Yokogawa DPharp Differential Pressure and Pressure Transmitters
EJX110B, EJX310B and EJX430B Differential Pressure and ... · User’s ana Yoo gaa Electric...
Transcript of EJX110B, EJX310B and EJX430B Differential Pressure and ... · User’s ana Yoo gaa Electric...
User’sManual
Yokogawa Electric Corporation
EJX110B, EJX310B and EJX430BDifferential Pressure andPressure Transmitters
IM 01C27B01-01EN
IM 01C27B01-01EN15th Edition
Toc-1
IM 01C27B01-01EN
Contents1. Introduction ............................................................................................... 1-1
1.1 Safe Use of This Product .................................................................................1-21.2 Radio Wave ........................................................................................................1-31.3 Warranty .............................................................................................................1-41.4 Trademarks ........................................................................................................1-41.5 Control of Pollution Caused by the Product ..................................................1-5
2. Handling Cautions .................................................................................... 2-12.1 Model and Specifications Check .....................................................................2-12.2 Unpacking ..........................................................................................................2-12.3 Storage ...............................................................................................................2-22.4 Selecting the Installation Location ................................................................2-22.5 Pressure Connection ........................................................................................2-32.6 Restrictions on Use of Radio Transceivers ...................................................2-32.7 Insulation Resistance and Dielectric Strength Test ......................................2-32.8 Installation of an Explosion-Protected Instrument .......................................2-4
2.8.1 FM Approval .......................................................................................2-52.8.2 CSACertification ................................................................................2-62.8.3 ATEXCertification ..............................................................................2-62.8.4 IECExCertification .............................................................................2-8
2.9 EMC Conformity Standards .............................................................................2-82.10 Pressure Equipment Directive (PED) .............................................................2-92.11 Low Voltage Directive .......................................................................................2-92.12 Regulatory Compliance for Radio and Telecommunication ......................2-10
2.12.1 RadioEquipmentDirective(RE) ......................................................2-102.12.2 FCCcompliance ..............................................................................2-102.12.3 IndustryCanada(IC)compliance ....................................................2-10
2.13 RoHS ................................................................................................................. 2-11
3. Component Names .................................................................................. 3-14. Installation ................................................................................................. 4-1
4.1 Precautions .......................................................................................................4-14.2 Mounting ...........................................................................................................4-14.3 Changing the Process Connection .................................................................4-3
EJX110B, EJX310B and EJX430BDifferential Pressure and Pressure Transmitters
IM 01C27B01-01EN 15th Edition
15thEdition:July2019(YK)AllRightsReserved,Copyright©2009,YokogawaElectricCorporation
Toc-2
IM 01C27B01-01EN
4.4 Swapping the High/Low-pressure Side Connection .....................................4-34.4.1 RotatingPressure-detectorSection180° ......................................... 4-34.4.2 UsingtheConfigurationTool ..............................................................4-4
4.5 Rotating Transmitter Section ...........................................................................4-44.6 Changing the Direction of Integral Indicator .................................................4-54.7 Changing the direction of the antenna ...........................................................4-5
5. Installing Impulse Piping ......................................................................... 5-15.1 Impulse Piping Installation Precautions ........................................................5-1
5.1.1 ConnectingImpulsePipingtoaTransmitter ...................................... 5-15.1.2 Routing the Impulse Piping ................................................................5-3
5.2 Impulse Piping Connection Examples ...........................................................5-4
6. Wiring ......................................................................................................... 6-16.1 Mounting Antenna and Wiring .........................................................................6-1
6.1.1 Mounting the antenna ........................................................................6-16.1.2 Mounting External Antenna and Wiring Antenna Extension Cable ... 6-26.1.2.1 Mounting of External Antenna ............................................................6-26.1.2.2 Wiring of Antenna Extension Cable ................................................... 6-26.1.2.3 MountingofSurgeProtectiveDeviceandWiring .............................. 6-4
6.2 Grounding ..........................................................................................................6-46.3 Power Supply Wiring Precautions ..................................................................6-56.4 Selecting the Wiring Materials .........................................................................6-56.5 Connection of the External Power Source Terminal .....................................6-5
7. Operation ................................................................................................... 7-17.1 Preparation for Starting Operation .................................................................7-17.2 Zero Point Adjustment .....................................................................................7-27.3 Starting Operation ............................................................................................7-37.4 Connecting to the Field Wireless Network .....................................................7-37.5 Shutting Down the Transmitter .......................................................................7-57.6 Venting or Draining Transmitter Pressure-detector Section .......................7-6
7.6.1 Draining Condensate .........................................................................7-67.6.2 Venting Gas........................................................................................7-6
8. Setting Parameters ................................................................................... 8-18.1 Environment for parameter setting .................................................................8-18.2 Preparing Software ...........................................................................................8-1
8.2.1 SoftwaresfortheFieldWirelessConfigurationToolandtheDeviceConfigurationTool ..............................................................................8-1
8.2.2 SoftwareDownload ............................................................................8-18.3 Setting Parameters ...........................................................................................8-1
8.3.1 ParameterUsageandSelection ........................................................8-18.3.2 FunctionBlockandMenuTree ..........................................................8-28.3.3 ParametersforWirelessCommunication ........................................8-108.3.4 TagandDeviceInformation .............................................................8-10
Toc-3
IM 01C27B01-01EN
8.3.5 Unit ................................................................................................... 8-118.3.6 Range Change ................................................................................. 8-118.3.7 Output Mode .................................................................................... 8-118.3.8 OutputSignalLowCutModeSetup ................................................ 8-118.3.9 ImpulseLineConnectionOrientationSetup ....................................8-128.3.10 IntegralIndicatorDisplayMode .......................................................8-128.3.11 IntegralIndicatorScaleSetup ..........................................................8-128.3.12 Unit for Displayed Temperature .......................................................8-128.3.13 UnitforDisplayedStaticPressure ...................................................8-138.3.14 Zero Point Adjustment and Span Adjustment ..................................8-138.3.15 SoftwareWriteProtect .....................................................................8-158.3.16 SwitchingtoDeepSleepMode ........................................................8-168.3.17 SwitchingtoSilenceMode ...............................................................8-16
8.4 Self-Diagnostics ..............................................................................................8-178.4.1 IdentifyProblemsbyUsingtheDeviceConfigurationTool ..............8-178.4.2 Alert Report ......................................................................................8-188.4.3 CheckingwithIntegralIndicator .......................................................8-20
9. Maintenance .............................................................................................. 9-19.1 Overview ............................................................................................................9-19.2 Calibration Instruments Selection ..................................................................9-19.3 Calibration .........................................................................................................9-19.4 Disassembly and Reassembly ........................................................................9-3
9.4.1 ReplacingtheIntegralIndicator .........................................................9-39.4.2 ReplacingtheRFAssembly ...............................................................9-49.4.3 ReplacingtheCPUAssembly ............................................................9-49.4.4 CleaningandReplacingtheCapsuleAssembly ............................... 9-59.4.5 ReplacingtheProcessConnectorGaskets ....................................... 9-69.4.6 ReplacingtheBatteryPack ...............................................................9-69.4.7 ReplacingtheBatteries ......................................................................9-79.4.8 Handling Batteries ..............................................................................9-79.4.9 ReplacingthePowerSupplyModule ................................................. 9-8
9.5 Troubleshooting ................................................................................................9-89.5.1 BasicTroubleshooting .......................................................................9-99.5.2 TroubleshootingFlowcharts ...............................................................9-99.5.3 Errors and Countermeasures .......................................................... 9-11
10. Parameter Summary .............................................................................. 10-111. General Specifications .......................................................................... 11-1
11.1 Standard Specifications ................................................................................. 11-111.2 Model and Suffix Codes ................................................................................. 11-411.3 Optional Specifications ................................................................................. 11-911.4 Dimensions .................................................................................................... 11-12
Revision Information
<1. Introduction> 1-1
IM 01C27B01-01EN
1. IntroductionThankyouforpurchasingtheDPharpEJXDifferentialPressureandpressuretransmitter.
YourEJXPressureTransmitterwaspreciselycalibratedatthefactorybeforeshipment.Toensurebothsafetyandefficiency,pleasereadthismanualcarefullybeforeyouoperatetheinstrument.
NOTEThismanualcoverstheEJX110Bdifferentialpressure transmitter, EJX430B gauge pressure transmitter and EJX310B absolute pressure transmitteranddescribeshowtouseforthedetachableantennatypetransmitters(Amplifierhousingcode8or9).Unlessotherwisestated,theillustrationsinthismanualareoftheEJX110Bdifferentialpressuretransmitter withadetachableantennatype. Usersoftheothermodelsandspecificationsshouldbearinmindthatcertainfeaturesoftheirinstrumentwilldifferfromthoseshownintheillustrations of the EJX110B.
MODEL SUFFIXEJX110B
--8*--9*EJX310B
EJX430B
Regarding This Manual
• This manual should be provided to the end user.
• Thismanualandtheidentificationtagattachedonpackingboxareessentialpartsoftheproduct;keeptheminasafeplaceforfuturereference.
• Thecontentsofthismanualaresubjecttochangewithoutpriornotice.
• All rights reserved. No part of this manual may bereproducedinanyformwithoutYokogawa’swrittenpermission.
• Yokogawamakesnowarrantyofanykindwithregardtothismanual,including,butnotlimitedto,impliedwarrantyofmerchantabilityandfitnessforaparticularpurpose.
• If any question arises or errors are found, or if any information is missing from this manual, pleaseinformthenearestYokogawasalesoffice.
• Thespecificationscoveredbythismanualarelimited to those for the standard type under the specifiedmodelnumberbreak-downanddonotcovercustom-madeinstruments.Whenproductswhosesuffixcodeoroptionalcodescontaincode“Z”andanexclusivedocumentisattached,pleasereaditalongwiththismanual.
• Pleasenotethatchangesinthespecifications,construction,orcomponentpartsoftheinstrumentmaynotimmediatelybereflectedinthismanualatthetimeofchange,providedthatpostponementofrevisionswillnotcausedifficultytotheuserfromafunctionalorperformancestandpoint.
• Yokogawaassumesnoresponsibilitiesforthisproductexceptasstatedinthewarranty.
• Ifthecustomeroranythirdpartyisharmedbytheuseofthisproduct,Yokogawaassumesnoresponsibilityforanysuchharmowingtoanydefectsintheproductwhichwerenotpredictable,orforanyindirectdamages.
• Thefollowingsafetysymbolsareusedinthismanualandontheproduct:
WARNING
Indicatesapotentiallyhazardoussituationwhich,ifnotavoided,couldresultindeathorseriousinjury.
CAUTIONIndicatesapotentiallyhazardoussituationwhich,if not avoided, may result in minor or moderate injuryorphysicaldamage.Itmayalsobeusedtoalertagainstunsafepractices.
<1. Introduction> 1-2
IM 01C27B01-01EN
IMPORTANTIndicatesthatoperatingthehardwareorsoftwarein this manner may damage it or lead to system failure.
NOTEDrawsattentiontoinformationessentialforunderstanding the operation and features.
Functionalgroundingterminal
CautionThissymbolindicatesthattheoperatormustrefertoanexplanationintheuser’smanualinordertoavoidtheriskofinjuryor death of personnel or damage to the instrument.
Notice
NO RIGHTS OR LICENSES, EXPRESS OR IMPLIED,AREGRANTEDTOUSETHIRD-PARTYDEVICES IN COMBINATION WITH THESE PRODUCTSINAWIRELESSMESHNETWORK,ORTOUSETHIRD-PARTYSERVICESTOACCESS, MONITOR OR CONTROL THESE PRODUCTSINAWIRELESSMESHNEWORKVIA THE INTERNET OR ANOTHER EXTERNAL WIDEAREANETWORK.
Patent Marking
Coveredbyoneormoreclaimsofpatents:http://sipcollc.com/patent-list/and http://intusiq.com/patent-list/.
1.1 Safe Use of This Product Thisproductisdesignedtobeusedbyapersonwithspecializedknowledge.Forthesafetyoftheoperatorandtoprotecttheinstrumentandthesystem,pleasebesuretofollowthismanual’ssafetyinstructionswhenhandlingthisinstrument.Iftheseinstructionsarenotheeded,theprotectionprovided by this instrument may be impaired. In thiscase,Yokogawacannotguaranteethattheinstrumentcanbesafelyoperated.Pleasepayspecialattentiontothefollowingpoints:
(a) Installation
• This instrument may only be installed by an engineerortechnicianwhohasanexpertknowledgeofthisdevice.Operatorsarenotallowedtocarryoutinstallationunlesstheymeetthiscondition.
• Withhighprocesstemperatures,caremustbetakennottoburnyourselfbytouchingtheinstrumentoritscasing.
• Neverloosentheprocessconnectornutswhentheinstrumentisinstalledinaprocess.Thiscanleadtoasudden,explosivereleaseofprocessfluids.
• Whendrainingcondensatefromthepressuredetectorsection,takeappropriateprecautionsto prevent the inhalation of harmful vapors and thecontactoftoxicprocessfluidswiththeskinor eyes.
• When removing the instrument from a hazardousprocess,avoidcontactwiththefluidand the interior of the meter.
• Allinstallationshallcomplywithlocalinstallationrequirementsandthelocalelectricalcode.
(b) Wiring
• The instrument must be installed by an engineerortechnicianwhohasanexpertknowledgeofthisinstrument.Operatorsarenotpermittedtocarryoutwiringunlesstheymeetthiscondition.
<1. Introduction> 1-3
IM 01C27B01-01EN
(c) Maintenance
• Pleasecarryoutonlythemaintenanceproceduresdescribedinthismanual.Ifyourequirefurtherassistance,pleasecontactthenearestYokogawaoffice.
• Careshouldbetakentopreventthebuildupofdust or other materials on the display glass and thenameplate.Tocleanthesesurfaces,useasoft,drycloth.
(d) Explosion Protected Type Instrument
• Users of explosion proof instruments should referfirsttosection2.8(InstallationofanExplosionProtectedInstrument)ofthismanual.
• Theuseofthisinstrumentisrestrictedtothosewhohavereceivedappropriatetraininginthedevice.
• Takecarenottocreatesparkswhenaccessingtheinstrumentorperipheraldevicesinahazardouslocation.
• Repairormodificationtothisinstrumentbycustomerwillcausemalfunctionofexplosionprotectfunctionandhazardoussituation.Ifyouneedtorepairormodification,pleasecontactthenearestYokogawaoffice.
(e) Modification
• Yokogawawillnotbeliableformalfunctionsordamageresultingfromanymodificationmadetothisinstrumentbythecustomer.
(f) Product Disposal
• The instrument should be disposed of in accordancewithlocalandnationallegislation/regulations.
(g) Authorized Representative in EEA
• InrelationtotheCEMarking,TheauthorizedrepresentativeforthisproductintheEEA(EuropeanEconomicArea)is:
YokogawaEuropeB.V. Euroweg2,3825HDAmersfoort,
The Netherlands
1.2 Radio Wave
IMPORTANT- Thisinstrumentisequippedwithawireless
modulewhichisdesignatedasacertificationofconstructiontypeasawirelessfacilityfor2.4GHzbandlow-powerdatacommunicationsystemoftheRadioAct.Referto2.12“RegulatoryComplianceforRadioandTelecommunication”fordetail.
- Duetothedesignatedcertificationofconstructiontype,usersmaybesubjecttolegalpunishmentincaseof:- Disassemblingormodifyingthewireless
module or antenna in this instrument- Peelingoffthecertificationlabelattachedtothewirelessmoduleinthisinstrument
- Preventinginterferencewithotherwirelessstations
Theoperatingfrequencybandwidthofthisinstrument may overlap the same range asindustrialdevices,scientificdevices,medicaldevices,microwaveovens,licensedpremisesradiostationsandnon-licensedspecifiedlow-powerradiostationsformobileobjectidentificationsystemsusedinfactoryproductionlines.
Before using this instrument, ensure that neitherapremisesradiostationnorspecifiedlowpowerradiostationformobileobjectidentificationsystemsisinusenearby.
Ifthisinstrumentcausesradiowaveinterferencetoawirelessstationformobileobjectidentificationsystems,promptlychangethefrequencybeingusedorturnoffthesourceofradiowaveemissions.Then,contactaYokogawaofficeregardingcountermeasurestopreventinterference,suchassettinguppartitions.
<1. Introduction> 1-4
IM 01C27B01-01EN
1.3 Warranty• Thewarrantyshallcovertheperiodnotedonthequotationpresentedtothepurchaseratthetimeofpurchase.Problemsoccurringduringthewarrantyperiodshallbasicallyberepairedfreeofcharge.
• Ifanyproblemsareexperiencedwiththisinstrument,thecustomershouldcontacttheYokogawarepresentativefromwhichthisinstrumentwaspurchasedorthenearestYokogawaoffice.
• Ifaproblemariseswiththisinstrument,please inform us of the nature of the problem andthecircumstancesunderwhichitdeveloped,includingthemodelspecificationand serial number. Any diagrams, data and otherinformationyoucanincludeinyourcommunicationwillalsobehelpful.
• ThepartyresponsibleforthecostoffixingtheproblemshallbedeterminedbyYokogawafollowinganinvestigationconductedbyYokogawa.
• Thepurchasershallbeartheresponsibilityforrepaircosts,evenduringthewarrantyperiod,ifthemalfunctionisdueto:
- Improperand/orinadequatemaintenancebythepurchaser.
- Malfunctionordamageduetoafailureto handle, use, or store the instrument in accordancewiththedesignspecifications.
- UseoftheproductinquestioninalocationnotconformingtothestandardsspecifiedbyYokogawa,orduetoimpropermaintenanceoftheinstallationlocation.
- FailureordamageduetomodificationorrepairbyanypartyexceptYokogawaoranapprovedrepresentativeofYokogawa.
- Malfunctionordamagefromimproperrelocationoftheproductinquestionafterdelivery.
- Reasonofforcemajeuresuchasfires,earthquakes,storms/floods,thunder/lightening, or other natural disasters, or disturbances,riots,warfare,orradioactivecontamination.
1.4 TrademarksInthisdocument,trademarksorregisteredtrademarksarenotmarkedwith“™”or“®”.Productnamesandcompanynamesinthisdocumentaretrademarksorregisteredtrademarksoftherespectivecompanies
<1. Introduction> 1-5
IM 01C27B01-01EN
1.5 Control of Pollution Caused by the ProductThisisanexplanationfortheproductbasedon“ControlofPollutioncausedbyElectronicInformationProducts”inthePeople’sRepublicofChina.
電子情報製品汚染制御管理弁法(中国版RoHS) 产品中有害物质或元素的名称及含量
产品中有害物质或元素的名称及含量
型号 部件名称有害物质
铅(Pb)
汞(Hg)
镉(Cd)
六价铬(Cr(VI))
多溴联苯(PBB)
多溴二苯醚(PBDE)
EJX-B series无线差压 / 压力变送器
YTA510无线温度变送器
壳体 × ○ ○ ○ ○ ○
膜盒组件 × ○ ○ ○ ○ ○
基板组件 × ○ ○ × ○ ○
电源连接线 × ○ ○ ○ ○ ○
天线组件 × ○ ○ ○ ○ ○
电池组件 × ○ ○ ○ ○ ○
○ :表示该部件的所有均质材料中的有害物质的含量均在 GB/T26572 标准中所规定的限量以下。× :表示至少该部件的某些均质材料中的有害物质的含量均在 GB/T26572 标准中所规定的限量以上。
环保使用期限 :
该标识适用于 SJ /T11364 中所述,在中华人民共和国销售的电子电气产品的环保使用期限。
注)该年数为“环保使用期限”,并非产品的质量保证期。
<2. Handling Cautions> 2-1
IM 01C27B01-01EN
2. Handling CautionsThischapterprovidesimportantinformationonhowtohandlethetransmitter.Readthiscarefullybeforeusing the transmitter.
EJX Series transmitters are thoroughly tested at the factorybeforeshipment.Whentakingdeliveryofaninstrument,visuallycheckthemtomakesurethatnodamageoccurredduringshipment.
Alsocheckthatalltransmittermountinghardwareshowninfigure2.1isincluded.Ifthetransmitterisorderedwithoutthemountingbracketandtheprocessconnector,thetransmittermountinghardwarewillnotbeincluded.Aftercheckingthetransmitter,carefullyrepackitinitsboxandkeepitthere until you are ready to install it.
No antenna is provided for Amplifier housing code 9.
BoltProcess connectorProcess connector gasket
U-bolt nut
Mounting bracket(L type)
Transmitter mounting bolt
Spacer
Mounting bracket (Flat type)
F0201.ai
U-bolt nut
Transmitter mounting bolt
U-bolt
U-bolt
Antenna
Figure 2.1 Transmitter Mounting Hardware
2.1 Model and Specifications Check
Themodelnameandspecificationsarewrittenonthenameplateattachedtothecase.
: Refer to USER'S MANUAL.Made in JapanTOKYO 180-8750 JAPAN
MODELSUFFIX
SUPPLYOUTPUTMWP
mA DCV DC
STYLE
CALRNG
NO.
F0202.ai
Figure 2.2 Name Plate
• QR CodeTheproducthasaQRCodepastedforefficientplantmaintenanceworkandassetinformationmanagement. Itenablesconfirmingthespecificationsofpurchasedproductsanduser’smanuals.Formoredetails,pleaserefertothefollowingURL.https://www.yokogawa.com/qr-codeQRCodeisaregisteredtrademarkofDENSOWAVE INCORPORATED.
2.2 UnpackingKeepthetransmitterinitsoriginalpackagingtoprevent it from being damaged during shipment. Donotunpackthetransmitteruntilitreachestheinstallation site.
<2. Handling Cautions> 2-2
IM 01C27B01-01EN
2.3 StorageThefollowingprecautionsmustbeobservedwhenstoringtheinstrument,especiallyforalongperiod.
(a) Selectastorageareawhichmeetsthefollowingconditions:• Itisnotexposedtorainorsubjecttowaterseepage/leaks.
• Vibrationandshockarekepttoaminimum.• It has an ambient temperature and relative humiditywithinthefollowingranges.
Ambient temperature: –40to85°C –30to80°CLCDvisiblerangeRelative humidity: 0% to 100% R.H. Preferred temperature and humidity: approx.25°Cand65%R.H.
(b) Whenstoringthetransmitter,repackitcarefullyinthepackagingthatitwasoriginallyshippedwith.
(c) Ifthetransmitterhasbeenused,thoroughlycleanthechambersinsidethecoverflanges,sothatthereisnoprocessfluidremaininginside.Beforeplacingitinstorage,alsomakesurethatthepressure-detectorissecurelyconnectedtothetransmittersection.
(d) Preferablyremovethebatteriesforstorage.Formaximum battery life, the storage temperature shouldnotexceed30°C.
NOTEWhenstoringtheinstrumentwithabatterypack,itisrecommendedtoputtheinstrumentinDeepSleepmodetoconservethebatteries.FordetailsonhowtoswitchtoDeepSleepmode,refertosubsection8.3.16“SwitchingtoDeepSleepMode”.
2.4 Selecting the Installation Location
Thetransmitterisdesignedtowithstandsevereenvironmentalconditions.However,toensurethatitwillprovideyearsofstableandaccurateperformance,takethefollowingprecautionswhenselectingtheinstallationlocation.
(a) WirelessCommunication
NOTETheinstallationlocationofthistransmittermustmeetthefollowingconditions:- Adjustthedirectionoftheantennatobe
in the upright position regardless of the orientationofthistransmitter.Seesection4for adjusting the antenna.
- Install the transmitter at least 1.5m above thegroundorfloor.
F0203.ai
1.5m
or m
ore
- Ensurethattherearenoobstaclessuchaswallsorpipeswithina30-cmradiusofeachantenna.
- ConfirmthateachfieldwirelessequipmentcompliantwithISA100.11acanseetheantennaofotherdeviceswhichlocatewithinitsowncommunicationrange.Inthestartopologynetwork,thevisibilitytotheantennaofgatewayisamandatoryclause.
<2. Handling Cautions> 2-3
IM 01C27B01-01EN
(b) AmbientTemperatureAvoidlocationssubjecttowidetemperaturevariationsorasignificanttemperaturegradient.Ifthelocationisexposedtoradiantheatfromplant equipment, provide adequate thermal insulation and/or ventilation.
(c) AmbientAtmosphereDonotinstallthetransmitterinacorrosiveatmosphere.Ifthiscannotbeavoided,theremust be adequate ventilation.
(d) ShockandVibrationAlthough the transmitter is designed to be relativelyresistanttoshockandvibration,aninstallationsiteshouldbeselectedwherethisiskepttoaminimum.
(e) InstallationofExplosion-protectedTransmittersAnexplosion-protectedtransmittersiscertifiedforinstallationinahazardousareacontainingspecificgastypes.Seesubsection2.8“InstallationofanExplosion-ProtectedTransmitters.”
2.5 Pressure Connection
WARNING
• Neverloosentheprocessconnectorboltswhenaninstrumentisinstalledinaprocess.Thedeviceisunderpressure,andalossofsealcanresultinasuddenanduncontrolledreleaseofprocessfluid.
• Whendrainingtoxicprocessfluidsthathavecondensedinsidethepressuredetector,takeappropriatestepstopreventthecontactofsuchfluidswiththeskinoreyesandtheinhalationofvaporsfromthesefluids.
Thefollowingprecautionsmustbeobservedin order to safely operate the transmitter under pressure.
(a) Makesurethatalltheprocessconnectorboltsaretightenedfirmly.
(b) Makesurethattherearenoleaksintheimpulsepiping.
(c) Neverapplyapressurehigherthanthespecifiedmaximumworkingpressure.
2.6 Restrictions on Use of Radio Transceivers
IMPORTANTAlthough the transmitter has been designed to resisthighfrequencyelectricalnoise,ifaradiotransceiverisusednearthetransmitteroritsexternalwiring,thetransmittermaybeaffectedbyhighfrequencynoisepickup.Totestthis,startoutfromadistanceofseveralmetersandslowlyapproachthetransmitterwiththetransceiverwhileobservingthemeasurementloopfornoiseeffects.Thereafterusethetransceiveroutsidetherangewherethenoiseeffectswerefirstobserved.
2.7 Insulation Resistance and Dielectric Strength Test
Sincethetransmitterhasundergoneinsulationresistanceanddielectricstrengthtestsatthefactorybefore shipment, normally these tests are not required.Iftheneedarisestoconductthesetests,heedthefollowing:
(a) Donotperformsuchtestsmorefrequentlythanisabsolutelynecessary.Eventestvoltagesthatdonotcausevisibledamagetotheinsulationmaydegradetheinsulationandreducesafetymargins.
(b) Neverapplyavoltageexceeding500VDC(100VDCwithaninternallightningprotector)fortheinsulationresistancetest,noravoltageexceeding500VAC(100VACwithaninternallightningprotector)forthedielectricstrengthtest.
(c) Theprocedureforconductingthesetestsisasfollows:
<2. Handling Cautions> 2-4
IM 01C27B01-01EN
• Insulation Resistance Test
1)Removethebatterypackorpowersupplymodule.Seesubsection9.4.6ReplacingtheBatteryPackor9.4.9ReplacingthePowerSupply Module.
2)Short-circuitthebatteryconnectionterminalsinthe terminal box.
3)TurnOFFtheinsulationtester.Thenconnecttheinsulationtesterplus(+)leadwiretotheshortedbatteryconnectionterminalsandtheminus(–)leadwiretothegroundingterminal.
4)TurnONtheinsulationtesterpowerandmeasuretheinsulationresistance.Thevoltageshouldbeappliedasbrieflyaspossibletoverifythattheinsulationresistanceisatleast20MΩ.
5)Aftercompletingthetestandbeingverycarefulnottotouchexposedconductorsdisconnecttheinsulationtesterandconnecta100kΩresistorbetweenthegroundingterminalandtheshort-circuitingbatteryconnectionterminals.Leavethisresistorconnectedatleastonesecondtodischargeanystaticpotential.Donottouchtheterminalswhileitisdischarging.
NOTEWhenstoringtheinstrumentwithabatterypack,itisrecommendedtoputtheinstrumentinDeepSleepmodetoconservethebatteries.FordetailsonhowtoswitchtoDeepSleepmode,refertosubsection8.3.16“SwitchingtoDeepSleepMode”.
• Dielectric Strength Test
1)Removethebatterypackorpowersupplymodule.Seesubsection9.4.6ReplacingtheBatteryPackor9.4.9ReplacingthePowerSupply Module.
2)Short-circuitthebatteryconnectionterminalsinthe terminal box.
3)TurnOFFthedielectricstrengthtester.Thenconnectthetesterbetweentheshortedbatteryconnectionterminalsandthegroundingterminal.Besuretoconnectthegroundingleadofthedielectricstrengthtestertothegroundterminal.
4)Setthecurrentlimitonthedielectricstrengthtesterto0.1mA,thenturnONthepowerandgraduallyincreasethetestvoltagefrom‘0’tothespecifiedvoltage.
5)Whenthespecifiedvoltageisreached,holditfor one minute.
6)Aftercompletingthistest,slowlydecreasethevoltage to avoid any voltage surges.
NOTEWhenstoringtheinstrumentwithabatterypack,itisrecommendedtoputtheinstrumentinDeepSleepmodetoconservethebatteries.FordetailsonhowtoswitchtoDeepSleepmode,refertosubsection8.3.16“SwitchingtoDeepSleepMode”.
2.8 Installation of an Explosion-Protected Instrument
Ifacustomermakesarepairormodificationtoanintrinsicallysafeinstrumentandtheinstrumentisnotrestoredtoitsoriginalcondition,itsintrinsicallysafeconstructionmaybecompromisedandtheinstrumentmaybehazardoustooperate.PleasecontactYokogawabeforemakinganyrepairormodificationtoaninstrument.
CAUTIONThisinstrumenthasbeentestedandcertifiedasbeingintrinsicallysafe.Pleasenotethatsevererestrictionsapplytothisinstrument’sconstruction,installation,externalwiring,maintenanceandrepair.Afailuretoabidebytheserestrictionscouldmaketheinstrumentahazardtooperate.
WARNING
Thebatterypackmaybereplacedinahazardousarea.Thebatterypackhassurfaceresistivitygreaterthan1Gohmandmustbeproperlyinstalledintheenclosureofthetransmitter.Caremustbetakenduringtransportation to and from the point of installation topreventelectrostaticchargebuild-up.
<2. Handling Cautions> 2-5
IM 01C27B01-01EN
2.8.1 FM ApprovalCautionforFMintrinsicallysafetype.(Followingcontentsrefer“DOC.No.IFM037-A20”)
Note1. ModelEJXSeriesDifferential,gaugeandabsolutepressuretransmitterswithoptionalcode/FS17areapplicableforuseinhazardouslocations.
• ApplicableStandard:Class3600:2011, Class 3610:2015, Class 3611:2016, Class 3810:2005, ANSI/UL-60079-0-2013, ANSI/UL-60079-11-2014, NEMA-250:2003
• IntrinsicallySafeforClassI,Division1,Groups A, B, C & D, Class II, Division 1, Groups E, F & G and Class III, Division 1, ClassI,Zone0,inHazardousLocations,AExia IIC
• NonincendiveforClassI,Division2,GroupsA, B, C & D, Class II, Division 2, Groups F & G and Class III, Division 1, Class I, Zone 2, GroupsIIC,inHazardousLocations.
• Enclosure:Type4X• Temperature Class: T4• Ambienttemperature:-50to70°C
Note 2. Installation• Installationshouldbeinaccordancewith
ANSI/ISA-RP12.06.01 and the National ElectricCode(NFPA70).
• Dust-tightconduitsealmustbeusedwheninstalled in a Class II, III, Group E, F and G environments.
• Noteawarninglabelworded“SUBSTITUTIONOFCOMPONENTSMAYIMPAIRINTRINSICSAFETY,”and“INSTALLIN ACCORDANCE WITH DOC. NO. IFM037-A20”.
Model: EJX-L Series Date: March 8, 2010
Rev.1: May 21, 2010 Doc. No.: IFM037-A20 P.1 Rev.2: October 16, 2012 Rev.3: April 24, 2014 Rev.4: July 11, 2016
Yokogawa Electric Corporation
9.0 Control Drawing Specific conditions of use: - In case of the enclosure of the Pressure Transmitter is made of aluminum, if it is
mounted in Zone 0, it must be installed such, that, even in the event of rare incidents, ignition sources due to impact and friction sparks are excluded.
- Electrostatic charges on the non-metallic parts (excluding glass parts) or coated parts of the Pressure Transmitter shall be avoided.
Model: EJX-L Series Date: March 8, 2010
Rev.1: May 21, 2010 Doc. No.: IFM037-A20 P.1 Rev.2: October 16, 2012 Rev.3: April 24, 2014 Rev.4: July 11, 2016
Yokogawa Electric Corporation
Notes: 1. No revision to this drawing without prior approval of FM.
2. Installation must be in accordance with the National Electric Code (NFPA 70),
ANSI/ISA-RP12.06.01 and relevant local codes.
3. Antenna and Arrester are simple apparatus.
3.1 The following conditions must be met. (total Li of simple apparatus) + (total Lcable) ≤ 1 mH (total Ci of simple apparatus) + (total Ccable) ≤ 1 μF
3.2 The temperature class of Antenna and Arrester must be determined from Po = 20 mW at Antenna Connector, in accordance with Article 504 of NFPA 70.
3.3 Arrester may not be connected. 3.4 The connection diagram is for the transmitter with an external an antenna
connection. The transmitter with an integral antenna has no external connection as shown in the diagram.
4. WARNING – POTENTIAL ELECTROSTATIC CHARGING HAZARD – SECURE DISTANCE OF 100MM FROM ANTENNA
5. WARNING – IN THE CASE WHERE THE ENCLOSURE OF THE PRESSURE TRANSMITTER IS MADE OF ALUMINUM, IF IT IS MOUNTED IN ZONE 0, IT MUST BE INSTALLED SUCH, THAT EVEN IN THE EVENT OF RARE NCIDENTS, IGNITION SOURCES DUE TO IMPACT AND FRICTION SPARKS ARE EXCLUDED
6. WARNING – DO NOT OPEN WHEN CL II, III, DIV 1, 2 ATMOSPHERE IS
PRESENT
7. WARNING – USE ONLY BATTERY PACK YOKOGAWA F9915MA OR F9915NS
8. WARNING – THE BATTERY PACK CAN BE REPLACED IN A HAZARDOUS LOCATION. THE BATTERY PACK HAS SURFACE RESISTIVITY GREATER THAN 1G OHM AND MUST BE PROPERLY INSTALLED IN THE ENCLOSURE OF THE TRANSMITTER. CARE MUST BE TAKEN DURING TRANSPORTATION TO AND FROM THE POINT OF INSTALLATION TO PREVENT ELECTROSTATIC CHARGE BUILD-UP
9. WARNING – SUBSTITUTION OF COMPONENTS MAY IMPAIR INTRINSIC SAFETY
OnlyElectricalconnectioncode:Jisapplicable.
<2. Handling Cautions> 2-6
IM 01C27B01-01EN
Note3. MaintenanceandRepair• TheinstrumentmodificationorpartsreplacementbyotherthanauthorizedrepresentativeofYokogawaElectricCorporationisprohibitedandwillvoidFMApprovals approval.
Note4. BatteryPack USEONLYBATTERYPACKYOKOGAWA
F9915MA OR F9915NS.Note5. SpecialConditionsforsafeuse POTENTIAL ELECTROSTATIC CHARGING
HAZARD-SECURE DISTANCE OF 100MM FROM ANTENNA.
DO NOT OPEN WHEN CL II, III, DIV 1,2 ATMOSPHERE IS PRESENT.
2.8.2 CSA CertificationCautionforCSAIntrinsicallysafetype.(Followingcontentsreferto“DOCNo.ICS030”)Note1. ModelEJXSeriesdifferential,gauge,
andabsolutepressuretransmitterswithoptionalcode/CS17areapplicableforuseinhazardouslocations
• No. CSA10CA2325443X• Applicablestandard:
CAN/CSA-C22.2 No.94, C22.2 No.213, CAN/CSA-C22.2 No.61010-1, CAN/CSA-C22.2 No.60079-0, CAN/CSA-C22.2 No.60079-11, CAN/CSA-C22.2 No.60529
• Ex ia IIC T4 Ga• IntrinsicallySafeforClassI,Division1,
Groups A, B, C & D, Class II, Division 1, Groups E, F & G, Class III, Division 1
• NonincendiveforClassI,Division2, Groups A, B, C & D, Class II, Division2, Groups F & G, Class III, Division1
• Enclosure:IP66/IP67andType4X• Temperature Code: T4• AmbientTemperature:-50to70°C• Max.ProcessTemp.:120°C
Note 2. Installation• InstallationshouldbeinaccordancewithCanadianElectricalCodePartIandLocalElectricalCode.
• Donotalterdrawingwithoutauthorizationfrom CSA.
• TheinstrumentmodificationorpartsreplacementbyotherthanauthorizedrepresentativeofYokogawaElectricCorporationisprohibitedandwillvoidCanadianStandardsIntrinsicallysafeandnonincendiveCertification.
[Installation Diagram]
F0205.ai
Transmitter
[Intrinsically Safe]Group IIC, Zone 0Class I, II, III, Division 1,Groups A,B,C,D,E,F,G
[Nonincendive]Class I, II, Division 2,Groups A,B,C,D,F,GClass III, Division 1
Antenna(*1)
Arrester(*1, *2)
*1: These apparatus are simple apparatus.*2: Arrester may not be connected.
Antenna Connector
Battery Pack
Hazardous Area
Note3. BatteryPack• UseonlyYOKOGAWAbatterypack
F9915MA or F9915NS.Note4. SpecialConditionsforsafeuse
• Potentialelectrostaticcharginghazard-securedistanceof100mmfromantenna.
OnlyElectricalconnectioncode:Jisapplicable.
2.8.3 ATEX Certification
(1) Technical Data
CautionforATEXIntrinsicallysafetype.Note 1. Model EJX Series pressure transmitters
withoptionalcode/KS27forpotentiallyexplosive atmospheres:
• No.KEMA10ATEX0164X• ApplicableStandard: EN60079-0:2012+A11:2013 EN 60079-11: 2012, EN 60079-28: 2015
• TypeofProtectionandMarkingcode: Ex ia op is IIC T4 Ga
• Group: II• Category: 1 G• AmbientTemperature:–50°Cto70°C• ProcessTemperature(Tp.):120°Cmax.• Enclosure:IP66/IP67
<2. Handling Cautions> 2-7
IM 01C27B01-01EN
Note 2. Installation• Installationshouldbeinaccordancewithlocalinstallationrequirements.(RefertotheControlDrawing)
[Control Drawing]
F0206.ai
*1: These apparatus are simple apparatus.*2: Arrester may not be connected.
Hazardous Area
Transmitter
Battery Pack
Arrester(*1, *2)
Antenna(*1)
Antenna connector
Note3. BatteryPack• UseonlyYOKOGAWAbatterypack
F9915MA or F9915NS.
Note4. SpecialconditionsforSafeUse• IncasetheenclosureofthePressure
Transmitter is made of aluminum, if it ismountedinanareawheretheuseofcategory1Gapparatusisrequired,itmustbeinstalledsuch,that,evenintheeventofrareincidents,ignitionsourcesduetoimpactandfrictionsparksareexcluded.
• Electrostaticchargesonthenon-metallicparts(excludingglassparts)orcoatedpartsof the Pressure Transmitter shall be avoided.
WARNING
Potentialelectrostaticcharginghazard-securedistanceof100mmfromantenna.
(2) Operation
WARNING
Takecarenottogeneratemechanicalsparkingwhenaccesstotheinstrumentandperipheraldevicesinahazardouslocation.
(3) Maintenance and repair
WARNING
TheinstrumentmodificationorpartsreplacementbyotherthananauthorizedRepresentativeofYokogawaElectricCorporationisprohibitedandwillvoidthecertification.
(4) Name Plate
• Name Plate
: Refer to USER'S MANUAL.Made in JapanTOKYO 180-8750 JAPAN
MODELSUFFIX
SUPPLYOUTPUTMWP
mA DCV DC
STYLE
CALRNG
NO.
F0207.ai
• Tagplateforintrinsicallysafetype
F0208.ai
KS27
No. KEMA 10ATEX0164 X Ex ia op is IIC T4 GaENCLOSURE: IP66/IP67Tamb.: -50 TO 70°C MAX PROCESS TEMP.: 120°C*3
POTENTIAL ELECTROSTATIC CHARGING HAZARD - SECURE DISTANCE OF 100MM FROM ANTENNA.USE ONLY BATTERY PACK YOKOGAWA F9915MA OR F9915NS.POTENTIAL ELECTROSTATIC CHARGING HAZARD - SEE USER'S MANUAL.
WARNING
MODEL:Specifiedmodelcode. STYLE:Stylecode. SUFFIX:Specifiedsuffixcode. SUPPLY:Supplyvoltage. OUTPUT: Output signal. MWP:Maximumworkingpressure. CALRNG:Specifiedcalibrationrange. NO.:Serialnumberandyearofproduction *1. TOKYO180-8750JAPAN: Themanufacturernameandtheaddress *2.
*1: Thefirstdigitinthefinalthreenumbersoftheserialnumberappearingafter“NO.”onthenameplateindicatestheyearofproduction.Thefollowingisanexampleofaserialnumberforaproductthatwasproducedin2010: 91K819857 032 ↑ The year 2010
*2: “180-8750”isazipcodewhichrepresentsthefollowingaddress.2-9-32Nakacho,Musashino-shi,TokyoJapan
*3: TheidentificationnumberofNotifiedBody.
OnlyElectricalconnectioncode:Jisapplicable.
<2. Handling Cautions> 2-8
IM 01C27B01-01EN
2.8.4 IECEx CertificationCautionforIECExIntrinsicallysafetype.
Note 1. Model EJX Series pressure transmitters withoptionalcode/SS27forpotentiallyexplosive atmospheres:
• No.IECExKEM10.0074X• ApplicableStandard:
IEC 60079-0:2011, IEC 60079-11:2011, IEC 60079-28:2015
• TypeofProtectionandMarkingcode: Ex ia op is IIC T4 Ga*
*ForOutputsignal-L,theTypeofProtectionandMarkingcodeisExiaIICT4Ga.
• AmbientTemperature:–50°Cto70°C• ProcessTemperature(Tp.):120°Cmax.• Enclosure:IP66/IP67
Note 2. Installation• Installationshouldbeinaccordancewithlocalinstallationrequirements. (RefertotheControlDrawing)
[Control Drawing]
F0209.ai
Hazardous Area
*1: These apparatus are simple apparatus.*2: Arrester may not be connected.
Transmitter
Battery Pack
Arrester(*1, *2)
Antenna(*1)
Antenna connector
Note3. MaintenanceandRepair• TheinstrumentmodificationorpartsreplacementbyotherthanauthorizedrepresentativeofYokogawaElectricCorporationisprohibitedandwillvoidIECExIntrinsicallysafeCertification.
WARNING
TheinstrumentmodificationorpartsreplacementbyotherthananauthorizedRepresentativeofYokogawaElectricCorporationisprohibitedandwillvoidthecertification.
Note4. BatteryPack• UseonlyYOKOGAWAbatterypack
F9915MA or F9915NS.
Note5. SpecialconditionsforSafeUse• IncasetheenclosureofthePressure
Transmitter is made of aluminum, if it ismountedinanareawheretheuseofapparatusofequipmentprotectionlevelGaisrequired,itmustbeinstalledsuch,that,evenintheeventofrareincidents,ignitionsourcesduetoimpactandfrictionsparksareexcluded.
• Electrostaticchargesonthenon-metallicparts(excludingglassparts)orcoatedpartsof the Pressure Transmitter shall be avoided.
WARNING
• Potentialelectrostaticcharginghazard-securedistanceof100mmfromantenna.
• Takecarenottogeneratemechanicalsparkingwhenaccesstotheinstrumentandperipheraldevicesinahazardouslocation.
OnlyElectricalconnectioncode:Jisapplicable.
2.9 EMC Conformity StandardsEN61326-1ClassA,Table2(Foruseinindustriallocations),EN61326-2-3
CAUTIONThisinstrumentisaClassAproduct,anditisdesigned for use in the industrial environment. Please use this instrument in the industrial environment only.
<2. Handling Cautions> 2-9
IM 01C27B01-01EN
2.10 Pressure Equipment Directive (PED)
(1) General
• EJX Series pressure transmitters are categorizedaspressureaccessoriesunderthevesselsectionofdirective2014/68/EU,whichcorrespondstoArticle4,Paragraph3ofPED,denotedasSoundEngineeringPractice(SEP).
• EJX110B-MS, EJX110B-HS, EJX110B-VS, EJX510B-D, and EJX530B-Dcanbeusedabove200barandthereforeconsideredasapartofapressureretainingvesselwherecategoryIII,ModuleHapplies.Thesemodelswithoptioncode/PE3conformtothatcategory.
(2) Technical Data
• Modelswithout/PE3 Article4,Paragraph3ofPED,denotedasSoundEngineeringPractice(SEP).
• Modelswith/PE3 Module: H TypeofEquipment:PressureAccessory-Vessel Typeoffluid:LiquidandGas Groupoffluid:1and2
Model Capsulecode
PS(bar)*1 V(L) PS·V
(bar·L) Category*2
EJX110BF, L 160 0.01 1.6 Article4,
Paragraph 3(SEP)M, H, V 250 0.01 2.5
EJX110Bwithcode
/PE3M, H, V 250 0.01 2.5 III
EJX310B L, M, A, B 160 0.01 1.6Article4,
Paragraph 3(SEP)
EJX430B H, A, B 160 0.01 1.6Article4,
Paragraph 3(SEP)
EJX510BA, B, C 100 0.1 10 Article4,
Paragraph 3(SEP)D 700 0.1 70
EJX510Bwithcode
/PE3D 700 0.1 70 III
EJX530BA, B, C 100 0.1 10 Article4,
Paragraph 3(SEP)D 700 0.1 70
EJX530Bwithcode
/PE3D 700 0.1 70 III
*1: PSismaximumallowablepressureforvesselitself.*2: ReferredtoTable1coveredbyANNEXIIofECDirective
onPressureEquipmentDirective2014/68/EU
(3) Operation
CAUTION• Thetemperatureandpressureoffluidshouldbemaintainedatlevelsthatareconsistentwithnormaloperatingconditions.
• The ambient temperature should be maintainedatalevelthatisconsistentwithnormaloperatingconditions.
• Pleasetakecaretopreventwaterhammerandthelikefrominducingexcessivepressures in pipes and valves. If phenomena arelikely,installasafetyvalveortakesome other appropriate measure to prevent pressurefromexceedingPS.
• Takeappropriatemeasuresatthedeviceorsystemleveltoprotecttransmittersiftheyare to be operated near an external heat source.
2.11 Low Voltage DirectiveApplicablestandard:EN61010-1, EN61010-2-030
(1) Pollution Degree 2
"Pollutiondegree"describesthedegreetowhichasolid,liquid,orgaswhichdeterioratesdielectricstrengthorsurfaceresistivityisadhering. " 2 " applies to normal indoor atmosphere.Normally,onlynon-conductivepollutionoccurs.Occasionally,however,temporaryconductivitycausedbycondensationmustbeexpected.
(2) Installation Category I (Anticipated transient overvoltage 330 V)
"Overvoltagecategory(Installationcategory)"describesanumberwhichdefinesatransientovervoltagecondition.Itimpliestheregulationforimpulsewithstandvoltage."I"appliestoelectricalequipmentwhichissuppliedfromthecircuitwhenappropriatetransientovervoltagecontrolmeans(interfaces)areprovided.
<2. Handling Cautions> 2-10
IM 01C27B01-01EN
2.12 Regulatory Compliance for Radio and Telecommunication
Pleaseconfirmthatainstallationregionfulfilsastandards, require additional regulatory information andapprovals,contacttoYokogawaElectricCorporation.
2.12.1 Radio Equipment Directive (RE)Hereby,YokogawaElectricCorporationdeclaresthat the radio equipment type EJXB is in compliancewithDirective2014/53/EU.
ThefulltextoftheEUdeclarationofconformityisavailableatthefollowingInternetaddress:http://www.yokogawa.com/fld/
2.12.2 FCC complianceThisequipmentcontainstransmittermoduleFCCID:SGJ-WFC001*1
SGJ-WFC014*2*1:Onlyapplicableforselectingoutputsignalcode-L.*2:Onlyapplicableforselectingoutputsignalcode-1.
ThisdevicecomplieswithPart15ofFCCRules.Operationissubjecttothefollowingtwoconditions:(1)thisdevicemaynotcauseinterference,and(2)thisdevicemustacceptanyinterferencereceived,includinginterferencethatmaycauseundesiredoperationofthisdevice.
Co-located:
Thistransmittermustnotbeco-locatedoroperatedinconjunctionwithanyotherantennaortransmitter.
FCC WARNING:
Changesormodificationsnotexpresslyapprovedbythepartyresponsibleforcompliancecouldvoidtheuser’sauthoritytooperatetheequipment.
RF Exposure Compliance:
ThisequipmentcomplieswithFCCradiationexposurelimitssetforthforanuncontrolledenvironmentandmeetstheFCCradiofrequency(RF)ExposureGuidelines.Thisequipmentshouldbeinstalledandoperatedkeepingtheradiatoratleast20cmormoreawayfromperson’sbody.
2.12.3 Industry Canada (IC) complianceThisequipmentcontainstransmittermoduleIC:8999A-WIC001*1 / 8999A-WIC013*2.
ThisdevicecomplieswithISED’sapplicablelicense-exemptRSSs.Operationissubjecttothefollowingtwoconditions:(1)thisdevicemaynotcauseinterference,and(2)thisdevicemustacceptanyinterference,includinginterferencethatmaycauseundesired,operationofthedevice.
ThisequipmentcomplieswithICradiationexposurelimitssetforthforanuncontrolledenvironmentandmeetsRSS-102oftheICradiofrequency(RF)Exposure rules. This equipment should be installed andoperatedkeepingtheradiatoratleast20cmormoreawayfromperson’sbody.
This radio transmitter IC Number 8999A-WIC001*1 / 8999A-WIC013*2 has been approved by Industry Canadatooperatewiththeantennatypeslistedbelowwiththemaximumpermissiblegainindicated.Antennatypesnotincludedinthislist,having a gain greater than the maximum gain indicatedforthattype,arestrictlyprohibitedforusewiththisdevice.
Antenna type: Gain: COLLINEAR 9 dBi*1 / 6 dBi*2Sleeve 2.14 dBi
French: LeprésentappareilestconformeauxCNRd’ISDEapplicablesauxappareilsradioexemptsdelicence.L’exploitationestautoriséeauxdeuxconditionssuivantes:(1)l’appareilnedoitpasproduiredebrouillage,et(2)l’utilisateurdel’appareildoitacceptertoutbrouillageradioélectriquesubi,mêmesilebrouillageestsusceptibled’encompromettrelefonctionnement.
Cetéquipementestconformeauxlimitesd’expositionauxrayonnementsénoncéespourunenvironnementnoncontrôléetrespectelesrèglesd’expositionauxfréquencesradioélectriques(RF)CNR-102del’IC.Cetéquipementdoitêtreinstalléetutiliséengardantunedistancede20cmouplusentreleradiateuretlecorpshumain.
<2. Handling Cautions> 2-11
IM 01C27B01-01EN
Le présent émetteur radio IC Number 8999A-WIC001*1 / 8999A-WIC013*2 a été approuvéparIndustrieCanadapourfonctionneraveclestypesd’antenneénumérésci-dessouset ayant un gain admissible maximal. Les types d’antennenoninclusdanscetteliste,etdontlegain est supérieur au gain maximal indiqué, sont strictementinterditspourl’exploitationdel’émetteur.
Antenne type: Gain: COLLINEAR 9 dBi*1 / 6 dBi*2Sleeve 2.14 dBi
*1:Onlyapplicableforselectingoutputsignalcode-L.*2:Onlyapplicableforselectingoutputsignalcode-1.
2.13 RoHSApplicablestandard:EN50581(FortheproductsdeliveredafterJuly1st,2017)
<3. Component Names> 3-1
IM 01C27B01-01EN
3. Component Names
F0301.aiYES (Note 3)
(Write disabled)NO
(Write enabled)
Preccure-detector sectionVertical impulse pipimg type
Cover flange
Terminal box cover
Horizontal impulse piping type
Zero-adjustmentscrew
Ground terminal
Process connction
Process connector (Note1)
Drain plug
Vent plug
RF assembly
CPU assembly
Transmitter section
Amplifier Cover
Mountingscrew
Slideswitch
Hardware write protection switch (WR)
Write protection
Write protection Switch Position
(Note 2)
Integral indicator
E WRD
Not in use
Write protection switch
HL
ED
HL
ED
Antenna
● Terminal configuration(External powered type)
Ground terminalPower supply terminal +
Power supply terminal –
Note1: AprocessconnectorwillnotbeappliedforlowersideofEJX430BandEJX310B.Note2: Settheswitchasshowninthefigureabovetosetthewriteprotection.ThehardwarewriteprotectionswitchissettoEside.Set
toHsidefortheswitchofnot-in-use.Note3: WhentheswitchisDside(writeprotectionsetting),provisioningisacceptable.Fordetailsofprovisioning,refertosection7.4
“ConnectingtotheFieldWirelessNetwork”.
Figure 3.1 Component Names
Table 3.1 Display Symbol
Display Symbol Meaning of Display SymbolDisplaymodeis‘squareroot’.(Displayisnotlitwhen‘linear’mode.)
▲ Theoutputsignalbeingzero-adjustedisincreasing.▼ Theoutputsignalbeingzero-adjustedisdecreasing.
Writeprotectfunctionisenabled.
<4. Installation> 4-1
IM 01C27B01-01EN
4. Installation4.1 Precautions Beforeinstallingthetransmitter,readthecautionarynotesinsection2.4,“SelectingtheInstallationLocation.”Foradditionalinformationontheambientconditionsallowedattheinstallationlocation,refertosubsection11.1“StandardSpecifications.”
NOTEToconnectthistransmittertotheFieldWirelessNetwork,informationforconnectingtothefieldwirelessdevicesneedstobesetbeforehand.Referto7.4“ConnectingtotheFieldWirelessNetwork.”
IMPORTANT• Whenweldingpipingduringconstruction,takecarenottoallowweldingcurrentstoflowthroughthetransmitter.
• Do not step on this instrument after installation.
• FortheEJX430B,theatmosphericopeningislocatedonthelowpressuresidecoverflange.Takecaredonotenterrainintotheopening.Theopeningmustnotfaceupward.Seesection11.4,“Dimensions,”forthelocationoftheopening.
4.2 Mounting ■ Thetransmitterisshippedwiththeprocess
connection,accordingtotheorderingspecifications.Tochangetheorientationoftheprocessconnections,refertosection4.3.
■ Withdifferentialpressuretransmitters,thedistancebetweentheimpulsepipingconnectionportsisusually54mm(figure4.1).Bychangingtheorientationoftheprocessconnector,thedimensioncanbechangedto 51 mm or 57 mm.
■ Thetransmittercanbemountedonanominal50mm(2-inch)pipeusingthemountingbracketsupplied,asshowninfigure4.2and4.3. Thetransmittercanbemountedoneitherahorizontaloraverticalpipe.
■ Whenmountingthebracketonthetransmitter,tightenthe(four)boltsthatholdthetransmitterwithatorqueofapproximately39N·m{4kgf·m}.
57 mm 54 mm 51 mmF0401.ai
Figure 4.1 Process Connector Impulse Piping Connection Distances for Differential Pressure Transmitters
CAUTIONWhenthesuffixcodeofthemountingbracketis“B,”makesuretoputthespacerbetweenthebracketandtransmitterasshowninFigure4.2.
Transmitter mounting bolt
Spacer
U-bolt nut
Mounting bracket
50 mm (2-inch) pipe
U-bolt
F0402.ai
Spacer
U-bolt nut
Mounting bracket
50 mm (2-inch) pipe
U-bolt
Transmitter mounting bolt
Horizontal pipe mounting
Vertical pipe mounting
Figure 4.2 Transmitter Mounting (Horizontal Impulse Piping Type)
<4. Installation> 4-2
IM 01C27B01-01EN
F0403.ai
Transmitter mounting bolt
Transmitter mounting bolt
Mounting bracket
Mounting bracket
U-bolt nut
U-bolt nut
U-bolt
U-bolt
50 mm (2-inch) pipe
50 mm (2-inch) pipe
Vertical pipe mounting (Process connector downside)
Vertical pipe mounting (Process connector upside)
Figure 4.3 Transmitter Mounting (Vertical Impulse Piping Type)
F0404.ai
Transmitter mounting bolt
Transmitter mounting bolt
Mounting bracket
Mounting bracket
U-bolt nut
U-bolt nut
U-bolt
U-bolt
50 mm (2-inch) pipe
50 mm (2-inch) pipe
Horizontal pipe mounting (Process connector downside)
Horizontal pipe mounting (Process connector upside)
<4. Installation> 4-3
IM 01C27B01-01EN
4.3 Changing the Process Connection
Thetransmitterisshippedwiththeprocessconnectionspecifiedatthetimeofordering.Tochangetheprocessconnection,thedrain(vent)plug must be repositioned.
Torepositionadrain(vent)plug,refertoFigure4.4anduseawrenchslowlyandgentlytounscrewit. Then, remove and remount it on the opposite side.Wrapsealingtapearoundthedrain(vent)plugthreads(*1inthefigurebelow),andapplyalubricanttothethreadsofthedrain(vent)screw(s)(*2below).Totightenthedrain(vent)plugs,applyatorqueof34to39N·m(3.5to4kgf·m).Processconnectorboltsaretobetighteneduniformlytoatorqueshownintable4.1.
Table 4.1 Torque
ModelEJX110BEJX310BEJX430B
Torque(N·m){kgf·m} 39to49{4to5}
F0405.ai
Vent/drain plug
Vertical impulse piping type
Horizontal impulse piping type
Note: For a horizontal impulse piping type, moving the process connectors from the front side to the back cannot be made.
Bolt
Process connector gasket
1 2
Figure 4.4 Changing Process Connection
4.4 Swapping the High/Low-pressure Side Connection
IMPORTANTThissectionisapplicableonlyforEJX110Bdifferentialtransmitters,andnotapplicableforgauge or absolute pressure transmitters.
4.4.1 Rotating Pressure-detector Section 180°
Thisprocedurecanbeappliedonlytoatransmitterwithaverticalimpulsepipingtype.
Theprocedurebelowcanbeusedtoturnthepressuredetectorassembly180°.Performthisoperationinamaintenanceshopwiththenecessarytoolslaidoutandreadyforuse,andtheninstallthetransmitterinthefieldaftermakingthechange.
1)UseanAllenwrench(JISB4648,nominal2.5mm)toremovethefivesetscrewsatthejointbetweenthepressure-detectorsectionandtransmittersection.
2)Leavingthetransmittersectioninposition,rotatethepressure-detectorsection180°.
3)Tightenthefivesetscrewstofixthepressure-detectorsectionandtransmittersectiontogether(atatorqueof1.5N·m).
Repositiontheprocessconnectoranddrain(vent)plugstotheoppositesideasdescribedinsubsection4.3.
IMPORTANTDonotrotatethetransmittersectionmorethanabove limit.
F0406.ai
Process connector
Setscrew
Before After rotating 180°
Figure 4.5 Before and After Modification
<4. Installation> 4-4
IM 01C27B01-01EN
4.4.2 Using the Configuration ToolThismethodisapplicableonlytothemodelEJX110B.
Withaconfigurationtool,youcanchangewhichprocessconnectionisusedasthehigh-pressuresidewithoutmechanicallyrotatingthepressure-detectorsection180asdescribedinsubsection4.4.1.Tochange,callupthe‘H/L_SWAP’parameterandselectREVERSE(rightside:lowpressure;leftside:highpressure)orselectNORMALtochangebacktonormal(rightside:highpressure;leftside:lowpressure).
Output
Input
NORMAL
REVERSEF0407.ai
Figure 4.6 Input/Output Relationship
IMPORTANTSincetheH/Llabelplateonthecapsuleassemblywillremainunchanged,usethisfunctiononlywhenyoucannotswitchtheimpulsepiping.Ifthe‘H/L_SWAP’parametersettingischanged,theinput/outputrelationshipisreversedasshowninFigure4.6;besurethisis understood by all. After reversing the setting, modifytheH/Llabelplatetoclearlyindicatethischange.
4.5 Rotating Transmitter Section
WARNING
Intrinsicsafetypetransmittersmustbe,asarule,donotrotatetransmittersectionifitispowered.Incaseyouneedtorotatewhenthetransmitterispowered,usinggasdetectorandconfirmnoexistenceofexplosivegasbeforerotating.
Thetransmittersectioncanberotatedapproximately360°(180°toeitherdirectionor360°toonedirectionfromtheoriginalpositionatshipment,dependingontheconfigurationoftheinstrument.)Itcanbefixedatanyanglewithinabove range.
1)Removethefivesetscrewsthatfastenthetransmittersectionandcapsuleassembly,usingtheAllenwrench.
2)Rotatethetransmittersectionslowlyandstopitat designated position.
3)Tightenthefivesetscrewstoatorqueof1.5N·m.
IMPORTANTDonotrotatethetransmittersectionmorethanthe above limit.
<4. Installation> 4-5
IM 01C27B01-01EN
F0408.ai
Vertical impulse piping type
Horizontal impulse piping type
Pressure-detector section
Transmitter section
Transmitter section
Pressure-detector section
Zero-adjustment screw
Figure 4.7 Rotating Transmitter Section (Left Side High Pressure Type)
4.6 Changing the Direction of Integral Indicator
WARNING
Intrinsicsafetypetransmittersmustbe,asarule,removeabatterypackinnon-hazardousareabeforeopen/closetheAmplifierCoverordisassembling and reassembling the Integral Indicator.
Anintegralindicatorcanberotatedinfourpositionsat90°.Followtheinstructionsinsection9.4.1forremovingandattachingtheintegralindicator.
4.7 Changing the direction of the antenna
Adjustthedirectionoftheantennatobeintheuprightposition.Figure4.8showsfactorysetupantenna position. If the transmitter is installed to verticalimpulsepiping,followtheprocedurebelowandchangetheantennaposition.
1)Loosenthetwomountingscrewsatthebottomoftheantennabyusinga2.5mmAllenwrench(seeFigure4.8).
Thescrewsmightcomeoffandbelostifloosenedtoomuch;loosenthescrewsbyaboutthree rotations.
2)Pressforwardanddown90degreesbyrotatingthe axis at the bottom of the antenna.
3)Tightenthetwoscrewstoatorqueof1.5N·mbyusingatorquewrench.Whendoingthis,becarefulnotleaveagapbetweentheantennaand housing.
F0409.ai
Figure 4.8 Mounting Screw Position
F0410.ai
Figure 4.9 Adjusting Antenna Position
<5. Installing Impulse Piping> 5-1
IM 01C27B01-01EN
5. Installing Impulse Piping5.1 Impulse Piping Installation
PrecautionsTheimpulsepipingthatconnectstheprocessoutputstothetransmittermustconveytheprocesspressureaccurately.If,forexample,gascollectsinaliquid-filledimpulseline,orthedrainforagas-filledimpulselinebecomesplugged,itwillnotconveythepressureaccurately.Sincethiswillcauseerrorsinthemeasurementoutput,selecttheproperpipingmethodfortheprocessfluid(gas,liquid,orsteam).Paycarefulattentiontothefollowingpointswhenroutingtheimpulsepipingandconnectingtheimpulsepipingtoatransmitter.
5.1.1 Connecting Impulse Piping to a Transmitter
(1) Check the High and Low Pressure Connections on the Transmitter (Figure 5.1)
Symbols“H”and“L”havebeenplacedonthecapsuleassemblytoindicatehighandlowpressureside.Withdifferentialpressuretransmitters,connectthehighpressuresideimpulselinetothe“H”side,andthelowpressuresideimpulselinetothe“L”side.
F0501.ai
Processconnection
“H” and “L” are shown
Process connection
Process connector
Bolt
Differential Pressure Transmitter
“H” and “L” are shown
Process connection
Process connector
Bolt
Gauge/Absolute Pressure Transmitters
Figure 5.1 “H” and “L” Symbols on a Capsule Assembly
(2) Changing the Process Connector Piping Connections (Figure 4.1) (for differential pressure transmitters)
Theimpulsepipingconnectiondistancescanbechangedbetween51mm,54mmand57mmbychangingtheorientationoftheprocessconnectors.Thisisconvenientforaligninganimpulselinewithaprocessconnectors.
(3) Tightening the Process Connector Mounting Bolts
Afterconnectinganimpulseline,tightentheprocessconnectormountingboltsuniformly. (Applyatorqueof39~49N·m{4~5kgf·m})
(4) Removing the Impulse Piping Connecting Port Dustproof Cap
The impulse piping and a 3-valve manifold connectingportonthetransmitteriscoveredwithaplasticcaptokeepoutdust.Thiscapmustberemovedbeforeconnectingtheline.(Becarefulnottodamagethethreadswhenremovingthiscap.Neverinsertascrewdriverorothertoolbetweenthecapandportthreadstoremovethecap.)
(5) Connecting the Transmitter and 3-Valve Manifold (for differential pressure transmitters)
A3-valvemanifoldconsistsoftwostopvalvestoblockprocesspressureandanequalizingvalvetoequalizethepressuresonthehighandlowpressuresidesofthetransmitter.Suchamanifoldmakesiteasiertodisconnectthetransmitterfromtheimpulsepiping,andisconvenientwhenadjustingthetransmitterzeropoint.
Therearetwo3-valvemanifoldtypes:thepipe-mountingtypeandthedirect-mountingtype;careshouldbetakenwithrespecttothefollowingpointswhenconnectingthemanifoldtothetransmitter.
<5. Installing Impulse Piping> 5-2
IM 01C27B01-01EN
Pipe-Mounting Type 3-Valve Manifold (Figure 5.2)
1) Screwnipplesintotheconnectionportsonthetransmitter side of the 3-valve manifold, and intotheimpulsepipingconnectingportsontheprocessconnectors.(Tomaintainpropersealing,windsealingtapearoundthenipplethreads.)
2) Mountthe3-valvemanifoldonthe50mm(2-inch)pipebyfasteningaU-bolttoitsmountingbracket.TightentheU-boltnutsonlylightlyatthis time.
3) Installthepipeassembliesbetweenthe3-valvemanifoldandtheprocessconnectorsandlightlytightentheballheadlocknuts.(Theball-shapedendsofthepipesmustbehandledcarefully,sincetheywillnotsealproperlyiftheballsurfaceisscratchedorotherwisedamaged.)
4) Nowtightenthenutsandboltssecurelyinthefollowingsequence:
Processconnectorbolts→transmitter-endballheadlocknuts→3-valvemanifoldballheadlocknuts→3-valvemanifoldmountingbracketU-bolt nuts
F0502.ai
Nipple
Nipple
Processconnector
Ball headlock nut
Pipe assembly
Ball headlock nut
Processconnector
bolts
50 mm (2-inch) pipe
Pipe assembly
3-valvemanifold
Impulse pipingVent plug
(optional)
Stop valve(low pressure side)
Equalizing valve(balancing)
Stop valve(high pressure side)
Figure 5.2 3-Valve Manifold (Pipe-Mounting Type)
Direct-Mounting Type 3-Valve Manifold (Figure 5.3)
1) Mountthe3-valvemanifoldonthetransmitter. (Whenmounting,usethetwogasketsandthe
fourboltsprovidedwiththe3-valvemanifold.Tightentheboltsevenly.)
2) Mounttheprocessconnectorsandgasketsonthetopofthe3-valvemanifold(thesideonwhichtheimpulsepipingwillbeconnected).
Bolts
Processconnector
Gasket
GasketProcess
connector
Bolts
Stop valve(low pressure side)
Stop valve(low pressure side)
3-valvemanifold
3-valvemanifold
Equalizing valve
Equalizingvalve
Stop valve(high pressure side)
Impulsepiping
Impulsepiping
Stop valve(high pressure side)
F0503.ai
(high pressure side)
Figure 5.3 3-Valve Manifold (Direct-Mounting Type)
NOTEAftercompletingtheconnectionofthetransmitterand3-valvemanifold,besuretoCLOSEthelowpressure and high pressure stop valves, OPEN theequalizingvalve,andleavethemanifoldwiththeequalizingvalveOPEN. Youmustdothisinordertoavoidoverloadingthetransmitterfromeitherthehighorthelowpressuresidewhenbeginningoperation. Thisinstructionmustalsobefollowedaspartofthestartupprocedure(chapter7.)
<5. Installing Impulse Piping> 5-3
IM 01C27B01-01EN
5.1.2 Routing the Impulse Piping
(1) Process Pressure Tap Angles
Ifcondensate,gas,sedimentorotherextraneousmaterialintheprocesspipinggetsintotheimpulsepiping, pressure measurement errors may result. To preventsuchproblems,theprocesspressuretapsmustbeangledasshowninfigure5.4accordingtothekindoffluidbeingmeasured.
NOTE• Iftheprocessfluidisagas,thetapsmustbeverticalorwithin45°eithersideofvertical.
• Iftheprocessfluidisaliquid,thetapsmustbehorizontalorbelowhorizontal,butnotmorethan45°belowhorizontal.
• Iftheprocessfluidissteamorothercondensingvapor,thetapsmustbehorizontalorabovehorizontal,butnotmorethan45°abovehorizontal.
[Gas]
Pressuretaps
Processpiping
[Steam][Liquid]
45°
45°
45° 45°
45°
45°
F0504.ai
Figure 5.4 Process Pressure Tap Angle (For Horizontal Piping)
(2) Position of Process Pressure Taps and Transmitter
Ifcondensate(orgas)accumulatesintheimpulsepiping,itshouldberemovedperiodicallybyopeningthedrain(orvent)plugs.However,thiswillgenerateatransientdisturbanceinthepressuremeasurement,andthereforeitisnecessarytoposition the taps and route the impulse piping so that any extraneous liquid or gas generated in the leadlinesreturnsnaturallytotheprocesspiping.
• Iftheprocessfluidisagas,thenasarulethetransmittermustbelocatedhigherthantheprocesspressuretaps.
• Iftheprocessfluidisaliquidorsteam,thenasarulethetransmittermustbelocatedlowerthantheprocesspressuretaps.
(3) Impulse Piping Slope
Theimpulsepipingmustberoutedwithonlyanupwardordownwardslope.Evenforhorizontalrouting, the impulse piping should have a slope of atleast1/10topreventcondensate(orgases)fromaccumulatinginthepipes.
(4) Temperature Difference Between Impulse Lines (for differential pressure transmitters)
Ifthereisatemperaturedifferencebetweenthehighandlowimpulselines,thedensitydifferenceofthefluidsinthetwolineswillcauseanerrorinthemeasurementpressure.Whenmeasuringflow,impulse lines must be routed together so that there isnotemperaturedifferencebetweenthem.
(5) Condensate Pots for Steam Flow Measurement (for differential pressure transmitters)
If the liquid in the impulse piping repeatedly condensesorvaporizesasaresultofchangesintheambientorprocesstemperature,thiswillcauseadifferenceinthefluidheadbetweenthehighpressureandlowpressuresides.Topreventmeasurementerrorsduetotheseheaddifferences,condensatepotsareusedwhenmeasuringsteamflow.
(6) Preventing Wind Speed Effects in Very Low Differential Pressure Measurement (for differential pressure transmitters)
IMPORTANTWhenusingadifferentialpressuretransmittertomeasureverylowpressures(draftpressure),thelowpressureconnectionportisleftopentoatmosphericpressure(thereferencepressure).Anywindaroundthedifferentialpressuretransmitterwillthereforecauseerrorsinthemeasurement.Topreventthis,itwillbenecessaryeithertoenclosethetransmitterinabox,ortoconnectanimpulselinetothelowpressuresideandinsertitsendintoawind-excludingpot(cylindricalwithabaseplate).
<5. Installing Impulse Piping> 5-4
IM 01C27B01-01EN
(7) Preventing Freezing
Ifthereisanyriskthattheprocessfluidintheimpulsepipingortransmittercouldfreeze,useasteamjacketorheatertomaintainthetemperatureofthefluid.
NOTEAftercompletingtheconnections,closethevalvesontheprocesspressuretaps(mainvalves),thevalvesatthetransmitter(stopvalves),andtheimpulsepipingdrainvalves,sothatcondensate,sediment,dustandotherextraneousmaterialcannotentertheimpulsepiping.
5.2 Impulse Piping Connection Examples
Figure5.5and5.6showexamplesoftypicalimpulsepipingconnections.Beforeconnectingthetransmittertotheprocess,studythetransmitterinstallationlocation,theprocesspipinglayout,andthecharacteristicsoftheprocessfluid(corrosiveness,toxicity,flammability,etc.),inordertomakeappropriatechangesandadditionstotheconnectionconfigurations.
Notethefollowingpointswhenreferringtothesepiping examples.
• Thehighpressureconnectingportonthetransmitterisshownontheright(asviewedfromthefront).
• Thetransmitterimpulsepipingconnectionisshownforaverticalimpulsepipingconnectionconfigurationinwhichthedirectionofconnectioniseitherupwardsordownwards.
• Iftheimpulselineislong,bracingorsupportsshould be provided to prevent vibration.
• The impulse piping material used must becompatiblewiththeprocesspressure,temperature,andotherconditions.
• Avarietyofprocesspressuretapvalves(mainvalves)areavailableaccordingtothetypeofconnection(flanged,screwed,welded),construction(globe,gate,orballvalve),temperatureandpressure.Selectthetypeofvalvemostappropriatefortheapplication.
Tee
3-valvemanifold
Drainvalve
Orifice
Drainplug
Tapvalve
Unionor flange
Liguid Gas
Condensate pot
Steam
F0505.ai
Figure 5.5 Impulse Piping Connection Examples for Differential Pressure Transmitters
F0506.ai
Liquid Gas Steam
Union or flange
TeeTee
Drain plug
Drain valve
Drain valveDrain plug
Union or flange
Union or
flange
Union or flange
Tap valve
Tapvalve
Tee
Drain valveDrain plug
Tap valve
Figure 5.6 Impulse Piping Connection Examples for Gauge/absolute Pressure Transmitters
<6. Wiring> 6-1
IM 01C27B01-01EN
6. Wiring6.1 Mounting Antenna and
WiringAnantennaisnotattachedtothetransmitter.Thefollowingprovidestheinstructionsformountingthe antenna and installing the remote antenna and wiringusingantennaextensioncable.
IMPORTANTTheantennaconnectoriscoveredwithacapatthetimeofdelivery.Keepthecapattacheduntil the installation of the antenna or antenna cablestoprotecttheinsideconnectionpart.Theunscrewedcapshouldbestoredinordertoreplaceitimmediatelyaftertheantennaorantennacablesareremoved.
CAUTIONTomaintaintheultimateconditionsofradio-frequencysignal,protecttheconnectorsofantenna,extensionantennacable,andsurgeprotectivedevicefromthecorrosiveatmospherebythefollowingtreatment.1. Cleantheconnectiontobeprotected.2. Wind the butyl rubber self-bonding tape
aroundtheconnection.Seethemanualofthetapeaboutthewinding.
3. Toprotectthebutylrubberself-bondingtapefromtheenvironmentsuchasultravioletraysandsoon,windvinyltape(oravinyltypeself-bondingtape)onit.
6.1.1 Mounting the antennaScrewtheprovidedantennaintotheantennaconnectorofthetransmitter.Theantennamaybesoldasavailableaccessoriesandsuppliedseparately.
1.Unscrewtheantennaconnectorcapontheantennaconnector.
2.Screwtheprovidedantennaintotheantennaconnector.Tightentheantennaconnectorwithatorqueof2to3N∙m.
Antenna connector
F0601.ai
Figure 6.1 Mounting the antenna
CAUTIONWheninstallingtheantenna,screwtheantennabytighteningthelowernutpart.Screwingtheantennabyholdingtheantennabodymaycausefailuresuchascabledisconnection.Thesamemannershouldbetakenwhenunscrewingtheantenna.
Antenna body
F0602.ai
Nut part
Figure 6.2 Antenna
<6. Wiring> 6-2
IM 01C27B01-01EN
6.1.2 Mounting External Antenna and Wiring Antenna Extension Cable
6.1.2.1 Mounting of External AntennaMounttheexternalantennaattheproperlocationaccordingtothewirelessenvironmentdescribedin2.4SelectingtheInstallationLocation.Themountingtothepipesuchas50mm(2-inch)pipeneedstosecuretheenoughstrengthtoendureastrongwind,vibrationandsoon.Theantennamustbemountedvertically.
Fixing of External AntennaFix an external antenna appropriately using the bracketprovidedastheexternalantennaoptionto50mm(2-inch)pipe.
Bracket
Antenna
Vertical pipe mounting
Horizontal pipe mounting
Nut
2-inch pipe
U Bolt
Nut
AntennaExtension Cable
F0603.ai
Figure 6.3 Fixing the remote antenna
Mounting Procedure of External Antenna
1.FixthebracketbyU-boltandnutto50mm(2-inch)pipe.
2.Fixtheantennaextensioncabletothebracket1usingtheprovidednutwithatorqueof6to7N∙masshownintheFigure6.3above.Usethenutwhichisattachedtotheantennaextensioncable.
3.Screwtheantennaintotheantennaconnectoroftheantennaextensioncableonthebracket1.
Tightentheantennaconnectorwithatorqueof2to3N∙m.
4.Protecttheconnectionasnecessary.Fordetailsoftheprotection,see“6.1MountingAntennaandWiring.”
6.1.2.2 Wiring of Antenna Extension Cable1.Usetheprovidedantennaextensioncabletoconnecttheantennaconnectorwiththeexternalantenna.Tightentheconnectoroftheantennaextensioncablewithatorqueof2to3N∙m.Theminimumbendingradiuswhilecheckingthewiringpositionshouldbemorethan 200 mm.
2.Whenusingtwoextensioncables,theprovidedsurgeprotectivedeviceshouldbeinsertedbetweenthesecables.
3.Beforethewiringwork,confirmthepolarities(male/female)oftheconnectorsofantenna,extensionantennacable,andsurgeprotectivedevice.Tightentheconnectoroftheantennaextensioncablewithatorqueof2to3N∙m.
4.Protecttheconnectorsofantenna,extensionantennacable,andsurgeprotectivedeviceasnecessary.See“6.1MountingAntennaandWiring.”
5.Fixtheextensionantennacabletotheappropriatestructuretoprotectthecablefromthevibration,wind,andsoon.Theminimumbendingradiusforfixinginthestatemaintainedfor a long period should be more than 80 mm.
<6. Wiring> 6-3
IM 01C27B01-01EN
Transmitter body
Grounding cable
Protect by self-bonding tape
F0604.ai
Antenna extension cable 2: 10 m
Antenna
Antenna
Antenna extension cable 1: 3 mAntenna extension cable 1: 3 m
Protect by self-bonding tape
Transmitter body
Surge protective device
Figure 6.4 Wiring the antenna extension cable
CAUTIONUsethededicatedantennaextensioncableprovidedbyYokogawaasaccessoriesforthetransmitters.
<6. Wiring> 6-4
IM 01C27B01-01EN
6.1.2.3 Mounting of Surge Protective Device and Wiring
Mountansurgeprotectivedevicebetweentheextensioncablesandconnectthegroundingcabletothegroundingterminalofthesurgeprotectivedeviceasrequired.
Connectthegroundingcabletothegroundingterminal on the transmitter body. Class C grounding withthegroundingresistanceof10Ωorlessisnecessary.Donotsharethegroundwithotherdevices.
F0605.aiTransmitter side
Grounding cable
Antenna side
Antenna extension cable 2
Antenna extension cable 1
Surge protective device
Figure 6.5 Connection of the surge protective device and antenna extension cable
F0606.aiTransmitter side
Grounding cable
Antenna side
Protect by self-bonding tape
Figure 6.6 Surge protective device protection by self-bonding tape
6.2 GroundingWhenusingtheantennaextensioncablewithanarrestor,ClassCgroundingwiththegroundingresistanceof10Ωisrequired.Alwaysgroundthetransmittercaseinaccordancewithnationalandlocalelectricalcodes.Themosteffectivetransmittercasegroundingmethodisadirectconnectiontoearthgroundwithminimalimpedance.
IMPORTANTPropergroundingisnecessarytomaintainthefunctionandperformanceofthisproduct.Whenthe grounding is inadequate, the equipment may be damaged.Refer to TI 01W01A58-01EN for details of groundingmethodandprecautions.• UseagroundingcableofAWG14(2mm2)ormorebetweenthegroundingelectrodeandthegroundingterminalofthisproduct,andconnectwiththeshortestroute.
• Selectthegroundingcablethathasastructureofadequatelyprotectsagainstmechanicaldamage,chemicalorelectricaldegradation,electrodynamicforceandthermodynamicforceforconnectionofthegroundingelectrodeandthegroundterminalofthisproduct.
CAUTIONGrounding is required for safe operation.
F0607.ai
Ground terminal
Figure 6.7 Ground Terminal
<6. Wiring> 6-5
IM 01C27B01-01EN
6.3 Power Supply Wiring Precautions
IMPORTANT• Allthreadedpartsmustbetreatedwithwaterproofingsealant.(Anon-hardeningsiliconegroupsealantisrecommended.)
• Laywiringasfaraspossiblefromelectricalnoisesourcessuchaslargecapacitymotorsorpowersupplies.
• Removetheelectricalconnectiondustcapbeforewiring.
6.4 Selecting the Wiring Materials
(a) Usestrandedleadwiresorcableswhicharethe same as or better than 600 V grade PVC insulatedwire(JISC3307)oritsequivalent.
(b) Useshieldcablesinareasthataresusceptibletoelectricalnoise.
(c) Inareaswithhigherorlowerambienttemperatures,useappropriatewiresorcables.
(d) Inenvironmentwhereoils,solvents,corrosivegasesorliquidsmaybepresent,usewiresorcablesthatareresistanttosuchsubstances.
(e) Itisrecommendedthatcrimp-onsolderlessterminallugs(for4mmscrews)withinsulatingsleevesbeusedforleadwireends.
IMPORTANTExternalpoweredtypedoesnothaveapowerswitch.InstallabreakeronthepowersupplylineandturnthepowerON/OFF.
6.5 Connection of the External Power Source Terminal
Fortheexternalpoweredtype,connectthepowersupplywiringto+and−terminals.Ifthepowersupplycablehasshieldwires,connectthecableshield to the ground terminal.
Ground terminal Power supply terminal +
Power supply terminal –F0608.ai
Figure 6.8 Connection of External Power Source Terminal
(Note)Toprotectagainstexcessivesurge,besuretotightenthegroundterminalabout0.7N∙mregardlessoftheshieldcableconnection.
IMPORTANT• ConnectingwiththecommercialACpowersourcewilldamagethedevice.BesuretousetheDCpowersourceinthepredetermined range.
• Whenconnectingtotheexternalpowersource,becarefulnottoconnectthepolarityreversely. SUPPLY+terminal:Connectto+sideof
theexternalpowersource SUPPLY−terminal:Connectto− side of
theexternalpowersource
<7. Operation> 7-1
IM 01C27B01-01EN
7. Operation7.1 Preparation for Starting
OperationThissectiondescribestheoperationprocedurefortheEJX110Basshowninfigure7.1(verticalimpulsepipingtype,high-pressureconnection:rightside)whenmeasuringtheliquidflowrate,andEJX430Basshowninfigure7.2whenmeasuringpressure.
NOTEItisrequiredtosetsecurityandnetworkinformation to enable the transmitter to be connectedtotheFieldWirelessNetwork.Formoredetails,refertosection7.4“ConnectingtotheFieldWirelessNetwork”.
NOTECheckthattheprocesspressuretapvalves,drain valves, and 3-valve manifold stop valves onboththelowpressureandhighpressuresidesareclosed,andthatthe3-valvemanifoldequalizingvalveisopened.
(a) Followtheproceduresbelowtointroduceprocesspressureintotheimpulsepipingandtransmitter.
■ Differential Pressure Transmitters
1)Openthelowpressureandhighpressuretapvalvestofilltheimpulsepipingwithprocessliquid.
2)Slowlyopenthehighpressurestopvalvetofillthetransmitterpressure-detectorsectionwithprocessliquid.
3)Closethehighpressurestopvalve.4)Graduallyopenthelowpressurestopvalveandcompletelyfillthetransmitterpressure-detectorsectionwithprocessliquid.
5)Closethelowpressurestopvalve.6)Graduallyopenthehighpressurestopvalve.Atthistime,equalpressureisappliedtothelowand high pressure sides of the transmitter.
7)Checkthattherearenoliquidleaksintheimpulse piping, 3-valve manifold, transmitter, or othercomponents.
■ Gauge/Absolute Pressure Transmitters
1)Openthetapvalve(mainvalve)tofilltheimpulsepipingwithprocessfluid.
2)Graduallyopenthestopvalvetointroduceprocessfluidintothetransmitterpressure-detectorsection.
3)Confirmthatthereisnopressureleakinthe impulse piping, transmitter, or other components.
(b) Venting Gas from the Transmitter Pressure-detectorSection
Sincethepipingintheexampleoffigure7.1isconstructedtobeself-venting,noventingoperation is required. If it is not possible to makethepipingself-venting,refertosubsection7.5forinstructions.Leavetheequalizingvalveopen even after venting gas.
(c) Insertbatteriesintothebatterycase,andinstallto the transmitter. To insert batteries into the batterycase,becarefultopolarityofbatteriesandbatterycase.FordetailsofInstallationofbattery,refertosection9.4.6and9.4.7.
Fortheexternalpoweredtype,turnonthepowerandconnectwirelessfieldinstrumentstofieldwirelessnetwork.
Batterycaseisinstalledinthetransmitterwhenshippedfromthefactory,however,batteriesaresoldseparatelyandnotincluded.
(d) Usingthedeviceconfigurationtool,confirmthatthetransmitterisoperatingproperly.Checkparametervaluesorchangethesetpointsasnecessary.
IntegralIndicator’sindicationcanbeusedtoconfirmthatthetransmitterisoperatingproperly.Fordetailsonhowtoconfirm,refertosubsection8.4“Self-Diagnostics.”
ISA100devicesdisplayself-diagnosticinformation in an easy-to-understand manner usingfourcategories(Checkfunction,Maintenancerequired,Failure,andOff-specification)accordingtoNAMURNE107*.
*NAMURNE107“Self-MonitoringandDiagnosisofFieldDevices”
<7. Operation> 7-2
IM 01C27B01-01EN
Orifice
Tap valve(high pressure)
Tap valve(low pressure)
3-valve manifold
Drain valve(high pressure)
Stop valve(low pressure)
Stop valve(high pressure)
Equalizing valve
F0701.ai
Figure 7.1 Liquid Flow Measurement
F0702.ai
Tap valve
Drain valve
Vent plug (Fill plug)
Stop valve
Figure 7.2 Liquid Pressure Measurement
■ Confirm that transmitter is operating properly by integral indicator.
Ifthetransmitterisfaulty,anerrorcodeisdisplayed.
F0703.ai
Self-diagnostic error on integral indicator(Faulity transmitter)
Figure 7.3 Integral Indicator with Error Code
NOTEIfanyoftheaboveerrorsareindicatedonthedisplayoftheintegralindicatororthedeviceconfigurationtool,refertosubsection9.5.3forthecorrectiveaction.
■ Verify and Change Transmitter Parameter Setting and Values
Theparametersrelatedtothefollowingitemsareminimum required to be set for operation, and set at factoryasspecifiedinorder.Confirmorchangetheparameters if needed.• Measurementrange(measurementlower/upperlimit,unit)
• Output(Nonlinearizationmode/Sqrootmode)
7.2 Zero Point AdjustmentAftercompletingpreparationsforoperatingthetransmitter,adjustthezeropoint.Therearetwozeropointadjustingways.
IMPORTANTDonotturnoffthepowertothetransmitterimmediatelyafterperformingazeropointadjustment.Poweringoffwithin30secondsofperformingthisprocedurewillreturnthezeropoint to its previous setting.
<7. Operation> 7-3
IM 01C27B01-01EN
(1) When you can obtain the Low Range Value from the actual measured value of 0% (0 kPa, atmospheric pressure);
■ Using the transmitter’s zero-adjustment screw
Beforeadjustingzeropoint,makesurefollowings.• TheExternalzerotrimparameter(ExternalZeroTrim)is“Trimon”.Fordetails,refertosection8“SettingParameters”.
• Useaslottedscrewdrivertoturnthezero-adjustmentscrew.Turnthescrewclockwisetoincreasetheoutputorcounterclockwisetodecreasetheoutput.
Thezeropointadjustmentcanbemadewitha resolution of 0.01% of the setting range. The degreeofzeroadjustmentsvarieswiththescrewturningspeed;turnthescrewslowlytomakeafineadjustment,quicklytomakearoughadjustment.
■ Using the Device Configuration Tool
Refertosubsection8.3.14“ZeroPointAdjustmentandSpanAdjustment”.
(2) When you cannot obtain the Low Range Value from the actual measured value of 0%;
Adjustthetransmitteroutputvaluematchestotheactualmeasuredvalueobtainedbyprecisepressure measurement equipment.
[Example] Themeasuringrangeof50to250kPa;theactualmeasuredvalueof130kPa.
130–50250–50
Actual measured value= x100=40.0%
■ Using the transmitter’s zero-adjustment screw
Turnthezeroadjustmentscrewtomatchtheoutputsignaltotheactualmeasuredvalue.
■ Using the Device Configuration Tool
Refertosubsection8.3.14”ZeroPointAdjustmentandSpanAdjustment”.
7.3 Starting OperationAftercompletingthezeropointadjustment,followtheproceduresbelowtostartoperation.Steps1)and2)arespecifictothedifferentialpressuretransmitters.
1) Closetheequalizingvalve.2) Graduallyopenthelowpressurestopvalve. Thisplacesthetransmitterinanoperational
condition.3) Afterconfirmingtheoperatingstatus,perform
thefollowing.
IMPORTANT• Closetheterminalboxcoverandtheamplifiercover.Screweachcoverintightlyuntilitwillnotturnfurther.
• Tightenthezero-adjustmentcovermountingscrewtosecurethecover.
7.4 Connecting to the Field Wireless Network
■ Preparation work prior to connecting to a Field Wireless Network
Thistransmitterdoesnotneedtobeconnectedwithaphysicalwire.Insteadofphysicalwiring,itisnecessarytosetthefieldwirelessdevicestocommunicatewithbeforeinstallingthetransmitter.Thisprocedureiscalledaprovisioning.This transmitter supports provisioning via infrared communicationusingaprovisioningdeviceandcanbesecurelyconnectedtoanetwork.Iftheprovisioning information is not set, the transmitter cannotbeconnectedtothefieldwirelessnetwork.
Provisioning:
Provisioningisworktosetthesecurityandnetworkinformationtoenablethetransmittertobeconnectedtothefieldwirelessnetwork.This transmitter supports a provisioning method usinginfraredcommunication.
For details on provisioning using a provisioning device,andprocedureforconnectingthetransmittertotheFieldWirelessNetwork,refertotheUser’sManual,FieldMateVersatileDeviceManagementWizard(IM01R01A01-01E)andYFGW410FieldWirelessManagementStation(IM01W02D01-01EN).
<7. Operation> 7-4
IM 01C27B01-01EN
F0704.ai
within 30cm
Figure 7.4 Provisioning Example
■ Provisioning work
ThissubsectiondescribesprovisioningworkusingFieldMateastheprovisioningdevice.ProvisioningworkperformsprovisioningforeachfieldwirelessdeviceusingFieldMateandaninfraredadapter.IfYokogawa-recommendedinfrareddeviceisusedforprovisioning,distancebetweenthetransmitterglasswindowandtheinfrareddeviceshouldbewithin30cm.FordetailsofYokogawa-recommendedinfrareddevice,refertosubsection9.2“CalibrationInstrumentsSelection”.Performthefollowingprovisioningtasks.
• Setting provisioning information• Creatingaprovisioninginformationfile
1) Settingprovisioninginformation SetthedevicetagandnetworkIDusinga
FieldMateprovisioningfunction.Thedevicetag,networkID,andjoinkeyaresetintheFieldWirelessDevice.ItisnotnecessarytoinputajoinkeybecauseFieldMateautomaticallygenerates it.
Settingdevicetag ThedevicetagisusedfortheusertorecognizetheFieldWirelessDevice.
SettingnetworkID ThisisthenetworkIDforthefieldwirelessnetworktowhichthefieldwirelessdeviceisconnected.Setavaluefrom2to65535.
ThefieldwirelessdeviceisconnectedtothefieldwirelessnetworkcorrespondingtothenetworkIDsetbyprovisioningwork.
2) Creatingaprovisioninginformationfile Thefollowingprovisionedinformationisstored
intheprovisioninginformationfile.
• NetworkID• Devicetag• EUI64• Joinkey• Provisioner(nameoftheuserwhoperformedprovisioningworkbyFieldMate)
• Date(TimeanddatewhenprovisioningwasperformedbyFieldMate)
ThisprovisioninginformationfileisrequiredtoloadfromtheFieldWirelessConfiguratortotheFieldWirelessIntegratedGateway.Storethefilecarefully.
■ Connecting to a field wireless network
Theactionafterinstallingthebatterypackorturningonthepowervariesdependingonthesilencesetting.Mountingthebatterypackorturningonthepowerautomaticallystartsasearchforthefieldwirelessnetwork.WhentheFieldWirelessIntegratedGatewayisfound,theinstrumententersthejoinstatus.Whenthefieldwirelessgatewayisnotfoundandaspecifiedtimebasedonthesilencemodehaselapsed,acycleofaone-hourpauseandsix-minutessearchisrepeateduntiltheinstrumentcanjointhefieldwirelessnetwork.Fordetailsontheproceduretoswitchtosilencemode,refertosubsection8.3.17“SwitchingtoSilenceMode.”
F0705.ai
Mounting battery pack or turning on the power
Boot
Infrared communication
Pause (b)Search failure for the specified time
Infrared communication 1 hour
passedSearch failure for 6 minutes
Ready 2: Searching (b)
(Connect)(Connect)
Confirm connecting status: Join (c)
(Publish)Operation (d)
Deep sleep setting
(Disconnect)(Disconnect)
Ready 1: Searching (b)
Deep sleep (a)Infrared communication
Figure 7.5 Wireless Connection Process
<7. Operation> 7-5
IM 01C27B01-01EN
(a) Deepsleep
F0706.ai
(b) Readyandpause
F0707.ai
(c) Confirmconnectingstatus
F0708.ai
(d) Join
F0709.ai
NOTEIfthetransmittersearchestheFieldWirelessNetworkforlongtimeatlowambienttemperaturecondition,sometimeserror“AL.70LOWBAT”isdisplayedontheIntegralIndicator.Eventhoughusingnewbatteries,itcanoccur.Itoccursbecauseofbatterycharacteristics.AfterjoiningtotheFieldWirelessNetwork,thiserrorwillbeclearedwithinonehourifbatteryhasnofailure.
7.5 Shutting Down the Transmitter
Shutdownthetransmitterasfollows.
1)Turnoffthepowerorremovethebatterypackor set the transmitter to deep sleep mode by the DeviceConfigurationTool.
2)Closethelowpressurestopvalve.3)Opentheequalizingvalve.4)Closethehighpressurestopvalve.5)Closethehighpressureandlowpressuretap
valves.
NOTE• Whenevershuttingdownthetransmitterforalongperiod,removeanyprocessfluidthatis in the impulse piping and in the transmitter pressure-detectorsection.
• TheequalizingvalvemustbeleftOPEN.• Refertosubsection9.4.6“ReplacingtheBatteryPack”forthebatterypackremoving.
• Whenstoringtheinstrumentwithabatterypackinserted,itisrecommendedtoputtheinstrumentintodeepsleepmodetoconservebatterypower.Fordetailsonhowtoswitchtodeepsleepmode,refertosubsection8.3.16“SwitchingtotheDeepSleepMode.”
<7. Operation> 7-6
IM 01C27B01-01EN
7.6 Venting or Draining Transmitter Pressure-detector Section
Sincethistransmitterisdesignedtobeself-drainingandself-ventingwithverticalimpulsepipingconnections,neitherdrainingnorventingwillberequirediftheimpulsepipingisconfiguredappropriately for self-draining or self-venting operation.
Ifcondensate(orgas)collectsinthetransmitterpressure-detectorsection,themeasuredpressuremaybeinerror.Ifitisnotpossibletoconfigurethepipingforself-draining(orself-venting)operation,youwillneedtoloosenthedrain(vent)screwonthetransmittertocompletelydrain(vent)anystagnatedliquid(gas.)Afterventingordraining,fastenthedrain(vent)screwonthetransmitter.
IMPORTANTDrainingcondensateorbleedingoffgasdisturbsthe pressure measurement, this should not be donewhentheloopisinoperation.
7.6.1 Draining Condensate1) Graduallyopenthedrainscrewordrainplug
anddrainthetransmitterpressure-detectorsection.(Seefigure7.7.)
2) Whenallaccumulatedliquidiscompletelyremoved,closethedrainscrewordrainplug.
3) Tightenthedrainscrewtoatorqueof10N·m,and the drain plug to a torque of 34 to 39 N·m.
WARNING
Sincetheaccumulatedliquid(orgas)maybetoxicorotherwiseharmful,takeappropriatecaretoavoidcontactwiththebody,orinhalationofvapors.
When you loosen the drain screw or drainplug, the accumulated liquid will be expelledin the direction of the arrow.
F0710.ai
Drain screw
Drain plug
Figure 7.6 Draining the Transmitter
7.6.2 Venting Gas1) Graduallyopentheventscrewtoventgasfrom
thetransmitterpressure-detectorsection.(Seefigure7.8.)
2) Whenthetransmitteriscompletelyvented,closetheventscrew.
3) Tightentheventscrewtoatorqueof10N·m.
WARNING
Sincetheaccumulatedliquid(orgas)maybetoxicorotherwiseharmful,takeappropriatecaretoavoidcontactwiththebody,orinhalationofvapors.
When you loosen the vent screw, the gasescpes in the direction of the arrow.
F0711.ai
Vent screw
Vent screw
Figure 7.7 Venting the Transmitter
<8. Setting Parameters> 8-1
IM 01C27B01-01EN
8. Setting ParametersThistransmittercanremotelyhandlerangechanges,TagNo.setup,monitoringofself-diagnosticresults,andZeroPointAdjustment,etc.accordingtocommunicationwiththefieldwirelessconfigurationtoolorthedeviceconfigurationtool.
8.1 Environment for parameter setting
Afterinstallingthebatterypackorturnonthepowerperform provisioning and have the transmitter join thefieldwirelessnetwork.ThistransmittersupportstheOOB(out-of-band)methodusingtheinfraredcommunicationasaprovisioning method.RefertoSubsection7.4“ConnectingtotheFieldWirelessNetwork”fordetailsoftheprovisioning.
F0801.ai
Infrared port
Figure 8.1 Infrared port of the transmitter
8.2 Preparing Software8.2.1 Softwares for the Field Wireless
Configuration Tool and the Device Configuration Tool
Beforeusingthedeviceconfigurationtool,confirmthatCF/DDandDeviceDTMforyourtransmitter(wirelessEJX)areinstalledinthedeviceconfigurationtool.RefertothefollowingwebsiteforthelatestinformationonCF/DDandDeviceDTM.<http://www.yokogawa.com/>
CF (Capabilities File)/DD (Device Description)
ACFfilecontainsinformation,suchasthevendorofthefielddevice,itsmodelandrevision,availabletypesofprocessdata(flowrate,temperature,pressure,etc.),andnumberofdataitems.ADDfilecontainstheinformationonparameters,suchasdatastructuresandattributes.
DeviceDTM
DeviceDTM(DeviceTypeManager)isdriversoftwareforfielddevicesprovidedbasedontheFDT(FieldDeviceTool)technology.
Thefieldwirelessconfigurationtoolorthedeviceconfigurationtoolallowsconfirmingthedeviceinformation. RefertoSubsection9.2“CalibrationInstrumentsSelection”forthefieldwirelessconfigurationtoolorthedeviceconfigurationtoolofourrecommendation.
8.2.2 Software DownloadSoftwaredownloadfunctionpermitstoupdatewirelessfielddevicesoftwareviaISA100.11awirelesscommunication.Fordetails,refertoYFGW410FieldWirelessManagementStation(IM01W02D01-01EN).
8.3 Setting Parameters8.3.1 Parameter Usage and SelectionBeforesettingaparameter,pleaseseethefollowingtableforasummaryofhowandwheneachparameter is used.
IMPORTANTAftersettingandsendingdatawiththefieldwirelessconfigurationtoolorthedeviceconfigurationtool,wait30secondsbeforeturningoffthetransmitter.Ifitisturnedofftoosoon,thesettingswillnotbestoredinthetransmitter.
<8. Setting Parameters> 8-2
IM 01C27B01-01EN
Table 8.1 Parameter Usage and Selection
Item DescriptionTag No SetsthetagNo.asDeviceTag(SoftwareTag).Sixteencharacters
(alphanumericcharacters,including-and•)canbeset.Output Theprocessvariableandthediagnosticresultcanbeoutput.
Eitherorallofdifferentialpressure/pressure(AI1:ProcessValue),staticpressure(AI2:ProcessValue),temperature(AI3:ProcessValue)ofcapsuleoramplifierandself-diagnosticinformation(UAPMO:DiagnosticStatus)canbesettotheoutput
Range Adjusttherangecorrespondingfor0%to100%.
Theunitoftherange,inputvalueat0%(LRV)andinputvalueat100%(URV)isset.Note: LRVandURVcanbesetwithintherangeof-32000to32000.
Dampingtimeconstant DampingtimeconstantisusedtoreducethelargefluctuationofpressuresignalandgivenbyeachProcessValueFilterTimeparameterfordifferentialPressure/pressure(AI1)andStaticpressure(AI2).
Outputsignalandintegralindicatormode Setsmodeforoutputsignalandintegralindicatorto“linearmode”(proportionaltoinputdifferentialpressure)orto“Squarerootmode”(proportionaltoflow).
Outputsignallowcutmode Usedmainlytostabilizeoutputnear0ifoutputsignalisthesquarerootmode.Twomodesareavailable:forcingoutputto0%forinputbelowaspecificvalue,orchangingtoproportionaloutputforinputbelowaspecificvalue.
Integralindicatorrangeofscaleandunit Setsoneofdifferentialpressure/pressurevalue,staticpressurevalue,ortemperaturevaluefortheintegralindicatorscale.Note: LRVandURVcanbesetwithintherangeof-32000to32000.
Unit for displayed temperature Sets a temperature unit to be displayed.Unitfordisplayedstaticpressure SetsapressureunitforthestaticpressuretobedisplayedDirectionofimpulsepipingconnection(whichishighpressure,LsideorRside)
Usedwhereinstallationconditionsmakesitimperativetoconnecthighpressuresideimpulselinetolowpressuresideoftransmitter.
Normally,correspondbyreplacingimpulseline,andusethisfunctiononlywhenunavoidable.
Rangewithactualinputapplied Rangecorrespondingfor0%to100%signalissetwithactualinputapplied.
Theoutputsettingcanbedonejust100%touser’sreferencepressureoutput.
However,whenshippingit,thecalibrationisdoneinhighaccuracyasforDPharp. Please do the span setting by a usual range setting.
Zero Point Adjustment and Span Adjustment Handle Zero Point Adjustment and Span Adjustment.
TherearetwomethodsofZeroPointAdjustment,usingexternalzero-adjustmentscrewandusingthedeviceconfigurationtool.
Reset adjustment Theamountoftheadjustmentsetbyusercanbecleared.Softwarewriteprotect Prohibitwritingthesettingdata.Operational mode Settheoperationalmodeofthesensorandintegralindicator,etc.Note: Someoftheparametersettingsareinthedialogueformcalledmethod,theon-lineinstructionsyoucanconfiguretheparameters
easily.
8.3.2 Function Block and Menu Tree
(1) Function Block
Thefunctionofthistransmitterisshownbelow.Aspecificfunctionmightnotbeabletobeusedaccordingtothefieldwirelessconfigurationtoolused.Whenthefieldwirelessconfigurationtoolofourrecommendationisused,thesoftware
attachedtotheFieldWirelessIntegratedGatewayisnecessaryforsettingthedottedlinepart.RefertoSubsection9.2“CalibrationInstrumentsSelection”forthefieldwirelessconfigurationtoolofourrecommendation.
<8. Setting Parameters> 8-3
IM 01C27B01-01EN
• Configuration• Diagnostics• Alerts• Power Status• Identification
(UAPMO)
• APP Download
(UDO)
• Configuration• Others
(CO)
• Block Info• Configuration/ Calibration
(TRANSDUCER)
• UAPMO• UDO• CO• TRANSDUCER• AI1 DP• AI2 SP• AI3 Temp
Online Menu
• UAP Option• Hardware Write Protect• Static Revision• Reset Energy Left• Radio Silence• Energy Harvest Type
(Configuration)
• Diagnostic Status• Diagnostic Status Detail.1• Diagnostic Status Detail.2• Diagnostic Switch• Diagnostic Configuration
(Diagnostics)
• Version Revision• CTS Version• ITS Version• Identification Number
(Identification)
• DESCRIPTION• STATE• MAX_BLOCK_SIZE• LAST_BLOCK_DOWNLOADED• ERROR_CODE
(APP Download)
• COMM_ENDPOINT• COMM_CONTRACT• PUB_ITEM_MAX• PUB_ITEM_NUM• PUB_ITEM
(Configuration)
• REVISION(Others)
• Network address of remote endpoint• Transport layer port at remote endpoint• Object ID at remote endpoint• Stale data limit• Data publication period• Ideal publication phase• PublishAutoRetransmit• Configuration status
(COMM_ENDPOINT)
• ContractID• Contract_Status• Actual_Phase
(COMM_CONTRACT)
• ObjectID• AttributeID• AttributeIndex• Size
(PUB_ITEM)
• Tag Description(Block Info)
• Auto Recovery• Model• Sensor Serial Number• Measurement Rate• Measurement Mode• Wireless Status• Display Selection
(Configuration/Calibration)
F0802-1.ai
• Energy Left• Power Supply Status• Power Supply Voltage
(Power Status)
• Others
• Display Unit1
• EJX Key
• Test Key 2• Test Key 1
• Test Key 3
• Unit Sel1
• XD Filter• LCD Intermittent Time
• Special Order ID• LCD Mode
• Special Cmd(Others)
• Other Faults Alert• Faults Non-compliance Alert• Faults Process Influence Alert• Simulation Active Alert• Soft Update Incomplete Alert• Power Low Alert• Power Critical Low Alert• Fault Prediction Alert• Environmental Conditions Alert• Outside Sensor Limits Alert• Out of Service Alert• Calibration Problem Alert• Faults Sensor or Actuator Alert• Faults Electronics Alert
(Alerts)
<8. Setting Parameters> 8-4
IM 01C27B01-01EN
• Block Info• Block Mode• Dynamic Variables• Configuration• Calibration• Others
(AI1 DP)• Tag Description
(Block Info)
• Mode.Target• Mode.Actual• Mode.Permitted• Mode.Normal
(Block Mode )
• Process Value• Simulation
(Dynamic Variables)
• Simulate Switch• Transducer Value• Simulate Value
(Simulation)
• Process Value.Status• Process Value.Value **
(Process Value)
• Block Mode• Concentrator OID• Scale *• Process Value Filter Time
(Configuration) (Block Mode)
• Mode.Target• Mode.Actual• Mode.Permitted• Mode.Normal
(Scale)
• Scale.EU at 100% *• Scale.EU at 0% *• Scale.Units Index *• Scale.Decimal *
• Upper Limit• Lower Limit• PV Range *• Linerization Type *• Flow Constant *• Lower Cutoff• Low Cut Mode *• H/L Swap *• T Zero Cmp *• Temp Zero *• Temp Select *
(Others) (PV Range)
• PV Range.EU at 100% *• PV Range.EU at 0% *• PV Range.Units Index *• PV Range.Decimal *
F0802-2.ai
• Block Mode• Cal Cmd *• Cal Status• Calibration Highest Point *• Calibration Lowest Point *• Calibration Minimum Span• External Zero Trim *
(Calibration) (Block Mode)
• Mode.Target• Mode.Actual• Mode.Permitted• Mode.Normal
• Transducer Value. Status• Transducer Value. Value
(Transducer Value)
• Simulate Value. Status• Simulate Value. Value
(Simulate Value)
Online Menu (continued)
*: Whenthedataoftheseparametersisrewritten,itisnecessarytosettheoperationalmodeoftheblocktoO/S(OutofService).**: Whenthedataoftheseparametersisrewritten,itisnecessarytosettheoperationalmodeoftheblocktoManual.
<8. Setting Parameters> 8-5
IM 01C27B01-01EN
• Block Info• Block Mode• Dynamic Variables• Configuration• Others
(AI2 SP)• Tag Description(Block Info)
• Mode.Target• Mode.Actual• Mode.Permitted• Mode.Normal
(Block Mode )
• Process Value• Simulation
(Dynamic Variables)
• Simulate Switch• Transducer Value• Simulate Value
(Simulation)
• Process Value.Status• Process Value.Value **
(Process Value)
• Block Mode• Concentrator OID• Scale *• Process Value Filter Time
(Configuration) (Block Mode)
• Mode.Target• Mode.Actual• Mode.Permitted• Mode.Normal
(Scale)
• Scale.EU at 100% *• Scale.EU at 0% *• Scale.Units Index *• Scale.Decimal *
• Upper Limit• Lower Limit• PV Range *• Linerization Type *• Flow Constant *• Lower Cutoff• Cal Cmd *• Cal Status• Calibration Highest Point *• Calibration Lowest Point *• Calibration Minimum Span• Static Pres Type *• SP Select *
(Others) (PV Range)
• PV Range.EU at 100% *• PV Range.EU at 0% *• PV Range.Units Index *• PV Range.Decimal *
F0802-3.ai
• Transducer Value. Status• Transducer Value. Value
(Transducer Value)
• Simulate Value. Status• Simulate Value. Value
(Simulate Value)
Online Menu (continued)
*: Whenthedataoftheseparametersisrewritten,itisnecessarytosettheoperationalmodeoftheblocktoO/S(OutofService).**: Whenthedataoftheseparametersisrewritten,itisnecessarytosettheoperationalmodeoftheblocktoManual.
<8. Setting Parameters> 8-6
IM 01C27B01-01EN
• Block Info• Block Mode• Dynamic Variables• Configuration• Others
(AI3 Temp)• Tag Description(Block Info)
• Mode.Target• Mode.Actual• Mode.Permitted• Mode.Normal
(Block Mode )
• Process Value• Simulation
(Dynamic Variables)
• Simulate Switch• Transducer Value• Simulate Value
(Simulation)
• Process Value.Status• Process Value.Value **
(Process Value)
• Block Mode• Concentrator OID• Scale *• Process Value Filter Time
(Configuration) (Block Mode)
• Mode.Target• Mode.Actual• Mode.Permitted• Mode.Normal
(Scale)
• Scale.EU at 100% *• Scale.EU at 0% *• Scale.Units Index *• Scale.Decimal *
• Sensor Range• Tertiary Value Sel *
(Others) (Sensor Range)• Sensor Range.EU at 100%• Sensor Range.EU at 0%• Sensor Range.Units Index **• Sensor Range.Decimal **
F0802-4.ai
• Transducer Value. Status• Transducer Value. Value
(Transducer Value)
• Simulate Value. Status• Simulate Value. Value
(Simulate Value)
Online Menu (continued)
*: Whenthedataoftheseparametersisrewritten,itisnecessarytosettheoperationalmodeoftheblocktoO/S(OutofService).**: Whenthedataoftheseparametersisrewritten,itisnecessarytosettheoperationalmodeoftheblocktoManual.
<8. Setting Parameters> 8-7
IM 01C27B01-01EN
(2) Menu TreeThemenutreeofthedeviceconfigurationtoolofourrecommendationisshownbelow.RefertoSubsection9.2“CalibrationInstrumentsSelection”forthedeviceconfigurationtoolofourrecommendation.
• UAPMO• TRANSDUCER• AI1 DP• AI2 SP• AI3 Temp
• Device Configuration• Diagnostic• Process Variable
(Device Configuration)Menu (Online)
F0803-1.ai
• Configure/Setup(UAPMO)
• UAP Option• Hardware Write Protect• Static Revision• Reset Energy Left• Radio Silence• Energy Harvest Type
(Configuration)
• Version Revision• CTS Version• ITS Version• Identification Number
(Identification)
• Configure/Setup(AI1 DP)
• Block Mode• Cal Cmd *• Cal Status• Calibration Highest Point• Set Calibration Highest Point *• Calibration Lowest Point• Set Calibration Lowest Point *• Calibration Minimum Span• External Zero Trim *
(Calibration)• Mode.Target• Mode.Actual• Mode.Permitted• Mode.Normal
(Block Mode)
• Upper Limit• Lower Limit• PV Range *• Linerization Type *• Flow Constant *• Lower Cutoff• Low Cut Mode *• H/L Swap *• T Zero Cmp *• Temp Zero *• Temp Select *
(Others)• PV Range.EU at 100% *• PV Range.EU at 0% *• PV Range.Units Index *• PV Range.Decimal*
(PV Range)
• Configure/Setup(TRANSDUCER)
• Auto Recovery• Model• Sensor Serial Number• Measurement Rate• Measurement Mode• Wireless Status• Display Selection• LCD Mode• Special Order ID• Unit Sel1• Display Unit1• LCD Intermittent Time• XD Filter• EJX Key• Test Key 1• Test Key 2• Test Key 3
(Configuration/Calibration)• Tag Description(Block Info)
• Special Cmd(Others)
• Mode.Target• Mode.Actual• Mode.Permitted• Mode.Normal
(Block Mode)
• Block Mode• Concentrator OID• Scale *• Process Value Filter Time
(Configuration)
• Mode.Target• Mode.Actual• Mode.Permitted• Mode.Normal
(Block Mode)
• Scale.EU at 100% *• Scale.EU at 0% *• Scale.Units Index *• Scale.Decimal *
(Scale)
• Tag Description(Block Info)
• Other Faults Alert• Faults Non-compliance
Alert• Faults Process Influence
Alert• Simulation Active Alert• Soft Update Incomplete
Alert• Power Low Alert• Power Critical Low Alert• Fault Prediction Alert• Environmental
Conditions Alert• Outside Sensor Limits
Alert• Out of Service Alert• Calibration Problem
Alert• Faults Sensor or
Actuator Alert• Faults Electronics Alert
(Alerts)
*: Whenthedataoftheseparametersisrewritten,itisnecessarytosettheoperationalmodeoftheblocktoO/S(OutofService).
<8. Setting Parameters> 8-8
IM 01C27B01-01EN
• Configure/Setup(AI2 SP)
F0803-2.ai
• Tag Description
(Block Info)
• Upper Limit• Lower Limit• PV Range *• Linerization Type *• Flow Constant *• Lower Cutoff• Cal Cmd *• Cal Status• Calibration Highest Point• Set Calibration Highest Point *• Calibration Lowest Point • Set Calibration Lowest Point *• Calibration Minimum Span• Static Pres Type *• SP Select *
(Others)
• Mode.Target• Mode.Actual• Mode.Permitted• Mode.Normal
(Block Mode)
• Sensor Range.EU at 100%• Sensor Range.EU at 0%• Sensor Range.Units Index *• Sensor Range. Decimal *
(Sensor Range)
(Block Mode)
• Mode.Target• Mode.Actual• Mode.Permitted• Mode.Normal
(AI3 Temp) (Block Info)• Tag Description
• Sensor Range• Tertiary Value Sel *
(Others)
• Block Mode• Concentrator OID• Scale *• Process Value Filter Time
(Configuration)
• Mode.Target• Mode.Actual• Mode.Permitted• Mode.Normal
(Block Mode)
• Scale.EU at 100% *• Scale.EU at 0% *• Scale.Units Index *• Scale.Decimal *
(Scale)
• PV Range.EU at 100% *• PV Range.EU at 0% *• PV Range.Units Index *• PV Range. Decimal *
(PV Range)
• Configure/Setup
• Block Mode• Concentrator OID• Scale *• Process Value Filter Time
(Configuration)
• Mode.Target• Mode.Actual• Mode.Permitted• Mode.Normal
(Block Mode)
• Scale.EU at 100% *• Scale.EU at 0% *• Scale.Units Index *• Scale.Decimal *
(Scale)
Menu (Online) (continued)
Device Configuration(continued)
*: Whenthedataoftheseparametersisrewritten,itisnecessarytosettheoperationalmodeoftheblocktoO/S(OutofService).
<8. Setting Parameters> 8-9
IM 01C27B01-01EN
• Transducer Value. Status• Transducer Value. Value
• UAPMO
Menu (Online)(continued)
(Diagnostic)
F0803-3.ai
• Device Diagnostics
(UAPMO)
• Diagnostic Status• Diagnostic Status Detail.1• Diagnostic Status Detail.2• Diagnostic Switch• Diagnostic Configuration
(Diagnostics)
• Energy Left• Power Supply Status• Power Supply Voltage
(Power Status)
• AI1 DP• AI2 SP• AI3 Temp
(Process Variable)
• Process Variable
(AI1 DP)
• Process Value• Simulation
(Dynamic Variables)
• Process Value.Status• Process Value.Value **
(Process Value)
• Simulate Switch• Transducer Value• Simulate Value
(Simulation)(Transducer Value)
• Simulate Value. Status• Simulate Value. Value
(Simulate Value)
• Process Variable
(AI2 SP)
• Process Value• Simulation
(Dynamic Variables)
• Process Value.Status• Process Value.Value **
(Process Value)
• Simulate Switch• Transducer Value• Simulate Value
(Simulation)
• Process Variable
(AI3 Temp)
• Process Value• Simulation
(Dynamic Variables)
• Process Value.Status• Process Value.Value **
(Process Value)
• Simulate Switch• Transducer Value• Simulate Value
(Simulation)
• Transducer Value. Status• Transducer Value. Value
(Transducer Value)
• Simulate Value. Status• Simulate Value. Value
(Simulate Value)
• Transducer Value. Status• Transducer Value. Value
(Transducer Value)
• Simulate Value. Status• Simulate Value. Value
(Simulate Value)
• Diagnostic.Other Faults• Diagnostic.Faults Non-Compliance• Diagnostic.Faults Process Influence• Diagnostic.Simulation Active• Diagnostic.Soft Update Incomplete• Diagnostic.Power Low• Diagnostic.Power Critical Low• Diagnostic.Fault Prediction• Diagnostic.Environmental Conditions• Diagnostic.Outside Sensor Limits• Diagnostic.Out of Service• Diagnostic.Calibration Problem• Diagnostic.Faults Sensor or Actuator• Diagnostic.Faults Electronics
(Diagnostic Configuration)
*: Whenthedataoftheseparametersisrewritten,itisnecessarytosettheoperationalmodeoftheblocktoO/S(OutofService).
<8. Setting Parameters> 8-10
IM 01C27B01-01EN
8.3.3 Parameters for Wireless Communication
(1) Network Information
Concentratorobjectblock:Configuration
Allowsconfirmingthenetworkinformation.
(2) Update Time
COblock:Datapublicationperiod
Setstheupdatetimevalueto0.5to3,600seconds.Thesettingaffectsthebatterylife.Whenupdatetimeisset0seconds,thetransmitterisstoppedtoupdateprocessvariablesbywayofthefieldwirelessnetwork.Andthetransmittercontinuestomeasureprocessvariableswithspecialintervaltimeinternally.
(3) Measurement Mode
TRANSDUCERblock:MeasurementMode
Thesettingaffectsthebatterylife;itbecomesshorterinthecontinuousmode.Whentheupdateperiodissetto1secondorlessinintermittentmode,themodeiscontinuousmode,regardless of the measurement mode and the display.
(4) Measurement Rate
TRANSDUCERblock:MeasurementRate
Reads the measurement rate value from 0.5 to 3600seconds.Theshorterthemeasurementperiod, the shorter the battery life.
(5) Remaining battery life
UAPMOblock:EnergyLeft
The number of days of remaining battery life is indicatedassumingthatatransmitterhasbeenworkingunderambienttemperatureconditionas23degreesCelsius.Ittakesseveraldaysfortheindicatedvaluetobestabiilzedafterthepoweronandinitializationoftheremainingbatterylife.
UAPMOblock:ResetEnergyLeft
Whenchangingbatteries,theremainingbatterylifeisinitializedbyResetEnergyLeftparameter.
(6) LCD display
ThefollowingstepsdescribehowtosetLCDdisplay.
1.On/Offofdisplay When“Enable”inLCDModeisselected,theLCDdisplaysasetofscreenstobeshownandturnsoffforthespecifiedtimebasedonLCDIntermittentTime,andthedisplaykeepsthecyclerepeatedly.NotselectingthisparameterturnstheLCDoff.
2.On/Offofcontinuousdisplaymode When“Enable”issettoLCDModeandzerois
set to LCD Intermittent Time, the LCD displays continuously.
3.On/Offofbargraph Select“LCDBargraphON”inLCDModewhen
the bar graph is required.
Whenthewirelessconnectionprocessisinthestatusof“ready,”“pause,”or“join,”theLCDdisplaystays on regardless of the status in LCD Mode.
NOTEWhenthedevicedetectsAL01andAL02,theLCD display stays on regardless of the status in LCD mode. See Table 9.3 and 9.4 Error Message Summary for details.
8.3.4 Tag and Device InformationIfthesearespecifiedwhenordering,thedesignatedTagNo.anddeviceinformationaresetandshipped.TagNo.anddeviceinformationcanbecheckedasfollows.
• ProceduretocallupthetagNo.anddeviceinformation
- DeviceTag(SoftwareTag) Thisisspecifiedwhenwritingcharacters(upto16characters)ofamplifiersTAGthatdifferfromcharactersspecifiedinTagNo.
Refertosection7.4“ConnectiontotheFieldWirelessNetwork”forconfirmation.
- TagDescription This is a universal parameter to store the commentthatdescribesthecontentofthetaglocatedintheTRANSDUCERandAIblocks.
TheAI1,AI2,andAI3blocksoftheAIblockscorrespondtothedifferentialpressure/pressure,staticpressure,andtemperature,respectively.
<8. Setting Parameters> 8-11
IM 01C27B01-01EN
• Whenchangingthedeviceinformation,inputtheinformationbasedonthefollowinglimitationonthenumberofcharacters.
- Messagefunction(upto32characters) TRANSDUCERblock:TagDescription AI1-AI3block:TagDescription
8.3.5 UnitTheunitparameterissetatthefactorybeforeshipmentifspecifiedatthetimeoforder.Followtheprocedurebelowtochangetheunitparameter.
• ProceduretocalluptheUnitdisplay(UnitsIndex)
Al1-Al3block:SCALE:UnitsIndex
TochangetheUnitdisplay,choosedesiredunitamongthelistofdisplayedunitselectingAI1blockasforthedifferentialpressure/pressure,AI2asforthestaticpressureandAI3blockasfortemperatureintheAIblocks.
8.3.6 Range ChangeTherangevaluesarefactory-setasspecifiedbythecustomer.Tochangetherange,followthestepsbelow.
The measurement span is determined by the upper andlowerrangevalues.Inthismethod,theupperandlowerrangevaluescanbesetindependently,andthespanchangesaccordingtotherangelimitvalues sent to the transmitter.
• ProceduretocallupthePVRangedisplay. AI1,Al2block:PVRange
SelecttheAI1blockforthedifferentialpressure/pressureandtheAI2blockforthestaticpressure,thenselect“EUat0%”and“EUat100%”displayedinthePVRangeparameters,andinputthelowerrangeandupperrangevaluesfortherange,respectively.
8.3.7 Output ModeTheoutputmodeoftheoutputsignalcanbesetasNoLinearizationorSqroot.
• ProceduretocalluptheLinearizationTypedisplay
AI1block:LinearizationType
SelecttheAI1blockforthedifferentialpressureandthenselectNoLinearizationorSqrootfortheLinearizationTypeparameter.
8.3.8 Output Signal Low Cut Mode SetupLowcutmodecanbeusedtostabilizetheoutputsignalnearthezeropoint.(Thereis10%ofhysteresisatonlypointoftransitionfromlowtohigh)
[Setup Low Cut Value]
• ProceduretocalluptheLowCutoff*display AI1block:LowCutoff*
Example:setupLOW_CUTofoutputto15%
*LowCutoff=(“Euat100%”-“Euat0%”)×0.15+“Euat0%”
[Setup Low Cut Mode]
• ProceduretocalluptheLowCutModedisplay AI1block:LowCutMode
Example:Lowcutat20%
(%)50
20
0 50 (%)
For low cut in Linear mode For low cut zero mode
[ sq root output ]
Example: Low cut 20%
Input
(%)50
20
0 50 (%)
Example: Low cut 20%
F0804.ai
(%)50
20
0 50 (%)
For low cut in Linear mode
[ Linear output ]
Example: Low cut 20%
Out
put
Out
put
Input
Input
Out
put
Figure 8.2 Low Cut Mode
Thelowcutpointhashysterisissothattheoutputaroundthepointisbehavedasbelowfigure.
<Example>Output mode: LinearLowcutmode:ZeroLowcut:20.00%
Output
Setting range:0 to 20%
Input0%
(20%)
2%
Low cutpoint
Hystrersis fixed at 10%of the cut point
F0805.ai
<8. Setting Parameters> 8-12
IM 01C27B01-01EN
8.3.9 Impulse Line Connection Orientation Setup
Thisfunctionreversestheimpulselineorientation.
FollowtheprocedurebelowtoassignthehighpressureimpulselineconnectiontotheLsideofthetransmitter.
• ProceduretocalluptheH/LSwapdisplay TRANSDUCERblock:H/LSwap
SelectReverseamongtwochoices(Normal/Reverse)inaH/LSwapparameter.
Normalischosenatthetimeofshipment.
8.3.10 Integral Indicator Display ModeItiseasytocheckontheLCDwhetherNonLinearizationorSqrootissetintheLinearizationTypeparameterselectedintheoutputmodefortheoutput signal. WhenLinearissetintheLinearizationTypeparameter,“√”isdisplayedontheintegralindicator.
8.3.11 Integral Indicator Scale SetupThefollowingthreedisplaysareavailablefortheintegralindictor:differentialpressure/pressure,staticpressure,andtemperature.Thefollowingthreevariablescanbedisplayedontheintegralindicator:%ofdifferentialpressurerange,%ofstaticpressurerange,and%oftemperaturerange.
Available displays Descriptionand related parameters
% of range(PRES%)
Indicatesinputpressurein–10to110% range depending on the set range(LRV and URV).PRES % 45.6 %
%ofstaticpressurerange(SP%) *1
Indicatesinputstaticpressurein–10 to 110% range depending on thesetrange(SP LRV and SP URV).SP % 52.6 %
*1: Availablefordifferentialpressuretransmitter.
Followtheproceduredescribedin(1)to(2)belowtosettheintegralindicator.
(1) Display Selection
DisplaysettoDisplaySelectionisdisplayedontheintegralindicator.
• ProceduretocalluptheDisplaySelectiondisplay
TRANSDUCERblock:DisplaySelection
TheDisplaySelectionparameterenablesthedifferentialpressure/pressure(AI1block),staticpressure(AI2block),andtemperature(AI3block)tobedisplayedontheLCD.Selectwhetherornottoenableeachblocktobedisplayed
(2) Cyclic Display
InformationintheAI1toAI3blockscanbedisplayedcyclicallyaccordingtothedisplayOn/Offsettingforthedifferentialpressure(AI1block),staticpressure(AI2block),andtemperature(AI3block)selectedintheDisplaySelectionparameter.
8.3.12 Unit for Displayed TemperatureWhen the instrument is shipped, the temperature units are set to C(Centigrade).Followtheprocedurebelowtochangethissetting.
• ProceduretocalluptheSensorRange.UnitsIndex display
AI3block:SensorRange.UnitsIndex
Confirmthat°C(degC)isselectedintheSensor Range.Units Index parameter for the temperature(AI3block).
Note: WhentheunitischangedbySensorRange.UnitsIndexparameterintemperature(Al3block),unitsofcapsuletemperatureisalsochanged.
<8. Setting Parameters> 8-13
IM 01C27B01-01EN
8.3.13 Unit for Displayed Static PressureFollowtheproceduretochangethestaticpressureunit.Changingthisparameteralsochangestheunitforthestaticpressuredisplay.
• ProceduretocalluptheSensorRange.UnitsIndex display
AI2block:SensorRange.UnitsIndex
ConfirmthatKPaisselectedintheSensorRange.UnitsIndexparameterforthestaticpressure(AI2block).
Monitoringthehighorlowstaticpressureofthecapsuledependsonthesettingofparameter ‘SPSelect.’
• ProceduretocalluptheSPSelectdisplay AI2block:SPSelect
SelectHighorLowintheSPSelectparameterforthestaticpressure(AI2block).
TypeofstaticpressureissetAbsolutepressure(Abs)atshipment.Whenchangingmonitoringtypeofstaticpressure,Followbelowprocedure.
• ProceduretocalluptheStaticPressTypedisplay
AI2block:StaticPressType
Selectgaugepressure(Gauge)orabsolutepressure(Abs)intheStaticPressTypeparameterforthestaticpressure(AI2block).
8.3.14 Zero Point Adjustment and Span Adjustment
EachEJX-BSeriesDifferentialPressure/PressureTransmitterischaracterizedbyfactory.Buttherearesomeerrorscausedbyenvironmentandinstalled posture.
ThereareZeroandSpanAdjustmentstofine-tunethose errors. Zero Adjustment is adjustment for one point to adjust the bottom value of the measurement range as 0 % of output..
TheSpanAdjustmentdefinesinputandoutputcharacteristicbetweentwopointsthat’sonesideassumed as standard. Thisisusedwhenthereisdoubtofspandriftorwhenitisimpossibletomakezeroatabsolutepressurewithadjustmentforuser’spressurestandard.
(1) Zero Point Adjustment
a. To set 0% at current input, perform following procedure.
Thismethodisusedonlywhenthepressureatbottomofmeasurementrangeiszero.
• Proceduretocallupthelowerlimitadjustmentparameter(CalibrationLowestPoint).
AI1block:CalibrationLowestPoint
Set0toCalibrationLowestPointparameterfordifferentialpressure(Al1block).
• Proceduretocallupthecalibrationadjustmentparameter(CalCmd).
AI1block:CalCmd:CAL_LOW
LowerlimitischangedbyusingCalCmdparameterfordifferentialpressure/pressure(Al1block).
• Proceduretocallupthecalibrationstatusparameter(CalStatus).
AI1block:CalStatus
ConfirmthecalibrationstatusofCAL_SUCCESS(1)usingtheCalStatusparameter.
b. To match current input and output value, follow procedure
Liketanklevelmeasurementthatisimpossibletosetactualleveltozero,outputvalueisadjustmenttoactuallevelbyothermeasurementusingglassgage.
Example: DifferentialPressureandPressureTransmitter’sspanis0to25.00kPa,currentlevelis13.50kPa,currentoutputis13.83kPa.
• Proceduretocallupthelowerlimitadjustmentparameter(CalibrationLowestPoint).
AI1block:CalibrationLowestPoint.
Settheactuallevelvalueof13.50kPatotheCalibrationLowestPointparameterforthedifferentialpressure(AI1block).ApplyanactualinputandconfirmthevaluespecifiedinCalibrationLowestPointastheoutputvalue.
• Proceduretocallupthecalibrationadjustmentparameter(CalCmd).
AI1block:CalCmd:CAL_LOW
Thepresentoutputischangedfrom13.83kPato13.50kPainCAL_LOWofthedifferentialpressure(AI1block)CalCmdparameter.
<8. Setting Parameters> 8-14
IM 01C27B01-01EN
• Proceduretocallupthecalibrationstatusparameter(CalStatus).
AI1block:CalStatus
ConfirmthecalibrationstatusofCAL_SUCCESS(1)usingtheCalStatusparameter.
DPharp
F0806.ai
25.00 kPa
0.00 kPa
Actual level 13.50 kPa
DPharp span: 0~25.00 kPaActual level: 13.50 kPaTransmitter output: 13.83 kPa
Figure 8.3 Tank level measurement
c. Using External Zero-adjustment Screw
ExternalZero-adjustmentparameter(ExternalZeroTrim)cansetpermissionorprohibitiontoadjustmentbyExternalZero-adjustmentScrew.
Set“Trimon”tousetheExternalZero-adjustmentScrew.(“Trimon”atshipment)
Useaslottedscrewdrivertoturnthezero-adjustmentscrew.Equalizethetransmitter,thenturnthescrewclockwisetoincreasetheoutputorcounterclockwisetodecreasetheoutput.Thezeropointadjustmentcanbemadewitharesolutionof0.01%ofthesettingrange.Thedegreeofzeroadjustmentsvarieswiththescrewturningspeed;turnthescrewslowlytomakeafineadjustment,quicklytomakearoughadjustment.
Zero-adjustment Screw
F0807.ai
Figure 8.4 Zero-adjustment Screw
(2) Span Adjustment
SpanAdjustmentisfunctiontochangetheinputandoutputcharacteristicthatassumedthebottomvalue(zeropoint)ofmeasurementrangeastandard.Therefore,performspanadjustment(adjustmentoftheupperlimitvalue)afterzeroadjustment(adjustmentofbottomlimitvalue).
After adding the pressure at point of adjustment and setting pressure value as parameter, the transmitter calculatesquantityofadjustmentandperformsadjustmentautomatically.
• Proceduretocallupthelowerlimitvalueparameter(CalibrationLowestPoint).
AI1block:CalibrationLowestPoint
Setthelowerlimitadjustmentvalueonthedifferentialpressure/pressure(AI1block)CalibrationLowestPointparameterscreen.Applyareferencepressurecorrespondingtothelowerlimitofthemeasurementrangetothedifferentialpressure/pressuretransmitterandconfirmthereferencepressurewhenithasstabilized.
• Proceduretocallupthecalibrationadjustmentparameter(CalCmd).
AI1block:CalCmd:CAL_LOW
ConfirmthelowerlimitofthemeasurementrangeinCAL_LOWofthedifferentialpressure(AI1block)CalCmdparameter.
• Proceduretocallupthecalibrationstatusparameter(CalStatus).
AI1block:CalStatus
ConfirmthecalibrationstatusofCAL_SUCCESS(1)usingtheCalStatusparameter.
• Proceduretocalluptheupperlimitadjustmentparameter(CalibrationHighestPoint).
AI1block:CalibrationHighestPoint
Set the upper limit adjustment value for the differentialpressure(AI1block)CalibrationHighestPointparameter.Applyareferencepressurecorrespondingtotheupperlimitofthemeasurementrangetothedifferentialpressure/pressuretransmitterandconfirmthereferencepressurewhenithasstabilized.
• Proceduretocallupthecalibrationadjustmentparameter(CalCmd).
AI1block:CalCmd:CAL_HIGH
ConfirmtheupperlimitofthemeasurementrangeinCAL_HIGHofthedifferentialpressure/pressure(AI1block)CalCmdparameter.
<8. Setting Parameters> 8-15
IM 01C27B01-01EN
• Proceduretocallupthecalibrationstatusparameter(CalStatus).
AI1block:CalStatus
ConfirmthecalibrationstatusofCAL_SUCCESS(1)usingtheCalStatusparameter.
(3) Adjustments for Static Pressure
FortheEJXdifferentialtransmitters,zeropointandspanadjustmentsofstaticpressureisperformedinthesamewayaswiththeprimaryprocessvariable(PV).Adjustmentshouldbeperformedusingthestaticpressure(AI2block)CalCmdparameter.Aftercalibration,confirmthestatusbyusingthestaticpressure(AI2block)CalStatus.
• Proceduretocallupthecalibrationadjustmentparameter(CalCmd).
AI2block:CalCmd
Performdifferentialpressurezero/spanadjustmentbeforestaticpressurezero/spanadjustment.
(4) Reset Adjustment
ResetAdjustmentcleartheamountofadjustment.ResetAjustmentcanbeperformedusingCAL_CLEARofthedifferentialpressure(AI1block)CalCmd parameter for the input pressure and using CAL_CLEARofthestaticpressure(AI2block)CalCmdparameterforthestaticpressure.AfterResetAdjustment,confirmthestatusbyusingCalStatusoftheclearedblock.Theamountofadjustmentmadebytheexternalzero-adjustmentscrewcanberesettotheinitialsettingaswell.
• Proceduretocallupthecalibrationadjustmentparameter(CalCmd).
AI1block:CalCmd:CAL_CLEAR AI2block:CalCmd:CAL_CLEAR
8.3.15 Software Write ProtectHardwarewriteprotectionandsoftwarewriteprotectionfunctionsareavailableforthistransmitter.
• Proceduretocalluptheprotectionsettingparameter(UAPOption)
UAPMOblock:UAPOption
ThefollowingsettingscanbeconfiguredintheUAP Option parameter.- Settingtoenableordisablesoftwarewriteprotection.
- Settingtoenableordisablethehardwarewriteprotectionswitch.
- SettingtoenableordisablechangingthesettingtotheDiagnosticSwitchandDiagnosticConfigurationparameters.
• Proceduretocalluptheprotectionsettingdisplayparameter(HardwareWriteProtect)
UAPMOblock:HardwareWriteProtect
TheHardwareWriteProtectparameterenablestheswitchstatusofhardwarewriteprotectiontobe displayed.
Fortherelationshipbetweenhardwarewriteprotectionandsoftwarewriteprotection,refertosection10.“ParameterSummary.”
<8. Setting Parameters> 8-16
IM 01C27B01-01EN
8.3.16 Switching to Deep Sleep ModeWhentheinstrumentwillnotbeusedforalongtime,switchtheinstrumenttodeepsleepmodetoconservebatterypower.Toswitchtodeepsleepmode,followtheprocedurebelow.
• Proceduretocalluptheswitch-to-deep-sleepparameter
TRANSDUCERblock:SpecialCmd
SetDeepSleepmode(Standby)totheSpecialCmd parameter for the TRANSDUCER block.Tostartfromdeepsleepmode,eitherremoveandinsertthebatterypack,orusingtheprovisioningdevicetoolorthedeviceconfigurationtoolviainfraredcommunication.
Incaseoftheexternalpoweredtype,turnoffthepowerandonagain.
CAUTIONAfter setting the deep sleep mode by infrared deviceconfigurationtool,keeptheinfraredportofdeviceawayfromanyotherinfraredsignals.
NOTE• Transmitterbecomesthestopstateaftersettingdeepsleepmodeandcannotreplyanyrequestfromthedeviceconfigurationtoolviawirelesscommunication.
• Forthisreason,thereisthecasethatanerrorisdisplayonthedeviceconfigurationtoolviawirelesscommunication.
• Towakeupfromdeepsleepmode,pleasepullbatterypackandwaitmorethan30secondsbeforeattachingbatterypackorturningonthepower.
8.3.17 Switching to Silence ModeThisisafunctiontopausetheinstrumentwhenitcannotjointhefieldwirelessnetworkafteraspecifiedtimehaselapsed.Thisfunctioniseffectiveinconservingbatterypowerwhen,forexample,theinstallationofthefieldwirelessintegratedgatewayisdelayedcomparedtothatoffieldwirelessdevices.Thedefaultvalueis28800seconds(8hours).Thereafter,acycleofaone-hourpauseandsix-minutesearchisrepeateduntiltheinstrumentcanjointhefieldwirelessnetwork.
• Proceduretocalluptheswitch-to-silenceparameter(RadioSilence)
UAPMOblock:RadioSilence
Set 0 to 231secondsfortheRadioSilenceparameteroftheUAPMOblock.If0isset,theRadioSilenceparameterisinvalid.Tostartfromdeep sleep mode, either remove and insert the batterypack,orusetheprovisioningdevicetoolordeviceconfigurationtoolviainfraredcommunication.
<8. Setting Parameters> 8-17
IM 01C27B01-01EN
8.4 Self-Diagnostics8.4.1 Identify Problems by Using the
Device Configuration ToolFirst,checkDiagnosticStatusoftheself-diagnosticresult.
UAPMOblock:DiagnosticStatus
Anyofthefourcategories(Checkfunction,Maintenancerequired,Failure,andOffspecification)accordingtoNAMURNE107*issuppliedtoDiagnosticStatusofeachdiagnosticresult.
Table 8.2 Diagnostic Status
Bits ContentsExample
NAMUR NE107Categorization
Bit31(MSB) F: Failure status ---Bit30 C:Functioncheckstatus ---Bit29 O:Outofspecificationstatus ---Bit28 M:Maintenancerequiredstatus ---Bit27 Faultsinelectronics FBit26 Faultsinsensororactuatorelement FBit25 Installation,calibrationproblem CBit24 Outofservice CBit23 Outside sensor limits OBit22 Environmentalconditionsoutofdevicespecification OBit21 Faultprediction:Maintenancerequired MBit20 Poweriscriticallow:maintenanceneedshort-term MBit19 Powerislow:maintenanceneedmid-term MBit18 Softwareupdateincomplete CBit17 Simulationisactive CBit16 Faultsduetoprocessinfluence FBit15 Faultsduetonon-compliancewithspecifiedoperatingconditions FBit14 Other faults FBit13-Bit08 reserved by WCI ---Bit07-Bit01 vendorspecificarea ---Bit00 Detail information available
1: available0: no available
---
CheckingtheDiagnosticStatuscategoryallowstakingtheproperaction.TheDiagnosticStatuscontentsarecommonforallISAdevices,andthesettingfortheDiagnosticStatuscategorycanbechanged.Forfurtherdetails,refertoDiagnosticStatus Detail. InDiagnosticStatusContentsthatcanbediagnosedbytheEJX,thealertcategorysetinOutofServicecanbechangedtoCheckfunction.Todoso,followoneoftheproceduresbelow.
a)UAPMOblock:UAPOption,selectenable.b)UAPMOblock:DiagnosticConfiguration,changeOutofServicefromFailuretoCheckfunction.
c)UAPMOblock:UAPOption,selectdisable.
ThecontentsofdiagnosticstatusaredefinedeithervalidorinvalidatDiagnosticSwitchparameter.Followtheexamplebelowtochange“OutofService”toinvalid.
a)UAPMOblock:UAPOption,selectenable.b)UAPMOblock:DiagnosticSwitch,turnONTurnoff“OutofService”.OutofService.
c)UAPMOblock:UAPOption,selectdisable.Note:Becarefulwhenchangingthealertcategoryandturning
detectiononandoffasdescribedabove.BesuretosetUAP OPTION to disable again to prevent setting errors.
*: NAMURNE107“Self-MonitoringandDiagnosisofFieldDevices”
InDiagnosticConfigurationsetting,selectonefromthefollowings;F:Failurestatus,C:Functioncheckstatus,O:Outofspecificationstatus,orM:Maintenancerequired status.
<8. Setting Parameters> 8-18
IM 01C27B01-01EN
8.4.2 Alert ReportEJX generates alert information related to DiagnosticStatusandautomaticallysendstoafieldwirelessgateway.Tousethisfunction,thefollowingalertsettingisnecessary.When“OutofService”forDiagnosticStatusalertisrequired,choose“FALSE”for[OutofService.AlertDisable]intheUAPMOblock.RefertothefieldwirelessgatewayUser’sManualforthesettingproceduretoobtainthealertinformationfromthegateway.ThealertreportconsistsofthelistofparameternamesasshownTable8.3below.Table 8.3 Contents of Alert Report
Parameter name DescriptionDetectObjectTLPort AlertdetectionportUAP(0xF0B2)
fixedDetectObject AlertdetectionblockUAPMO(1)
fixedDetectTime Time stampAlertDirection 1:generated,0:clearAlertPriority Alert priorities set by usersAlertType Alert types, see 8.4 Self-
DiagnosticsAlertValue NAMUR107category
0:Failure,1:checkFunction,2:OffSpec,3:MaintenaceRequired
CAUTIONForawirelessgatewaywhichdoesnotsupportthealertreportfunction,thealertsettinginUAPMOblockforthetransmittermustbesetto“Disable.”NotethatYFGW710fieldwirelessintegratedgatewaydoesnothavethealertreportfunction.
<8. Setting Parameters> 8-19
IM 01C27B01-01EN
Table 8.4 Diagnostic Results Summary
Diagnostic Status Contents
AlertType
NAMUR NE107
CategoryDiagnostic Status Detail Description
Faultsinelectronics 78 F
AMP_EEPROM_FAIL AmplifierEEPROMfailureAMP_EEP_IRREGULAR AMPEEPROMversionnotcorrectG_A_COMM_FAIL G/A failureFC_DELTA_T_FAIL C-sidedeltaTcircuitfailureFR_DELTA_T_FAIL R-sidedeltaTcircuitfailure
WL_AD_FAIL Batteryvoltagenotdetected(AMPfailure)
Faultsinsensororactuatorelement 77 F
FC_SENSOR_FAIL CsensorfrequencyfailureFR_SENSOR_FAIL RsensorfrequencyfailureCAP_T_SENSOR_FAIL Capsule temperature sensor failureCAP_EEPROM_FAIL Capsule EEPROM failureCAP_EEP_IRREGULAR CAPEEPROMversionnotcorrectFC_UNOSC_FAIL CsensoroscillationstopfailureFR_UNOSC_FAIL Rsensoroscillationstopfailure
Installation,calibrationproblem 76 C
DP_TRIM_SPAN_OUTSIDE "Pressure span adjustment variable outside of range"
DP_TRIM_ZERO_OUTSIDE "Pressurezeroadjustmentvariable outside of range"
SP_TRIM_SPAN_OUTSIDE "Staticpressurespanadjustment variable outside of range"
SP_TRIM_ZERO_OUTSIDE "Staticpressurezeroadjustment variable outside of range"
LCD_OUTSIDE_LIMIT LCD display outside of limits
Outofservice 75 CAI1_OUT_OF_SERVICE AI1 O/S modeAI2_OUT_OF_SERVICE AI2 O/S modeAI3_OUT_OF_SERVICE AI3 O/S mode
Outside sensor limits 74 O
DP_OUTSIDE_LIMIT Pressure outside of rangeSP_OUTSIDE_LIMIT StaticpressureoutsideofrangeCAPT_OUTSIDE_LIMIT Capsule temperature outside of rangeAMPT_OUTSIDE_LIMIT Amplifiertemperatureoutsideofrange
Environmentalconditionsoutofdevicespecification. 73 O
DP_OUTSIDE_RANGE Pressure setting outside of range
SP_OUTSIDE_RANGE Staticpressuresettingoutsideofrange
Poweriscriticallow: maintenanceneedshort-term.
71 M CRITICAL_LOWBAT Detectionofanextremedecreaseinthe battery voltage
Powerislow: maintenanceneedmid-term 70 M WL_LOWBAT_ALM Detectionofadecreaseinthebattery
voltage
Simulationisactive 68 CAI1_SIMULATION_ACTIVE AI1 Simulation modeAI2_SIMULATION_ACTIVE AI2 Simulation modeAI3_SIMULATION_ACTIVE AI3 Simulation mode
NotapplicableforthediagnosticregardingAI2objectandstaticpressuremeasurement.
<8. Setting Parameters> 8-20
IM 01C27B01-01EN
8.4.3 Checking with Integral Indicator
NOTEIfanerrorisdetectedbyrunningself-diagnostics,an error number is displayed on the integral indicator.Ifthereismorethanoneerror,theerrornumberchangesatthree-secondintervals.SeeTable9.3regardingtheerrorcodes.
F0808.ai
Figure 8.5 Integral Indicator
<9. Maintenance> 9-1
IM 01C27B01-01EN
9. Maintenance9.1 Overview
WARNING
Sincetheaccumulatedprocessfluidmaybetoxicorotherwiseharmful,takeappropriatecaretoavoidcontactwiththebodyorinhalationofvaporswhendrainingcondensateorventinggasfromthetransmitterpressure-detectorsectionand even after dismounting the instrument from theprocesslineformaintenance.
Maintenanceofthetransmitteriseasyduetoitsmodularconstruction.Thischapterdescribestheproceduresforcalibration,adjustment,andthedisassemblyandreassemblyproceduresrequiredforcomponentreplacement.
Transmittersareprecisioninstruments.Pleasecarefullyandthoroughlyreadthefollowingsectionsforinformationonhowtoproperlyhandlethemwhileperformingmaintenance.
IMPORTANT• Asarule,maintenanceofthistransmittershouldbedoneinamaintenanceroomthathasallthenecessarytools.
• The CPU assembly, RF assembly and Integralindicatorcontainsensitivepartsthatcanbedamagedbystaticelectricity.
Takeprecautionssuchasusingagroundedwriststrapwhenhandlingelectronicpartsortouchingtheboardcircuitpatterns.AlsobesuretoplacetheremovedCPUassembly,RFassemblyandIntegralindicatorintoabagwithanantistaticcoating.
9.2 Calibration Instruments Selection
Table9.1liststheinstrumentsthatcanbeusedtocalibrateatransmitter.Whenselectinganinstrument,considertherequiredaccuracylevel.Exercisecarewhenhandlingtheseinstrumentstoensuretheymaintainthespecifiedaccuracy.
9.3 CalibrationUsetheprocedurebelowtocheckinstrumentoperationandaccuracyduringperiodicmaintenanceortroubleshooting.
1) Insertthebatterypackorturnonthepowerand then perform provisioning to have the transmitterjointheFieldWirelessNetworkorpreparingtheinfraredcommunicationforcalibration.
2) Setmeasurementmodetocontinuoususingthefielddeviceconfigurationtoolandtheupdateperiodto1secondusingthefieldwirelessconfigurationtool.
3) ConnectthedevicesasshowninFigure9.1andallowthetransmittertowarmupforatleast5 minutes.
IMPORTANTIfthemeasurementrange0%pointis0kPaorshiftedinthepositivedirection(suppressedzero),thereferencepressureshouldbeappliedasshowninthefigure. If the measurement range 0% point is shifted inthenegativedirection(elevatedzero),thereferencepressureshouldbeappliedusingavacuumpump.
4) Applyreferencepressuresof0%,50%,and 100% of the measurement range to the transmitter.Calculatetheerrors(differencesbetweenthedeviceconfigurationtoolreadingsandreferencepressures)asthepressureisincreasedfrom0%to100%andisdecreasedfrom100%to0%,andconfirmthattheerrorsarewithintherequiredaccuracy.
(Note)Whentheoutputmodeissetto“Sgroot,”applyreferencepressures of 0, 6.25, 25, 56.25, and 100% instead.
5) Whenthetestisfinished,resetmeasurementmode and update time to the initial value using thefielddeviceconfigurationtoolandthefieldwirelessconfigurationtool.
<9. Maintenance> 9-2
IM 01C27B01-01EN
Table 9.1 Instruments Required for Calibration
Name Yokogawa-recommended Instrument RemarksProvisioning devicetool
• FieldMate(R2.02.01orlater)• ProvisioningDeviceTool• InfraredAdaptercertifiedbyYokogawa Supplier:ACTiSYS Productname:IrDAInfraRedUSBAdaptor Productnumber:IR224UN
Fieldwirelessconfigurationtool
• FieldWirelessIntegratedGatewayattachedSoftware FieldWirelessConfigurator Field Wireless Management Tool• FieldWirelessSystemrelatedProduct PlantResourceManager(PRM)(R3.05orlater)• DeviceConfigurationToolviaISA100.11aWirelessCommunication FieldMate(R2.02.01orlater) DeviceFile(R3.01.01orlater)• DeviceConfigurationToolviaInfraredCommunication FieldMate(R2.03.00orlater) DeviceFile(R3.02.01orlater)
Digital manometer
ModelMT220precisiondigitalmanometer1)For10kPaclass Accuracy:±(0.015%ofrdg+0.015%ofF.S.). . . . for0to10kPa ±(0.2%ofrdg+0.1%ofF.S.) . . . . . . . . for-10to0kPa2)For130kPaclass Accuracy:±0.02%ofrdg . . . . . . . . . . . . . . . . . . . . for25to130kPa ±5digits . . . . . . . . . . . . . . . . . . . . . . . . . for0to25kPa ±(0.2%ofrdg+0.1%ofF.S.) . . . . . . . . for-80to0kPa3)For700kPaclass Accuracy:±(0.02%ofrdg+3digits) . . . . . . . . . . . for100to700kPa ±5digits . . . . . . . . . . . . . . . . . . . . . . . . for0to100kPa ±(0.2%ofrdg+0.1%ofF.S.) . . . . . . . . for-80to0kPa4)For3000kPaclass Accuracy:±(0.02%ofrdg+10digits) . . . . . . . . . . for0to3000kPa ±(0.2%ofrdg+0.1%ofF.S.) . . . . . . . . for-80to0kPa5)For130kPaabsclass Accuracy:±(0.03%ofrdg+6digits) . . . . . . . . . . . for0to130kPaabs
Selectamanometerhavingapressurerangeclosetothat of the transmitter.
Pressure generator
ModelMC100pneumaticpressurestandardfor200kPa{2kgf/cm2},25kPa{2500mmH2O}
Accuracy:±0.05%ofF.S.
Requires air pressure supply.
Deadweightgaugetester25kPa{2500mmH2O}Accuracy:±0.03%ofsetting
Selecttheonehavingapressurerangeclosetothatof the transmitter.
Pressure source
Model6919pressureregulator(pressurepump)Pressurerange:0to133kPa{1000mmHg}
Preparethevacuumpumpfor negative pressure ranges.
Note: Theabovetablecontainstheinstrumentscapableofperformingcalibrationtothe0.2%level.Sincespecialmaintenanceandmanagementproceduresinvolvingtraceabilityofeachinstrumenttohigher-levelstandardsarerequiredforcalibrationtothe0.1%orhigherlevel,theremaybedifficultiesincalibrationtothislevelinthefield.Forcalibrationtothe0.1%level,contactYokogawarepresentativesfromwhichtheinstrumentwaspurchasedorthenearestYokogawaoffice.
P
Using pressure generator
Reference pressure
High pressure side
Low pressure sideopen to atmosphere
Low pressure sideopen to atmosphere
Supply pressure
Pressure generator P
Using pressure source with manometer
Reference pressure
Pressure source
Precision digital manometer
F0901.aiL H L H
High pressure side
Figure 9.1 Instrument Connections
<9. Maintenance> 9-3
IM 01C27B01-01EN
Table9.2showsthetoolsrequired.
Table 9.2 Tools for Disassembly and Reassembly
Tool Quantity RemarksPhillips screwdriver
1 JIS B4633, No. 2
Slotted screwdriver
1
Allenwrenches 3 JIS B4648 Oneeach,nominal3,4 and 2.5 mm Allen wrenches
Wrench 1 Widthacrossflats,17mmTorquewrench 1Adjustable wrench
1
Socketwrench 1 Widthacrossflats,16mmSocketdriver 1 Widthacrossflats,5.5mmTweezers 1
9.4.1 Replacing the Integral IndicatorThissubsectiondescribestheprocedureforreplacinganintegralindicator.(Seefigure9.2)
■ Removing the Integral Indicator
1) Removethecover.2) Whilesupportingtheintegralindicatorwithone
hand,loosenitstwomountingscrews.3) DismounttheintegralindicatorfromtheRF
assembly. Whendoingthis,carefullypulltheintegral
indicatorstraightforwardsoasnottodamagetheconnectorpinsbetweenitandtheRFassembly.
9.4 Disassembly and Reassembly
CAUTIONPrecautions for the intrinsic safety explosion prevention type instrument
Intrinsicsafetypetransmittersmustbe,asarule,removedtoanon-hazardousareaformaintenanceandbedisassembledandreassembledtotheoriginalstate.Checkandconfirmtheinsulationwhenitisreassembledtothe original state.Checkandconfirmtheinsulationwhenitisreassembled to the original state.Refertosection2.7“InsulationResistanceandDielectricStrengthTest”fordetailsofResistanceTest.
IMPORTANT• PerformtheprovisioningwhenreplacingtheRFassembly.Referto7.4ConnectingtotheFieldWirelessNetworkfordetails.
• ReplacethebatteriesandperformtheparametersettingswhenreplacingtheCPUassembly.Referto9.4.7ReplacingtheBatteries.TurnonthepowerandperformtheparametersettingsagainwhenreplacingtheCPUassemblyoftheexternalpoweredtype.Referto9.4.9ReplacingthePowerSupplyModule.
Thissectiondescribesproceduresfordisassemblyandreassemblyformaintenanceandcomponentreplacement.
CAUTIONAlwaysremovebatterypackorturnoffthepowerandshutoffpressuresbeforedisassemblyandassembly. Use proper tools for all operations.
<9. Maintenance> 9-4
IM 01C27B01-01EN
■ Attaching the Integral Indicator
1) AlignboththeintegralindicatorandRFassemblyconnectorsandengagethem.
2) Insertandtightenthetwomountingscrews.3) Replacethecover.
Zeroadjustmentscrew
RF assembly
CPU assembly
Amplifier cover
Mounting screw
Integral indicator Boss
Stud
F0902.ai
PressForward
Power cable
Zero-adjustmentscrew pin
Figure 9.2 Removing and Attaching Integral indicator, RF assembly and CPU Assembly
9.4.2 Replacing the RF AssemblyThissubsectiondescribeshowtoreplacetheRFassembly(seeFigure9.2).
■ Removing the RF assembly
1) Removethecover.2) Removetheintegralindicator(referto
subsection9.4.1).3) Removethetwostudboltsbyusingasocket
driver(widthacrossflats:5.5mm).4) DisconnecttheRFassemblyfromtheCPU
assembly.Whendoingthis,carefullypulltheRFassemblystraightforwardsoasnottodamagetheconnectorpinsbetweenitandtheCPUassembly.
5) DisconnecttheantennacablethatconnectstheRF assembly and the antenna.
NOTEBecarefulnottoapplyexcessiveforcetotheRFassemblyandtheconnectoroftheantennacablewhenremovingit.
■ Mounting the RF assembly
1) ConnecttheantennacablebetweentheRFassembly and the antenna.
2) AlignboththeRFassemblyandCPUassemblyconnectorsandengagethem.
3) Tightenthetwostudbolts.4) Mounttheintegralindicator(refertosubsection
9.4.1).5) Replacethecover.
9.4.3 Replacing the CPU AssemblyThissubsectiondescribeshowtoreplacetheCPUassembly(seeFigure9.2).
■ Removing the CPU assembly
1) Removethecover. RemovetheintegralindicatorandtheRFassembly(refertosubsections9.4.1and9.4.2).
2) Turnthezero-adjustmentscrewtothepositionasshowninFigure9.2.
3) Disconnectthepowercable(cablewithbrownconnectorattheend). When doing this, lightly press the side of the CPUassemblyconnectorandpullthecableconnectortodisengage(seetheupperleftofFigure9.2).
4) Useasocketdriver(widthacrossflats,5.5mm)toloosenthetwobosses.
5) CarefullypulltheCPUassemblystraightforwardtoremoveit.
6) Disconnecttheflatcable(cablewithwhiteconnectorattheend)thatconnectstheCPUassemblyandthecapsule.
NOTEBecarefulnottoapplyexcessiveforcetotheCPUassemblywhenremovingit.
■ Mounting the CPU assembly
1) Connecttheflatcable(withwhiteconnector)betweentheCPUassemblyandthecapsule.
2) Connectthepowercable(withbrownconnector)totheCPUassembly.
NOTEMakecertainthatthecablesdonotgetpinchedbetweenthecaseandtheedgeoftheCPUassembly.
<9. Maintenance> 9-5
IM 01C27B01-01EN
3) Alignandengagethezero-adjustmentscrewpinwiththegrooveonthebracketontheCPUassembly. Then insert the CPU assembly straightontothepostintheamplifiercase.
4) Tightenthetwobosses.MounttheRFassembly,andtheintegralindicator(refertosubsections9.4.1and9.4.2).
IMPORTANTConfirmthatthezero-adjustmentscrewpinisplacedproperlyinthegrooveonthebracketpriortotighteningthetwobosses.Ifitisnot,thezero-adjustmentmechanismwillbedamaged.
5) Replacethecover.
9.4.4 Cleaning and Replacing the Capsule Assembly
CAUTIONPrecautions for the intrinsic safety explosion prevention type instrumentModificationisnotpermittedbytheuserforintrinsicsafetyexplosionpreventiontypetransmitter.Ifyouwishtoreplacethecapsuleassemblywithoneofadifferentmeasurementrange,contactYokogawa.Theuserispermitted,however,toreplaceacapsuleassemblywithanotherofthesamespecificationandmeasurementrange.Aftercompletingmaintenance,besuretosecurelytightenthesetscrewsthatfastenthetransmittersectionandpressure-detectorsectiontogether.
Thissubsectiondescribestheproceduresforcleaningandreplacingthecapsuleassembly.(Seefigure9.3.)
■ Removing the Capsule Assembly
IMPORTANTExercisecareasfollowswhencleaningthecapsuleassembly.• Handlethecapsuleassemblywithcare,andbeespeciallycarefulnottodamageordistortthediaphragmsthatcontacttheprocessfluid.
• Donotuseachlorinatedoracidicsolutionforcleaning.
• Rinsewithcleanwateraftercleaning,pleasedryuntilcompletelydry.
1) RemovetheCPUassemblyasshowninsubsection9.4.3.
2) Removethefivesetscrews,thestopperbolt,andthestopperthatconnectthetransmittersectionandpressure-detectorsection.
3) Removethehexagon-headscrewandthestopper.
4) Separatethetransmittersectionandpressure-detectorsection.
5) Removethenutsfromthefourflangebolts.6) Whilesupportingthecapsuleassemblywith
onehand,removethecoverflange.7) Removethecapsuleassembly.8) Cleanthecapsuleassemblyorreplacewitha
newone.
■ Reassembling the Capsule Assembly
1) Insertthecapsuleassemblybetweentheflangebolts,payingcloseattentiontotherelativepositionsoftheH(highpressureside)andL(lowpressureside)marksonthecapsuleassembly.
Replacethetwocapsulegasketswithnewgaskets.
2) Installthecoverflangeonthehighpressureside,anduseatorquewrenchtotightenthefournutsuniformlytoatorqueshownbelow.
ModelEJX110B, EJX310B, EJX430BWetted parts material code
S H,M,T,A,D,B Torque(N·m)
{kgf·m}17*{1.7}
40{4.1}
*:40N·m(4.1kgf·m)formeasurementspancodeF,optioncode/HDor/HD2.
<9. Maintenance> 9-6
IM 01C27B01-01EN
3) Afterthepressure-detectorsectionhasbeenreassembled,aleaktestmustbeperformedtoverifythattherearenopressureleaks.
4) Reattachthetransmittersectiontothepressure-detectorsection.
5) Reattachthestopperandstopperbolt.Tightenthefivesetscrews.(Tightenthescrewstoatorqueof1.5N·m)
6) InstalltheCPUassemblyaccordingtosubsection9.4.3.
7) Aftercompletingreassembly,adjustthezeropointandrechecktheparameters.
StopperStopper bolt
F0903.ai
Transmitter section
Pressure-detectorsectionCover flange
Capsulegasket
Flange bolt
Setscrew
Nut
Figure 9.3 Removing and Mounting the Pressure-detector Section
9.4.5 Replacing the Process Connector Gaskets
Thissubsectiondescribesprocessconnectorgasketreplacement.(Seefigure9.4.)
(a) Loosenthetwobolts,andremovetheprocessconnectors.
(b) Replacetheprocessconnectorgaskets.(c) Remounttheprocessconnectors.Tightenthe
boltssecurelyanduniformlytoatorqueshownbelow,andverifythattherearenopressureleaks.
Model EJX110B, EJX310B, EJX430BTorque(N·m)
{kgf·m} 39to49{4to5}
F0904.ai
Bolt
Process connector
Process connector gasket
Figure 9.4 Removing and Mounting the Process Connector
9.4.6 Replacing the Battery PackRegardingthetransmitterwithintrinsicallysafeapproval,thebatterypackcanbereplacedwithoutremovingthedeviceinhazardousarea.
■ Preparation
InitializetheremainingbatterylifebyusingtheparameterofResetEnergyLeftinUAPMOblock.Whenthebatterypowerisburnedandemptied,initializetheremainingbatteryafterpromptreplacementofthebatterypack.
■ Removing
1) Removetheterminalboxcover.2) Loosenthetwobatterypackmountingscrews
(seeFigure9.5).3) PullouttheBatterypack.
F0905.ai
The battery pack mounting screws cannot be separated from the battery pack so as to prevent drop-off.
Figure 9.5 Removing the Battery Pack
<9. Maintenance> 9-7
IM 01C27B01-01EN
■ Remounting
1) Insertthenewbatterypacklightly.2) Pushthecenterofthebatterypackandinsertit
securely.3) Tightenthetwobatterypackmountingscrews
to a torque of approximately 0.7 N·m.4) Replacetheterminalboxcover.
CAUTIONDonotattachthepowersupplymoduletothebatterypoweredtype.
9.4.7 Replacing the BatteriesThebatteriesinthebatterypackcanbereplaced.Batteriesarenotinstalledwhenshippedfromthefactory.Assemblethebatterypackasfollows.
WARNING
Besuretoreplacethebatteriesordisassembleandassemblethebatterypackinasafelocation.Doingsoinanexplosiveareacouldcauseanexplosion.
CAUTIONWhenreplacingthebatteries,besuretoreplacethetwobatteriesatthesametimeanddonotuseanoldandanewbatterytogether.
■ Disassembling
1) Loosenthetwobatterycasemountingscrews(Figure9.6).
2) Separatethebatterycaseintotwoparts.3) Removetheoldbatteries.
■ Assembling
1) Insertnewbatteriesintothebatterycase.Becarefuloftheorientationofthebatteries.
2) Attachthetwopartsofthebatterycasetoeachother.
3) Tightenthetwobatterycasemountingscrewsto a torque of approximately 0.7 N·m.
F0906.ai
The battery pack mounting screws cannot be separated from battery pack so as to prevent drop-off.
Figure 9.6 Removing the Battery Pack
9.4.8 Handling BatteriesThisbatterypackusestwoprimarylithium/thionylchloridebatteries.Eachbatterycontainsapproximately 5 grams of lithium, for a total of 10 gramsineachpack.Undernormalconditions,thebatterymaterialsareself-containedandarenotreactiveaslongasthebatteriesandthepackintegrityaremaintained.Careshouldbetakentopreventthermal,electricalormechanicaldamage.Protecttheelectrodeofthebatterypacktoavoidrapidelectricaldischarge.Dischargedabatterymayleadtofluidleakageandexcessiveheat.Batteriesshouldbestoredinacleananddryarea.Formaximum battery life, storage temperature should notexceed30°C.
WARNING
HandlingthebatterypackThefollowingprecautionsmustbeobservedinordertosafelyandeffectivelyuseabatterypack.Improperusemayleadtofluidleakage,excessiveheat,ignition,orexplosion.• Neverchargeit.• Donotshort-circuitit.• Do not disassemble, transform, or modify it.• Donotheatitorthrowitintoafire.• Donotsoakitinfreshwaterorseawater.
CAUTIONObservethefollowingprecautionsforthesafedisposal of batteries.• Donotincineratethebattery,anddonotexposeittoahightemperatureof100°Cormore.Thismayleadtofluidleakageorexplosion.
• Disposeofthebatteryaccordingtolawsandregulations.
<9. Maintenance> 9-8
IM 01C27B01-01EN
Usethefollowingdedicatedpartsforthebatterypackandbatteries.
■ Battery Pack
Partnumber:F9915NQ(withbatteries) Partnumber:F9915NK(withoutbatteries)
■ Batteries
Part number: F9915NR Alternatively, Tadiran SL-2780/S, TL-5930/S
or VITZROCELL SB-D02 batteries may be purchasedandused.
■ Transportation of products containing lithium batteries:
Batteriesusedforthistransmittercontainlithium. Primary lithium batteries are regulated in transportation by the U.S. Department of Transportation,andarealsocoveredbytheInternationalAirTransportAssociation(IATA),theInternationalCivilAviationOrganization(ICAO),andthe European Ground Transportation of Dangerous Goods(ARD).Itistheresponsibilityoftheshippertoensurecompliancewiththeseoranyotherlocalrequirements.Consultcurrentregulationsandrequirements before shipping. When transporting thistransmitterwiththebatterypackinserted,keepitindeepsleepmodeinordertoconservebatterypower.Fordetailsonhowtoswitchtodeepsleepmode,refertosubsection8.3.16“SwitchingtoDeepSleepMode.”
■ How to replace and dispose of the batteries:
ThisisanexplanationaboutthenewEUBatteryDirective(DIRECTIVE2006/66/EC).Thisdirectiveisonly valid in the EU.Batteriesareusedforthisproduct.Whenyouremovebatteriesfromthisproductanddisposethem,discardtheminaccordancewithdomesticlawconcerningdisposal.Takearightactiononwastebatteries,becausethecollectionsystemintheEUonwastebatteriesareregulated.
Batterytype:Primarylithium-thionylchloridebattery
CAUTIONThesymbol(seeabove),whichismarkedonthebatteries, means they shall be sorted out and collectedasordainedinANNEXIIinDIRECTIVE2006/66/EC.
■ Procedure to remove the batteries safely:
Refertosubsection9.4.6“ReplacingtheBatteryPack”andsubsection9.4.7“ReplacingtheBatteries.”
9.4.9 Replacing the Power Supply Module
■ Removing
1) Turnoffthepower.2) Removetheterminalboxcover.3) Loosenthetwopowersupplymodulemounting
screws(seeFigure9.5).4) Pulloutthepowersupplymodule.
■ Remounting
1) Insertthenewpowersupplymodulelightly.2) Pushthecenterofthepowersupplymodule
andinsertitsecurely.3) Tightenthetwopowersupplymodulemounting
screwstoatorqueofapproximately0.7N·m.4) Replacetheterminalboxcover.
CAUTIONDonotattachthebatterypacktotheexternalpoweredtype.
9.5 TroubleshootingIf any abnormality appears in the measured values, usethetroubleshootingflowchartbelowtoisolateandremedytheproblem.Sincesomeproblemshavecomplexcauses,theseflowchartsmaynotidentifyall.Ifyouhavedifficultyisolatingorcorrectingaproblem,contactYokogawaservicepersonnel.
<9. Maintenance> 9-9
IM 01C27B01-01EN
9.5.1 Basic TroubleshootingFirstdeterminewhethertheprocessvariableisactuallyabnormaloraproblemexistsinthemeasurement system.
If the problem is in the measurement system, isolatetheproblemanddecidewhatcorrectiveactiontotake.
Thistransmitterisequippedwithaself-diagnosticfunctionwhichwillbeusefulintroubleshooting,andthetransmitterequippedwithanintegralindicatorwillshowanalarmcodeasaresultofself-diagnosis. Seesubsection9.5.3forthelistofalarms.
Abnormalities appear in measurement.
: Areas where self-diagnostic offers support
Is process variableitself abnormal?
Inspect theprocess system.
Isolate problem inmeasurement system.
Does problem exist inreceiving instrument?
Check/correctenvironmental conditions.
Inspect receiver.
Check transmitter.
Check/correct operatingconditions.
Measurement system problem
F0907.ai
YES
NO
NO
YES
Environmental conditions
Operating conditions
Transmitter itself
Figure 9.7 Basic Flow and Self-Diagnostics
9.5.2 Troubleshooting Flowcharts
Check display of the error code.Check self-diagnostics by the device configuration tools.
Does the self-diagnosticindicate problem location?
Contact Yokogawa service personnel.
F0908.ai
The following sorts of symptoms indicate that transmitter may not be operating properly.Example : • There is no output signal. • Output signal does not change even though process variable is known to be varying. • Output value is inconsistent with value inferred for process variable.
Fix pressure leaks, paying particularattention to connections for impulsepiping,pressure-detector section, etc.
Fully close equalizing valve, and fullyopen high pressure and low pressurevalves.
Are valves opened orclosed correctly?
Is there any pressure leak?
YES
NO
YES
NO
NO
YES
Refer to Alarm Message Summary in Subsection 9.5.3.
Is the Field Wireless Networksetting correct?
NO
YES Reconnect to the Field Wireless Network.
<9. Maintenance> 9-10
IM 01C27B01-01EN
Connect the device configuration tool and check self-diagnostics.
Does the self-diagnostic indicate problem
location?
Contact Yokogawa service personnel.F0909.ai
Are valves opened or closed correctly?
Refer to Alarm Message Summary in Subsection 9.5.3.
YES
NO
Refer to individual model user manualsand connect piping as appropriate for the measurement purpose.
Fix pressure leaks, paying particularattention to connections for impulsepiping, pressure-detector section, etc.
Fully close equalizing valve, and fullyopen high pressure and low pressurevalves.
NO
YES
YES
NO
YES
Adjust the zero point.
NO
NO
YES
Is there any pressure leak?
Is impulse piping to high pressure and lowpressure side correct?
Is zero point adjusted correctly?
Output travels beyond 0% or 100%.
Connect the device configuration tool and check self-diagnostics.
Contact Yokogawa service personnel.
F0910.ai
Are valves opened orclosed correctly?
Is impulse pipingconnected correctly?
Refer to Alarm Message Summary in Subsection 9.5.3.
Provide lagging and/or cooling, or allowadequate ventilation.
Refer to Section 9.2 "Calibration Instruments Selection".
Fully close equalizing valve, and fullyopen high pressure and low pressurevalves.
Refer to individual model user manualsand connect piping as appropriate for the measurement purpose.
Adjust the output.
Is transmitterinstalled where there is
marked variation intemperature?
Is output adjusted correctly?
Large output error.
Does the self-diagnostic indicate problem
location?
Were appropriateinstruments used for
calibration?
YES
NO
YES
NO
NO
YES
NO
YES
NO
YES
NO
YES
<9. Maintenance> 9-11
IM 01C27B01-01EN
9.5.3 Errors and Countermeasures
Table 9.3 Error Message Summary (Causes and Actions)
Integral indicator
Factory NAMUR category Bit Diagnostic
Status Diagnostic Status Detail Cause
Release/recovery
conditions (except restart)
Action
AL. 01CAP. ERR *2
F Bit 26
Faults in sensor or actuatorelement
FC_SENSOR_FAIL
Pressure sensor failure
RecoversonlywhenAUTORECOVER is ONandwithinthe range
Replacethecapsule.
FR_SENSOR_FAIL
FC_UNOSC_FAIL RecoversonlywhenAUTORECOVER is ON and oscillationdoesnot stop
FR_UNOSC_FAIL
CAP_T_SENSOR_FAIL Capsule temperature sensor failure
None
CAP_EEPROM_FAIL Capsule EEPROM memory failure
Recoverswhenreturnstonormal.
CAP_EEP_IRREGULAR None
AL. 02AMP. ERR *2
F Bit 27 Faults in electronics
AMP_EEPROM_FAILAmplifierEEPROM failure
Recoverswhenreturnstonormal.
Replacetheamplifier.
AMP_EEP_IRREGULAR NoneFC_DELTA_T_FAIL
Amplifierfailure NoneFR_DELTA_T_FAILG_A_COMM_FAILWL_AD_FAIL
AL. 10 PRESS
O Bit 23 Outside sensor limits
DP_OUTSIDE_LIMIT Pressure outside of specifiedrange
Recoverswheninput pressure returnswithinthe range.
Checkthe input pressure.
AL. 11ST. PRSS
SP_OUTSIDE_LIMIT Staticpressureoutside of specifiedrange
Recoverswhenstaticpressurereturnswithinthe range.
Checkthe input pressure.
AL. 12CAP. TMP
CAPT_OUTSIDE_LMIT Capsule temperature outside of range (-50to130°C)
Recoverswhentemperature returnswithinthe range.
Retain heat or insulate so that temperature returnswithinthespecifiedrange.
AL. 13AMP. TMP
AMPT_OUTSIDE_LIMIT Amplifiertemperature outside of range (-50to95°C)
Recoverswhentemperature returnswithinthe range.
Retain heat or insulate so that temperature returnswithinthespecifiedrange.
<9. Maintenance> 9-12
IM 01C27B01-01EN
Integral indicator
Factory NAMUR category Bit Diagnostic
Status Diagnostic Status Detail Cause
Release/recovery
conditions (except restart)
Action
AL.53P. ADJ
C Bit 25Installation, calibrationproblem
DP_TRIM_SPAN_OUTSIDE Pressure span adjustment variable outside of range
Recoverswhenspanadjustment variable/point returnswithinthe range.
Checkthe span adjustment variable for the Pressure.
AL.53P. ADJ
DP_TRIM_ZERO_OUTSIDE Pressurezeroadjustment variable outside of range
Recoverswhenzeroadjustment variable/point returnswithinthe range.
Checkthezeroadjustment variable for the Pressure.
AL. 55SP. ADJ
C Bit 25Installation, calibrationproblem
SP_TRIM_SPAN_OUTSIDE Staticpressurespan adjustment variable outside of range
Recoverswhenspanadjustment variable /point returnswithinthe range.
Checkthestaticpressure span adjustment variable.
AL. 55SP. ADJ
SP_TRIM_ZERO_OUTSIDE Staticpressurezeroadjustmentvariable outside of range
Recoverswhenzeroadjustment variable/point returnswithinthe range.
Checkthestaticpressurezeroadjustment variable.
AL. 79OV. DISP
LCD_OUTSIDE_LIMIT LCD display outside of specifiedrange
Recoverswhendisplay value returnswithinthe range.
Checkthedisplay setting.
AL. 30RANGE
O Bit 22
Environmental conditionsoutofdevicespecification
DP_OUTSIDE_RANGE Input pressure setting outside of range
Recoverswhensetting returns withintherange.
Checktheinput pressure setting.
AL. 31SP. RNG
SP_OUTSIDE_RANGE Staticpressuresetting outside of range
Recoverswhensetting returns withintherange.
Checkthestaticpressure setting.
AL. 70LOWBAT
M
Bit 20
Poweriscriticallow:maintenanceneed short - term
CRITICAL_LOWBAT Battery voltage isthelowest.
None Replacethebatteries.
AL. 70LOWBAT Bit 19
Powerislow:maintenanceneed mid - term
WL_LOWBAT_ALM Lowremainingbattery voltage None Replacethe
batteries.
AL. 60AI OOS
C Bit 24 O/S
AI1_OUT_OF_SERVICE AI1blockisO/Smode.
Returnswhenthe mode target ofAI1blockisother than O/S.
Set the mode target to AUTO.
AL. 61AI OOS
AI2_OUT_OF_SERVICE AI2blockisO/Smode.
Returnswhenthe mode target ofAI2blockisother than O/S.
Set the mode target to AUTO.
AL. 62AI OOS
AI3_OUT_OF_SERVICE AI3blockisO/Smode.
Returnswhenthe mode target ofAI3blockisother than O/S.
Set the mode target to AUTO.
<9. Maintenance> 9-13
IM 01C27B01-01EN
Integral indicator
Factory NAMUR category Bit Diagnostic
Status Diagnostic Status Detail Cause
Release/recovery
conditions (except restart)
Action
AL. 63AI SIM
C Bit 17 Simulation is active
SimulationActive(AI1)
AI1blockissimulate mode.
Returnswhenthe simulate mode of AI1 blockissetto disable. 1 (Disable)
Checkthesimulate mode of AI1 block.
AL. 64AI SIM
SimulationActive(AI2)
AI2blockissimulate mode.
Returnswhenthe simulate mode of AI2 blockissetto disable. 1 (Disable)
Checkthesimulate mode of AI2 block.
AL. 65AI SIM C Bit 17 Simulation is
active
SimulationActive(AI3)
AI3blockissimulate mode.
Returnswhenthe simulate mode of AI3 blockissetto disable. 1 (Disable)
Checkthesimulate mode of AI3 block.
*1: "FactoryNAMURcategory”referstothefourcategories(C:Checkfunction,M:Maintenancerequired,F:Failure,andO:Offspecification)accordingtoNAMURNE107*.
*NAMURNE107“Self-MonitoringandDiagnosisofFieldDevices”*2: Whenthedevicedetects“AL01CAP.ERR”and“AL02AMP.ERR”,theLCDdisplaystaysonregardlessofthestatusinLCDmode.
<9. Maintenance> 9-14
IM 01C27B01-01EN
Table 9.4 Error Message Summary (Output Actions)
Integral Indicator
Factory NAMUR category
Bit Diagnostic Status Diagnostic Status Detail
Output actions
Pressure Static Pressure
CapsuleTempValue
AmpTempValue
AL. 01CAP. ERR *2
F Bit 26
Faults in sensor or actuatorelement
FC_SENSOR_FAIL Output value(holdvalue)Output status (BAD:SensorFailure)
Output value(holdvalue)Output status (BAD:SensorFailure)
Normalaction
Normalaction
FR_SENSOR_FAIL
FC_UNOSC_FAIL
FR_UNOSC_FAIL
CAP_T_SENSOR_FAIL Normalaction Normalaction Output value (calculatedinanormalway)Output status (BAD:SensorFailure)
CAP_EEPROM_FAIL Output value (holdvalue)Output status (BAD:DeviceFailure)
Output value(holdvalue)Output status (BAD:DeviceFailure)
Output value (calculatedinanormalway)Output status (BAD:DeviceFailure)
Output value (calculatedinanormalway)Output status (BAD:DeviceFailure)
CAP_EEP_IRREGULAR
AL. 02AMP.ERR *2
F Bit 27 Faults in electronics
AMP_EEPROM_FAIL Output value(holdvalue)Output status (BAD:DeviceFailure)
Output value (holdvalue)Output status (BAD:DeviceFailure)
Output value (calculatedinanormalway)Output status (BAD:DeviceFailure)
Output value(calculatedinanormalway)Output status (BAD:DeviceFailure)
AMP_EEP_IRREGULAR
FC_DELTA_T_FAIL Output value (holdvalue)output status (BAD:DeviceFailure)
Output value (calculatedinanormalway)Output status (BAD:DeviceFailure)
Output value (holdvalue)Output status (BAD:DeviceFailure)
Normalaction
Output value(calculatedinanormalway)Output status (BAD:DeviceFailure)
FR_DELTA_T_FAIL
G_A_COMM_FAIL Output value (calculatedinanormalway)Output status (BAD:DeviceFailure)
Output value (calculatedinanormalway)Output status (BAD:DeviceFailure)
WL_AD_FAIL
<9. Maintenance> 9-15
IM 01C27B01-01EN
Integral Indicator
Factory NAMUR category
Bit Diagnostic Status Diagnostic Status Detail
Output actions
Pressure Static Pressure
CapsuleTempValue
AmpTempValue
AL. 10 PRESS
O Bit 23 Outside sensor limits
DP_OUTSIDE_LIMIT Output value (calculatedinanormalway)Output status (UNCERTAIN:Sensor Conversion notAccurate)
Output value (calculatedinanormalway)Output status (UNCERTAIN:NonSpecific)
Normalaction Normalaction
AL. 11ST. PRSS
SP_OUTSIDE_LIMIT Output value (calculatedinanormalway)Output status (UNCERTAIN:NonSpecific)
Output value (calculatedinanormalway)Output status (UNCERTAIN:Sensor Conversion notAccurate)
Normalaction Normalaction
AL. 12CAP. TMP
CAPT_OUTSIDE_LIMIT Output value (calculatedinanormalway)Output status (UNCERTAIN:NonSpecific)
Output value (calculatedinanormalway)Output status (UNCERTAIN:NonSpecific)
Output value (calculatedinanormalway)Output status (UNCERTAIN:Sensor Conversion notAccurate)
Normalaction
AL. 13AMP. TMP
AMPT_OUTSIDE_LIMIT
Normalaction Normalaction Normalaction
Output value (calculatedinanormalway)Output status (UNCERTAIN:Sensor Conversion notAccurate)
AL. 53P. ADJ
C Bit 25Installation, calibrationproblem
DP_TRIM_SPAN_OUTSIDE
Output value (calculatedinanormalway)Output status (UNCERTAIN:Range Limits Exceeded)
Normalaction Normalaction Normalaction
AL. 53P. ADJ
DP_TRIM_ZERO_OUTSIDE
Output value (calculatedinanormalway)Output status (UNCERTAIN:Range Limits Exceeded)
Normalaction Normalaction Normalaction
AL. 55SP. ADJ
SP_TRIM_SPAN_OUTSIDE
Normalaction
Output value (calculatedinanormalway)Output status (UNCERTAIN:Range Limits Exceeded)
Normalaction Normalaction
AL. 55SP.ADJ
SP_TRIM_ZERO_OUTSIDE
Normalaction
Output value (calculatedinanormalway)Output status (UNCERTAIN:Range Limits Exceeded)
Normalaction Normalaction
AL. 79OV. DISP
LCD_OUTSIDE_LIMITNormalaction Normalaction Normalaction Normalaction
<9. Maintenance> 9-16
IM 01C27B01-01EN
Integral Indicator
Factory NAMUR category
Bit Diagnostic Status Diagnostic Status Detail
Output actions
Pressure Static Pressure
CapsuleTempValue
AmpTempValue
AL. 30RANGE
O Bit 22
Environmental conditionsoutofdevicespecification
DP_OUTSIDE_RANGE Normalaction Normalaction Normalaction Normalaction
AL. 31SP. RNG
SP_OUTSIDE_RANGENormalaction Normalaction Normalaction Normalaction
AL. 70*3
LOWBAT
M
Bit 20
Poweriscriticallow:maintenanceneed short - term
CRITICAL_LOWBAT
Normalaction Normalaction Normalaction Normalaction
AL. 70*3
LOWBAT Bit 19
Powerislow:maintenanceneed mid - term
WL_LOWBAT_ALM
Normalaction Normalaction Normalaction Normalaction
AL. 60AI OOS
C Bit 24 O/S
AI1_OUT_OF_SERVICE Output value(holdvalue)Output status(BAD:OutofService)
Normalaction Normalaction Normalaction
AL. 61AI OOS
AI2_OUT_OF_SERVICE
Normalaction
Output value(holdvalue)Output status(BAD:OutofService)
Normalaction Normalaction
AL. 62AI OOS
AI3_OUT_OF_SERVICE
Normalaction Normalaction
Output value(holdvalue)Output status(BAD:OutofService)
Output value(holdvalue)Output status(BAD:OutofService)
AL. 63AI SIM
C Bit 17 Simulation is active
SimulationActive(AI1) Normalaction Normalaction Normalaction Normalaction
AL. 64AI SIM
SimulationActive(AI2) Normalaction Normalaction Normalaction Normalaction
AL. 65AI SIM
SimulationActive(AI3) Normalaction Normalaction Normalaction Normalaction
*1: “FactoryNAMURcategory”referstothefourcategories(C:Checkfunction,M:Maintenancerequired,F:Failure,andO:Offspecification)accordingtoNAMURNE107*.
* NAMURNE107“Self-MonitoringandDiagnosisofFieldDevices”*2: Whenthedevicedetects“AL01CAP.ERR”and“AL02AMP.ERR”,theLCDdisplaystaysonregardlessofthestatusinLCDmode.*3: Whentheambienttemperatureishigherthan60°C,AL.70maybegenerateddespitetheindicationofEnergyLeftshowssufficiently
remained.However,itdoesnotaffectthedeviceoperation.Thisiscausedbythechangeofbatteryinnerstatuswithextremelylowpowerconsumptionunderhightemperatureenvironment.Itisrecommendedtosetthedataupdatingperiodto15secondsorshorter.
<10. Parameter Summary> 10-1
IM 01C27B01-01EN
10. Parameter SummaryTable 10.1 Parameter
ObjectID
Attribute ID Label Description Default
value Handling
1.UAPMOblock
1 Version Revision IndicatestheapplicationrevisionofEJXThisrevisionwhentheapplicationsoftwareisdownloaded.
--- R
10 StaticRevision IndicatestherevisionlevelofthefixedparametersofUAPUsed,forexample,tocheckwhetherparametershavebeenchange.
0 R
64 IdentificationNumber
IndicatesthevenderID,modelID,andrevisionofthedevice.
--- R
65 CTS Version Indicatestheversionofthecommunicationstacktestsystem(CTS).
0 R
66 ITS Version Indicatestheversionoftheinteroperabilitytestsystem(ITS).
0 R
67 DiagnosticStatus Indicatesthediagnosticresultsofthedevicebasedonthe NAMUR NE107*1 model.SettingEnablediagnosticstatusconfigurationinUAPOptiontoEnableallowsturningOFFandONthedisplayofthediagnosticresultsforeachsummary,andchangingCategorizeForCategorizeatthetimeofshipment, refer to tables 8.3 and 10.2.
--- R
68 UAP Option AllowssettingtheDiagnosticStatusandwriteprotectionof UAP.Softwarewriteprotect
1:On,0:OffEnablehardwarewriteprotect
1:Enable,0:Disable(default)Enablediagnosticstatusconfiguration
1:Enable,0:Disable(default)Thefollowingtableshowstherelationshipbetweenthehardwarewriteprotectionandsoftwarewriteprotection.
Enable hardware
write protect
Hardware write
protect
Software write
protect
Write protect
Disable OfforOn Off No(Writable)
Disable OfforOn On Yes(Unwritable)
Enable Off OfforOn No(Writable)
Enable On OfforOn Yes(Unwritable)
0 W
69 DiagnosticSwitch
AllowssettingOn/OffforeachsummaryofDiagnosticStatuswhenEnablediagnosticstatusconfigurationinUAP Option is set to Enable.
On W
70 DiagnosticConfiguration
AllowsCategorizeforeachsummaryofDiagnosticStatuswhenEnablediagnosticstatusconfigurationinUAP Option is set to Enable.
Refer to Table 10.2.
W
102 DiagnosticStatusDetail[2]
DetailedinformationonDiagnosticStatus.ForCategorizeatthetimeofshipment,refertoTable10.2.
Refer to Table 10.2.
R
103 Energy Left Indicatesthenumberofdaysofremainingbatterylifeassumingambienttemperatureconditionas23degreesCelsius.The unit is day.
--- R
104 Reset Energy Left Initializetheremainingbatterylife(EnergyLeft)andresetitasnewbatteries.Performthebatteryreplacement.0=Continue(Cancel)1=Reset(Initialization)
0(readingvalueisalways0)
W
<10. Parameter Summary> 10-2
IM 01C27B01-01EN
ObjectID
Attribute ID Label Description Default
value Handling
1.UAPMO block(continued)
105 PowerSupplyStatus
Indicatesthepredictedbatterylevelandthepowersupply method.0=externalpowersupply1 = battery level 75% or more2 = battery level 25% ~ 75%3 = battery level 25% or less
R
106 EHType Availabletowritenoteintothisparameter. --- W
107 PowerSupplyVoltage
Indicatesthemeasuredpowersupplyvoltage(V). --- R
110 HardwareWriteProtect
Allowsrecognizingthestatusofthehardwarewriteprotectionswitch.(SwitchOff,SwitchOn)
R
111 RadioSilence Repeatsacycleofa1-hourpauseand6-minutesearchiftheinstrumentcannotjointhenetworkafteratimespecifiedinRadioSilencehaselapsed.When0isset,theRadioSilenceisinvalid.
28800 W
112 SimulationActiveAlert
TheOn/OfforpriorityforSimulationActiveAlertcanbe set.1.On/Offsetting
0 = FALSE, 255 =TRUE2. Alert report priority: 0 to 15
1. TRUE 2. 15
W
113 Soft Update incompleteAlert
TheOn/OfforpriorityforSoftUpdateincompleteAlertcanbeset.1.On/Offsetting
0 = FALSE, 255 =TRUE2. Alert report priority: 0 to 15Not available for EJX.
1. TRUE 2. 15
W
114 PowerlowAlert TheOn/OfforpriorityforPowerlowAlertcanbeset.1.On/Offsetting
0 = FALSE, 255 =TRUE2. Alert report priority: 0 to 15
1. TRUE 2. 15
W
115 PowerCriticallowAlert
TheOn/OfforpriorityforPowerCriticallowAlertcanbe set.1.On/Offsetting
0 = FALSE, 255 =TRUE2. Alert report priority: 0 to 15
1. TRUE 2. 15
W
116 FaultpredictionAlert
TheOn/OfforpriorityforFaultpredictionAlertcanbeset.1.On/Offsetting
0 = FALSE, 255 =TRUE2. Alert report priority: 0 to 15Not available for EJX.
1. TRUE 2. 15
W
117 Environmental conditionsAlert
TheOn/OfforpriorityforEnvironmentalconditionsAlertcanbeset.1.On/Offsetting
0 = FALSE, 255 =TRUE2. Alert report priority: 0 to 15
1. TRUE 2. 15
W
118 Outside sensor limits Alert
TheOn/OfforpriorityforOutsidesensorlimitsAlertcanbeset.1.On/Offsetting
0 = FALSE, 255 =TRUE2. Alert report priority: 0 to 15
1. TRUE 2. 15
W
119 OutofserviceAlert TheOn/OfforpriorityforOutofserviceAlertcanbeset.1.On/Offsetting
0 = FALSE, 255 =TRUE2. Alert report priority: 0 to 15
1. TRUE 2. 15
W
120 Callibration problem Alert
TheOn/OfforpriorityforcallibrationproblemAlertcanbe set.1.On/Offsetting
0 = FALSE, 255 =TRUE2. Alert report priority: 0 to 15
1. TRUE 2. 15
W
<10. Parameter Summary> 10-3
IM 01C27B01-01EN
ObjectID
Attribute ID Label Description Default
value Handling
1.UAPMO block(continued)
121 Faults Sensor or actuatorAlert
TheOn/OfforpriorityforFaultsSensororactuatorAlertcanbeset.1.On/Offsetting
0 = FALSE, 255 =TRUE2. Alert report priority: 0 to 15
1. TRUE 2. 15
W
122 FaultsElectronicsAlert
TheOn/OfforpriorityforFaultsElectronicsAlertcanbe set.1.On/Offsetting
0 = FALSE, 255 =TRUE2. Alert report priority: 0 to 1
1. TRUE 2. 15
W
123 FaultsprocessinfluenceAlert
TheOn/OfforpriorityforFaultsprocessinfluenceAlertcanbeset.1.On/Offsetting
0 = FALSE, 255 =TRUE2. Alert report priority: 0 to 15Not available for EJX.
1. TRUE 2. 15
W
124 Faults non-complianceAlert
TheOn/OfforpriorityforFaultsnon-complianceAlertcanbeset.1.On/Offsetting 0 = FALSE, 255 =TRUE2. Alert report priority: 0 to 15Not available for EJX.
1. TRUE 2. 15
W
125 Other faults Alert TheOn/OfforpriorityforOtherfaultsAlertcanbeset.1.On/Offsetting 0 = FALSE, 255 =TRUE2. Alert report priority: 0 to 15Not available for EJX.
1. TRUE 2. 15
W
2.UDOblock
2 DESCRIPTION Indicatestheversionandmodelinformationofthedownloadeddata.
--- R
3 STATE IndicatesthestatusofUAPblock.0 Idle1Downloading3 Applying4 DLComplete6 DLError
--- R
5 MAX_BLOCK_SIZE
Maximumblocksize.ThisvalueissmallerthanthemaximumdatasizeofAPDU.
--- R
14 LAST_BLOCK_DOWNLOADED
Indicatesthelastdownloadedblocknumber.0meansthatnoblockhasbeendownloaded.
--- R
16 ERROR_CODE IndicatestheerrorcodesforDLError.0 = noError1 = Timeout2 = ClientAbort64 = Apply failure
--- R
3.COblock
1 REVISION IndicatestherevisionnumbersuchasCOMM_ENDPOINT,etc.
--- R
2 COMM_ENDPOINT
IndicatestheEndpointinformation.Thefollowingshowsthecomponents.1.Networkaddressofremoteendpoint2. Transport layer port at remote endpoint3.ObjectIDatremoteendpoint4. Stale data limit5.Datapublicationperiod6.Idealpublicationphase7. PublishAutoRetransmit8.Configurationstatus
--- W
3 COMM_CONTRACT
IndicatestheContractinformation.Thefollowingshowsthecomponents.1.ContractID2.Contract_Status3.Actual_Phase
--- R
<10. Parameter Summary> 10-4
IM 01C27B01-01EN
ObjectID
Attribute ID Label Description Default
value Handling
3.COblock(continued)
4 PUB_ITEM_MAX MaximumPUB_ITEMvalue --- R
5 PUB_ITEM_NUM PUB_ITEMnumber --- R
6 PUB_ITEM IndicatesthePUB_ITEMinformation.Thefollowingshowsthecomponents1.ObjectID2. AttributeID3. AttributeIndex4.Size
--- W
4.TRANSDUCERblock
1 TagDescription Memofieldavailabletowriteanything. Transducer W
2 AutoRecovery Allowsspecifyingtheactionwhenthecauseofasensor failure is removed.OFF(=0): ALcontinuestobeindicated evenafterthecauseofthesensor error is removed, and the BURN OUT state is not released.
ON(=1): TheALindicationforsensor failure disappears and normal actionisresumedwhenthecause of the sensor failure is removed.
ON W
3 Model Indicatesthemodelnameofthetransmitter. --- R
4 Sensor Serial Number
Indicatesthedevicenumberofthetransmitter. --- R
6 Measurement Mode
Measurementmodeselectscontinuousmodeorintermittent mode.Whentheupdatetimeissetto0.5secondinintermittentmode,themodeisautomaticallyswitchedtocontinuousmode.Whentheupdatetimeissetto0.5second,thecomputationprocessisincontinuousmode,regardless of the measurement mode.When 0 is set, measurement period is set to 30 secondsregardlessofmeasurementsetting.
intermittent mode
W
7 Wireless Status Indicatethecommunicationstatus.1.Indicatestheinitialidlestatusorjoinstatus. (idlestatus,joinstatus)2.IndicateswhetherContract(Pub)isestablished. (notestablishment,establishment)3.IndicateswhetherContract(R/W)is
established. (notestablishment,establishment)
1. idle status2. not estabilishment3. not esabilishment
R
8 DisplaySelection SelectPVValuedisplayingontheLCDindicator.1.IndicatesdisplaystatusofPVValueofAI1 (displayed,notdisplayed)2.IndicatesdisplaystatusofPVValueofAI2 (displayed,notdisplayed)3.IndicatesdisplaystatusofPVValueofAI3 (displayed,notdisplayed)
1. displayed2. not displayed3. not displayed
W
9 LCD Mode SelectthedisplaymodeontheLCDindicator.1.IndicatestheONmode.(OFF,ON)2.Indicatesthebargraphdisplay. (bargraphnotdisplayed,bargraphdisplayed)
1. OFF2. bar graph not displayed
W
10 SpecialCmd Specialfunctionparameter.0=initializevalueatREAD(None)1=Squawkstatus2 = deep sleep status
To start from deep sleep mode, either remove and insertthebatterypack,orusetheprovisioningdevicetoolorthedeviceconfigurationtoolviainfraredcommunication.
0 W
<10. Parameter Summary> 10-5
IM 01C27B01-01EN
ObjectID
Attribute ID Label Description Default
value Handling
4.TRANSDUCERblock(continued)
11 SpecialOrderID Displaysthespecialordernumber,ifapplicable. --- R
12 Unit Sel1 Selectswhethertoautomaticallyapplytheunittothewordfortheparameterforwhichtheunitdisplayisselected,orapplythecharactersthatarewrittentoDisplayUnit1.(Auto,Custom)
Auto W
13 Display Unit11 WhenCustomisselectedinUnitSel1,setthedisplayunitusing6charactersorless.
NULL W
14 LCD Intermittetnt Time
SetthetimetoturnoffdisplayontheLCDindicator.When0isset,itisdiplayedincontinuousmode.Unit:second
60seconds W
15 XD Filter SetthedampingtimetoTranceducervalueintheAI1ansAI2blocks.Unit:secondWhenMeasurementmodeissettocontinuousmode,it is valid.
2seconds W
16 Measurement Rate
Indicatesthecycletopublishthemeasurementvalueand status
0 R
5.AI1block
1 ProcessValue AL1isapressureoutputobject.Indicatestheprimaryanalogvalue(orcorrespondingprocessvalue)andstatususedtoexecutethisfunction.AllowsupdatingdatabyspecifyingthisfortheConcentratorobject.1.Value:outputvalueofAlobject2.Status:SpecifyoutputstatusofAlobject.
1. Value = ---2. Status = ---
W
2 BlockMode Auniversalparametertoindicatetheblock’soperationstatus.EachO/S,Auto,andMancanselectfrom.1.Target:SpecifyAlobjectmode.2.Actual:IndicatescurrentmodeofAlobject.3.Permitted:Indicatesthemodeselectedby TargetofAlobject.
4.Normal:IndicatenormalstatusmodeofAl object.
1.Target=Auto2.Actual=Auto3.Permitted=Auto4.Normal=Auto
W
3 ConcentratorOID IndicatestheConcentratorobjectvaluethatcorrespondstothedataupdateofthePVvalue.
3 R
4 Scale AllowsspecifyingtheupperorlowerlimitforthePVscaling,unitcode,etc.1.EUat100%:IndicatetheupperlimitofthePV
value.2.EUat0%:IndicatethelowerlimitofthePVvalue.3.UnitsIndex:Indicatethesettingunitusedforthe
PV value.4.Decimal:IndicatethedigitnumberbelowthedecimalpointdisplayedintheLCDindicator.
1. EU at 100% = 1002. EU at 0% = 03. Units Index = %4.Decimal=2
W
26 TagDescription Auniversalparametertostorethecommentthatdescribesthetag
Al1:DifferentialPressure
W
27 ProcessValueFilter Time
AllowsadjustingthetimeconstantforfilteringthePVvalue.Settingunit:Second.ThisisenabledfortheContinuous mode.*2
0second W
28 SimulateSwitch AsimulationfunctionswitchfortheAIobjecttest(Disable,Enable)
1(Disable) W
29 TransducerValue WhenSimulateSwitchissettoDisable,thisvalueisusedastheinputvaluefortheAIobject.RefertoFigure 10.1.
Disable R
30 Simulate Value WhenSimulateSwitchissettoEnable,thisvalueisusedastheinputvaluefortheAIobject.Theinputvaluecanbechanged.
--- W
51 Upper Limit Indicatestheupperlimit(URL)forthepressure. --- R
<10. Parameter Summary> 10-6
IM 01C27B01-01EN
ObjectID
Attribute ID Label Description Default
value Handling
5.AI1 block(continued)
52 LowerLimit Indicatesthelowerlimit(LRL)forthepressure. --- R
53 PV Range Sets the measurement range.1.EUat100%:Indicatesinputvalueoftheupper
limit.2.EUat0%:Indicatesinputvalueofthelowerlimit.3.UnitsIndex:Indicatestheunitsofthe
measurement range.4.Decimal:Indicatesthedigitnumberbelowthedecimalpoint.
EU at 100% = 100EU at 0% = 0Units Index=kPa(1133)Decimal = 2
W
54 LinearizationType SelecteitherNoLinearizationorSquarerootasasetting of the output range.0=NoLinearization: ProvidesanoutputvaluescaledaccordingtothePVRangeandScalerangesettings.
(TouseDirectwithFF,setthesamevalueforPVRangeandScale.)
10 = Square root : ProvidesasquarerootoutputcomputedforthevaluescaledaccordingtothePVRangeandScalerange settings.
0 W
55 FlowConstant Indicatestheflowcoefficient,whichshowsthecorrelationbetweentheflowratevalueandsquarerootvalueofthedifferentialpressure.
1.0 W
56 LowerCutoff Specifiesthelowcutvalue.TheunitissubjecttoScale.UnitsIndex.
10 W
57 Cal Cmd Specifiesthecalibrationmethod.0=CAL_NONE:Initialstateinwhichcalibrationis
not performed1=CAL_LOW:AppliesanactualinputandadjuststhelowerlimitusingthevaluespecifiedinCalibrationLowestPoint.
2=CAL_HIGH:AppliesanactualinputandadjuststhehigherlimitusingthevaluespecifiedinCalibration Highest Point.
5=CAL_CLEAR:Clearstheadjustmentvariable.
0(readingvalue is always0)
W
58 Cal Status Indicatesthecalibrationstatus.0=CAL_NONE:Start-upanddefaultvalue1=CAL_SUCCESS:Indicatesthatcalibrationwassuccessful.
7=CAL_BAD_TRIM_POINT:Indicatesthisstatuswhentheadjustmentvariableisoutsideofrange.
--- R
59 Calibration Highest Point
Specifiesthehigherlimitadjustmentvariableforadjustmentbetweentwopoints.
--- W
60 CalibrationLowestPoint
Specifiesthelowerlimitadjustmentvariablefortheadjustmentbetweentwopoints.
--- W
61 Calibration Minimum Span
Indicatestheminimumspanoftheadjustmentvariable.
--- R
104 External Zero Trim Allowsperformingexternalzeroadjustment.(Trimon,Trimoff)
Trim on W
105 LowCutMode Specifiesthelowcutmode.(Linear,Zero)
Linear W
106 H/LSwap Allowsperformingreverseconnectionoftheimpulseline.(NORMAL,REVERSE:reverseconnection)Usedwhenthelowerpressuresideandhigherpressuresideoftheimpulselinewereconnectedwronglywheninstallingthepressuretransmitter.
Normal W
<10. Parameter Summary> 10-7
IM 01C27B01-01EN
ObjectID
Attribute ID Label Description Default
value Handling
5.AI1 block(continued)
107 T Zero Cmp Parametertoselectthetemperaturezeroshiftcompensationmode0=OFF:Doesnotperformtemperaturezeroshiftcompensation.
1=ON:Performstemperaturezeroshiftcompensation.
Off w
108 Temp Zero Parameter to set the temperature gradient value for the temperaturezeroshiftcompensation
0 w
109 TempSelect Parametertoselectthetemperature(amplifier-side/capsule-side)usedforthetemperaturezeroshiftcompensation.0=AMPTEMP:thevalueoftheamplifier-side
temperature sensor is used.1=CAPTEMP:thevalueofthecapsule-side
temperature sensor is used.
1 w
6.AI2block
1 ProcessValue AI2isastaticpressureoutputobject.Indicatestheprimaryanalogvalue(orcorrespondingprocessvalue)andstatususedtoexecutethisfunction.AllowsupdatingdatabyspecifyingthisfortheConcentratorobject.1.Value:outputvalueofAlobject2.Status:SpecifyoutputstatusofAlobject.
--- W
2 BlockMode Auniversalparametertoindicatetheblock’soperationstatus.O/S,Auto,andMancanbeselected.1.Target:SpecifyAlobjectmode.2.Actual:IndicatescurrentmodeofAlobject.3.Permitted:IndicatesthemodeselectedbyTargetofAlobject.
4.Normal:IndicatenormalstatusmodeofAlobject.
1.Target = O/S2.Actual= O/S3.Permitted = O/S4.Normal = O/S
W
3 ConcentratorOID IndicatestheConcentratorobjectvaluethatcorrespondstothedataupdateofthePVvalue.
3 R
4 Scale AllowsspecifyingtheupperorlowerlimitforthePVscaling,unitcode,etc.1.EUat100%:IndicatetheupperlimitofthePV
value.2.EUat0%:IndicatethelowerlimitofthePVvalue.3.UnitsIndex:Indicatethesettingunitusedforthe
PV value.4.Decimal:IndicatethedigitnumberbelowthedecimalpointdisplayedintheLCDindicator.
1. EU at 100% = 1002. EU at 0% = 03. Units Index = %4.Decimal = 2
W
26 TagDescription Auniversalparametertostorethecommentthatdescribesthetag.
AI2:StaticPressure
W
27 ProcessValueFilter Time
AllowsadjustingthetimeconstantforfilteringthePVvalue.Settingunit:Second.ThisisenabledfortheContinuous mode.*2
0second W
28 SimulateSwitch AsimulationfunctionswitchfortheAIobjecttest(Disable,Enable)
Disable W
29 TransducerValue WhenSimulateSwitchissettoDisable,thisvalueisusedastheinputvaluefortheAIobject.
--- R
30 Simulate Value WhenSimulateSwitchissettoEnable,thisvalueisusedastheinputvaluefortheAIobject.Theinputvaluecanbechanged.
--- W
51 Upper Limit Indicatestheupperlimit(URL)forthepressure. --- R
52 LowerLimit Indicatesthelowerlimit(LRL)forthepressure. --- R
<10. Parameter Summary> 10-8
IM 01C27B01-01EN
ObjectID
Attribute ID Label Description Default
value Handling
6.AI2 block(continued)
53 PV Range Sets the measurement range.1.EUat100%:Indicatesinputvalueoftheupper
limit.2.EUat0%:Indicatesinputvalueofthelowerlimit.3.UnitsIndex:Indicatestheunitsofthe
measurement range.4.Decimal:Indicatesthedigitnumberbelowthedecimalpoint.
1. EU at 100% = 25000.000000EU at 0% = 0Units Index=kPaDecimal = 2
W
54 LinearizationType SelecteitherNoLinearizationorSquarerootasasetting of the output range.0=NoLinearization: ProvidesanoutputvaluescaledaccordingtothePVRangeandScalerangesettings.
(TouseDirectwithFF,setthesamevalueforPVRangeandScale.)
0 W
55 FlowConstant Indicatestheflowcoefficient,whichshowsthecorrelationbetweentheflowratevalueandsquarerootvalue of the pressure.
1.0 W
56 LowerCutoff Specifiesthelowcutvalue.TheunitissubjecttoScale.UnitsIndex.
10 W
57 Cal Cmd Specifiesthecalibrationmethod.0=CAL_NONE:Initialstateinwhichcalibrationis
not performed1=CAL_LOW:AppliesanactualinputandadjuststhelowerlimitusingthevaluespecifiedinCalibrationLowestPoint.
2=CAL_HIGH:AppliesanactualinputandadjuststhehigherlimitusingthevaluespecifiedinCalibration Highest Point.
5=CAL_CLEAR:Clearstheadjustmentvariable.
0(readingvalue is always0)
W
58 Cal Status Indicatesthecalibrationstatus.0=CAL_NONE:Start-upanddefaultvalue1=CAL_SUCCESS:Indicatesthatcalibrationwassuccessful.
7=CAL_BAD_TRIM_POINT:Indicatesthisstatuswhentheadjustmentvariableisoutsideofrange.
R
59 Calibration Highest Point
Specifiesthehigherlimitadjustmentvariableforadjustmentbetweentwopoints.
--- W
60 CalibrationLowestPoint
Specifiesthelowerlimitadjustmentvariablefortheadjustmentbetweentwopoints.
--- W
61 Calibration Minimum Span
Indicatestheminimumspanoftheadjustmentvariable.108 = Gauge pressure109 = Absolute pressure
--- R
102 StaticProcessType
Selectsthegaugepressureortheabsolutepressure. Abs W
103 SPSelect ParametertoselecttheHigh-sidepressureortheLow-sidepressureasthestaticpressureoutput.0=High:DisplaystheH-sidepressureasthestatic
pressure1=Low:DisplaystheL-sidepressureasthestatic
pressure
High W
7.AI3 block
1 ProcessValue Al3isatemperaturepressureoutputobject.Indicatestheprimaryanalogvalue(orcorrespondingprocessvalue)andstatususedtoexecutethisfunction.AllowsupdatingdatabyspecifyingthisfortheConcentratorobject.1.Value:outputvalueofAlobject2.Status:SpecifyoutputstatusofAlobject.
1. Value = ---2. Status = ---
W
<10. Parameter Summary> 10-9
IM 01C27B01-01EN
ObjectID
Attribute ID Label Description Default
value Handling
7.AI3 block(continued)
2 BlockMode Auniversalparametertoindicatetheblock’soperationstatus.O/S,Auto,andMancanbeselected.1.Target:SpecifyAlobjectmode.2.Actual:IndicatescurrentmodeofAlobject.3.Permitted:IndicatesthemodeselectedbyTargetofAlobject.
4.Normal:IndicatenormalstatusmodeofAlobject.
1. Target = Auto2.Actual=Auto3. Permitted = O/S+Auto +Man4. Normal = Auto
W
3 ConcentratorOID IndicatestheConcentratorobjectvaluethatcorrespondstothedataupdateofthePVvalue.
3 R
4 Scale AllowsspecifyingtheupperorlowerlimitforthePVscaling,unitcode,etc.1.EUat100%:IndicatetheupperlimitofthePV
value.2.EUat0%:IndicatethelowerlimitofthePVvalue.3.UnitsIndex:Indicatethesettingunitusedforthe
PV value.4.Decimal:IndicatethedigitnumberbelowthedecimalpointdisplayedintheLCDindicator.
1. EU at 100% = 1002. EU at 0% = 03. Units Index = %4.Decimal=2
W
26 TagDescription Auniversalparametertostorethecommentthatdescribesthetag
AI3: Capsule temperature
W
27 ProcessValueFilter Time
AllowsadjustingthetimeconstantforfilteringthePVvalue. Settingunit:Second.ThisisenabledfortheContinuous mode.
0second W
28 SimulateSwitch AsimulationfunctionswitchfortheAIobjecttest(Disable,Enable)
Disable W
29 TransducerValue WhenSimulateSwitchissettoDisable,thisvalueisusedastheinputvaluefortheAIobject.
--- R
30 Simulate Value WhenSimulateSwitchissettoEnable,thisvalueisusedastheinputvaluefortheAIobject.Theinputvaluecanbechanged.
--- W
53 Sensor Range Parametertonondimensionalizethesensoroutputvalue. KanddegCareselectableforthetemperatureunit.1.EUat100%:Indicatesinputvalueoftheupper
limit.2.EUat0%:Indicatesinputvalueofthelowerlimit.3.UnitsIndex:Indicatestheunitsofthe
measurement range.4.Decimal:Indicatesthedigitnumberbelowthedecimalpoint.
1. EU at 100% = 1302. EU at 0% = -503. Units Index = deg C4.Decimal=0
W
102 Tertiary Value Select
Specifieseitherthecapsuletemperatureoramplifiertemperature as the output value.(CAP,AMP)
CAP W
(Note)Handling:R=Readonly,W=Read&Write(Note)“FactoryNAMURcategory”referstothefourcategories(C:Checkfunction,M:Maintenancerequired,F:Failure,andO:Off
specification)accordingtoNAMURNE107*.
*1: NAMURNE107“Self-MonitoringandDiagnosisofFieldDevices”*2: Itisvalidfornotonlycontinuousmodebutalsointermittentmode.
<10. Parameter Summary> 10-10
IM 01C27B01-01EN
Table 10.2 Diagnostic Status Detail[0]
Bit Diagnostic Status Detail Description Diagnostic Status assignment bit NAMUR
DiagnosticDetail_131 FC_SENSOR_FAIL Csensorfrequencyerror Bit26 F30 FR_SENSOR_FAIL Rsensorfrequencyerror Bit26 F29 CAP_T_SENSOR_FAIL Capsule temperature sensor failure Bit26 F28 CAP_EEPROM_FAIL Capsule EEPROM failure Bit26 F27 CAP_EEP_IRREGULAR CAPEEPROMversionnotcorrect Bit26 F25 AMP_EEPROM_FAIL AmplifierEEPROMfailure Bit27 F24 AMP_EEP_IRREGULAR AMPEEPROMversionnotcorrect Bit27 F22 G_A_COMM_FAIL G/A failure Bit27 F21 FC_UNOSC_FAIL Csensoroscillationstopfailure Bit26 F20 FC_DELTA_T_FAIL C-sidedeltaTcircuitfailure Bit27 F19 FR_DELTA_T_FAIL R-sidedeltaTcircuitfailure Bit27 F18 WL_AD_FAIL Batteryvoltagenotdetected(AMPfailure) Bit27 F17 FR_UNOSC_FAIL Rsensoroscillationstopfailure Bit26 F15 DP_OUTSIDE_LIMIT Pressureoutsideofspecifiedrange Bit23 O14 SP_OUTSIDE_LIMIT Staticpressureoutsideofspecifiedrange Bit23 O13 CAPT_OUTSIDE_LIMIT Capsuletemperatureoutsideofspecifiedrange Bit23 O12 AMPT_OUTSIDE_LIMIT Amplifiertemperatureoutsideofspecifiedrange Bit23 O7 DP_OUTSIDE_RANGE Input pressure setting outside of range Bit22 O6 SP_OUTSIDE_RANGE Staticpressuresettingoutsideofrange Bit22 ODiagnosticDetail_231 AI1_OUT_OF_SERVICE AI1 O/S mode Bit24 C30 AI2_OUT_OF_SERVICE AI2 O/S mode Bit24 C29 AI3_OUT_OF_SERVICE AI3 O/S mode Bit24 C28 AI1_SIMULATION_ACTIVE AI1 simulation mode Bit17 C27 AI2_SIMULATION_ACTIVE AI2 simulation mode Bit17 C26 AI3_SIMULATION_ACTIVE AI3 simulation mode Bit17 C20 DP_TRIM_SPAN_OUTSIDE Pressure span adjustment variable outside of range Bit25 C19 DP_TRIM_ZERO_OUTSIDE Pressurezeroadjustmentvariableoutsideofrange Bit25 C15 SP_TRIM_SPAN_OUTSIDE Staticpressurespanadjustmentvariableoutsideof
rangeBit25 C
14 SP_TRIM_ZERO_OUTSIDE Staticpressurezeroadjustmentvariableoutsideofrange
Bit25 C
13 WL_LOWBAT_ALM*1 Detectionofadecreaseinthebatteryvoltage Bit19 M12 CRITICAL_LOWBAT*1 Detectionofanextremedecreaseinthebattery
voltageBit20 M
8 LCD_OUTSIDE_LIMIT LCDdisplayoutsideofspecifiedrange Bit25 C
*1: Onlyapplicableforthebatterypoweredtype.
F1001.ai
AI algoritm
MODE Targetfrom operator
from operator
from operator
from transducer
SIMULATE
On
Off
AIalgorithm
Linearizationscaling,
filter
Alertreport
HiHi etc
PV
Auto
O/S
Man
PublishValue
& StatusPV
PV
Value& Status
Value& Status
Value& Status
Mode andPV.Status handling
SWITCHSIMULATE
_VALUE
Figure 10.1 Example schema of analog input object
<11.GeneralSpecifications> 11-1
IM 01C27B01-01EN
11. General Specifications11.1 Standard SpecificationsCommunication protocol
ISA100.11aprotocol
Data rate250kbps
Frequency2400-2483.5MHzlicensefreeISMband
Radio security AES128bitcodified
RF Transmitter power Max. 11.6 dBm
Antenna +2dBiOmnidirectionalmonopoletype
Span and range limits
EJX110BMeasurement Span/Range kPa inH2O(/D1) mbar(/D3) mmH2O(/D4)
FSpan 0.1 to 5 0.4 to 20 1 to 50 10 to 500
Range -5 to 5 -20 to 20 -50 to 50 -500 to 500
LSpan 0.1 to 10 0.4 to 40 1 to 100 10 to 1000
Range -10 to 10 -40 to 40 -100 to 100 -1000 to 1000
MSpan 0.5 to 100 2 to 400 5 to 1000 50 to 10000
Range -100 to 100 -400 to 400 -1000 to 1000-10000 to
10000
HSpan 2.5 to 500 10 to 2000 25 to 5000
0.025 to 5 kgf/cm2
Range -500 to 500 -2000 to 2000 -5000 to 5000-5 to 5 kgf/cm2
VSpan
0.07 to 14 MPa
10 to 2000 psi 0.7 to 140 bar0.7 to 140 kgf/cm2
Range-0.5 to 14
MPa-71 to 2000
psi-5 to 140 bar
-5 to 140 kgf/cm2
EJX310BMeasurement Span/Range kPa abs psi abs(/D1) mbar abs
(/D3)mmHg abs
(/D4)
LSpan 0.5 to 10
0.15 to 2.95 inHg
5 to 100 3.8 to 75
Range 0 to 10 0 to 2.95 inHg 0 to 100 0 to 75
MSpan 1.3 to 130
0.39 to 38 inHg
13 to 1300 9.8 to 970
Range 0 to 130 0 to 38 inHg 0 to 1300 0 to 970
ASpan
0.0175 to 3.5 MPa
2.5 to 5000.175 to 35
bar0.175 to 35 kgf/cm2
Range0 to 3.5
MPa0 to 500 0 to 35 bar
0 to 35 kgf/cm2
BSpan
0.08 to 16 MPa
12 to 2300 0.8 to 160 bar0.8 to 160 kgf/cm2
Range 0 to 16 MPa 0 to 2300 0 to 160 bar0 to 160 kgf/cm2
EJX430BMeasurement Span/Range MPa psi(/D1) bar(/D3) kgf/cm2(/D4)
HSpan
2.5 to 500 kPa
10 to 2000 inH2O
0.025 to 5 0.025 to 5
Range-100 to 500
kPa-400 to 2000
inH2O-1 to 5 -1 to 5
ASpan
0.0175 to 3.5
2.5 to 500 0.175 to 35 0.175 to 35
Range -0.1 to 3.5 -14.5 to 500 -1 to 35 -1 to 35
BSpan 0.08 to 16 12 to 2300 0.8 to 160 0.8 to 160
Range -0.1 to 16 -14.5 to 2300 -1 to 160 -1 to 160
Performance specificationsRefer to GS01C27B01-01EN.
Update TimeMeasurement
modeDifferentialpressure Pressure
Continuous 100 ms 100 ms
Intermittent 0.5 to 3600 sselectable
0.5 to 3600 sselectable
Thetransmittershiftstothecountinuousmodewhentheupdatetimeissetto0.5second.
Power Supply SpecificationsBattery:Usethededicatedbatterypack.Rated voltage: 7.2 VRatedcapacity:19Ah
ExternalPowerSource:Rated voltage: 10.5 to 30 V DCRatedcurrent:36mA
OutputISA100.11aprotocol
Output mode (EJX110B) linear or square root
Ambient Temperature Limits-40to85°C(-40to185°F)-30to80°C(-22to176°F)LCDvisiblerange
Process Temperature Limits-40to120°C(-40to248°F)-40to100°C(-40to212°F) –EJX310BwithcapsulecodeL0to120°C(32to248°F) –Withoptioncode/HD
Ambient Humidity Limits0 to 100% RH
<11. General Specifications> 11-2
IM 01C27B01-01EN
Working Pressure Limits (Silicone oil)Maximum Pressure Limits:EJX110B
Capsule PressureF, L 16MPa(2300psi)
M, H, V 25MPa(3600psi)* *16MPaforwettedpartsmaterialcodeH,M,T,A,D,and
B,optioncode/HDor/HD2.
EJX310BCapsule Pressure
L 10kPaabs(2.95inHgabs)M 130kPaabs(38inHgabs)A 3.5MPaabs(500psia)B 16MPaabs(2300psia)
EJX430BCapsule Pressure
H 500kPa(2000inH2O)A 3.5MPa(500psi)B 16MPa(2300psi)
Zero Adjustment LimitsZerocanbefullyelevatedorsuppressed,withinthelowerandupperrangelimitsofthecapsule.
External Zero AdjustmentExternalzeroiscontinuouslyadjustablewith0.01%incrementalresolutionofspan.Re-rangecanbedonelocallyusingthedigitalindicatorwithrangesettingswitch.
Integral Indicator (LCD display)5-digitnumericaldisplay,6-digitunitdisplayandbar graph.Theindicatorisconfigurabletodisplayoneoruptothreeofthefollowingvariablesperiodically.;Differentialpressure,staticpressure,temperature.
EMC Conformity StandardsEN61326-1ClassA,Table2(Foruseinindustriallocations),EN61326-2-3Immunity influence during the testDifferentialpressure/pressure:Outputshiftisspecifiedwithin±1%of1/10Maxspan.Staticpressure:Outputshiftisspecifiedwithin±5%of1MPaspan.
Radio Equipment Directive (RE) ETSI EN 300 328, ETSI EN 301 489-1, ETSI EN 301 489-17, EN61010-1, EN61010-2-030, EN62311• Indoor/Outdoor use
Regulation Conformity of the Wireless Module• FCC Approval• IC Approval
Safety Requirement StandardsEN61010-1, EN61010-2-030• Altitude of installation site:
Max. 2,000 m above sea level•Installationcategory:I (Anticipatedtransientovervoltage330V)
• Pollution degree: 2• Indoor/Outdoor use
Degrees of ProtectionIP66/IP67, NEMA4X
ConnectionsReferto“MODELANDSUFFIXCODES.”
Wetted Parts MaterialsDiaphragm, Cover Flange, Process Connector, Capsule Gasket, and Vent/Drain PlugReferto“MODELANDSUFFIXCODES.”
Process Connector GasketPTFETeflonFluorinatedrubberforoptioncodeN2andN3
Non-wetted Parts MaterialsBoltingASTM-B7carbonsteel,316LSSTstainlesssteel, or ASTM grade 660 stainless steel
HousingLowcoppercastaluminumalloywithpolyurethane,mint-greenpaint(Munsell5.6BG3.3/2.9oritsequivalent)
Name plate and tag316SSTtagplatewiredontotransmitter
Weight4.9kg(10.8lb)*-Wettedpartsmaterialcode:S(exceptforMeasurementspancodeF,optioncode/HDor/HD2)
5.8kg(12.8lb)*-Wettedpartsmaterialcode:H,M,T,A,B,D,Measurementspancode:F,optioncode/HDor /HD2
*Theweightdoesnotincludethatofbatterypack,mountingbracketandprocessconnector. Add0.3kgfortheexternalpoweredtype.
<11.GeneralSpecifications> 11-3
IM 01C27B01-01EN
Minimum Pressure LimitSeegraphbelow
EJX110B and EJX430B
Atmosphericpressure
-40(-40)
0(32)
40(104)
80(176)
120(248)
1(0.14)
2.7(0.38)
10(1.4)
(psi abs)
100(14.5)
Process temperature °C (°F)
WorkingpressurekPa abs
Applicable range
F1101.ai
EJX310B
-40(-40)
0(32)
40(104)
80(176)
120 (248)
0.1(0.75)0.13(1)
1(7.5)
100(750)
10(75)
2.7(20)
0.46(3.45)
0.01(0.075) 0.013(0.1)
85 (185)
(mmHg abs)
WorkingpressurekPa abs
Process temperature °C (°F)
M,A and B capsule
L capsule
F1102.ai
Applicable range
Figure 1. Working pressure and Process Temperature
<11. General Specifications> 11-4
IM 01C27B01-01EN
11.2 Model and Suffix CodesModel EJX110B
Model Suffix Codes DescriptionEJX110B . . . . . . . . . . . . . . . . . . . . . . Differentialpressuretransmitter
Output signal -L . . . . . . . . . . . . . . . . . . . .-1 . . . . . . . . . . . . . . . . . . . .
Wirelesscommunication(ISA100.11aprotocol)Wirelesscommunication(ISA100.11aprotocol);successorofcode-L
Measurementspan(capsule)
F . . . . . . . . . . . . . . . . . . .L . . . . . . . . . . . . . . . . . . .
M . . . . . . . . . . . . . . . . . .H. . . . . . . . . . . . . . . . . . .V . . . . . . . . . . . . . . . . . . .
0.1to5kPa(0.4to20inH2O)(ForwettedpartsmaterialcodeS)0.1to10kPa(0.4to40inH2O)(ForwettedpartsmaterialcodeM,H,T,A,
DandB)0.5to100kPa(2to400inH2O)2.5to500kPa(10to2000inH2O)0.07to14MPa(10to2000psi)
Wetted partsmaterial *1
. . . . . . . . . . . . . . . . . Referto“WettedPartsMaterials”Table1.
Processconnections
►
0 . . . . . . . . . . . . . . . .1 . . . . . . . . . . . . . . . .2 . . . . . . . . . . . . . . . .3 . . . . . . . . . . . . . . . .4 . . . . . . . . . . . . . . . .5 . . . . . . . . . . . . . . . .
withoutprocessconnector(Rc1/4femaleonthecoverflanges)withRc1/4femaleprocessconnectorwithRc1/2femaleprocessconnectorwith1/4NPTfemaleprocessconnectorwith1/2NPTfemaleprocessconnectorwithoutprocessconnector(1/4NPTfemaleonthecoverflanges)
Bolts and nuts material J . . . . . . . . . . . . . .G. . . . . . . . . . . . . .C. . . . . . . . . . . . . .
ASTM-B7carbonsteel316L SST stainless steelASTM grade 660 stainless steel
Installation
►
-7 . . . . . . . . . . .-8 . . . . . . . . . . .-9 . . . . . . . . . . .-B . . . . . . . . . . .-U . . . . . . . . . . .
Verticalpiping,leftsidehighpressure,andprocessconnectiondownsideHorizontalpipingandrightsidehighpressureHorizontalpipingandleftsidehighpressureBottomProcessConnection,leftsidehighpressure*2
Universalflange*2
Amplifierhousing 8 . . . . . . . . . .9 . . . . . . . . . .
Castaluminumalloywithdetachableantenna(2dBi)*4Castaluminumalloywithoutantenna(Nconnector)*3*4
Electricalconnection J . . . . . . . . .
0 . . . . . . . . .
2 . . . . . . . . .
4 . . . . . . . . .
5 . . . . . . . . .
7 . . . . . . . . .
9 . . . . . . . . .
A. . . . . . . . .
C. . . . . . . . .
D. . . . . . . . .
Noelectricalconnection,batterypoweredtype(batterycaseonly;batterycellsnotincluded)
G1/2female,oneelectricalconnectionwithoutablindplug,andexternalpoweredtype
1/2NPTfemale,twoelectricalconnectionswithoutablindplug,andexternalpoweredtype
M20female,twoelectricalconnectionswithoutblindplugs,externalpoweredtype
G1/2female,twoelectricalconnectionswithablindplug,andexternalpoweredtype*5
1/2NPTfemale,twoelectricalconnectionswithablindplug,andexternalpoweredtype*5
M20female,twoelectricalconnectionsandablindplug,externalpoweredtype*5
G1/2female,twoelectricalconnectionswitha316SSTblindplug,andexternalpoweredtype
1/2NPTfemale,twoelectricalconnectionswitha316SSTblindplug,andexternalpoweredtype
M20female,twoelectricalconnectionsanda316SSTblindplug,externalpoweredtype
Integralindicator ► D. . . . . . . DigitalindicatorMountingbracket ► B. . . . .
D. . . . .K. . . . .M . . . .
N. . . . .
304SST2-inchpipemounting,flattype(forhorizontalpiping)304SSTorSCS13A2-inchpipemounting,Ltype(forverticalpiping)316SSTorSCS14A2-inchpipemounting,Ltype(forverticalpiping)316SSTorSCS14A2-inchpipemounting(forbottomprocess
connectiontype)None
Optionalcodes / OptionalspecificationThe“►”marksindicatethemosttypicalselectionforeachspecification.
<11.GeneralSpecifications> 11-5
IM 01C27B01-01EN
*1: ! Usersmustconsiderthecharacteristicsofselectedwettedpartsmaterialandtheinfluenceofprocessfluids.Theuseofinappropriatematerialscanresultintheleakageofcorrosiveprocessfluidsandcauseinjurytopersonneland/ordamagetoplantfacilities.Itisalsopossiblethatthediaphragmitselfcanbedamagedandthatmaterialfromthebrokendiaphragmandthefillfluidcancontaminatetheuser’sprocessfluids.
Beverycarefulwithhighlycorrosiveprocessfluidssuchashydrochloricacid,sulfuricacid,hydrogensulfide,sodiumhypochlorite,andhigh-temperaturesteam(150°C[302°F]orabove).ContactYokogawafordetailedinformationofthewettedpartsmaterial.
*2: ApplicableforwettedpartsmaterialcodeS.*3: Ordertheantennaseparatelyfromaccessaryoption.*4: Remoteantennacablescanbeattached.Orderseparatelyfromaccessaryoption.*5: Materialofablindplug;aluminumalloyforcode5and9,and304SSTforcode7.
Table 1. Wetted Parts Materials
Wetted partsmaterial code
Cover flange andprocess connector Capsule Capsule gasket Vent/Drain plug
S ASTM CF-8M *1 Hastelloy C-276 *2(Diaphragm)F316LSST,316LSST(Others) Teflon-coated316LSST 316 SST
H ASTM CF-8M *1 Hastelloy C-276 *2 PTFETeflon 316 SSTM ASTM CF-8M *1 Monel PTFETeflon 316 SSTT ASTM CF-8M *1 Tantalum PTFETeflon 316 SST
A Hastelloy C-276 equivalent *3 Hastelloy C-276 *2 PTFETeflon Hastelloy C-276 *2
D Hastelloy C-276 equivalent *3 Tantalum PTFETeflon Hastelloy C-276 *2
B Monel equivalent *4 Monel PTFETeflon Monel
*1: Cast version of 316 SST. Equivalent to SCS14A.*2: Hastelloy C-276 or ASTM N10276.*3: IndicatedmaterialisequivalenttoASTMCW-12MW.*4: IndicatedmaterialisequivalenttoASTMM35-2.
<11. General Specifications> 11-6
IM 01C27B01-01EN
Model EJX310BModel Suffix Codes Description
EJX310B . . . . . . . . . . . . . . . . . . . . . . Absolute pressure transmitterOutput signal
-L . . . . . . . . . . . . . . . . . . . .-1 . . . . . . . . . . . . . . . . . . . .
Wirelesscommunication(ISA100.11aprotocol)Wirelesscommunication(ISA100.11aprotocol);successorofcode-L
Measurementspan(capsule)
L . . . . . . . . . . . . . . . . . . .M . . . . . . . . . . . . . . . . . .A. . . . . . . . . . . . . . . . . . .B. . . . . . . . . . . . . . . . . . .
0.5to10kPaabs(0.15to2.95inHgabs)1.3to130kPaabs(0.39to38inHgabs)0.0175to3.5MPaabs(2.5to500psia)0.08to16MPaabs(12to2300psia)
Wetted partsmaterial *1
S. . . . . . . . . . . . . . . . . . Referto“WettedPartsMaterials”Table2.
Processconnections
►
0 . . . . . . . . . . . . . . . .1 . . . . . . . . . . . . . . . .2 . . . . . . . . . . . . . . . .3 . . . . . . . . . . . . . . . .4 . . . . . . . . . . . . . . . .5 . . . . . . . . . . . . . . . .
withoutprocessconnector(Rc1/4femaleonthecoverflanges)withRc1/4femaleprocessconnectorwithRc1/2femaleprocessconnectorwith1/4NPTfemaleprocessconnectorwith1/2NPTfemaleprocessconnectorwithoutprocessconnector(1/4NPTfemaleonthecoverflanges)
Bolts and nuts material
J . . . . . . . . . . . . . .G. . . . . . . . . . . . . .C. . . . . . . . . . . . . .
ASTM-B7carbonsteel316L SST stainless steelASTM grade 660 stainless steel
Installation
►
-3 . . . . . . . . . . .-7 . . . . . . . . . . .-8 . . . . . . . . . . .-9 . . . . . . . . . . .-B . . . . . . . . . . .-U . . . . . . . . . . .
Verticalpiping,rightsidehighpressure,andprocessconnectiondownsideVerticalpiping,leftsidehighpressure,andprocessconnectiondownsideHorizontalpipingandrightsidehighpressureHorizontalpipingandleftsidehighpressureBottomProcessConnection,leftsidehighpressureUniversalflange
Amplifierhousing 8 . . . . . . . . . .9 . . . . . . . . . .
Castaluminumalloywithdetachableantenna(2dBi)*3Castaluminumalloywithoutantenna(Nconnector)*2*3
Electricalconnection J . . . . . . . . .
0 . . . . . . . . .
2 . . . . . . . . .
4 . . . . . . . . .
5 . . . . . . . . .
7 . . . . . . . . .
9 . . . . . . . . .
A. . . . . . . . .
C. . . . . . . . .
D. . . . . . . . .
Noelectricalconnection,batterypoweredtype(batterycaseonly;batterycellsnotincluded)
G1/2female,oneelectricalconnectionwithoutablindplug,andexternalpoweredtype
1/2NPTfemale,twoelectricalconnectionswithoutablindplug,andexternalpoweredtype
M20female,twoelectricalconnectionswithoutblindplugs,externalpoweredtype
G1/2female,twoelectricalconnectionswithablindplug,andexternalpoweredtype*4
1/2NPTfemale,twoelectricalconnectionswithablindplug,andexternalpoweredtype*4
M20female,twoelectricalconnectionsandablindplug,externalpoweredtype*4
G1/2female,twoelectricalconnectionswitha316SSTblindplug,andexternalpoweredtype
1/2NPTfemale,twoelectricalconnectionswitha316SSTblindplug,andexternalpoweredtype
M20female,twoelectricalconnectionsanda316SSTblindplug,externalpoweredtype
Integralindicator D. . . . . . . DigitalindicatorMountingbracket ► B. . . . .
D. . . . .K. . . . .M . . . .
N. . . . .
304SST2-inchpipemounting,flattype(forhorizontalpiping)304SSTorSCS13A2-inchpipemounting,Ltype(forverticalpiping)316SSTorSCS14A2-inchpipemounting,Ltype(forverticalpiping)316SSTorSCS14A2-inchpipemounting(forbottomprocessconnection
type)None
Optionalcodes / OptionalspecificationThe“►”marksindicatethemosttypicalselectionforeachspecification.*1: ! Usersmustconsiderthecharacteristicsofselectedwettedpartsmaterialandinfluenceofprocessfluids.Specifyinginappropriate
materialshasthepotentialtocauseseriousdamagetohumanbodyandplantfacilitiesresultedfromanunexpectedleakofthecorrosiveprocessfluids.
*2: Ordertheantennaseparatelyfromaccessaryoption.*3: Remoteantennacablescanbeattached.Orderseparatelyfromaccessaryoption.*4: Materialofablindplug;aluminumalloyforcode5and9,and304SSTforcode7.
<11.GeneralSpecifications> 11-7
IM 01C27B01-01EN
Table 2. Wetted Parts MaterialsWetted partsmaterial code
Cover flange andprocess connector Capsule Capsule gasket Vent/Drain plug
S ASTM CF-8M *1 Hastelloy C-276 *2(Diaphragm)316LSST(Others) Teflon-coated316LSST 316 SST
*1: Cast version of 316 SST. Equivalent to SCS14A.*2: Hastelloy C-276 or ASTM N10276.
<11. General Specifications> 11-8
IM 01C27B01-01EN
Model EJX430BModel Suffix Codes Description
EJX430B . . . . . . . . . . . . . . . . . . . . . . Gauge pressure transmitterOutput signal
-L . . . . . . . . . . . . . . . . . . . .-1 . . . . . . . . . . . . . . . . . . . .
Wirelesscommunication(ISA100.11aprotocol)Wirelesscommunication(ISA100.11aprotocol);successorofcode-L
Measurementspan(capsule)
H. . . . . . . . . . . . . . . . . . .A. . . . . . . . . . . . . . . . . . .B. . . . . . . . . . . . . . . . . . .
2.5to500kPa(10to2000inH2O)0.0175to3.5MPa(2.5to500psi)0.08to16MPa(12to2300psi)
Wetted partsmaterial *1
. . . . . . . . . . . . . . . . . Referto“WettedPartsMaterials”Table3.
Processconnections
►
0 . . . . . . . . . . . . . . . .1 . . . . . . . . . . . . . . . .2 . . . . . . . . . . . . . . . .3 . . . . . . . . . . . . . . . .4 . . . . . . . . . . . . . . . .5 . . . . . . . . . . . . . . . .
withoutprocessconnector(Rc1/4femaleonthecoverflanges)withRc1/4femaleprocessconnectorwithRc1/2femaleprocessconnectorwith1/4NPTfemaleprocessconnectorwith1/2NPTfemaleprocessconnectorwithoutprocessconnector(1/4NPTfemaleonthecoverflanges)
Bolts and nuts materia
J . . . . . . . . . . . . . .G. . . . . . . . . . . . . .C. . . . . . . . . . . . . .
ASTM-B7carbonsteel316L SST stainless steelASTM grade 660 stainless steel
Installation
►
-3 . . . . . . . . . . .-7 . . . . . . . . . . .-8 . . . . . . . . . . .-9 . . . . . . . . . . .-B . . . . . . . . . . .-U . . . . . . . . . . .
Verticalpiping,rightsidehighpressure,andprocessconnectiondownsideVerticalpiping,leftsidehighpressure,andprocessconnectiondownsideHorizontalpipingandrightsidehighpressureHorizontalpipingandleftsidehighpressureBottomProcessConnection,leftsidehighpressure*2Universalflange*2
Amplifierhousing 8 . . . . . . . . . .9 . . . . . . . . . .
Castaluminumalloywithdetachableantenna(2dBi)*4Castaluminumalloywithoutantenna(Nconnector)*3*4
Electricalconnection J . . . . . . . . .
0 . . . . . . . . .
2 . . . . . . . . .
4 . . . . . . . . .
5 . . . . . . . . .
7 . . . . . . . . .
9 . . . . . . . . .
A. . . . . . . . .
C. . . . . . . . .
D. . . . . . . . .
Noelectricalconnection,batterypoweredtype(batterycaseonly;batterycellsnotincluded)
G1/2female,oneelectricalconnectionwithoutablindplug,andexternalpoweredtype
1/2NPTfemale,twoelectricalconnectionswithoutablindplug,andexternalpoweredtype
M20female,twoelectricalconnectionswithoutblindplugs,externalpoweredtype
G1/2female,twoelectricalconnectionswithablindplug,andeexternalpoweredtype*5
1/2NPTfemale,twoelectricalconnectionswithablindplug,andexternalpoweredtype*5
M20female,twoelectricalconnectionsandablindplug,externalpoweredtype*5
G1/2female,twoelectricalconnectionswitha316SSTblindplug,andexternalpoweredtype
1/2NPTfemale,twoelectricalconnectionswitha316SSTblindplug,andexternalpoweredtype
M20female,twoelectricalconnectionsanda316SSTblindplug,externalpoweredtype
Integralindicator D. . . . . . . DigitalindicatorMountingbracket ► B. . . . .
D. . . . .K. . . . .M . . . .
N. . . . .
304SST2-inchpipemounting,flattype(forhorizontalpiping)304SSTorSCS13A2-inchpipemounting,Ltype(forverticalpiping)316SSTorSCS14A2-inchpipemounting,Ltype(forverticalpiping)316SSTorSCS14A2-inchpipemounting(forbottomprocessconnection
type)None
Optional Codes / OptionalspecificationThe“►”marksindicatethemosttypicalselectionforeachspecification.*1: ! Usersmustconsiderthecharacteristicsofselectedwettedpartsmaterialandtheinfluenceofprocessfluids.Theuseof
inappropriatematerialscanresultintheleakageofcorrosiveprocessfluidsandcauseinjurytopersonneland/ordamagetoplantfacilities.Itisalsopossiblethatthediaphragmitselfcanbedamagedandthatmaterialfromthebrokendiaphragmandthefillfluidcancontaminatetheuser’sprocessfluids.
Beverycarefulwithhighlycorrosiveprocessfluidssuchashydrochloricacid,sulfuricacid,hydrogensulfide,sodiumhypochlorite,andhigh-temperaturesteam(150°C[302°F]orabove).ContactYokogawafordetailedinformationofthewettedpartsmaterial.
*2: ApplicableforWettedpartsmaterialcodeS.*3: Ordertheantennaseparatelyfromaccessaryoption.*4: Remoteantennacablescanbeattached.Orderseparatelyfromaccessaryoption.*5: Materialofablindplug;aluminumalloyforcode5and9,and304SSTforcode7.
<11.GeneralSpecifications> 11-9
IM 01C27B01-01EN
Table 3. Wetted Parts MaterialsWetted partsmaterial code
Cover flange andprocess connector Capsule Capsule gasket Vent/Drain plug
S ASTM CF-8M *1 Hastelloy C-276 *2(Diaphragm)316LSST(Others) Teflon-coated316LSST 316 SST
H ASTM CF-8M *1 Hastelloy C-276 *2 PTFETeflon 316 SSTM ASTM CF-8M *1 Monel PTFETeflon 316 SSTT ASTM CF-8M *1 Tantalum PTFETeflon 316 SST
A Hastelloy C-276 equivalent *3 Hastelloy C-276 *2 PTFETeflon Hastelloy C-276 *2
D Hastelloy C-276 equivalent *3 Tantalum PTFETeflon Hastelloy C-276 *2
B Monel equivalent *4 Monel PTFETeflon Monel
*1: Cast version of 316 SST. Equivalent to SCS14A.*2: Hastelloy C-276 or ASTM N10276.*3: IndicatedmaterialisequivalenttoASTMCW-12MW.*4: IndicatedmaterialisequivalenttoASTMM35-2.
11.3 Optional Specifications OPTIONAL SPECIFICATIONS (For Explosion Protected type)
Item Description CodeFactoryMutual(FM) FMIntrinsicallysafeApproval FS17*ATEX ATEXIntrinsicallysafeApproval KS27*CanadianStandardsAssociation(CSA) CSAIntrinsicallysafeApproval CS17*IECEx IECExIntrinsicallysafeApproval SS27*
*OnlyapplicableforselectingElectricalconnectioncodeJ.
<11. General Specifications> 11-10
IM 01C27B01-01EN
OPTIONAL SPECIFICATIONSItem Description Code
Painting Colorchange Amplifiercoveronly PCoatingchange Anti-corrosioncoating*1 X2
Oil-prohibited use*2 Degreasecleansingtreatment K1Degreasecleansingtreatmentandwithfluorinatedoilfilledcapsule.Operatingtemperature-20to80°C(-4to176°F) K2
Oil-prohibited usewithdehydratingtreatment*2
Degreasecleansingtreatmentanddehydratingtreatment K5Degreasecleansingtreatmentanddehydratingtreatmentwithfluorinatedoilfilledcapsule.Operatingtemperature-20to80°C(-4to176°F)
K6
Capsulefillfluid FluorinatedoilfilledincapsuleOperatingtemperature-20to80°C(-4to176°F) K3
Calibration units*3 Pcalibration(psiunit)(SeeTableforSpanandRangeLimits.)
D1barcalibration(barunit) D3Mcalibration(kgf/cm2unit) D4
Long vent*4 Totallength:119mm(standard:34mm);TotallengthwhencombiningwithoptioncodeK1,K2,K5,andK6:130mm.Material:316SST U1
Gold-platedcapsulegasket*5 Gold-plated316LSSTcapsulegasket.Withoutdrainandventplugs. GSGold-plated diaphragm*6 Surfaceofisolatingdiaphragmsaregoldplated,effectiveforhydrogen
permeation. A1
130Paabscalibration*7 Minimuminputpuressureatcalibrationtesting:130Paabs(1mmHgabs) S1Body option*8 Without drain and vent plugs. N1
N1andProcessconnection,basedonIEC61518withfemalethreadonbothsidesofcoverflange,withblindkidneyflangesonback. N2
N2andMaterialcertificateforcoverflange,diaphragm,capsulebody,andblindkidneyflange. N3
European Pressure Directive*9
PED 2014/68/EUCategoryIII,ModuleH,TypeofEquipment:PressureAccessory-Vessel,Type of Fluid: Liquid and Gas, Group of Fluid: 1 and 2.
PE3
Materialcertificate*10 Coverflange*11 M01Coverflange,Processconnector*12 M11
Pressure test/Leaktestcertificate
TestPressure:16MPa(2300psi)*13
Nitrogen(N2)Gas*18
Retention time: one minute
T12TestPressure:25MPa(3600psi)*14 T13TestPressure:3.5MPa(500psi)*15 T01TestPressure:500kPa(2000inH2O)*16 T11TestPressure:50kPa(200inH2O)*17 T04
Highdampingcapsule*19 HighviscosityoilfilledLowerlimitofprocesstemperature:0°CApplicableforEJX110BwithmeasurementspancodeMorHandwettedpartsmaterialcodeS.
HD
Highdampingcapsule(General)*19
ApplicableforEJX110BwithmeasurementspancodeMorHandwettedpartsmaterialcodeS. HD2
*1: Notapplicablewithcolorchangeoption.*2: ApplicableforWettedpartsmaterialcodeS,H,M,andT.*3: TheunitofMWP(Max.workingpressure)onthenameplateofthehousingisthesameunitasspecifiedbyOptioncodeD1,D3,
and D4.*4: Applicableforverticalimpulsepipingtype(Installationcode-7)andWettedpartsmaterialcodeS,H,M,andT.*5: ApplicableforwettedpartsmaterialcodeS;processconnectioncode0and5;andinstallationcode-8and-9.Notapplicablefor
optioncodeU1,N2,N3andM11.NoPTFEisusedforwettedparts.*6: ApplicableforwettedpartsmaterialcodeS.
OverpressureeffectsforEJX110BM,H,andVcapsules:±0.06%ofURL.*7: ApplicableonlyforEJX310BMandAcapsuleswhoseupperrangevalueissetassmallerthan53.3kPaabs.*8: ApplicableforWettedpartsmaterialcodeS,H,M,andT;Processconnectioncode3,4,and5;Installationcode-9;andMounting
bracketcodeN.Processconnectionfacesontheothersideofzeroadjustmentscrew.*9: ApplicableforM,HandVcapsulesofEJX110BwithwettedpartsmaterialcodeS.*10: Materialtraceabilitycertification,perEN102043.1B.*11: ApplicableforProcessconnectionscode0and5.*12: ApplicableforProcessconnectionscode1,2,3,and4.*13: ApplicableforCapsulecodeLoroptioncode/HDand/HD2ofEJX110B,CapsulecodeBofEJX430BandEJX310B,andallthe
capsulesofEJX110BwithwettedpartsmaerialcodeH,M,T,A,D,andB.*14: ApplicableforCapsulecodeM,H,andVofEJX110BwithwettedpartsmaterialcodeS.Notapplicablewith/HDand/HD2.*15: ApplicableforCapsulecodeAofEJX430BandEJX310B.*16: ApplicableforCapsulecodeHofEJX430B.*17: ApplicableforCapsulecodeLandMofEJX310B.*18: Purenitrogengasisusedforoil-prohibiteduse(OptioncodeK1,K2,K5,andK6).*19: Notapplicableforoptioncode/K2,/K3,/K6,and/PE3.
<11.GeneralSpecifications> 11-11
IM 01C27B01-01EN
OPTIONAL ACCESSORIESProduct Part number Specification
Batterypackassembly F9915NQ*1 Batterycase,Lithium-thionylchloridebatteries2piecesBatteries*2 F9915NR Lithium-thionylchloridebatteries,2piecesBatterycase F9915NK*3 BatterycaseonlyRemoteantennacable F9915KU 3mwithmountingbracket
F9915KV 13m(3m+10m),withasurgeprotectivedeviceandmountingbracketAntenna F9915KW 2 dBi standard antenna
F9915KY 6 dBi high gain antenna*4*5
*1: IfyouneedF9915MA,pleasepurchaseF9915NQ.F9915NQisasetofF9915MAandinstructionmanual.*2: Alternatively,TadiranSL-2780/S,TL-5930/SorVITZROCELLSB-D02batteriescanbepurchasedfromyourlocaldistributor.*3: IfyouneedF9915NS,pleasepurchaseF9915NK.F9915NKisasetofF9915NSandinstructionmanual.*4: Useofhighgainantennaislimitedbylocalregulationofradioandtelecommunicationlaw.ConsultYokogawafordetails.*5: Itcannotbeusedbyconnectingdirectlytothemainunit.Remoteantennacablethatseparatelyarrangedisneededtoconnect.
<11. General Specifications> 11-12
IM 01C27B01-01EN
11.4 Dimensions
Horizontal impulse piping type (Installation code -9) *1
*1: When installation code -8 is selected, high and low pressure side on above figure are reversed. (i.e. High pressure side is on the right side.)*2: When option code K1, K2, K5, or K6 is selected, add 15 mm (0.59 inch) to the value in the figure.*3: When option code K1, K2, K5, or K6 is selected, add 30 mm (1.18 inch) to the value in the figure.*4: When amplifier housing code 9 is selected, the value is 114 mm (4.49 inch). In this case, the figure is shown as A.*5: When amplifier housing code 9 is selected, the value is 240 mm (9.45 inch). In this case, the figure is shown as A.*6: Applicable for the external powered type.*7: When electrical connection code 7 or C is selected, a blind plug is protruded upto 8 mm (0.31 inch) from the electrical connection.
F1103.ai
6(0
.24)
76(2
.99)
For electricalconnection code5,9,A and D
A*4*5
For electricalconnection code5,9,A and D
76(2.99)
6(0.24)
124
(4.8
8)47
(1
.85)
41(1.61)
181
(7.1
3)
211
(8.3
1)
140(5.51)
67(2.64)
122(4.80)
148(5.83)
Process connection
Process connector(Optional)
Mounting bracket(Flat-type, optional)
Integral indicator
67 (2
.64)
41(1
.61)
97 (3
.82)
52(2
.05)
91 (3.58)
211 (8.31)
140
(5.5
1)
223
(8.7
8)
97 (3.82)
Process connector(Optional)
Process Connection
Mounting bracket(L-type, optional)
Ground terminal
Zero adjustment
Integral indicator
64(2.52)
138
(5.4
3)*2
191 (7.52)39
(1.54)24(0.94)
Ø11
0 (4
.33)
Highpressureside
Lowpressureside
2-inch pipe(O. D. 60 mm)
Vent/Drain plugs
191 (7.52)
64(2.52)
39(1.54)
24(0.94)
Ø11
0 (4
.33)
54(2.13)
130*3
(5.12)
Drain plug
Vent plug
Ground terminal
Zero adjustment
Highpressureside
Lowpressureside
Vent plug
Drain plug
2-inch pipe(O. D. 60 mm)
237 (9.33)304 (11.97)
234*
4 (9
.21)
360*
5 (14
.17)
41(1.61)
Vertical impulse piping type (Installation code -7)Wetted Parts Material Code S (Except for Measurement Span Code F and Option Code /HD, /HD2)
[EJX110B] Unit: mm (approx. inch)
Electrical connection*6
Electrical connection*6
<11.GeneralSpecifications> 11-13
IM 01C27B01-01EN
Unit: mm (approx. inch)
Wetted Parts Material Code: H, M, T, A, B, D, Measurement Span Code F or Option Code /HD, /HD2 Vertical impulse piping type (Installation code -7)
Horizontal impulse piping type (Installation code -9) *1
F1104.ai
*1: When installation code -8 is selected, high and low pressure side on above figure are reversed. (i.e. High pressure side is on the right side.)*2: When option code K1, K2, K5, or K6 is selected, add 15 mm (0.59 inch) to the value in the figure.*3: When option code K1, K2, K5, or K6 is selected, add 30 mm (1.18 inch) to the value in the figure.*4: 42 mm (1.65 inch) for right side high pressure.*5: 21 mm (0.83 inch) for right side high pressure.*6: When amplifier housing code 9 is selected, the value is 114 mm (4.49 inch). In this case, the figure is shown as A.*7: When amplifier housing code 9 is selected, the value is 254 mm (10.00 inch). In this case, the figure is shown as A.*8: Applicable for the external powered type.*9: When electrical connection code 7 or C is selected, a blind plug is protruded upto 8 mm (0.31 inch) from the electrical connection.
A*6*7
6(0
.24)
76(2
.99)
For electricalconnection code5,9,A and D
For electricalconnection code5,9,A and D
76(2.99)
6(0.24)
64(2.52)
148
(5.8
3)*2
191 (7.52)36*4
(1.42)27*5
(1.06)
Ø11
0 (4
.33)
2-inch pipe(O. D. 60 mm)
Vent/Drain plugs
Highpressureside
Lowpressureside
230 (9.06)
105 (4.13)
72 (2
.83)
46(1
.81)
102
(4.0
2)52
(2.0
5)
140
(5.5
1)
234
(9.2
1)
97 (3.82)
Process connector(Optional)
ProcessConnection
Integral indicator
Mounting bracket(L-type, optional)
Ground terminal
Zero adjustment
64(2.52)
191 (7.52)
36*4
(1.42)
27*5
(1.06)
133*3
(5.24)
Process connection
Ø11
0 (4
.33)
Drain plug
Vent plug
Ground terminal
Zero adjustment
Highpressureside
Lowpressureside
Vent plug
Drain plug
2-inch pipe(O. D. 60 mm)
54(2.13)
46(1.81)
47
(1.8
5)
Process connector(Optional)
Mounting bracket(Flat-type, optional)
Integral indicator
124
(4.8
8)19
6 (7
.72)
230
(9.0
6)
140(5.51)
72(2.83)
127(5.00)
158(6.22)
318 (12.52)256 (10.08)
234*
6 (9
.21)
46(1.81)
374*
7 (1
4.72
)
Electrical connection*8
Electrical connection*8
<11. General Specifications> 11-14
IM 01C27B01-01EN
Universal flange type (Installation code -U) Measurement span code M, H and V
Measurement span code F
Unit: mm (approx. inch)
For electricalconnection code5,9,A and D
76(2.99)
6(0.24)
191 (7.52)
64(2.52)
39(1.54)
24(0.94)
Ø11
0 (4
.33)
54(2.13)130*1
(5.12)
Highpressureside
Lowpressureside
Zero adjustment
181
(7.1
3)
41(1.61)
211
(8.3
1)
140(5.51)
67(2.64)
115(4.53)
58(2.28)
Process connection
Process connector(Optional)
Drain plug
Drain plug
Vent plug
81 (3.19)
390*
2 (15
.35)
*1: When option code K1, K2, K5, or K6 is selected, add 30 mm (1.18 inch) to the value in the figure..*2: When amplifier housing code 9 is selected, the value is 270 mm (10.63 inch). In this case, the figure is shown as A.*3: When amplifier housing code 9 is selected, the value is 289 mm (11.38 inch). In this case, the figure is shown as A.*4: Applicable for the external powered type.*5: When electrical connection code 7 or C is selected, a blind plug is protruded upto 8 mm (0.31 inch) from the electrical connection.
F1105-01.ai
A*2*3
196
(7.7
2)
46(1.81)
230
(9.0
6)
140(5.51)
72(2.83)
125(4.92)
63(2.48)
Process connection
Process connector(Optional)
191 (7.52)
64(2.52)
36(1.42)
27(1.06)
Ø11
0 (4
.33)
54(2.13)133*1
(5.24)
Highpressureside
Lowpressureside
Zero adjustment
Drain plug
Drain plug
Vent plug
81 (3.19)
409*
3 (16
.10)
Electrical connection*4
Electrical connection*4
For electricalconnection code5,9,A and D
76(2.99)
6(0.24)
Integral indicator
Integral indicator
<11.GeneralSpecifications> 11-15
IM 01C27B01-01EN
*1: When amplifier housing code 9 is selected, the value is 314 mm (12.36 inch). In this case, the figure is shown as A.*2: When amplifier housing code 9 is selected, the value is 334 mm (13.15 inch). In this case, the figure is shown as A.*3: When option code K1, K2, K5 or K6 is selected, add 30 mm (1.18 inch) to the value in the figure.*4: Applicable for the external powered type.*5: When electrical connection code 7 or C is selected, a blind plug is protruded upto 8 mm (0.31 inch) from the electrical connection.
Bottom process connection type (Installation code -B) Measurement span code M, H and V, except for option code /HD, /HD2
Measurement span code F or option code /HD, /HD2
F1105-02.ai
Unit: mm (approx. inch)
For electricalconnection code5,9,A and D
76(2.99)
6(0.24)
A*1*2
129 (5.08)
255
(10.
04)
93 (3
.66)
140(5.51)
54(2.13)130*3
(5.12)
Mounting bracket(Optional)
Zero adjustment
Ground terminal
HighPressureSide
Vent plug
LowPressureSide
191 (7.52)
64(2.52)
79(3.11)
39(1.54)
24(0.94)
Ø11
0 (4
.33)
Process connection
Process connector(Optional)
274
(10.
79)
129 (5.08)
140(5.51)
Vent plug
Integral indicator
Zero adjustment
Ground terminal
HighPressureSide
LowPressureSide
133*3 (5.24)
54(2.13)
191 (7.52)
64(2.52)
39(1.54)
24(0.94)
Ø11
0 (4
.33)
Ø11
0 (4
.33)
184
(7.2
4)
79 (3
.11)
2-inch pipe(O. D. 60 mm) 95 (3.74)
Mounting bracket(Optional)
Process connector(Optional)
Process connection
81 (3.19)
434*
1 (1
7.09
)
81(3.19)
454*
2 (17
.87)
Electrical connection*4
Electrical connection*4
For electricalconnection code5,9,A and D
76(2.99)
6(0.24)
Integral indicator
<11. General Specifications> 11-16
IM 01C27B01-01EN
Vertical impulse piping type (Installation code -7) *1
Unit: mm (approx. inch)[EJX310B and EJX430B]Wetted parts material code: S
Horizontal impulse piping type (Installation code -9) *1
F1106.ai
*1: When installation code -3 and -8 is selected, high and low pressure side on above figure are reversed. (i.e. High pressure side is on the right side.)*2: When option code K1, K2, K5, or K6 is selected, add 15 mm (0.59 inch) to the value in the figure.*3: Applicable for EJX430B.*4: When amplifier housing code 9 is selected, the value is 114 mm (4.49 inch). In this case, the figure is shown as A.*5: When amplifier housing code 9 is selected, the value is 240 mm (9.45 inch). In this case, the figure is shown as A.*6: Applicable for the external powered type.*7: When electrical connection code 7 or C is selected, a blind plug is protruded upto 8 mm (0.31 inch) from the electrical connection.
A*4*5
For electricalconnection code5,9,A and D
76(2.99)
6(0.24)
6(0
.24)
76(2
.99)
For electricalconnection code5,9,A and D
64(2.52)
138
(5.4
3)*2
191 (7.52)39
(1.54)24(0.94)
27(1.06)
Ø11
0 (4
.33)
Highpressureside
Lowpressureside
2-inch pipe(O. D. 60 mm)
Vent/Drain plugs
Open to atmosphereØ10 (0.39)*3
67 (2
.64)
41(1
.61)
97 (3
.82)
52(2
.05)
91 (3.58)
211 (8.31)
140
(5.5
1)
223
(8.7
8)
97 (3.82)
Process connector(Optional)
ProcessConnection
Mounting bracket(L-type, optional)
Ground terminal
Zero adjustment
Integral indicator
191 (7.52)
64(2.52)
39(1.54)
24(0.94)
Ø11
0 (4
.33)
27(1.06)
65*2
(2.56)
91 (3
.58)
Drain plug
Vent plug
Ground terminal
Zero adjustment
Highpressureside
Lowpressureside
2-inch pipe(O. D. 60 mm)
Open toatmosphereØ5 (0.20)*3
124
(4.8
8)47
(1
.85)
41(1.61)
181
(7.1
3)
211
(8.3
1)
140(5.51)
67(2.64)
122(4.80)
148(5.83)
Process connection
Process connector(Optional)
Mounting bracket(Flat-type, optional)
Integral indicator
237 (9.33)304 (11.97)
234*
4 (9
.21)
41(1.61)
360*
5 (14
.17)
Electrical connection*6
Electrical connection*6
<11.GeneralSpecifications> 11-17
IM 01C27B01-01EN
Vertical impulse piping type (Installation code -7) *1
Horizontal impulse piping type (Installation code -9) *1
*1: When installation code -3 and -8 is selected, high and low pressure side on above figure are reversed. (i.e. High pressure side is on the right side.)*2: When option code K1, K2, K5, or K6 is selected, add 15 mm (0.59 inch) to the value in the figure.*3: Applicable for EJX430B.*4: When amplifier housing code 9 is selected, the value is 114 mm (4.49 inch). In this case, the figure is shown as A.*5: When amplifier housing code 9 is selected, the value is 254 mm (10.00 inch). In this case, the figure is shown as A.*6: Applicable for the external powered type.*7: When electrical connection code 7 or C is selected, a blind plug is protruded upto 8 mm (0.31 inch) from the electrical connection.
F1107.ai
Unit: mm (approx. inch)
Wetted parts material code: H, M, T, A, B, and D*36
(0.2
4)
76(2
.99)
For electricalconnection code5,9,A and D
A*4*5
For electricalconnection code5,9,A and D
76(2.99)
6(0.24)
64(2.52)
148
(5.8
3)*3
191 (7.52)39
(1.54)24(0.94)
Ø11
0 (4
.33)
2-inch pipe(O. D. 60 mm)
Highpressureside
Lowpressureside
27(1.06)
Vent/Drain plugs
Open to atmosphereØ10 (0.39)
64(2.52)
191 (7.52)
39(1.54)
24(0.94)
Ø11
0 (4
.33)
Drain plug
Vent plug
Ground terminal
Zero adjustment
Highpressureside
Lowpressureside
2-inch pipe(O. D. 60 mm)
27(1.06)
67*2
(2.64)
Open toatmosphereØ5 (0.20)
230 (9.06)
105 (4.13)
72 (2
.83)
46(1
.81)
102
(4.0
2)52
(2.0
5)
140
(5.5
1)
234
(9.2
1)
97 (3.82)
Process connector(Optional)
ProcessConnection
Integral indicator
Ground terminal
Zero adjustment
46(1.81)
47
(1.8
5)
Process connection
Process connector(Optional)
Mounting bracket(Flat-type, optional)
Integral indicator
124
(4.8
8)19
6 (7
.72)
230
(9.0
6)
140(5.51)
72(2.83)
127(5.00)
158(6.22)
318 (12.52)256 (10.08)
234*
4 (9
.21)
46(1.81)
374*
5 (1
4.72
)
Electrical connection*6
Mounting bracket(L-type, optional)
Electrical connection*6
<11. General Specifications> 11-18
IM 01C27B01-01EN
Universal flange type (Installation code -U)Unit: mm (approx. inch)
Bottom process connection type (Installation code -B)
F1108.ai
*1: Applicable for EJX430B.*2: When option code K1, K2, K5, or K6 is selected, add 15 mm (0.59 inch) to the value in the figure.*3: When amplifier housing code 9 is selected, the value is 270 mm (10.63 inch). In this case, the figure is shown as A.*4: When amplifier housing code 9 is selected, the value is 314 mm (12.36 inch). In this case, the figure is shown as A.*5: Applicable for the external powered type.*6: When electrical connection code 7 or C is selected, a blind plug is protruded upto 8 mm (0.31 inch) from the electrical connection.
A*3*4
191 (7.52)
64(2.52)
39(1.54)
24(0.94)
Ø11
0 (4
.33)
Highpressureside
Lowpressureside
65*1
(2.56)
Open toatmosphereØ5 (0.20)*1
27(1.06)
Open to atmosphereØ10 (0.39)
181
(7.1
3)
41(1.61)
211
(8.3
1)
140(5.51)
67(2.64)
115(4.53)
58(2.28)
Process connection
Process connector(Optional)
Drain plug
Drain plug
Vent plug
129 (5.08)
255
(10.
04)
93 (3
.66)
140(5.51)
Integral indicator
Mounting bracket(Optional)
Zero adjustment
Ground terminal
HighPressureSide
Vent plug
LowPressureSide
Open to atmosphereØ10 (0.39)*1
65*1
(2.56)
27(1.06)
191 (7.52)
64(2.52)
79(3.11)
39(1.54)
24(0.94)
Ø11
0 (4
.33)
Process connection
Process connector(Optional)
81(3.19)
390*
3 (15
.35)
81 (3.19)
434*
4 (1
7.09
)
Electrical connection*5
For electricalconnection code5,9,A and D
76(2.99)
6(0.24)
For electricalconnection code5,9,A and D
76(2.99)
6(0.24)
Electrical connection*5
Integral indicator
<11.GeneralSpecifications> 11-19
IM 01C27B01-01EN
Infrared port
Infrared Configuration Terminal Configuration for the External Powered type
Terminal Wiring Example for the External Power Source Terminal
Ground terminalPower supply terminal +
Power supply terminal –
Power supply
Connection terminal
Shield cable
External power source
Use shield cables if it is affected by electrical noise.
10.5-30V DC
F1109.ai
.
Rev-1
IM 01C27B01-01EN
Revision Information Title : EJX110B, EJX310B and EJX430B DifferentialPressureandPressureTransmitters Manual No. : IM 01C27B01-01EN
Edition Date Page Revised Item1st May 2009 — Newpublication2nd Aug. 2010 — ReleaseofISA100.11aprotocol3rd Oct.2010 2-5 2.8.3 AdddescriptionofCENELECATEX(KEMA)Certification)
2-6 2.8.4 AdddescriptionofIECExCertification11-6 11.3 Addoptioncode/KS27and/SS27.
4th Apr. 2011 — • Adaptedtodeviceconfigurationtoolwithinfraredcommunicationfunction.• Partnumberchange Batterypack:F9915MAà F9915NQ Delete F9915MX Battery: A1133EB à F9915NR Deletebatterycasepartnumber
5th Dec.2011 9-7 9.4.8 AddbatterycasepartnumberofF9915NK.6th Aug. 2012 — Releaseofamplifierhousingcode8and9.7th Oct.2012 — ReleaseofATEX/IECExintrinsicsafeforamplifierhousingcode8and9.
2-5, 2-6 2.8.3,2.8.4Changethedescriptionsandtheinstallationdiagram.11-2 11.1 DeletethelimitationuseforFrance.
8th June 2013 — ReleaseofCSAintrinsicsafeforamplifierhousingcode8and9.9th Jan. 2014 — ReleaseofFMintrinsicsafeforamplifierhousingcode8and9.10th July 2015 11-2
11-4, 11-6, 11-711-9
RevisedescriptionsforEMCconformitystandards.ChangeofthematerialformountingbracketDandK.Addnotestothetableofoptionalaccessories.
11th Oct.2015 2-1, 2-2, 4-2, 5-2, 7-2
9-5, 11-1, 11-2, 11-8, 11-9, 11-10
to 11-1311-4, 11-1311-10 to 16
Lbracketchange.
Add /HD.
AddBottomprocessconnectionformeasurementcodeF.Correctdimensions.
12th May 2017 ——
1-1, 1-2, 2-101-21-21-5
2-8,11-82-611-9
ChangeduetoYFGW710discontinuation.Changedueto“AmplifierCode7”discontinuation.Change due to RoHS.AdditionofPatentMaking.AdditionofProductDisposalinformation.Addition of China RoHS.RevisionofPEDdescriptions.RevisionoftheapplicablestandardforATEX.DeletionofF9915KXduetoRoHS.
13th Dec.2018 ———2-42-52-52-7
2-9, 2-10
Release of output signal -1.Releaseofexternalpoweredtype.Changethedescription:Arrester à SurgeProtectiveDeviceRevisedthedescriptionofFMApproval.RevisedthedescriptionofCSACertification.RevisedthedescriptionofATEXCertification.RevisedthedescriptionofIECExCertification.RevisedthedescriptionofRegulatoryComplianceforRadioandTelecommunication.
14th Mar. 2019 11-4,11-6,11-811-11
Releaseofelectricalconnectioncode4,9,D.Added the battery : VITZROCELL SB-D02
15th July 2019 11-10 11.3 ReleaseofoptionalcodeHD2.