Advanced Temperature Transmitter
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Advanced Temperature Transmitter ATT085 F OUNDATION Fieldbus™ communication Application • Temperature transmitter with 2 universal input channels and Foundation Fieldbus™ protocol for the conversion of different input signals into digital output signals • e ATT085 stands out due to signal reliability, long-term stability, high precision and advanced diagnostics (impor- tant in critical processes) • For the highest level of safety, availability and risk reduction • Universal input usable for resistance thermometer (RTD), thermocouple (TC), resistance transmitter (Ω), voltage transmitter (mV) • DIN B style transmitter to fit in the smallest terminal heads or in remote housings in accordance with DIN EN 50446 • Optional installation in field housings even for use in Ex d areas • Mounting bracket pipe or wall for the field housing Your benefits • Easy and standardized communication via Foundation Fieldbus™ H1 • Meets the EMC requirements as per NAMUR NE21 and the recommendations of NE89 with regard to temperature transmitters with digital signal processing • Straightforward design of measuring points in Ex-areas through FISCO/FNICO conformity in accordance with IEC 600079-27 • Safe operation in hazardous areas thanks to international approvals such as – FM IS, NI – ATEX Ex ia, Ex nA • for intrinsically safe installation in zone 1 and zone 2 • High accuracy through sensor-transmitter matching • Reliable operation with sensor monitoring and device hardware fault recognition • Several mounting versions and sensor connection combi- nations • Rapid no-tools wiring due to optional spring terminal tech- nology No. SS2-ATT085-0100 5th edition 1
Transcript of Advanced Temperature Transmitter
Advanced Temperature TransmitterATT085
Foundation Fieldbus™ communication
Application• Temperature transmitter with 2 universal input channelsandFoundationFieldbus™protocolfortheconversionofdifferentinputsignalsintodigitaloutputsignals
•TheATT085standsoutduetosignalreliability,long-termstability,highprecisionandadvanceddiagnostics(impor-tantincriticalprocesses)
• Forthehighestlevelofsafety,availabilityandriskreduction• Universalinputusableforresistancethermometer(RTD),thermocouple (TC), resistance transmitter (Ω), voltagetransmitter(mV)
• DINBstyletransmittertofitinthesmallestterminalheadsorinremotehousingsinaccordancewithDINEN50446
• Optional installation infieldhousings even foruse inExdareas
• Mountingbracketpipeorwallforthefieldhousing
Your benefits• Easy and standardized communication via FoundationFieldbus™H1
•Meets theEMC requirements as perNAMURNE21 andtherecommendationsofNE89withregardtotemperaturetransmitterswithdigitalsignalprocessing
• Straightforward design of measuring points in Ex-areasthrough FISCO/FNICO conformity in accordance withIEC600079-27
• Safeoperation inhazardousareas thanks to internationalapprovalssuchas
–FMIS,NI –ATEXExia,ExnA• forintrinsicallysafeinstallationinzone1andzone2• Highaccuracythroughsensor-transmittermatching• Reliable operation with sensor monitoring and devicehardwarefaultrecognition
• Severalmountingversionsandsensorconnectioncombi-nations
• Rapidno-toolswiringduetooptionalspringterminaltech-nology
No. SS2-ATT085-0100
5thedition1
InputMeasured variable Temperature(temperaturelineartransmissionbehavior),resistanceandvoltage.
Measuring rangeThetransmitterrecordsdifferentmeasuringrangesdependingonthesensorconnectionandinputsignals(see“Typeofinput“).
Type of input Itispossibletoconnecttwosensorswhichareindependentofeachother.Themeasuringinputsarenotgalvanicallyisolatedfromeachother.
Type of input Designation Measuring range limits
Resistance thermometer (RTD)
asperIEC60751(α=0.00385)
asperJISC1604-81
(α=0.003916)
Pt100
Pt200
Pt500
Pt1000
Pt100
-200to+850°C(-328to+1562°F)
-200to+850°C(-328to+1562°F)
-200to+250°C(-328to+482°F)
-200to+250°C(-238to+482°F)
-200to+649°C(-328to+1200°F)
•Connectiontype:2-wire,3-wireor4-wireconnection,sensorcurrent:≤0.3mA
•For2-wirecircuit,compensationforwireresistancepossible(0to30Ω)
•For3-wireand4-wireconnection,sensorwireresistanceuptomax.50Ωperwire
Resistance transmitter ResistanceΩ 10to400Ω
10to2000Ω
ThermocouplesThermocouples (TC)
asperIEC584,Part1
asperASTME988
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)
40to1820°C(104to3308°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)
0to2315°C(32to4199°F)
0to2315°C(32to4199°F)
•Internalcoldjunction(Pt100,ClassB)
•Externalcoldjunction:valueadjustablefrom-40to+85°C(-40to+185°F)
•Maximumsensorresistance10kΩ(ifthesensorresistanceisgreaterthan
10kΩ,anerrormessageisoutputinaccordancewithNAMURNE89)
Voltage transmitter (mV) Millivolttransmitter(mV) -20to+100mV
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When assigning both sensor inputs, the following connection combinations are possible:Sensor input 1
RTDorresistancetransmitter,2-wire
RTDorresistancetransmitter,3-wire
RTDorresistancetransmitter,4-wire
Thermocouple(TC),voltagetransmitter
Sensor input 2
RTDorresistancetransmitter,2-wire -
RTDorresistancetransmitter,3-wire -
RTDorresistancetransmitter,4-wire - - - -
Thermocouple(TC),voltagetransmitter
OutputOutput signal
• FoundationFieldbus™H1,IEC61158-2• FDE(FaultDisconnectionElectronic)=0mA• Datatransmissionrate:supportedbaudrate=31.25kBit/s• Signalcoding=ManchesterII• Outputdata:AvailablevaluesviaAIblocks:temperature(PV),tempsensor1+2,terminaltemperature
• LAS(linkactivescheduler),LM(linkmaster)functionissupported:Thus,theheadtransmittercanassumethefunctionofalinkactivescheduler(LAS)ifthecurrentlinkmaster(LM)isnolongeravailable.ThedeviceissuppliedasaBASICdevice.TousethedeviceasanLAS,thismustbedefinedinthedistributedcontrolsystemandactivatedbydown-loadingtheconfigurationtothedevice.
• InaccordancewithIEC60079-27,FISCO/FNICO
Breakdown informationStatusmessage in accordance with Foundation Fieldbus™specification.
Linearization/transmission behaviorTemperaturelinear,resistancelinear,voltagelinear
Mains voltage filter50/60Hz
Galvanic isolationU=2kVAC(sensorinputtotheoutput)
Current consumption≤11mA
Switch-on delay8s
Data of the Foundation Fieldbus interfaceBasic Data
DeviceType 10CE
DeviceRevision 02
Nodeaddress Default:247
ITKVersion 5.0.1
ITK-CertificationDriver-No. IT050600
LinkMaster(LAS)capable yes
Link Master / Basic Device
selectable
yes;Default:BasicDevice
NumberVCRs 44
Number of Link-Objects in
VFD
50
Virtual communication references (VCRs)
PermanentEntries 44
ClientVCRs 0
ServerVCRs 5
SourceVCRs 8
SinkVCRs 0
SubscriberVCRs 12
PublisherVCRs 19
Basic Data
Slottime 4
Min.InterPDUdelay 12
Max.responsedelay*slottime 40
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Blocks
Block description Block index*1 Execution time(macro cycle ≤ 500 ms)
Block class
ResourceBlock 400 - Extended
TransducerBlockSensor1 500 - Manufacturer-specific
TransducerBlockSensor2 600 - Manufacturer-specific
TransducerBlockDisplay 700 - Manufacturer-specific
TransducerBlockAdv.Diag. 800 - Manufacturer-specific
FunctionblockAI1 900 35ms Extended
FunctionblockAI2 1000 35ms Extended
FunctionblockAI3 1100 35ms Extended
FunctionblockAI4 (1200) 35ms(notinstantiated) Extended
FunctionblockAI5 (1300) 35ms(notinstantiated) Extended
FunctionblockAI6 (1400) 35ms(notinstantiated) Extended
FunctionblockPID 1200(1500) 100ms Standard
FunctionblockISEL 1300(1600) 35ms Standard
*1.ThevaluesinbracketsarevalidifalltheAIblocks(AI1-AI6)areinstantiated.
Brief description of the blocksResource BlockTheResourceBlock contains all the data that clearly iden-tifyandcharacterizethedevice.Itislikeanelectronicdevicenameplate.Inadditiontoparametersthatareneededtooper-atethedeviceonthefieldbus,theResourceBlockalsomakesotherinformationavailablesuchastheordercode,deviceID,hardwarerevision,softwarerevision,devicereleaseetc.
Transducer Block “Sensor 1” and “Sensor 2”TheTransducerBlocksoftheheadtransmittercontainallthemeasurement-relatedanddevice-specificparametersthatarerelevantformeasuringtheinputvariables.
Display TransducerTheparametersofthe“Display”TransducerBlockallowtheconfigurationoftheoptionaldisplay.
Advanced DiagnosticAll theparameters forautomaticmonitoringanddiagnosisaregroupedtogetherinthisTransducerBlock.
Analog Input (AI)In the AI function block, the process variables from theTransducerBlocks areprepared for subsequent automationfunctionsinthecontrolsystem(e.g.scaling,limitvaluepro-cessing).
PIDThisfunctionblockcontainsinputchannelprocessing,pro-portionalintegral-differentialcontrol(PID)andanalogout-putchannelprocessing.Thefollowingcanbeimplemented:basiccontrols,feedforwardcontrol,cascadecontrolandcas-cadecontrolwithlimiting.
Input Selector (ISEL)Theblockforselectingasignal(InputSelectorBlock-ISEL)allowstheusertochooseuptofourinputsandgeneratesanoutputbasedontheconfiguredaction.
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Power supplyElectrical connection
-
+
+1
-2
7
6
5
4
3
1
2
76
5
4
3
Sensor input 2 Sensor input 1Bus connection
and supply voltage
Display connection/service interface
TC, mV
RTD, 4-, 3- and 2-wire:ΩRTD, Ω: 3- and 2-wire
TC, mV
white
red
red
white
white
red
red
Fig1.Terminalassignmentofheadtransmitter.
Supply voltageU=9to32VDC,polarityindependent(max.voltageUb=35V)
Performance characteristicsResponse time1sperchannel
Reference operating conditions•Calibrationtemperature:+25°C±5K(77°F±9°F)•Supplyvoltage:24VDC•4-wirecircuitforresistanceadjustment
ResolutionResolutionA/Dconverter=18bit
Maximum measured errorTheaccuracydataaretypicalvaluesandcorrespondtoastan-darddeviationof±3σ(normaldistribution),i.e.99.8%ofallthemeasuredvaluesachievethegivenvaluesorbettervalues.
Execution time(macro cycle ≤ 500
ms)Block class
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°C(1.8°F)
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)
Thermocouples(TC)
Type:K,J,T,EType:N,C,DType:S,B,R
typ.0.25°C(0.45°F)typ.0.5°C(0.9°F)typ.1.0°C(1.8°F)
Measuring range Performance characteristics
Resistancetransmitters(Ω)
10to400Ω10to2000Ω
±0.04Ω±0.8Ω
Voltagetransmitters(mV)
-20to100mV ±10μV
Sensor transmitter matchingRTDsensorsareoneofthemostlineartemperaturemeasur-ingelements.Nevertheless,theoutputmustbelinearized.Toimprove temperature measurement accuracy significantly,thedeviceenablestheuseoftwomethods:
• Callendar-VanDusen coefficients (Pt100 resistance ther-mometer)TheCallendar-VanDusenequationisdescribedas:
ThecoefficientsA,BandCareused tomatchthesensor(platinum)andtransmitterinordertoimprovetheaccura-cyofthemeasuringsystem.Thecoefficientsforastandardsensor are specified in IEC 751. If no standard sensor isavailableorifgreateraccuracyisrequired,thecoefficientsforeachsensorcanbedeterminedspecificallybymeansofsensorcalibration.
• Linearization for copper/nickel resistance thermometers(RTD)Thepolynomialequationsfornickelaredescribedas:
Theequations for copper, subject to temperature, arede-scribedas:
T=-50to+200°C(-58to+392°F)
T=-180to-50°C(-292to-58°F)
ThesecoefficientsA,BandCareusedforthelinearization
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ofnickelorcopperresistancethermometers(RTD).Theexactvaluesofthecoefficientsderivefromthecalibrationdataandarespecifictoeachsensor.
Sensortransmittermatchingusingoneoftheabove-namedmethods significantly improves the temperature measure-mentaccuracyoftheentiresystem.Thisisduetothefactthattocalculate thetemperaturemeasured, thetransmitterusesthespecificdatapertainingtotheconnectedsensorinsteadofusingthestandardizedsensorcurvedata.
Non-repeatabilityAsperEN61298-2
Physical input measuring range of sensors
Non-repeatability
10to400Ω Pt100 15mΩ
10to2000Ω Pt200,Pt500,Pt1000 100ppm×measuredvalue
-20to+100mV Thermocouplestype:C,D,E,J,K,N
4μV
-5to+30mV Thermocouplestype:B,R,S,T
3μV
Long-term stability≤0.1°C/year(≤0.18°F/year)inreferenceoperatingconditions
Influence of ambient temperature (tempera-ture drift)
Impact on accuracy when ambient temperature changes by 1 K (1.8 °F):
Input10to400Ω 0.001%ofthemeasuredvalue,min.1mΩ
Input10to2000Ω 0.001%ofthemeasuredvalue,min.10mΩ
Input-20to+100mV 0.001%ofthemeasuredvalue,min.0.2μV
Input-5to+30mV 0.001%ofthemeasuredvalue,min.0.2μV
Typical sensitivity of resistance thermometers
Pt:0.00385*Rnom/K Cu:0.0043*Rnom/K Ni:0.00617*Rnom/K
ExamplePt100:0.00385x100Ω/K=0.385Ω/K
Typical sensitivity of thermocouples
B:10μV/K C:20μV/K D:20μV/K E:75μV/K J:55μV/K K:40μV/K
L:55μV/K N:35μV/K R:12μV/K S:12μV/K T:50μV/K U:60μV/K
Exampleofcalculatingthemeasurederrorwithambienttem-peraturedrift:
• Inputtemperaturedriftϑ=10K(18°F),Pt100,measuringrange0to100°C(32to212°F)
• Maximumprocesstemperature:100°C(212°F)• Measured resistance value: 138.5 Ω (DIN EN 60751) atmaximumprocesstemperature
TypicaltemperaturedriftinΩ:(0.001%of138.5Ω)*10=0.01385ΩConversiontoKelvin:0.01385Ω/0.385Ω/K=0.04K(0.054°F)
Influence of reference point (cold junction)Pt100DINEN60751Cl.B,internalreferencepointforther-mocouplesTC
Installation conditionsInstallation instructions• Mountinglocation:
120 mm(4.72 in)
120 mm(4.72 in)
Fig2.Separatedfromprocessinfieldhousing,wallorpipemounting
• Orientation:Norestrictions
Environment conditionsAmbient temperature range-40 to+85 °C (-40 to+185 °F), forhazardousareas seeExdocumentationand“Approvals”section.
Storage temperature-40to+100°C(-40to+212°F)
Altitudeupto4000m(4374.5yd)abovemeansealevelinaccordancewithIEC61010-1,CSA1010.1-92
Climate classasperIEC60654-1,ClassC
Humidity• CondensationasperIEC60068-2-33permitted• Max.rel.humidity:95%asperIEC60068-2-30
Degree of protection • IP66/67
Shock and vibration resistance10to2000Hzfor5gasperIEC60068-2-6
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Electromagnetic compatibility (EMC)CE EMC complianceThedevicemeetsalloftherequirementsmentionedinIEC61326-1,2007andNAMURNE21:2006.Thisrecommendationisaconsistentdeterminationwhetherthedevicesused in laboratoriesand inprocesscontrol sys-temsareimmunetointerference,thusincreasingtheirfunc-tionalsafety.
ESD (electrostatic discharge)
IEC61000-4-2 6kVcont.,8kVair
Electromagneticfields
IEC61000-4-3 0.08to4GHz 10V/m
Burst(fasttransients)
IEC61000-4-4 1kV
Surge IEC61000-4-5 1kVasym.
ConductedRF IEC61000-4-6 0.01to80MHz 10V
Measuring categoryMeasuring category II as per IEC 61010-1.Themeasuringcategoryisprovidedformeasuringonpowercircuitsthataredirectlyconnectedelectricallywiththelow-voltagenetwork.
Degree of contaminationPollutiondegree2asperIEC61010-1.
Mechanical constructionDesign, dimensionsSpecificationsinmm(in)Head transmitter
B
C
A
Fig3.Modelwithscrewterminals
Pos.A: Spring rangeL≥5mm(not applicable toUS -M4mountingscrews)Pos.B:FixingelementsfordetachablemeasuredvaluedisplayPos.C:Interfaceforcontactingmeasuredvaluedisplay
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Field housings
without display Specification
97 [Unit: mm]
89.5
50
20.5
• Flameproof(XP)version,explosion-protected,captivescrewcap,withtwocableentries
• Temperature:-50to+150°C(-58to+302°F)forrubber• sealwithoutcablegland(observemax.permittedtemperatureofthecablegland!)
• Material:aluminum;polyesterpowdercoated• Cableentryglands:1/2"NPT,M20×1.5• Headcolor:grayRAL7035• Capcolor:grayRAL7035•Weight:640g(22.6oz)
with display window in cover Specification
97
115
50
20.5
[Unit: mm]• Flameproof(XP)version,explosion-protected,captivescrewcap,withtwocableentries
• Temperature:-50to+150°C(-58to+302°F)forrubbersealwithoutcablegland(observemax.permittedtemperatureofthecablegland!)
• Material:aluminum;polyesterpowdercoated• Cableentryglands:1/2"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), complies with UL94 HBflammabilitystandard(HB:horizontalburningtest)
• Terminals Screwterminals:Nickel-platedbrassandgold-platedcontactSpringterminals:Tin-platedbrass,contactspringV2A
• Potting:WEVOPU 403 FP / FL, according toUL94V0flammabilitystandard(V0:verticalburningtest)
Fieldhousing:seespecifications
Terminals
Terminals versionWire
versionConductor
cross-section
Screw terminals(withlatchesatthefieldbusterminalsforeasyconnectionofahandheldterminal)
Rigidorflexible
≤2.5mm2(14AWG)
Noferruleshavetobeusedwhenconnectingflexiblewirestospringterminals.
Human interfaceDisplay and operating elementsThere are no display or operating elements present at theheadtransmitter.Optionaltheplug-ondisplaycanbeusedinconnectionwiththeheadtransmitter.Itwilldisplayinformationregardingtheactualmeasuredvalueandthemeasurementpointidentifica-tion.Intheeventofafaultinthemeasurementchainthiswillbedisplayedininversecolorshowingthechannelidentifica-tionanddiagnosticscode.DIP-switchescanbefoundontherearofthedisplay.Thisenablesthehardwareset-upsuchastheFoundationFieldbus™hardwarewriteprotection.
Fig4.Pluggabledisplay
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Ifthetransmitterisinstalledinafieldhousingandusedwithadisplay,ahousingwithglasswindowneedstobeused.Remote operationTheconfigurationofFoundationFieldbus™functionsandof
device-specificparametersisperformedviafieldbuscommu-nication.Specialconfigurationsystemsprovidedbyvariousmanufacturersareavailableforthispurpose.
Certificates and approvalsCE-MarkThedevicemeetsthelegalrequirementsoftheECdirectives.ThedevicehasbeensuccessfullytestedbyapplyingtheCEmark.
Hazardous area approvalsATEX/IECEx approval
ATT085 ATEX II 1G Ex ia IIC T6/T5/T4
Powersupply(Terminals+and-) Ui≤17.5VDCIi≤500mACi≤5nFLi=negligiblysmall
or Ui≤24VDCIi≤250mA
SuitableforconnectingtoafieldbussystemaspertheFISCO/FNICOmodel
Sensorcircuit(Terminals3to7) U0≤7.2VDCI0≤25.9mAP0≤46.7mWCi=negligiblysmallLi=negligiblysmall
Max.connectiondata ExiaIICExiaIIBExiaIIA
L0=20mHL0=50mHL0=100mH
C0=0.7μFC0=4.6μFC0=6.0μF
TemperaturerangeT6T5T4
Zone1,2:Ta=-40to+55°C(-40to+130°F)Ta=-40to+70°C(-40to+158°F)Ta=-40to+85°C(-40to+185°F)
Zone0:Ta=-20to+40°C(-4to+104°F)Ta=-20to+50°C(-4to+122°F)Ta=-20to+60°C(-4to+140°F)
Application:• Equipmentcategory:potentiallyexplosivegasandairmixtures(G)• Category1zone0,1or2
Forzone0:potentiallyexplosivesteamandairmixturesmayonlyoccurunderfollowingatmosphericconditions:• -20°C≤Ta≤+60°C(-4°F≤Ta≤+140°F)• 0.8bar≤p≤1.1bar(11.6psi≤p≤16psi)
ATT085
ATEX• II 2G Ex d IIC T6…T4 Gb• II 2D Ex tb IIIC T85 °C…T105 °C Db
IECEx• Ex d IIC T6…T4 Gb• Ex tb IIIC T85 °C…T105 °C Db
Powersupply(terminals+and-) U≤35VDC
Output FoundationFieldbus™Currentconsumption≤11mA
Temperaturerange T6T5T4
-40°C≤Ta≤+65°C-40°C≤Ta≤+80°C-40°C≤Ta≤+85°C
Maximumsurfacetemperaturehousing T85°CT100°CT105°C
-40°C≤Ta≤+65°C-40°C≤Ta≤+80°C-40°C≤Ta≤+85°C
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ATT085ATEX II 3G Ex nA II T6/T5/T4ATEX II 3D
Powersupply(terminals+and-) U≤35VDC
Output FoundationFieldbus™Currentconsumption≤11mA
Temperaturerange T6T5T4
Ta=-40to+55°C(-40to+130°F)Ta=-40to+70°C(-40to+158°F)Ta=-40to+85°C(-40to+185°F)
Application(ATEXII3GExnAIIT6/T5/T4):• Equipmentcategory:potentiallyexplosivegasandairmix-tures(G)
• Categoryzone2
Application(ATEXII3D):• Equipment category: potentially explosive dust and airmixtures(D)
• Categoryzone22
FM approvalLabeling:IS/I/1/ABCD/T4,Entity*orFISCO*;I/0/AExiaIIC/T4Ta,Entity*orFISCO*NI/I/2/ABCD/T4,NIFW*orFNICO*;FMXP,NI,DIPI,II,III/1+2/A-G*=Entity, FISCO,NIFWandFNICOparameters in accor-dancewithcontroldrawings
ForelectricalparametersseetableonATEXapprovalATEXII1G
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• IEC60529:Degreesofprotectionthroughhousing(IPcode)
• IEC61158-2:Fieldbusstandard
• IEC61326-1:2007:Electromagneticcompatibility(EMCrequirements)
• IEC60068-2-27andIEC60068-2-6:Shockandvibrationresistance
• NAMURInternationaluserassociationofautomationtechnologyinprocessindustries
Certification Foundation Fieldbus™ThetemperaturetransmitteriscertifiedandregisteredbytheFieldbusFoundation.Thedevicethusmeetsalltherequire-mentsofthespecificationsfollowing:• CertifiedaccordingtoFoundationFieldbus™specification•ThedevicemeetsallthespecificationsoftheFoundationFieldbus™H1
• InteroperabilityTestKit(ITK),revisionstatus5.0.1(devicecertificationno.availableonrequest): thedevicecanalsobeoperatedwithcertifieddevicesofothermanufacturers
• PhysicallayerconformancetestoftheFoundationField-bus™(FF-830FS1.0)
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Model Number Configuration Table
Basic model Options-AA-580TTA
I Approval: Non-hazardous area A1ATEX II1G Ex ia IIC T4/T5/T6 B1ATEX II2G Ex d IICT6, II2D Ex tb IIIC B6FM IS, NI I/1+2/ABCD C1FM XP, NI, DIP I, II, III/1+2/A-G F3KCs Ex d T6 Gb, Ex tb IIIC Db HAIECEx Ex d T6 Gb, Ex tb IIIC Db I6
II Communication; Output Signal: Foundation Fieldbus H1 AIII Electrical Connection: 2slanimret wercSIV Field Housing: 2 entry (M20x1.5) w/o display D
2 entry (M20x1.5) with display E2 entry (1/2NPT) w/o display F
Gyalpsid htiw )TPN2/1( yrtne 2
Options Configuration Universal Input *1 Ch1: RTD 2-wire, Ch2: inactive A1( You may select only one from Ch1: RTD 2-wire, Ch2: RTD 2-wire A2 this part.) Ch1: RTD 2-wire, Ch2: RTD 3-wire A3
Ch1: RTD 2-wire, Ch2: TC A41Bevitcani :2hC ,eriw-3 DTR :1hC2Beriw-2 DTR :2hC ,eriw-3 DTR :1hC3Beriw-3 DTR :2hC ,eriw-3 DTR :1hC4BCT :2hC ,eriw-3 DTR :1hC1Cevitcani :2hC ,eriw-4 DTR :1hC2CCT :2hC ,eriw-4 DTR :1hC1Devitcani :2hC ,CT :1hC2DCT :2hC ,CT :1hC
Display E1Calibration certificate *2 F1Configuration alarm limit low H1Mounting bracket wall, 316L PA
PBTagging (TAG), metal plate Z1Tagging (TAG), on name p 2ZetalTagging (Long TAG) 4Zeht ni etirw ,Bus adress, write in the memory Z5
*1: If you do not select "Configuration Universal Input", shipped by default with Ch1: RTD 3-wire; Ch2:*2: If you do not select "Configuration Universal Input", calibration done by Ch1: RTD 3-wire.
Selections
Mounting bracket pipe, 316L diameter 1-2"
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Dimensions
Fig5.Dimensions
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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. 20155th edition: Aug. 2016
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