is allowed below performance level specified by manufacturer Criteria B Loss of function is allowed provided the function self recoverable or restored by the operation of the controls by the user in accordance with manufacturers instructions or after the test the equipment shall continue to operate as intended Degradation of performance or loss of function is allowed after the ap
9. 1175854 EIL SEMKO Report No EME 041156 Page 1 of 39 EMC TEST REPORT Report EME 041156 Model No 1 7005 7015 I 7019R 1 7045 1 7045D 1 7051 I 7051D 1 7055 I 7055D 7530 I 87017R I 87018R I 87040 1 87041 M 7017 M 7017 232 M 7017R M 7018 M 7018R M 7019R FR 2053 FR 2057 SG 3016 2541 Issued Date Dec 13 2004 Applicant ICP DAS Co Ltd No 111 Kuangfu N Rd Hukou Shiang Hsinchu Taiwan Test By Intertek Testing Services Taiwan Ltd No 11 Lane 275 Ko Nan 1 Street Chia Tung Li Shiang Shan District Hsinchu City Taiwan This test report consists of 39 pages in total It may be duplicated completely for legal use with the allowance of the applicant It shall not be reproduced except in full without the written approval of Intertek Laboratory The test result s in this report only applies to the tested sample s Project Engineer Reviewed By 1 LAM b Vn j CO Brandon Huang Rico Deng 11758574 SEMKO Report No EME 041156 Page 2 of 39 Table of Contents z General Infofmatlon T u Aa 3 Lal Id n fication of he BW tenete ee e eee tte eee tat 5 1 2 Additional information about the eee 5 1 3 Peripherals equiprient s I ui pet MR Ed las 6 Mixed DAS PH 7 o Test SpectficaloHs o ores conside o De ae oops ausos
10. ase 0 45 90 135 180 215 270 315 Criteria Volt Mode Polarity level n P g P 0 5kV N x 5 I U 3 L P P i A 1kV N _ P X L T P x P 5 G E P E P 1kV 2kV N 5 B 5 5 U G 2 ta P P E P X Note 1 means the pass the test Note 2 7 means not applicable Meet criterion operated as intended during and after the test Meet criterion B operated as intended after the test Meetcriterion C loss error of function 1158574 EIL SEMKO Report No EME 041156 Page 32 of 39 12 IEC 61000 4 6 Immunity To Conducted Disturbances Inducted By Radio Frequency Fields 12 1 Operating Environment Temperature 20 C Atmospheric Pressure 1023 hPa Relative Humidity 50 Test Voltage 230Vac 50Hz 12 2 Purpose The test method subjects the EUT to a power source of disturbance comprising electric and magnetic field simulating those coming from intentional RF transmitters The measurement is for evaluating the performance of EUT when subjected to RF conducted disturbance 12 3 Test Set Up The EUT was placed on a non metallic support 0 1 m above a reference ground plane RGP with the coupling decoupling network CDN placed 0 3 m from the EUT on the The injection clamp was placed 0 3 m from the EUT the RGP 12 4 Test Conditions Test level Modulation 1 1 kHz 80
11. 1 General Information 1 1 Identification of the EUT Product ICPDAS CPU with Converter Model No 7005 Applicant ICP DAS Co Ltd Rated Power 230Vac 50Hz Power Cord 3Cx18AWG x1 5meter with 2 cores Data Cable Fiber cable 1Ometer x 1 Sample receiving date Nov 25 2004 Testing date Nov 26 2004 Dec 8 2004 1 2 Additional information about the EUT The EUT is an ICPDAS CPU with Converter and was defined as information technology equipment According to the hardware aspect we verified the models listed as below are series model to I 7005 EUT the difference please refer to the following table Model Number Firmware I 7005 8 channel Thermistor Input and 6 channel Alarm Output Module I 7015 6 channel RTD Input Module I 7019R 8 channel Universal Analog Input Module I 7045 16 channel Isolated Digital Output Module I 7045D I 7045 with LED Display I 7051 16 channel Isolated Digital Input Module I 7051D 16 channel Isolated Digital Input Module I 7055 8 channel Isolated Digital Input and 8 channel Isolated Digital Output Module I 7055D 8 channel Isolated Digital Input and 8 channel Isolated Digital Output Module 1 7530 Intelligent RS 232 to CAN converter I 87017R 8 channel Analog Input Module 1080274 SEMKO Report No EME 041156 Page 6 of 39 Model Number Firmware I 87018R 8 channel Thermocouple Inpu
12. AM 2 1 kHz 80 AM 3 1 kHz 80 AM X Special 1 kHz 80 AM The frequency steps 1 Log sweep Dwell time 3 sec Frequency range 150kHz to 80 Test ports AC port Signal port Test voltage 3Vrms 1175854 EIL SEMKO Report No EME 041156 Page 33 of 39 12 5 Test Equipment Equipment Manufacture Model No Intertek ID No Next Cal Date RF signal Generator 2024 EC301 07 11 2005 PONE 7571 EP314 N A Amplifier Coupling network 4412 016 EC305 01 05 2005 instrument Coupling network 4413 016 EC306 01 05 2005 instrument RF Power Meter Boonton 4230 EC302 07 14 2005 RF Injection Clamp 101 EC308 01 05 2005 Coupling And Schaffn r CDN T400 EC385 04 01 2005 Decoupling Network J Note The above equipments are within the valid calibration period 12 6 Generation And Calibration Of The Disturbance Signal The disturbance signal is generated from a computer controlled signal generator The output signal is amplified and injected to the CDN injection clamp The disturbance signal level was calibrated as specified in the standard A power meter was connected to the EUT side of the CDN through a 150 50Q adapter The auxiliary equipment AE side of the network was terminated with 150Q to ground during the calibration The generator settings obtained during the calibration procedure were later repeated in the tests 1175854 EIL SEMKO Report No EME 0411
13. Corr Factor AMN Factor dB Cable Loss dB 2 Margin dB Level dBuV Limit dBuV go Level dBuV Dat 2004 12 07 Time 11 16 44 30 Frequency MHz Phase Model No Neutral 7005 455 4 SEMKO Report No 041156 Page 13 of 39 Test Condition Normal operating mode Phase NEUTRAL NEUTRAL NEUTRAL NEUTRAL NEUTRAL NEUTRAL Remark Frequency MHz 155 182 244 288 488 682 Corr Factor Level Limit Level Limit Margin p 0 AV ay dBuV dBuV dBuV p 63 14 65 74 27 65 55 74 2 60 28 09 60 61 64 41 27 61 54 41 3 80 26 80 57 03 61 94 32 51 51 94 4 91 19 43 54 87 60 57 22 23 50 57 5 70 28 34 43 10 56 21 22 69 46 21 13 11 23 52 42 59 56 00 9 64 46 00 13 41 36 36 1 Corr Factor dB AMN Factor dB Cable Loss dB 2 Margin dB Level dBuV Limit dBuV en Level dBuV Date 2004 12 07 Time 11 24 49 2 Frequency MHz 1158574 EIL SEMKO Report No EME 041156 Page 14 of 39 5 EN 55022 Radiated Emission Test 5 1 Operating Environment Temperature 28 10 40 C Atmospheric Pressure 1023 hPa 860 1060hPa Relative Humidity 40 10 90 Test Voltage 230Vac 50Hz 5 2 Test Procedure Antenna Tower Receiver Antenna RF Test Receiver Radiated testing was performed at a 10 meters open area test site The equipment under test were placed on a turntable top 0
14. SEMKO 041156 Page 16 39 5 6 Radiated Emission Test Data Polarity Vertical Model No 1 7005 Test Condition Normal operating mode Read Limit Over Ant Table Freq Pol Phase Factor Level Level Line Limit Pos Pos Remark dB dBuV dBuV m dBuV m X dB deg 34 9 VERTICAL 16 85 5 42 23 27 30 00 6 73 100 285 100 8 VERTICAL 13 18 11 21 24 39 30 00 5 61 100 186 129 9 VERTICAL 14 42 6 96 21 38 30 00 8 62 100 273 255 0 VERTICAL 15 98 14 47 30 45 37 00 6 55 100 62 QP 383 1 VERTICAL 19 47 1 17 20 64 37 00 16 36 100 92 QP 511 1 VERTICAL 22 04 4 54 26 58 37 00 10 42 100 219 Remark 1 Level dBu V m Factor dB m Read Level 2 Factor Antenna Factor dB m Cable Loss dB 3 Over Limit Margin dB Level dBu Limit Line dBu V m 60 Level dBu im Date 12 01 2004 Time 16 24 31 Q 30 224 418 612 806 1000 Frequency MHz 455 4 SEMKO 041156 Page 17 39 Polarity Horizontal Model No I 7005 Test Condition Normal operating mode Read Limit Over Ant Table Freq Pol Phase Factor Level Level Line Limit Pos Pos Remark MHz dB dB cm deg 95 0 HORIZONTAL 12 18 1 36 13 54 30 00 16 47 385 127 110 5 HORIZONTAL 14 08 0 23 14 31 30 00 15 69 359 284 QP 191 0 HORIZONTAL 11 67 1 28 12 95 30 00 17 05 342 182 255 0 HORIZONTAL 15 98 5 82 22 80 37 00 14 20 32
15. valid calibration period 1080274 SEMKO Report No EME 041156 Page 19 of 39 6 4 Test Result EUT 1 7005 CLASSIFICATION CLASS A SUMMARY RESULT PASS Harmonic Current Results Hn AMPs 5 Result Hn AMPs Result 1 0 130 Pass 2 0 001 0 107 Pass 2 0 008 1 080 Pass 22 0 001 0 084 Pass 3 0 023 2 300 Pass 23 0 001 0 098 Pass 4 0 003 0 430 Pass 24 0 000 0 077 Pass 5 0 015 1 140 Pass 22 0 001 0 090 Pass 6 0 003 0 300 Pass 26 0 000 0 071 Pass 7 0 004 0 770 Pass 27 0 001 0 083 Pass 8 0 002 0 230 Pass 28 0 000 0 066 Pass 9 0 002 0 400 Pass 29 0 001 0 078 Pass 10 0 0001 0 184 Pass 30 0 000 0 061 Pass 11 0 002 0 330 Pass 31 0 001 0 073 Pass 12 0 001 0 153 Pass od 0 000 0 058 Pass 13 0 002 0 210 Pass 33 0 001 0 068 Pass 14 0 001 0 131 Pass 34 0 000 0 054 Pass 15 0 002 0 150 Pass 35 0 000 0 064 Pass 16 0 001 0 115 Pass 36 0 000 0 051 Pass 17 0 001 0 132 Pass 37 0 000 0 061 Pass 18 0 001 0 102 Pass 38 0 000 0 048 Pass 19 0 001 0 118 Pass 39 0 001 0 058 Pass 20 0 001 0 092 Pass 40 0 000 0 046 Pass 11758574 EIL SEMKO Report No EME 041156 Page 20 of 39 7 EN 61000 3 3 Voltage Fluctuations Flicker 7 1 Operating Environment Temperature 25 C Atmospheric Pressure 1023 hPa Relative Humidity 56 Test Voltage 230Vac 50Hz 7 2 Test Procedure The
16. 10 Sec 096 Open Circuit 250 3 10 Sec 13 5 Test Equipment Equipment Manufacturer Model No Intertek ID No Next Cal Date Dip Tester Keytek EMC Pro EC313 09 24 2005 Note The above equipments are within the valid calibration period Iia 24 EIL SEMKO Report No EME 041156 Page 36 of 39 13 6 Generation Of The Disturbance Signal The disturbance signal is generated using a programmable AC power source with pre programmed test sequences for each test 13 7 Test Result I Dip of mains voltage Level of rated Level Period os Time Level 29596 Di 096 Short Circuit 0 5 10 Sec Seas gt 95 Dip 0 Open Circuit E C A 2 3096 Dip 70 10 Sec Test Reduction Test Duration Recovery Criteria Test Test Duration Tests Recovery Criteria Item Level Time Level 1 B 2 0 Open Circuit 10 Sec B Meet criterion operated as intended during and after the test Meet criterion B operated as intended after the test O Meet criterion C loss y error of function WELGI SEMKO Report No EME 041156 Page 37 of 39 Appendix A1 External photo of EUT WELGI SEMKO Report No EME 041156 Page 38 of 39 Appendix B1 Conducted Emission Test Set up 11758024 SEMKO Report No EME 041156 Page 39 of 39 Appendix B2 Radiated Emission Test Set up
17. 4 294 QP 397 6 HORIZONTAL 20 22 3 05 23 27 37 00 13 73 338 510 2 HORIZONTAL 22 02 3 91 25 93 37 00 11 07 308 41 Remark 1 Level dBu V m Factor dB m Read Level V 2 Factor Antenna Factor dB m Cable Loss dB 3 Over Limit Margin dB Level dBu Limit Line dBu V m Level dBu im Date 12 01 2004 Time 16 43 08 60 30 30 224 418 612 806 1000 Frequency MHz 1175854 EIL SEMKO Report No EME 041156 Page 18 of 39 6 EN 61000 3 2 Harmonics 6 1 Operating Environment Temperature 25 C Atmospheric Pressure 1023 hPa Relative Humidity 56 Test Voltage 230Vac 50Hz 6 2 Test Procedure Harmonics of the fundamental current were measured up to 2 kHz using a digital power analyzer The test voltage was supplied from an AC source which meets the requirements according to the standard The steady state harmonic current measurements were carried out using averaging The transitory harmonics were measured during an observation period of 2 5 minutes The disturbance duration time limit 15 s is defined as the total time under which the transitory harmonics exceeds the limit level for steady state harmonics during an observation period of 2 5 minutes 6 3 Test Equipment Equipment Brand Model No Intertek ID Next Cal Date Emission EMC Partner HARMONICS 1000 EC364 10 07 2005 Note The above equipments are within the
18. 56 Page 34 of 39 12 7 Test Results F Criteri Test Port Line Result MEE Remark MHz Level 0 15MHz to 80MHz 0 15MHz to 80MHz Signal Line Note 1 means the pass the test Note 2 7 means not applicable Meet criterion operated as intended during and after the test Meetcriterion B operated as intended after the test Meetcriterion C loss error of function Iia 24 EIL SEMKO Report No EME 041156 Page 35 of 39 13 IEC 61000 4 11 Voltage Dips Short Interruptions And Voltage Variations Immunity Test 13 1 Operating Environment Temperature 20 15 35 Atmospheric Pressure 1023 hPa Relative Humidity 50 25 75 Test Voltage 230Vac 50Hz 13 2 Purpose The object of this standard is to establish a common reference for evaluating the immunity of electrical and electronic equipment when subjected to voltage dips short interruptions and voltage variations 13 3 Test Set Up The EUT was placed on a non metallic support 0 8 m above a reference ground plane and was put into operation according to the specified operating mode 13 4 Test Condition Reduction Test Duration Tests Recovery of rated Level Period Time gt 95 0 Short Circuit 10 Sec gt 95 Dip 0 Open Circuit 10 Sec 3096 Dip 70 25 3 10 Sec Test Duration Period Tests Recovery Time 096 Short Circuit
19. 8 m above ground The table was 360 degrees to determine the position of the highest radiation EUT is set 10 meters from the EMI receiving antenna which is mounted on a variable height mast The antenna height is varied between one meter and four meters above ground to find the maximum value of the field strength Both horizontal polarization and vertical polarization of the antenna was set to conduct the measurement The bandwidth was set on the EMI meter 120 KHz The levels are quasi peak value readings The frequency spectrum from 30 MHz to 1000 MHz was investigated 1080274 SEMKO Report No EME 041156 Page 15 of 39 5 3 Test Equipment Equipment Brand Model No Intertek ID No Next Cat Date EMI Receiver 06 18 2005 EMI Spectrum 07 14 2005 Turn Table 06 06 2005 Bilog Antenna 02 06 2005 Antenna Tower 06 06 2005 Ferrite Clamp Rohde amp Schwarz EZ 24 N A Note The above equipments are within the valid calibration L 5 4 Radiated Emission Limit Frequency MH2 Distance m Class A dBu V m Class B dBu V m 30 230 30 230 1000 37 Note 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 closest point of EUT 5 5 Uncertainty of Radiated Emission Expanded uncertainty k 2 of radiated emission measurement is 3 58 dB 455 4
20. Conditions en 25 9 3 Test EQUIPMENT ce Qn ce dieu endete ae eee Nod 26 9 6 Generation Of The Electromagnetic Field 26 9 7 Test ISesulls sott ed tui bi 27 10 61000 4 4 Electrical Fast Transient Burst Immunity Test 28 10 T Op raimp BnyirOnmeHE ee nme ent ne ed A OM 28 10 2 PUFDOS i bi e RO Te RE a KU Ie OUR 28 10 3 Test Set Dioec deben eid medii aiite utin 28 IU 4 Test Condition accede nit bete Porta 28 IORSMIES Biden 29 Test SU uude 29 11 61000 4 5 Surge Immunity 2 4 00 00 30 II Operaung Environment tI 30 Bul 30 LES Test Set Hp 30 11 4 Test COnditODs Sum n Dua 30 11 9 Test Equipment 31 PLOS Test rg tats 31 12 61000 4 6 Immunity To Conducted Disturbances Inducted By 32 Radio Prequency Pields
21. SEMKO Report No EME 041156 Page 11 of 39 4 1 3 Test Equipment Equipment Brand Model No Intertek ID No Next Cal Date EMI Receiver Rohde amp Schwarz ESCS 30 EC318 06 18 2005 AMN Rohde amp Schwarz EHS3 Z5 EC320 01 08 2005 AMN Rohde amp Schwarz ESH3 Z5 EC344 01 14 2005 Shield Room N A N A N A N A Note The above equipments are within the valid calibration period 4 1 4 Conducted Emission Limit Freq Maximum RF Line Voltage MHz Class dBu V Class B V Avg 0 15 0 50 56 46 0 50 5 00 46 5 00 30 0 50 4 1 5 Uncertainty Conducted Emission Expanded uncertainty k 2 of conducted emission measurement is 2 6 dB 455 4 SEMKO Report No EME 041156 Page 12 of 39 4 1 6 Mains Terminals Emission Data Phase Line Model No 7005 Test Condition Normal operating mode Corr Level Limit Level Limit Margin Phase Frequency Factor Qp Qp AY MHz dB dBuV dBuV dBuV dBuV p LINE 0 150 0 10 62 87 66 00 29 24 56 00 3 13 26 76 LINE 0 180 0 10 60 49 64 48 16 93 54 48 3 99 37 55 LINE 0 206 0 10 58 82 63 35 0 10 53 35 4 53 53 25 LINE 0 246 0 10 56 71 61 90 34 33 51 90 5 19 17 57 LINE 0 291 0 10 53 70 60 50 23 18 50 50 6 80 27 32 LINE 0 335 0 10 52 54 59 32 20 76 49 32 6 78 28 56 LINE 0 709 0 10 42 51 56 00 7 35 46 00 13 49 38 65 LINE 1 465 0 11 33 32 56 00 17 88 46 00 22 68 28 12 Remark 1
22. V kHz KV kHz 1 0 5 5 100 0 25 5 100 2 1 5 100 0 5 5 100 3 2 5 100 1 5 100 4 4 5 100 2 5 100 X Special Special Special Special NOTE 1 Use of 5 kHz repetition rates is traditional however 100 kHz is closer to reality Product committees should determine which frequencies are relevant for specific products or product types NOTE 2 With some products there may be no clear distinction between power ports and I O ports in which case it is up to product committees to make this determination for test purposes 1 x is an open level The level has to be specified in the dedicated equipment specification MELJ SEMKO Report No EME 041156 Page 29 of 39 10 5 Test Equipment Equipment Manufacture Model No Intertek ID No Next Cal Date EFT Burst Tester Keytek 40 12 07 25 2005 Note above equipments are within the valid calibration period 10 6 Test Results Level Polarity er Control ine Level pup wp o xe o ld ed EE NE P A P A Ee up cet P A 4 MUCH 4kV 2 I Note 1 means pass the test Note 2 7 means not applicable Meet criterion operated as intended during and after the test Meetcriterion B opera
23. plication of the phenomena below a performance level specified by the manufacturer During the test degradation of performance is allowed However no change of actual operating state or stored data is allowed Criteria C Temporary degradation or loss of function or performance that requires operator Intervention or system reset 3 4 Performance verification The EUT has been monitored or observed based on manufacturer s specification the performance fulfilled the requirements of standard 1158574 EIL SEMKO Report No EME 041156 Page 10 of 39 4 EN 55022 Conducted Emission Test 4 1 Mains Terminals Emission Test 4 1 1 Operating Environment Temperature 23 10 40 Atmospheric Pressure 1023 hPa 860 1060hPa Relative Humidity 55 10 9096 Test Voltage 230Vac 50Hz 4 1 2 Test Procedure AC Power AMN EUT Peripherals EMI Receiver The EUT along with its peripherals were placed on a 1 0m W x1 5m L and 0 8m in height wooden table and the was adjusted to maintain a 0 4meter space from a vertical reference plane The EUT was connected to power mains through a Artificial Mains Network AMN which provided 50 ohm coupling impedance for measuring instrument and the chassis ground was bounded to the horizontal ground plane of shielded room The excess power cable between the EUT and the AMN was bundled All connecting cables of EUT and peripherals were moved to find the maximum emission 1080274
24. t Conditions Test level Teste pah Modulation V m 1 1 kHz 80 AM 2 1 kHz 80 AM 3 1 kHz 80 AM X Special 1 kHz 80 AM The frequency steps 1 Log sweep Dwell time 3 sec Frequency range 80MHz 1GHz Test ports Enclosure port Test field strength 3V m 11758574 EIL SEMKO Report No EME 041156 Page 26 of 39 9 5 Test Equipment Equipment Manufacture Model No Intertek ID No Next Cal Date Comtest 9708093 EC328 06 17 2005 7mx3mx3m Instrumentation RF signal Generator 2024 EC301 07 11 2005 Pal Bane rower 757LCB EP314 N A Amplifier High Power Microwave wr MEGA 50102 30 EP318 N A Amplifier Series Bi log Antenna EMCO 3141 EC304 12 17 2005 RF Power Meter 4230 EC302 07 14 2005 Field Probe Holaday HI 4422 EC307 07 08 2005 Note The above equipments are within the valid calibration period 9 6 Generation Of The Electromagnetic Field The electromagnetic field is generated from a computer controlled signal generator The output power is amplified and then radiated from broadband log periodic antennas For each sweep a pre recorded empty chamber calibration file is used to establish the required field strength When using these files the field strength inside an area of 1 5 1 0 m x 1 5m is in accordance with the standard 1175854 EIL SEMKO Report No EME 041156 Page 27 of 39 9 7 Test Results Exposed Side X Front Left Rear Right
25. t Module 87040 32 channel Isolated Digital Input Module I 87041 32 channel Isolated Digital Output Module M 7017 8 channel Analog Input Module M 7017 232 8 channel Analog Input Module M 7017R 8 channel Analog Input Module with High Over Voltage Protection M 7018 8 channel Thermocouple Input Module M 7018R 8 channel Thermocouple Input Module with High Over Voltage Protection 7019 8 channel Universal Input Module with High Over Voltage Protection FR 2053 16 channel Isolated Digital Input Module FR 2057 16 channel Isolated Digital Output Module SG 3016 Isolated Strain Gauge Input Module I 2541 RS 232 422 485 to Fiber Optic Converter For more detail features please refer to user s Manual 1 3 Peripherals equipment Peripherals Manufacturer Product No Serial No Notebook PC Dell PPOIL CN 03P83 48643 330 3930 Fiber Optic Converter ICP DAS I 2541 N A 1175854 EIL SEMKO Report No EME 041156 Page 7 of 39 2 Test Summary Emission Standard Test Type Result Remarks EN 55022 1998 Conducted Test PASS 2 dB 0 155 MHz 1 2000 2 2003 Class 5 d Radiated Test PASS Pass by 5 61 dB at 100 8 MHz With antenna polarization vertical EN 61000 3 2 2000 Harmonic current IEC 61000 4 6 2003 CS test PASS Criterion A Class Emissions PASS Meet the requirements EN 61000 3 3 1995 Voltage fluctuation
26. ted as intended after the test Meetcriterion C loss error of function 11758574 EIL SEMKO Report No EME 041156 Page 30 of 39 11 IEC 61000 4 5 Surge Immunity Test 11 1 Operating Environment Temperature 20 15 35 Atmospheric Pressure 1023 hPa Relative Humidity 50 10 75 Test Voltage 230Vac 50Hz 11 2 Purpose The object of this test is to establish a common reference to evaluate the performance of EUT when subjected to high energy disturbances on the power and interconnection lines 11 3 Test Set Up The EUT was placed on a non metallic support 0 8 m above a reference ground plane and was put into operation according to the specified operating mode 11 4 Test Conditions For power supply line Level Open m Remark 1 0 5 to L2 2 1 0 L1 to L2 20 L2 to Gnd 4 4 0 X Special Note X is an open class This level can be specified in the product specification Surge wave form 1 2 x 50 us Repetition rate 1 min max 1080274 SEMKO Report No EME 041156 Page 31 of 39 11 5 Test Equipment Equipment Manufacture Model No Intertek ID No Next Cal Date Surge Tester Key Tek EMC Pro EC313 09 24 2005 Note The above equipments are within the valid calibration period 11 6 Test Results Test 5 times for each voltage Ph
27. voltage changes at the supply terminals were measured using the voltage method The test voltage was supplied from an AC source which meets the requirements according to the standard voltage source has virtually zero internal impedance and is connected 1 phase 7 0 4 0 250 total impedance 3 phases Impedance in line conductor Za 0 25 j 0 25 Impedance in neutral conductor Zn 0 15 0 10 The short term flicker Ps is measured during a time interval of 10 minutes The long term flicker Pi is evaluated from 12 subsequently measured short term flicker values 7 3 Test Equipment Equipment Brand Model No Intertek ID Next Cal Date EMC Emission EMC Partner HARMONICS 1000 EC364 10 07 2005 Note The above equipments are within the valid calibration period Intertek 7 4 Test result EUT 1 7005 SUMMARY RESULT TEST CONDITIONS EUT DATA Pst max 0 010 max 0 010 d 0 15 dmax 0 30 do Sec 0 00 ETL SEMKO PASS Report No EME 041156 Page 21 of 39 STANDARD TEST CONDITIONS LIMIT 1 00 0 65 3 30 4 00 0 50 RESULT PASS PASS PASS PASS PASS TEST ENABLED D Nur Iia 24 EIL SEMKO Report No EME 041156 Page 22 of 39 8 IEC 61000 4 2 Electrostatic Discharge Immunity Test 8 1 Operating Environment Temperature 20 15 35 Atmospheric Pressure 1023 hPa Relative Humidity 48 30 60 Test Voltage 230Vac 50H
28. z 8 2 Purpose The object of the test is to evaluate the ESD immunity performance of EUT 8 3 Test Set Up A horizontal coupling plane HCP was placed on a non metallic table 0 8 m above a reference ground plane RGP and connected to it with a cable with two 470 resistors EUT was placed on an insulation sheet the was operated according to the specified operating mode A vertical coupling plane VCP was connected to the RGP with a cable with two 470 k resistors 8 4 Test Conditions Test level Airdischarge 8kV Contact discharge 4kV Single discharge at 1 second interval positive discharge and negative discharge The selected test points are listed in this table the numbers refer to the figures attached 1080274 SEMKO Report No EME 041156 Page 23 of 39 8 5 Test Equipment Equipment Manufacturer Model No Intertek ID No Next Cal Date Electrostatic Discharge NoiseKen ESS 2002 EC362 06 17 2005 System Note The above equipments are within the valid calibration period 8 6 Test Result Applied Total No of Criteria Point of Discharge Voltage Discharge Result level Remark kV Each Point 1 Contact Point 6 14 Refer to figure attached 1 i N 1 Air Point 1 5 Refer to figure attached 1 NEUE I AE ECC ENS S ARE
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