上海湘润介绍变频器上怎么使用电流互感器

文档简介CurrentsensorsVoltagesensorsTechnicalcatalogueShangHaiXiangRunINDUSTRYCO.,LTDTEL:+86-21-5837191158371993Fax:+86-21-58376375Http://www.plcsh.cnCurrentsensorsVoltagesensorsContentsTechnologiesCurrentmeasuringtechnology.................................................................................................4Voltagemeasuringtechnology..................................................................................................8Voltagedetectiontechnology..................................................................................................10Glossary................................................................................................................................12IndustrycurrentsensorsPanoramaofindustrycurrentsensors...................................................................................14NCStypecurrentsensors.......................................................................................................18HBOtypecurrentsensors.......................................................................................................38EStypecurrentsensors..........................................................................................................44ESMtypecurrentsensors.......................................................................................................50MP/ELtypecurrentsensors...................................................................................................54SubstationandtractioncurrentsensorsPanoramaofsubstationandtractioncurrentsensors...........................................................56NCStypecurrentsensors.......................................................................................................58CStypecurrentsensors.........................................................................................................72TractionvoltagesensorsPanoramaofvoltagesensors.................................................................................................80VStypevoltagesensors.........................................................................................................82EMtypevoltagesensors.........................................................................................................88TractionvoltagedetectorsVDtypevoltagedetectors.......................................................................................................92Otherproducts........................................................................................................................96CommoninformationforindustryandtractionsensorsInstructionsformountingandwiring......................................................................................98Questionnaireproductselectionguide.................................................................................108CalculationguideforclosedloopHalleffectcurrentsensors..............................................114Calculationguideforelectronictechnologycurrentsensors...............................................117CalculationguideforclosedloopHalleffectvoltagesensors.............................................118Calculationguideforelectronictechnologyvoltagesensors...............................................121Ourdistributors.....................................................................................................................1261ShangHaiXiangRunINDUSTRYCO.,LTDTEL:+86-21-5837191158371993Fax:+86-21-58376375Http://www.plcsh.cnBecauseyousearchforperformancewemakethedifference.Intheindustrialandrailwaysectors,wherethetendencyforallplayersistowardshigherperformance,ABBcurrentandvoltagesensorsprovidecompetitiveandadaptedsolutions.Tomeetyourrequirements,theydrawonalltheirqualitiestogiveyoutheadvantage.Resultingfromatotallyelectronictechnology,theyintegratethelatestinnovations.Morecompact,theyallowfortheoptimumreductioninequipmentdimensions.Madefromhightechnologymaterial,ABBsensorsofferexceptionalthermalperformance,astrongermechanicalrobustnessandgenerallyexcellentresistancetoharshexternalconditions.Theseproductsconformtoecological,securityandstrictqualitystandards.3ThreetechnologiesformeThesecondaryoutputcurrentISisthereforeexactlyproportionaltotheprimarycurrentatanymoment.ItisanexactreplicaoftheprimarycurrentmultipliedbythenumberofturnsNP/NS.ThissecondarycurrentIScanbepassedthroughameasuringresistanceRM.ThemeasuringvoltageVMattheterminalsofthismeasuringresistanceRMisthereforealsoexactlyproportionaltotheprimarycurrentIP.PrincipleABBcurrentsensorsbasedonclosedloopHalleffecttechnologyareelectronictransformers.Theyallowforthemeasurementofdirect,alternatingandimpulsecurrents,withgalvanicinsulationbetweentheprimaryandsecondarycircuits.TheprimarycurrentIPflowingacrossthesensorcreatesaprimarymagneticflux.Themagneticcircuitchannelsthismagneticflux.TheHallprobeplacedintheairgapofthemagneticcircuitprovidesavoltageproportionaltothisflux.TheelectroniccircuitamplifiesthisvoltageandconvertsitintoasecondarycurrentIS.ThissecondarycurrentmultipliedbythenumberofturnsNSofsecondarywindingcancelsouttheprimarymagneticfluxthatcreatedit(contrareaction).TheformulaNPxIP=NSxISistrueatanytime.Thecurrentsensormeasuresinstantaneousvalues.AdvantagesApplicationsIndustryTractionClosedloopHalleffecttechnologyPowersupplySensorRMVMG108DGThemainadvantagesofthisclosedloopHalleffecttechnologyareasfollows:LGalvanicinsulationbetweentheprimaryandsecondarycircuits.LMeasurementofallwaveformsispossible:directcurrent,alternatingcurrent,impulse,etc.LHighaccuracyoveralargefrequencyrange(fromdirecttomorethan100kHz).LHighdynamicperformance.LHighoverloadcapacities.LHighreliability.Variablespeeddrives,UninterruptiblePowerSuppliers(UPS),activeharmonicfilters,batterychargers,windgenerators,robotics,conveyers,lifts,cranes,solarinverter,elevator,etc.Mainconverters,auxiliaryconverters(lighting,airconditioning),batterychargers,choppers,substations,mining,etc.4asuringcurrentThesecondaryoutputvoltageVSisthereforedirectlyproportionaltotheprimarycurrent.Itisanexactreplicaoftheprimarycurrent,generallywithavalueof4VforanominalcurrentIPN.PrincipleABBcurrentsensorsbasedonopenloopHalleffecttechnologyarealsoelectronictransformers.Theyallowforthemeasurementofdirect,alternatingandimpulsecurrents,withgalvanicinsulationbetweentheprimaryandsecondarycircuits.TheprimarycurrentIPflowingacrossthesensorcreatesaprimarymagneticflux.Themagneticcircuitchannelsthismagneticflux.TheHallprobeplacedintheairgapofthemagneticcircuitprovidesavoltageVHproportionaltothisflux,whichisitselfproportionaltothecurrentIPtobemeasured.TheelectroniccircuitamplifiesthisHallvoltage(VH)allowingittobedirectlyexploitedbytheoperatorasasecondaryoutputvoltageVS.Thecurrentsensormeasuresinstantaneousvalues.OpenloopHalleffecttechnologyPowersupplySensorG0212DG0VAdvantagesApplicationsIndustryThemainadvantagesofthisopenloopHalleffecttechnologyareasfollows:LGalvanicinsulationbetweentheprimaryandsecondarycircuits.LMeasurementofallwaveformsispossible:directcurrent,alternatingcurrent,impulse,etc.LGoodaccuracyoveramediumfrequencyrange(fromdirecttoseveraltensofkHz).LHighreliability.LLowpowerconsumption.LReducedweightandvolume.LExcellentPerformance/Costratio.Variablespeeddrives,backups(“UPS”),activeharmonicfilters,batterychargers,conveyers,lifts,cranes,solarinverter,etc.Technologies5PrincipleABBcurrentsensorsarebasedonentirelyelectronictechnology.IncontrasttoclosedoropenloopHalleffecttechnology,nomagneticcircuitisusedinthesensor.Theyallowforthemeasurementofdirect,alternatingandimpulsecurrentswithgalvanicinsulationbetweentheprimaryandsecondarycircuits.TheprimarycurrentIPflowingacrossthesensorcreatesaprimarymagneticflux.ThedifferentHallprobesincludedinthesensormeasurethismagneticflux.Theelectroniccircuitconditionsandtreatsthesesignals(summationandamplification)toprovidetwooutputcurrentsIS1andIS2and/ortwooutputvoltagesVS1andVS2.Alltheoutputsareexactlyproportionaltothemeasuredprimarycurrent.Thecurrentsensormeasuresinstantaneousvalues.AdvantagesApplicationsIndustrySubstationElectronictechnology3RM0VVMPowersupplySensorG0215DGThemainadvantagesofthiselectronictechnologyareasfollows:LGalvanicinsulationbetweentheprimaryandsecondarycircuits.LMeasurementofallwaveformsispossible:directcurrent,alternatingcurrent,impulse,etc.LChoiceofoutputtype(currentorvoltage,IPNorIPMAX).LVerylargecurrentmeasuringrange(upto40kA)withoutoverheatingthesensor.LHighdynamicperformance.LLowpowerconsumption.LReducedweightandvolume.LSimplifiedmechanicalfixing.Electrolysis,rectifiers,welding,etc.Substationsincontinuousvoltage.Threetechnologiesformeasuringcurrent62000A100A40kA4kAProductrangesforcurrentmeasurementIndustryapplicationsRangeAccuracyFrequencyConsumptionESESMMP-ELRangeAccuracyFrequencyConsumptionHBORangeAccuracyFrequencyConsumptionNCSRailwayapplicationsRangeAccuracyFrequencyConsumptionCSRangeAccuracyFrequencyConsumptionNCSClosedloopHalleffecttechnologyOpenloopHalleffecttechnologyElectronictechnology2000A500A100A600A100A40kA4kA2000A300AClosedloopHalleffecttechnologyElectronictechnologyTechnologiesSubstationapplications7FixedapplicationonlyTwotechnologiesformeasPrincipleABBvoltagesensorsbasedonclosedloopHalleffecttechnologyarealsoelectronictransformers.Theyallowforthemeasurementofdirect,alternatingandimpulsevoltageswithgalvanicinsulationbetweentheprimaryandsecondarycircuits.TheprimaryvoltageUPtobemeasuredisapplieddirectlytothesensorterminals:HT+(positivehighvoltage)andHT(negativehighvoltage).AninputresistanceREmustnecessarilybeplacedinserieswiththeresistanceRPoftheprimarywindingtolimitthecurrentIPandthereforetheheatdissipatedfromthesensor.ThisresistanceREmaybeeitherintegratedduringthemanufacturingoftheproduct(calibratedsensor)oraddedexternallybytheusertodeterminethevoltagerating(notcalibratedsensor).TheprimarycurrentIPflowingacrosstheprimarywindingviathisresistanceREgeneratesaprimarymagneticflux.Themagneticcircuitchannelsthismagneticflux.TheHallprobeplacedintheairgapofthemagneticcircuitprovidesavoltageVHproportionaltothisflux.TheelectroniccircuitamplifiesthisvoltageandconvertsitintoasecondarycurrentIS.ThissecondarycurrentmultipliedbythenumberofturnsNSofsecondarywindingcancelsouttheprimarymagneticfluxthatcreatedit(contrareaction).TheformulaNPxIP=NSxISistrueatanytime.Thevoltagesensormeasuresinstantaneousvalues.ThesecondaryoutputcurrentISisthereforeexactlyproportionaltotheprimaryvoltageatanymoment.Itisanexactreplicaoftheprimaryvoltage.ThissecondarycurrentISispassedthroughameasuringresistanceRM.ThemeasuringvoltageVMattheterminalsofthismeasuringresistanceRMisthereforealsoexactlyproportionaltotheprimaryvoltageUP.AdvantagesApplicationsClosedloopHalleffecttechnology1TractionThemainadvantagesofthisclosedloopHalleffecttechnologyareasfollows:LGalvanicinsulationbetweentheprimaryandsecondarycircuits.LMeasurementofallwaveformsispossible:directvoltage,alternatingvoltage,impulse,etc.LHighaccuracy.LHighreliability.Mainconverters,auxiliaryconverters(lighting,airconditioning),batterychargers,choppers,substations,mining,etc.Inthesamewayasforcurrentsensors,thissecondarycurrentIScanbethenpassedthroughameasuringresistanceRM.ThemeasuringvoltageVMattheterminalsofthismeasuringresistanceRMisthereforealsoexactlyproportionaltotheprimaryvoltageUP.Theelectricalsupplytothesensorisalsoinsulatedfromtheprimaryvoltage.PrincipleABBvoltagesensorsbasedonelectronictechnologyonlyuseelectroniccomponents.IncontrasttoclosedoropenloopHalleffecttechnology,nomagneticcircuitsorHalleffectprobesareusedinthesensor.Thisallowsforthemeasurementofdirectoralternatingvoltageswithelectricalinsulationbetweentheprimaryandsecondarycircuits.Theprimaryvoltagetobemeasuredisapplieddirectlytothesensorterminals:HT+(positivehighvoltage)andHT(negativehighvoltageorearth).ThisvoltageispassedthroughaninsulatingamplifierandisthenconvertedtoasecondaryoutputcurrentIS.ThissecondarycurrentISiselectricallyinsulatedfromtheprimaryvoltagetowhichitisexactlyproportional.Thevoltagesensormeasuresinstantaneousvalues.TractionApplicationsAdvantagesElectronictechnology2Themainadvantagesofthisfullyelectronictechnologyareasfollows:LElectricalinsulationbetweentheprimaryandsecondarycircuits.LMeasurementofallwaveformsispossible:directvoltage,alternatingvoltage,impulse,etc.LExcellentimmunitytoelectromagneticfields.LExcellentaccuracy.LHighdynamicperformance.LExcellentreliability.Mainconverters,auxiliaryconverters(lighting,airconditioning),batterychargers,choppers,substations,mining,etc.Technologies9G0216DGThevoltagedetectorindicatesthepresenceofavoltagehigherthanalimit(maximum50Vincompliancewithstandards)bytheilluminationofaLED.Inversely,theLEDisextinguishedwhenthevoltageisbelowthislimit.PrincipleABBvoltagedetectorisbasedonentirelyelectronictechnology.Itallowsthedetectionofthepresenceofdirectoralternatingvoltage.Forsafetyreasonsthismainfunctionisduplicatedwithinthedetectortoincreasetheproductlifetime.ThevoltagedetectorconvertstheprimaryvoltageUPappliedtoitsterminalstovisualinformationfortheuser.Thisfunctionpermitstheusertocarryoutmaintenanceoperationswiththeassurancethatdangerousvoltageisnotpresent.TheprimaryvoltageUPtobemeasuredisapplieddirectlytothedetectorterminals:HT1+andHT2+(positivehighvoltage)andHT1andHT2-(negativehighvoltageor0Velectric).Theelectroniccircuit(PCB)convertstheprimaryvoltageUPtoanelectricalsignalsuppliedtoalightemittingdiode(LED).TheinformationissuppliedtotheuservisuallythroughtwoflashingLEDs.Thedetectordoesnotneedanexternalpowersupplyinordertowork.ApplicationsTractionAdvantagesElectronictechnology1VoltagedetectiontechnologyThemainadvantagesofthiselectronictechnologyareasfollows:LDetectionofdirectandalternatingvoltages.LVerygoodvisualindication.LHighoverloadcapacities.LExcellentreliability(functionalredundancyinasingleproduct).LExcellentimmunitytomagneticfields.LCompactproduct.Mainconverters,auxiliaryconverters(lighting,airconditioning),electronicpowerdevicesintegratingcapacitorsbanks,batterychargers,choppers,substations,etc.105000V600VRailwayapplicationsProductrangesforvoltagemeasurementProductrangesforvoltagedetectionRangeAccuracyFrequencyStandardsEM010RangeAccuracyFrequencyStandardsVSClosedloopHalleffecttechnologyElectronictechnologyRangeSafetyReliabilityVDElectronictechnologyRailwayapplications4200V50V1500V50VTechnologies11GlossaryDescriptionofthemaincurrentandvoltagesensor’scharacteristicsNominalprimarycurrent(IPN)andnominalprimaryvoltage(UPN)Thisisthemaximumcurrentorvoltagethatthesensorcancontinuouslywithstand(i.e.withouttimelimit).Thesensoristhermallysizedtocontinuouslywithstandthisvalue.Foralternatingcurrents,thisisther.m.s.valueofthesinusoidalcurrent.Thevaluegiveninthecatalogueorinthetechnicaldatasheetisanominalratingvalue.Thisfigurecanbehigherifcertainconditions(temperature,supplyvoltage…)arelessrestricting.-Supplyvoltage:Themeasuringrangeincreaseswiththesupplyvoltage.-Measuringresistance:Themeasuringrangeincreaseswhenthemeasuringresistanceisreduced.NotmeasurableoverloadThisisthemaximuminstantaneouscurrentorvoltagethatthesensorcanwithstandwithoutbeingdestroyedordamaged.Howeverthesensorisnotabletomeasurethisoverloadvalue.Thisvaluemustbelimitedinamplitudeanddurationinordertoavoidmagnetisingthemagneticcircuit,overheatingorstrainingtheelectroniccomponents.Asensorcanwithstandalowervalueoverloadforlonger.G0208DGIPmaxorUPmaxVAG0209DGIPmaxorUPmaxRMG0210DGIPNorUPNNotmeasurableoverloadTimeMeasuringrange(IPMAXandUPMAX)ThisisthemaximumcurrentorvoltagethatthesensorcanmeasurewiththeHalleffect.Ingeneral,mainlyforthermalreasons,thesensorcannotcontinuouslymeasurethisvaluefordirectcurrentsandvoltages.Thismeasuringrangeisgivenforspecificoperatingconditions.Thiscanvarydependingmainlyontheparametersbelow(seecalculationexamplesp.114andonwards):Operatingrange(IPN,UPN)andtemperature(°C)Thesensorhasbeendesignedforacertainoperatingtemperature.Ifthistemperatureisreduced,thenitispossibletousethesensorwithahigherthermalcurrentorvoltage.G0249DGIPNorUPNT°C12GlossaryDescriptionofthemaincurrentandvoltagesensor’scharacteristicsSecondarycurrentISNatIPNoratUPNThisisthesensor’soutputcurrentISwhentheinputisequaltothenominalprimarycurrentIPNortothenominalprimaryvoltageUPN.MeasuringresistanceRMThisistheresistanceconnectedinthesecondarymeasuringcircuitbetweenterminalMofthecurrentorvoltagesensorandthe0Vofthesupply.ThemeasuringvoltageVMattheterminalsofthisresistanceRMisproportionaltothesensor’ssecondarycurrentIS.Itisthereforetheimageofthesensor’sprimarycurrentIPorprimaryvoltageUP.Forthermalreasons,aminimumvalueissometimesrequiredincertainoperatingconditionsinordertolimitoverheatingofthesensor.Themaximumvalueforthisresistanceisdeterminedbythemeasuringrange.(seecalculationexamplesp.114andonwardsandthecurveIPMAXorUPMAX=f(RM)opposite).AccuracyThisisthemaximumerrorforthesensoroutputISNforthenominalinputvalue(currentorvoltage).Thistakesintoaccounttheresidualcurrent,linearityandthermaldrift.a.c.accuracyThisisthemaximumerrorforthesensor’soutputISNforanalternatingsinusoidalprimarycurrentwithafrequencyof50Hz.Theresidualcurrentisnottakenintoaccount.Thelinearityandthermaldriftarealwaysincluded.No-loadconsumptioncurrentThisisthesensor’scurrentconsumptionwhentheprimarycurrent(orprimaryvoltage)iszero.Thetotalcurrentconsumptionofthesensoristhereforetheno-loadconsumptioncurrentplusthesecondarycurrent.Allgivenperformanceanddataincludedinthiscataloguecouldchange.Dedicateddatasheetsaretheonlyrecognizedreferencedocumentsforthegivenperformancesanddata.Tohavethedata-sheets,pleasecontactyourlocaldistributor(seepage126-127).Technologies13NominalOpeningforSecondarySecondarySupplyTypeprimarycurrenttheprimarycurrentIS1voltageVS1voltageSecondaryconnectionOrdercode(Apeak)conductor(mm)at±IPN(mApeak)at±IPN(Vpeak)(Vd.c.)NCS125-44000125±20±10±15…±24Straightconnector1SBT200204R00018pinNCS125-4AF4000125±20-±15…±24Shieldedcable1SBT200204R00026wires(2m)NCS125-4VF4000125-±10±15…±24Shieldedcable1SBT200204R01026wires(2m)NCS165-44000165±20±10±15…±24Straightconnector1SBT200604R00018pinNCS165-4AF4000165±20-±15…±24Shieldedcable1SBT200604R00026wires(2m)NCS165-4VF4000165-±10±15…±24Shieldedcable1SBT200604R01026wires(2m)NCS125-66000125±20±10±15…±24Straightconnector1SBT200206R00018pinNCS125-6AF6000125±20-±15…±24Shieldedcable1SBT200206R00026wires(2m)NCS125-6VF6000125-±10±15…±24Shieldedcable1SBT200206R01026wires(2m)NCS165-66000165±20±10±15…±24Straightconnector1SBT200606R00018pinNCS165-6AF6000165±20-±15…±24Shieldedcable1SBT200606R00026wires(2m)NCS165-6VF6000165-±10±15…±24Shieldedcable1SBT200606R01026wires(2m)NCS125-1010000125±20±10±15…±24Straightconnector1SBT200210R00018pinNCS125-10AF10000125±20-±15…±24Shieldedcable1SBT200210R00026wires(2m)NCS125-10VF10000125-±10±15…±24Shieldedcable1SBT200210R01026wires(2m)NCS165-1010000165±20±10±15…±24Straightconnector1SBT200610R00018pinNCS165-10AF10000165±20-±15…±24Shieldedcable1SBT200610R00026wires(2m)NCS165-10VF10000165-±10±15…±24Shieldedcable1SBT200610R01026wires(2m)NCS165-2020000165±20±10±15…±24Straightconnector1SBT200620R00018pinNCS165-20AF20000165±20-±15…±24Shieldedcable1SBT200620R00026wires(2m)NCS165-20VF20000165-±10±15…±24Shieldedcable1SBT200620R01026wires(2m)Thesesensorsaredesignedtobefixedbythecase.Theymaybeeitherverticallyorhorizontallymounted.Thesecondaryconnectionismadewithaconnectororcable.ForNCSsensorstheprimaryconductormaybeacable,oneorseveralbars.FramemountingPanoramaofindustrycurrentsensors1SBC146008F0014NCS125-4toNCS125-10NCS165-4toNCS165-201SBC146009F0014NCS125-4AFtoNCS125-10AFNCS125-4VFtoNCS125-10VF1SBC146017F0014NCS165-4AFtoNCS165-20AFNCS165-4VFtoNCS165-20VF1SBC146018F001414HBO100toHBO6001SBC791293F0302Thesesensorsaredesignedtobefixedbythecase.Theymaybeeitherverticallyorhorizontallymounted.Thesecondaryconnectionismadewithaconnector.ForHBOsensorstheprimaryconductormaybeacableorabar.FramemountingPanoramaofindustrycurrentsensorsNominalSecondarySupplyTypeprimarycurrentvoltagevoltageSecondaryconnectionOrdercode(Ar.m.s.)atIPN(V)(Vd.c.)HBO100100±4±12…±15Molex4pin1SBT210100R0001HBO200200±4±12…±15Molex4pin1SBT210200R0001HBO300300±4±12…±15Molex4pin1SBT210300R0001HBO400400±4±12…±15Molex4pin1SBT210400R0001HBO500500±4±12…±15Molex4pin1SBT210500R0001HBO600600±4±12…±15Molex4pin1SBT210600R0001NCS305-6toNCS305-20NCS305-6AFtoNCS305-20AFNCS305-6VFtoNCS305-20VFIndustrysensorsTypeNominalprimarycurrent(Apeak)Openingfortheprimaryconductor(mm)SecondarycurrentIs1at±IPN(mApeak)SecondaryvoltageVs1at±IPN(Vpeak)Supplyvoltage(Vd.c)SecondaryconnectionOrdercodeNCS305-66302±20±10+15…+24(±2%)Straightconnector8pin1SBT200306R0001NCS305-6AF6302±20-+15…+24(±2%)Shieldedcable6wires(2m)1SBT200306R0002NCS305-6VF6302-±10+15…+24(±2%)Shieldedcable6wires(2m)1SBT200306R0102NCS305-1010302±20±10+15…+24(±2%)Straightconnector8pin1SBT200310R0001NCS305-10AF10302±20-+15…+24(±2%)Shieldedcable6wires(2m)1SBT200310R0002NCS305-10VF10302-±10+15…+24(±2%)Shieldedcable6wires(2m)1SBT200310R0102NCS305-2020302±20±10+15…+24(±2%)Straightconnector8pin1SBT200320R0001NCS305-20AF20302±20-+15…+24(±2%)Shieldedcable6wires(2m)1SBT200320R0002NCS305-20VF20302-±10+15…+24(±2%)Shieldedcable6wires(2m)1SBT200320R010215Thesesensorsaredesignedtobefixedbythecase.Theymaybeeitherhorizontallyorverticallymounted.Thesecondaryconnectionismadewithaconnectororcable.ForESandESMsensorstheprimaryconductormaybeacableorabar.FramemountingES100C1SBC789794F0302ES300C1SBC789824F0302ES500C1SBC789834F0302ES1000C1SBC789804F0302ES2000C1SBC789814F0302ESM1000C1SBC789844F0302PanoramaofindustrycurrentsensorsNominalSecondarySupplyTypeprimarycurrentcurrentvoltageSecondaryconnectionOrdercode(Ar.m.s)atIPN(mA)(Vd.c.)ES100C100100±12…±24Molex3pinsHE14ES100CES100F100100±12…±243wires200mmES100FES300C300150±12…±24Molex3pinsHE14ES300CES300S300150±12…±24JST3pinsES300SES300F300150±12…±243wires200mmES300FES500C500100±12…±24Molex3pinsHE14ES500CES500S500100±12…±24JST3pinsES500SES500F500100±12…±243wires200mmES500FES500-9672500125±12…±24Molex3pinsHE14ES500-9672ES500-9673500125±12…±24JST3pinsES500-9673ES500-9674500125±12…±243wires200mmES500-9674ES1000C1000200±12…±24Molex3pinsHE14ES1000CES1000S1000200±12…±24JST3pinsES1000SES1000F1000200±12…±243wires200mmES1000FES1000-96781000250±12…±24Molex3pinsHE14ES1000-9678ES1000-96791000250±12…±24JST3pinsES1000-9679ES1000-96801000250±12…±243wires200mmES1000-9680ESM1000C1000200±15…±24Molex3pinsHE141SBT191000R0003ESM1000S1000200±15…±24JST3pins1SBT191000R0002ESM1000F1000200±15…±243wires200mm1SBT191000R0001ESM1000-98881000250±15…±24Molex3pinsHE141SBT191000R9888ESM1000-98871000250±15…±24JST3pins1SBT191000R9887ESM1000-98861000250±15…±243wires200mm1SBT191000R9886ES2000C2000400±15…±24Molex3pinsHE141SBT152000R0003ES2000S2000400±15…±24JST3pins1SBT152000R0002ES2000F2000400±15…±243wires200mm1SBT152000R000116MP25P1EL25P1BBto100P2BB1SBC146019F00141SBC771743F0301EL25P1to100P21SBC146013F0014ThesesensorsaredesignedforPCBmounting.ThesensorismechanicallyfixedbysolderingthesecondarycircuitpinstothePCB.Theprimaryconnectioncanalsobeintegratedinthesensor(pinsforMPsensors,integratedprimarybarforEL…BBsensors).TheprimaryconductorforELsensorscanalsobeacableorabar.ForMPsensorstheprimarypincombinationdeterminesthesensor’snominalrating(seetablep.55).PCBmountingPanoramaofindustrycurrentsensors*seetablep.55“MP25P1:arrangementofprimaryterminalsandrelatedcharacteristics”.NominalSecondarySupplyPrimarySecondaryTypeprimarycurrentcurrentvoltageconnectionconnectionOrdercode(Ar.m.s.)atIPN(mA)(Vd.c.)MP25P15to25*24or25*±12…±15Pins3pins1SBT312500R0001NominalSecondarySupplyPrimarySecondaryTypeprimarycurrentcurrentvoltageconnectionconnectionOrdercode(Ar.m.s.)atIPN(mA)(Vd.c.)EL25P12525±12…±153pins1SBT132500R0001EL25P1BB2525±12…±15Bar3pins1SBT132500R0002EL50P15050±12…±153pins1SBT135100R0001EL50P1BB5050±12…±15Bar3pins1SBT135100R0003EL55P25025±12…±153pins1SBT135100R0002EL55P2BB5025±12…±15Bar3pins1SBT135100R0004EL100P210050±12…±153pins1SBT130100R0001EL100P2BB10050±12…±15Bar3pins1SBT130100R0002Hole7.5mmHole10mmHole10mmHole10mmIndustrysensors17DesignedtobeintegratedintoeverysituationTheNCS125/165sensorisentirelysymmetrical.Itssquareshapeandstrategicallypositionedoblongholesmakeiteasytofasteninachoiceof2positions.Asanaccessoryitcomeswithasideplatethatcanbefastenedoneithersideofthesensorgivingcompletefittingflexibility.ItmeetsthestandarddesignofABBcurrentsensors.Itcanbefittedbothhorizontallyandvertically.IndustryCurrentSensorsNCSRange302ThisflexibilitymeansthatNCS125/165sensorsimplifiestheworkofintegrators.AdditionallythepairofsideplateallowstheNCS125/165sensortobefittedtooneorseveralbarsatthesametime.TheNCS305sensorhasbeendesignedtoreduceinstallationcostsfornewandretrofitsystems.Usingourinnovativeandrobustopening,theclip-onsystemallowstheNCS305tobeeasilyadaptedtoexistingbusbars.Thankstoitscorefree,patentedtechnology,theNCSismorecosteffectiveandfastertoinstallthantraditionalHallEffectsensor.TheNCSisa“flyweight”withonly5.5kg(fortheNCS305),thissensorofferthebestcalibre/weightratio.18THENCSMEETSALLOFYOURREQUIREMENTSThechiefsel领-pointofNCSsensorsistheirquality.Complianceoftheirhigh-techelectronicdesignwithstandardEN50178isproofoftheirabilitytocomplywiththemostdetailedconstraintaswellasmajordemands.ThefactthateachindividualsensorissubjectedtorigoroustestingisproofoftheimportanceABBattributetoquality.QUALITYABBhavelongbeenconcernedwiththeprotectionoftheenvironment,asprovedbytheISO14001certificationtheyreceivedin1998.ThisenvironmentalapproachisparticularlynoticeableintheproductionoftheNCSrangeinthereductionofthenumberofcomponents,intheuseofalow-energymanufacturingprocedureandtheuseofrecyclablepacking.Theproductsinusearealsocharacterizedbytheirreducedenergyconsumption.ECOLOGYQualitythatgoesbeyondstandardsABBhavebeenISO9001certifiedsince1993andourstandardNCSsensorsbeartheCElabelinEurope.Thisongoingstrivingafterqualityhasalwaysbeenthehallmarkofacompanywhereexcellenceandsafetyarepartoftheculture,fromdesignrightthroughtoproduction.Thiscultureistheresultofcontinuousresearchtomaketechnicalprogressandmeetourcustomers’demands.ConsiderableenergysavingsNCSsensorsofferconsiderablesavingsinenergy.IndeedonlyafewwattsarerequiredtopowertheNCSsensorincontrasttotraditionalsensorsthatrequireseveralhundredwatts.Thisreductioninwastedenergymeansthereisnoriseintemperaturearoundthesensor.1651251**%electronicThemainadvantageoftheNCSrangeofsensorsisthattheyaredesignedusingabrand-newsolution:1**%electronictechnology.UnlikeothercurrentlyavailablesolutionssuchasshuntsandCTs,thisapproachmeansthatthesesensorsareverycompact.Severalpatentswerenecessarytoachievethisimprovement.Industrysensors19NCSindustrycurrentsensorsGeneraldataLPlasticcaseandinsulatingresinareself-extinguishing.LTwofixingmodes:LHorizontalorverticalwithfixingholesinthecasemoulding.LBybarusingtheintermediatesideplatekit(Refertoaccessoriesandoptionsonthefollowingpage).LMaxtighteningtorqueforM6screws(sideplatemounting):2N.mLDirectionofthecurrent:LOutputcurrent(IS1andIS2):AprimarycurrentflowinginthedirectionofthearrowresultsinapositivesecondaryoutputcurrentonterminalsIS1andIS2.LOutputvoltage(VS1andVS2):AprimarycurrentflowinginthedirectionofthearrowresultsinapositivesecondaryoutputvoltageonterminalsVS1andVS2.LBurn-intestinaccordancewithFPTC404304cycle.PrimaryconnectionHoleforprimaryconductor.Thetemperatureoftheprimaryconductorincontactwiththecasemustnotexceed100°C.SecondaryconnectionLMalestraight8pinconnector(integratedinthesensor)Afemalestraight8pinconnectorisprovidedasstandardwitheachproduct.LShieldedcable6x2000mm(crosssection0.5mm2).UtilisationSensorstomeasured.c.,a.c.orpulsatingcurrentswithagalvanicinsulationbetweenprimaryandsecondarycircuits.NCS1254000ATechnicaldata1MaximumcurrentIPNgenerated:5000Ar.m.s.ABB8pinconnectorNCS125-4--Outputcurrentshieldedcable-NCS125-4AF-Outputvoltageshieldedcable--NCS125-4VFNominalprimarycurrentApeak400040004000MeasuringrangeApeak200002000020000Notmeasuredoverload1s/hApeak800008000080000SecondarycurrentIS1atIPNmApeak±20±20-SecondarycurrentIS2atIPMAXmApeak±20±20-ResiduelcurrentIS10@+25°CμA≤±250≤±250-ResiduelcurrentIS20@+25°CμA≤±180≤±180-Thermaldriftcoefcent(outputsIS1,IS2)μA/°C≤±4≤±4-Measuringresistance(outputsIS1,IS2)Ω0...3500...350-SecondaryvoltageVS1atIPNVpeak±10-±10SecondaryvoltageVS2atIPMAXVpeak±10-±10ResiduelvoltageVS10@+25°CmV≤±100-≤±100