operating instructions process pressure transmitter ipt-1* · operating instructions process...
TRANSCRIPT
Operating Instructions
Process pressure transmitter IPT-1*
Process pressure transmitter IPT-1*
Foundation FieldbusVersion 2.0
2
Contents
WIKA Operating Instructions - Process pressure transmitter IPT-1*
Contents1 About this document
1.1 Function ........................................................................................................................... 41.2 Target group ..................................................................................................................... 41.3 Symbolism used ............................................................................................................... 4
2 For your safety2.1 Authorised personnel ....................................................................................................... 52.2 Appropriate use ................................................................................................................ 52.3 Warning about incorrect use ............................................................................................. 52.4 General safety instructions ............................................................................................... 52.5 Safety label on the instrument .......................................................................................... 52.6 CE conformity ................................................................................................................... 62.7 Measuring range - permissible process pressure ............................................................. 62.8 FulfillmentofNAMURrecommendations ......................................................................... 62.9 Safety instructions for Ex areas ........................................................................................ 6
3 Product description3.1 Configuration .................................................................................................................... 73.2 Principle of operation........................................................................................................ 83.3 Adjustment ....................................................................................................................... 93.4 Packaging, transport and storage ..................................................................................... 9
4 Mounting4.1 General instructions ....................................................................................................... 114.2 Mounting steps ............................................................................................................... 12
5 Connecting to power supply5.1 Preparing the connection ............................................................................................... 145.2 Connection procedure .................................................................................................... 155.3 Single chamber housing ................................................................................................. 165.4 Wiring plan, double chamber housing ............................................................................ 165.5 Double chamber housing Ex d ....................................................................................... 185.6 Wiring plan, external housing with version IP 68 ............................................................. 205.7 Switch-on phase............................................................................................................. 21
6 Set up with the display and adjustment module6.1 Short description ............................................................................................................ 236.2 Insert display and adjustment module ............................................................................ 236.3 Adjustment system ......................................................................................................... 246.4 Setup steps .................................................................................................................... 256.5 Menu schematic ............................................................................................................. 336.10 Saving the parameter adjustment data ........................................................................... 34
7 Setup with the adjustment program AMS™7.1 Parameter adjustment with AMS™................................................................................. 36
8 Maintenanceandfaultrectification8.1 Maintenance .................................................................................................................. 378.2 Rectifyfaults ................................................................................................................... 378.3 Instrument repair ............................................................................................................ 38
9 Dismounting9.1 Dismounting steps.......................................................................................................... 39
3
Contents
WIKA Operating Instructions - Process pressure transmitter IPT-1*
9.2 Disposal ......................................................................................................................... 39
10 Supplement10.1 Technical data ................................................................................................................ 4010.2 Information on Foundation Fieldbus ............................................................................... 4810.3 Dimensions .................................................................................................................... 51
Supplementary documentationInformation:Supplementary documents appropriate to the ordered version come withthedelivery.Youcanfindthemlistedinchapter"Product descrip-tion".Editing status: 2013-06-05
4
1 About this document
WIKA Operating Instructions - Process pressure transmitter IPT-1*
1 About this document
1.1 FunctionThis operating instructions manual provides all the information you need for mounting, connection and setup as well as important instruc-tionsformaintenanceandfaultrectification.Pleasereadthisinforma-tion before putting the instrument into operation and keep this manual accessible in the immediate vicinity of the device.
1.2 Target groupThis operating instructions manual is directed to trained specialist personnel. The contents of this manual should be made available to these personnel and put into practice by them.
1.3 Symbolism usedInformation, tip, noteThis symbol indicates helpful additional information.Caution: If this warning is ignored, faults or malfunctions can result.Warning: If this warning is ignored, injury to persons and/or serious damage to the instrument can result.Danger: If this warning is ignored, serious injury to persons and/or destruction of the instrument can result.
Ex applicationsThis symbol indicates special instructions for Ex applications.
• ListThe dot set in front indicates a list with no implied sequence.
→ ActionThis arrow indicates a single action.
1 Sequence of actionsNumberssetinfrontindicatesuccessivestepsinaprocedure.
Battery disposalThis symbol indicates special information about the disposal of bat-teries and accumulators.
5
2 For your safety
WIKA Operating Instructions - Process pressure transmitter IPT-1*
2 For your safety
2.1 Authorised personnelAll operations described in this operating instructions manual must be carried out only by trained specialist personnel authorised by the plant operator.During work on and with the device the required personal protective equipment must always be worn.
2.2 Appropriate useIPT-1* Vers. 2.0 is a pressure transmitter for measurement of gauge pressure, absolute pressure and vacuum. Youcanfinddetailedinformationontheapplicationrangeinchapter"Product description".Operational reliability is ensured only if the instrument is properly usedaccordingtothespecificationsintheoperatinginstructionsmanual as well as possible supplementary instructions.For safety and warranty reasons, any invasive work on the device beyond that described in the operating instructions manual may be carried out only by personnel authorised by the manufacturer. Arbi-traryconversionsormodificationsareexplicitlyforbidden.
2.3 Warning about incorrect useInappropriate or incorrect use of the instrument can give rise to application-specifichazards,e.g.vesseloverfillordamagetosystemcomponents through incorrect mounting or adjustment.
2.4 General safety instructionsThis is a high-tech instrument requiring the strict observance of stand-ard regulations and guidelines. The user must take note of the safety instructionsinthisoperatinginstructionsmanual,thecountry-specificinstallation standards as well as all prevailing safety regulations and accident prevention rules.Theinstrumentmustonlybeoperatedinatechnicallyflawlessandreliable condition. The operator is responsible for trouble-free opera-tion of the instrument.During the entire duration of use, the user is obliged to determine the compliance of the necessary occupational safety measures with the current valid rules and regulations and also take note of new regula-tions.
2.5 Safety label on the instrumentThe safety approval markings and safety tips on the device must be observed.
6
2 For your safety
WIKA Operating Instructions - Process pressure transmitter IPT-1*
2.6 CE conformityThedevicefulfillsthelegalrequirementsoftheapplicableECguide-lines.ByaffixingtheCEmarking,weconfirmsuccessfultestingoftheproduct.
2.7 Measuring range - permissible process pressure
Due to the application, a measuring cell with a measuring range higherthanthepermissiblepressurerangeoftheprocessfittingmayhave been integrated. The permissible process pressure is stated with "Processpressure"onthetypelabel,seechapter3.1"Configuration".For safety reasons, this range must not be exceeded.
2.8 FulfillmentofNAMURrecommendationsNAMURistheautomationtechnologyuserassociationintheprocessindustryinGermany.ThepublishedNAMURrecommendationsareacceptedasthestandardinfieldinstrumentation.ThedevicefulfillstherequirementsofthefollowingNAMURrecom-mendations:
• NE21–Electromagneticcompatibilityofequipment• NE43–Signallevelformalfunctioninformationfrommeasuring
transducers• NE53–Compatibilityoffielddevicesanddisplay/adjustment
components
For further information see www.namur.de.
2.9 Safety instructions for Ex areasPleasenotetheEx-specificsafetyinformationforinstallationandop-eration in Ex areas. These safety instructions are part of the operating instructions manual and come with the Ex-approved instruments.
7
3 Product description
WIKA Operating Instructions - Process pressure transmitter IPT-1*
3 Product description
3.1 ConfigurationThe scope of delivery encompasses:
• IPT-1* Vers. 2.0 pressure transmitter• Documentation
– this operating instructions manual – Testcertificateforpressuretransmitters – Operatinginstructionsmanual"Display and adjustment mod-
ule"(optional) – Supplementaryinstructionsmanual"Plug connector for con-
tinuously measuring sensors"(optional) – Ex-specific"Safety instructions"(withExversions) – ifnecessary,furthercertificates
The IPT-1* Vers. 2.0 consists of the components:
• Processfittingwithmeasuringcell• Housing with electronics, optionally available with plug connector• Housing cover, optionally available with display and adjustment
module
Thecomponentsareavailableindifferentversions.
1
2
3
Fig. 1: Example of a IPT-1* Vers. 2.0 with manometer connection G½ A accord-ing to EN 837 and plastic housing1 Housing cover with integrated display and adjustment module (optional)2 Housing with electronics3 Process fitting with measuring cell
Thenameplatecontainsthemostimportantdataforidentificationanduse of the instrument:
Scope of delivery
Constituent parts
Type plate
8
3 Product description
WIKA Operating Instructions - Process pressure transmitter IPT-1*
1
9
10234
5678
Fig. 2: Layout of the type label (example)1 Instrument type2 Approvals3 Measuring range4 Electronics5 Process pressure6 Seal material/Process temperature7 Product code8 Order number9 Serial number of the instrument10 ID numbers, instrument documentation
This operating instructions manual applies to the following instrument versions:
• Software from 3.82.
3.2 Principle of operationIPT-1* Vers. 2.0 is a pressure transmitter for use in the paper, food processing and pharmaceutical industries as well as in water/sewage water plants. Depending on the version, it is used for level, gauge, absolute pressure or vacuum measurement. Measured products are gases, vapours and liquids, also those containing abrasive sub-stances.
Thesensorelementisameasuringcellwithrobust,front-flush(dependingontheprocessfitting),abrasion-resistantceramicdia-phragm. The process pressure causes a capacitance change in the measuring cell via the ceramic diaphragm. This change is converted into an appropriate output signal and outputted as measured value.The measuring cell is also equipped with a temperature sensor. The temperature value can be displayed via the display and adjustment moduleaswellasprocessedviathesignaloutput(withdigitalver-sions).
As a standard feature, the ceramic measuring cell is equipped with a lateral, recessed seal.Instruments with double seal have an additional front seal.Instrumentswithhygienicfittingareequippedwithagap-freeformseal.
Scope of this operating instructions manual
Application area
Functional principle
Seal concept
9
3 Product description
WIKA Operating Instructions - Process pressure transmitter IPT-1*
Power is supplied via the H1 Fieldbus. A two-wire cable according to Fieldbusspecificationservesascarrierofbothpoweranddigitaldatafor multiple sensors. This cable can be operated in two versions:
• via an H1 interface card in the control system and additional power supply
• viaaLinkingdevicewithHSE(HighspeedEthernet)andaddi-tional power supply according to IEC 61158-2
TheDD(DeviceDescriptions)andCFF(capabilityfiles)necessaryforplanningandconfigurationofyourFF(FoundationFieldbus)com-munication network are available in the download area of the WIKA homepage www.wika.comunder"Services".Theappropriatecer-tificatesarealsoavailablethere.ACDwiththeappropriatefilesandcertificatescanbeorderedbyphonefromoneoftheWIKAagencies.The backlight of the display and adjustment module is powered by the sensor. Prerequisite is a certain level of operating voltage.Thedataforpowersupplyarespecifiedinchapter"Technical data".
3.3 AdjustmentThe instrument can be adjusted with the following adjustment media:
• With the display and adjustment module• aconfigurationtoolThe entered parameters are generally saved in IPT-1* Vers. 2.0 , optionally also in the indicating/adjustment module.
3.4 Packaging, transport and storageYour instrument was protected by packaging during transport. Its capacity to handle normal loads during transport is assured by a test based on ISO 4180.The packaging of standard instruments consists of environment-friendly, recyclable cardboard. For special versions, PE foam or PE foil is also used. Dispose of the packaging material via specialised recycling companies.
Transport must be carried out under consideration of the notes on the transportpackaging.Nonobservanceoftheseinstructionscancausedamage to the device.
The delivery must be checked for completeness and possible transit damage immediately at receipt. Ascertained transit damage or con-cealed defects must be appropriately dealt with.
Uptothetimeofinstallation,thepackagesmustbeleftclosedandstored according to the orientation and storage markings on the outside.Unlessotherwiseindicated,thepackagesmustbestoredonlyunderthe following conditions:
• Notintheopen• Dry and dust free
Power supply and bus communication
DD/CFF
Packaging
Transport
Transport inspection
Storage
10
3 Product description
WIKA Operating Instructions - Process pressure transmitter IPT-1*
• Notexposedtocorrosivemedia• Protected against solar radiation• Avoiding mechanical shock and vibration
• Storageandtransporttemperatureseechapter"Supplement - Technical data - Ambient conditions"
• Relativehumidity20…85%Storage and transport temperature
11
4 Mounting
WIKA Operating Instructions - Process pressure transmitter IPT-1*
4 Mounting
4.1 General instructionsMake sure that all parts of the instrument coming in direct contact with the process, especially the sensor element, process seal and processfitting,aresuitablefortheexistingprocessconditions,suchas process pressure, process temperature as well as the chemical properties of the medium.Youcanfindthespecificationsinchapter"Technical data"andonthenameplate.
Select an installation position you can easily reach for mounting and connectingaswellaslaterretrofittingofadisplayandadjustmentmodule. The housing can be rotated by 330° without the use of any tools. You can also install the display and adjustment module in four differentpositions(eachdisplacedby90°).
Usetherecommendedcables(seechapter"Connecting to power supply")andtightenthecablegland.You can give your instrument additional protection against moisture penetration by leading the connection cable downward in front of the cableentry.Rainandcondensationwatercanthusdrainoff.Thisap-plies mainly to outdoor mounting as well as installation in areas where highhumidityisexpected(e.g.throughcleaningprocesses)oroncooled or heated vessels.
Fig. 3: Measures against moisture penetration
The ventilation of the electronics housing as well as the atmospheric pressurecompensationforthemeasuringcellarerealisedviaafilterelement in the area of the cable gland.
Suitability for the process conditions
Installation position
Moisture
Ventilation and pressure compensation
12
4 Mounting
WIKA Operating Instructions - Process pressure transmitter IPT-1*
2
1
1
Fig. 4: Position of the filter element1 Filter element2 Blind plug
Caution:Duetothefiltereffect,thepressurecompensationistimedelayed.When opening/closing the housing cover quickly, the measured value can change for a period of approx. 5 s by up to 15 mbar.
Information:Makesurethatthefilterelementisalwaysfreeofbuildupduringoperation. A high-pressure cleaner may not be used for cleaning.With instrument versions in protection IP 66/IP 68, 1 bar, the ventila-tion is realised via the capillaries in the permanently connected cable. Thefilterelementisreplacedbyablindplug.
Higher process temperatures often mean also higher ambient temperatures. Make sure that the upper temperature limits stated in chapter"Technical data"fortheenvironmentoftheelectronicshous-ing and connection cable are not exceeded.
1
2
Fig. 5: Temperature ranges1 Process temperature2 Ambient temperature
4.2 Mounting stepsFor mounting IPT-1* Vers. 2.0 , a welded socket is required. You can findthesecomponentsinthesupplementaryinstructionsmanual"Welded socket and seals".
Temperature limits
Welding the socket
13
4 Mounting
WIKA Operating Instructions - Process pressure transmitter IPT-1*
Usethesealfittingbelongingtotheinstrument,orincaseofNPTconnections, a high-resistance sealing material.
→ Screw IPT-1* Vers. 2.0 into the welded socket. Tighten the hexa-gonontheprocessfittingwithasuitablewrench.Wrenchsize,seechapter"Dimensions".
Warning:The housing must not be used to screw the instrument in! Applying tightening force can damage internal parts of the housing.
Usethesealsuitablefortherespectiveprocessfitting.Youcanfindthecomponentsinthesupplementaryinstructionsmanual"Welded socket and seals".
Sealing/Screwing in threaded versions
Sealing/Screwing in hygienicfittings
14
5 Connecting to power supply
WIKA Operating Instructions - Process pressure transmitter IPT-1*
5 Connecting to power supply
5.1 Preparing the connectionAlways keep in mind the following safety instructions:
• Connect only in the complete absence of line voltage• If overvoltage surges are expected, overvoltage arresters should
beinstalledaccordingtoFieldbusspecifications
Inhazardousareasyoumusttakenoteoftherespectiveregulations,conformityandtypeapprovalcertificatesofthesensorsandpowersupply units.
IPT-1*Vers.2.0requiresasupplyvoltageof9…24VDC.Supplyvoltage and the digital bus signal are carried on the same two-wire connection cable. Power is supplied via the H1 power supply.
IPT-1* Vers. 2.0 is connected with screened cable according to Field-busspecification.Usecablewithroundcross-section.Acableouterdiameterof5…9mm(0.2…0.35in)ensuresthesealeffectofthecablegland.Ifyouareusingcablewithadifferentdiameterorcross-section,exchange the seal or use a suitable cable gland.Make sure that the entire installation is carried out according to the Fieldbusspecification.Inparticular,makesurethatthebusistermi-nated with suitable terminating resistors.
With systems with potential equalisation, connect the cable screen directly to ground potential at the power supply unit, in the connection box and at the sensor. The screen in the sensor must be connected directly to the internal ground terminal. The ground terminal outside onthehousingmustbeconnectedtothepotentialequalisation(lowimpedance).In systems without potential equalisation, connect the cable screen directly to ground potential at the power supply unit and at the sensor. In the connection box or T-distributor, the screen of the short stub to the sensor must not be connected to ground potential or to another cable screen. The cable screens to the power supply unit and to the next distributor must be connected to each other and also connected togroundpotentialviaaceramiccapacitor(e.g.1nF,1500V).Thelow frequency potential equalisation currents are thus suppressed, buttheprotectiveeffectagainsthighfrequencyinterferencesignalsremains.The total capacitance of the cable and of all capacitors must not exceed 10 nF in Ex applications.Take note of the corresponding installation regulations for Ex applica-tions. In particular, make sure that no potential equalisation currents flowoverthecablescreen.Incaseofgroundingonbothsidesthiscan be achieved by the use of a capacitor or a separate potential equalisation.
Notesafetyinstructions
Take note of safety instructions for Ex applications
Select power supply
Select connection cable
Cable screening and grounding
Select connection cable for Ex applica-tions
15
5 Connecting to power supply
WIKA Operating Instructions - Process pressure transmitter IPT-1*
5.2 Connection procedureProceed as follows:1. Unscrewthehousingcover2. If a display and adjustment module is installed, remove it by turn-
ing it to the left.3. Loosen compression nut of the cable entry4. Removeapprox.10cmofthecablemantle,stripapprox.1cm
insulation from the individual wires5. Insert the cable into the sensor through the cable entry6. Lifttheopeningleversoftheterminalswithascrewdriver(see
followingillustration)7. Insert the wire ends into the open terminals according to the wir-
ing plan8. Press down the opening levers of the terminals, you will hear the
terminal spring closing9. Check the hold of the wires in the terminals by lightly pulling on
them10. Connect the screen to the internal ground terminal, connect the
outer ground terminal to potential equalisation11. Tighten the compression nut of the cable entry. The seal ring must
completely encircle the cable12. Screw the housing cover back onTheelectricalconnectionishencefinished.
Fig. 6: Connection steps 6 and 7
Single/Double chamber housing
16
5 Connecting to power supply
WIKA Operating Instructions - Process pressure transmitter IPT-1*
5.3 Single chamber housingThe following illustrations apply to the non-Ex as well as to the Ex-ia version.
3
4
51
2
I2C
Display
Typ:
1 2 5 6 7 8
Bus
Sim
.
Fig. 7: Electronics and connection compartment, single chamber housing1 Plug connector for service interface2 Spring-loaded terminals for connection of the external indication3 Ground terminal for connection of the cable screen4 Spring-loaded terminals for Foundation Fieldbus connection5 Simulation switch ("on" = simulation mode)
I2C
Display
1
1 2 5 6 7 8
Fig. 8: Wiring plan, single chamber housing1 Voltage supply, signal output
5.4 Wiring plan, double chamber housingThe following illustrations apply to the non-Ex as well as to the Ex-ia version.
Electronics and connec-tion compartment
Wiring plan
17
5 Connecting to power supply
WIKA Operating Instructions - Process pressure transmitter IPT-1*
I²C2
3
1Display
Typ:
1 2 5 6 7 8
Bus
Sim
.Fig. 9: Electronics compartment, double chamber housing1 Simulation switch ("on" = simulation mode)2 Connection for service3 Internal connection cable to the connection compartment
1
2
3
Disp
lay
1 2 I2C
Fig. 10: Connection compartment, double chamber housing1 Spring-loaded terminals for voltage supply2 Plug connector for service interface3 Ground terminal for connection of the cable screen
Electronics compartment
Connection compartment
18
5 Connecting to power supply
WIKA Operating Instructions - Process pressure transmitter IPT-1*
I2C
1
1 2
Fig. 11: Wiring plan, double chamber housing1 Voltage supply, signal output
5.5 Double chamber housing Ex d
I²C2
3
1Display
Typ:
1 2 5 6 7 8
Bus
Sim
.
Fig. 12: Electronics compartment, double chamber housing1 Simulation switch ("on" = simulation mode)2 Connection for service3 Internal connection cable to the connection compartment
Wiring plan
Electronics compartment
19
5 Connecting to power supply
WIKA Operating Instructions - Process pressure transmitter IPT-1*
1
2
1 2
Fig. 13: Connection compartment, Ex-d double chamber housing1 Spring-loaded terminals for power supply and cable screen2 Ground terminal for connection of the cable screen
1
1 2
Fig. 14: Wiring plan, Ex-d double chamber housing1 Voltage supply, signal output
Connection compartment
Wiring plan
20
5 Connecting to power supply
WIKA Operating Instructions - Process pressure transmitter IPT-1*
5.6 Wiring plan, external housing with version IP 68
Fig. 15: IPT-1* Vers. 2.0 in IP 68 version 25 bar and axial cable outlet, external housing
I²C
Display
Typ:
1 2 5 6 7 8
Bus
Sim
.
4
5
61
2
3
Fig. 16: Electronics and connection compartment, single chamber housing1 Plug connector for VEGACONNECT (I²C interface)2 Spring-loaded terminals for connection of the external indication VEGADIS
613 Cable gland to the sensor4 Ground terminal for connection of the cable screen5 Spring-loaded terminals for Foundation Fieldbus connection6 Simulation switch ("on" = simulation mode)
Overview
Electronics and connec-tion compartment
21
5 Connecting to power supply
WIKA Operating Instructions - Process pressure transmitter IPT-1*
1 2 3 4
63
41
2
5
Fig. 17: Connection of the sensor in the housing base1 Brown2 Blue3 Yellow4 White5 Shielding6 Breather capillaries
I2C
Display
1
1 2 5 6 7 8
Fig. 18: Wiring plan external electronics1 Voltage supply
5.7 Switch-on phaseAfter IPT-1* Vers. 2.0 is connected to voltage supply or after voltage recurrence, the instrument carries out a self-check for approx. 30 seconds. The following steps are carried out:
• Internal check of the electronics• Indicationoftheinstrumenttype,thefirmwareaswellasthesen-
sorTAGs(sensordesignation)• Statusbytegoesbrieflytofaultvalue
Terminal compartment, housing socket
Wiring plan external electronics
Switch-on phase
22
5 Connecting to power supply
WIKA Operating Instructions - Process pressure transmitter IPT-1*
Then the current measured value will be displayed and the corre-sponding digital output signal will be outputted to the cable.1)
1) The values correspond to the actual measured level as well as to the settings already carried out, e.g. default setting.
23
6 Set up with the display and adjustment module
WIKA Operating Instructions - Process pressure transmitter IPT-1*
6 Set up with the display and adjustment module
6.1 Short descriptionThe display and adjustment module is used for measured value display, adjustment and diagnosis. It can be mounted in the following housing versions and instruments:
• All sensors DPT-10 and IPT-1*, in the single as well as double chamberhousing(optionallyintheelectronicsorconnectioncompartment)
• External display and adjustment unit
Note:Youcanfinddetailedinformationontheadjustmentintheoperatinginstructionsmanual"Display and adjustment module".
6.2 Insert display and adjustment moduleThe display and adjustment module can be inserted and removed at any time. It is not necessary to interrupt the voltage supply.For installation proceed as follows:1. Unscrewthehousingcover2. Place the display and adjustment module in the desired position
ontheelectronics(youcanchooseanyoneoffourdifferentposi-tions-eachdisplacedby90°)
3. Press the display and adjustment module onto the electronics and turn it to the right until it snaps in.
4. Screw housing cover with inspection window tightly back onRemovaliscarriedoutinreverseorder.The display and adjustment module is powered by the sensor, an ad-ditional connection is not necessary.
Function/Configuration
Mount/Dismount display and adjustment module
24
6 Set up with the display and adjustment module
WIKA Operating Instructions - Process pressure transmitter IPT-1*
Fig. 19: Insert display and adjustment module
Note:Ifyouintendtoretrofittheinstrumentwithadisplayandadjustmentmodule for continuous measured value indication, a higher cover with an inspection glass is required.
6.3 Adjustment system
2
3
1
1.1
Fig. 20: Display and adjustment elements1 LC display2 Indication of the menu item number3 Adjustment keys
25
6 Set up with the display and adjustment module
WIKA Operating Instructions - Process pressure transmitter IPT-1*
• [OK] key: – Move to the menu overview – Confirmselectedmenu – Edit parameter – Save value
• [->] key to select: – Menu change – Select list entry – Select editing position
• [+] key: – Change value of the parameter
• [ESC] key: – Interrupt input – Jump to the next higher menu
The sensor is adjusted via the four keys of the display and adjust-ment module. The LC display indicates the individual menu items. The functions of the individual keys are shown in the above illustration. Approx. 10 minutes after the last pressing of a key, an automatic reset tomeasuredvalueindicationistriggered.Anyvaluesnotconfirmedwith [OK] will not be saved.
6.4 Setup stepsIPT-1* Vers. 2.0 can be used for level as well as for process pressure measurement. Default setting is level measurement. The mode can be changed in the adjustment menu.Dependingontheapplicationonlytherespectivesubchapter"Levelorprocesspressuremeasurement"isofimportance.There,youfindthe individual adjustment steps.
Level measurement
Set up IPT-1* Vers. 2.0 in the following sequence:1. Selecting adjustment unit/density unit2. Carry out a position correction3. Carry out min. adjustment4. Carry out max. adjustmentInthemenuitem"Adjustment unit"youselectthephysicalunitinwhichtheadjustmentshouldbecarriedout,e.g.mbar,bar,psi…Thepositioncorrectioncompensatestheinfluenceofthemountingpositionorstaticpressureonthemeasurement.Itdoesnotinfluencethe adjustment values.
Information:The steps 1, 3 and 4 are not necessary for instruments which are alreadypresetaccordingtocustomerspecifications!Youcanfindthedataonthetypelabelontheinstrumentorinthemenu items of the min./max. adjustment.
Key functions
Adjustment system
Level or process pres-sure measurement
Parameter adjustment "Level measurement"
26
6 Set up with the display and adjustment module
WIKA Operating Instructions - Process pressure transmitter IPT-1*
The display and adjustment module enables the adjustment without fillingorpressure.Thankstothis,youcancarryoutyoursettingsalready in the workshop without the instrument having to be installed.The actual measured value is also displayed in the menu items for min./max. adjustment.
In this menu item you select the adjustment unit as well as the unit for the temperature indication in the display.Toselecttheadjustmentunit(intheexampleswitchingoverfrombartombar),proceedasfollows:2)
1. Push the [OK] button in the measured value display, the menu overview is displayed.
▶Basic adjustmentDisplayDiagnosticsServiceInfo
2. Confirmthemenu"Basic adjustment"with[OK], the menu item "Unit"willbedisplayed.
UnitUnitofmeasurement
bar▼Temperature unit
°C▼
3. Activate the selection with [OK]andselect"Units of measure-ment with [->].
4. Activate the selection with [OK] and select the requested unit with [->](intheexamplembar).
5. Confirmwith[OK] and move to position correction with [->].The adjustment unit is thus switched over from bar to mbar.
Information:Whenswitchingovertoadjustmentinaheightunit(intheexamplefrombartom),thedensityalsohastobeentered.Proceed as follows:1. Push the [OK] button in the measured value display, the menu
overview is displayed.2. Confirmthemenu"Basic adjustment"with[OK], the menu item
"Units of measurement"willbedisplayed.3. Activate the selection with [OK] and select the requested unit with
[->](intheexamplem).4. Confirmwith[OK],thesubmenu"Density unit"appears.
Unitofmeasurement
Density unit▶ kg/dm³
pcf
Select unit
2) Selection options: mbar, bar, psi, Pa, kPa, MPa, inHg, mmHg, inH2O, mmH2O.
27
6 Set up with the display and adjustment module
WIKA Operating Instructions - Process pressure transmitter IPT-1*
5. Select the requested unit, e.g. kg/dm³ with [->]andconfirmwith[OK],thesubmenu"Density"appears.
Unitofmeasurement
Density0001000kg/dm³
6. Enter the requested density value with [->] and [+],confirmwith[OK] and move to position correction with [->].
The adjustment unit is thus switched over from bar to m.Proceed as follows to select the temperature unit:3)
1. Activate the selection with [OK]andselect"Temperature unit with [->].
2. Activate the selection with [OK] and select the requested unit with [->](e.g.°F).
3. Confirmwith[OK].The temperature unit is hence switched over from °C to °F.
Proceed as follows:1. Activateinthemenuitem"Position correction"theselectionwith
[OK].Position correctionOffset
P
=+0000 mbar53 mbar
2. Select with [->], e.g. to accept actual measured value.Position correctionAccept current measured value?
▶AcceptEdit
3. Confirmwith[OK]andmovetomin.(zero)adjustmentwith[->].
Proceed as follows:1. Editthe%valueinthemenuitem"Min. adjustment"with[OK].
Min. adjustment+000.0 %=+0000.0 mbar
0000.0 mbar
2. Set the requested percentage value with [+] and [->].3. Confirmwith[OK] and edit the requested mbar value.4. Set the requested mbar value with [+] and [->].5. Confirmwith[+] and move to max. adjustment with [->].Themin.adjustmentisfinished.
Carry out a position cor-rection
Carry out min. adjustment
3) Selection options: °C, °F.
28
6 Set up with the display and adjustment module
WIKA Operating Instructions - Process pressure transmitter IPT-1*
Information:Foranadjustmentwithfilling,simplyentertheactualmeasuredvalueindicated at the bottom of the display.Iftheadjustmentrangesareexceeded,themessage"Outside param-eter limits"appears.Theeditingprocedurecanbeabortedwith[ESC] or the displayed limit value can be accepted with [OK].
Proceed as follows:1. Editthe%valueinthemenuitem"Max. adjustment"with[OK].
Max. adjustment+100.0 %=+1000.0 mbar
0000.0 mbar
Information:Thedisplayedpressurefor100%correspondstothenominalmeas-uringrangeofthesensor(intheaboveexample1bar=1000mbar).2. Set the requested percentage value with [->] and [OK].3. Confirmwith[OK] and edit the requested mbar value.4. Set the requested mbar value with [+] and [->].5. Confirmwith[OK] and move to the menu overview with [ESC].Themax.adjustmentisfinished.
Information:Foranadjustmentwithfilling,simplyentertheactualmeasuredvalueindicated at the bottom of the display.Iftheadjustmentrangesareexceeded,themessage"Outside param-eter limits"appears.Theeditingprocedurecanbeabortedwith[ESC] or the displayed limit value can be accepted with [OK].
Process pressure measurement
Set up IPT-1* Vers. 2.0 in the following sequence:1. Selectapplication"Processpressuremeasurement"2. Select the unit of measurement3. Carry out a position correction4. Carryingoutzeroadjustment5. Carry out span adjustmentInthemenuitem"Adjustment unit"youselectthephysicalunitinwhichtheadjustmentshouldbecarriedout,e.g.mbar,bar,psi…Thepositioncorrectioncompensatestheinfluenceofthemountingpositionorstaticpressureonthemeasurement.Itdoesnotinfluencethe adjustment values.Inthemenuitems"zero"and"span"youdeterminethespanofthesensor, the span corresponds to the end value.
Information:The steps 1, 3 and 4 are not necessary for instruments which are alreadypresetaccordingtocustomerspecifications!
Carry out max. adjust-ment
Parameter adjustment "Process pressure meas-urement"
29
6 Set up with the display and adjustment module
WIKA Operating Instructions - Process pressure transmitter IPT-1*
Youcanfindthedataonthetypelabelontheinstrumentorinthemenuitemsofthezero/spanadjustment.The display and adjustment module enables the adjustment without fillingorpressure.Thankstothis,youcancarryoutyoursettingsalready in the workshop without the instrument having to be installed.The actual measured value is displayed in addition to the menu items forzero/spanadjustment.
IPT-1*Vers.2.0ispresettoapplication"Levelmeasurement".Pro-ceedasfollowswhenswitchingovertoapplication"Processpressuremeasurement":1. Push the [OK] button in the measured value display, the menu
overview is displayed.2. Selectthemenu"Service"with[->]andconfirmwith[OK].
Basic adjustmentDisplayDiagnostics
▶ServiceInfo
3. Selectthemenuitem"Application"with[->] and edit with [OK].
Warning:Notethewarning:"Output can change".4. Select with [->]"OK"andconfirmwith[OK].5. Select"Process pressure"fromthelistandconfirmwith[OK].
In this menu item you select the adjustment unit as well as the unit for the temperature indication in the display.Toselecttheadjustmentunit(intheexampleswitchingoverfrombartombar),proceedasfollows:4)
1. Push the [OK] button in the measured value display, the menu overview is displayed.
▶Basic adjustmentDisplayDiagnosticsServiceInfo
2. Confirmthemenu"Basic adjustment"with[OK], the menu item "Unit"willbedisplayed.
UnitUnitofmeasurement
bar▼Temperature unit
°C▼
3. Activate the selection with [OK]andselect"Units of measure-ment with [->].
Select application "Pro-cess pressure measure-ment"
Select unit
4) Selection options: mbar, bar, psi, Pa, kPa, MPa, inHg, mmHg, inH2O, mmH2O.
30
6 Set up with the display and adjustment module
WIKA Operating Instructions - Process pressure transmitter IPT-1*
4. Activate the selection with [OK] and select the requested unit with [->](intheexamplembar).
5. Confirmwith[OK] and move to position correction with [->].The adjustment unit is thus switched over from bar to mbar.Proceed as follows to select the temperature unit:5)
1. Activate the selection with [OK]andselect"Temperature unit with [->].
2. Activate the selection with [OK] and select the requested unit with [->](e.g.°F).
3. Confirmwith[OK].The temperature unit is hence switched over from °C to °F.
Proceed as follows:1. Activateinthemenuitem"Position correction"theselectionwith
[OK].Position correctionOffset
P
=+0000 mbar53 mbar
2. Select with [->], e.g. to accept actual measured value.Position correctionAccept current measured value?
▶AcceptEdit
3. Confirmwith[OK]andmovetomin.(zero)adjustmentwith[->].
Proceed as follows:1. Editthembarvalueinthemenuitem"zero"with[OK].
Zero000.0 %
P
=+0000.0 mbar
0000.0 mbar
2. Set the requested mbar value with [+] and [->].3. Confirmwith[+] and move to span adjustment with [->].Thezeroadjustmentisfinished.
Information:Thezeroadjustmentshiftsthevalueofthespanadjustment.Thespan,i.e.thedifferencebetweenthesevalues,however,remainsunchanged.
Information:For an adjustment with pressure, simply enter the actual measured value indicated at the bottom of the display.
Carry out a position cor-rection
Carrying out zero adjust-ment
5) Selection options: °C, °F.
31
6 Set up with the display and adjustment module
WIKA Operating Instructions - Process pressure transmitter IPT-1*
Iftheadjustmentrangesareexceeded,themessage"Outside param-eter limits"appears.Theeditingprocedurecanbeabortedwith[ESC] or the displayed limit value can be accepted with [OK].
Proceed as follows:1. Editthembarvalueinthemenuitem"span"with[OK].
Span100.0 %
P
=+1000.0 mbar
0000.0 mbar
Information:Thedisplayedpressurefor100%correspondstothenominalmeas-uringrangeofthesensor(intheaboveexample1bar=1000mbar).2. Set the requested mbar value with [->] and [OK].3. Confirmwith[OK] and move to the menu overview with [ESC].Thespanadjustmentisfinished.
Information:For an adjustment with pressure, simply enter the actual measured value indicated at the bottom of the display.Iftheadjustmentrangesareexceeded,themessage"Outside param-eter limits"appears.Theeditingprocedurecanbeabortedwith[ESC] or the displayed limit value can be accepted with [OK].
This function enables reading out parameter adjustment data as well as writing parameter adjustment data into the sensor via the display and adjustment module. A description of the function is available in theoperatinginstructionsmanual"Display and adjustment module".The following data are read out or written with this function:
• Measured value presentation• Adjustment• Damping• Linearizationcurve• Sensor-TAG• Displayed value• Unitofmeasurement• Language
The following safety-relevant data are not read out or written:
• PIN• Application
Copy sensor data
Copy sensor data?
The reset function resets all parameters adjusted by the user to the delivery status and the peak values to the actual values.
Carry out span adjust-ment
Copy sensor data
Reset
32
6 Set up with the display and adjustment module
WIKA Operating Instructions - Process pressure transmitter IPT-1*
Reset
Select reset?▼
ResetBasic adjustmentPeak value, measured valuePeak value, temperature
Basic adjustmentThe"Reset""Basic adjustment"resetsthevaluesofthefollowingmenu items:
Menu section Function Resetvalue
Basic settings Zero/Min. adjustment Measuring range begin
Span/Max. adjustment Measuring range end
Density 1 kg/l
Density unit kg/l
Damping 0 s
Linearization Linear
Sensor-TAG Sensor
Display Displayed value AI-OutThe values of the following menu items are notresetwith"Reset:
Menu section Function Resetvalue
Basic settings Unitofmeasurement Noreset
Temperature unit Noreset
Position correction Noreset
Display Backlight Noreset
Service Language Noreset
Application Noreset
Default settingLike basic adjustment, but in addition, special parameters are reset to default values.6)
Peak valueThe min. and max. distance values are reset to the actual value.
Additional adjustment and diagnosis options such as e.g. scaling, simulation or trend curve presentation are shown in the following menuschematic.Youwillfindadetaileddescriptionofthesemenuitemsintheoperatinginstructionsmanual"Display and adjustment module".
Optional settings
6) Specialparametersareparameterswhicharesetcustomer-specificallyonthe service level with the adjustment software PACTware.
33
6 Set up with the display and adjustment module
WIKA Operating Instructions - Process pressure transmitter IPT-1*
6.5 Menu schematicInformation:Depending on the version and application, the highlighted menu windows may not always be available.
Basic adjustment
▶Basic adjustment 1DisplayDiagnosticsServiceInfo
Unit 1.1Unitofmeasurement
bar ▼Temperature unit
°C ▼
Position correction 1.2Offset
P
=0.2 mbar0000 mbar
Min. adjustment 1.3000.0 %=0.0 mbar
0.0 mbar
Max. adjustment 1.4100.00 %=100.00 mbar
0.0 mbar
Damping 1.5
1 s
Linearizationcurve 1.6
Linear ▼
Sensor-TAG 1.7
Sensor
Display
Basic adjustment 2▶Display
DiagnosticsServiceInfo
Displayed value 2.1
Pressure ▼
Displayed value ▼ 2.1
Scaled
Display unit 2.2
Volume ▼l ▼
Scaling 2.30 % = 0.0l100 % = 100.0l
Backlight 2.4
Switchedoff▼
Diagnostics
Basic adjustment 3Display
▶DiagnosticsServiceInfo
Peak value 3.1p-min.: -5.8 mbarp-max.: 167.5 mbarT-min.: -12.5 °CT-max.: +85.5 °C
Sensor status 3.2
OK
Trend curve 3.3
Start trend curve?
34
6 Set up with the display and adjustment module
WIKA Operating Instructions - Process pressure transmitter IPT-1*
Service
Basic adjustment 4DisplayDiagnostics
▶ServiceInfo
Current output 4.1
Characteristic: 4-20 mA ▼Fail.mode: < 3.6 mA ▼Min. current: 3.8 mA ▼max. current: 20.5 mA ▼
Simulation 4.2
Start simulation ▼
Reset 4.3
Select reset ▼
Language 4.4
Deutsch ▼
SIL 4.5
Deactivated!▼
HARTmode 4.6
StandardAddress 0
Copy sensor data 4.7
Copy sensor data?
PIN 4.8
Enable?
Application 4.9
Level ▼
Info
Basic adjustment 5DisplayDiagnosticsService
▶ Info
Instrument type 5.1
Serial number
Date of manufacture 5.2
Software version
Last change using PC 5.3 Sensor characteristics 5.4
Display now?
6.10 Saving the parameter adjustment dataWe recommended noting the adjusted data, e.g. in this operating instructions manual, and archiving them afterwards. They are thus available for multiple use or service purposes.If IPT-1* Vers. 2.0 is equipped with a display and adjustment module, the most important data can be read out of the sensor into the display and adjustment module. The procedure is described in the operating instructionsmanual"Display and adjustment module"inthemenuitem"Copy sensor data".Thedataremaintherepermanentlyevenifthe sensor power supply fails.If it is necessary to exchange the sensor, the display and adjustment module is inserted into the replacement instrument and the data are writtenintothesensorunderthemenuitem"Copy sensor data".
35
6 Set up with the display and adjustment module
WIKA Operating Instructions - Process pressure transmitter IPT-1*
36
7 Setup with the adjustment program AMS™
WIKA Operating Instructions - Process pressure transmitter IPT-1*
7 Setup with the adjustment program AMS™
7.1 Parameter adjustment with AMS™For WIKA sensors, instrument descriptions for the adjustment pro-gram AMS™ are available as DD. The instrument descriptions are already implemented in the current version of AMS™. For older ver-sions of AMS™, a free-of-charge download is available via Internet.Go via www.WIKA.comand"Downloads"totheitem"Software".
37
8Maintenanceandfaultrectification
WIKA Operating Instructions - Process pressure transmitter IPT-1*
8 Maintenanceandfaultrectification
8.1 MaintenanceIf the instrument is used properly, no special maintenance is required in normal operation.In some applications, product buildup on the sensor diaphragm can influencethemeasuringresult.Dependingonthesensorandapplica-tion, take precautions to ensure that heavy buildup, and especially a hardening thereof, is avoided.
If necessary, the transmitter has to be cleaned. In this case, make sure that the materials are resistant against the cleaning detergents.
8.2 RectifyfaultsThe operator of the system is responsible for taking suitable meas-ures to rectify faults.
IPT-1*Vers.2.0offersmaximumreliability.Nevertheless,faultscanoccur during operation. These may be caused by the following, e.g.:
• Sensor• Process• Voltage supply• Signal processing
Thefirstmeasurestobetakenaretochecktheoutputsignalsaswellas to evaluate the error messages via the display and adjustment module. The procedure is described below. Further comprehensive diagnostics can be carried out on a PC with the software PACTware and the suitable DTM. In many cases, the causes can be determined andthefaultsrectifiedthisway.
The following table describes possible errors and helps to remove them:
Error Cause Rectification
When an addition-al instrument is connected, the H1 segment fails.
Max. supply current of the seg-ment coupler exceeded
Measure the current consumption, re-ducesizeofsegment
Measured val-ue on the display and adjustment module does not correspond to the value in the PLC
The menu item "Display - Display value"isnotsetto"AI-Out"
Check values and correct, if neces-sary
Maintenance
Cleaning
Reactionwhenmalfunc-tions occur
Failure reasons
Faultrectification
Checking Foundation Fieldbus
38
8Maintenanceandfaultrectification
WIKA Operating Instructions - Process pressure transmitter IPT-1*
Error Cause Rectification
Instrument does not appear during connection setup
ProfibusDPcablepole-reversed
Check cable and correct, if necessary
Incorrect termi-nation
Check termination at the beginning and end points of the bus and termi-nate, if necessary, according to the specification
Instrument not connected to the segment
Check and correct, if necessary
In Ex applications, the regulations for the wiring of intrinsically safe circuits must be observed.
Error code Cause Rectification
E013 no measured value available1)
– Exchange the instrument or send it in for repair
E017 Adjustment span too small
– repeatwithmodifiedvalues
E036 no operable sensor software
– Carry out a software update or send instrument for repair
E041 Hardware error, elec-tronics defective
– Exchange the instrument or send it in for repair
E113 Communication con-flict
– Exchange the instrument or send it in for repair
Depending on the reason for the fault and the measures taken, the stepsdescribedinchapter"Set up"mayhavetobecarriedoutagain.
8.3 Instrument repairYoucanfindinformationforareturnshipmentunder"Service"onourlocal website.If a repair is necessary, please proceed as follows:
• Complete one form for each instrument• If necessary, state a contamination• Clean the instrument and pack it damage-proof• Attach the completed form and possibly also a safety data sheet to
the instrument
Error messages via the display and adjustment module
Reactionafterfaultrecti-fication
39
9 Dismounting
WIKA Operating Instructions - Process pressure transmitter IPT-1*
9 Dismounting
9.1 Dismounting stepsWarning:Before dismounting, be aware of dangerous process conditions such as e.g. pressure in the vessel, high temperatures, corrosive or toxic products etc.Takenoteofchapters"Mounting"and"Connecting to power supply"and carry out the listed steps in reverse order.
9.2 DisposalThe instrument consists of materials which can be recycled by spe-cialised recycling companies. We use recyclable materials and have designed the parts to be easily separable.
WEEE directive 2002/96/EGThis instrument is not subject to the WEEE directive 2002/96/EG and the respective national laws. Pass the instrument directly on to a spe-cialised recycling company and do not use the municipal collecting points. These may be used only for privately used products according to the WEEE directive.Correctdisposalavoidsnegativeeffectsonhumansandtheenviron-ment and ensures recycling of useful raw materials.Materials:seechapter"Technical data"If you have no way to dispose of the old instrument properly, please contact us concerning return and disposal.
40
10 Supplement
WIKA Operating Instructions - Process pressure transmitter IPT-1*
10 Supplement
10.1 Technical dataGeneral dataParameter, pressure Gauge pressure, absolute pressure, vacuumMeasuring principle Ceramic-capacitive, dry measuring cellCommunication interface I²C bus
Materials and weightsMaterial 316L corresponds to 1.4404 or 1.4435Materials, wetted parts
Ʋ Processfitting 316L, PVDF, Alloy C-22, Alloy C-276, Duplex 1.4462, Titanium Grade 2
Ʋ Diaphragm sapphire ceramic®(99.9%oxideceramic) Ʋ Joining material diaphragm/Basic ele-ment measuring cell
Glass solder
Ʋ Measuring cell seal FKM(VP2/A,A+P70.16),EPDM(A+P75.5/KW75F),FFKM(Kalrez6375,PerlastG75S,PerlastG75B)
Materialsealprocessfitting Ʋ ThreadG½(EN837) Klingersil C-4400 Ʋ ThreadG1½(DIN3852-A) Klingersil C-4400 Ʋ M44x1.25(DIN13) FKM, FFKM, EPDM
Surfacequalityhygienicfittings,typ. Ra < 0.8 µm Ʋ Surface quality, typ.
Materials, non-wetted parts Ʋ Electronics housing PlasticPBT(polyester),Aludie-castingpowder-coated,
316L Ʋ External housing plasticPBT(Polyester),316L Ʋ Socket, wall mounting plate external housing
plasticPBT(Polyester),316L
Ʋ Seal between base and wall mounting plate
EPDM(fixedconnected)
Ʋ Seal below wall mounting plate EPDM(onlywith3Aapproval) Ʋ Seal, housing cover NBR(stainlesssteelhousing),silicone(Alu/plastichous-
ing) Ʋ Inspection window in housing cover for display and adjustment module
Polycarbonate(UL-746-Clisted)
Ʋ Ground terminal 316Ti/316L Ʋ Ohmic contact Betweengroundterminalandprocessfitting Ʋ Connection cable between transmitter and external electronics housing with IP 68 version
PUR
Ʋ Type label support on connection cable
PE hard
41
10 Supplement
WIKA Operating Instructions - Process pressure transmitter IPT-1*
Ʋ Connection cable with IP 68 1 bar version
PE
Weight approx. 0.8…8kg(1.764…17.64lbs),dependingonprocessfitting
Output variableOutput
Ʋ Signal digital output signal, Foundation Fieldbus protocol Ʋ Physical layer according to IEC 61158-2
ChannelNumbers Ʋ Channel 1 Primary value Ʋ Channel 2 Secondary value 1 Ʋ Channel 3 Secondary value 2 Ʋ Channel 4 Temperature value
Transmission rate 31.25 Kbit/sCurrent value 10 mA, ±0.5 mA
Dynamic behaviour outputRun-uptimeapprox. 10 s
90 %
100 %
10 %
t tT At
tS
21
Fig. 21: Sudden change of the process variable. tT: dead time; tA: rise time; tS: jump response time1 Process variable2 Output signal
Dead time ≤150msRisetime ≤100ms(10…90%)Step response time ≤250ms(ti:0s,10…90%)Damping(63%oftheinputvariable) 0…999s,adjustable
Additional output parameter - temperatureProcessingismadeviaoutputsignalHARTmultidrop,ProfibusPAandFoundationFieldbusRange -50…+150°C(-58…+302°F)Resolution 1°C(1.8°F)Accuracy
42
10 Supplement
WIKA Operating Instructions - Process pressure transmitter IPT-1*
Ʋ intherangeof0…+100°C(+32…+212°F)
±3 K
Ʋ intherangeof-50…0°C(-58…+32°F)and+100…+150°C(+212…+302°F)
typ. ±4 K
Input variableAdjustmentAdjustment range of the min./max. adjustment relating to the nominal measuring range:
Ʋ Percentage value -10…110% Ʋ Pressure value -20…120%
Adjustmentrangeofthezero/spanadjustmentrelatingtothenominalmeasuringrange: Ʋ zero -20…+95% Ʋ span -120…+120%1)
Ʋ Differencebetweenzeroandspan max.120%ofthenominalrangeRecommendedmax.turndown 10:1(nolimitation)Nominalmeasuringrangesandoverloadcapabilityinbar/kPaThespecificationsareonlyanoverviewandrefertothemeasuringcell.Limitationsduetothema-terialandversionoftheprocessfittingarepossible.Thespecificationsonthenameplateapply.
Nominalrange Overload capacity, max. pressure
Overload capacity, min. pres-sure
Gauge pressure
0…+0.1bar/0…+10kPa +15 bar/+1500 kPa -0.2 bar/-20 kPa
0…+0.2bar/0…+20kPa +20 bar/+2000 kPa -0.4 bar/-40 kPa
0…+0.4bar/0…+40kPa +30 bar/+3000 kPa -0.8 bar/-80 kPa
0…+1bar/0…+100kPa +35 bar/+3500 kPa -1 bar/-100 kPa
0…+2.5bar/0…+250kPa +50 bar/+5000 kPa -1 bar/-100 kPa
0…+5bar/0…+500kPa +65 bar/+6500 kPa -1 bar/-100 kPa
0…+10bar/0…+1000kPa +90 bar/+9000 kPa -1 bar/-100 kPa
0…+25bar/0…+2500kPa +130 bar/+13000 kPa -1 bar/-100 kPa
0…+60bar/0…+6000kPa +200 bar/+20000 kPa -1 bar/-100 kPa
-1…0bar/-100…0kPa +35 bar/+3500 kPa -1 bar/-100 kPa
-1…+1.5bar/-100…+150kPa +50 bar/+5000 kPa -1 bar/-100 kPa
-1…+5bar/-100…+500kPa +65 bar/+6500 kPa -1 bar/-100 kPa
-1…+10bar/-100…+1000kPa +90 bar/+9000 kPa -1 bar/-100 kPa
-1…+25bar/-100…+2500kPa +130 bar/+13000 kPa -1 bar/-100 kPa
-1…+60bar/-100…+6000kPa +200 bar/+20000 kPa -1 bar/-100 kPa
-0.05…+0.05bar/-5…+5kPa +15 bar/+1500 kPa -0.2 bar/-20 kPa
-0.1…+0.1bar/-10…+10kPa +20 bar/+2000 kPa -0.4 bar/-40 kPa
-0.2…+0.2bar/-20…+20kPa +30 bar/+3000 kPa -0.8 bar/-80 kPa
-0.5…+0.5bar/-50…+50kPa +35 bar/+3500 kPa -1 bar/-100 kPa
43
10 Supplement
WIKA Operating Instructions - Process pressure transmitter IPT-1*
Nominalrange Overload capacity, max. pressure
Overload capacity, min. pres-sure
Absolute pressure
0…0.1bar/0…10kPa 15 bar/1500 kPa 0 bar abs.
0…1bar/0…100kPa 35 bar/3500 kPa 0 bar abs.
0…2.5bar/0…250kPa 50 bar/5000 kPa 0 bar abs.
0…5bar/0…500kPa 65 bar/6500 kPa 0 bar abs.
0…10bar/0…1000kPa 90 bar/9000 kPa 0 bar abs.
0…25bar/0…2500kPa 130 bar/13000 kPa 0 bar abs.
0…60bar/0…6000kPa 200 bar/20000 kPa 0 bar abs.
NominalmeasuringrangesandoverloadcapacityinpsiThespecificationsareonlyanoverviewandrefertothemeasuringcell.Limitationsduetothema-terialandversionoftheprocessfittingarepossible.Thespecificationsonthenameplateapply.
Nominalrange Overload capacity, max. pressure
Overload capacity, min. pres-sure
Gauge pressure
0…+1.450psig +217.6 psig -2.900 psig
0…+2.901psig +290.1 psig -5.802 psig
0…+5.802psig +435.1 psig -11.60 psig
0…+14.50psig +507.6 psig -14.5 psig
0…+36.26psig +725 psig -14.50 psig
0…+72.52psig +942.7 psig -14.50 psig
0…+14.50psig +1305 psig -14.50 psig
0…+362.6psig +1885 psig -14.50 psig
0…+870.2psig +2901 psig -14.50 psig
-14.5…0psig +507.6 psig -14.50 psig
-14.5…+21.76psig +725.2 psig -14.5 psig
-1…+72.52psig +942.7 psig -14.5 psig
-14.50…+145.0psig +1305 psig -14.50 psig
-1…+362.6psig +1885 psig -14.5 psig
-1…+870.2psig +2901 psig -14.50 psig
-0.725…+0.725psig +217.6 psig -2.901 psig
-1.450…+1.450psig +290.1 psig -5.801 psig
-2.901…+2.901psig +435.1 psig -11.60 psig
-7.252…+7.252psig +507.6 psig -14.50 psig
Absolute pressure
0…1.405psi 217.6 psi 0 psi
0…14.5psi 507.6 psi 0 psi
0…36.26psi 725.2 psi 0 psi
44
10 Supplement
WIKA Operating Instructions - Process pressure transmitter IPT-1*
Nominalrange Overload capacity, max. pressure
Overload capacity, min. pres-sure
0…72.52psi 942.7 psi 0 psi
0…145.0psi 1305 psi 0 psi
0…362.6psi 1885 psi 0 psi
0…870.2psi 2901 psi 0 psi
Referenceconditionsandactuatingvariables(accordingtoDINEN60770-1)ReferenceconditionsaccordingtoDINEN61298-1
Ʋ Temperature +15…+25°C(+59…+77°F) Ʋ Relativehumidity 45…75% Ʋ Air pressure 860…1060mbar/86…106kPa(12.5…15.4psig)
Determination of characteristics Limit point adjustment according to IEC 61298-2Characterstic curve LinearReferenceinstallationposition upright, diaphragm points downwardInfluenceoftheinstallationposition <0.2mbar/20Pa(0.003psig)
Deviation determined according to the limit point method according to IEC 607702)
Applies to digitalinterfaces(HART,ProfibusPA,FoundationFieldbus)aswellastoanalogue currentoutput4…20mA.Specificationsrefertothesetspan.Turndown(TD)istherationominalmeasuring range/set span.Deviation
Ʋ Turn down 1 : 1 up to 5 : 1 <0.075% Ʋ Turn down > 5 : 1 <0.015%xTD
Deviation with absolute pressure measuring range 0.1 bar Ʋ Turn down 1 : 1 up to 5 : 1 <0.25% Ʋ Turn down > 5 : 1 <0.05%xTD
InfluenceoftheproductorambienttemperatureThermal change zero signal and output spanApplies to the digitalsignaloutput(HART,ProfibusPA,FoundationFieldbus)aswellastoana-loguecurrentoutput4…20mAandreferstothesetspan.Turndown(TD)istherationominalmeasuring range/set span.Thermalchangezerosignalandoutputspan,referencetemperature20°C(68°F):
Ʋ In the compensated temperature range0…+100°C(+32…+212°F)
<(0.05%+0.1%xTD)
Ʋ Outside the compensated tempera-ture range
<(0.05%+0.15%xTD)
Thermalchangezerosignalandoutputspanwithabsolutepressuremeasuringrange0.1bar,referencetemperature20°C(68°F):
Ʋ In the compensated temperature range0…+100°C(+32…+212°F)
<(0.1%+0.1%xTD)
Ʋ Outside the compensated tempera-ture range
<(0.15%+0.15%xTD)
45
10 Supplement
WIKA Operating Instructions - Process pressure transmitter IPT-1*
Thermal change, current outputApplies also to the analogue4…20mAcurrentoutputandreferstothesetspan.Thermal change, current output <0.05%/10K,max.<0.15%,eachwith-40…+80°C
(-40…+176°F)
0,15 %
-0,15 %
-40°C -20°C 20°C 40°C 60°C 80°C
Fig. 22: Thermal change, current output
Long-termstability(accordingtoDIN16086andIEC60770-1)Applies to digitalHARTinterfaceaswellastoanaloguecurrentoutput4…20mAunderrefer-enceconditions.Specificationsrefertothesetspan.Turndown(TD)istherelationnominalmeas-uring range/set span.Long-termdriftofthezerosignal:
Ʋ For one year <0.05%xTD Ʋ Forfiveyears <0.1%xTD Ʋ For ten years <0.2%xTD
Ambient conditionsAmbient, storage and transport temperature
Ʋ Standard version -40…+80°C(-40…+176°F) Ʋ VersionsIP66/IP68(1bar)andIP68(25bar),connectioncablePUR
-20…+80°C(-4…+176°F)
Ʋ VersionIP66/IP68(1bar),connec-tion cable PE
-20…+60°C(-4…+140°F)
Process conditionsThespecificationsofthepressurestageandproducttemperatureareusedasanoverview.Thespecificationsonthetypelabelareapplicable.Pressurestage,processfitting
Ʋ Thread 316L, depending on connec-tion
PN10,PN60,PN160
Ʋ Thread Aluminium PN25 Ʋ Thread PVDF PN10 Ʋ Hygienicfittings316L,dependingonconnection
PN6,PN10,PN25,PN40(PN40onlywithDRDandDIN11851)
Ʋ Flange 316L PN16,PN40,150lbs,300lbs,600lbs
46
10 Supplement
WIKA Operating Instructions - Process pressure transmitter IPT-1*
Ʋ Flange with extension 316L withoutPNspecification,PN16,PN40or150lbs,300 lbs, 600 lbs
Ʋ Flangeflattenedonbothsides316L PN10 Ʋ Flange PVDF PN16
Product temperature depending on the measuring cell seal3)
Measuring cell seal Product temperature - standard version
Product temperature - version with extended temperature range
FKM(VP2/A) -20…+120°C(-4…+248°F) -20…+150°C(-4…+302°F)
FKM(A+P70.16) -40…+120°C(-40…+248°F) -
EPDM(A+P75.5/KW75F) -40…+120°C(-40…+248°F)1 h: 140 °C/284 °F cleaning tem-perature
-40…+150°C(-40…+302°F)
EPDM(ET7056) -40…+120°C(-40…+248°F)1 h: 140 °C/284 °F cleaning tem-perature
-
FFKM(Kalrez6375) -20…+120°C(-4…+248°F) -20…+150°C(-4…+302°F)
FFKM(PerlastG75S) -15…+120°C(-4…+248°F) -15…+150°C(5…+302°F)
FFKM(PerlastG75B) -15…+120°C(-4…+248°F) -15…+150°C(5…+302°F)
Vibration resistance mechanicalvibrationswith4gand5…100Hz4)
Shock resistance Acceleration 100 g/6 ms5)
Electromechanical data - version IP 66/IP 67Cable entry/plug6)
Ʋ Single chamber housing – 1xcableglandM20x1.5(cable:ø5…9mm),1xblind plug M20 x 1.5
or: – 1xclosingcap½NPT,1xblindplug½NPT
or: – 1␣xplug(dependingontheversion),1␣xblindstopperM20␣x␣1.5
or: – 2 x blind plug M20 x 1,5
47
10 Supplement
WIKA Operating Instructions - Process pressure transmitter IPT-1*
Ʋ Double chamber housing – 1xcableentryM20x1.5(cable:ø5…9mm),1xblind plug M20 x 1.5; plug M12 x 1 for the external displayandadjustmentunit(optional)
or: – 1xclosingcap½NPT,1xblindplug½NPT,plugM12 x 1 for the external display and adjustment unit (optional)
or: – 1xplug(dependingontheversion),1xblindplugM20 x 1.5; plug M12 x 1 for the external display and adjustmentunit(optional)
or: – 2 x blind stoppers M20 x 1.5; plug M12 x 1 for the externaldisplayandadjustmentunit(optional)
Spring-loaded terminals for wire cross-section
<2.5mm²(AWG14)
Electromechanical data - version IP 68Connection cable between IP 68 instrument and external housing:
Ʋ Configuration four wires, one suspension wire, one breather capillary, screen braiding, metal foil, mantle
Ʋ Wire cross-section 0.5mm²(AWG20) Ʋ Wire resistance <0.036Ω/m(0.011Ω/ft) Ʋ Standard length 5m(16.40ft) Ʋ Max. length 180m(590.5ft) Ʋ Min. bending radius at 25 °C/77 °F 25mm(0.985in) Ʋ Diameter approx. 8mm(0.315in) Ʋ Colour Blue
Cable entry/plug7)
Ʋ External housing – 1xcableglandM20x1.5(cable:ø5…9mm),1xblind plug M20 x 1.5
or: – 1␣xplug(dependingontheversion),1␣xblindstopperM20␣x␣1.5
Spring-loaded terminals for wire cross-section up to
2.5mm²(AWG14)
Display and adjustment moduleVoltage supply and data transmission through the sensorIndication LC display in dot matrixAdjustment elements 4 keysProtection rating
Ʋ unassembled IP 20 Ʋ mounted into the sensor without cover IP 40
Material
48
10 Supplement
WIKA Operating Instructions - Process pressure transmitter IPT-1*
Ʋ Housing ABS Ʋ Inspection window Polyester foil
Voltage supplyOperating voltage
Ʋ Non-Exinstrument 9…32VDC Ʋ EEx-ia instrument 9…24VDC Ʋ EEx-id instrument 9…32VDC
Operating voltage with illuminated display and adjustment module Ʋ Non-Exinstrument 12…32VDC Ʋ EEx-ia instrument 12…24VDC Ʋ EEx-id instrument 12…32VDC
Power supply by/max. number of sensors Ʋ Fieldbus max.32(max.10withEx)
Electrical protective measuresProtection rating
Ʋ Housing, standard IP 66/IP 678)
Ʋ Process component in IP 68 version IP68(25bar) Ʋ External housing IP 65
Overvoltage category IIIProtection class II
ApprovalsDependingontheversion,instrumentswithapprovalscanhavedifferenttechnicaldata.Fortheseinstruments, please note the corresponding approval documents. They are included in the scope of delivery.
10.2 Information on Foundation Fieldbus
Block diagram, measured value processingThefollowingillustrationshowstheTransducerBlockandFunctionblockinsimplifiedform.
49
10 Supplement
WIKA Operating Instructions - Process pressure transmitter IPT-1*
ti
Sim
ulat
e
ALAR
MS
OutPV
FIELD-VALUE
Mod
e &
Stat
us
PVF-
TIM
E
LOW-CUTOFF
L-TY
PEOU
T-SC
ALE
PV-S
CAL
E
DIRECT
INDIRECT
INDIRECTSQRT
bar % Lin%
PrimaryValue
SecondaryValue 1
SecondaryValue 2
Sensor mountingcorrection
AI 2
AI 3
AI 1
TBTemperature
Sensor_Value
Linearizationadjustment
Channel = 1: Primary ValueChannel = 2: Secondary Value 1Channel = 3: Secondary Value 2Channel = 4: Temperature
Fig. 23: Transducer Block IPT-1* Vers. 2.0 TB Transducer BlockAI Function Block (AI =Analogue Input)
Diagram, adjustmentThe following illustration shows the function of the adjustment:
Secondary_value_2
scale_in_0 scale_in_100 Sensor_value
0 %
100 %
bar
0,500-0,5000 % 100 %
scale_in_100scale_in_0
Fig. 24: Adjustment IPT-1* Vers. 2.0
Parameter listThe following list contains the most important parameters and their meaning:
• primary_value – ProcessValueaftermin/max-adjustmentandlinearization.SelectedasinputtoAIFBbysetting'Channel'=1.Unitderivesfrom'Primary_value_unit'
• primary_value_unit – Unitcodeof'Primary_value' – %
• secondary_value_1 – Processpressure.SelectedasinputtoAIFBbysetting'Channel'=2.Unitderivesfrom'Sec-
ondary_value_1_unit'• secondary_value_1_unit
– Unitcodeof'Secondary_value_1'
50
10 Supplement
WIKA Operating Instructions - Process pressure transmitter IPT-1*
– bar,PSI,…,m,ft,…;incaseoflengthtypeengineeringunitandaccesstoparametersthecor-responding values will be converted by density factor
• secondary_value_2 – Valueaftermin/max-adjustment.SelectedasinputtoAIFBbysetting'Channel'=3.Unit
derives from 'Secondary_value_2_unit'• secondary_value_2_unit
– Selectedunitcodefor"secondary_value_2"• sensor_value
– Rawsensorvalue,i.e.theuncalibratedmeasurementvaluefromthesensor.Unitderivesfrom'Sensor_range.unit'
• sensor_range – "Sensor_range.unit'refersto'Sensor_value','Max/Min_peak_sensor_value','Cal_point_hi/lo' – includessensorunit:bar,PSI…;onlyunitpartofDS-68iswritable
• simulate_primary_value• simulate_secondary_value_1• simulate_secondary_value_2• device status
– "0:""OK""13:""non-specificerror""17:""Calspantoosmall""34:""EEPROMmemoryfault""36:""ROMmemoryfault""37:""RAMmemoryfault""40:""non-specifichardwarefault""41:""Sensorelementnotfound""42:""Noleakingpulse""43:""Notriggersignal""44:""EMIerror""113:""Communicationhardwarefault"""
• linearizationtype – Possibletypesoflinearizationare:linear,userdefined,cylindricallyingcontainer,spherical
container – "0:""Linear""1:""Userdef""20:""Cylindricallyingcontainer""21:""Sphericalcontainer"""
• curve_points_1_10 – XandYvaluesfortheuserdefinedlinearizationcurve
• curve_points_11_20 – XandYvaluesfortheuserdefinedlinearizationcurve
• curve_points_21_30 – XandYvaluesfortheuserdefinedlinearizationcurve
• curve_points_31_33 – XandYvaluesfortheuserdefinedlinearizationcurve
• curve status – Resultoftableplausibilitycheck – "0:""Uninitialized""1:""Good""2:""Notmonotonousincreasing""3:""Notmonotonousdecreasing""4:""Notenoughvaluestransmitted""5:""Toomanyvaluestransmitted""6:""Gra-dientofedgetoohigh""7:""Valuesnotexcepted""8:""Tablecurrentlyloaded""9:""Sortingandcheckingtable"""
• SUB_DEVICE_NUMBER• SENSOR_ELEMENT_TYPE
– 0:"non-specific"• display_source_selector
– Selects the type of value that is displayed on the indication-/adjustement-module – "0:""Physicalvalue""1:""Percentvalue""2:""Linpercentvalue""6:""Out(AI1)""7:""Level""8:""Out(AI2)""9:""Out(AI3)"""
• max_peak_sensor_value – Holdsthemaximumsensorvalue.Writeaccessresetstocurrentvalue.Unitderivesfrom'Sen-
sor_range.unit' – Write access resets to current value
• min_peak_sensor_value – Holdstheminimumsensorvalue.Writeaccessresetstocurrentvalue.Unitderivesfrom'Sen-
sor_range.unit'
51
10 Supplement
WIKA Operating Instructions - Process pressure transmitter IPT-1*
– Write access resets to current value• CAL_POINT_HI
– Highest calibrated value. For calibration of the high limit point you give the high measurement value(pressure)tothesensorandtransferthispointasHIGHtothetransmitter.Unitderivesfrom 'Sensor_range.unit'
• CAL_POINT_LO – Lowest calibrated value. For calibration of the low limit point you give the low measurement value(pressure)tothesensorandtransferthispointasLOWtothetransmitter.Unitderivesfrom 'Sensor_range.unit'
• CAL_MIN_SPAN – Minimumcalibrationspanvalueallowed.Necessarytoensurethatwhencalibrationisdone,thetwocalibratedpoints(highandlow)arenottooclosetogether.Unitderivesfrom'Sen-sor_range.unit'
• SCALE_IN – Min/max-adjustment:Upperandlowercalibratedpointsofthesensor.Unitderivesfrom'Sen-
sor_range.unit'• trimmed_value
– Sensorvalueafterthetrimprocessing.Unitderivesfrom'Sensor_range.unit'• sensor_sn
– Sensor serial number• temperature
– Processtemperature.SelectedasinputtoAIFBbysetting'Channel'=4.Unitderivesfrom'Temperature.unit'
• temperature_unit – Unitcodeof'Temperature','Max/Min_peak_temperature_value' – °C,°F,K,°R
• max_peak_temperature_value – Holdsthemaximumprocesstemperature.Writeaccessresetstocurrentvalue.Unitderives
from 'Temperature.unit' – Write access resets to current value
• min_peak_temperature_value – Holdstheminimumprocesstemperature.Writeaccessresetstocurrentvalue.Unitderives
from 'Temperature.unit' – Write access resets to current value
10.3 DimensionsThedoublechamberhousingsareonlyavailableforEx-dversionwithinstrumentswith4…20mAsignal output.
52
10 Supplement
WIKA Operating Instructions - Process pressure transmitter IPT-1*
Plastic housing~ 69 mm(2.72")
ø 77 mm(3.03")
112
mm
(4.4
1")
M20x1,5/½ NPT
~ 84 mm (3.31")
M16x1,5
112
mm
(4.4
1")
M20x1,5/½ NPT1 2
ø 84 mm(3.31")
Fig. 25: Housing versions in protection IP 66/IP 68 (0.2 bar) - with integrated display and adjustment module the housing is 9 mm/0.35 in higher1 Single chamber version2 Double chamber version
Aluminium housing
21
ø 84 mm (3.31")
~ 116 mm (4.57")
116
mm
(4.5
7")
M20x1,5M20x1,5/½ NPT
~ 87 mm (3.43")
M16x1,5
ø 84 mm(3.31")
120
mm
(4.7
2")
M20x1,5/½ NPT
Fig. 26: Housing versions in protection IP 66/IP 68 (0.2 bar) - with integrated display and adjustment module the housing is 9 mm/0.35 in higher1 Single chamber version2 Double chamber version
53
10 Supplement
WIKA Operating Instructions - Process pressure transmitter IPT-1*
Stainless steel housing~ 69 mm
(2.72")ø 77 mm
(3.03")
117
mm
(4.6
1")
M20x1,5/½ NPT
~ 59 mm(2.32")
ø 80 mm(3.15")
112
mm
(4.4
1")
M20x1,5/½ NPT
~ 87 mm (3.43")
M16x1,5
ø 84 mm(3.31")
120
mm
(4.7
2")
M20x1,5/½ NPT 321
Fig. 27: Housing versions in protection IP 66/IP 68 (0.2 bar) - with integrated display and adjustment module the housing is 9 mm/0.35 in higher1 Single chamber version, electropolished2 Single chamber version, precision casting3 Double chamber version, precision casting
External housing with IP 68 version
1
2
65 mm(2.56")
68 m
m(2
.68"
)92
mm
(3.6
2")
42 mm(1.65")
40mm(1.58")
110 mm x 90 mm (4.33" x 3.54")
~ 66 mm (2.6")
59 m
m (2
.32"
)
Fig. 28: IP 68 version with external housing1 Lateral cable outlet2 Axial cable outlet
54
10 Supplement
WIKA Operating Instructions - Process pressure transmitter IPT-1*
IPT-1* Vers. 2.0 - standard version
NDGD
SW27
23m
m(2
9 /32
")G ½ A½ NPT
73m
m(2
7 /8"
)
3mm
(1/ 8
") ø 3mm (1/8") ø 6mm
(15/64")19
mm
(3/ 4
")
69m
m(2
23/ 3
2")
Fig. 29: IPT-1* Vers. 2.0 GD = G½ A manometer connection EN 837, ND = ½ NPT
55
10 Supplement
WIKA Operating Instructions - Process pressure transmitter IPT-1*
IPT-1*Vers.2.0-front-flushdiaphragm
50m
m(1
31/ 3
2")
51m
m(2
1 /64
")
ø 64mm (2 33/64")
51m
m(2
1 /64
")
ø 51mm(2 1/64")
ø 84mm (3 5/16")
RTSA
3R
55m
m(2
11/ 6
4")
ø 66mm (2 19/32")
ø 105mm (4 9/64")
3T
Fig. 30: IPT-1* Vers. 2.0 SA = Tri-Clamp 2", RT = Tri-Clamp 1½", 3T = DRD, 3R = Varivent Form F
56
Printing date:
WIKA Alexander Wiegand SE & Co. KGAlexander-Wiegand-Straße 3063911 KlingenbergGermanyPhone (+49) 9372/132-0Fax (+49) 9372 132-406E-mail: [email protected]
41226-EN
-130628
All statements concerning scope of delivery, application, practi-cal use and operating conditions of the sensors and processing systems correspond to the information available at the time of printing.
Process pressure transmitter IPT-1*