Zippy Technology MRG-5800V4V power supply unit
Contents
1. ZIPPY Name Name MODEL MRG 5800V4V REPORT NO 10090203 APPLICATION FOR CERTIFICATION ON Behalf Of ZIPPY TECHNOLOGY CORP SWITCHING POWER SUPPLY MRG 5800V4V FCCID N A PREPARED FOR ZIPPY TECHNOLOGY CORP 10F No 50 MIN CHYUAN RD SHIN TIEN TAIPEI HSIEN TAIWAN R O C REPORT BY ZIPPY TECHNOLOGY CORP 10F No 50 MIN CHYUAN RD SHIN TIEN TAIPEI HSIEN TAIWAN R O C TEL 02 2918 8512 FAX 02 2913 4969 MODEL MRG 5800V4V REPORT NO 10090203 TABLE OF CONTENTS Description Page 1 Test Report 2 0 5 2 General Information EE 6 2 1 Production Description UG AR RR M gon 6 24 Dested System Me cat 7 2 REO VEER 7 243 Test Methodology E 7 ET E huyu 7 3 Electronic Magnetic Interference 8 S LAC onducied Power Line Td ees aate Ten EM d o DU VIG 8 SON EN KE io ore Med ross rund eb A pta RCM dp ge PER ideas 8 3 1 2 Block Diagram of Test A A EN EEN 8 3 1 3 Conducted Powerline Emission a sd 9 3 1 4 EUT Configuration on 2 2 9 BUT Exercise SOmw ale uns b M hu2. N A Test Phase Reduction Duration Result Voltage Angle Periods gt 270 deg 115V 29 ER 30 180 deg HE A MCN 95 95 2 E 2 T 95 0 0 0 2 2 2 2 5 5 5 5 2 2 0671 90 deg PE EM SC 5 2 2 2 3 3 5 5 5 5 5 0 0 0 0 5 5 5 5 0 0 0 0 32 MODEL MRG 5800V4V REPORT NO 10090203 12 Photographs Front view of Power Supply 2 Back view of Power Supply 33 MODEL MRG 5800V4V REPORT NO 10090203 3 Front view of Power Supply 4 Back view of Power Supply o 34 MODEL MRG 5800V4V REPORT NO 10090203 5 Component side of Mainboard 6 Solder side of Mainboard f Shock Test Touching Presents ink 3 9 3 Risk Before Heat 35 MODEL MRG 5800V4V REPORT NO 10090203 7 Component side of Mainboard 8 Solder side of Mainboard 2 3047576778791 30900 05596 36 MODEL MRG 5800V4V REPORT NO 10090203 9 Inside view of Power Supply 10 Inside view of Power Supply Test ink Presents Heat Risk of 37 MODEL MRG 5800V4V REPORT NO 10090203 11 Inside view of Power Supply 12 Test view 38 MODEL MRG 5800V4V REPORT NO 10090203 13 EMI Reduction Method During Compliance Testing 1 No modification was made during tes
3. 274 0 344 0 412 0 48 29 4 29 6 29 95 Frequency MHz 0 206 0 276 0 342 0 348 0 41 0 478 0 484 19 45 limit exceeded N220V 8 Ranges Frequencies Stop Step IF BW Detector 500kHz 2kHz 10kHz QP AV 5MHz 20kHz 10kHz QP AV 30MHz 50kHz 10kHz QP AV No Start Stop Name 1 9kHz 30MHz CEB Detectors X QP AV Meas Time see scan settings Peaks 8 Acc Margin 25 dB QP Level QP Limit QP Delta Phase dBuV dBuV dB 53 34 63 37 10 03 N 48 44 61 00 12 56 N 45 85 59 11 13 26 N 43 08 57 61 14 53 N 40 97 56 34 15 37 N 42 42 60 00 17 58 N 41 45 60 00 18 55 N 43 72 60 00 16 28 N AV Level AV Limit AV Delta Phase dBuV dBuV dB 49 00 53 37 4 37 N 43 95 50 94 6 99 N 42 05 49 15 7 10 N 39 68 49 01 9 33 N 39 41 47 65 8 24 N 37 08 46 37 9 29 N 36 15 46 27 10 12 N 40 15 50 00 9 85 N Indicated Phase PE shows Configuration of max Emission PAGE 2 Receiver Settings M Time 1msec 1 1 gnd gnd gnd gnd gnd gnd gnd gnd PE gnd gnd gnd gnd gnd gnd gnd gnd Atten Auto Auto Auto Preamp OFF OFF OFF OpRge 60dB 60dB 60dB MODEL MRG 5800V4V REPORT NO 10090203 3 2 Radiation Emission Test 3 2 Test Equipment The following test equipment s are used during the radiated emission test Log Periodic Ant 3146 Jun 2010 Dipole Antenna 3121 2010 3 2 2 Test Setup 3 2 2 Block Diagram of Connection between EUT and simulators Eq
4. Bn 46 6 600 13 1 913 8 249 H BZ 8 083 14 6 668 6 0068 Current range Appl EUROPE 1212 28 MODEL MRG 5800V4V REPORT NO 10090203 8 Voltage Fluctuation And Flicker Test DATE OF TEST SEP 02 2010 TEMPERATURE 26C EUT SWITCH POWER SUPPLY HUMIDITY 65 TEST MODE MRG 5800V4V DISPLAY PATTERN N A 29 MODEL MRG 5800V4V REPORT NO 10090203 9 Surge Immunity Test DATE OF TEST 5 02 2010 TEMPERATURE 26C EUT SWITCH POWER SUPPLY HUMIDITY 65 TEST MODE MRG 5800V4V DISPLAY PATTERN N A 2000v MATNS LIPE ti ode 5 Pes iom 20001 MAINSLIPE Lr 5 Late Pes 12 Ohm 5 12 Ohm 12 Ohm 12 Ohm 12 Ohm 12 Ohm 30 MODEL MRG 5800V4V REPORT NO 10090203 10 Conducted Immunity Test DATE OF TEST SEP 02 2010 TEMPERATURE 26 EUT SWITCH POWER SUPPLY HUMIDITY 6596 TEST MODE MRG 5800V4V DISPLAY PATTERN N A Frequency Range Polarity Field Strength Results A NM ENS 0 80 Pass INJECTION DIRECT Type TEST CONDITION Step 1 Dwell Time 3sec Test result Criteria A 3l MODEL MRG 5800V4V REPORT NO 10090203 11 Voltage Dip Interruptions Immiunity Test DATE OF TEST SEP 02 2010 TEMPERATURE 26 EUT SWITCH POWER SUPPLY HUMIDITY 6596 TEST MODE MRG 5800V4V DISPLAY PATTERN
5. Commission requirement and operating in a manner which tends to maximize its emission characteristics in a normal application 3 2 5 Operation Condition of EUT Same as Conducted Power Line Test which 15 listed in 3 1 5 3 2 6 Radiated Emission Data The measurement range of radiated emission which is from 30 MHz to 1000 MHz was investigated The initial step in collecting conducted data is a spectrum analyzer peak scan of the measurement range for all the test modes Then the worst modes were reported the following data pages 3 2 7 Test Photo and Setup During the radiated test the power supply has to test with chassis which is not allowed to be operated stand alone For user final assembly has to comply with corresponding EMC and safety regulations 13 MODEL MRG 5800V4V REPORT NO 10090203 Radiated Emission Data DATE OF TEST TEMPERATURE EUT HUMIDITY TEST MODE DISPLAY PATTERN Frequenc Emission Level Limits y Horizontal Remark MHz dBuV m dBuV m MODEL MRG 5800V4V REPORT NO 10090203 Radiated Emission Data DATE OF TEST TEMPERATURE EUT HUMIDITY TEST MODE DISPLAY PATTERN Frequency Limits Remark dBuV m dBuV m MODEL MRG 5800V4V REPORT NO 10090203 Horizontal Curve Vertical Curve MODEL MRG 5800V4V REPORT NO 10090203 4 ESD Measurement 4 Test Equipment The following test equipment s are used during the ESD test ESD Simulator system MZ 15 EC M
6. Declaration of Conformity We Manufacturer ZIPPY TECHNOLOGY CORP 10F No 50 MIN CHYUAN RD SHIN TIEN TAIPEI HSIEN TAIWAN R O C declare that the product description of the apparatus system installation to which it refers SWITCHING POWER SUPPLY MRG 5800V4V is in conformity with reference to the specification under which conformity is declared 1 accordance with 2004 108 EC EMC Directive MEN 55022 2006 A 1 2007 Information technology equipment Radio disturbance characteristics Limits and methods of measurement MEN 55024 1998 1 2001 2 2003 Information technology equipment Immunity characteristics Limits and methods of measurement WEN 61000 4 2 2009 Criteria Electrostatic discharge requirements ESD MEN 61000 4 3 2006 A1 2008 Criteria Radiated radio frequency electromagnetic field WEN 61000 4 4 2004 Criteria B Electrical fast transient requirements EFT Manufacturer WEN 61000 4 5 2006 Criteria B Surge Immunity requirements WEN 61000 4 6 2007 Criteria Conducted Immunity MEN 61000 4 8 1993 1 2001 Criteria Power Frequency Magnetic Field Immunity MEN 61000 4 11 2004 Dip Criteria B Interruptions Criteria C Voltage Dip interruptions Immunity requirements 61000 3 2 2006 Harmonic current requirements MEN 61000 3 3 2008 Voltage fluctuations and flicker requirements Test Lab Date SEP 02 2010 Date SEP 02 2010 Signature Signature fel 2
7. EB 30MHz 9kHz AV Detectors Prescan Measurement See scan settings Meas Time Peaks 25 dB Acc Margin EN AV B EN QP B 30 0 10 0 1 0 MHz PAGE 1 ZIPPY EMC LAB conduction test EUT Manuf Op Cond Operator Test Spec Comment Scan Settings Start 150kHz 500kHz 5MHz Transducer MRG 5800V4V SPS ZIPPY TECH CO LTD FULL LOAD EDMENT EN 55022 Class B Load Condition 50 210 8 19 3 5 Prescan Measurement Peak Search Results Frequency MHz 0 206 0 276 0 344 0 414 0 482 29 2 29 75 29 95 Frequency MHz 0 206 0 276 0 344 0 412 0 482 0 488 18 85 19 25 limit exceeded L220V 8 Ranges Frequencies Stop Step IF BW Detector 500kHz 2kHz 10kHz QP AV 5MHz 20kHz 10kHz QP AV 30MHz 50kHz 10kHz QP AV No Start Stop Name 1 9kHz 30MHz CEB Detectors X QP AV Meas Time see scan settings Peaks 8 Acc Margin 25 dB QP Level QP Limit QP Delta Phase 54 01 63 37 9 36 49 28 60 94 11 66 46 91 59 11 12 20 44 13 57 57 13 44 42 46 56 30 13 84 41 76 60 00 18 24 44 58 60 00 15 42 41 85 60 00 18 15 Level Limit AV Delta Phase dBuV dB 49 40 53 37 3 97 N 45 08 50 94 5 86 N 42 73 49 11 6 38 N 41 15 47 61 6 46 N 40 13 46 30 6 17 N 37 08 46 20 9 12 N 39 86 50 00 10 14 N 39 51 50 00 10 49 N Indicated Phase PE shows Configuration of max Emissio
8. ZER 663H Waveform M1 Note ANALYZER 663H Appl EUROPE REPORT NO 10090203 measure Zoom Voltage Zoom Current fits Class fi Standard 4957 Data cursar Current Harmonics Setup CLASS_D Gen setting 1 1 238 92 Next measure U fu 50 001 Hz Live fmalysed periods 4 I 4 188 0 948 kW Module M1 Limit Class D User def I1 4 153 Change to Note table THD 11 43 988 PASSED B 2 4 6 10 12 14 16 18 20 22 24 26 28 32 34 36 38 4B Harmonic order Appl EUROPE 27 Relative current 1212 H8 MODEL MRG 5800V4V REPORT NO 10090203 E ANALYZER 6638 Current Harmonics setup CLASS_D Gen setting 111 2308 62 U fu 50 001 Hz Next measure Live Analysed periods 4 I 4 188 0 948 Hodule 1 Limit Class D User def I1 4 153 Change to Note har graph THD 11 43 PF H 986 PASSED Relative No A Lin A No Lim Lim current 1 4 153 15 H H11 0 150 29 68 661 8 978 z 6 661 16 8 006 B 006 3 H 447 2 300 17 0 009 H 13z 31 6 001 H H73 4 0 006 18 8 000 32 B 006 5 H 146 1 148 19 8 008 8 118 33 5 003 1 968 0 008 6 0068 34 6 666 7 0 054 6 776 21 6 006 8 167 35 6 003 1 964 6 666 6 666 36 5 006 9 9 039 H Ann 23 H BD 8 098 37 0 004 HD i 0 066 24 6 006 38 5 006 11 0 014 6 334 H BH 8 8968 39 6 004 86 6568 12 8 668 26 H
9. ay 2010 Electronic Load D RAM Load 2000 4 2 Test Setup 4 2 1 Block Diagram of Connections between EUT and simulators ESD Simulator system 4 2 2 Test Setup of EUT ertical coupling plane insulator 0 5mm thick horizontal coupling plane reference ground plane MODEL MRG 5800V4V REPORT NO 10090203 4 3 Severity Levels LEVEL TEST VOLTAGE CONTACT TEST VOLTAGE AIR DISCHARGE DISCHARGE 2 8 SPECIAL SPECIAL 4 4 EUT Operating Condition 1 Setup the EUT and Test Equipment as shown on 4 2 2 power on 4 5 Test Procedure Air Discharge This test was done above a non conductive surfaces The round discharge electrode about 30cm away will approach as fast as possible to touch test points of the EUT Discharge happens before the contact This procedure is repeated ten times on one selected location 4 6 Test Method According to 61000 4 2 MODEL MRG 5800V4V REPORT NO 10090203 4 7 Test Result DATE OF TEST 5 02 2010 TEMPERATURE 26 EUT SWITCH POWER SUPPLY HUMIDITY 6596 TEST MODE MRG 5800V4V DISPLAY PATTERN N A Contact discharge 500 Contact discharge 500 Air discharge 500 E 6 Pass m 8 Pass Input Voltage AC 230Vac 50Hz um 4 Pass MODEL MRG 5800V4V REPORT NO 10090203 5 Radiated Susceptibility Measurement 5 Test Equipment The following test equipment s are used during the RS t
10. b 9 3 1 6 Conducted Emission Data oen er EH acota 9 ou Radiation EMISSION TEST oor piae eto e Banh da EQ 11 3 2 1 Test E DE EE 11 3 2 2 KEE 11 3 2 3 Radiated Emission Limited ii 12 3 24 EU Cont curation e 13 3 2 5 Operating Condition of BUT a ern src 13 2 2 0 Radiated Emission E e iub es 13 3 2 7 Test Photo and Set p ais 4 ESD Measurement ete ae ese Sc ea eG 17 4 T Test Equipments sace 17 M up usa ys 17 4 2 1 Block Diagram of Connections between EUT and simulators 17 PU 17 2 3 Se Vet Levels aso oho cau Mee ake 18 4 4 EUT Operating Cond Ons ii tire 18 2 5 Test A ener TO Er RS e ap VO DO eb etapas 18 Z5 Test Method ne Merito venter Men lise vend pidana ee 18 LH E Hc M T 19 MODEL MRG 5800V4V REPORT NO 10090203 TABLE OF CONTENTS Description Page 5 Radiated Susceptibility Measurement 20 A A 20 5 2 Block Diagram of Test 20 DEVE EER RO ne REO 21 5 4 BUT Operating Condition a 21 3 9 Ee E ii reri 21 DO Tes A Ee d 21 5 7 Test AAA ione t e E boe acta 22 6 Elect
11. est Signal generator 8657A Dec 2009 Power amplifier Field strength sensor Oct 2009 5 2 Block Diagram of Test Setup semi anechoic chamber Antenna ground plane absorber on floor non conducting table h 1m 801 3 1987 or 0 8m draft 801 3 Antennas layout For the upper frequency range of 200 to 1000 MHz antennas are the normal method of producing the required field strength This is also carried out in an anechoic chamber or a screened room If a screened room is used it must be damped The anechoic chamber should be used for compliance testing the screened room may be used for precompliance testing The fields in the screened room will not be as uniform as those obtainable in an anechoic chamber and will also not be as repeatable The EUT is placed on a non conductive table 0 8 m above the reference ground plane which in many cases will be the floor of a screened room According to the standards the EUT should be oriented so that its most sensitive side is facing the antenna In practice it can be difficult to decide beforehand which is the most sensitive side and in most cases a series of tests will be required with the EUT in several orientations 20 MODEL MRG 5800V4V REPORT NO 10090203 5 3 Severity Levels LEVEL FIELD STRENGTH V M DENN 5 NEM NN 0 1 2 5 4 EUT Operating Condition Same as section 4 4 5 5 Test Procedure The EUT and load are placed on a tab
12. le which is 0 8 meter above ground The field sensor is also placed on the same table to monitor field strength from transmitting antenna EUT is set 1 meter away from the transmitting antenna which is mounted on an antenna each time The antenna is fixed 1 meter above ground Both horizontal and vertical polarization of the antenna are set on measurement In order to judge the EUT performance a CCD camera is used to monitor EUT screen the scanning conditions are as follows Condition of Test Remarks 1 Field Strength 3 V M Level 2 2 Radiated Signal 80 Amplitude Modulated with a 1KHz Tone 3 Scanning Frequency 80 MHz 1 GHz 4 Sweep Time of Radiated 0 0015 Decade s 5 6 Test Method According to IEC 61000 4 3 21 MODEL MRG 5800V4V REPORT NO 10090203 5 7 Test Result DATE OF TEST SEP 02 2010 TEMPERATURE 26 EUT SWITCH POWER SUPPLY HUMIDITY 6596 TEST MODE MRG 5800V4V DISPLAY PATTERN N A Frequency Range Position Polarity Field Strength Result MHz Angle HorV V M Test Result Criteria A 22 MODEL MRG 5800V4V REPORT NO 10090203 6 Electrical Fast Transient Burst Measurement 6 1 Test Equipment The following test equipment are used during the EFT tests Fast Transient Burst enerator May 2010 6 2 Block Diagram of Test Setup non conducting mains lead bench fast transient burst generator 6 3 Severity Levels Open Circui
13. n PAGE 2 Receiver Settings M Time 1msec 1 1 gnd gnd gnd gnd gnd gnd gnd gnd PE gnd gnd gnd gnd gnd gnd gnd gnd Atten Auto Auto Auto Preamp OFF OFF OFF OpRge 60dB 60dB 60dB ZIPPY EMC LAB conduction test EUT MRG 5800V4V SPS ZIPPY TECH CO LTD FULL LOAD EDMENT Manuf Op Cond Operator EN 55022 Class B Test Spec Comment Load Condition 50 210 8 19 3 5 N220V 8 Ranges Frequencies Stop Scan Settings Receiver Settings OpRge 60dB 60dB 60dB Preamp Atten Auto M Time Detector QP AV QP AV QP AV IF BW 10kHz Step 2kHz Start FF 1 1 1 500kHz 5MHz 150kHz 500kHz 5MHz OFF OFF Auto 10kHz 20kHz Auto 10kHz 50kHz 30MHz Name Stop No Start Transducer CEB 30MHz 9kHz AV Detectors Prescan Measurement See scan settings Meas Time Peaks 25 dB Acc Margin EN AV B EN QP B 30 0 10 0 1 0 0 15 MHz PAGE 1 ZIPPY EMC LAB conduction test EUT Manuf Op Cond Operator Test Spec Comment Scan Settings Start 150kHz 500kHz 5MHz Transducer MRG 5800V4V SPS ZIPPY TECH CO LTD FULL LOAD EDMENT EN 55022 Class B Load Condition 50 210 8 19 3 5 Prescan Measurement Peak Search Results Frequency MHz 0 206 0
14. rial No N A D Power Supply 115 60 2 230 50 2 MEASUREMENT PROCEDURE USED EN 55024 RULES EN 55022 RULES THE DEVICE DESCRIBED ABOVE WAS TESTED BY ZIPPY SHIN JIUH CORP TO DETERMINE THE SEVERITY LEVELS THE DEVICE CAN ENDURE AND ITS PERFORMANCE CRITERION THE MEASUREMENT RESULTS ARE CONTAINED IN THIS TEST REPORT AND ZIPPY SHIN JIUH CORP IS ASSUMED FULL RESPONSIBILITY FOR THE ACCURACY AND COMPLETENESS OF THESE MEASUREMENT ALSO THIS REPORT SHOWS THAT THE EUT TO BE TECHNICALLY COMPLIANT WITH THE EN STANDARD Test Dated SEP 02 2010 Test Engineer U 2 Approve amp Authorized Signer Meat MODEL MRG 5800V4V REPORT NO 10090203 2 General Information 2 Production Description Description Switching Power Supply Model Number MRG 5800V4V Applicant ZIPPY TECHNOLOGY CORP 10F No 50 MIN CHYUAN RD SHIN TIEN TAIPEI HSIEN TAIWAN R O C FCC ID N A Data Cable gt N A PowerCord Non Shielded detachable 1 5m MODEL MRG 5800V4V REPORT NO 10090203 2 2 Tested System Details The FCC IDs for all equipment plus descriptions of all cables used in the tested system including inserted cards which have grants are 2 2 1 Resistor Load Model Number ELECTRONIC LOAD Serial Number N A FCC ID N A Manufacturer ZIPPY Power 800W 2 3 Test Methodology EMI Test Both conducted and radiated testing were performed according to the procedures in EN 55022 Radiated
15. rical Fast Transient Burst 23 Test Bquiptielit in situ eet dope UG Ue eR td o A 23 6 2 Block Diagram of Test Seu ERA RENS 23 tes eode cR 23 6 4 EUT Operating Condition eS Nara Dee 24 6 3 Ee s POP EN WO ap 24 6 6 Test MSC su s a 24 Test SUI aesti ctt bes a 25 7 Harmonic Current 6 26 8 Voltage Fluctuation and Filcker Test 29 9 Surge Immunity US Fe pastus 30 10 Conducted Immunity 31 11 Voltage Dip interruptions Immunity 32 12 Phofograplis ore 33 13 EMI Reduction method during compliance Testing 39 Appendix A Circuit diagram block diagram User Manual Appendix B Doc MODEL MRG 5800V4V REPORT NO 10090203 1 Test Report Certification Applicant ZIPPY TECHNOLOGY CORP Manufacturer ZIPPY TECHNOLOGY CORP EUT Description Switching Power Supply A FCC ID N A B Model No MRG 5800V4V C Se
16. t 39
17. t Output Test Voltage 10 23 MODEL MRG 5800V4V REPORT NO 10090203 6 4 EUT Operation Condition Same as section 4 4 6 5 Test Procedure The EUT and its load are placed on a table which is 0 8 meter above a metal ground plane measured 1m 1m min And 0 65 mm thick min And projected beyond the EUT by at least 0 1m on all sides The EUT is away from the walls of the test AC power line test is as follows For Ac power line test The EUT is connected to the power mains through a coupling device that directly couples the EFT interference signal Each of the Line and Neutral conductor is impressed with burst noise for 1 min 6 6 Test Method According to IEC 61000 4 4 24 MODEL MRG 5800V4V REPORT NO 10090203 6 7 Test Result DATEOF TEST 5 02 2010 TEMPERATURE 26 EUT SWITCH POWER SUPPLY HUMIDITY 6596 TEST MODE MRG 5800V4V DISPLAY PATTERN N A E Method Direct Pass m w o ne lt a o na ne um lt o s se um x ne uum lt a s se Input Voltage AC 230Vac 50Hz 25 MODEL MRG 5800V4V REPORT NO 10090203 7 Harmonic Current Test TEST 5 02 2010 TEMPERATURE 26 EUT SWITCH POWER SUPPLY HUMIDITY 6596 TEST MODE MRG 5800V4V DISPLAY PATTERN N A Roading Leve A A Limite 9 26 MODEL MRG 5800V4V ANALY
18. testing was performed at an antenna to EUT distance of 10 meters EMS Test Performed according to procedures in EN 61000 series regulations 2 4 Test Facility ZIPPY TECHNOLOGY CORP 10F No 50 MIN CHYUAN RD SHIN TIEN TAIPEI HSIEN TAIWAN R O C MODEL MRG 5800V4V REPORT NO 10090203 3 Electronic Magnetic Interference Test 3 1 Conducted Power Line Test 3 1 1 TEST Equipment s The following test equipment s are used during the conducted power line tests 1 TEST RECEIVER ROHDE amp SCHWARZ ESHSIO Mar 2010 LISN ROHDE amp SCHWARZ 4200 Jan 2010 PRINTER SHIELDED ROOM 4 0M 3 0M 3M 3 1 2 Block Diagram of Test Setup Transformer L LS N ower Line Test Receive Pulse Limiter Personal Computer Printer Plotter Switch Power Supply Load Active Terminator I L LS N ACIN MODEL MRG 5800V4V REPORT NO 10090203 3 1 3 Conducted Powerline Emission Limit Maximum RF Line Voltage dB uV 0 15 0 50 66 56 66 56 60 60 5 0 30 QUASI PEAK AVERAGE Remarks In the Above Table the tighter limit applies at the band edges 3 1 4 EUT Configuration on Measurement The equipment s which is listed 3 2 are installed on Conducted Power Line Test to meet the Commission requirement and operating in a manner which tends to maximize its emission characteristics in a normal application 3 1 5 EUT Exercise Software The EUT e
19. uipment under Test Load SWITCHING POWER SUPPLY MODEL MRG 5800V4V REPORT NO 10090203 3 2 2 2 Open Field Test Site description The open field test site OFTS is designed to provide an environment in which repeatable tests of radiated emissions can be carried out It consists of a flat elliptical area as shown in the diagram below The equipment under test and the antenna are placed at the foci of the ellipse ground plane possible positions of control rooms cispr ellipse The antenna height should be remotely adjustable from 1m to 4m Measuring instrumentation should be outside the ellipse at the position shown or in a room under the ground plane The whole or part of the site may be enclosed in an RF transparent building For precompliance testing a 3m test site with a fixed height antenna at 1 5 2m height and no metallic ground plane may be used This may be a clear area on a car park or a grass area but should be away from large metallic structures 3 2 3 Radiated Emission Limit Class A Limits mon Remarks The tighter limit shall apply at the edge between two frequency bands 2 Distance refers to the distance in meters between the measuring instrumentantenna and the closed point of any part of the device or system MODEL MRG 5800V4V REPORT NO 10090203 3 2 4 EUT Configuration The equipment s which 15 listed 4 2 1 are installed on Radiated Emission Test to meet the
20. xercise program used during conducted testing was designed to exercise the EUT in a manner similar to a typical use The exercise sequence 15 listed as below 3 1 5 1 Setup the EUT and simulators as shown on 3 2 3 1 5 2 Turn on the power of all equipment s 3 1 6 Conducted Emission Data The measurement range of conducted emission which is from 0 15 MHz to 30 MHz was investigated The initial step in collecting conducted data is a spectrum analyzer peak scan of the measurement range for all the test modes Then the worst modes were reported the following data pages MODEL MRG 5800V4V REPORT NO 10090203 Conducted Emission Data DATE OF TEST SEP 02 2010 TEMPERATURE 26C EUT SWITCH POWER SUPPLY HUMIDITY 6596 TEST MODE MRG 5800V4V DISPLAY PATTERN N A Remark readings are Quasi Peak values ZIPPY EMC LAB conduction test EUT MRG 5800V4V SPS ZIPPY TECH CO LTD FULL LOAD EDMENT Manuf Op Cond Operator EN 55022 Class B Test Spec Comment Load Condition 50 210 8 19 3 5 L220V 8 Ranges Frequencies Stop Scan Settings Receiver Settings OpRge 60dB 60dB 60dB Preamp Atten Auto M Time Detector QP AV QP AV QP AV IF BW 10kHz Step 2kHz Start FF 1 1 1 500kHz 5MHz 150kHz 500kHz 5MHz OFF OFF Auto 10kHz 20kHz Auto 10kHz 50kHz 30MHz Name Stop No Start Transducer C
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