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Advanced Temperature TransmitterATT082
HART® protocol Model
Application• Temperaturetransmitterwith2inputchannelsandHART®communication for the conversion of different input sig-nalsintoascalable,analog4to20mAoutputsignal
• ATT082standsoutduetosignalreliability,long-termsta-bility,highprecisionandadvanceddiagnostics(importantincriticalprocesses)
• Forthehighestlevelofsafety,availabilityandriskreduction• Usable for resistance thermometer (RTD), thermocouple(TC),resistancetransmitter(Ω),voltagetransmitter(mV)
• Optional installation in field housings even for use inExdareas
• Mountingbracketpipeorwallforthefieldhousing
Your benefits• SafeoperationinhazardousareasInternationalapprovalssuchas–FMIS,NI–ATEXforintrinsicallysafeinstallationinzone1andzone2
• Highaccuracythroughsensor-transmittermatching• Reliable operation with sensor monitoring and devicehardwarefaultrecognition
• DiagnosticsinformationaccordingtoNAMURNE107• Severalmountingversionsandsensorconnectioncombi-nations
Function and system designCorrosion detection as per NAMUR NE89Corrosionof thesensorconnectioncablescancause incor-rectmeasuredvaluereadings.Theheadtransmitteroffersthepossibilityofdetectinganycorrosionof the thermocouplesandresistancethermometerswith4-wireconnectionbeforeameasuredvalueiscorrupted.Thetransmitterpreventsin-correctmeasuredvaluesfrombeingexportedandcanissueawarningviatheHART®protocolwhenconductorresistancevaluesexceedplausiblelimits.
Low voltage detectionThelowvoltagedetectionfunctionpreventsthedevicefromcontinuously transmitting an incorrect analogoutput value(i.e.causedbyanincorrectordamagedpowersupplysystemoradamagedsignalcable).Ifthesupplyvoltagedropsbelowtherequiredvalue,theanalogoutputvaluedropsto<3.6mAforapprox.5seconds.Thedevicethentriestooutputthenor-malanalogoutputvalueagain.Ifthesupplyvoltageisstilltoolow,thisprocessisrepeatedcyclically.
No. SS2-ATT082-0100
2-channel functionsThesefunctionsincreasethereliabilityandavailabilityoftheprocessvalues:• Sensorbackupswitchestothesecondsensoriftheprimarysensorfails
• Driftwarningoralarm if thedeviationbetweensensor1andsensor2islessthanorgreaterthanapredefinedlimitvalue
• Temperature-dependentswitchingbetweensensorswhichareusedindifferentmeasuringranges
4thedition1
InputMeasured variableTemperature (temperature-linear transmission behavior),resistanceandvoltage.
Type of inputTwoindependentsensorscanbeconnected.Themeasuringinputsarenotgalvanicallyisolatedfromeachother.Ambienttemperatureout-of-rangedetectionHardware
Type of input Designation Measuring range limits
Resistance thermometer (RTD)asperIEC60751:2008(α=0.003851)
asperJISC1604-81(α=0.003916)
Pt100Pt200Pt500Pt1000
Pt100
–200to+850°C(–328to+1562°F)–200to+850°C(–328to+1562°F)–200to+500°C(–328to+932°F)–200to+250°C(–328to+482°F)
-200to+649°C(-328to+1200°F)
•Typeofconnection:2-wire,3-wireor4-wireconnection,sensorcurrent:≤0.3mA•With2-wirecircuit,compensationofwireresistancepossible(0to30Ω)•With3-wireand4-wireconnection,sensorwireresistancetomax.50Ωperwire
Resistance transmitter ResistanceΩ 10to400Ω10to2000Ω
Thermocouples (TC)
toIEC584part1toASTME988
TypeB(PtRh30-PtRh6)TypeE(NiCr-CuNi)TypeJ(Fe-CuNi)TypeK(NiCr-Ni)TypeN(NiCrSi-NiSi)TypeR(PtRh13-Pt)TypeS(PtRh10-Pt)TypeT(Cu-CuNi)
TypeC(W5Re-W26Re)TypeD(W3Re-W25Re)
+40to+1820°C(+104to+3308°F)–270to+1000°C(–454to+1832°F)–210to+1200°C(–346to+2192°F)–270to+1372°C(–454to+2501°F)–270to+1300°C(–454to+2372°F)–50to+1768°C(–58to+3214°F)–50to+1768°C(–58to+3214°F)–260to+400°C(–436to+752°F)
0to+2315°C(+32to+4199°F)0to+2315°C(+32to+4199°F)
Recommendedtemperaturerange:+100to+1500°C(+212to+2732°F)0to+750°C(+32to+1382°F)+20to+700°C(+68to+1292°F)0to+100°C(+32to+2012°F)0to+100°C(+32to+2012°F)0to+1400°C(+32to+2552°F)0to+1400°C(+32to+2552°F)–185to+350°C(–301to+662°F)
0to+2000°C(+32to+3632°F)0to+2000°C(+32to+3632°F)
•Internalcoldjunction(Pt100)•Externalcoldjunction:configurablevalue–40to+85°C(–40to+185°F)•Max.sensorresistance10kΩ(ifsensorresistanceisgreaterthan10kΩ,errormessageasperNAMURNE89)
Voltage transmitter (mV) Millivolttransmitter(mV) –20to100mV
The following connection combinations are possible when both sensor inputs are assigned:
Sensor input 1
Sensor input 2
RTDorresistancetransmitter,2-wire
RTDorresistancetransmitter,3-wire
RTDorresistancetransmitter,4-wire
Thermocouple(TC),voltagetransmitter
RTDorresistancetransmitter,2-wire ✓ ✓ - ✓RTDorresistancetransmitter,3-wire ✓ ✓ - ✓RTDorresistancetransmitter,4-wire - - - -Thermocouple(TC),voltagetransmitter ✓ ✓ ✓ ✓
OutputOutput signal
Analogoutput 4to20mA,20to4mA(canbein-verted)
Signalencoding FSK±0.5mAviacurrentsignal
Datatransmissionrate 1200baud
Galvanicisolation U=2kVAC(input/output)
Failure informationFailure information as per NAMUR NE43:Failureinformationiscreatedifthemeasuringinformationismissingornotvalid.Acompletelistofalltheerrorsoccur-ringinthemeasuringsystemiscreated.
Underranging Lineardropfrom4.0to3.8mA
Overranging Linearincreasefrom20.0to20.5mA
Failure,e.g.sensorbreakage;sensorshortcircuit
≤3.6mA(“low”)or≥21mA(“high”),canbeselectedThe“high”alarmsettingcanbesetbetween21.6mAand23mA,thusprovidingtheflexibilityneededtomeettherequirementsofvariouscontrolsystems.
2
Load
Rbmax.=(Ubmax.-11V)/0.023A(currentoutput)
Fig1.Load
Linearization/transmission behaviorTemperature-linear,resistance-linear,voltage-linear
Mains voltage filter50/60Hz
Filter1storderdigitalfilter:0to120s
Current consumption• 3.6to23mA•Minimumcurrentconsumption≤3.5mA• Currentlimit≤23mA
Protocol-specific data
HART®version 7
Deviceaddressinmulti-dropmode
Softwaresettingaddresses0to63
Writeprotection Hardwaresettingforactivatingwriteprotec-tion
Devicedescriptionfiles(DD)
Informationandfilesareavailablefreeofchargeat:www.hartcomm.org
Load(communica-tionresistor)
min.250Ω
Switch-on delay5s,duringswitch-ondelayIa≤3.8mA
Ub42 V
1348
1098
250
11 V0 36.25 V16.75 V
Supply voltage (Vdc)
Load (Ω)
Power supplyElectrical connection
7
6
5
4
3
Sensor input 2 Sensor input 1
Display connectionPower supply DC 24V
Receiver
TC, mV
RTD, Ω: 4-, 3- and 2-wireRTD, Ω: 3- and 2-wire
TC, mV
white
red
red
white
white
red
red
Fig2.Terminalassignment
ForthedeviceoperationviaHART®protocol(terminals1and2)aminimumloadresistanceof250Ωisnecessaryinthesignalcircuit.
Supply voltageU=11to42Vdc(non-hazardousarea),reversepolaritypro-tected.Valuesforhazardousareaseechapter‘Certificatesandapprovals’(refertopage8and9).
Residual ripplePerm.residualrippleUss≤3VatUb≥13.5V,fmax.=1kHz
Performance characteristicsResponse timeMeasuredvalueupdate<1sperchannel,dependingonthetypeofsensorandconnectionmethod
Reference operating conditions• Calibrationtemperature:+25°C±5K(77°F±9°F)• Supplyvoltage:24Vdc• 4-wirecircuitforresistanceadjustment
3
Maximum measured errorTheaccuracydataaretypicalvaluesandcorrespondtoastandarddeviationof±3σ(normaldistribution),i.e.99.8%ofallthemeasuredvaluesachievethegivenvaluesorbettervalues.
Designation/measuring range Performance characteristics
Digital D/A1)
Resistancethermometer(RTD)(3-wire,4-wire)
Pt100Pt500Pt1000Pt200
0.1°C(0.18°F)0.3°C(0.54°F)0.2°C(0.36°F)1.0°C(1.8°F)
0.03%0.03%0.03%0.03%
Resistancethermometer(RTD)(2-wire)
Pt100Pt500Pt1000Pt200
0.8°C(1.44°F)0.8°C(1.44°F)0.8°C(1.44°F)1.5°C(2.7°F)
0.03%0.03%0.03%0.03%
Thermocouples(TC) Type:K,J,T,EType:N,C,DType:S,B,R
0.25°C(0.45°F)0.5°C(0.9°F)1.0°C(1.8°F)
0.03%0.03%0.03%
Resistancetransmitters(Ω) 10to400Ω10to2000Ω
±0.04Ω±0.8Ω
0.03%0.03%
Voltagetransmitter(mV) –20to+100mV ±10μV 0.03%
1) % refers to the set span. Accuracy = digital + D/A accuracy
Physical input measuring range of sensors
10to400Ω Pt100
10to2000Ω Pt200,Pt500,Pt1000
–20to+100mV Thermocouplestype:B,C,D,E,J,K,N,R,S,T
Sensor adjustmentSensor transmitter matchingRTDsensorsareoneofthemostlineartemperaturemeasur-ingelements.Nevertheless,theoutputmustbelinearized.Tosignificantly improve temperature measurement accuracy,thedeviceallowstheuseoftwomethods:
• Callendar-Van-Dusen coefficients (Pt100 resistance ther-mometer)TheCallendar-Van-Dusenequationisdescribedas:RT=R0
[1+AT+BT2+C(T-100)T3]
ThecoefficientsA,BandCareused tomatchthesensor(platinum)andtransmitterinordertoimprovetheaccura-cyofthemeasuringsystem.Thecoefficientsforastandardsensor are specified in IEC 751. If no standard sensor isavailableorifgreateraccuracyisrequired,thecoefficientsforeachsensorcanbedeterminedspecificallywiththeaidofsensorcalibration.
• Linearization for copper/nickel resistance thermometers(RTD)Thepolynomialequationforcopper/nickelisasfollows:RT=R0
(1+AT+BT2)
ThecoefficientsAandBareused for the linearizationofnickelorcopperresistancethermometers(RTD).Theexactvaluesofthecoefficientsderivefromthecalibra-tiondataandarespecifictoeachsensor.
Sensor transmittermatchingusing one of themethods ex-plained above significantly improves the temperaturemea-surementaccuracyof theentiresystem.This isbecause thetransmitterusesthespecificdatapertainingtotheconnectedsensortocalculatethemeasuredtemperature,insteadofus-ingthestandardizedsensorcurvedata.
1-point adjustment (offset)Shiftsthesensorvalue
2-point adjustment (sensor trimming)Correction(slopeandoffset)ofthemeasuredsensorvalueattransmitterinput
Current trimming (current output fine adjust-ment)Correctionofthe4or20mAcurrentoutputvalue
Non-repeatability
Input
10to400Ω 15mΩ
10to2000Ω 100ppm*measuredvalue
–20to+100mV 4μV
Output
≤2μA
Influence of the supply voltage≤±0.0025%/V,withreferencetothespan
Long-term stability≤0.1°C/year(≤0.18°F/year)or≤0.05%/yearDataunderreferenceoperatingconditions.%referstothesetspan.Thelargervalueisvalid.
4
Influence of ambient temperature (temperature drift)Totaltemperaturedrift=inputtemperaturedrift+outputtemperaturedrift
Impact on accuracy when ambient temperature changes by 1 K (1.8 °F):
Input10to400Ω Typ.0.001%ofthemeasuredvalue,min.1mΩ
Input10to2000Ω Typ.0.001%ofthemeasuredvalue,min.10mΩ
Input–20to100mV Typ.0.001%ofthemeasuredvalue,min.0.2μV
Output4to20mA Typ.0.0015%ofthespan
Typical sensitivity of resistance thermometers
Pt:0.00385*Rnom/K Cu:0.0043*Rnom/K Ni:0.00617*Rnom/K
ExamplePt100:0.00385*100Ω/K=0.385Ω/K
Impact on accuracy when ambient temperature changes by 1 K (1.8 °F):
B:9μV/Kat1000°C(1832°F)
C:18μV/Kat1000°C(1832°F)
D:20μV/Kat1000°C(1832°F)
E:81μV/Kat500°C(932°F)
J:56μV/Kat500°C(932°F)
K:43μV/Kat500°C(932°F)
N:38μV/Kat500°C(932°F)
R:13μV/Kat1000°C(1832°F)
S:11μV/Kat1000°C(1832°F)
T:46μV/Kat100°C(212°F)
Example of calculating the measured error with ambient temperature drift:Inputtemperaturedrift∆ϑ=10K(18°F),Pt100,measuringrange0to100°C(32to212°F).Maximumprocesstempera-ture:100°C(212°F)Measuredresistancevalue:138.5Ω(IEC60751)atmaximumprocesstemperatureTypicaltemperaturedriftinΩ:(0.001%of138.5Ω)*10=0.01385ΩConversiontoKelvin:0.01385Ω/0.385Ω/K=0.04K(0.072°F)
Influence of the reference junction (internal cold junction)Pt100DINIEC60751Cl.B(internalcoldjunctionwithther-mocouplesTC)
Installation conditionsInstallation instructions
Fig3.Mountinglocationsforthetransmitter
Separatedfromprocessinfieldhousing,wallorpipemounting
Orientation:Norestrictions
EnvironmentAmbient temperature range–40to+85°C(–40to+185°F),forhazardousareaseeExdocu-mentationand‘Certificatesandapprovals’section(refartopage8and9)
120 mm(4.72 in)
120 mm(4.72 in)
5
Storage temperature–40to+100°C(–40to+212°F)
AltitudeUpto4000m(4374.5yards)abovemeansealevelasperIEC61010-1
Climate classAsperIEC60654-1,ClassC
Humidity• CondensationpermittedasperIEC60068-2-33• Max.rel.humidity:95%asperIEC60068-2-30
Degree of protection• IP66/67
Vibration25 to100Hz for4g (increasedvibration stress) asperGL-guidelines,chapter2,edition2003
Electromagnetic compatibility (EMC)CE complianceElectromagnetic compatibility in accordance with all therelevantrequirementsof theEN61326seriesandNAMURRecommendationEMC(NE21).DetailsareprovidedintheDeclarationofConformity.
ESD(electrostaticdischarge)
EN/IEC61000-4-2 6kVcont.,8kVair
Electromagneticfields
EN/IEC61000-4-3 0.08to2.7GHz 10V/m
Burst(fasttransients)
EN/IEC61000-4-4 2kV
Surge(surgevoltage)
EN/IEC61000-4-5 0.5kVsym.1kVasym.
ConductedRF EN/IEC61000-4-6 0.01to80MHz 10V
Measuring categoryMeasuring category II as per IEC 61010-1.Themeasuringcategoryisprovidedformeasuringonpowercircuitsthataredirectlyconnectedelectricallywiththelow-voltagenetwork.
Degree of contaminationPollutiondegree2asperIEC61010-1.
Mechanical constructionDesign, dimensionsDimensionsinmm(in).Head transmitter
24.1
(0.9
5)33 (1
.3)
Ø44
(1.7
3)
Ø7
(0.2
8)
Ø5 (0.2)
B
C
A
Fig4.Versionwithscrewterminals
A SpringtravelL≥5mm(notforUS-M4securingscrews)B FastenersforattachablemeasuredvaluedisplayC Interfaceforcontactingthemeasuredvaluedisplay
6
Field housings
Without display Specification
• Flameproof (XP) version, explosion-protected, captivescrewcap,withtwocableentries
• Temperature:–50to+150°C(–58to+302°F)forrubbersealwithoutcablegland(observemax.permittedtemperatureofthecablegland!)
• Material:aluminum;polyesterpowdercoated• Cableentryglands:½̋ NPT,M20×1.5• Headcolor:grayRAL7035• Capcolor:grayRAL7035• Weight:640g(22.6oz)
With display window in cover Specification
• Flameproof (XP) version, explosion-protected, captivescrewcap,withtwocableentries
• Temperature:–50to+150°C(–58to+302°F)forrubbersealwithoutcablegland(observemax.permittedtemperatureofthecablegland!)
• Material:aluminum;polyesterpowdercoated• Cableentryglands:½̋ NPT,M20×1.5• Headcolor:grayRAL7035• Capcolor:grayRAL7035• Weight:860g(30.33oz)
Weight• Headtransmitter:approx.40to50g(1.4to1.8oz)• Fieldhousing:seespecifications
MaterialAllmaterialsusedareRoHS-compliant.Headtransmitter• Housing:polycarbonate(PC),complieswithUL94,V-2ULrecognized• Terminals:–Screwterminals:nickel-platedbrassandgold-platedcontact–Springterminals:tin-platedbrass,contactspringV2A
• Potting:WEVOPU403FP/FLFieldhousing:seespecifications
TerminalsTerminals version Wire version Conductor cross-section
Screw terminals(withlatchesatthefieldbusterminalsforeasyconnectionofahandheldterminal)
Rigidorflexible ≤2.5mm²(14AWG)
9789
.5
50
20.5
[Unit:mm]
97 [Unit:mm]
115
50
20.5
7
Human interfaceDisplay and operating elementsTherearenodisplayoroperatingelementspresentattheheadtransmitter.Optionaltheplug-ondisplaycanbeusedinconnec-tionwiththeheadtransmitter.Itwilldisplayinformationregardingtheactualmeasuredvalueandthemeasurementpointiden-tification.Intheeventofafaultinthemeasurementchainthiswillbedisplayedininversecolorshowingthechannelidentanddiagnosticscode.DIP-switchescanbefoundontherearofthedisplay.Thisenablesthehardwareset-upsuchaswriteprotection.
Fig5.Pluggabledisplay
Iftheheadtransmitterisinstalledinafieldhousingandusedwithadisplay,ahousingwithglasswindowneedstobeused.
Remote operationTheconfigurationofHART®functionsandofdevice-specificparametersisperformedviaHART®communicationorviaCDIinterface.Specialconfigurationsystemsprovidedbyvariousmanufacturersareavailableforthispurpose.
Certificates and approvalsCE markThemeasuringsystemmeetsthelegalrequirementsoftheECguidelines.ThemanufacturerconfirmssuccessfultestingofthedevicebyaffixingtoittheCEmark.
ATEX/IECExII1G Ex ia IIC T6/T5/T4
Powersupply(terminals1+and2–) Ui≤30VdcIi≤130mAPi≤800mWCi≈0Li≈0
II3G Ex nA II T6/T5/T4
Powersupply(terminals1+and2–) U≤42Vdc
Output I=4to20mA
Temperature range Ta
withoutdisplay T6 T5 T4
Zone1,2-40to+58°C(-40to+136.4°F)-40to+75°C(-40to+167°F)-40to+85°C(-40to+185°F)
Zone0-40to+46°C(-40to+115°F)-40to+60°C(-40to+140°F)-40to+60°C(-40to+140°F)
withdisplay T6 T5 T4
-40to+55°C(-40to+131°F)-40to+70°C(-40to+158°F)-40to+85°C(-40to+185°F)
8
• II 2G Ex d IIC T6...T4 Gb• II 2D Ex tb IIIC T85 °C…T105 °C Db
Powersupply(terminals+and-) 9to32Vdc
Temperaturerange T6 T5 T4
-40°C≤Ta≤+65°C-40°C≤Ta≤+80°C-40°C≤Ta≤+85°C
Maximumsurfacetemperaturehousing T85°C T100°C T105°C
-40°C≤Ta≤+65°C-40°C≤Ta≤+80°C-40°C≤Ta≤+85°C
FM approvalLabeling:IS/I/1/ABCD/T4Ta=85°C—Entity*;NI/I/2/ABCD/T4Ta=85°C—NIFW*;I/0/AExiaIICT4Ta=85°C—Entity*;XP,NI,DIPI,II,III/1+2/A-G*=EntityandNIFWparametersinaccordancewithControlDrawings(CD)Electricalparameters:Ui≤30Vdc,Ii≤130mA,Pi≤800mWCi≈0,Li≈0
KCs (Korea)ExdIICT6TSurFace≤85°C-40°C≤Tamb≤+65°CExdIICT5TSurFace≤100°C-40°C≤Tamb≤+80°CExdIICT4CTSurFace≤105°C-40°C≤Tamb≤+85°C
Other standards and guidelines• IEC 60529:Degrees of protection provided by enclosures(IPcode)
• IEC 61010-1:2001, 2nd Edition: Safety requirements forelectricalequipmentformeasurement,controlandlabora-toryuse
• EN61326Series:Electromagneticcompatibility (EMCre-quirements)
• Guidelinesfortheperformanceoftypeapprovals,chapter2,edition2003:Vibrations
• NAMUR: International user association of automationtechnologyinprocessindustries(www.namur.de)
HART® communicationThe temperature transmitter is registered by HART® Com-munication.ThedevicemeetstherequirementsoftheHARTCommunicationProtocolSpecifications,Revision7.0.
9
Model Number Configuration TableATT082, HART model
Basic model Selections Options
AT T082 - AA +I Approval Non-hazardousarea AA
ATEXII2GExdT6,II2DExtbIIIC B6ATEXII1GExiaIICT4/T5/T6 BAFMIS,NII/1+2/A-D F1FMXP,NI,DIPI,II,III/1+2/A-G F3KCsExdT6Gb,ExtbIIICDb ΗΑIECExExdT6Gb,ExtbIIICDb I6
II Communication;OutputSignal HART7;4to20mA,2channel AIII ElectricalConnection Screwterminals 2IV FieldHousing 2entry(M20×1.5)w/odisplay D
2entry(M20×1.5)withdisplay E2entry(1/2NPT)w/odisplay F2entry(1/2NPT)withdisplay G
V ConfigurationUniversalInput Ch1:RTD2-wire,Ch2:inactive A1Ch1:RTD2-wire,Ch2:RTD2-wire A2Ch1:RTD2-wire,Ch2:RTD3-wire A3Ch1:RTD2-wire,Ch2:TC A4Ch1:RTD3-wire,Ch2:inactive B1Ch1:RTD3-wire,Ch2:RTD2-wire B2Ch1:RTD3-wire,Ch2:RTD3-wire B3Ch1:RTD3-wire,Ch2:TC B4Ch1:RTD4-wire,Ch2:inactive C1Ch1:RTD4-wire,Ch2:TC C2Ch1:TC,Ch2:inactive D1Ch1:TC,Ch2:TC D2
VI SensorTypeInput1 Pt100,-200to+850°C,min.span10K,IEC60751(a=0.00385) A1Pt200,-200to+850°C,min.span10K,IEC60751(a=0.00385) A2Pt500,-200to+500°C,min.span10KIEC60751(a=0.00385) A3Pt1000,-200to+250°C,min.span10KIEC60751(a=0.00385) A4Pt100,-200to+510°C,min.span10K,JISC1604-81(a=0.003916) B1TypB,40to1820°C,min.span500KIEC584 TBTypC(W5Re-W26Re),0to2315°C,min.span500K,ASTME988/E230 TCTypD(W3Re-W25Re),0to2315°C,min.span500K,ASTME988/E230 TDTypE,-270to+1000°C,min.span50KIEC584 TETypJ,-210to+1200°C,min.span50KIEC584 TJTypK,-270to+1372°C,min.span50KIEC584 TKTypN,-270to+1300°C,min.span50KIEC584 TNTypR,-50to+1768°C,min.span500KIEC584 TRTypS,-50to+1768°C,min.span500KIEC584 TSTypT,-260to+400°C,min.span50KIEC584 TT
VII SensorTypeInput2 Pt100,IEC60751(a=0.00385) A1Pt200,IEC60751(a=0.00385) A2Pt500,IEC60751(a=0.00385) A3Pt1000,IEC60751(a=0.00385) A4Inactive AAPt100,JISC1604-81(a=0.003916) B1TypeB,IEC584 TBTypeC(W5Re-W26Re),ASTME988/E230 TCTypeD(W3Re-W25Re),ASTME988/E230 TDTypeE,IEC584 TETypeJ,IEC584 TJTypeK,IEC584 TKTypeN,IEC584 TNTypeR,IEC584 TRTypeS,IEC584 TSTypeT,IEC584 TT
VIII Input;Interconnection PV=CH1;CH2inactive A1PV=CH1;SV=CH2 A2PV=difference;PV=CH1-CH2 A3PV=average;PV=(CH1+CH2)/2 A4Sensorbackup;PV=CH1(orCH2) A5
Options Display E1CalibrationCertificate F1Configurationalarmlimitlow H1SILdeclarationofconformity LAMountingbracketwall,316L PAMountingbracketpipe,316Ldiameter1-2” PBTagging(TAG),metalplatehanging Z1Tagging(TAG),onnameplate Z2Tagging(LONGTAG),WritetheTAGinthememory,upto32digit Z4
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Dimensions
Output SideConduit Entries
M20×1.5or1/2 NPT
M4Internal Ground Screw
57 115
21
21
89.5
94
97
5020
.5
M20×1.5or1/2 NPT
Sensor SideConduit Entries
Without DisplayWith Display[Unit: mm]
Dimensions for Mounting
Mounting to 2B Pipe
2B Pipe 120
140
120
140
(160.3 *1) (40.5 *1)
*1. Reference value of 2B Pipe
2B Pipe Bracket(Option) 139.5
45M4External Ground Screw
M4External Ground Screw
8
Mounting to Wall
4 × M612 Depth of Screw
Bracket(Option)
2 × 6.5 Hole(M6 Screw)
Fig6.Dimensions
11
Please read “Terms and Conditions” from the following URL before ordering and use.
http://www.azbil.com/products/factory/order.html
(13)
1-12-2 Kawana, FujisawaKanagawa 251-8522 Japan
http://www.azbil.com/
Specifications are subject to change without notice.
No part of this publication may be reproduced or duplicated without the prior written permission of Azbil Corporation.
1st edition: Jan. 20154th edition: Aug. 2016
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