温度电阻计算Word格式.docx
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Op-ampapproach
with4-20mAoutput:
XTRapproach:
UsingXTR105
AFEapproach:
UsingLMP90100
OP-AMPS
ExcitationwithCurrentSource
Withanexcitationcurrent,theRTDvoltageisdirectlyproportionaltotheRTDresistance.Theoutputvoltageisproportionaltotheexcitationcurrentsoitistemptingtomakethiscurrentlargeenoughtoproduceasubstantialvoltagechangewithtemperature.Butwithincreasedexcitationcurrentcomesincreasedpowerdissipationandself-heatingthatcanaffectmeasurementaccuracy.ThismayrequirecarefulconsiderationofRTDcharacteristicsandaccuracyrequirements.Excitationcurrentsintherangeof100uAto1mAarecommonforaPt100RTD.Outputvoltagechangesbyapproximately38uV/º
Cwith100uAexcitation.
ExcitationwithVoltageSourceandResistor
Excitationcurrentcancomefromavoltagesourceandaresistor.Thecurrent,however,isnottrulyconstantinthisconfiguration.AstheRTDresistanceincreaseswithtemperature,theexcitationcurrentdecreases.Thiscanbeaccountedforincalibrationattemperatureextremesbutnonlinearityisincreased,especiallyoverwidemeasurementtemperaturerange.
Still,iftheR1ismadelargecomparedtothechangeinRTDresistancethroughoutthemeasurementrange,resultsmaybesatisfactory.
BasicOpAmpAmplifierCircuit
Withtwomatchedexcitationcurrentsources,theoutputvoltagecanbeadjustedtozeroatthedesiredlow-scaletemperature.Forexample,theRTDvoltagewillbe(100uA)(100Ω)=10mVat0º
C.Toprovide0VoutputatthistemperaturerequiresanegativeoffsetprovidedbyIS2.TheREF200dual100uAcurrentsourceiswellsuitedtothisapplication.
InstrumentationAmplifierCircuit
Aninstrumentationamplifierofferssomeadvantagesoversingleopampcircuits.Here,theoffsettingcircuitry,IS2andR10,doesnotaffectthegainofthecircuit.GainissolelycontrolledbyR7.Furthermore,thecircuitallowsaso-calledthree-wireconnectiontotheRTD.EqualwireresistanceintheconnectionstotheRTDcreateacommon-modevoltagethatisrejectedbytheinstrumentationamplifier.ThisallowslongerconnectionstobemadetotheRTDwithoutcreatingexcessiveerrorduetowireresistance.
RTDmeasurementwithcurrent-loopoutputusingXTR105
Objective:
Designaneasilyconfigurablecircuitthatproducesa4-20mAoutputbasedonanRTDtemperaturerangeof0C–200CusingtheXTR105.
Solution:
Anexampleofthissolutionusingatwo-wireRTDcanbeseeninFigure1oftheXTR105datasheet.
TocompletethisdesignwiththeXTR105theonlyrequirementsaretocalculatethethreeexternalcomponents,Rg,Rz,andRlin1.EquationsforthesecalculationscanbeseeninFigure1andthecalculationsareshownbelow:
RTDTemperatureRange
TheresultingcircuitcanbeseenintheSPICEsimulationbelow.WiththeRTDresistancesettothe0Cvalueof100Ohms,thecircuitoutputis4mA.
WhentheRTDresistanceisatthe200Cvalueof178.845thecircuitoutputis20mA.
Thesimulationsusetheexactcalculatedresistancevaluestoachievetheidealcircuitoutput.Standard1%or0.1%valueswillhavetobeusedinthefinalcircuitandthedeviationsbetweenthecalculatedvaluesandtherealvalueswillappearasanerror.Also,theeffectoftheanaloglinearizationcanbeseenbylookingatthechangeinthecurrents,i_linandi_rtd,astheRTDresistancechangesfromzero-scaletofull-scale.
AnexampleaccuracycalculationforthissystemcanbeseeninTableIIintheXTR105datasheetandisshownbelow:
IfathreewireRTDisused,thecircuitchangesandlooksFigure3intheXTR105datasheet.
TocompletethedesignwiththeXTR105anadditionalresistor,Rlin2,needstobecalculatedalongwithRg,Rz,andRlin1.Althoughcalculationscanbeusedtodeterminetheexactvaluesfortheresistors,Table1intheXTR105datasheetprovidestheuserwiththenearest1%valuesforthefourexternalresistorsbasedontheinitialtemperatureandspan.
Foradesignfrom0C–200Cthe1%valuescanbefoundinthehighlightedcellinthetableaboveandareshownbelow.
Iftheequationsareusedtocalculatetheexactvaluestheresultsareshownbelow.Thedeviationbetweentheactualcalculatedvaluesandthefinalresistorwillappearasanerrorinthesystem.
AFEapproach:
∙DownloadUsingLMP90100PDF