nsg 3040 emc test system · the eu directive no. 2004/108/ec (for the assignment of the ce symbol)...

NSG 3040 EMC TEST SYSTEM

USER MANUAL 601-279G

NSG 3040 EMC test system

NSG 3040 EMC TEST SYSTEM

USER MANUAL 601-279G

1 Explanation of symbols 92 Introduction 102.1 General description 103 Standards and applications 123.1 Burst test 123.2 Combination wave test 133.3 Mains quality test 133.4 Magneticfieldswithmainsfrequency 143.5 Pulsedmagneticfields 143.6 Slow Damped Oscillatory Wave (NSG 3040-SOW only) 144 Safety instructions 164.1 General 164.2 Installation 174.3 InstallationofanEUTpowerswitch 184.4 Applicablesafetystandards 184.5 Testexecution 194.6 Userwarnings-Generator 204.7 DangersconcerningtheEUT 215 First steps 225.1 InstallationoftheNSG3040system 235.2 Connectingthetestsystemtothegroundreferenceplane 245.3 Mountingina19”rack 245.4 Reargroundbrackets(INA165) 246 Mainframe description 256.1 Front panel 256.1.1 EUToutput 256.1.2 Highfrequencygroundterminal 266.1.3 Surge or SOW output 27

CONTENTS

6.1.4 Burst output 276.1.5 IndicatorLEDs 276.1.6 Touchscreenanduserinterface 286.2 Rearpanel 286.2.1 Instrumentsupply 286.2.2 EUTpowerinput 296.2.3 DCEUTinput 316.2.4 Ground connection point 316.2.5 Systeminterfaceconnector25pinDsub 316.2.6 Synchro-Bussystem 327 The standard user interface (SUI) 347.1 Main menu 357.2 System window 367.2.1 GENERALsettings 367.2.2 EQUIPMENTscreen 397.2.3 COMMUNICATIONscreen 407.2.4 MONITORINGscreen 427.3 UpdatingSUIsoftwareviatheSD-card 438 Parameter setting window 478.1 Theredmenubar 478.2 Thebottombar 528.2.1 Loadusertest 528.2.2 Loadstandardtest 538.2.3 Savetest 568.2.4 Keypad 568.2.5 Showgraphic 578.3 Burstgeneratorsetting 578.3.1 Testconfigurationwithpowerlinecoupling 588.3.2 Testconfigurationwithexternalcoupling 588.3.3 Burstparameterswindow 598.3.4 Voltage 598.3.5 Frequency 598.3.6 Phase 598.3.7 Coupling 608.3.8 Bursttime 618.3.9 Repetitiontime 618.3.10 Testduration 61

8.3.11 Burstgeneratortechnicaldata 628.3.12 Derating 628.4 Combinationwave(Surge)–parametersetting 678.4.1 Testconfigurationforpowerlinecoupling 678.4.2 Testconfigurationforexternalcoupling 678.4.3 Voltage 698.4.4 Impedance 698.4.5 Phase 698.4.6 Coupling 708.4.7 Repetitiontime 718.4.8 Testduration 718.4.9 Surgegeneratortechnicaldata 718.5 Dips,interruptsandvariations 728.5.1 Examplesofdips&interrupts 738.5.2 Dips&interruptsgenerator 738.5.3 VoltageUVar 748.5.4 Phase 748.5.5 Repetitiontime 748.5.6 T-Event 748.5.7 Testduration 748.5.8 Dipsandinterruptstechnicaldata 758.5.9 Variationtesttechnicaldata 758.6 Powermagneticfieldtesting(-4-8)parametersetting 778.7 Pulsedmagneticfieldtesting(-4-9)parametersetting 788.8 SlowDampedOscillatoryWavetest(-4-18)parametersetting 788.8.1 SlowDampedOscillatoryWaveparameterswindow 798.8.2 Coupling 818.8.3 Outputimpedance 828.8.4 Timingparameters 828.8.5 Testduration 838.8.6 Phasesynchronization 838.8.7 Derating 839 Description of the 25 pin D-Sub signals 869.1 Interlock 869.2 Triggertoscopeoutputsignal 879.3 Synchronization(Sync)signal:Outputsignal 879.4 Pulseenable/nextstepinput 88

9.5 EUTfailinput 889.6 EUTpoweroff 889.7 Highvoltageactive 8910 Coupling network CDN 3041 9011 Various NSG 3040 versions 9211.1 NSG3040IEC 9211.2 NSG3040“alacarte”(customerspecific) 9211.2.1 MainframeNSG3040-MF 9311.2.2 MainframeforexclusiveremotecontrolNSG3040-MF-ERC 9311.2.3 CombinedwavesurgemoduleCWM3450 9411.2.4 DipsandinterruptsmodulePQM3403 9411.2.5 Electricalfasttransient/burstmoduleFTM3425 9411.3 NSG3040-xxx-ERCseries 9411.4 NSG3040-xxx-EPOseries 9611.5 NSG3040-DDV 9711.6 NSG3040-SOW 9812 Maintenance and function check 9912.1 General 9912.2 Cleaning 9912.3 Functioncheck 10012.4 Calibration 10012.5 Warranty 10113 Declaration of conformity (CE) 10214 Accessories 10314.1 PCsoftware 10314.2 Couplingdecouplingnetworksformultiplephases,higher currents and voltages 10414.2.1 CDN 3043 - 32 A series 10514.2.2 CDN 3063 series - 63 A and 100 A series 10614.3 Variablevoltagesource 10714.3.1 AutomaticVariacs 10714.3.2 Manualsteptransformer:INA6501 11214.3.3 Manualsteptransformer:INA6502 11614.4 Magneticfieldoptions 12114.4.1 Manualsolution:MFO6501 12514.4.2 Automaticsolution:MFO6502 12914.5 PulsewaveshapeadapterINA752 134

14.6 Couplingdecouplingnetworksfordatalines 13614.6.1 BurstEFTcouplingclampNSG3425-andsafetycoverINA3825 13614.6.2 SurgeCDNforunsymeticdatalinesCDN117 13914.6.3 SurgepulseCDNforsymmetricdatalinesCDN118 14014.7 Measuring accessories 14214.7.1 MD200andMD200Adifferentialhighvoltageprobes 14214.7.2 MD 300 surge pulse current probe set 14414.7.3 MD 310 SOW pulse current probe set 14614.7.4 Burst/EFTpulseverificationkit 14814.8 Cables,plugsandadapters 14914.8.1 Calibrationadapters 14914.8.2 Testadapters 15014.8.3 Variouscablesandplugs 15114.9 Mountingaccessories 15315 System description 15416 Addresses 156

WARNING - Lethal danger from high voltages and the risk of radiating illegal electromagnetic interference.

This system must be used only for EMC test purposes as specified in these operating instructions.

The NSG 3040 must be installed and used only by autho-rized and trained EMC specialists.

Personnel fitted with a heart pacemaker may not operate the instrument and must not be in the vicinity of the test setup while it is in operation.

When the system is used in conjunction with options, accessories or other equipment the safety instructions concerning those devices must also be observed.

Pleasetakenoteofthefollowingexplanationsofthesymbolsusedinordertoachievetheoptimumbenefitfromthismanualandtoensuresafetyduringoperationoftheequipment.

The following symboldrawsyourattention toa circumstancewherenon-observationofthewarningcouldleadtoinconvenienceorimpairmentintheperformance.

Example:

1 EXPLANATION OF SYMBOLS

This connection must not be confused with the Equip-ment under Test (EUT) power input.

The following symboldrawsyourattention toa circumstancewherenon-observationofthewarningcouldleadtocomponentdamageordangertotheoperating personnel.

Example:

Never connect or disconnect the EUT while the test system is performing a test.

2.1 General descriptionTheNSG3040testsystemisamultifunctiongeneratorthatsimulatescable-borneelectromagnetic interferenceeffectsfor immunitytestingtointerna-tional,national,andmanufacturers’standards.

Thesystemisdesignedtofulfillconductedelectromagneticcompatibility(EMC)testrequirementsforcompliancetestingofhousehold,office,lightindustrialorcommercialequipment, includingcombinationwavesurge,ElectricalFastTransient(EFT)pulses,andPowerQualityTesting(PQT).

TheNSG3040’smodulararchitectureandindustrystandardinterfacesallowittobeeasilyexpandedandcustomizedtomeetindividualtestingneeds.

Thesystemisdesignedasaseriesofinteroperablefunctionunitswithamastercontrollerthathandlestherealtimefunctionsandcommunicateswiththefunctionmodules.Eachfunctionunitcontainsaslavecontroller;allfunctionunitsareconnectedtogetherthroughtheirslavecontrollersandnetworkedwiththecentralmastercontrollerviaafieldbus(Interbus).Informationconcern-ingspecialfeaturesandtheiradjustableparametersarestoreddirectlyinthefunctionmodules.

Thismodularityenablesthefunctionunitstobecombinedintocustomizedtestsystems,andlaterreconfiguredtoaddresschangingtestingrequirements.Thefunctionunitscanbereadilymodifiedtoaddresstherequirementsofnewstandards,andnewfunctionunitsfornewparametersmaybeincorporatedinexistingsystems.

TheNSG3040iscontrolledthroughitsstandarduser interfaceviaatouchpaneldisplay.ThesystemcanalsobecontrolledbyaremotePCviaitsEthernetinterface.

2 INTRODUCTION

11Toensureoptimaluser andequipment safety, only industry-standardand correctlyspecifiedplugsandsocketsareusedthroughout.

TheNSG3040testsystemisdesignedprimarilyforcable-bornetransientinter-ferencetestsasspecifiedintheEuropeangenericstandardsIEC/EN61000-6-1coveringequipmentforhousehold,officeandlightindustrialuse,andIEC/EN61000-6-2forapplicationsinindustrialenvironments.TheNSG3040generatesthesetestsinaccordancewithIEC/EN61000-4-4,-4-5,-4-11,-4-18and-4-29,dependingofthemodel.AccessoriesareavailableforgeneratingoptionalteststoIEC/EN61000-4-8and-9.

TheEUdirectiveNo.2004/108/EC(fortheassignmentoftheCEsymbol)referstothesestandardsandtothistypeofequipment.

3.1 Burst testBursttestsincompliancewithIEC/EN61000-4-4simulatethehighvoltage/highfrequencyinterferencepulsestypicallyproducedwhenaninductivelyloadedswitchisoperated.Withoutcountermeasures,suchinterferencemayoccurwhenacurrentthroughanelectromagneticdevice,e.g.motor,circuitbreaker,relay,fluorescentlamp,etc.isswitchedoff.

Thistypeofinterferencecanaffectotherequipmentineitheroffollowingtwoways.Firstly,theinterferencecanbecoupleddirectlyintothetargetequipmentviathemainspowercable.Theinterferencecanbetransmittedfromthesourcealongthemainspowercableconnectedtothetarget.Interferencefromthemainscanreachanyotherpieceofequipmentconnectedtothesamepowersourceinasimilarway,howeverthisdoesnotallhavetooccurinthesamesectionofabuilding.

Alternatively,theinterferencecanbecapacitivelycoupledintoanytargetdeviceinthevicinity.

Thesystemenablesatesttobeperformedusingbothstandardizedcoupling

3 STANDARDS AND APPLICATIONS

13methods.TheEUTisconnectedtothemainspowersocketonthefrontpanelofthetestsystemforthedirectmainsinjectiontest.Capacitivelycoupledtestsrequiretheinterferencetobesuperimposedontothesignalordatalinecablesviaanexternalcouplingclampthatisconnectedtotheburstoutputonthefrontpanelofthesystem.

3.2 Combination wave testThesurgetest,incompliancewithIEC/EN61000-4-5,duplicateshighvoltage/highenergyinterferenceasexperiencedwithalightningstrike.Generallyspeak-ingtheinterferencefindsitswayintohouseholdequipmentviathemainspowersupply.

Thiskindofinterferencecanaffectequipmentineitheroftwoways.Firstly,theinterferencecanbecoupleddirectlyintotheequipmentviathemainssupply.Theinterferenceisconveyeddirectlyfromthesource(e.g.lightningstriketoexternalpowercables).Every itemofequipmentconnected to thispowersourcewillbeaffectedbytheinterferencepulses.

Alternatively,thepulsesfromthesourceoftheinterferenceoritsassociatedmainscablescanbecoupledintootherequipmentpositionednearby.

Surgepulseinterferencecanalsooccuronsignalanddatalinesthroughcou-plingeffectsandelectricaldischarges.

Thesystemenablesteststobecarriedoutusingbothcouplingmethods.TheEUTisconnectedtothemainspowersocketonthefrontpanelofthetestsystemfordirectmainsinjectiontests.Externallycoupledtestsrequiretheinterferencetobesuperimposedontosignal/datalinecablesviaanexternalcouplingunitthatisconnectedtothesurgeoutputonthefrontpanelofthesystem.

3.3 Mains quality testThemainsqualitytestincludesthesimulationofdipsandinterruptsofthemainspowersupplyinaccordancewithIEC/EN61000-4-11andforDCpowersuppliesinaccordancewithIEC/EN61000-4-29.

Avoltagedipoccurswhenthesupplyvoltagefallsconsiderablybelowthe

nominallevelforarelativelyshorttime,e.g.forafewcycles,whereasaninter-ruptmeansthatthevoltagefallstozeroforasimilarperiod.

3.4 Magnetic fields with mains frequencyMainsfrequencymagneticfieldtests,orPOWERMtests,involvethesimulationofthemagneticfieldstypicallygeneratedbythecurrentflowinpowersupplycablesasspecifiedinIEC/EN61000-4-8.Suchmagneticfieldscanaffecttheoperationof itemsofequipmentthataresensitivetothem.TheNSG3040performsthistestbycausingaheavycurrenttoflowinamagneticfieldcoilsuchthatthecurrentandfrequencyproduceaproportionalfieldwithinthecoil parameters.

Themagneticfieldcoils,availableasaccessories,areconnectedtothemag-neticfieldoption(MFO)which,inturn,isconnectedtothesystem.

3.5 Pulsed magnetic fieldsTestswithpulsedmagneticfields,orPULSEMtests,simulatethetypeofinter-ferenceproducedbysurgepulsesasaresultoflightningstrikestobuildingsandothermetallicstructuressuchasfreestandingmasts,groundconductors,groundingnetworks,etc.asspecifiedinIEC/EN61000-4-9.Magneticfieldsofthistypecanupsettheoperationofinstallationsthatfindthemselveswithinsuchfields.TheNSG3040performsthistestbycausingaheavycurrenttoflowinamagneticfieldcoilsuchthattheamplitudeofthepulsecurrentproducesaproportionalfieldwithinthecoilparameters.

Themagneticfieldcoils,availableasaccessories,areconnectedtothesurgepulseoutputsocketviaanINA752pulseshapingnetwork.

3.6 Slow Damped Oscillatory Wave (NSG 3040-SOW only)Thedampedoscillatorywavephenomenaaredividedintotwoparts.Thefirstpart isreferredtoastheslowdampedoscillatorywave(SOW)andincludesoscillationfrequenciesof100kHzand1MHz.Thesecondpartisreferredtoasthefastdampedoscillatorywave(FOW),anditincludesoscillationfrequencies3MHz,10MHzand30MHz.

Theslowdampedoscillatorywaveimmunitytestsimulatesswitchingofdis-connectorsinHV/MVopen-airsubstations,andisparticularlyrelatedtothe

15switchingofHVbusbars,aswellastothebackgrounddisturbanceinindustrialplantsasspecifiedinIEC/EN61000-4-18andANSIC37.90.1.

TheNSG3040-SOWisnotonlyabletoperformtheslowdampedoscillatorywaveimmunitytestaccordingtobothofthesestandards,butincludesawiderangeofover-testingcapabilitieslikehigherpulsevoltage,higherpulserepetitionratesandaselectablesourceimpedancefortestsclosertorealityconditions.

TheNSG3040systemanditsaccessoriesoperateathighvoltages.

4 SAFETY INSTRUCTIONS

WARNING - Improper or careless operation can be fatal!

Theseoperatinginstructionsformanessentialpartoftheequipmentandmustbeavailabletotheoperatoratalltimes.Theusermustobeyallsafetyinstruc-tions and warnings.

NeitherTeseqAG,Luterbach,Switzerland,noranyofitssubsidiarysalesorga-nizationscanacceptanyliabilityforpersonal,materialorconsequentialinjury,lossordamagethatmayresultfromimproperuseofequipmentandacces-sories.

4.1 GeneralTheNSG3040mustbeoperatedonlybyauthorizedandtrainedspecialists.

Thegeneratoristobeusedonlyforthepurposespecifiedbythemanufacturer.Theuserisdirectlyresponsibleforensuringthatthetestsetupdoesnotcauseexcessiveradiatedinterferencewhichcouldaffectotherinstrumentation.ThetestsystemitselfdoesnotproduceanyexcessiveEMradiation.However,theinjectionofinterferencepulsesintoaEUTcanresultinitand/oritsassociatedcablesradiatingelectromagneticradiation.Toavoidunwantedradiation,thestandardsorganizationsrecommendthatthetestsetupbeoperatedinsideaFaraday cage.

17 WARNING - NSG 3040 is not suitable for use in an explo-sive atmosphere.

WARNING - Personnel fitted with a heart pacemaker must neither operate the instrument nor approach the test setup while a test is being executed.

Onlyapprovedaccessories,connectors,adapters,etc.aretobeusedtoensuresafeoperation.

WARNING - Connect the EUT only after the initial system self test has finished.

4.2 InstallationTheNSG3040testsystemconformstoprotectionclass1.Local installationregulationsmustberespectedtoensurethesafeflowofleakagecurrents.

WARNING - Operation without a ground connection is forbidden!

Twoindependentgroundconnectionsarenecessary-oneforthetestsystemandonefortheEUT.Thesemustbeconnectedbacktothelocalpermanentinstallationortoafixed,permanentgroundconductor.

Operatetheequipmentonlyindrysurroundings.Anycondensationthatoccursmustbeallowedtoevaporatebeforeputtingtheequipmentintooperation.Donotexceedthepermissibleambienttemperatureorhumiditylevels.Useonlyofficiallyapprovedconnectorsandaccessoryitems.

Ensure that a reliable return path for the interference current is providedbetweentheEUTandthegenerator.Thegroundreferenceplaneandthegroundconnectionstotheinstruments,asdescribedintherelevantteststandards,servethispurposewell.

Thetestsystemmayonlybeopenedbyaqualifiedspecialistuponspecificinstructiongivenbythemanufacturer.Sincetheinstrumentworks,onprin-ciple,withtwoindependentpowersupplies(oneforthegeneratorandonefortheEUT),theNSG3040mustbedisconnectedfrombothsourcesbeforeanymodificationstothetestsetupareundertaken.Besidesthemainsconnectionsthemselves,certaincomponentsalsooperateathighvoltages,andarenotprovidedwithanyformofextraprotectionagainstaccidentalcontact.

4.3 Installation of an EUT power switchTheEUTinputshouldbeconnectedthroughaproperlyratedpowerswitchdevice,whichshouldbelocatedclosetothetestsetup.InordertoensureeasyandquickaccesstotheEUTpower,theswitchshouldbeclearlyandvisiblylabeledas“EUTpowerON/OFF”.

Thein-housepowerdistributionmustbeequippedwithapropercircuitbreakerandanemergencyoffbuttonasperIEC61010-1:2001.

The test setup should only be accessible to trained per-sonnel.

DimensioningofthemainssupplyandratingoffuseprotectionoftheACorDCpowersupplymustconformwithlocalelectricalcodesandEUTrequirements.Inappropriatearrangement,mounting,cablingorhandlingoftheEUTorgroundcanhamperornegatetheeffectivenessoftheNSG3040’ssafetyfeatures.

4.4 Applicable safety standardsDevelopmentandmanufactureisincompliancewithISO9001.

ThesystemcomplieswiththesafetyrequirementsofIEC/EN61010-1(Safetyrequirementsforelectricalequipmentformeasurement,controlandlaboratoryuse).

Itistheuser’sresponsibilitytoensurethatthetestrigdoesnotemitexcessiveelectromagneticinterference(EMI)thatmightaffectotherequipment.Thetest

WARNING - The test area must be organized so that unauthorized persons do not have access during the execution of a test. If a safety contact (Interlock) is used as a means of access control to the test zone (e.g. a Faraday cage), then an additional contact connected in series is necessary to provide protection for parts of the EUT that are likely to be touched accidentally.

During a test, the EUT together with its accessories and cables are to be considered live at all times. The test system must be stopped and the EUT supply disconnected before any work can be carried out on the EUT. This can be achieved simply by opening the interlock circuit.

The EUT is to be tested only in a protective cage or under a hood which provides protection against electric shock and all manner of other dangers pertaining to the particular EUT (see: User warnings - Generator).

The user must observe safety instruction for all the instruments and associated equipment involved in the test setup.

Test setup configuration is to be strictly in compliance with the methods described in the relevant standard to ensure that the test is executed in a compliant manner.

systemitselfdoesnotproduceanyexcessiveradiation;however,theinjectionofinterferencepulsesintotheEUTcanresultinthedeviceand/oritsassociatedcablesradiatingEMI.ToavoidradiatingunwantedinterferencethestandardsorganzationsrecommendthatthetestsetupbelocatedinaFaradaycage.

Sincethepurposeofthetestsystemistoproduceinterferencesignalsforinterferenceimmunitytesting,therequirementsintheIEC/EN61000seriesconcerninglimitingtheradiatedEMIcanonlybecompliedwithbyoperatingthetestsysteminsideaFaradaycage.

4.5 Test execution

WARNING - Users must be aware of the following dangers that can occur during testing:

Local burning, arcing, ignition of explosive gases.

EUT supply current surge caused by a flashover or breakdown resulting from the superimposed high voltage.

Disturbance of other, unrelated electronics, tele-communications, navigational systems and hear pacemakers through unnoticed radiation of high frequency energy.

In the test system the interference voltage, corre-sponding to the level called for in the relevant test specification, is superimposed also on the EUT’s protective earth conductor. Earth contacts or pins (e.g. as in German and French mains plugs) as well as the EUT earth itself can therefore be at an elevated voltage level that would make touching dangerous. In many power connectors even the screws are linked to the protective earth.

4.6 User warnings - Generator

CAUTION! Warning of a danger spot (refer to the documentation).

Warningsymbolsonthetestsystem:

Caution! Warning of electrial hazards!

WARNING - Users must be aware of the following dangers that can occur during testing:

EUTs are often functional samples that have not yet been subjected to safety tests. It is therefore possible that the EUT could be damaged by internal overloads or may even start to burn.

As soon as the EUT shows signs of being disrupted the test should be stopped and the power to the EUT switched off.

Internal disruption of the electronics can result in the interference voltage or the EUT supply voltage being present on the EUT’s outer casing.

Electrical breakdown or arcing from connections that are overstressed voltagewise during the test.

Explosion of components with fire or fragmentation as a result of energy dissipated, e.g. from the resul-tant supply current or ignition of vaporized plastic materials.

Faulty behaviour by the EUT, e.g. a robot arm strikes out or a temperature controller fails, etc.

The user is responsible to control the rating and the integrity of all cables connected to the NSG 3040 generator, especially cables connected to the Surge/SOW output, Burst output or EUT Power output.

4.7 Dangers concerning the EUT

Thischaptercontainsashortchecklistwithstepsthatshouldbetakenbeforetheinstrumentisswitchedonandputintooperation.

Checkthepackagingforsignsofdamageintransit.Anydamageshouldbereportedimmediatelytothetransportationcompany.

LifttheNSG3040testsystemoutofitspackagingbygraspingofthemountedgrips.

Usingthefollowinglist,checkthatalltheitemsorderedhavebeendelivered:

1. NSG 3040 generator 2.Usermanual(maybeapdfonWIN3000CD)3.1Mainspowercableforthetestsystem4.1Dummyplug(interlockblindconnector)5. 1 Grounding strip 10 cm6.1EUTpowerinputconnectorwithcable7.1EUTpoweroutputconnector8.WIN3000CDandLANcrossovercable9.Optionalitems,asordered

Checktheinstrumentforsignsoftransportdamage.Anydamageshouldbereportedtothetransportationcompanyimmediately.

5 FIRST STEPS

NOTE: Do not dispose of packaging materials. All packag-ing should be retained in the event that the instrument or any of its accessories should need to be returned to a Teseq service center for repair or calibration.

235.1 Installation of the NSG 3040 systemThemainspowervoltageindicatedontheinstrumentmustcorrenspondwiththelocalsupplyvoltage(mainsvoltage:85–265VAC,universalpowerunit,mainsfrequency:50–60Hz).

Mains switch

Fuse-holder with fuses 2 x 3.15 AT

Mains power input

Toreplaceafuse:

1)Disconnectthemainscable2)Pullthefuseholderoutoftheconnector3)Removethedamagedfuse(s)4)Insert1or2x3.15ATfuses5)Replacethefuseholder6)Plugthemainscableintoapoweroutletwithasolidgroundconnection7)Switchthesystemonandoperateasinstructedinthismanual

Mains switch, fuse holder and power input

NOTE: Place the test system so that there is sufficient free space around the cooling air inlets on both sides and behind the fan outlet on the rear panel.

NOTE: In case the test system is being used without an Emergency Stop device, make sure to place the system such as the operator has quick access to its power supply switch.

5.2 Connecting the system to the ground reference planeForbursttests,thegeneratormustbeplacedonagroundreferenceplanewhich is connected toground.Agoodhigh frequencygroundconnectionbetweenthetestsystemandthegroundreferenceplane(GRP)isabsolutelyessentialforperformingbursttestscorrectly.

ConnectthegroundterminalonthefrontpaneloftheNSG3040tothegroundreferenceplaneusingthelinkandboltssupplied.IfaCDNisconnectedpleaserefertosection“Highfrequencygroundterminal”.

5.3 Mounting in a 19” rackWhentheNSG3040testsystemiscombinedwithotherequipment,itcanbeusefultomounttheinstrumentina19“rack.Theunit is19”wideand5Uinheight.AnoptionalrackmountINA166kitisavailable.

5.4 Rear ground brackets (INA 165)ReargroundbracketsareoptionallyavailabletopositiontheNSG3040securelywithoutdamagingtheconnectorswhenitmustbeplacedwiththerearpanelonthefloorwitheasyaccesstothetouchscreen.ThesebracketsguaranteeasolidgroundconnectiontotheGRP.Thestablehousingconstructionallowstheoperatortomakeuseofbothbackbracketsaswellasthehandles.

NOTE: Your NSG 3040 generator has been delivered with a correctly rated power supply cable. If the cable needs to be replaced, the user needs to make sure the new cable is suited for the rated supply voltage and current.

256 MAINFRAME DESCRIPTION

6.1.1 EUT outputThisisthepoweroutputconnectionfortheEUT.

AnEUTmainspowerconnector is includedwiththesystem.Theconnectorcontainsaphasepin(L:Live),Neutralpin(N)andagroundpinforconnectionoftheEUT.ThepinsintheconnectormustbecorrectlywiredtothecorrespondingconductorsintheEUTpowercable.

IfthetestsystemisconnectedtoaDCpowersourceassupplyfortheEUT,theusermustensurethatthepolarityatthisconnectorcorrespondswiththatattheEUTpowerconnector.

ThehousingoftheNSG3040isspeciallydesignedforEMCapplicationandisEMCapproved.

6.1 Front panel Color touch screen

Wheel sensitivity keys

Start, stop, pause keys

High frequency ground point

output or

SOW output

output

Note:ForDCpowersupplyL=positive(+),N=negative(-).

Thepinsintheconnectoraredesignedforamaximumcurrentof16A.

WARNING - Never attempt to connect or disconnect an EUT while a test is being performed.

EUT output connection

6.1.2 High frequency ground terminalThisterminalprovidesasolidhighfrequencygroundconnectionpointtothetestsystem.IfanexternalCDNisconnectedthenthegroundstrapmustbeconnectedfromtheCDNtothereferencegroundplane.Thereisnoneedtoconnectthegroundconnectorfromthegeneratoritself,sincetheburstcon-nectorprovidesthereferencegroundfromthegeneratortotheCDN.

Reference ground terminal

TheNSG3040canbeefficientlyconnectedtotheGRPusingthegroundstrapsuppliedwiththesystem.

Thisgroundlinkmustbeusedforburstteststoobtainreproducibletestresults.

276.1.3 Surge or SOW outputNSG3040modelsincludingCWM3450(CombinationWave/SurgeModule)Thesesockets(high,low)connectthesurgeoutputsignaltoanexternalCDNortoanotherexternalcouplingunit.

Thesesocketsarealsousedtoconnecttheinternalgeneratortotheoptionalmagneticfieldcoilfortestswithpulsedmagneticfields.

Thesurgeoutputispotentialfree(floating).Theinnerconductorofeachcon-nectoristhesurgehighandsurgelowconnectionrespectively,whiletheouterconductor(screen)isconnectedtotheNSG3040’sgroundterminal.

NSG 3040-SOWFortheNSG3040-SOWmodels,bothofthesesocketsareusedtoconnecttheslowdampedoscillatorywavesignaltoanexternalcouplingdevice.

Thesurgeoutputispotentialfree(floating).Theinnerconductorofeachcon-nectoristhesurgehighandsurgelowconnectionrespectively,whiletheouterconductor(screen)isconnectedtotheNSG3040’sgroundterminal.

6.1.4 Burst outputThissocketconnectstheinstrumenttoanexternalburstcouplingclampforcapacitivecoupledbursttestsondatalines,ortoanexternalcouplingnetwork

Note: ForNSG3040-SOWmodelstheBurstoutputisinactive.

6.1.5 Indicator LEDs

TheLEDsswitchonandoffduringthebootperiodandwhenerrorsoccur.

LED indicator FunctionPoweron: Instrument/systeminoperationPulse: ShowstheoccurrenceofpulsesoratesteventHighvoltageactive: ShowsthathighvoltageispresentintheinstrumentEUT-Poweron: IndicateswhentheEUTpowersupplyispresentat theEUTconnectoronthefrontpanelError: Indicatesthatasystemerrorhasoccurred

6.2.1 Instrument supplyThisinputistopowertheinstrument.

NOTE - Do not confuse the Mains power input with the EUT power input.

ThisinputcontainsthefusesandtheinstrumentON/OFFswitch.

WARNING - Before operating the NSG 3040, make sure that the voltage shown on the mains input module cor-responds with the voltage of the local supply to which the instrument will be connected, and that the fuses are correctly rated (2 x 3.15 AT).

EUT power input

Instrument supply

System interface

Ethernet connection

6.1.6 Touch screen and user interfaceThecolor7”touchscreendisplaycontrolsincludeawheeland3sensitivitykeysusedto1,10or100stepsperwheelclick.TheStart,Stop,andPausekeysareusedtocontroltheprocedure.

Alluserinterfacefunctionmenusandsub-menusaredescribedin“Thestan-darduserinterfaceSUI”.

6.2 Rear panel

Black: Phaseconductor La Pin1

Blue: Neutral return N Pin 2

Redorbrown: Variablevoltagepole Lb Pin3

Green/yellow: Groundconductor PE Pin4

Wirecolorsandfunctions

6.2.2 EUT power inputThisinputistheconnectionpointforthepowersourcewhichsuppliespowertotheEUT.The4-pinconnectorisaspecial16Atype.Amatingplugwith2mofcableforsupplyingtheEUTfromanormalmainsoutletisincludedwiththesystem.

Theconnectoriscomprisedofthepolecontact(La,No.1),thevariablevoltagepolecontact(Lb,No.3),theneutralreturncontact(N,No.2)andthegroundconnectiontotheEUT.ThezerocrossreferenceforsynchronizationpurposeistakenallthetimefromLatoN.

EUT mains input

1 La = Phase (black)

4 = GND - Earth (green/yellow)

3 Lb = Variable voltage pole (red/or brown)

2 N = Neutral (blue)

WARNING - Pulse overshoot spikes of up to 630 V can occur on these power lines. Such voltages can, under certain circumstances, destroy power supplies. It is the user’s responsibility to provide adequate protection at the source input.

Theadditionalvariablevoltagepolecontact(Lb,No.3)enablesavariacoralter-nativesourcetobeconnectedforPQTtests.

2040 6080100120°C

Ambient temperature

Wire 2.5 mm2

Wire 1.5 mm2

Wire 1.0 mm2

ThepowersourcetothisconnectorprovidesthepowerfortheEUT.Burstandsurgeinterferencesignalsarecoupledintothissupplylineinternally.PowerisalsodeliveredviathisrouteforPQT(mainsquality)testingpurposes.

Capacitors in the coupler can cause ground leakage currents of up to 4 A the EUT power supply network. The test system must therefore be properly grounded and powered from a supply that is not protected by a residual current detector (RCD).

Pin # Sync.line Signal Remark Working direction

7 Sync0 Mains synchronization

Mains voltage passes throughthezerocrossingpointwithrisingsignallevel

From a coupling network

5 Sync1 InterlockPutstheNSG3060intoanidlestate.The“Error”LEDlightsinthisstate

Fromeachcontroller/tointerlockcircuit

6 Sync2 EUTfailEUTreportsafaulttotheNSG3060software.Thetest is stopped

FromEUTtomastercontroller

18 Sync3 Triggertooscilloscope

ExternaldevicereceivestheTrigger-to-Scopesignalfromthegenerator

To/fromtheactivefunctionmodule,theslave controller and master controller

17 Sync4 Pulse enable Externaldevicestopsthetest run

Fromexternaldevicetotheslaveandmaster controllers

4 Sync5 EUTpowerOFF ConnectingthisPINtoGND24SwillforcetheEUTpower to OFF. Note:FirstEUTpowerneedstobeswitchedONviatheinstrumentfrontpanelorWIN3000Software,Thisallowsdualdrive,asthentheEUTpowercanbeswitchedOFFandONeitherfromsoftwarecontrolorfromthisexternalsignaldrive.

Fromexternaldevicetotheslaveandmaster controllers

6.2.3 DC EUT inputFor DC voltages: La = positive (+), N = negative (-)InDCapplications,thepositiveandnegativelinesaretobeconnectedtoLaandNrespectively.ThepolarityatthisEUTpowerinputconnectorwillbethesameattheEUToutputconnector.

Theconnector’sgroundcontactmustbeconnectedtoagood,solidgroundpoint.

6.2.4 Ground connection pointThisgroundterminalprovidesasolidconnectionpointtotheNSG3040’schassisground.

6.2.5 System interface connector 25 pin D sub

Pin # Sync.line Signal Remark Working direction

16 Sync6 HighvoltageON OutputisHighwhenHVisactive

Output to drive INA 3001 warning lamps

3 Sync7 Reserved Internal usage(debug mode)

2,8,15,20 GND Sync bus ground return

14,21+24V Interbus+24Vsupply

19 Interlockreturn Interlockreturnline

othersInterbus lines

Seechapter“Systeminterfaceconnectorfunctions”,formoredetail.

6.2.6 Synchro-Bus systemThisconnectionincludesexternaldevicecontrolandinterlockcapability.IftheNSGisusedonlyasastandaloneunit,theterminationconnectorneedstobepluggedotherwisetheunitwillnotstart.

All connected accessories will be detected automatically. Written tests are linkedwiththisaccessoriessoifotheraccessoryisconnected,itmaygetanerrorifthetestcontainsnotthesuitableaccessories.

AnyautomatedCDNandcomplementaryautomatedequipmentlikevariac,steptransformeretc.needtobelinkedtogether.Therebytheterminationconnectorneedstobemovedtothesystemoutputplugofthelastunitofthesystem.

Theinterfacesfortheinterbus,interlockandsynchro-busarebundledtogetherinasubD-connector.Thesethreeinterfacesareloopedthroughfromoneinstrumenttoanother.

33 NOTE - Good EMC engineering practices should be applied when connecting signals to this port. As the whole system generates disturbances, in order to avoid auto disturbing, all wires connected to this port should be properly shielded, the shield of the cable should not serve as signal return path and the shield should be connected via a large surface to the conductive shell of the Sub-D plug.

TheNSG3040StandardUserInterface(SUI)consistsof

–A7”colortouchpanel–Awheelforsettingparameters–Awheelsensitivitykeyslabeled1,10,and100todenotetheunits–AStartkeytostarttests–AStopkeytostoptests–APausekeytopausetests

7 THE STANDARD USER INTERFACE (SUI)

CAUTION – Never use a metal, sharp or pointed tool for touching the panel. Use a soft towel for cleaning. Never use aggressive cleaning liquids.

Assoonastheunit ispoweredandswitchedon,thebootprocedurestarts(approx.30s)andtheStartmenuisdisplayed.

NSG 3040 touch touch screen, keys and wheel

Start key

Pause key

Stop key

7.1 Main menu

Themainmenuisdisplayedfollowingboot-up.Themainmenushowsthepos-siblepulsesortestswhichareavailabletotheuser,dependingontheNSG3040’sconfiguration.Fadedgenerator icons(Telecom10/700µspulseandvoltagevariation)mean,thatthegenerator isconfiguredtogeneratethosepulsesbuttheproperunitisnotconnected.

Intheredverticalbartherearethreebuttons,“System”,“ResetInterlock”and“Remote”.Touchingtheresetinterlockbuttonwillclosetheinterlock.Theinter-locklinkmustbeclosedbeforestartingatest.

Touch“Remote”buttontoenterremotecontrolledscreen.Noinputsviatouchpanelarepossible.TheNSGcannowbecontrolledviaWIN3000remotecontrolsoftware.Touch“Exit”onscreenandinWIN3000touseNSGmanually.

SUIboot-upscreen

Main menu NSG 3040-IEC Main menu NSG 3040-SOW

7.2 System windowTouchthe“System”buttontodisplaythe“System”window:

The“System”windowdisplays4buttons:GENERAL,EQUIPMENT,COMMU-NICATIONandMONITORING. Intheredbartherearetwobuttons:FACTORYSETTINGSandEXIT.

FACTORY SETTINGS TouchtheFACTORYSETTINGSbuttontoresetthepropertiesassociatedwitheachofthebuttonsintheSystemwindowtotheoriginalfactorysettings.

EXITTouchtheEXITbuttontoreturntothemainmenu.

7.2.1 GENERAL settings

System window

General settings window when no optional hardware (CDN, variac, etc.) connected.

Beeper volumeDuringthesurgetestthereisabeepsoundtoalerttheuser.Touchthe“Beepervolume”buttontoswitchthesoundonandoff.Defaultsettingis“On”,forsafetypurpose.

TheredverticalbarontherightsideoftheGeneralsettingswindowdisplays4buttons:“Exit”,“EUTOFF/ON”,“FactorySettings”,and“OK”.

Interlock actionTouchthe“Interlockactionbutton”(“EUTpowerOn”intheexample)tokeepEUTpoweronwhentheinterlockisactivated,ortohaveitautomaticallyshutoff(“EUTpowerOff”)whentheinterlockisactivated.

General settings window when an EUT power switch has been detected.

General settings window when automated variac is connected.

Expert modeChangethe“Expertmode”statusto“Active”tochangeparametersduringarunningtest.Whenthebuttonissetto“Off”parameterscanbechangedonlywhentheNSG3040isinStopmode.Expertmodeisonlyavailableforburstpulses(EFT).

Voltage U inThisbuttonisactiveonlywhenanoptionalautomatedVAR6502orVAR3005variac isconnected to theNSG3040.Thevalueentered in thisfield is thevoltagemeasuredatthemainssocketandisusedasthe100%referencepointforvoltagevariationtests.

Touchthe“VoltageUin”button(“230”intheexample).Usethewheelorkeypadtosettheinputvoltage.

Uinsettingwillbesavedandisvalidforallfollowingtests.Uinarechangeablevia WIN 3000 (dialogue) to be used in sequence mode.

EXITTouchthe“Exit”buttontoreturntothesystemwindowwithoutsavingsettings.

EUT ON/OFFThe“EUTON/OFF”buttonisusedonlywhenanoptionwithabuilt-inEUTswitch,suchasanINA6502,aCDN3043oraVAR3005,isconnectedtotheNSG3040.

TheNSG3040itselfdoesnothaveanEUTswitch.TouchingthebuttonwillturntheEUTswitchonoroff.

FACTORY SETTINGSTouchthe“FACTORYSETTINGS”buttontoresetthepropertiesassociatedwitheachofthebuttonsinthegeneralsettingswindowtotheoriginalfactoryset-tings.

OKTouchthe“OK”buttontosaveallsettingsandreturntothesystemwindow.

397.2.2 EQUIPMENT screen

Touchthe“Equipment”buttontoaccessalistofallinternalandexternalgenera-tormodules,includingfirmwareversions,serialnumbers,calibrationdatesandcertificatenumbers.

The red vertical bar on the right of the equipmentwindowdisplays threebuttons:“Exit”,“Up”and“Down”.

EXITTouchthe“Exit”buttontoreturntothesystemwindow.

UP/DOWNIfthesystemincludesmorethan5modules,touchthe“Up”and“Down”arrowstoscrollthroughthelist.

ViewingthecurrentSUIversionSeeentrystartingwith“SUI3000”undercolumn“FWVersion”(intheexampleabove:080313).

Equipment window

Touchthe“Communication”buttontoviewandenterthenetworkaddressinformationrequiredtointegratetheNSG3040intoalocalareanetworkorconnect it to a PC.

BytouchtheIPaddress-,SubNet-,Port-orGateway-fieldthekeyboardwillappearandthenewnumberscanbeadded.Toenteranewaddressonlythenumberkeyandthedotmaybeused.

Aftertouching“Enter”thekeypadwillcloseandthenewsettingaresaved.The“Del”keywilldeletealltextentered.Thebackspacebutton(<--)willdeletethelastletterentered.Touchthe“cancel”buttontoreturntothetestparameterwindowwithoutsavingtheparameters.

IP addressAnIPaddress(Internetprotocoladdress)isauniqueaddressthatcertainelec-tronicdevicesusetoidentifyandcommunicatewitheachotheronacomputernetworkutilizingtheInternetProtocolstandard(IP).Anyparticipatingnetworkdevicemusthaveitsownuniqueaddress.Touchthe“IPAddress”buttontoentertheIPaddress.EntertheIPaddressusingthevirtualkeypadandconfirmwith“Enter”.

SubnetAsubnetisa logicalgroupingofconnectednetworkdeviceswhichisusedtopartitionnetworksintosegments.DevicesonasubnetshareacontiguousrangeofIPaddressnumbers.

Communication window

7.2.3 COMMUNICATION screen

41AsubnetmaskdefinestheboundariesofanIPsubnetandhidesthenetworkaddressportionofan IPaddress.Forexample, ifanetworkhasabase IPaddressof192.168.0.0andhasasubnetmaskof255.255.255.0,thenanydatagoingtoanIPaddressoutsideof192.168.0.Xwillbesenttothatnetwork’sgateway.

Touchthe“SubNet”buttontoenterthesubnetmask.Enterthesubnetmaskusingthevirtualkeypadandconfirmwith“Enter”.

GatewayAgateway isanodeonanetwork that servesasanentrance toanothernetwork. Inenterprises,thegatewayisthecomputerthatroutesthetrafficfromaworkstationtotheoutsidenetworkthatisservingtheWebpages.Inhomes,thegatewayistheISPthatconnectstheusertotheinternet.

Inenterprises,thegatewaynodeoftenactsasaproxyserverandafirewall.Thegatewayisalsoassociatedwithbotharouter,whichuseheadersandforward-ingtablestodeterminewherepacketsaresent,andaswitch,whichprovidestheactualpathforthepacketinandoutofthegateway.

Thegatewayaddressisusuallysetat0.0.0.0.Touchthe“Gateway”buttontoenterthegatewayaddress.Enterthegatewayaddressusingthevirtualkeypadandconfirmwith“Enter”.

PortNetworkportscanbeeitherphysicalorvirtualconnectionpoints.TheNSG3040hasaphysicalEthernetportthatallowsittobeconnectedtoaPCorrouter.

TheportaddressfortheNSG3040shouldbesetto1025.Touchthe“Port”buttontoentertheportnumber.Entertheportnumberusingthevirtualkeypadandconfirmwith“Enter”.

MAC addressMediaAccessControl(MAC)technologyprovidesauniqueidentificationandaccesscontrolfordevicesonanIPnetwork.Thisaddresscannotbechanged.MediaAccessControlassignsauniquenumber,theMACaddress,toeachnetworkadapter.

7.2.4 MONITORING screen

Monitoring window

Touchthe“Monitoring”buttontoviewEUTpowerinputparameters,andtocontroltestactivityandEUTpowerinputintheeventofEUTfailure.

EUT Supply Voltage, EUT Supply FrequencyIncaseaCDN304xseries,CDN306xseriesoranINA650xisconnectedtotheNSG3040,the“EUTSupplyVoltage”fielddisplaystheactualEUTvoltagewhentheACEUTinputsupplyisconnectedandEUTpowerisswitched“On”.Whentheinputsupplyisnotconnectedand/ortheEUTisswitchedoff,thesefieldswill display NA.

TheEUTSupplyfrequencyfieldshowsthemeasuredfrequencyoftheEUTsupply voltage.

Test Action at EUT Fail InputTouchthe“TestActionatEUTFail Input”button(“Stop” intheexample)tospecifythetestactiontakenifthe“EUTfailinput”(onsystemInterfaceport)is activated.

Whenthebuttonissetto“Stop”andthe“EUTfailinput”isactivated,theteststops.ThetestcanberestartedbypressingtheStartkeyonthefrontpanel.

Whenthebuttonissetto“Pause”andthe“EUTfailinput”isactivated,thetestgoesintopausemode.Thetestcanbecontinuedbypressingthe“Start”key

43onthefrontpanel.Whenthebuttonissetto“CONT.”,thetestwillcontinueeveniftheEUTfail.

EUT Power Supply at EUT Fail InputTouchthe“EUTPowerSupplyatEUTFailInput”button(notshownonexample)tospecifytheactiontakenifan“EUTfailsignal”isgenerated.

Whenthebuttonissetto“On”,EUTpowerstaysONafterthe“EUTfailInput”is activated.

Whenthebuttonissetto“Off”,EUTpowershutsdownwhenthe“EUTfailInput”isactivated.

EXITTouchthe“Exit”buttontoreturntothesystemwindowwithoutsavingchanges.

EUT ON/OFFThisbuttondisplaystheEUTinputpowerstatus.

OKTouchthe”Ok”buttontosavechangesandreturntothesystemwindow.

7.3 Updating SUI software via the SD-cardTochangetheSUIsoftware,firstswitchoffthegeneratorandremoveallpowercordsandcables.Openthetophousingcoverofthegeneratorasdescribedbelow.

WARNING - Before opening the generator make sure that it is turned OFF and disconnected from all power and signal cables!

ToopentheNSG3040,theusermustfirstremovethesidespanels.Eachsidepanelhas4snapfixtureswhichwillseparatewhenoutwardpressureisapplied.

1.Pulloutwardontheindentationinthefrontofthesidepanel.Ablunttoolwhichwillnotscratchthepaintonthepanelmaybeused.

2.Pulloutwardtoseparatethepanelfromthesnapfixtures.

3.Removetheupperscrewsonbothsidesofthegeneratorcover.

4.RemovetheNSG3040cover.TheSD-cardslotislocatedattherightfrontofthegenerator,inbackofthefrontpanel.

5. PresstheSD-cardtoreleaseit.Removethecardfromtheslot.ToinstallanewSD-card,proceedtostep7.

6. TodownloadnewsoftwarefromaPCtotheSDcard,insertthecardintheSDportofthePCandcopythesoftwaretotheSDcard.ThefilenamemustremainSUI3000AP.EXE.RemovetheSDcardfromthePC.

7. InserttheSD-cardintheNSG3040.Followsteps1-4inreversetoreplacethegeneratorcoverandsidepanels.

8. RestarttheNSG3040.Thenewsoftwareversionwillbootautomaticallyandmaybeverifiedintheequipmentdetailwindow(seesection7.7.1).

TheSD-cardisplacedontheupperrightposition.

Removing the NSG 3040 side panels and cover

NSG 3040 SD-card slot

NOTE: Do not change the SUI program filename.

Removing the SD-card

Windows explorer displaying the SUI program filename (SUI3000AP.EXE) on the

SD-card (removable disk (F:)

ThemainmenudisplaysabuttonforeverytypeoftestthatcanbeperformedbytheNSG3040.Buttonsforteststhatarenotavailableonthesystemasconfiguredaregreyedout.

Theusercansetparametersforavailabletestsandcreatenewtestsinthetestparameter window.

Thenextfigureshowsthetestparameterwindowforbursttests.Whiletheinputfieldsdifferforeachtypeoftest,theredsidebarandbottombarremainthesame.

8 PARAMETER SETTING WINDOW

8.1 The red menu bar

EXITTouchthe“Exit”buttontoreturntothesystemwindowwithoutsavingsettings.

Red bar

Bottom bar

Example of the burst test window, showing the red bar and bottom bar.

EUT OFF/EUT ONTouchthe“EUTOff/EUTOn”buttontoswitchEUTpowerofforon.Note: TheEUTpowerfunctioncanworkonlyincombinationwithanautomatedaccessory,suchasavariac,steptransformerorautomatedCDN.

RAMP VALUEThe“Rampvalue”buttonisactiveonlyifarampableparameter inthetestwindowisselected.Allrampableparametersareidentifiedbyasmallgrayrampicon.Thisiconwillturnredwhenaparameterisramped.

Rampingmode Touch the“Rampingmode”button (“Static” in theexample)tochangetherampingmodefromstatictolinear.InlinearmodetheusercansetStart,StopandStep values.

Start Touchthe“Start”button(“200V”intheexample).Aredframeisdisplayedaroundthefield.EntertheStartvalueusingeitherthewheelorthekeypad.

Stop Touchthe“Stop”button(“4800V”intheexample).Aredframeisdisplayedaroundthefield.EntertheStopvalueusingeitherthewheelorthekeypad.

Step Touchthe“Step”button(“1V”intheexample).Aredframeisdisplayedaroundthefield.EntertheStepvalueusingeitherthewheelorthekeypad.

Ramping window for voltage parameter

49 Stepdelay Touchthe“Stepdelay”button(“1” intheexample).Aredframeisdisplayedaroundthefield.EntertheStepDelayvalueusingeitherthewheelorthekeypad.Touchthe“Unit”button(“s”intheexample)tosetthestepdelayunit.Thestepdelaydependsonpulsesandtheminimumrepetitionrates.

OKTouchthe“OK”buttontosaveallsettingsandreturntothetestparameterwindow.

EXITTouchthe“Exit”buttontoreturntothetestparameterwindowwithoutsavingsettings.

SHOW STEPSTouchthe“ShowSteps”buttontoview,changetheorderof,ordeleteindividualteststeps.Theshowstepwindowdisplaysindividualteststepsintheorderthattheywillbeexecuted.

UP/DOWN Usethe“UP”and“DOWN”arrowsontherightsideoftheShowStepwindow

tochangetheteststeporder.Touchalinenumbertoselectastep.Aredframeisdisplayedaroundtheselectedstep.Touchthe“UP”buttontomovethestepupinthelist.Touchthe“DOWN”buttontomovethestepdowninthelist.

DEL Touchalinenumbertoselectastep.Aredframeisdisplayedaroundthe

selectedstep.Touchthe“DEL”buttontodeletethestep.

OK Touchthe“OK”buttontosaveallsettingsandreturntothetestparameter

window.

EXIT Touchthe“Exit”buttontoreturntotheTestparameterwindowwithout

saving settings.

ADD STEPMulti-steptestscanbeprogrammedmanuallyinthetestparameterswindowusingthe“AddStep”button.Touchthe“AddStep”buttoncreateanewstepwiththevaluescurrentlydis-playedintheTestparameterswindow.Theusercanprogramamaximumof10 test steps.

Whenthefirstteststepisprogrammed,“TestStep1/X”isdisplayedintheupperrightcorner,andthestepcannolongerbechangedfromtheTestparameterswindow.

Tochangeastep,theusermustfirstdeleteitusingthe“ShowStep”button,thenuse“AddStep”tore-enterthestep.

Refertosections8.3-8.9fordetailedinformationonsettingparametersforspecifictypesoftests.

EXPERT MODEThe“ExpertMode”buttoncanbeusedonlyif“ExpertMode”issetto“On”intheSystem/Generalsettingswindow(seesection7.3).TheuniqueexpertModeisafastandeffectivemethodtodeterminecriticalthresholdvaluesofadeviceundertest(EUT).

Touchthe“ExpertMode”buttontomanuallyadjusttestparametersusingthewheelwhileatestisinprogress.

Aselectedtestcanbestarted.Duringrunmodethechangeableparametercanbetouched,thevaluewindowishighlightedwitharedframe,likethevoltageframeshownintheexamplesabove.Thevaluecannowbechangedviawheelandbypressingagainthe“START”button,thevaluewillbeacceptedandonthepulseoutputthenewvalueisdisplayed.

8.2 The bottom bar

“Expert Mode” in Burst/EFT Mode ForsafetyreasonstheExpertModeactivationneedstobeconfirmedagain

whenusingBurstModeintheBurstParametersScreen.

Following parameters can be controlled using “Expert Mode”: Volt(pleasenote,thevoltagechangeisonlypossibleifthepolarityisset

to Negative or Positive) Frequency Phase Burst time

“Expert Mode” in SOW Mode InSOWModeonlythevoltagecanbechangedduringarunningtestusing

“ExpertMode”.

Load user test window

8.2 The bottom bar8.2.1 LOAD USER TESTTouchthe“LoadUserTest”buttontodisplayalistofalltestfilesthathavebeencreatedandsavedbytheuser.Onlyfilesfortheselectedtesttypearedisplayed.TheFigurebelowshowstheloadusertestwindowwithseveralbursttests displayed.

Theusercanscrollthroughthetestsbytouchingthe“UP”and“DOWN”arrowsontherightsideofthescreentoscrollthroughthetests.

Touchthebuttontotheleftofthetestnametoselectit.Aredborderisdis-playedaroundtheselectedtest.

Touchthe“OK”buttontoloadthetestandreturntothetestparameterwindow.

Touchthe“Delete”buttontodeleteasavedtest.Awindowaskingtheusertoconfirmorcancelthisactionwillbedisplayed.Touch“OK”todeletethefile,or“Cancel”tocancelthisaction.

NOTE:Onceatesthasbeendeleteditcannotberestored.

538.2.2 LOAD STANDARD TESTTheNSG3040includesallnecessarytestlibrariescorrespondingtothelatesteditionsoftheIECbasicstandardsfromtheIEC/EN61000-4-xseries.Theyconform tomany standard derivates and product standards. AdditionallysomecorrespondingANSI/IEEEstandardsaswellasaselectionofgenericandproduct standards are available.

DependingontheselectedpulsetheappropriateIECstandardtestscanbeselected.

FollowingstandardtestsareincludedintheSUI:

Burst, IEC 61000-4-41-Phasepowerlineslevel1uptolevel4,5kHz1-Phasepowerlineslevel1uptolevel4,100kHz3-Phasepowerlineslevel1uptolevel4,5kHz3-Phasepowerlineslevel1uptolevel4,100kHzCapacitivecouplingclamplevel1uptolevel4,5kHzCapacitivecouplingclamplevel1uptolevel4,100kHz

Combination wave (Surge), IEC 61000-4-5 [1.2/50 µs & 8/20 µs]1-PhasepowerlinesL-Ncouplinglevel1uptolevel41-PhasepowerlinesL-PEcouplinglevel1uptolevel41-PhasepowerlinesN-PEcouplinglevel1uptolevel43-PhasepowerlinesLx-Lxcouplinglevel1uptolevel43-PhasepowerlinesLx-PEcouplinglevel1uptolevel4

DC-Line L-N coupling level 1 up to level 4UnshieldedunsymmetricalI/Olineslevel1uptolevel4Unshieldedsymmetricalcommunicationlineslevel1uptolevel4

Power magnetic field, IEC 61000-4-850HZCF9.8,level1uptolevel460HZCF9.8,level1uptolevel4

Pulsed magnetic field, IEC 61000-4-9CF0.98,level3uptolevel5CF3.4,level3uptolevel5

Dips and Interrupts for AC power lines, IEC 61000-4-1150Hz,ACPowerLines,Class2,Dips,0%,0.5Cycledipsupto25Cycle60Hz,ACPowerLines,Class2,Dips,0%,0.5Cycledipsupto30Cycle50Hz,ACPowerLines,Class3,Dips,0%,40%,70%,80%,0.5Cycledipsupto250 Cycle60Hz,ACPowerLines,Class3,Dips,0%,40%,70%,80%,0.5Cycledipsupto300 Cycle

50Hz,ACPowerLines,Class2,Shortinterruption,0%,250Cycledips50Hz,ACPowerLines,Class3,Shortinterruption,0%,250Cycledips60Hz,ACPowerLines,Class2,Shortinterruption,0%,300Cycledips60Hz,ACPowerLines,Class3,Shortinterruption,0%,300Cycledips

50HzVoltagevariations60HzVoltagevariations

Dips and Interrupts for DC lines, IEC 61000-4-29DCVoltageDips40%,0.01supto1sDCVoltageDips,70%,0.01supto1s

DCvoltageinterruption,0%,0.001supto1s

DCvoltagevariation,80%,0.1supto10sDCvoltagevariation,85%,0.1supto10sDCvoltagevariation,120%,0.1supto10s

Slow Damped Oscillatory Wave (SOW), IEC/EN 61000-4-181-PhasepowerlinesL-Ncoupling,100kHz,level1uptolevel31-PhasepowerlinesL-Ncoupling,1MHz,level1uptolevel31-PhasepowerlinesL-PEcoupling,100kHz,level1uptolevel3_noteA1-PhasepowerlinesL-PEcoupling,1MHz,level1uptolevel3_noteA1-PhasepowerlinesLN-PEcoupling,100kHz,level1uptolevel3_noteA1-PhasepowerlinesLN-PEcoupling,1MHz,level1uptolevel3_noteA1-PhasepowerlinesN-PEcoupling,100kHz,level1uptolevel3_noteA1-PhasepowerlinesN-PEcoupling,1MHz,level1uptolevel3_noteA

55ANSI/IEEE C37.90.1 (SOW)1-PhasepowerlinesL-Ncoupling,1MHz,2500V1-PhasepowerlinesL-PEcoupling,1MHz,2500V1-PhasepowerlinesLN-PEcoupling,1MHz,2500V1-PhasepowerlinesN-PEcoupling,1MHz,2500V

IEC TS 61000-6-5 (SOW)1-PhasepowerlinesL-Ncoupling,1MHz,500/1000/2500V1-PhasepowerlinesL-PEcoupling,1MHz,500/1000/2500V1-PhasepowerlinesLN-PEcoupling,1MHz,500/1000/2500V1-PhasepowerlinesN-PEcoupling,1MHz,500/1000/2500V

IEC 61850-3 (SOW)1-PhasepowerlinesL-Ncoupling,1MHz,2500V1-PhasepowerlinesL-PEcoupling,1MHz,2500V1-PhasepowerlinesLN-PEcoupling,1MHz,2500V1-PhasepowerlinesN-PEcoupling,1MHz,2500V

IEC 60255-26 (formerly IEC 60255-22-1) (SOW)1-PhasepowerlinesL-Ncoupling,1MHz,1000/2500V1-PhasepowerlinesL-PEcoupling,1MHz,1000/2500V1-PhasepowerlinesLN-PEcoupling,1MHz,1000/2500V1-PhasepowerlinesN-PEcoupling,1MHz,1000/2500V

IEC 62052-11 (SOW)1-PhasepowerlinesL-Ncoupling,100kHz/1MHz,1000V1-PhasepowerlinesL-PEcoupling,100kHz/1MHz,2500V1-PhasepowerlinesLN-PEcoupling,100kHz/1MHz,2500V1-PhasepowerlinesN-PEcoupling,100kHz/1MHz,2500V

8.2.3 SAVE TESTThe“SaveTest”buttonisusedtosavethecurrenttesttoafileforlateruse.

Touchthe“SaveTest”button.Akeyboardisdisplayed.Touchtheindividualkeystoenterafilenameintheblackbarabovethekeyboard.

The“Delete”keywilldeletealltextentered.Thebackspacebutton(<--)willdeletethelastletterentered.Touchthe“Enter”buttontosavethefileunderthenameentered.

Alllettersandnumbers,aswellashyphens,spacesanddots,canbeusedinfilenames.Themaximumfilenameis40characters,includingspaces.

Thesystemautomaticallygeneratesafileextensiontoidentifythetypeoftest.Forexample,allbursttestswillaregiventheextension.EFT.

Touchthe“Cancel”buttontoreturntothetestparameterwindowwithoutsavingthefile.

8.2.4 KEYPADTouchthe“Keypad”buttontodisplayanumerickeypad.TheKeypadbuttonisactiveonlywhentheuserhasselectedaparameterthatrequiresanumericentry.

Touchindividualnumberstoenterthem,touch“C”toclearanentry,andtouch“Enter”toenterthevalueinthefield.Aftertouching“Enter”thekeypadwillclose.

Keypad

578.2.5 SHOW GRAPHICS Touchthe“ShowGraphics”buttontodisplaywaveforms,couplingdiagramsandothergraphicalinformationfortheselectedtest.

Touchthe“More”buttontoviewadditionalinformation.

Touchthe“Back”buttontoviewpreviousgraphics.

Touchthe“Exit”buttontoreturntotheTestparameterswindow.

Example burst pulse graphs

8.3 Burst parameter settingThegenerationofhighvoltageburstsandhighfrequencypulses ispartofthe EFT/burst package test required in the international standard EN/IEC 61000-4-4.

ThetestNSG3040generatesburstsofinterferencethatsimulatetheinterfer-encethatisgeneratedwheninductivelyloadedswitchesareoperated.Withtheirverysteeprisingandfallingedges,theseinterferencepulsesspreadoverafrequencyspectrumofover300MHzandmayoccurwhereverelectricalcurrentsareswitchedoffinconnectionwithmotors,circuitbreakers,relays,fluorescentlamps,etc.Therefore,nearlyalltherelevantstandardsconcerningthetestingofelectronicequipmentrequiretheperformanceofbursttests.

NOTE - A Teseq CAS 3025 calibration set must be used with a minimum 400 MHz digital oscilloscope to accu-rately verify the EFT pulse parameters.

8.3.1 Test configuration with power line couplingInapowerlinecouplingtest,theNSG3040generatestheinterferencesignal,whichissuperimposedontheEUTpowersignal.

8.3.2 Test configuration with external couplingInanexternallycoupledtest,theinterferencesignalisdeliveredthroughtheNSG3040’scoaxialburstoutputconnector(SHV-type)onthefrontpanelandfedtoanexternalcouplingclamp.Thesignalisthenappliedtosignalordataline cables.

ThesameSHVtypeconnectormayalsobeusedforconnectionofa3-phaseCDNorforaCDNsuitablefor1-phase>16AandallotherCDNs.

100%90%

≤20%tptr

tBurst

Single pulse Pulse burst

tr=5ns±30%tp=50ns±30%into50Ωtp=50–15ns/+100nsinto1000Ω

Burst wave shape and timing definitions

598.3.3 Burst parameters window

Burst parameter setting window

8.3.4 VoltageTouchthe“Polarity”button(ALTintheexample)toselecttestpolarity.Polarityvaluesare:positive (POS), negative (NEG), or alternating (ALT).

Onoddpulsenumbertherewillbeonepulselessinnegativetheninpositive.Positivepulsewillbefirstexecuted.

Touchthe“Voltage”button(200Vintheexample)toenterthetestvoltage.Aredframeisdisplayedaroundthefield.Thevoltagevaluemaybeenteredusingthewheelorthekeypad.

8.3.5 FrequencyTouchthe“Frequency”button(5intheexample)tosetthetestfrequency.Aredframeisdisplayedaroundthefield.Thefrequencyvaluemaybeenteredusingthewheelorthekeypad.

Touchtheunitsbutton(KHzintheexample)tosetthefrequencyunit.FrequencyvaluesareHzandKHz.

8.3.6 PhaseTouchtheSynch/Asynchbutton(Asynchintheexample)toactivatethesyn-chronizationoftestpulsestotheEUTmainsfrequency.

WhenthisbuttonissettoAsynch,thephasevaluebutton(---intheexample)willdisplay‘---’.WhenthisbuttonissettoSynch,theusermustalsosetthephasevalue.

Tosetthephasevalue,touchthephasevaluebutton.Aredframeisdisplayedaroundthefield.Thephasevaluemaybeenteredusingthewheelorthekeypad.

Thevalueisindegreeunitsandmayrangefrom0to359.

8.3.7 CouplingTouchthe“Couplingmode”button(IECCOUPLINGintheexample)toselectBURST OUTPUT,MANUAL CDN, ANSI COUPLING or IEC COUPLING.

Burst outputBurstoutputmustbeselectedifanexternalcapacitivecouplingclamp(e.g.CDN3425)isconnectedtotheNSG3040.

Manual CDNThefactorysettingformanualCDNisthesameasforburstoutput.

IEC couplingTouchthecouplinglineselectionfield(L1,N,PEintheexample)todisplaythecoupling selection window.

Touchtheindividual“highoutputcouplingline”buttons(L,N,andPEintheexample)toselectanopenorclosedrelay.

The“Lowoutput”field(Ref.groundintheexample)isalwaysfixed.Touch“OK”toenablethecouplingselectionandclosethewindow.Touch“Cancel”toclosethewindowwithoutsavingthecouplingselection.Touch“ShowGraphics”todisplayagraphicalexampleofthecouplingselection.

Note: BurstcouplingisalwaystoHFreferenceground.

8.3.8 Burst time Touchthe“bursttime”button(15intheexample)tosetthebursttime.Aredframeisdisplayedaroundthefield.Thebursttimemaybeenteredusingthewheelorthekeypad.

Touchthe“units”button(msintheexample)tosetthetimeunit.Timeunitsare s, ms, µs and spikes.

8.3.9 Repetition timeTouchthe“Repetitiontime”button(300intheexample)tosetthetestrepeti-tiontime.Aredframeisdisplayedaroundthefield.Therepetitiontimemaybeenteredusingthewheelorthekeypad.

Touchthe“units”button(msintheexample)tosetthetimeunit.Timeunitsare s and ms.

Note:Therepetitiontimemustbeshorterthanthetestduration.

8.3.10 Test durationTouchthe“TestDuration”button(120intheexample)tosetthetestdura-tiontime.Aredframeisdisplayedaroundthefield.Thedurationtimemaybeenteredusingthewheelorthekeypad.

Touchthe“units”button(sintheexample)tosetthetimeunit.Timeunitsares, min, h and cont (continuous).

Coupling selection window

Parameter ValuePulseamplitude: ±200Vto4.8kV(in1Vsteps)-opencircuit ±100Vto2.4kV(50Ωmatchingsystem)Voltagestep: 1V/10V/100VPolarity: Positive/negative/alternateFrequency: Hz: 100...99’999 kHz: 1...1’000Phase: Asynchronous,synchronous0°to359º(in1ºsteps)Coupling: ANSI/IEC/external/manualBursttime: μs: 1...99’999 ms: 1...99’999 s: 1...1’999 Spike: 1...1000Repetitiontime: ms: 1...99’999 s: 1...4’200(70min)Testduration: s: 1...99’999 min: 1...99’999 h: 1...1’000 Continuous

8.3.11 Burst generator technical data

8.3.12 DeratingSomeparametercombinationswillnotbeacceptedduetothepowerlimitationoftheHVpowersupply.Thefollowingerrormessagewillbedisplayedwhenaninvalidcombinationofparametersisentered:

Invalid parameter error message

63Thefollowinggraphsshowtherelationshipbetweenthevoltage,trep,tburst and frequency,andshowtherangeofpossibleparametercombinationsthatcanbe used in testing.

Eachgraphincludestwovoltagesettingswhichareshownindifferent linethicknessesinrelationtothetrepvaluesgivenfor20,10,5,2,1,0.5,0.2and0.1ms.Theappropriatetrep value (bold trepfortheboldline)arelabeledontheborderofthegraph.Combinationsofvaluesthatarebelowthelineareallowed.

Tburst [ms]

1000 10

Tburst [ms]

1000 10

0 10 1

1000 10

0 10 1

Tburst [ms]

10 s 1

678.4 Combination wave (Surge) parameter settingThesurgetestgenerateshighvoltagepulsesasspecifiedintheinternationalstandardsEN/IEC61000-4-5.

8.4.1 Test configuration for power line couplingTestpulsesareinjecteddirectlyintotheEUTpowersupplylinesastheypassthroughthemainsCDN’s.TheEUTobtainsitspowerfromtheEUTpoweroutletonthefrontpaneloftheCDNwherethemainsvoltagehastheinterferencesignal superimposed on it.

8.4.2 Test configuration for external couplingInthismode,theinterferencepulsesareswitchedtothesurgeHiandLooutputsocketsonthefrontpanel,towhichanexternaldatalinesignalcouplercanbeconnected.Byusingsuchanexternalsignalcoupleritispossibletosuperim-posetheinterferencesignal,asspecifiedinthestandards,oncommunicationcablesandotherkindsofdatalines.

ThesamecoaxialHVoutputsocketsmayalsobeusedforconnectiontoallotherCDNs.

FronttimeT1=1.67xT=1.2µs±30%TimetohalfvalueT2=50µs±20%

Wave shape of open circuit voltage (1.2/50 μs), wave shape definition according

to IEC/EN 61000-4-5.

1.00.8

max30%TT1

1.00.8

max30%TT1

FronttimeT1=1.25xT8=µs±20%Timetohalfvalue:T2=20µs±20%

Wave shape of short circuit current (8/20 μs), wave shape definition according

to IEC/EN 61000-4-5.

WARNING - Using improper equipment when measuring surge pulses can result in personal injury or equipment damage.

NOTE - Teseq recommends using a Teseq MD 200 or MD 200 A differential probe in combination with a Teseq INA 3236 Fischer-to-banana adapter for surge pulse verification.

8.4.3 VoltageTouchthe“polarity”button(ALTintheexample)toselecttestpolarity.Polarityvaluesare:positive (POS), negative (NEG), or alternating (ALT).

Onoddpulsenumbertherewillbeonepulselessinnegativetheninpositive.Positivepulsewillbefirstexecuted.

Touchthe“voltage”button(200Vintheexample)toenterthetestvoltage.Aredframeisdisplayedaroundthefield.Thevoltagevaluemaybeenteredusingthewheelorthekeypad.

8.4.4 ImpedanceTouch the “impedance”button (2ohms in theexample), itwill repetitivelychangebetween2and12Ω.

8.4.5 PhaseTouchthe“Synch/Asynch”button(Asynchintheexample)toactivatethesyn-chronizationoftestpulsestotheEUTmainsfrequency.

WhenthisbuttonissettoAsynch,the“phasevalue”button(---intheexample)willdisplay‘---’.WhenthisbuttonissettoSynch,theusermustalsosetthephasevalue.

CW Parameter window

Tosetthephasevalue,touchthe“phasevalue”button.Aredframeisdisplayedaroundthefield.Thephasevaluemaybeenteredusingthewheelorthekeypad.

Thevalueisindegreeunitsandmayrangefrom0to359.SynchmodeisonlyavailableiftheEUTpowerisswitchedon.

8.4.6 CouplingTouchthe“couplingmode”buttontoselectSURGE OUTPUT,MANUAL CDN or IEC COUPLING.

Surge outputSelect SURGE OUTPUTwhenapulseistobeapplieddirectlytotheEUT;forexample,incomponenttestingofnon-poweredEUTs.

Manual CDNThissettingwillcompensatethelossofanexternalmanualCDNsuchastheCDN3083orCDN117.Theinternalimpedancewillbereducedby0.37Ω.

IEC couplingWhenIECcouplingisselectedthewindowinfigurebelowdisplayed.

Touchtheindividual“High”and“Lowoutputcoupling”buttons(L,N,andPEintheexample),toselectanopenorclosedrelay.

Touch“OK”toenablethecouplingselectionandclosethewindow.

Touch“Cancel”toclosethewindowwithoutsavingthecouplingselection.

Touch“ShowGraphics”todisplayagraphicalexampleofthecouplingselection.

IEC coupling selection window

8.4.9 Surge generator technical data

8.4.7 Repetition timeTouchthe“Repetitiontime”button(60sintheexample)tosetthetestrepeti-tiontime.Aredframeisdisplayedaroundthefield.Therepetitiontimemaybeenteredusingthewheelorthekeypad.

Touchthe“units”button(sintheexample)tosetthetimeunit.Timeunitsares and min.

8.4.8 Test durationTouchthe“Testduration”button(10intheexample)tosetthetestdurationtime.A red frame isdisplayedaround thefield.Theduration timemaybeenteredusingthewheelorthekeypad.

Touchthe“units”button(pulseintheexample)tosettheunit.Unitvaluesarepulse and cont (continuous).

Parameter ValuePulsevoltage(opencircuit): ±200Vto4.4kV(in1Vsteps)Pulsecurrent(shortcircuit): ±100Ato2.2kAImpedance: 2/12ΩPolarity: Positive/negative/alternatePhasesynchronization: Asynchronous,synchronous0°to359º (in1ºsteps)

Coupling: EC/external/manualPulserepetition: 10*....600s(in1secsteps) 1 .... 10 min.Testduration: 1to9999pulses Continuous

*Repetitionratedependsonvoltage:200 to 4400V =10srepetitiontime4401 to 6600V =20srepetitiontime

8.5 Dips, interrupts and variations Dips, interruptsandvariatonstestsareinlinewiththespecificationsof IEC61000-4-11.

TheEUTsuppyvoltage(InputLa),getsswitchedoffshortlyviaasemiconductorswitch,inordertogenerateshortsupplyinterrupts.

Asecondswitchisavailableinthegenerator,withasecondinputchannel(InputLb)whereavariablesupplycanbeconnected.Thissecondswitchworksinoppositionwiththefirstone,soalwaysoneofthe2switchesisclosedwhentheotheroneisopen.Generallyasteptransformeroravariacisusedassecondsupply,poweredbythesamesupplythanInputLa, inordertohavephasesynchronisationofthe2inputsources.Thissetupallows“dips”,whichareshortvoltagevariationsfromonesupplyvoltagelevel(providedthroughgeneratorInputLa),toanothervoltagelevel(providedthroughgeneratorInputLb).

EUTswith“universal”supplyvoltageranges(ex:85to245VAC)needtobetestedforbothextremesofsupply.ForthisapplicationTeseqoffersadoublevariacVAR3005-D16,whichallowstoprovidethevariablevoltagerequiredforEUTpowering,aswellasthevariablevoltageofthedip,thisinonebox,andpoweredfromasinglemains.

TheuseofamotorisedvariacasVAR3005alsoallowsrunningvariationtests,whichareslowerchangesinEUTsupplyvoltage.

UsingDCsuppliesinsteadofACsuppliesallowstotestDCpoweredEUTsonasimilarway.ThisisinlinewiththespecificationsofIEC61000-4-29

0 5 10 t (cycles)

a)Voltagedipof30%

8.5.1 Examples of dips & interrupts

8.5.2 Dips and interrupts generator

Dips and interrupts window

t (cycles)

c)Voltagedipof100%

0 10 t (cycles)

b)Voltagedipof60%

8.5.3 Voltage U VarIfnoautomaticvariacorautomatictransformerisconnected,thenthevoltagediporinterruptwillalwaysoccurto0%.Touchingtheunitsrepetitivelyitwillchangefrom% to Volts.

Ifanautomaticvariacorautomatictransformerisconnected,thenthefield“VoltageUvar”enablestosetthedipvoltagelevel.

Ifamanualvoltagesourceisconnected,thenthedips/interruptslevelwillfollowthemanuallysetvoltageattheEUTinput,neverthelessthisfieldwillbeinactive.

8.5.4 PhaseTouchingthe“Phase”field, itwillcomeupwitharedframetoindicatetheselectedparameterisreadyforchange.Thevaluecanbemodifiedeitherwiththeredwheelorusingthekeypad.Touchingthe“Synch/Asynch” button it willchangerepetitively.Insynchmodetheanglecanbemodifiedeitherwiththeredwheelorusingthekeypad.SynchmodeisonlyavailablealongwithaautomatedCDNandiftheEUTpower(AC)isswitchedon.

8.5.5 Repetition timeTouchingthe“RepetitionTime”field,itwillcomeupwitharedframetoindicatetheselectedparameterbeingreadyforchange.Thevaluecanbemodifiedeitherwiththeredwheelorbyusingthekeypad.Touchingtheunitsrepetitivelywillchangefroms, min, cycle, μs to ms.

8.5.6 T-EventTouchingthe“T-Event”field,itwillcomeupwitharedframetoindicatetheselectedparameterbeingreadyforchange.Thevaluecanbemodifiedeitherwiththeredwheelorusingthekeypad.Touchingtheunitsrepetitivelywillchangefrom ms, s, cycle, ¹⁄10 cycle or μs.

8.5.7 Test durationTouchingthe“TestDuration”field,itwillcomeupwitharedframetoindicatetheselectedparameterbeingreadyforchange.Thevaluecanbemodifiedeitherwiththeredwheelorusingthekeypad.TouchingtheunitsrepetitivelywillchangefromPulse, Continuous,s to min.

758.5.8 Dips & interrupts technical data

Parameter ValueDips&Interrupts: FromEUTvoltageinputto0V;0%Uvarwithoptionalvariac: upto265V upto115%ofUin 16Amax.±10%Uvarsteptransformer: 0%,40%,70%,80%Peakinrushcurrentcapability: >500A(at230V)Switchingtimes: 1to5μs(100Ωload)Phasephasesynchronization: Asynchronous,synchronous0°to359º (in1ºsteps)Timereprepetitiontime: µs: 40...99’999 ms: 1...99’999 s: 1...1’999 min: 1...35 cycle: 1...99’999Eventtime(T-Event): µs: 20...99’999 ms: 1...99’999 s: 1...1’999 cycle: 1...300 ¹⁄10cycle: 1...3000Testduration: s: 1...99’999 min: 1...70’000 pulse: 1...99’999 Continuous

8.5.9 Variation test technical data

Parameter ValueUvarwithoptionalvariac: upto265V(in1Vsteps) upto115%ofUin(in1%steps)Phasesynchronization: asynchronous,synchronous,0°to359° (in1°steps)Repetitiontime: 1000msto35min. 1to99’999cycles

DecreasingtimeTd: ms: 1...5000 s: 1...5 cycle: 1...250cyclesfor50Hz 1...300cyclesfor60Hz AbruptTimeatreducedvoltageTs: ms: 1...10000 s: 1...10 cycle: 1...250cyclesfor50Hz 1...300cyclesfor60HzIncreasingtimeTi: ms: 1...5000 s: 1...5 cycle: 1...250cyclesfor50Hz 1...300cyclesfor60HzTestduration: s: 1...99’999 min: 1...70’000 pulse: 1...99’999 Continuous

Automatic accessories for power quality test AllautomatedstandardaccessoriesforPQTtestprovideaconvenientmeansofreducingtheincomingsupplyvoltage.

Oncedetected,thefunctionsareavailableintheuserinterfacesoftware.It’sfullyautomaticcontrolled,drivenfromNSG3040.

WiththeautomaticsteptransformerINA6502theUvarsettings0%–40%–70%–80%willappear.

ConnectingthesinglevariacVAR3005-S16(orVAR6501)thesettingsofUvarwillbepossibleinvoltsor%ofUin.ThereforeUinneedstobesetfirstinthe“General”settingsmenu.Uin inthiscase istheactual inputvoltageofthesingle variac.

WhenusingthedoublevariacVAR3005-D16(orVAR6502)itisimportantthatUininthe“General”settinggetssetfirstbeforeenteringthevariationscreen.ThevalueofUinisvariablewiththedoublevariac.

More informationabout variable voltagesources is available in section14“Accessories”.

8.6 Power Frequency Magnetic Field testing (-4-8) parameter setting

For proper operation of the plug and play detection mechanisms it is strongly recommended to power on first the accessory and then the NSG 3040 main frame.

Powering on the NSG 3040 main frame before the acces-sories may result in non-detection of accessories.

Power Frequency Magnetic Field test window

Parameter ValueFieldstrength: 1to100A/m(in1A/msteps)Frequency: 50Hz/60HzCoilfactor: 0.01to99.99Testduration: s: 1...9’999 min: 1...166 Continuous

8.7 Pulsed Magnetic Field testing (-4-9) parameter setting

8.8 Slow Damped Oscillatory Wave test (-4-18) parameter setting Theslowdampedoscillatorywaveimmunitytestsimulatesswitchingofdis-connectorsinHV/MVopen-airsubstations,andisparticularlyrelatedtotheswitchingofHVbusbars,aswellastothebackgrounddisturbanceinindustrialplantsasspecifiedinIEC/EN61000-4-18andANSIC37.90.1.TheNSG3040-SOWisnotonlyabletoperformtheslowdampedoscillatorywaveimmunitytestaccordingtobothofthesestandards,butincludesawiderangeofover-testingcapabilitieslikehigherpulsevoltage,higherpulserepetitionratesandaselectablesourceimpedancefortestsclosertorealityconditions.

Pulsed Magnetic Field test window

Parameter ValueField: 1to9999A/m(in1A/msteps)Polarity: positive/negative/alternateVtoA/mratio(Coilfactor): 0.35to99.99Impedance: 2ΩRepetitiontime: s: 10...600 min: 1...10Testduration: 1to9’999pulses ContinuousPhasesynchronization: asynchronous,synchronous0°to359º (in1ºsteps)

798.8.1 Slow Damped Oscillatory Wave parameters window

Slow Damped Oscillatory Wave test window

Parameter ValueCoupling: Surgeoutput,ManualCDN,EUT Power OutputPulsevoltage: ±200to4’400V(in1Vsteps)Polarity: positive/negative/alternateOscillationfrequency: 100kHz,1MHzBurstfrequency(repetitionrate): 100kHz:1/sto120/s1),default40/s 1MHz:1/sto600/s1),default400/sOutputimpedance: 200Ω,150ΩBurstduration: s: 1...100 pulse: 1...9’999 ContinousRepetitiontime: ms: 2...99’999 s: 1...4’200Testduration: s: 1...99’999 min: 1...60’000 h: 1...1’000 ContinousPhasesynchronization: asynchronous,synchronous0°to359º (in1ºsteps)

1)Burstfrequency(=repetitionrate)and(Burstduration÷Repetitiontime)arederatedfor

voltagelevelsabove3.3kV.

Explanation of “Burst frequency”, “Burst duration” and “Repetition time”

parameters

818.8.2 CouplingTouchthe“Couplingmode”buttoninthetoprow(“Surgeoutput”intheexampleabove) to select Surge Output,Manual CDN or EUT Power Output.

Surge OutputSurgeOutputmustbeselectedifanexternalcapacitivecouplingclamp(e.g.CDN3425)isconnectedtotheNSG3040-SOW.

Manual CDNManualCDNmustbeselectedifanexternalmanualcoupling/decouplingdeviceisconnectedtotheNSG3040-SOW.ThefactorysettingforManualCDNisthesameasforSurgeOutput.

EUT Power OutputWithEUTPowerOutputsettingtheSlowDampedOscillatorypulsesaredirectlyappliedontheEUTpoweroutputplugonthefrontpaneloftheNSG3040-SOW.

Touchthecouplinglineselectionfield(---intheexample)todisplaythecou-pling selection window.

Touchtheindividual“Highoutputcouplingline”buttons(LandNintheexample)to select an open or closed relay.

Touchtheindividual“Lowoutputcouplingline”buttons(PEintheexample)toselect an open or closed relay.

Touch“OK”toenablethecouplingselectionandclosethewindow.Touch“Cancel”toclosethewindowwithoutsavingthecouplingselection.Touch“ShowGraphics”todisplayagraphicalexampleofthecouplingselection.

Coupling selection window

8.8.3 Output impedanceOneof theunique featuresof theNSG3040-SOWis theselectableoutputimpedance(sourceimpedance)of200Ωand150Ω.Accordingtostandard,200Ωisthefixedoutputimpedance,whilethe150Ωvaluerepresentstheactualimpedanceofcables(twistedpairs).

AccordingtoIEC61000-4-18Ed.1.1:2011,chapter6.1.3“Impedancevalue”,theoutput impedanceoftheSlowoscillatorywavegeneratorhasbeenfixedto200Ωoutofcompatibilityreasonwithotherstandards,“althoughtheactualimpedanceofthecables(twistedpairs)isnearerto150Ω”.

Selecting150Ωenablesmanufacturertotesttheirequipmentunderconditionswhichreflectactualrealityconditions,providingmoreaccurateresultsandpossibly a competitive advantage.

8.8.4 Timing parametersTochangethedifferenttimingparameters(OscillationFrequency,BurstFre-quency,BurstDuration,RepetitionTime)touchthecorrespondingboxwiththepresetvalue.Anadditionalwindowsopenswhichenablestochangethevaluewithinthelimitsgiveninthetableabove.

Thenewvaluemaybeenteredbytouchingtheparameterboxandthenbyusingthewheelincombinationwiththesensitivitykeys(1,10,100step)orthekeypad.

Exitbyclickingthe“Ok”buttontosaveyourchangesor“cancel”toexitwithoutsaving.

838.8.5 Test durationTheTestdurationsettingenablestosetthetotaltesttime,i.e.thetimeperiodduringwhichtheSOWburstpackagesaresentout.

Changingthesettingiseasy-touchtheTestdurationvalueboxontheparam-eterwindow(120intheexample)tosetthetestdurationtime.Aredframeisdisplayedaroundthefield.Thedurationtimemaybeenteredusingthewheelorthekeypad.Touchthe“units”button(sintheexample)tosetthetimeunit.Selectabletimeunitsares,min,handCont(continuous).

8.8.6 Phase synchronizationTouchtheSynch/Asynchbutton(Asynchintheexample)toactivate/deactivatethesynchronizationoftestpulsestotheEUTmainsfrequency.

WhenthisbuttonissettoAsynch,thephasevaluebutton(---intheexample)willdisplay‘---’.WhenthisbuttonissettoSynch,theusermustalsosetthephasevalue.Tosetthephasevalue,touchthephasevaluebutton.Aredframeisdisplayedaroundthefield.Thephasevaluemaybeenteredusingthewheelorthekeypad.Thevalueisindegreeunitsandmayrangefrom0to359.

InPhasesynchronizationmode(Synch)thefirstpulseofagroupwillbesynchro-nizedwiththesetphaseangleoftheEUTmainsfrequency.ThephaseanglesynchronizationhaspriorityoverapossiblyconflictingRepetitiontimesetting.

8.8.7 DeratingSomeparametercombinationswillnotbeacceptedduetothepowerlimitationofpulsegeneratingmodule.Incaseaninvalidcombinationofparameterswasenteredanerrormessagewillbedisplayedwhenthetestisstarted.

Followingderatingmustbeconsidered:

100 kHz Mode:

Burstfrequency@100kHzPulse

(BurstDuration÷RepetitionTime)@100kHzPulse

3300 V

3000 3200 3400 3600 3800 4000 4200 4400

Pulse Voltage [V]

3300 V

3000 3200 3400 3600 3800 4000 4200 4400 Burs

. ÷Re

Pulse Voltage [V]

3300 V

3000 3200 3400 3600 3800 4000 4200 4400

Pulse Voltage [V]

3300 V

3000 3200 3400 3600 3800 4000 4200 4400 Burs

. ÷Re

Pulse Voltage [V]

Burstfrequency@1MHzPulse

(BurstDuration÷RepetitionTime)@1MHzPulse

3300 V

3000 3200 3400 3600 3800 4000 4200 4400

Pulse Voltage [V]

3300 V

3000 3200 3400 3600 3800 4000 4200 4400

. ÷ R

Pulse Voltage [V]

3300 V

3000 3200 3400 3600 3800 4000 4200 4400

Pulse Voltage [V]

3300 V

3000 3200 3400 3600 3800 4000 4200 4400

. ÷ R

Pulse Voltage [V]

9 DESCRIPTION OF THE 25 PIN D-SUB SIGNALS

9.1 InterlockBetweenPin5(hi)andPin2,8,15,20(low).

Thisconnectionisanintegralpartoftheinterlocksafetycircuit.Ifanumberofunitsareincorporatedinasystem,thentheseconnectionscanbe“daisy-chained”togethertoformasinglesafetycircuit.Ifnoexternalinterlockcircuitisrequiredthentheshortingconnectionmustbemadebyusingtheterminatorconnectorsupplied.Otherwisepulsegenerationinthesystemwillbeinhibited.

AbuiltincircuitbreakerenablestheEUTpowersupplyalsotobeswitchedoff,whiletheinterlockfunctiononlyblocksthegenerationofpulsesoranyotherongoing test resp.

Theinterlockisasafetyfunctiontoensuresthefollowing:

Theinterlockformsabustowhichallinstrumentsinasystemarecon-nected.

Good EMC engineering practises should be applied when connecting signals to this port. As the whole system generates disturbances, in order to avoid auto disturbing, all wires connected to this port should be properly shielded, the shield of the cable not serving as signal return path, the shield to be connected via a large surface to the conductive shell of the Sub-D plug.

87 Theinterlockfeaturecanbeconnectedtoexternalsafetydevices(doorcontacts,testenclosurehoods,etc.).

Ifanypartoftheinterlockcircuitisinterrupted,allthegeneratormodulesareinhibitedfromproducingorswitchinghighvoltages.AdditionallythepowersupplytotheEUTcanbeswitchedofftoo.

Activationofthissafetyfeatureisreportedtothemastercontroller.

Themastercontrollerisalsonotifiedwhentheinterlockfacilityisreset.

Oncetheinterruptionisoverandthere-instatementoftheinterlockhasbeenacknowledged,thenpowertotheEUTisrestored.

Activationoftheinterlockfunctionisachievedwithoutthehelpofmicropro-cessorsandsoftware.Thisensuresthatthesafetyfeatureisnotaffectedorhinderedintheeventofaprogramcrash.

9.2 Trigger to scope output signalBetweenPin18(hi)andPin2,8,15,20(low)Inactivestate:at24V,intheactivestate:<2.4V

Note:Thetriggersignalhasgenerallyadurationofapprox.50μse.g.forsurgetesting.Incaseofburstsitswidthshallchangeaccordingtothelengthoftheevent.DuringPQTtesting(supplyvoltagevariations)thewidthofthetriggersignalshallchangeaccordingtothedurationofthevoltagediporinterrupt.

9.3 Synchronization (Sync) signal: Output signalBetweenpin7(hi)andpin2,8,15,20(low)Inactivestate:at24V;intheactivestate:<2.4V

Thesyncsignalconsistsofalevelthatgoeslowforeachcycleofthemainsfrequency.Thereferenceisthesignalatthepowersupplyinput(“EUTsupplyIN”).Theposition(timewise)ofthesyncsignalcorrespondstothespecifiedphaseangle(convertedintotime,irrespectiveofthesupplyfrequency).

The sync signal is only active while an AC test is in prog-ress and Fsync is set to sync.

9.4 Pulse enable/next step inputBetweenpin17(hi)andpin2,8,15,20(low)Inputopen=inactive;inputshorted=active

Ifthisinputisactivatedduringatestrunthetestishalted(exactlythesameasthepausefunctioninthecontrolsoftware).Thetestwillcontinuetorunassoonastheinputismadeinactiveagain.

Iftheinputisalreadyactivebeforeatestisimplementedthenthetestcannotstart.

9.5 EUT fail inputBetweenpin6(hi)andpin2,8,15,20(low)Inputopen=inactive;inputshorted=active

Thisconnectionservesasacontrolinputthatcanbeactivatedexternally.

TheEUTcanactivatethisinputifitiscapableofreportingadisturbanceeffectcausedduringanEMCtest.Sucheventsaretime/datestampedbythesystemandarestoredtogetherwiththecurrenttestparametersforsubsequentuseinatestreportifrequired.

9.6 EUT power off Betweenpin4(hi)andpin2,8,15,20(low)

Inputopen= Inactive,EUTpoweriscontroolledviafrontpanelorWIN 3000software Inputshorted= Active,incaseEUTpowerisswitchedon,shortingthis inputwillsetEUTpowertooff

Notes:1.UsingthisfunctiononlymakessenseifanEUTpowercontactorisavailbalesomewhereinthesystem.EUTpowercontactorsareavailableinVAR3005,INA6502,CDN3061,CDN3043,CDN3063.

892.FirsttheEUTpowerhastobeswitchedONviafrontpanelorWIN3000software.Thiswayallowsdualdrive,astheEUTpowercanthenbeswitchedOFFeitherfromsoftwarecontrolorfromthisexternaldrive.

3.ThissignalisalsousedtodrivetheorangelampofINA3001warninglamps.

9.7 High voltage activeBetweenpin16(Hi)andpin2,8,15,20(low).

Thisfunctionisactivatedforfirmwarerevisions2.30andhigher.

ThisoutputistodriveexternalwarninglampsINA3001.TheHVonsignal isworkingtogetherwiththehighvoltageLEDlocatedonthefrontpanel.

Output high (24 V): High voltage is ON Output low (0 V): High voltage is OFF

10 COUPLING NETWORK CDN 3041

Parameter ValueInstrumentsupply: 85...265VACDecouplingattenuation: Remanentpulse15%max. Mainssidecrosstalk15%max.Standard-conformpulse: 1.2/50μsupto4.4kV 8/20μsupto2.2kAMainsdecoupling: 1.5mHConnections: Pulseinput(s)fromgenerator CableconnectorforEUTsupplyinput and output PowerinletforCDNEUTsupply: 1-phase(P/N/PE)EUTVAC: Upto270Vrms*,50/60Hz (Phase-Neutral)EUTVDC: Upto270VDCEUTcurrent: 1x16Armscontinuous overheatprotected 1x25Armsfor30minEFT(burst): StandardcouplingalllinestoHF referencegroundGND IEC/EN61000-4-4andANSI(IEEE) C62.41L,N,PEàGND

TheinternalcouplingnetworkCDN3041isfully integratedintheNSG3040generator.ItenablestocouplethedifferentpulsesonasinglephaseEUTwithinthelimitsdescribedbelow.

*Below24VACsynchronisationnotguaranteed,asynchronousmodeonly

91 AnylinesandcombinationtorefGND: LàGND NàGND PEàGND L,NàGND L,PEàGND N,PEàGNDCombinationwavepulse: Linetoline(2Ω) LàN/LàPE/NàPE IEC/EN61000-4-5Linestoground(12Ω) LàPE/NàPE/L,NàPEPQT: IEC/EN61000-4-11/-4-29 Dips&interruptstophaseL

11 VARIOUS NSG 3040 VERSIONS

Thankstoaveryflexibledesignconcept,NSG3040isavailableinseveralcon-figurations, inordertocovereveryneedbetweenahighendwideapplica-tioncoveragesolution(multifunctiongenerator)anddedicatedsinglefunctioninstrument.

11.1 NSG 3040-IECNSG3040-IECisthehighendconfiguration.Itisfittedwithpulsemodulesfordips,interrupts,combinedwavesurgeandburstEFT.Itincludesasinglephase16ACDNandtheTeseqStandardUserinterface(SUI)featuring7.2”colourtouchdisplay,start,pauseandstopbuttonsandscalablerotaryencoder.

11.2 NSG 3040 “a la carte” (customer specific)Themodelpresentedaboveisavailableinalmostanyconfiguration,maintainingthefactthatthemainframeispreparedforeasyfit(plugandplay)ofanymodule,allowing easy upgrade.

9311.2.1 Mainframe NSG 3040-MF

The NSG 3040-MF is wired, configured and tested for easy integration of all pulse modules. It includes following parts:-19”EMCHousingwithfront,rearpanels,internalmechanics, wirings and plugs-7.2”colordisplay-Touchpanel- Rotary encoder-LargeStart,StopandPausebuttons-5statusLEDs-Universalpowersupply85–265V/50-60Hz- System master controller-SinglephasecouplingnetworkCDN3041270V/16A-Fanwiththermoregulatedcoolingcontrols-LAN/ETHERNETInterface-Usermanual-S-FTPinterfacecable-MainssupplycableandEUTsupplycable- Grounding strip

11.2.2 Mainframe for exclusive remote control NSG 3040-MF-ERC

ERC stands for exclusive remote control. The NSG 3040-MF-ERC is similar to NSG 3040-MF but comes without user interface. It includes following parts:-19”EMCHousingwithfront,rearpanels,internalmechanics, wirings and plugs-5statusLEDs-Universalpowersupply85–265V/50-60Hz- System master controller-Singlephasecouplingnetwork270V/16A-Fanwiththermoregulatedcoolingcontrols-LAN/ETHERNETInterface-Usermanual-S-FTPinterfacecable -MainssupplycableandEUTsupplycable- Grounding strip

11.2.3 Combined wave surge module CWM 3450TheCWM3450isa4.4kVCombinedwavesurgemoduleandiscompliantto EN/IEC61000-4-5.Itcomesfullyprogrammedandtested.Atraceablecalibra-tioncertificateispartofthedelivery.

11.2.4 Dips and interrupts module PQM 3403ThePQM3403isasinglephase16Adipsandinterruptsmoduleandiscompli-anttoEN/IEC61000-4-11and29. Itcomesfullyprogrammedandtested.Atraceablecalibrationcertificateispartofthedelivery.

11.2.5 Electrical fast transient/burst module FTM 3425TheFTM3425isa4.8kVfasttransients/burstpulsemoduleandiscomplianttoEN/IEC61000-4-4.Itcomesfullyprogrammedandtested.Atraceablecalibra-tioncertificateispartofthedelivery.

11.3 NSG 3040-xxx-ERC seriesERCstandsforExclusiveRemoteControl.

SeveralmodelsoftheNSG3040seriescanbedeliveredinERCconfiguration.

ThesespecialversionsaremadefortheuserswhowanttodrivetheinstrumentsexclusivelywithaPC,usingWIN3000software.InthiscasetheymightnotneedorevennotwantanyUserinterface(SUI)ontheinstrumentfrontpanel.

95Carehastobetakenatfirstinstallation,asWIN3000needsproperinstallationonthedrivePC.Thesettingoftheinterfacesneedstobedoneproperly.ForthisconsultthedocumentsinPDFformatavailableontheCDdeliveredwiththeinstrument.

601-326B-NSGunit&WIN3000Installation-Quickinstallationguideenglish.pdf

Refertosections1,2,3,4and5ofthisdocument. ThefactorysettingofNSG3040_ERCseriesisIPaddress10.10.10.10,SubNet255.0.0.0,Port1025

WARNING - The factory setting of NSG 3040_ERC series is IP address 10.10.10.10, SubNet 255.0.0.0, Port 1025. Care has to be taken to remember the new settings if these get changed.

Forgotten IP settings can only be resetted in Teseq service centers. Therefor it is strongly recommended to leave the factory set IP and to install INA 3011 option on the user PC. The second IP address dedicated to the NSG 3040 control may be set to the fix IP address 10.10.10.11 (refer to quick installation guide) and so will not interfere with the PC network settings.

11.4 NSG 3040-xxx-EPO seriesEPOstandsforExclusivePulseOutput.

ThesespecialversionsaremadefortheuserswhousetheinstrumenttogetherwithanexternalCDNfromtheCDN3043,3063or3083modelrange,inwhichcasetheymaynotneedthebuilt-insinglephaseCDN3041.

9711.5 NSG 3040-DDVDDVstandsforDips,Drops(Interrupts)andVariations.

TheNSG3040-DDVisasinglefunctiongeneratormadeforDips,InterruptsandVariationstesting.

For interrupts and variations testing a variable voltage source is required. This is available from TESEQ in different versions as accessories:-INA6501ManualSteptransformer(0%,40%,70%,80%levels)-INA6502AutomaticSteptransformer(0%,40%,70%,80%levels)-VAR3005-S16Automaticvariac-VAR3005-D16Automaticdoublevariac Seesection14“Accessories”formoredetailedinformation.

11.6 NSG 3040-SOWSOWstandsforSlowdampedOscillatoryWave.

TheNSG3040-SOWisasinglefunctiongeneratormadeforSlowDampedOscil-latorywaveimmunitytestingaccordingtoIEC/EN61000-4-18(100kHz&1MHzpulses)aswellastoANSI/IEEEC37.90.1(1MHzpulse).Thegeneratorcomeswithanintegratedsinglephase270VAC–16ACDN.

9912 MAINTENANCE AND FUNCTION CHECK

12.1 GeneralInsidethetestsystemtherearenoadjustableelementsaccessibletotheuserneitherforcalibrationnorformaintenancepurpose.

Thehousingofthetestsystemmustnotbeopened(exceptforSWupdateviaSD-card).Shouldanymaintenanceoradjustmentbecomenecessary,thewholetestsystem,togetherwithanorderorfaultreport,shouldbesenttoaTeseqservicecenter.

Maintenancebytheuserisrestrictedtocleaningtheouterhousing,performingafunctioncheckandverificationofthepulseparameters.

The only exception concerns the exchange of modules or the upgrading of the system with new modules. In such cases the instructions accompanying the modules are to be strictly observed.

12.2 CleaningIngeneralamoistclothissufficientforcleaningtheouterhousing,includingthetouchpanel.Ifnecessaryaddasmallamountofamild,non-foaminghouseholdcleanser.

Nochemicals(acid,etc)shouldbeusedforcleaningpurposes.

Beforebeginningtocleanthetestsystemensurethatitisswitchedoffandthemainspowercableisunpluggedfromthesupply.

12.3 Function check

The safety measures described previously must be strictly observed while carrying out a function check.

AssoonasthetestsystemisswitchedonthePower-LEDshouldlightup. Ifthisisnotthecasethenpleasecheckthemainspowerconnectiontothetestsystemaswellasthefuses,voltageselectorandanyothercabling.

Theinstrumentautomaticallycarriesoutadiagnosticroutineonceithasbeensuccessfullyswitchedon.

Thegeneratorcannotperformanytestwhiletheinterlockcircuitisopen.

Pulsegenerationcanbeobservedattheoutputconnectorsbymeansofanoscilloscope.This isapracticalwaytocheckthatthesystemisfunctioningcorrectlybutshouldneverbeusedforreferenceorcalibrationpurposes.

Do not connect the oscilloscope directly in order not to exceed its max. input voltage.

Teseq recommends the use of a HV differential probe type MD 200 or MD 200A along with the INA 6560 safety banana adapter as well as CAS 3025 and MD 300 or MD 310. (See paragraph: accessories).

12.4 CalibrationThecombinationofhighvoltagesandhighfrequenciesinasinglepulsemakesthecalibrationofEMCpulsegeneratorsparticularlydemandinganddifficult.TeseqhasoneofthefewaccreditedtestlaboratoriesinEuropethatisinthepositiontoundertakecalibrationsinthisspecializedfield.

10112.5 WarrantyTeseqgrantsawarrantyof2yearsonthistestsystem,effectivefromthedateofpurchase.

Duringthisperiod,anydefectivecomponentspartwillberepairedorreplacedfreeofchargeor,ifnecessary,thetestsystemwillbereplacedbyanotherofequivalentvalue.Thedecisionregardingthemethodofreinstatingthefunc-tionalcapabilityisatthesolediscressionofTeseq.

Excluded from the warranty is damage or consequential damage causedthroughnegligentoperationoruseaswellasthereplacementofpartssubjectto degradation.

Thewarrantyisrenderedinvalidbyanyinterventiononthepartofthecustomerorathirdparty.

Thefaultyitemshavetobereturnedintheiroriginalpackaging.

Teseqacceptnoresponsibilityfordamageintransit.

13 DECLARATION OF CONFORMITY (CE)

10314 ACCESSORIES

14.1 PC software

WIN3000WIN3000remotesoftwareisacomprehensiveprogramdesignedtocreatetestlibrariesforthesurge/burst,PQT,magneticfieldandSOWteststhatcanbeperformedwithTeseq’sNSG3000generatorseriesanditsaccessories.

WIN3000comesonaCD-ROMincludedineachNSGpackageorcanbedown-loadedfromtheTeseqwebsite.InserttheCD-ROManddoubleclickonsetup.exeandfollowtheinstructionsonthescreen.Therequiredcommunicationcable(CrossoverS-FTPcable)ispartofthedelivery.

AllrequireddocumentationisavailableontheCD-ROMinPDFfileformat.

Consultfirstthedocument“SoftwareVersionHistoryVx.yz”,toverifywhichFWandSUIversionyoumayneedtoinstallforaproperfunctionofthegenerator.WIN3000requiresalwaysthecorrespondingFWandSUIsoftware.

TheproperFWandSUIsoftwareareontheWIN3000installationdiskorcanbedownloadedfromtheTeseqwebsite.

WIN3000featuresafree30dayslicenceoftheprofessionalversionWIN3000-SRD.

WIN 3000-SDRTheextension“SDR”standsfor“Sequences”–“Dialogs”–“Reports”

WIN3000-SDRistheprofessionalversionofPCSoftwareforNSG3xxxseries.It featuresthebasicsettingspossibilitiesofWIN3000, inclusiveparameterramping,stepping,etc…andincludesadditionally:

Testlibrarycoveringmostofbasicandgenericstandards. Testsequencer RealtimereportfacilityinMS-Word Dialogsfacilitywiththeuser

WIN 3000 and NSG 3000 series can run via a LAN connection.

AWin3000softwarelicenceisalwaysvalidforaspecificNSG3xxxinstrument.NeverthelesstheSoftwarecanbeinstalledonaunlimitednumberofcomputerssincethedongleistheNSG3xxxinstrumentitself.

14.2 Coupling decoupling networks for multiple phases, higher currents and voltagesTo allow testing of equipment rated formultiple phases, awide range of Coupling-decouplingnetworks(CDNs)isavailable,invariousconfigurations.

TheCDN3043and3063seriesareavailableinmultipleconfigurationsandfordifferentEUTcurrentsandvoltages.

TheseCDNseriesarefullyautomaticcontrolled,featuringplugandplaytechnol-ogy-justconnectthemtotheNSG3040andtheywillautodetectandauto-configureatsystempowerup,availablecouplingpossibilitieswillshowupinrespective test windows.

AllCDN3043and3063seriesfeature:

ManualandprogrammablecontrolofEUTpowerON/OFF Inputphaserotationdetection

105 Thermalmonitoringofinternalbackfilterchokes;incasetheEUTcurrentgoesup,theintegratedfans,whicharestillinstandbymodeandatlowEUTcurrents,willspeeduptoimprovecooling. Incaseofintentionalorunintentionaloverloading,theCDN3043and3063serieswillautomaticallyswitchoffEUTpower,inordertoprotectitself(riskoffire)

SlowDampedOscillatoryWaveimmunitytestingof3-Phaseequipmentneedsadedicated3-PhaseCDN.PleasecheckyourTeseqequipmentsupplierforavailability.

14.2.1 CDN 3043 - 32 A series

Technical specifications:

NSG 3040 on top of CDN 3043

Voltageratings: 280VAC-phasetoneutralorphasetoground 480VAC-phase(s)tophase(s) upto125VDC-fullcurrentrange upto225VDC-formax.7A

14.2.2 CDN 3063 series - 63 A and 100 A series

Technical specifications:

Note: TheDCcurrentcapabilityderatingisgivenbythespecificationoftheCircuitbreakerusedtoswitchEUTpowerONandOFF.IncasethisinternalEUTpowerON/OFFfunctionisnotusedtheDCcurrentfullrangecanbeusedforupto350VDC.

Name Max. Current

EFT Coupling Combined wave

surge coupling

Ring wave

surge coupling

CDN 3043-B32 32 x

CDN 3043-S32 32 x x

CDN 3043-C32 32 x x x

Name Max. Current

EFT Coupling Combined wave

surge coupling

Ring wave

surge coupling

CDN 3063-S63 63 x x

CDN 3063-S100 100 x x

Voltageratings: 280VAC-phasetoneutralorphasetoground 480VAC-phase(s)tophase(s) upto125VDC-fullcurrentrange upto225VDC-formax.7A

Note: TheDCcurrentcapabilityderatingisgivenbythespecificationoftheCircuitbreakerusedtoswitchEUTpowerONandOFF.IncasethisinternalEUTpowerON/OFFfunctionisnotusedtheDCcurrentfullrangecanbeusedforupto350VDC.

10714.3 Variable voltage sources

14.3.1 Automatic VariacsTheautomatedvariabletransformerVAR3005seriesisastandardaccessoryfortheTeseqNSG3040andNSG3060/CDN3061instrumentation.IncombinationwithaPQTmoduleitprovidesaconvenientmeansforreducingtheincomingsupplyvoltagebyadjustingtheincomingEUTsupplyvoltagetoarbitraryvoltages.

TheVAR3005comesintwodifferentversions-asdoublesource(VAR3005-D16)wheretwosupplysourcesarerequiredtotestequipmentwithuniversalpowersuppliesandassinglesource(VAR3005-S16),providingbestpriceperformanceforapplicationswheredualsourceisnotrequired(mainssupplyofequipmentundertestisafixedvalue).

TheVAR3005optionisrequiredforpowerqualitytesting(PQT)dipsandinter-ruptsand iscompliantwiththe latestrevisionof IEC/EN61000-4-11 (2004)includingthevariationtest.TheVAR3005unitsarefullyautomaticcontrolled,drivenfromyourNSG3xxxgenerator,usingthetouchscreeninterfaceSUIortheWIN3000softwareapplication.VAR3005isplugandplaytechnology,itautoconfiguresandavoidstheusertosetvoltagesoutofrange.

Topreventincorrecttesting,thephase,neutralandearthlineofEUTINpowerlineisobservedandthe50/60Hzfrequencyrangewillbesetautomatically.Thisfeaturehelpsespeciallyincasewhere“cycle”parameterissetinatestprocedure.

OncedetectedbytheNSG3xxxgenerator,all functionsofferedbytheVAR3005areavailableincludingthepossibilitytoswitchEUTpoweron/off.EUTpowercanbeswitchedONandOFFmanuallyperswitchonthefrontpanel,orremotelyfromtheNSG3xxxfrontpanelorPCcontrolsoftware.EUTpowercanbeswitchedoffautomaticallyattestendpersequencingprogramcontrol.Forsafetyreasons,EUTpowerwillswitchoffautomaticallyincaseofoverload.

TheVAR3005canbeconnectedeitherviaaNSG3040withitsinternalcouplingdeviceorviatheNSG3060incombinationwithaCDN3061andthebuilt inpowerquality(PQT)module.TheEUTinputfrequencywillbedetectedautomati-callyforacorrectsynchronisationofthePQTevents.

Availablemodels:

VAR 3005-D16: Dual up to 265 VAC/16 A sourceVAR 3005-S16: Single up to 265 VAC/16 A source

ThankstointernaladvancedmicroprocessorbasedcontrolelectronicstheVAR3005featurespermanentselfregulation,selfcheck,mainsvoltagecheck,phaserotationcheckandinformstheuserorstopsthetestifthesurroundingcondi-tions are not given to guarantee a proper testing.

ForfurtherdetailspleaserefertotheVAR3005Usermanual.

109Installation - connection to NSG 3040

1) Disconnectinstrumentpowerfromthemains2) Removethe25-waySubDplugontherearoftheNSG30403) Connectthe25-waySubDcabletotheX2plugoftheVAR30054) Connectthemastercontroller25-wayoutputtotheVAR3005X1plug,

usingthesysteminterfacecableprovidedwiththeVAR30055) ConnecttheVAR3005-EUTpowerouttotheNSG3040–EUTpowerinput6) ConnecttheVAR3005-EUTpowerintomainsusingtheEUTpowerin

cabledeliveredwithNSG3040

MAINS should be switched off during installation and interconnection.

Because of the capacitors in the internal coupler of NSG 3040, earth leakage currents of up to 4 A can occur in the EUT power supply network. The test system must therefore be correctly earthed and be powered from a supply that is not protected by a residual current detec-tor (RCD).

1) SwitchontheVAR3005first2) SwitchontheNSG30403) SwitchontheEUTpower(redswitch)ifpowerfortheEUTisrequired.

HW DetectionTheVAR3005isautomaticallydetectedbytheNSG3040duringthebootingprocess.Itspresenceisvisualisedinthesystemsettingsscreen.

Onceavariacdetectedthefunctionforvoltagevariationsgetsactive.Seefunctionalityofvariationtestsbelow.

OperationIncaseofaVAR3005-D16theUinfieldinthewindowSystem- General set-tings appears. Here Uin(EUTsupplyvoltage)canbesettoanysupplyvoltage-withinthespecifiedrange.

Dips and interrupts testingTheparameterFieldVoltage Uvar getsactiveonceaVAR3005hasbeendetectedbythesoftware.

Voltage variations testingVoltagevariationtestsarespecifiedinchapter5.2ofIEC61000-4-11,andareavailablewithNSG3040providedanautomaticvariacisdetectedbythesystemsoftware.

Descriptionofvoltagevariationtest:extractofIEC61000-4-11:

Uvarcanbeselectedforoneofthefouravailablevariablevoltagelevels:0-40-70-80%.

Therespectivetestscreenlookslikewhatfollows:

14.3.2 Manual step transformer: INA 6501ThesteptransformertypeINA6501isastandardaccessoryfortheSchaff-nerModula6100instrumentationseries. Itprovidesaconvenientmeansforreducingtheincomingsupplyvoltagebypre-setamounts. It isrequiredforpowerqualitytesting(PQT)andisfullycompliantwiththelatestrevisionsofIEC61000-4-11:2004.

Thefewcontrolelementsarereadilyaccessibleonthefrontpanel.AnEUTpoweron/offswitchwithapoweronindicatorandawell-proportionedrotaryswitchtoselecttherequiredvoltageensureeasyandintuitiveoperation.Theunithasbeendesignedforuseinruggedindustrialenvironments.Professionalqualityconnectorsensureusersafety,additionalsystemprotectionisprovidedbya16Afuselocatedinthefrontpanel.

Thankstotheprovisionofan80%voltagepositionandtothelargeovercurrentcapabilitiesthesteptransformerisfullycompliantwiththelatestrequirementscalledforinIEC61000-4-11:2004standard.

Care has to be taken in case of use in standing posi-tion, as the stability is limited. The cabling connecting INA 6501 to mains and Modula presents a risk of being unvoluntarly caught by the users which could cause the INA 6501 to fall down.

Itisfittedwithcarryinghandlesaspartofitsoverallgoodergonomicdesign,whichmakesforeaseofhandling.Further,theunitmaybeusedinanyofthreeoperatingpositions;layingorstandingonaworkbench,orformorepermanentapplications,itcanbewall-mounted.

1.1 Circuit diagram INA 6501

INA 6501 Step transformer

F1S11 black

2 blueS1

PEYe/Gr Ye/Gr

blue 2

brown 3

black 3L

40% 0%

Inputvoltage: 0to250VAC(notsuitedforDC voltages)Outputvoltage: 4steps:0,40,70,80%Accuracy: ±5%Voltagechangewithload: 100%output,0to16A lessthan5% 80%output,0to20A lessthan5% 70%output,0to23A lessthan5% 40%output,0to40A lessthan5%Output current capability at 230Vinputvoltage: 16Armsat100%output 20Armsat80%output 23Armsat70%output 40Armsat40%outputVoltageselection: FriontpanelrotaryswitchEUTpoweron/offfunction: FrontpanelswitchwithonindicatorFuse: 16A,slowblowConnectors: HartingtypeHAN3APowerSupply: Selectable100-110V,220-240V,15VASize: 150x180x360mmWeight: 12kgapprox.Outputcablelength: 2meterInputcable: NSG3000standardcabletobeused

Technical specifications INA 6501

Installation - connection to NSG 3000 series

The equipment should be switched off during installation and inter-connection.1) ConnectINA6501-EUTpowerouttoNSG3040-EUTpowerinput2) ConnectINA6501-EUTpowerintomainsusingEUTpowerincable

(deliveredwithNSG3040)

115 Because of the capacitors in the internal coupler of NSG 3040, earth leakage currents of up to 4 A can occur in the EUT power supply network. The test system must therefore be correctly earthed and be powered from a supply that is not protected by a residual current detector (RCD).

3) SwitchonEUTpoweronINA6501(redswitch)whenpowerfortheEUTisrequired

4) SwitchontheNSG30405) SelecttherequiredvariablevoltageusingrotaryswitchontheINA6501

OperationTheNSG3040operationsoftwaredoesnotknowthatanexternaltransformerisconnected.TheuserinterfacesoftwareinthedipsandinterruptstestwillalwaysshowExternalinthefieldforVoltage Uvar.

Itisuptotheusertomakesurethattherightvoltagesaresetonthemanualexternaltransformer.

14.3.3 Manual step transformer: INA 6502ThesteptransformertypeINA6502isastandardaccessoryfortheSchaffnerNSG3040instrumentationseries.Itprovidesaconvenientmeansofreducingtheincomingsupplyvoltagebypre-setamounts.Itisrequiredforpowerqualitytesting(PQT)andisfullycompliantwiththelatestrevisionofIEC61000-4-11(2004).

Itscontrolisfullyautomatic,drivenfromNSG3040.OncedetectedbytheNSG3040anddeclaredtothefunctionsofferedbyINA6502areavailableinthesoftware.

1) ConnectINA6501-EUTpowerouttoNSG3040-EUTpowerinput2) ConnectINA6501-EUTpowerintomainsusingEUTpowerincable

(deliveredwithNSG3040)3) ConnectthisconnectortoX2ofINA6502

Sothesettings0%-40%-70%-80%willappear,aswellasthepossibilitytoswitchEUTpoweron/off.

INA6502comesfittedwithcarryinghandlesaspartofit’soverallgoodergo-nomicdesign,whichmakesforeaseofhandling.Further,theunitmaybeusedinanyoftwooperatingpositions;layingonaworkbench,orformoreperma-nentapplications,itcanbewall-mounted.

Operation The parameter field voltageUvar gets active once an INA 6502 has beendetectedbythesoftware.TheentryofUinisbydefault230Vandmaybesettoothervoltages,thiscanbedoneinthesystem/generalwindows.Uvarcanbeselectedforoneofthe4availablevariablevoltagelevels:0%-40%-70%-80%

Circuit diagram INA 65022.1 Circuit diagram INA 6502

EUTPower

EUT Power ON/OFF

Circuit Breaker Option (CIB)

Instr.Supply Power

Supply

0% 40% 70% 80% EUT PowerON/OFF

Interface Controller

Plug XI - System cable IN25 Way Sub D – Male

Plug X2 - System cable OUT25 Way Sub D – Female

UinUvar

EUTPowerOUT

RemoteTest + EUTPower OFF

Connection to NSG MaterController via

System Interface cable

Termination with Interlock plug

For proper operation of the plug and play detection mechanisms it is strongly recommended to power on first the INA 6502 accessory and then the NSG 3040. Powering on the NSG 3040 main frame before the acces-sories may result in non-detection of accessories.

Theunithasbeendesignedforuseinruggedindustrialenvironments.Profes-sionalqualityconnectorsensureusersafety,additionalsystemprotectionisprovidedbya16Afuselocatedinthetoppanel.

Thankstotheprovisionofan80%voltagepositionandtothelargeovercurrentcapabilitiesthesteptransformerisfullycompliantwiththelatestrequirementscalledforinIEC61000-4-11:2004standard.

Parts descriptionPlugX3:RemoteTESTandEUTpoweroff:withshortingplug.Allowstoconnectexternaldoorswitchorequivalent. Interruptsthe24VsupplyofthecircuitbreakercontactorwhichswitchesEUTsupplyon/off.TheinformationwillbetransmittedtoNSG3040whichwillstopthetest.

PlugX2:NSG3040systeminterfaceOUT–tobeterminatedbyinterlockplugortobelinkedtoanotheraccessory,toX1plug.

Inputvoltage: 0to250VAC(notsuitedforDC voltages)Outputvoltage: 4steps:0,40,70,80%Accuracy: ±5%Voltagechangewithload: 100%output,0to16A lessthan5% 80%output,0to20A lessthan5% 70%output,0to23A lessthan5% 40%output,0to40A lessthan5%Output current capability at 230Vinputvoltage: 16Armsat100%output 20Armsat80%output 23Armsat70%output 40Armsat40%outputVoltageselection: SoftwaredrivenEUTpoweron/offfunction: Frontpanelswitchwithonindicator softwaredrivenfromNSG3040Fuse: 16A,slowblowConnectors: HartingtypeHAN3APowerSupply: Selectable100-110V,220-240V,15VASize: 460x200x160mmWeight: 15kgapprox.Outputcablelength: 2meterInputcable: NSG3000standardcabletobeusedControlcable: 2meter-25waysubD-twistedpair- shielded(includedindelivery)

Technical specifications INA 6502

1) Verifythesettingofinputvoltageselectorandadjustittotherightmainsvoltagevalueifrequired

2) Connectinstrumentpowerfromthemains3) Remove25waySubDplugatrearofNSG30404) ConnectthisconnectortoX2ofINA65025) Connectmastercontroller25wayoutputtoINA6502X1plug,using

systeminterfacecabledeliveredwithINA65026) ConnectINA6502-EUTpowerouttoNSG3040–EUTpowerinput7) ConnectINA6502-EUTpowerintomainsusingEUTpowerincable

deliveredwithNSG3040

The equipment should be switched off during installa-tion and interconnection.

Because of the capacitors in the internal coupler of NSG 3040, earth leakage currents of up to 4 A can occur in the EUT power supply network. The test system must therefore be correctly earthed and be powered from a supply that is not protected by a residual current detec-tor (RCD).

PlugX1:NSG3040systeminterfaceIN–tobeconnectedtoNSG3040ortoanotheraccessory,toX2plug.

PowerLED(green)showsifinstrumentispoweredupErrorLED(red)ERROR LED off: No problem - accessory is ready to runERROR LED blinking:Problemwhichmaybesolvedbyuserintervention.Ex:Interlockisactivated-emergencybuttonispressed–overtemperature(forMFO 6502).ERROR LED on:Problemwhichneedsmodulerepair–pleasecontactyournearestTeseqcustomersupportcenterorsalesrepresentative.

Installation - connection to NSG 3040

OperationTheparameterFieldVoltage UvargetsactiveonceanINA6502hasbeendetectedbythesoftware.TheentryofUinisbydefault230Vandmaybesettoothervoltages,thiscanbedoneinthesystem/general windows. Uvar can be selectedforoneofthe4availablevariablevoltagelevels:0%-40%-70%-80%.

1) SwitchonINA6502first2) SwitchontheNSG30403) SwitchonEUTpower(redswitch)whenpowerfortheEUTisrequired.

HW DetectionTheINA6502isautomaticallydetectedbytheNSG3040duringthebootingprocess.Itspresenceisvisualisedinthesystemsettingsscreen.

12114.4 Magnetic field options Magnetic fields at mains frequencyMainsfrequencymagneticfieldssimulatethekindofstrayfieldsthatoccuraround current carrying power supply lines.

NSG3040togetherwithMFO6501orMFO6502currentsourcesgeneratesthesetestconditionsinaccordancewiththeIEC61000-4-8standardbyinducingacurrentintoamagneticfieldloop.Themagneticfieldproducedisproportionaltothecurrentwithintheloopparameters.IEC61000-4-8specifiesacleansinewavetobeused(THD<8%).Thisismetthankstotheuseofasyntheticsignalgeneratortogetherwithanaudiocurrentamplifier.Otheradvantageofthissolu-tionisthatboth50and60Hzfieldscanbegeneratedbythesameinstrument.

Pulsed magnetic fieldsTestswithpulsedmagneticfieldssimulatethetypeoffieldproducedsurgepulsessuchasthoseoccurringduringlightningstrokesonbuildingsandothermetallicstructuressuchasfree-standingmasts, lightningconductors,earthnetworks,etc.

NSG3040generatesthesetestsignalsinaccordancewiththeIEC61000-4-9standardbyinducingacurrent(generatedbythesurgemoduleCWM3450)intomagneticfieldloopinwhichthemagneticfieldproducedinproportionaltothecurrentwithintheloopparameters.

It is recommended for the user to stay away (at least a few meters) from the loop antenna while magnetic fields are generated. Also keep away magnetic field sen-sitive devices and items such as credit cards – magnetic key cards etc… which might be influencedby the field.

Magnetic field loops INA 701, 702 and INA 703TestswithmainsfrequencyandpulsedmagneticfieldsareperformedusingthemagneticfieldloopsdesignedforNSG3040.Thesearerectangularloopsmeasuring1x1mandaresuitablefortestobjectswithdimensionsupto0.6x0.6x0.5m(lxwxh).

Threetypesofloopcanbesupplied:

INA 701TheINA701isa1x1mloop–singleturn-withacoilfactorof0.89.Itenablesthegenerationoffieldstrengthsofupto3.6A/mformainsfrequencyfields50or60HzwhenusedwiththeMFO6501orMFO6502currentsourcesand1200A/mforpulsedmagneticfields,wherethecurrentisgeneratedbya4400Vsurgegenerator.

123INA 702TheINA702isa1x1mloop-11turns–coilfactor9.8-whenfittedwiththepowerplug. Itenablesthegenerationoffieldstrengthsofupto40A/mformainsfrequencyfields50or60HzwhenusedwiththeMFO6501orMFO6502current sources.

INA702becomesasingleturnloopwhenfittedwiththepulseplug,whichallowsthegenerationofpulsedfieldstrengthsupto1200A/m,wherethecurrentisgeneratedbya4400Vsurgegenerator.

INA 703TheINA703wasconceivedfortestsatstrongerpowerfrequencymagneticfieldsaccordingtoIEC61000-4-8.

Amulti-turnconcept(37turns)allowstheINA703togeneratefieldshigherthan1000A/mwhileusingaprogrammableACsourceratedforjust30A.ThisenablestestingtotheIEC61000-4-8standardsrequirementofacurrentTHD<8%,whichcanbemetonlywithaprogrammableACsource.

TheINA703hastapsatturns1and5,providingincreasedaccuracywhengeneratinglowamplitudefields.

FortestingtoIEC61000-4-8,theINA703canbeusedasanaccessorytoaTESEQProflinesystemcomprisinganNSG1007source,anINA2141impedanceboxandthetheWIN2120software.

TheINA703canalsobeusedwiththeMFO6501or6502currentsourcesandtheNSG3000seriesofgeneratorstogeneratesupplyfrequencyfields(50Hzand60Hz)over120A/mcontinuously.

Withitsmulti-turnconceptandprofessionalmechanicaldesignfeatures,suchastheU-shapedcasterbaseforconvenientpositioningatthetesttable,theINA703istheidealaccessoryformagneticfieldtesting.

InordertomeetthepulsewaveformrequiredbyIEC61000-4-9,thewaveshapeadapterINA752needstobeusedwithNSG3040andtheINA701andINA702loop antennas.

Thetestsarecarriedoutusingtheso-calledimmersionmethod,i.e.theitemundertestisplacedinthecenteroftheloop.Thetestisperformedinaccor-dancewith the IEC61000-4-8 (mains frequency)or IEC61000-4-9 (pulsed)standardsformagneticfields.

Care has to be taken is case of use in standing posi-tion, as the stability is limited, so the cabling connecting MFO 6501 to mains and Modula presents a risk of being unvoluntarly caught by the users causing the MFO 6501 to fall down.

MFO6501canbeusedasastandalone.Itisfittedwithcarryinghandlesaspartofitsoverallgoodergonomicdesign,whichmakesforeaseofhandling.Further,theunitmaybeusedinanyofthreeoperatingpositions;layingorstandingonaworkbench,orformorepermanentapplications,itcanbewallmounted.

Thefewcontrolelementsarereadilyaccessibleonthefrontpanel.Arotaryknobtosetthenecessarycurrent,a50/60Hzfrequencyselectorandalow/highrangeselectorensureeasyandintuitiveoperation.

14.4.1 Manual solution: MFO 6501ThemanuallyoperatedcurrentgeneratortypeMFO6501(magneticfieldoption)isastandardaccessoryfortheTeseqNSG3040series.ItprovidesaconvenientmeansforgeneratingandadjustingthecurrenttoflowthroughoneofthemagneticfieldloopsINA701orINA702.Itisrequiredformagneticfieldtestingforfieldsupto40A/m.ItcompliestotherequirementsofIEC61000-4-8.

Twosafetybananasocketsprovideaconvenientmeanstoconnecttheloopantenna,twootherones(shortedbyajumper)toconnectanexternalamp-meterformonitoringthegeneratedcurrent,asthefieldgeneratedintheloopantennaisdirectlyproportionaltothecurrentflowingthroughit:

Fieldstrength(A/m)H=CfxI

WhereHisthegeneratedfield,Cfthecoilfactor,Ithecurrentflowingthroughtheloop.

Theunithasbeendesignedforuseinruggedindustrialenvironments.Pro-fessionalqualityconnectorsensureusersafety,additionalsystemprotectionisprovidedbyatemperaturesensor locatedontheheatsinkofthepoweramplifier.

MFO 6501 is designed to drive INDUCTIVE LOADS ONLY, as magnetic fi eld loops.

ConnectingcapacitiveloadswilldestroytheInstrument

Circuit diagram MFO 6501

127Technical specifications MFO 6501

Parameter ValueTotalharmonicdistortion(THD)*: <8%(nominal<3,5%atfullrange)Frequency: Selectable50and60Hz+/-3%Rangelow**: 80to400mAintoINA702(Cf=9.8) =>allows0.8to4A/m 80to440mAintoINA701(Cf= 0.89)=>allows0.08to0.4A/m INTOINA703….Rangehigh**: 200mAto4.1AintoINA702(Cf=9.8) =>allows2-40A/m 200mAto4.1AIntoINA701(Cf=0.89) =>allows0.2–3.6A/mSupplyvoltage: 90to240VPowerconsumption: <150WOperatingtemperature: 5°–40°COverloadprotection: BytemperaturesensoronpowerstageWeight: 4kgapprox.Dimensions: 195x180x380mm

* Typical, for the full range from standard level 1 (lowest standard level) to full range (level X)** Current adjustment through customer provided amp-meter.

Installation

1) ConnectMFO6501toINA701,702or703loop2) IncaseofuseofINA702insurethat“power“plugisfitted3) Connect MFO 6501 to mains4) Connectexternalamp-meter5) Switchonmainspower6) Adjusttherequiredcurrentthroughtheloopusingtheknob

Operation - adjustmentsThefieldgeneratedintheloopantennaisdirectlyproportionaltothecurrentflowingthroughit:

Pleaserefertofollowingtablefortestleveladjustment.

Standart level Field in

the loop

Current re-

quired for INA

701 Cf = 0.89

Current required

for INA 702

(power) Cf = 9.8

Current re-

quired for INA

703 Cf = 34

1 1 1.12 0.102 0.029

2 3 3.37 0.306 0.088

3 10 N/A 1.02 0.294

4 30 N/A 3.06 0.882

x 40 N/A 4.08 1.176

x 120 N/A N/A 3.53

Usetheexternalamp-metertoadjusttherequiredcurrent

12914.4.2 Automatic solution: MFO 6502TheautomaticcurrentgeneratortypeMFO6502(magneticfieldoption) isastandardaccessoryfortheNSG3040series.ItprovidesaconvenientmeansofgeneratingandregulatingthecurrenttoflowthroughoneofthemagneticfieldloopsINA701,INA702orINA703.Itisrequiredformagneticfieldtestingforfieldsupto40A/m.ItcompliestotherequirementsofIEC61000-4-8.

Itisfittedwithcarryinghandlesaspartofitsoverallgoodergonomicdesign,whichmakesforeaseofhandling.Further,theunitmaybeusedinanyoftwooperatingpositions;layingonaworkbench,orformorepermanentapplica-tions,itcanbewallmounted.

Itscontrolisfullyautomatic,drivenfromNSG3040.OncedetectedbytheNSG3040,thefunctionsofferedbyMFO6502areavailableinthesoftware.Followingiconwillbedarkenedshowingthefunctionsareactive:

Twosafetybananasockets(redandblack)provideaconvenientmeanstoconnect the loopantenna, twootherones (green - shortedby jumper) toconnectanexternalamp-meterforverifying(ortocalibrate)thegeneratedcurrent,asthefieldgeneratedintheloopantennaisdirectlyproportionaltothecurrentflowingthroughit:

Theunithasbeendesignedforuseinruggedindustrialenvironments.Pro-fessionalqualityconnectorsensureusersafety,additionalsystemprotectionisprovidedbyatemperaturesensor locatedontheheatsinkofthepoweramplifier.

MFO 6502 is designed to drive INDUCTIVE LOADS ONLY, as magnetic field loops.

Thecoilfactoroftheusedloopantennaistobeenteredintherespectivefield,thentheuserwillsetuphistestsdirectlyinA/m,thesoftwaremakesthecalculationanddrivestheMFO6502togeneratetherightcurrentthroughtheloop antenna.

ConnectingcapacitiveloadswilldestroytheInstrument

131 For proper operation of the plug and play detection mechanisms it is strongly recommended to power on first the MFO 6502 accessory and then the NSG 3040.

Powering on the NSG 3040 before the accessories mayresult in a non detection of the accessories.

Power supply+ 15 V, 0 V, -15 V

Sine waveSignal generator

Power amplifier

Mainsinput

50 Hz60 Hz

Amplitudecontrol

Low/Highrange

Controller

Plug X1 – System cable IN25 Way Sub D - Male

Plug X2 – System cable OUT25 Way Sub D - Female

Connection to NSG mastercontroller via system interface

Termination with NSG Interlockplug

Circuit diagram MFO 6502

Technical specifications MFO 6502

Parameter ValueTotalharmonicdistortion(THD)*: <8%(nominal<3,5%atfullrange)Frequency: Selectable50and60Hz+/-3%Magneticfieldadjustment: SoftwaredrivenRangelow**: 80to400mAintoINA702(Cf=9.8) =>allows0.8to4A/m 80to440mAintoINA701(Cf= 0.89)=>allows0.08to0.4A/m INTOINA703…Rangehigh**: 200mAto4.1AintoINA702(Cf=9.8) =>allows2-40A/m 200mAto4.1AIntoINA701(Cf=0.89) =>allows0.2–3.6A/mSupplyvoltage: 90to240VPowerconsumption: <150WOperatingtemperature: 5°–40°COverloadprotection: BytemperaturesensoronpowerstageWeight: 4.2kgapprox.Dimensions: 195x180x380mmControlcable: 2meter-25waysubD-twistedpair- shielded(incl.indelivery)

* Typical, for the full range from standard level 1 (lowest standard level) to full range (level X)** Current adjustment through customer provided amp-meter.

PowerLED(green)showsifinstrumentispoweredupErrorLED(red)ERROR LED off: No problem - accessory is ready to runERROR LED blinking: Problemabletobesolvedbyuser.Ex.: Interlock isactivated–emergencybuttonispressed–overtemperatureERROR LED on:Problemwhichneedsmodulerepair–pleasecontactyournearestTeseqcustomersupportcenterorsalesrepresentative.

Indicated max values reachable for environmental tem-peratures below 30° C. For higher environment tem-peratures internal temperature sensor might trip after a few minutes.

Installation - connection to NSG 30401) Connect instrument power in to mains2) Remove25waySubDplugatrearofNSG30403) ConnectthisconnectortoX2ofMFO65024) ConnectNSG304025wayoutputtoMFO6502X1plug,usingsystem

interfacecabledeliveredwithMFO65025) ConnectMFO6502toloopantennaINA701,702or7036) IncaseofINA702,verifythat“Power“plugisfittedtothecoilinterface

unit7) Power on MFO 65028) PoweronNSG3040mainframe

OperationThecoilfactorisgivenbytheloopantennamanufacturer.ForTeseqINA701,702andINA703loopantennasthisfactorislabelledontheantennaandisalsoindicatedinthetestreportdeliveredwithit.

14.5 Pulse wave shape adapter INA 752ThepulsewaveshapeadapterINA752isastandardaccessoryfortheTeseqNSG3000series.ItprovidesaconvenientmeansforinterconnectingtheNSG3040surgegeneratorwiththeloopantennasINA701or702andinsuresthatthegeneratedpulsedmagneticfieldhasthewaveshapeasspecifiedintheapplication standard.

ThecombinationNSG3040withCWM3450–INA752–INA701(or702) isrequiredformagneticfieldtestingforpulsedfieldsupto1200A/m.ItcompliestotherequirementsofIEC61000-4-9.

Thecontrolisfullyautomatic,drivenfromNSG3040.Clickonfollowingicon:

OncetherightVoltstoA/mratio–whichisavailableontheINA752aswelltheninitscalibrationcertificateisenteredinitsrespectivefield,theuserwillbeabletoentertherequiredtestleveldirectlyinA/m–noneedforhimtoproceedwithcalculations,theinstrumentsoftwaredoesthejob.

In case an INA 702 loop antenna is used, the termination plug labelled “Pulse“ needs to be used.

Technical specifications NSG 3040 (CWM 3450) - INA 752 - INA 701/ INA 702

Parameter ValueVoltstoA/mratio*: 3.55Magneticfieldadjustment: Softwaredriven,NSG3040settings 200to4400V=>allows60to1200A/mINA752weight: 0.6kgINA752dimensions: 140x75x55mm

*Typical,exactvalueisgivenonINA752frontpanel

Followingtestscreenwillappear:

14.6 Coupling decoupling networks for data lines14.6.1 Burst EFT coupling clamp NSG 3425 - and safety cover INA 3825TheEFT/burstscouplingclampCDN3425isdesignedfortheinjectionoffasttransientsintosignalanddatalinesasspecifiedinbasicstandardIEC61000-4-4.

TheEFT/burstscouplingclampCDN3425istobeusedwithaIEC61000-4-4compliantEFT/burstgenerator.

TheIEC/EN61000-4-4standardalsopermitsthecapacitivecouplingmethodtobeusedforpulseinjectionintoACandDCpowersupplycableswhennosuitabledecouplingnetworkispresent.

Thecouplingcapacitancebetweenthecouplingclampandthecablelaidinitdependsonthetypeofcable,itsdiameterandvariousotherfactorssuchasscreening,etc.

TheoptionINA3825–SafetycoverwithInterlockisavailablewhichavoidstheusertotouchtheconductiveplateoftheCDN3425whileEFT/burstpulsesgetapplied.

Preparation for operationThetestrig istobeconstructedinaccordancewithIEC/EN61000-4-4withspecialreferenceto:

OperationpreferablyinascreenedroomtoprotecttheenvironmentDistancestotheEUTandperipheralstobeasspecifiedinthestandard.Goodandlargeareacontacttotheearthplane.Testsonuninsulatedcablesis not permissible.

137Operation ConnectthedeliveredHVpulsecabletothepulseoutputoftheusedEFT/burst generator.

IfINA3825accessoryisused,connecttheInterlockcabletotheinterlockinputofyourgenerator,usetheINA3825tocovertheCDN3425thewaytheinterlockswitch(rearside–middle)getsactivated.

StarttheEFT/bursttest.FollowinstructionsofEFT/burstgeneratorusermanual.

Parameter ValueLength: 1100mmWidth: 200mmHeight: 110mmWeight: 7.5kgapprox.

Mechanical parameters CDN 3425

Parameter ValueLength: 1230mmWidth: 250mmHeight: 170mmWeight: 3.5kgapprox.

Mechanical parameters INA 3825

Parameter ValueUsablelengthoftheclamp: 1100mmDiameterofthetestcable: 4to40mmConnectors: SHV-NIMfemale,50Ωon bothends)Distanceoftheearthreferenceplane: 100mm

Electrical parameters of the clampMax.permissibleburstvoltage 8kV

WhenusedtogetherwithaburstEFTgeneratorformorethan4kV,itisrecom-mendedtocovertheCDN3425withtheINA3825coverwithinterlock,andtoconnecttheforeseeninterlockcableofINA3825totheinterlockinputoftheEFT/burstgenerator.

ThiswaytheuserisprotectedfromtouchingtheCDN3425couplingplatewhenEFT/burstpulsesareapplied.

CDN 3425 with INA 3825 protection cover

13914.6.2 Surge CDN for unsymmetric datalines CDN 117Teseq’s CDN 117 coupling-decoupling network enables convenient testing withsurgepulsesof1.2/50μsondata,signalorperipherallines,asspecifiedinmanyproductstandards.Thetestmethod,severitylevels,permissiblereactionoftheEUTandspecificationofthecouplingnetworksareincludedinIEC/EN61000-4-5.

All coupling methods described in IEC/EN 61000-4-5 forunshieldedunsymmetricallinepairscanbeperformedbothindifferential-andcommonmode coupling (line-to line and line-to-ground).

The user can manually select coupling modesbyconnectingthesurgegenerator’soutputtotheappropriateinputoftheCDN117.

Several CDN 117s can be arranged in parallelforapplicationsinwhichmorethantwoconductorsmustbedecoupled.

The CDN 117 can be easily interfaced with the EUT and is designed as a benchtopunit.ItcanbeusedwithTeseq’sNSGseriesoranyindustrystandardsurgegeneratorwiththeappropriateconnectoradapter.

14.6.3 Surge pulse CDN for symmetric datalines CDN 118

Teseq’s CDN 118 coupling-decoupling network isdesignedforconvenientsurgetestingoftelecommunicationsequipmenttoIEC/EN61000-4-5,whichspecifiesa1.2/50ora10/700μspulse.

TheCDN118includesthespecialdecouplingnetworkandcouplingelementsthatarerequiredforthesetests.

The CDN 118 can be easily interfaced with the EUT and is designed as a benchtopunit.ItcanbeusedwithTeseq’sNSGseriesoranyindustrystandardsurgegeneratorwiththeappropriateconnectoradapter.

Technical specifications

Signal lineMax.operatingvoltage: AC250V DC250VMax.operatingcurrent: 1.5AOhmicresistamceperpath: 2.5ΩDecouplingchokes1KHz: 20mHnominalPulse: 1.2/50μspulseMax.pulsevoltage: 6.6kV

Accessories:Seriesresistor: 2x40Ω,6WCouplingadapters: INA170 Sparklinggapdevice, 90Vtripvoltage INA171 Capacity0.1μF//sparkgap device,90Vtripvoltage INA174 Capacitor0.5μF

Parameter ValueMax.operatingvoltage: AC250V DC250VMax.operatingcurrent: 0.5AOhmicresistamceperpath: 3ΩDecouplingchokes1KHz: 20mHnominalPulse: 1.2/50and10/700μspulseMax.pulsevoltage: 6.6kVlinetoground,3kVlinetoline

Accessories:Resistornetworks: INA172 4x100Ω,6W INA175 4x160Ω,6WCouplingadapters: INA170 Sparklinggapdevice, 90Vtripvoltage INA171 Capacity0.1μF//sparkgap device,90Vtripvoltage INA173 Shortcircuitconnector

14.7 Measuring accessories

14.7.1 MD 200 and MD 200A differential high voltage probesTheTeseqMD200andMD200AhighvoltagedifferentialprobesareideallysuitedtoallowEMCengineerstoverifytheirconductedEMCtestgeneratorsperiodically.Theirperformancepermitstobeusedformanyotherpurposeswherehighervoltageshavetobemeasuredinapotentialfreemanner.

Annual calibration and periodic verificationTheannualcalibrationoftestequipmentrecommendedbymostofthequalitysystems(ISO9000,ISO17025,etc.)hastobeconsideredasavalidationofallmeasurementsdonesincethelastcalibration.

ManyEMCstandardscallforaverificationofthetestequipmentbeforeandaftereverytestsession.Iftheverificationshowsdifferingresults,novalidtestresultscanbeassumedandthetestequipmenthastobere-calibrated.ItisthereforehighlyrecommendedthattheEMCtestengineerperiodicallyverifieshistestequipmentinordertoensuregoodfunctionalityandaccuracy.

Periodicverificationcanbedonebeforeatestsessionoronceadayorweekormonth;itisuptotheusertodecide.Onlyafewpointsneedtobechecked,whichwilltakeonlyafewminutesiftherighttestequipmentisavailable.

Potential free (differential) measurementsSinceitmaybeusefultomeasurepulsessuperimposedonthemainsforperi-odicverificationpurposes,itisessentialtoworkwithdifferentialmeasurements.Usingclassicnon-differentialprobesandconnectingwithreversedpolaritywillresult intheoscilloscopechassisbeingconnectedtothemains. Inthebestcaseacircuitbreakerwilltrip,intheworstcase,forexampleiftheoscilloscopeisbatterypoweredorsuppliedviaanisolationtransformer,theoscilloscopechassiswillbeatavoltageequaltomainsvoltageplusthepeakpulsevoltage,whichcouldbelethalfortheuser.TheTeseqhighvoltagedifferentialprobeMD200seriesisideallysuitedtomeasureallkindsofEMIpulsesinthemicrosecondrange,industrial,telecomandautomotivesurgesaswellaspowerlinedips,interrupts and distortions.

MD 200 MD 200A

Technical specifications MD 200

Attenuationratio: 2ranges:1:100and1:1000Bandwith: DCto10MHzAccuracy: +/2%Max.inputvoltagedifferentmode: 7000VpeakMax.inputvoltagecommonmode: 3500VpeakInputimpedance: 10MΩ/7pFeachsidegroundCMRR(typical): -80dBat50Hz;-60dBat20kHzOperatingtemperature: -10°to+40C°(14°to104°F)Dimensions(LxWxH): 207x83x38mm(8.1x0.32x0.15”)Connectortoscope: BNCandauxiliaryearthleadInputconnectors: HValligatorclipWeight: 500gapprox.(1.1lbs)

Technical specifications MD 200A

Attenuationratio: 2ranges:1:100and1:1000Bandwith: DCto10MHzAccuracy: +/2%Max.inputvoltagedifferentmode: 7000VpeakMax.inputvoltagecommonmode: 7000VpeakInputimpedance: 10MΩ/7pFeachsideground

Inputimpedance: 10MΩ/7pFeachsidegroundCMRR(typical): -80dBat50Hz;-60dBat20kHzOperatingtemperature: -10°to+40C°(14°to104°F)Dimensions(LxWxH): 207x83x38mm(8.1x0.32x0.15”)Connectortoscope: BNCandauxiliaryearthleadInputconnectors: HValligatorclipWeight: 500gapprox.(1.1lbs)

14.7.2 MD 300 surge pulse current probe setTheMD300probehasbeenspeciallydesignedtoverifysurgecurrentpulsesasspecifiedinIEC/EN61000-4-5,ANSIC62.41andtheirderivates.

ThemainadvantageoftheMD300currentprobeis,thatthemeasuringsystemisphysicallyisolatedfromthecircuitundertest.

TheMD300currentprobeisreadytouseascomingalongwithpre-mountedcoaxialcable.TheBNC-endplugneedstobeconnectedtothehigh-impedanceinputor50Ωinputofanordinarymemoryoscilloscope.Thentheconductorcarryingthesurgecurrenttobemeasuredispassedthroughtheholeinthecurrentprobe.Theresultingvoltagewaveshapeontheoscilloscopewillthenbeanauthenticallyreproductionoftheactualcurrentwaveshapewithinthegiven accuracy.

Max.peak.current 5000AmpMax.RMScurrent: >63AmpNominalratio: 500:1(into1MΩsystem) 1000:1(into50Ωsystem) Sensitivity: 0.002V/Amp(MΩsystem) 0.001V/Amp(Ωsystem)Holediameter: 8mmProbeconnector: SMAScopecoaxcable: withSMAandBNCconnectorsOperatingtemperature: 0to55°COutputimpedance: 50ΩAccuracy: <±2%MD300set: Carrycase,currentprobe,coaxcable withSMA/BNCconnector,shorting cablewithsafetybananaconnectors, calibrationcertificate,usermanualOptionsINA6560: FISCHERtobananaplugadaptorsetINA2042: LEMOtobananaplugadaptorsetINA6554: IEC320singlephasetosafetybanana adaptorleads2x155-1316to4mm adaptorswithsafetybanana connectors Note:Thecarrycaseprovidesspareplaceforalloptions

Theprobecanbeused forcurrentpulseverificationonsurgegenerators.OptionalFISCHERorLEMOconnectorsareavailableformatchingthesafetybananaconnectorsoftheshortingcabletotheHVoutputofthegenerator.FormonitoringtheEUTcurrentduringatest,anadditionalIECadaptorwiththesafetybananaconnectorscanbeconnectedtothegeneratorEUToutputforobservationofoneleadatatime.

14.7.3 MD 310 SOW pulse current probe setTheMD310probe isspeciallyadapted toverifyDampedOscillatoryWavecurrentpulsesasspecifiedinIEC/EN61000-4-18orANSI/IEEEC37.90.1andtheirderivates.

ThemainadvantageoftheMD310currentprobeis,thatthemeasuringsystemisphysicallyisolatedfromthecircuitundertest.

TheMD310currentprobeisreadytouse.Itcomeswithapre-mountedcoaxialcableaswellastheconductorcarryingtheSOWcurrenttobemeasured.TheBNC-endplugneedstobeconnectedtothehigh-impedanceinputor50Ωinputofanordinarymemoryoscilloscope.ThentheconductorcarryingtheSOWcurrenttobemeasuredneedstobeconnectedbetweentheEUTsupply.Theresultingvoltagewaveshapeontheoscilloscopewillthenbeanauthenticallyreproductionoftheactualcurrentwaveshapewithinthegivenaccuracy.

OptionalFISCHERconnectorsareavailableformatchingthesafetybananacon-nectorsoftheshortingcabletotheHVoutputofthegenerator.FormonitoringtheEUTcurrentduringatest,anadditionalIECadaptorwiththesafetybananaconnectorscanbeconnectedtothegeneratorEUToutputforobservationofone lead at a time.

147Parameter ValueMax.peakcurrent: 400AmpMax.RMScurrent: 10AmpNominalratio: 10:1(into1MΩsystem) 20:1(into50Ωsystem) Sensitivity: 0.1V/Amp(1MΩsystem) 0.05V/Amp(50Ωsystem)Holediameter: 6.3mmProbeconnector: SMAScopecoaxcable: withSMAandBNCOperatingtemperature: 0to65°COutputimpedance: 50ΩAccuracy: +1%/-0%MD310set: Carrycase,currentprobe,coaxcable withSMA/BNCconnector,shorting cablewithsafetybananaconnectors, calibrationcertificate,usermanualOptionsINA6560 FISCHERtobananaplugadaptorsetINA2042: LEMOtobananaplugadaptorsetINA6554: IEC320singlephasetosafetybanana adaptorleads2x155-1316to4mm adaptorswithsafetybananaconnectors Note:Thecarrycaseprovidesspareplaceforalloptions

14.7.4 Burst/EFT pulse verification kitTheTeseqCAS3025burst/EFTpulseverificationkithasbeenspeciallydesignedtocomplywiththenewrequirementsofIEC/EN61000-4-4:2004toenableEMCengineerstoverifytheirburst/EFTtestgeneratorsperiodically.

Annual calibration and periodic verification

The annual calibration of test equipment recommended by most qualitysystems(ISO9000,ISO17025,etc.)hastobeconsideredasavalidationofallmeasurementsdonesincethelastcalibration.

ManyEMCstandardscallforaverificationofthetestequipmentbeforeandaftereverytestsession.Iftheverificationshowsdifferingresults,novalidtestresultscanbeassumedandthetestequipmenthastobere-calibrated.

It isthereforehighlyrecommendedthattheEMCtestengineerperiodicallyverifieshistestequipmentinordertoensuregoodfunctionalityandaccuracy

INA265Btermination/attenuation(typical): 50Ω,1:1000INA266Atermination/attenuation(typical): 1000Ω,1:2000Bandwith: 400MHzMax.inputburstpeakvoltage: 8800VpeakOperatingtemperature: -10to+40°CDimensions(LxWxH): 280x230x85mmWeight: 900gapprox.

andhenceminimisetheriskofbadmeasurementsandtheneedforaproductre-call.Periodicverificationcanbedonebeforeatestsessionoronceaday

orweekormonth;thisisuptotheusertodecide.Onlyafewpointsneedtobechecked,whichwilltakeonlyafewminutesiftherighttestequipmentisavailable.

TheTeseqCAS3025comprisestwoterminationattenuatorsINA265BandINA266A–plusacoaxialRG58cableandcalibrationcertificateindicatingthepreciseratio.Thewholeisdeliveredinahandycase.

14.8 Cables, plugs and adapters14.8.1 Calibration adapters

INA 3237 (former INA 6561)

BURST/EFT calibration adapter toconnect NSG 3040 and CDN 3061 series (second edition and later) to calibration terminator/attenuatorCAS3025.

HV-plugadaptersetforNSG3000series-SurgeouttosafetyBanana,1plugtoREDbanana,1plug toBlackbanana.Required for surge pulse calibration(safeandreliableconnectiontomea-suringprobes-Maxapplicablesurgevoltageis10kV).Canalsobeusedtobuild injectionprobe tocouple surgepulsestoshieldeddatalinesandEUT’shousings,etc...

Adapter IEC 320 to bananaplugs. ToconnectEUTwithbananaplugstoNSG3040 or CDN 3061 series.

Adapter IEC 320 to Schuko plug. ToconnectEUTwithSchukoplugstoNSG3040 or CDN 3061 series.

14.8.2 Test adapters

Adapter IEC 320 to Swiss plug. Toconnect EUTwith Swiss plug toNSG3040 or CDN 3061 series.

151INA 3232 (former INA 6555)

Adapter IEC 320 to French plug. ToconnectEUTwithFrenchplugstoNSG3040 or CDN 3061 series.

14.8.3 Various cables and plugs

INA 6542 EUTpowerINcableforNSG3000seriesand accessories.

INA 6543 MainsplugadapterforEUTconnectionto NSG 3040 and CDN 3061 series.

INA 6544 HV-plugset (surgeout) forNSG3000seriesforcablediameter10.3mm.CanbeusedforconnectiontoexternalCDN,ortomakeaninjectionprobetocouplesurgepulsestoshieldeddatalinesandEUT’shousings.

INA 6545 HV-plugset (surgeout) forNSG3000seriesforcablediameter5.1mm.CanbeusedforconnectiontoexternalCDN,ortomakeaninjectionprobetocouplesurgepulsestoshieldeddatalinesandEUT’shousings.

INA 6546 SHVplug (burst out) for all SchaffnerTeseqBurstgenerators,BurstCDNsandcoupling clamps. For cable diameter 5.1 mm(typicalRG58orINA6547orINA6548).

INA 6547 20kVcoaxcable,length1m.TobeusedtogetherwithINA6545,forconnectiontoexternalCDN,ortomakeaninjec-tion probe to couple surge pulses to shieldeddatalinesandEUT’shousings.

INA 6548 20kVcoaxcable,length5m.TobeusedtogetherwithINA6545,forconnectiontoexternalCDN,ortomakeaninjec-tion probe to couple surge pulses to shieldeddatalinesandEUT’shousings.

INA 6556 DC supply adapter. Consists of EUTPower IN cable fitted with safetybananaplugsattheotherend.ForNSG3000 series.

INA 3000 TrolleyforNSG3000series.Convenientaccessory to get standalone instru-ments stacked and mobile throughlargecastors.Staticload<150kg.

14.9 Mounting accessories

INA 166 Rackmountingbrackets(4HU)forNSG3040 series.

15 SYSTEM DESCRIPTION

Description: TestsystemforEMCtestswithmains-borneinter- ferenceinaccordancewiththeEN61000-6-1and2 standardsforburst,surgeandmainsqualitytests. Operationviatouch-screenorsoftware-wiseviaaPC linkEthernetTCP/IPinterface.Pulseoutputto externalcouplingnetworks.Housingforbench-top orrackuse.Housing: Bench-tophousingmadeofmetalwithmoulded plasticfrontpanel. Supplementaryrack-mountingkit.Mainson/off: On/offswitchonrearpaneloftheinstrumentIndicatorLED’son Poweron: LED,yellowfrontpanel: Pulse: LED,green Highvoltageactive: LED,red EUTPoweron: LED,green Error: LED,redSafetyfunctions: Mainfuses,interlock,EUTfailinputAmbientconditions: +5°to40°C,20to80%relativehumidity(non-con- densing),68–106kPaatmosphericpressureSelf-test: Routinesforfunctionalself-testRelevantsafety IEC61010-1safetyrequirementsforelectricalequip-standards: mentusedformeasurementandcontrolpurpose as well as laboratory use

DimensionsNSG3040: 449(17.7”)x226(8.9”;5HU)x565mm(22.2”) (WxHxD)WeightNSG3040: approx.28kg(62lbs)

155NOTES

To find your local partner within Teseq®’s global network, please go to www.teseq.com

© May 2015 Teseq® Specifications subject to change without notice. Teseq®, a unit of AMETEK Compliance Test Solutions, is an ISO-registered company. Its products are designed and manufactured under the strict quality and environmental require-ments of the ISO 9001. This document has been carefully checked. However, Teseq® does not assume any liability for errors or inaccuracies.

ManufacturerTeseq AG4542 Luterbach, SwitzerlandT + 41 32 681 40 40F + 41 32 681 40 48chsales.teseq @ ametek.com

ChinaAMETEK Commercial Enterprise (Shanghai) Co., Ltd. Beijing BranchT + 86 10 8526 2111F + 86 10 8526 2141chinasales @ teseq.com

FranceAMETEK SAST + 33 1 30 68 89 00F + 33 1 30 68 89 99info.france @ ametek.com

GermanyTeseq GmbHT + 49 30 5659 8835F + 49 30 5659 8834deinfo.teseq @ ametek.com

JapanAMETEK Co., Ltd. Nagoya OfficeT + 81 52 709 5501F + 81 52 709 5502cts-japan.sales @ ametek.co.jp

SingaporeAMETEK Singapore Pte Ltd (C/o Teseq Pte Ltd) T + 65 6484 2388F + 65 6481 6588singaporesales @ teseq.com

SwitzerlandTeseq AGT + 41 32 681 40 40F + 41 32 681 40 48chsales.teseq @ ametek.com

TaiwanTeseq (Taiwan) Ltd.T + 886 2 2917 8080F + 886 2 2917 2626taiwansales @ teseq.com

UKTeseq Ltd.T + 44 845 074 0660F + 44 845 074 0656uksales @ teseq.com

USATeseq Inc.T + 1 732 417 0501F + 1 732 417 0511Toll free +1 888 417 0501usasales.cts @ ametek.com

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