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User’sManual

Yokogawa Electric Corporation

YTMX580Multi-Input Temperature Transmitter

IM 04R01B01-01EN

IM 04R01B01-01EN7th Edition

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IM 04R01B01-01EN

YTMX580Multi-Input Temperature Transmitter

IM 04R01B01-01EN 7th Edition

7th Edition: Oct., 2018 (YK)All Rights Reserved, Copyright © 2011, Yokogawa Electric Corporation

Contents1. Introduction ............................................................................................... 1-1

Protection of Environment ..............................................................................................1-31.1 Safe Use of This Product ................................................................................. 1-41.2 Radio Wave ........................................................................................................1-51.3 Warranty .............................................................................................................1-5

2. Notes on Handling .................................................................................... 2-12.1 ChecktheModelNameandconfiguration ..................................................... 2-12.2 Transport ............................................................................................................2-12.3 Storage ...............................................................................................................2-22.4 Choosing the Installation Location ................................................................ 2-22.5 Use of a Transceiver ......................................................................................... 2-32.6 Installation of an Explosion-Protected Instrument ....................................... 2-3

2.6.1 FM Approval .......................................................................................2-42.6.2 CSACertification ..............................................................................2-102.6.3 ATEXCertification ............................................................................ 2-112.6.4 IECExCertification ...........................................................................2-142.6.5 TIIS intrinsically safe approval .........................................................2-16

2.7 EMC Conformity Standards ...........................................................................2-192.8 Safety Standard ...............................................................................................2-192.9 Regulatory Compliance for Radio and Telecommunication ......................2-20

2.10 Radio Equipment Directive (RE) ...................................................................2-202.11 FCC compliance ..............................................................................................2-202.12 Industry Canada (IC) compliance ..................................................................2-202.13 EMC and Radiocommunications regulatory arrangement in Australia and New

Zealand (RCM) .................................................................................................2-212.14 RegardingtheSpecificationsattheTimeofOrder .....................................2-212.15 ConfigurationToolsforTransmitter .............................................................2-22

3. Part Names and Functions ...................................................................... 3-14. Installation ................................................................................................. 4-1

4.1 Precautions .......................................................................................................4-14.2 Procedure for Mounting Transmitter .............................................................. 4-14.3 Mouting Procedure of Remote Antenna ......................................................... 4-3

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5. Wiring ......................................................................................................... 5-15.1 Notes on Wiring .................................................................................................5-15.2 Cable Selection .................................................................................................5-15.3 Cable and Terminal Connections .................................................................... 5-25.4 Wiring Cautions.................................................................................................5-35.5 WiringandWaterproofingofRemoteAntenna ............................................. 5-35.6 Grounding ..........................................................................................................5-4

6. Operation ................................................................................................... 6-16.1 PreparationforStartingOperation .................................................................6-16.2 Zero-gain Adjustment .......................................................................................6-26.3 StartingOperation ............................................................................................6-26.4 Connecting to the Field Wireless Network ..................................................... 6-26.5 Shutting Down the Transmitter ....................................................................... 6-46.6 Restarting ..........................................................................................................6-4

7. Setting Parameters ................................................................................... 7-17.1 Environment for parameter setting .................................................................7-17.2 Preparing Software ...........................................................................................7-1

7.2.1 SoftwaresfortheFieldWirelessConfigurationToolandtheDeviceConfigurationTool ..............................................................................7-1

7.2.2 SoftwareDownload ............................................................................7-17.3 Setting Parameters ...........................................................................................7-2

7.3.1 Parameter Usage and Selection ........................................................ 7-27.3.2 FunctionBlockandMenuTree ..........................................................7-37.3.3 ParametersforWirelessCommunication .......................................... 7-77.3.4 TagandDeviceInformation ...............................................................7-77.3.5 Unit .....................................................................................................7-87.3.6 MeasurementRange .........................................................................7-87.3.7 InputSensor .......................................................................................7-87.3.8 Assignment to AI Object ..................................................................... 7-97.3.9 Write Protect ....................................................................................7-107.3.10 InputCalibration ...............................................................................7-107.3.11 SwitchingtotheDeepSleepMode .................................................. 7-117.3.12 Switching to the Silence Mode ......................................................... 7-11

7.4 Self-Diagnostics ..............................................................................................7-127.4.1 IdentifyProblemsbyUsingtheDeviceConfigurationTool ..............7-127.4.2 CheckingUsingtheStatusDisplayLED .........................................7-14CorrectuseoftheALM(red)LEDdisplay ........................................................7-14

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8. Maintenance .............................................................................................. 8-18.1 General ...............................................................................................................8-18.2 Calibration Instruments Selection .................................................................. 8-18.3 Calibration Procedure ......................................................................................8-28.4 Battery ................................................................................................................8-3

8.4.1 Replacing the Battery Pack ............................................................... 8-38.4.2 Replacing the Batteries ......................................................................8-48.4.3 Handling Batteries .............................................................................. 8-4

8.5 Replacing the Front Door Gasket ....................................................................8-58.6 Troubleshooting ................................................................................................8-6

8.6.1 BasicTroubleshootingFlow ...............................................................8-68.6.2 ExampleofTroubleshootingFlow ..................................................... 8-68.6.3 AlarmsandCountermeasures ........................................................... 8-8

9. Parameter Summary ................................................................................ 9-110. GeneralSpecifications .......................................................................... 10-1

10.1 GeneralSpecification .....................................................................................10-110.2 ModelandSuffixCodes .................................................................................10-810.3 OptionalSpecification ....................................................................................10-810.4 OptionalSpecifications(ForExplosionProtectedtype) ............................10-810.5 Standard Accessories ....................................................................................10-910.6 OptionalAccessories .....................................................................................10-910.7 Dimensions .................................................................................................... 10-11

Revision Information ...............................................................................................i

<1. Introduction> 1-1

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1. IntroductionThankyouforpurchasingtheYTMX580Multi-InputTemperatureTransmitter.

YourTransmitterwaspreciselycalibratedatthefactorybeforeshipment.Toensurebothsafetyandefficiency,pleasereadthismanualcarefullybeforeyouoperatethetransmitter.

Thismanualdescribestheinstallation,wiring,andparametersettingoftheYTMX580Multi-InputTemperatureTransmitter.

Paper Manual

Title Manual No.YTMX580Multi-InputTemperatureTransmitter

IM 04R01B01-01EN

Electronic Manual

Youcandownloadthesemanualsfromthefollowing web page.

https://y-link.yokogawa.com/

Title Manual No.YTMX580Multi-InputTemperatureTransmitter

IM 04R01B01-01EN

GenaralSpecifications

Title General specificationsNo.

YTMX580Multi-InputTemperatureTransmitter

GS 04R01B01-01EN

* Thelasttwocharactersofthemanualnumberandgeneralspecificationnumberindicatethelanguageinwhichthemanualiswritten.

Thismanualisanessentialpartoftheproduct;keepitinasafeplaceforfuturereference.Thismanualisintendedforthefollowingpersonnel;

• Engineers responsible for installation, wiring, andmaintenanceoftheequipment.

• Personnel responsible for normal daily operationoftheequipment.

Authorised Representative in the EEA

TheAuthorisedRepresentativeforthisproductinthe EEA is:

YokogawaEuropeB.V.Euroweg2,3825HDAmersfoort,The Netherlands

CAUTIONThismanualdescribeshowtousetheintegratedantennamodel(antennasuffixcode:A),remoteantennamodel(antennasuffixcode:B),batterymodel(powersupplysuffixcode:-A)andexternalpowersupplymodel(powersupplysuffixcode:-B).Unless otherwise stated, integrated antenna andbatterymodelsareusedinthetransmitterillustrationsNotethattheillustrationsmaybedifferentfromtheactualremoteantennamodelandexternalpowersupplymodel.

Regarding This Manual

• Thismanualshouldbeprovidedtotheenduser.

• Thecontentsofthismanualaresubjecttochangewithoutpriornotice.

• Allrightsreserved.NopartofthismanualmaybereproducedinanyformwithoutYokogawa’swritten permission.

• Yokogawa makes no warranty of any kind with regardtothismanual,including,butnotlimitedto, implied warranty of merchantability and fitnessforaparticularpurpose.

• Ifanyquestionarisesorerrorsarefound,orifanyinformationismissingfromthismanual,please inform the nearest Yokogawa sales office.

• Thespecificationscoveredbythismanualarelimitedtothoseforthestandardtypeunderthespecifiedmodelnumberbreak-downanddonotcovercustom-madetransmitter.

• Pleasenotethatchangesinthespecifications,construction,orcomponentpartsofthetransmittermaynotimmediatelybereflectedinthismanualatthetimeofchange,providedthatpostponementofrevisionswillnotcausedifficultytotheuserfromafunctionalorperformance standpoint.

• Yokogawaassumesnoresponsibilitiesforthisproductexceptasstatedinthewarranty.


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• Ifthecustomeroranythirdpartyisharmedbytheuseofthisproduct,Yokogawaassumesnoresponsibilityforanysuchharmowingtoanydefectsintheproductwhichwerenotpredictable, or for any indirect damages.

• Thefollowingsafetysymbolsareusedinthismanual:

WARNING

Indicatesapotentiallyhazardoussituationwhich,ifnotavoided,couldresultindeathorseriousinjury.

CAUTIONIndicatesapotentiallyhazardoussituationwhich,ifnotavoided,mayresultinminorormoderateinjuryorphysicaldamage.Itmayalsobeusedtoalertagainstunsafepractices.

IMPORTANTIndicates that operating the hardware or software in this manner may damage it or lead to system failure.

NOTEDrawsattentiontoinformationessentialforunderstandingtheoperationandfeatures.

Notice

NORIGHTSORLICENSES,EXPRESSORIMPLIED,AREGRANTEDTOUSETHIRD-PARTYDEVICESINCOMBINATIONWITHTHESEPRODUCTSINAWIRELESSMESHNETWORK,ORTOUSETHIRD-PARTYSERVICESTOACCESS,MONITORORCONTROLTHESEPRODUCTSINAWIRELESSMESHNEWORKVIATHEINTERNETORANOTHEREXTERNALWIDEAREANETWORK.

Patent Marking

Covered by one or more claims of patents: http://sipcollc.com/patent-list/andhttp://intusiq.com/patent-list/.


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Protection of Environment Control of Pollution Caused by the Product

Thisisanexplanationfortheproductbasedon“ControlofpollutioncausedbyElectronicInformationProducts”inthePeople’sRepublicofChina.

产品中有毒有害物质或元素的名称及含量

部件名称有毒有害物质或元素

铅(Pb) 汞(Hg) 镉(Cd) 六价铬

(Cr6+)

多溴联苯

(PBB)

多溴二苯醚

(PBDB)

印刷电路 N/A N/A N/A

内部接线材料 N/A N/A N/A

外壳 N/A N/A N/A

天线 N/A N/A N/A

电池 N/A N/A N/A

电池盒 N/A N/A N/A

标准附件/可选附件安装支架 N/A N/A N/A

天线电缆 N/A N/A N/A

衬垫 N/A N/A N/A

分流电阻 N/A N/A N/A

盲塞 N/A N/A N/A

：表示该部件的所有均质材料中的有毒有害物质或元素的含量均低于 GB/T26572 标准所规定的限量要求。N/A ：表示该部件中至少有一种均质材料中的有毒有害物质或元素的含量超过 GB/T26572 标准所规定的限量要求。本产品的部分部件包含RoHS指令中的限用物质，但是其使用方法不受该指令限制。SomepartsofthisproductincludetherestrictedsubstancesofRoHSDirective,buttheirapplicationsareundertheexemptionofthedirective.

该标志为环境保护使用期限，根据SJ/T11364，适用于在中国( 台湾、香港、澳门除外) 销售的电子电气产品。只要遵守该产品的安全及使用注意事项，从产品生产之日起至该标志所示年限内，不会因为产品中的有害物质外泄或突变而导致环境污染或对人身财产产生重大影响。注释)该标志所示年限为“环境保护使用期限”，并非产品的保质期。另外，关于更换部件的推荐更换周期，请参阅使用说明书。

Product Disposal

Theinstrumentshouldbedisposedofinaccordance with local and national legislation/regulations.


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1.1 Safe Use of This Product Thefollowingsafetysymbolsareusedontheproductandinthismanual.

“Handle with care.” To avoid injury and damage to the instrument, the operator must refer to the explanation in the manual.

Functional ground terminal (do not use this terminal as a protective ground terminal.)

Direct current

For the safety of the operator and to protect the transmitterandthesystem,pleasebesuretofollowthismanual’ssafetyinstructionswhenhandlingthistransmitter.Iftheseinstructionsarenotheeded,the protection provided by this transmitter may be impaired.Inthiscase,Yokogawacannotguaranteethat the transmitter can be safely operated. Please pay special attention to the following points:

(a) Installation

• This transmitter may only be installed by an engineer or technician who has an expert knowledge of this device. Operators are not allowedtocarryoutinstallationunlesstheymeet this condition.

• Withhighprocesstemperatures,caremustbetakennottoburnyourselfbytouchingthetransmitter or its casing.

• All installation shall comply with local installation requirementsandthelocalelectricalcode.

(b) Wiring

• Thetransmittermustbeinstalledbyanengineer or technician who has an expert knowledge of this transmitter. Operators are not permittedtocarryoutwiringunlesstheymeetthis condition.

(c) Maintenance

• Pleasecarryoutonlythemaintenanceproceduresdescribedinthismanual.Ifyourequirefurtherassistance,pleasecontactthenearestYokogawaoffice.

• Careshouldbetakentopreventthebuildupofdustorothermaterialsonthedisplayglassandthenameplate.Tocleanthesesurfaces,useasoft, dry cloth.

(d) Explosion Protected Type Instrument

• Usersofexplosionproofinstrumentsshouldreferfirsttosection2.6(InstallationofanExplosionProtectedInstrument)ofthismanual.

• Theuseofthisinstrumentisrestrictedtothosewho have received appropriate training in the device.

• Take care not to create sparks when accessing theinstrumentorperipheraldevicesinahazardouslocation.

• Repairormodificationtothisinstrumentbycustomerwillcausemalfunctionofexplosionprotectfunctionandhazardoussituation.Ifyouneedtorepairormodification,pleasecontactthenearestYokogawaoffice.

(e) Modification

• Yokogawawillnotbeliableformalfunctionsordamageresultingfromanymodificationmadetothistransmitterbythecustomer.

CAUTIONThisinstrumentisaClassAproduct.Operationofthisinstrumentinaresidentialareamaycauseradiointerference,inwhichcasetheuserisrequiredtotakeappropriatemeasurestocorrectthe interference.

이 기기는 업무용(A급) 전자파적합기기로서

판매자 또는 사용자는 이 점을 주의하시기

바라며, 가정외의 지역에서 사용하는 것을

목적으로 합니다.


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1.2 Radio Wave

IMPORTANT• Thistransmitterisequippedwithawireless

modulewhichisdesignatedasaJapaneseRadioLawasawirelessfacilityfor2.4GHzbandlow-powerdatacommunicationsystemof the Radio Act.

Referto2.9“RegulatoryComplianceforRadioandTelecommunication”fordetail.

• DuetothedesignatedJapaneseRadioLaw,usersmaybesubjecttolegalpunishmentincase of:- Disassemblingormodifyingthewirelessmoduleorantennainthistransmitter

- Peelingoffthecertificationlabelattachedtothewirelessmoduleinthistransmitter

• Preventing interference with other wireless stations

Theoperatingfrequencybandwidthofthistransmitter may overlap the same range asindustrialdevices,scientificdevices,medical devices, microwave ovens, licensed premises radio stations and non-licensed specifiedlow-powerradiostationsformobileobjectidentificationsystemsusedinfactoryproductionlines.

Beforeusingthistransmitter,ensurethatneitherapremisesradiostationnorspecifiedlow power radio station for mobile object identificationsystemsisinusenearby.

Ifthistransmittercausesradiowaveinterference to a wireless station for mobile objectidentificationsystems,promptlychangethefrequencybeingusedorturnoffthesourceofradiowaveemissions.Then,contactaYokogawaofficeregardingcountermeasurestopreventinterference,suchassettinguppartitions.

1.3 Warranty• The warranty shall cover the period noted on thequotationpresentedtothepurchaseratthetimeofpurchase.Problemsoccurringduringthe warranty period shall basically be repaired free of charge.

• If any problems are experienced with this transmitter,thecustomershouldcontacttheYokogawa representative from which this transmitterwaspurchasedorthenearestYokogawaoffice.

• If a problem arises with this transmitter, pleaseinformusofthenatureoftheproblemandthecircumstancesunderwhichitdeveloped,includingthemodelspecificationandserialnumber.Anydiagrams,dataandotherinformationyoucanincludeinyourcommunicationwillalsobehelpful.

• Thepartyresponsibleforthecostoffixingtheproblem shall be determined by Yokogawa followinganinvestigationconductedbyYokogawa.

The purchaser shall bear the responsibility for repair costs, even during the warranty period, if the malfunction is due to:

- Improperand/orinadequatemaintenancebythepurchaser.

- Malfunctionordamageduetoafailuretohandle,use,orstorethetransmitterinaccordancewiththedesignspecifications.

- UseoftheproductinquestioninalocationnotconformingtothestandardsspecifiedbyYokogawa,orduetoimpropermaintenanceof the installation location.

- Failureordamageduetomodificationorrepair by any party except Yokogawa or an approved representative of Yokogawa.

- Malfunctionordamagefromimproperrelocationoftheproductinquestionafterdelivery.

- Reasonofforcemajeuresuchasfires,earthquakes,storms/floods,thunder/lightening,orothernaturaldisasters,ordisturbances,riots,warfare,orradioactivecontamination.


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Trademarks

• YTMX are registered trademarks of Yokogawa Electric Corporation.

• AllthebrandnamesorproductnamesofYokogawaElectricusedinthisdocumentareeither trademarks or registered trademarks of Yokogawa Electric Corporation.

• Companyandproductnamesusedinthismanualaretrademarksorregisteredtrademarks of their respective holders.

• Thecompanyandproductnamesusedinthismanualarenotaccompaniedbythetrademarkorregisteredtrademarksymbols(“™“and“®“).

<2. Notes on Handling> 2-1

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2. Notes on HandlingThistransmitterisfullyfactory-testeduponshipment. When the transmitter is delivered, check the appearance for damage, and also check that thetransmittermountingpartsshowninFigure2.1areincludedwithyourshipment.If“NoMountingBracket”isindicated,notransmittermountingbracketisincluded.Whenspecifytheremoteantenna, check the remote antenna. And when order the antenna cable as optional accessory, checktheremoteantennamountingpartsshowninFigure2.2areincludedwithyourshipment.Thissectiondescribesprecautionsthatmustbeobservedwhenusingthetransmitter.Pleasefirstreadthissectioncarefully.Asforprecautionsthat are not described in this section, refer to the relevant sections.

E0201.ai

2-inch pipemounting bracket

Washer

Wall mountingbracket

Washer

2-inch pipe mounting bracket

Wall mounting bracket

Bracketfastening bolt

Washer

Wall mountingbracket


Figure 2.1 Transmitter Mounting Hardware

Bracket

Antenna

Nut

2-inch pipe

U Bolt

WasherNut

AntennaExtension Cable

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Figure 2.2 Remote antenna and Mounting Hardware

2.1 Check the Model Name and configuration

Themodelnameandconfigurationareindicatedonthenameplate.Verifythattheconfigurationindicatedinthe“ModelandSuffixCodes”insection10.2isincompliancewiththespecificationswrittenon the order sheet.

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Figure 2.3 Example of Name Plate

2.2 TransportTo prevent damage while in transit, leave the transmitterintheoriginalshippingcontaineruntilitreaches the installation site.


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2.3 StorageWhen an extended storage period is expected, observethefollowingprecautions.

1. Chooseastoragelocationthatsatisfiesthefollowingrequirements.

• A location that is not exposed to rain or water.• Alocationsubjecttoaminimumofvibrationor

impact.• Thefollowingtemperatureandhumidityrangeisrecommended.Ordinarytemperatureandhumidity(25°C,65%)arepreferable.

Temperature: –40to85°C Humidity: 0to100%RH2. If at all possible, store the transmitter in

factory-shipped condition, that is, in the original shipping container.

3. Preferably remove the batteries for storage. For maximumbatterylife,thestoragetemperatureshouldnotexceed30°C

NOTEWhen storing the transmitter with a battery pack, itisrecommendedtoputthetransmitterinDeepSleep mode to conserve the batteries. For details onhowtoswitchtoDeepSleepmode,refertosubsection7.3.11“SwitchingtotheDeepSleepMode”.

2.4 Choosing the Installation Location

Althoughthetemperaturetransmitterisdesignedtooperateinavigorousenvironment,tomaintainstabilityandaccuracy,thefollowingisrecommended.

Wireless Communication

NOTEThe installation location of this transmitter andremoteantennamustmeetthefollowingconditions:

- Install the transmitter and remote antenna so that the antenna becomes vertical to the ground.

- Install the transmitter and remote antenna at least1.5mabovethegroundorfloor.

E0204.ai

1.5m

or m

ore

- Makesuretherearenoobstaclessuchaswallsandpipesaroundtheantennatoensurevisibility.

- Confirmthateachfieldwirelessequipmentcompliant with ISA100 Wireless can see the antenna of other devices which locate within itsowncommunicationrange.Inthestartopology network, the visibility to the antenna ofgatewayisamandatoryclause.


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Ambient TemperatureIt is preferable to not to expose the transmitter to extremetemperaturesortemperaturefluctuations.If the transmitter is exposed to radiation heat a thermal protection system and appropriate ventilation is recommended.

Environmental RequirementsDonotallowthetransmittertobeinstalledinalocation that is exposed to corrosive atmospheric conditions.Whenusingthetransmitterinacorrosiveenvironment,ensurethelocationiswellventilated.

Theunitanditswiringshouldbeprotectedfromexposuretorainwater.

Impact and VibrationIt is recommended that the transmitter be installed inalocationthatissubjecttoaminimumamountofimpact and vibration.

Installation of Explosion-protected Transmitters

Anexplosion-protectedtransmittersiscertifiedforinstallationinahazardousareacontainingspecificgastypes.Seesubsection2.6“InstallationofanExplosion-ProtectedInstrument”.

2.5 Use of a Transceiver

IMPORTANTAlthoughthetransmitterhasbeendesignedtoresisthighfrequencyelectricalnoise,ifaradiotransceiverisusednearthetransmitteroritsexternalwiring,thetransmittermaybeaffectedbyhighfrequencynoisepickup.Totestthis,startoutfromadistanceofseveralmetersandslowlyapproach the transmitter with the transceiver whileobservingthemeasurementloopfornoiseeffects.Thereafterusethetransceiveroutsidetherangewherethenoiseeffectswerefirstobserved.

2.6 Installation of an Explosion-Protected Instrument

Ifacustomermakesarepairormodificationtoanintrinsicallysafeinstrumentandtheinstrumentisnot restored to its original condition, its intrinsically safeconstructionmaybecompromisedandtheinstrumentmaybehazardoustooperate.Pleasecontact Yokogawa before making any repair or modificationtoaninstrument.

WARNING

• InthecasewheretheenclosureoftheMulti-InputTemperatureTransmitterismadeofaluminium,ifitismountedinaZone0areaoranareawheretheuseofEPLGaequipmentisrequired,itmustbeinstalledsuch,that,evenintheeventofrareincidents,ignitionsourcesduetoimpactandfrictionsparksareexcluded.

• Electrostaticchargemaycauseanexplosionhazard.Avoidanyactionsthatcausethegenerationofelectrostaticcharge,suchasrubbingwithadryclothoncoatingfaceoftheproduct.

• To satisfy IP66 or IP67, apply waterproof glands to the electrical connection port.

• TheinstrumentmodificationorpartsreplacementbyotherthananauthorizedRepresentative of Yokogawa Electric Corporation is prohibited and will void the certification.

• When replacing the Battery Pack or Antenna, besuretominimizetheriskofexplosionfromelectrostatic discharge.

Avoidanyactionsthatcausethegenerationofelectrostaticcharge,suchasrubbingwith a dry cloth on face of the Battery Pack, Antenna,andproduct.


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CAUTION• Thisinstrumenthasbeentestedandcertified

as being intrinsically safe. Please note that severerestrictionsapplytothisinstrument’sconstruction,installation,externalwiring,Maintenanceandrepair.Afailuretoabidebytheserestrictionscouldmaketheinstrumenta hazard to operate.

• Becarefultomakesurethatanintrinsicallysafeapparatus,intrinsicallysafedevices,and wiring to connect them are arranged so thatcurrentandvoltagearenotinducedbyelectromagneticorelectrostaticinductionintheintrinsicallysafecircuitinordertoprevent impairment of the intrinsically safe and explosion-proof performance of the intrinsicallysafecircuit.

2.6.1 FM ApprovalCautionforFMintrinsicallysafetype.(Followingcontentsreferto“DOC.No.IFM041-A20”)


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Model: YTMX580 Date: October 14, 2011

Rev.4: October 15, 2015 Doc. No.: IFM041-A20 P.1


Control Drawing

Input Terminal 1-1 to 8-4 Uo: 5.88 V Io: 130.1 mA Po: 191.2 mW Co: 1 μF Lo: 1 mH

Hazardous (Classified) Location

・・・

・・・

Sensor 1 2 3 4

1 2 3 4

Input Terminal 1

Input Terminal 8

YTMX580 Multi-Input Temperature

Transmitter

Class I, Division 1, 2, Groups A, B, C, D Class II, Division 1, Groups E, F, G or Class II, Division 2, Groups F, G Class III, Division 1 Class I, Zone 0, 1, 2 Group IIC Temperature Class: T4

Battery Model – Integral Antenna type

Antenna connector YTMX580

Multi-Input Temperature Transmitter

・・・

・・・

Sensor 1 2 3 4

1 2 3 4

Input Terminal 1

Input Terminal 8

Arrester (*Note 8) Antenna

(*Note 8)

Battery Model – Remote Antenna type


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Rev.5: October 15, 2015 Doc. No.: IFM041-A20 P.2


Power Supply Input Terminal(+,-) Input Terminal 1-1 to 8-4 Ui: 28V (26.4V for NI) Uo: 5.88V Ii: 135mA Io: 130.1mA Pi: 850mW Po: 191.2mW Ci: 0.013μF Co: 1μF Li: 0.24mH Lo: 1mH

＋

－

Supply+

Supply－・・・

・・・

Sensor 1 2 3 4

1 2 3 4

Power Supply Input Terminal

Associated Apparatus

Power Supply

Input Terminal 1

Input Terminal 8


Transmitter

Class I, Division 1, 2, Groups A, B, C, D Class II, Division 1, Groups E, F, G or Class II, Division 2, Groups F, G Class III, Division 1 Class I, Zone 0, 1, 2 Group IIC Temperature Class: T4

Unclassified Location Hazardous (Classified) Location

24VDC Model – Integral Antenna type

＋

－・・・

・・・

Sensor 1 2 3 4

1 2 3 4

Power Supply Input Terminal


Power Supply

Input Terminal 1

Input Terminal 8


Transmitter

Arrester (*Note 8)

Antenna (*Note 8)

24VDC Model – Remote Antenna type

Antenna connector

Supply+

Supply－


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Rev. Doc. No.: IFM041-A20 P.3


Specific conditions of use: - Precaution shall be taken to minimize the risk from electrostatic discharge of

non-metallic parts and painted parts of the enclosure. - If the equipment 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.

- The dielectric strength of 500 V a.c. r.m.s. between the intrinsically safe circuit and the enclosure of the equipment is limited only by the overvoltage protection device.

Notes: 1. No revision to this drawing without prior approval of FM. 2. Installation must be in accordance with National Electrical Code (NFPA 70),

ANSI/ISA-RP12.06.01, and relevant local codes. 3. Power supply or control equipment connected to Associated Apparatus must not use or

generate more than Um of Associated Apparatus. 4. In case of Zone 0 / Division 1 installation, Associated Apparatus must be an

FM-approved linear source which meets the following conditions. Uo (Voc) ≤ Ui Io (Isc) ≤ Ii Po ≤ Pi Co (Ca) ≤ Ci + Cc (Ccable) Lo (La) ≤ Li + Lc (Lcable)

In case both Ci and Li are equal to or more than Co/100 and Lo/100 respectively, Co and Lo must be reduced to 50 % and (Ci + Cc) must not exceed 1 μF for Groups C, D and 600 nF for Groups A, B.

5. The control drawing of Associated Apparatus must be followed when installing the equipment.

6. In case Non-incendive Field Wiring Concept is used for Zone 2 / Division 2 installation, associated non-incendive field wiring apparatus which meets the following condition must be used.

Uo (Voc) ≤ Ui Co (Ca) ≤ Ci + Cc (Ccable) Lo (La) ≤ Li + Lc (Lcable)

7. Sensors may be simple apparatus, or intrinsically safe apparatus which meets the

following conditions. Ui (Vmax) ≥ Uo Ii (Imax) ≥ Io Pi ≥ Po Ci ≥ Co – Cc (Ccable) Li ≥ Lo – Lc (Lcable)

In case both Ci and Li are equal to or more than Co/100 and Lo/100 respectively, Co and Lo must be reduced to 50 % and (Ci + Cc) must not exceed 1 μF for Groups C, D and 600 nF for Groups A, B.


IM 04R01B01-01EN

E0205-4.ai


Rev. Doc. No.: IFM041-A20 P.4


8. Antenna and Arrester are simple apparatus. 8.1 The following conditions must be met.

(total Li of simple apparatus) + (total Lc (Lcable)) ≤ 15 μH (total Ci of simple apparatus) + (total Cc (Ccable)) ≤ 30 nF

8.2 The temperature class of Antenna and Arrester must be determined from Po = 206.9

mW at Antenna Connector. 8.3 Arrester is not necessarily connected. 9 Dust-tight conduit seal must be used when installed in Class II/III environments. 10 WARNING: POTENTIAL ELECTROSTATIC CHARGING HAZARD – SECURE

DISTANCE OF 100MM FROM ANTENNA FOR INTEGRAL ANTENNA MODEL

11 WARNING: THE BATTERY PACK MAY BE REPLACED IN A HAZARDOUS AREA. THE BATTERY PACK HAS SURFACE RESISTIVITY GREATER THAN 1GOHM AND MUST BE PROPERLY INSTALLED IN THE ENCLOSURE OF THE TEMPERATURE TRANSMITTER. CARE MUST BE TAKEN DURING TRANSPORTATION TO AND FROM THE POINT OF INSTALLATION TO PREVENT ELECTROSTATIC CHARGE BUILD-UP.

12 WARNING: USE ONLY BATTERY PACK YOKOGAWA F9915MA OR F9915NS

13 WARNING: DO NOT OPEN WHEN CL II, III, DIV 1, 2 ATMOSPHERE IS PRESENT

14 SUBSTITUTION OF COMPONENTS MAY IMPAIR INTRINSIC SAFETY AND

SUITABILITY FOR HARZARDOUS LOCATIONS


IM 04R01B01-01EN

WARNING

THEPOWERMODULEMAYBEREPLACEDINAHAZARDOUSAREA.THEPOWERMODULEHASSURFACERESISTIVITYGREATERTHAN1GOHMANDMUSTBEPROPERLYINSTALLEDINTHEENCLOSUREOFTHETEMPERATURETRANSMITTER. CARE MUST BE TAKEN DURINGTRANSPORTATIONTOANDFROMTHEPOINTOFINSTALLATIONTOPREVENTELECTROSTATICDISCHARGEBUILD-UP.

WARNING

・ Besuretousethespecifiedbatterypackandbatteries. For details, refer to section 8.4.3 “HandlingBatteries.”

・ With an intrinsically safe transmitter, the batterypackisreplaceableinahazardousarea.Duringthereplacementwork,makesurethatdustandwaterdropletsdonotenter inside the transmitter. For details on how to replace the battery pack, refer to section8.4.1“ReplacingtheBatteryPack.”


IM 04R01B01-01EN

2.6.2 CSACertificationCautionforCSAintrinsicallysafetype.

Note1. ModelYTMX580Multi-Inputtemperaturetransmitters with optional code /CS17 are applicableforuseinhazardouslocations.

Certificate:2495456• Applicable Standard:

CAN/CSA-C22.2 No. 0-10 (R2015) CAN/CSA-C22.2 No. 94-M91 (R2011) C22.2 No. 213-M1987 (R2013) CAN/CSA-C22.2 No. 60079-0:11 CAN/CSA-C22.2 No. 60079-11:14 CAN/CSA-C22.2 No. 60529-05 (R2015) CAN/CSA-C22.2 No. 61010-1-12

• IntrinsicallySafeforClassI,Division1,GroupsA,B,C&D,ClassII,Division1,GroupsE,F&G,ClassIII,Division1

• Non-incendiveforClassI,Division2, GroupsA,B,C&D,ClassII,Division2,GroupsF&G,ClassIII,Division1

• Enclosure:Type4X,IP66/IP67• TemperatureCode:T4• Ambient.Temperature:–50to70°C• Ex ia IIC T4

Note 2. Entity Parameters• IntrinsicallySafeApparatusParameters[GroupsA,B,C,D,E,FandG]

Uo=5.88V,Io=130.1mA, Po=191.2mW,Co=1μF, Lo=1mH

Note 3. Installation• InstallationshouldbeinaccordancewithCanadianElectricalCodePartIandLocalElectrical Code.

• Donotalterdrawingwithoutauthorizationfrom CSA.

• Theinstrumentmodificationorpartsreplacementbyotherthanauthorizedrepresentative of Yokogawa Electric Corporation of America is prohibited and will void Canadian Standards Intrinsically safe andnonincendiveCertification.

Battery Model

1234

1234

．．．

．．．

Hazardous Location

SensorMulti-Input Temperature Transmitter

Input Terminal 1

Input Terminal 8

．．．．．

1234

1234

．．．

E0206-1.ai

．．．

Hazardous Location


Input Terminal 1

Input Terminal 8．．．．．

(a) Battery Model (Integral Antenna)

(b) Battery Model (Remote Antenna)

Arrester* Antenna*

Antenna Connector

* Simple Apparatus


IM 04R01B01-01EN

External Power Supply Model

(c) External Power Supply Model (Integral Antena)

E0206-2.ai

Multi-Input TemperatureTransmitter

Sensor

1234

+–

Power SupplyInput Terminal

Non-Hazardous Location Hazardous Location

1234


．．．

．．．

Input Terminal 1

Input Terminal 8

PowerSupply

Supply +Supply –

(d) External Power Supply Model (Remote Antenna)

1234

1234

．．．

．．．

Arrester * Antenna *

Antenna connector

PowerSupply



Supply +Supply –


Input Terminal 1

Input Terminal 8

SensorMulti-Input TemperatureTransmitter

+–

* Simple Apparatus

Note 4. Battery Pack Use only YOKOGAWA battery pack

F9915MA, F9915NS.

WARNING



2.6.3 ATEXCertification

(1) Technical Data

CautionforATEXIntrinsicallysafetype.

Note1. ModelYTMX580Multi-Inputtemperaturetransmitters with optional code /KS27 for potentially explosive atmospheres:

• No.DEKRA12ATEX0068X• Applicable Standard:

EN60079-0:2009, EN60079-0:2012+A11:2013, EN60079-11:2007, EN60079-11:2012, EN60079-26:2007

• Type of Protection and Marking code: Ex ia IIC T4 Ga

• Group:II• Category: 1 G• AmbientTemperature:–50°Cto70°C• Enclosure:IP66/IP67

Note2. OutputParameters• Sensorinputcircuit(InputTerminal1-1toInputTerminal8-4)

Uo=5.88V Io = 130.1 mA Po = 191.2 mW Co=1μF Lo=1mH


IM 04R01B01-01EN

Note 3. Installation• Installationshouldbeinaccordancewithlocalinstallationrequirements.(Refertothecontrol drawing.)

Battery Model

1234

1234

．．．

．．．

Hazardous Location


Input Terminal 1

Input Terminal 8

．．．．．

1234

1234

．．．

E0207-1.ai

．．．

Hazardous Location


Input Terminal 1

Input Terminal 8

．．．．．



Arrester* Antenna*

Antenna Connector

* Simple Apparatus



E0207-2.ai


Sensor

1234

+–



1234


．．．

．．．

Input Terminal 1

Input Terminal 8

PowerSupply

Supply +Supply –


1234

1234

．．．

．．．


Antenna connector

PowerSupply



Supply +Supply –


Input Terminal 1

Input Terminal 8


+–

* Simple Apparatus

Note 4. Battery Pack• Use only YOKOGAWA battery pack

F9915MA, F9915NS.

WARNING




IM 04R01B01-01EN

Note 5. Special conditions for Safe Use• InthecasewheretheenclosureoftheMulti-InputTemperatureTransmitterismadeofaluminium,ifitismountedinanareawheretheuseofcategory1Gapparatusisrequired,itmustbeinstalledsuch,that,even in the event of rare incidents, ignition sourcesduetoimpactandfrictionsparksareexcluded.


WARNING

Potentialelectrostaticcharginghazard-securedistance of 100mm from antenna.

(2) Operation

WARNING

Take care not to generate mechanical sparking whenaccesstotheinstrumentandperipheraldevicesinahazardouslocation.

(3) Maintenance and repair

WARNING

TheinstrumentmodificationorpartsreplacementbyotherthananauthorizedRepresentativeofYokogawa Electric Corporation is prohibited and willvoidthecertification.

(4) Name Plate

• Name Plate for intrinsically safe type

E0208.ai

Figure 2.4 Name plate for ATEX intrinsically safe explosion-proof transmitter (Battery Mode)

E0209.ai

Figure 2.5 Name plate for ATEX intrinsically safe explosion-proof transmitter (External Power Supply Model)

MODEL:Specifiedmodelcode. SUFFIX:Specifiedsuffixcode. STYLE:Stylecode. SUPPLY:Supplyvoltage. NO.:Serialnumber. DATEOFMANUFACTURE:Dateofmanufacture.

TOKYO180-8750JAPAN:Themanufacturername and the address *1.

*1: “180-8750”isazipcodewhichrepresentsthefollowingaddress.2-9-32Nakacho,Musashino-shi,TokyoJapan


IM 04R01B01-01EN

2.6.4 IECExCertificationCautionforIECExIntrinsicallysafetype.

Note1. ModelYTMX580Multi-Inputtemperaturetransmitters with optional code /SS27 for potentially explosive atmospheres:

• No.IECExDEK12.0013X• Applicable Standard:

IEC 60079-0: 2011, IEC 60079-11: 2011, IEC 60079-26: 2006

• Type of Protection and Marking code: Ex ia IIC T4 Ga

• AmbientTemperature:–50°Cto70°C• Enclosure:IP66/IP67

Note2. OutputParameters• Sensorinputcircuit(InputTerminal1-1toInputTerminal8-4)

Uo=5.88V Io = 130.1 mA Po = 191.2 mW Co=1μF Lo=1mH

Note 3. Installation• Installationshouldbeinaccordancewithlocalinstallationrequirements. (Refer to the control drawing.)

Battery Model

1234

1234

．．．

．．．

Hazardous Location


Input Terminal 1

Input Terminal 8

．．．．．

1234

1234

．．．

E0210-1.ai

．．．

Hazardous Location


Input Terminal 1

Input Terminal 8

．．．．．



Arrester* Antenna*

Antenna Connector

* Simple Apparatus



E0210-2.ai


Sensor

1234

+–



1234


．．．

．．．

Input Terminal 1

Input Terminal 8

PowerSupply

Supply +Supply –


1234

1234

．．．

．．．


Antenna connector

PowerSupply



Supply +Supply –


Input Terminal 1

Input Terminal 8


+–

* Simple Apparatus

Note 4. Maintenance and Repair

WARNING

TheinstrumentmodificationorpartsreplacementbyotherthananauthorizedRepresentativeofYokogawa Electric Corporation is prohibited and willvoidIECExIntrinsicallysafeCertification.


IM 04R01B01-01EN

Note 5. Battery Pack• Use only YOKOGAWA battery pack

F9915MA, F9915NS.

WARNING



Note 6. Special conditions for Safe Use• BecausetheenclosureoftheMulti-InputTemperatureTransmitterismadeofaluminium,ifitismountedinanareawheretheuseofapparatusofequipmentprotectionlevelGaisrequired,itmustbeinstalledsuch,that, even in the event of rare incidents, ignitionsourcesduetoimpactandfrictionsparksareexcluded.


WARNING

• Potential electrostatic charging hazard - securedistanceof100mmfromantenna.

• Take care not to generate mechanical sparkingwhenaccesstotheinstrumentandperipheraldevicesinahazardouslocation.

Name Plate for intrinsically safe type

E0211.ai

Figure 2.6 Name plate for IECx intrinsically safe explosion-proof transmitter (Battery Mode)

E0212.ai

Figure 2.7 Name plate for IECx intrinsically safe explosion-proof transmitter (External Power Supply Model)

MODEL:Specifiedmodelcode. SUFFIX:Specifiedsuffixcode. STYLE:Stylecode. SUPPLY:Supplyvoltage. NO.:Serialnumber. DATEOFMANUFACTURE:Dateofmanufacture.

TOKYO180-8750JAPAN:Themanufacturername and the address *1.

*1: “180-8750”isazipcodewhichrepresentsthefollowingaddress.2-9-32Nakacho,Musashino-shi,TokyoJapan


IM 04R01B01-01EN

2.6.5 TIIS intrinsically safe approval

CAUTIONTIIS intrinsically safe explosion-proof transmitters are those that have passed the type examination based on the recommended practices for explosion-protected electrical installationsingeneralindustries(technicalguidelinesthatconformtointernationalstandards;2008)andaredesignedtobeusedinexplosivegasordangerousatmosphereinwhichsteam is generated. (They can be installed in Zone 0, Zone 1, and Zone 2.)Intrinsically safe explosion-protected apparatusesrequirespecialcareintheirinstallation,wiring,piping,andtheliketosecuresafety. Moreover, restrictions are placed on maintenance and repairing for safety reasons.

Note: Hazardousareasareclassifiedinzonesbaseduponthefrequencyoftheappearanceandthedurationofanexplosive gas atmosphere as follows:

Zone 0: An area in which an explosive gas atmosphere is present continuouslyorispresentforlongperiods.

Zone 1: An area in which an explosive gas atmosphereislikelytooccurinnormal operation.

Zone 2: An area in which an explosive gas atmosphereisnotlikelytooccurin normal operation and if it does occuritwillexistforashortperiodonly.

Intrinsically safe explosion-proof transmitters can beinstalledandusedinahazardousareainthefollowing manner.

Battery Model

Input Terminal 1

1234

1234

E0213-1.ai

Input Terminal 8

Sensor input circuit

Hazardous Location


•••••

•••

•••

(a) Battery Model (Integral antenna)

Input Terminal 1

1234

1234

．．．

(b) Battery Model (Remote antenna)

Input Terminal 8

．．．

．．．．．

Antenna circuit

Arrester

Antenna extensioncable (Note 1)

Branch connector (Note 1)(Note 1)

Antenna connector

Note 1: Arrester, antenna extension cable, and branch connector are not connected in some cases. In such a case, the corresponding section is connected directly to the antenna input terminal.Note 2: In some cases, antenna 1 to antenna 5 are not connected .

Multi-Input Temperature Transmitter Sensor


Hazardous Location

Ant

enna

1

Ant

enna

2

Ant

enna

3

Ant

enna

4

Ant

enna

5

(Note 2)


IM 04R01B01-01EN


E0213-2.ai



Sensor

1234

+–



1234


．．．

．．．

Input Terminal 1

Input Terminal 8

PowerSupply

Supply +Supply –


1234

1234

．．．

．．．

Antenna connector

PowerSupply



Supply +Supply –


Input Terminal 1

Input Terminal 8


+–

* Simple Apparatus

Arrester Branch connector (Note 1)

Ant

enna

1

Ant

enna

2

Ant

enna

3

Ant

enna

4

Ant

enna

5



Power supply circuit

Power supply circuit

(Note 1)

(Note 2)Antenna circuitAntenna extensioncable (Note 1)

Note 1: Arrester, antenna extension cable, and branch connector are not connected in some cases. In such a case, the corresponding section is connected directly to the antenna input terminal.Note 2: In some cases, antenna 1 to antenna 5 are not connected .

Figure 2.8 Use example for TIIS intrinsically safe explosion-proof transmitter

CAUTIONTheremoteantennamodelissetupinitsmaximumconfigurationforexaminingseveralantennasinabundle.Duringactualuse,usetheconfigurationsshowninchapter4,“Installation,”andchapter5,“Wiring.”Inaddition,thebranchconnectorisusedonlytoconstructthemaximumconfiguration;itisnotsold.

CAUTIONMakesurethatcurrentandvoltagethatcanunderminethecircuit’sintrinsicallysafefeaturesarenotinducedinintrinsicallysafeapparatuses,associatedapparatuses,andthewiresthatconnecttheseapparatusesasaresultofelectromagneticinductionorelectrostaticinduction.

• Sensor connection Thesensorsthatareconnectedtothemulti-inputtemperaturetransmittersmustmeetthefollowing conditions.(1) Intrinsically safe rating Allowablevoltageinintrinsicallysafecircuit:5.88Vormore

Allowablecurrentinintrinsicallysafecircuit:130.1mA or more

Allowablepowerinintrinsicallysafecircuit:191.3mW or more

(2) Protectionlevelandgroup Protection level : ia, ib Group:IIA,IIB,IIC(3) Internalinductanceandinternalcapacitancevs.inductance(Lc)andcapacitance (Cc) of wiring external to the intrinsicallysafecircuit

Internalinductance:lessthan(1mH-Lc)orless

Internalcapacitance:lessthan(1μF-Cc)orless

• Besuretousethespecifiedbatterypack(withRev.1 indication) and batteries. For details, refer tosection8.4.3,“HandlingBatteries.”

• The battery pack in an intrinsically safe explosion-proof transmitter can be replaced in ahazardousarea.Whilereplacingthebatterypack,makesurethatdustandwaterdropletsdo not enter inside the transmitter. For details on how to replace the battery pack, refer to section8.4.1“ReplacingtheBatteryPack.”

• Enclosure Intheexamination,IP20enclosure,whichis

the lowest intrinsically safe explosion-proof requirement,hasbeenverified,butboththeintegrated antenna model and remote antenna modelcanbeusedinanenvironmentthatrequiresIP66/IP67.


IM 04R01B01-01EN

• Antennacircuitconnection Theantennasthatareconnectedtothemulti-inputtemperaturetransmittersmustmeetthefollowing conditions.(1) Intrinsically safe rating Intrinsicallysafecircuit’sallowablevoltage5.88V

Intrinsicallysafecircuit’sallowablecurrent177.4mA

Intrinsicallysafecircuit’sallowablepower349.5mW

(2) Capacitanceandinductanceoftheantennaextension cable

Capacitance less than 30nF Inductance lessthan15µHmA

• Externalpowersupplyconnection Whenusingthetransmitterwithexternalpowersupplyspecifications,besuretouseabarrierthat meets the following conditions.(1) Intrinsically safe rating Intrinsicallysafecircuit’smaximumvoltage28V

Intrinsicallysafecircuit’smaximumcurrent135 mA

Intrinsicallysafecircuit’smaximumpower850 mW

(2) Protectionlevelandgroup Protection level ia Group IIC(3) Intrinsicallysafecircuit’sallowableinductance(Lo)andintrinsicallysafecircuit’sallowablecapacitance(Co)vs.inductance(Lc)andcapacitance(Cc)ofwiringexternaltotheintrinsicallysafecircuit

Lo≥(Lc+0.24mH)×2 Co≥(Cc+0.013μF)×2

• For the intrinsically safe explosion proof specifications,refertosection10.1,“GeneralSpecification”.

WARNING

WhenreplacingtheBatteryPack,besuretominimize the risk of explosion from electrostatic discharge. To prevent electrostatic discharge causedbystaticchargebuiltupontheoperator,groundtheoperatorthroughconductiveshoesandfloorsandbywearinganti-staticworkclothestopreventchargebuild-up.Avoidanyactionsthatcausethegenerationofelectrostaticcharge,suchasrubbingwithadryclothonfaceoftheBatteryPackandproduct.Ifstaticelectricitycannotbesuppressed,checkthatthesurroundingatmospheredoesnotcontain explosive gas or steam before replacing the Battery Pack.

E0214.ai

Figure 2.9 Name plate for TIIS intrinsically safe explosion-proof transmitter (For Battery Model (Integral antenna))

E0215.ai

DATE OF MANUFACTURE

NO.

SUPPLY

SUFFIX

STYLE MODEL

Wmax.a VDC F

YTMX580 CMIIT ID : 2013DJ5139

Contains FCC ID : SGJ-WFC001Contains IC : 8999A-WIC001

Made in Japan

TOKYO 180-8750 JAPAN

KCC-REM-YHQ-WEN007

USC172608

-AB/

JS37

本質安全防爆形　Ex ia IIC T4 X 周囲温度　Ta -20～ +60電源　　　　　　　　バッテリーパック (F9915MA) またはバッテリーケース (F9915NS)　DC7.2Vセンサ入力回路 Uo=5.88V、 Io=130.1mA、 Po=191.3mW、 Co=1μF、 Lo=1mHアンテナ回路 Uo=5.88V、 Io=177.4mA、 Po=349.5mW

a センサ入力端子への直流電圧・直流電流入力は防爆の適用外a 警告 - 静電気帯電の危険あり - 取扱説明書 (IM 04R01B01) 参照a 警告 - 爆発のおそれのある雰囲気中でバッテリーパック内の電池交換禁止

This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operationThis Class A digital apparatus complies with Canadian ICES-003.Cet appareil numérique de la classe A est conforme à la norme NMB-003 du Canada.

Figure 2.10 Name plate for TIIS intrinsically safe explosion-proof transmitter (For Battery Model (Remote antenna))

E0216.ai

Figure 2.11 Name plate for TIIS intrinsically safe explosion-proof transmitter (For External Power Supply Model (Integral antenna))


IM 04R01B01-01EN

E0217.ai

Figure 2.12 Name plate for TIIS intrinsically safe explosion-proof transmitter (For External Power Supply Model (Remote antenna))

2.7 EMC Conformity StandardsEN61326-1ClassA,Table2(Foruseinindustriallocations),EN61326-2-3* Duringthetest,thetransmittercontinuesto

operateundertheelectromagneticeffectsofwithin±1%ofthespan.

EN 301 489-1, EN 301 489-17

CAUTIONThistransmitterisaClassAproduct,anditisdesignedforuseintheindustrialenvironment.Pleaseusethistransmitterintheindustrialenvironment only.

2.8 Safety StandardStandard: EN 61010-1, EN 61010-2-030CSA C22.2 No.61010-1,CSA C22.2 No.61010-2-030-12,UL61010-1,UL61010-2-030(CSANRTL/C)Indoor/Outdooruse

(1) Pollution Degree 2

"Pollutiondegree"describesthedegreetowhichasolid,liquid,orgaswhichdeterioratesdielectricstrengthorsurfaceresistivityisadhering. " 2 " applies to normal indoor atmosphere.Normally,onlynon-conductivepollutionoccurs.Occasionally,however,temporaryconductivitycausedbycondensationmustbeexpected.

(2) Installation Category I

"Overvoltage category (Installation category)" describesanumberwhichdefinesatransientovervoltagecondition.Itimpliestheregulationforimpulsewithstandvoltage."I"appliestoelectricalequipmentwhichissuppliedfromthecircuitwhenappropriatetransientovervoltagecontrol means (interfaces) are provided.

WARNING

Thisinstrumentisdesignedtomeasurecircuitsthat are not directly connected to the mains. DonotuseitformeasurementsthatfallunderMeasurementCategoryII,III,orIV.

Internal Wiring

Outlet

Entrance IVCable

III TO

II

Measurementcategory

Description Remarks

O Othercircuitsthatarenot directly connected to MAINS.

CAT.II Formeasurementsperformedoncircuitsdirectly connected to the low-voltage installation.

Appliances, portable equipments,etc.

CAT.III Formeasurementsperformed in the buildinginstallation.

Distributionboard, circuitbreaker, etc.

CAT.IV Formeasurementsperformed at the sourceofthelow-voltage installation.

Overhead wire, cable systems, etc.


IM 04R01B01-01EN

2.9 Regulatory Compliance for Radio and Telecommunication

WARNING

Besuretousetheremoteantennasandcablespecifiedbylocalradioandtelecommunicationlaw.Pleaseconfirmthataninstallationregionfulfillsastandards,requireadditionalregulatoryinformation and approvals, contact to Yokogawa Electric Corporation.

2.10 Radio Equipment Directive (RE)

We, Yokogawa Electric Corporation hereby declare thatthisequipment,modelYTMX580Multi-InputtemperaturetransmittersisincompliancewiththeessentialrequirementsandotherrelevantprovisionsofDirective1999/5/EC.

The CE declaration of conformity for RE for this productcanbefoundat<http://www.field-wireless.com/>

2.11 FCC complianceYTMX580containstransmittermoduleFCCID:SGJ-WFC001.

Co-located:

Thistransmittermustnotbeco-locatedoroperatedinconjunctionwithanyotherantennaor transmitter.

FCC CAUTIONChangesormodificationsnotexpresslyapprovedbythepartyresponsibleforcompliancecouldvoidtheuser’sauthoritytooperatetheequipment.

Note:Thisequipmenthasbeentestedandfoundto comply with the limits for a Class A digital device, pursuanttopart15oftheFCCRules.Theselimitsare designed to provide reasonable protection againstharmfulinterferencewhentheequipmentis operated in a commercial environment. This equipmentgenerates,uses,andcanradiateradiofrequencyenergyand,ifnotinstalledandusedinaccordancewiththeinstructionmanual,maycauseharmfulinterferencetoradiocommunications.Operationofthisequipmentinaresidentialareaislikelytocauseharmfulinterferenceinwhichcasetheuserwillberequiredtocorrecttheinterferenceat his own expense.

2.12 Industry Canada (IC) compliance

YTMX580containstransmittermodeuleIC:8999A-WIC001.

ThisClassAdigitalapparatuscomplieswithCanadian ICES-003.

ThisdevicecomplieswithIndustryCanadalicence-exemptRSSstandard(s).Operationissubjecttothe following two conditions: (1) this device may not causeinterference,and(2)thisdevicemustacceptanyinterference,includinginterferencethatmaycauseundesiredoperationofthedevice.

UnderIndustryCanadaregulations,thisradiotransmittermayonlyoperateusinganantennaofatypeandmaximum(orlesser)gainapprovedforthetransmitterbyIndustryCanada.Toreducepotentialradiointerferencetootherusers,theantennatypeanditsgainshouldbesochosenthattheequivalentisotropically radiated power (e.i.r.p.) is not more thanthatnecessaryforsuccessfulcommunication.


IM 04R01B01-01EN

ThisradiotransmitterICNumber8999A-WIC001hasbeenapprovedbyIndustryCanadatooperatewith the antenna types listed below with the maximumpermissiblegainandrequiredantennaimpedance for each antenna type indicated. Antennatypesnotincludedinthislist,havingagaingreaterthanthemaximumgainindicatedforthattype,arestrictlyprohibitedforusewiththisdevice.Antenna type: Gain:COLLINEAR 9dBi,50ΩSleeve 2.14dBi,50Ω

French:CetappareilnumériquedelaclasseAestconformeàlanormeNMB-003duCanada.

LeprésentappareilestconformeauxCNRd’IndustrieCanadaapplicablesauxappareilsradioexemptsdelicence.L’exploitationestautoriséeauxdeuxconditionssuivantes:(1)l’appareilnedoitpasproduiredebrouillage,et(2)l’utilisateurdel’appareildoitacceptertoutbrouillageradioélectriquesubi,mêmesilebrouillageestsusceptibled’encompromettrelefonctionnement.

Conformémentàlaréglementationd’IndustrieCanada,leprésentémetteurradiopeutfonctionneravecuneantenned’untypeetd’ungainmaximal(ouinférieur)approuvépourl’émetteurparIndustrieCanada.Danslebutderéduirelesrisquesdebrouillageradioélectriqueàl’intentiondesautresutilisateurs,ilfautchoisirletyped’antenneetsongaindesortequelapuissanceisotroperayonnéeéquivalente(p.i.r.e.)nedépassepasl’intensiténécessaireàl’établissementd’unecommunicationsatisfaisante.

LeprésentémetteurradioICNumber8999A-WIC001aétéapprouvéparIndustrieCanadapourfonctionneraveclestypesd’antenneénumérésci-dessousetayantungainadmissiblemaximaletl’impédancerequisepourchaquetyped’antenne.Lestypesd’antennenoninclusdanscetteliste,oudontlegainestsupérieuraugainmaximalindiqué,sontstrictementinterditspourl’exploitationdel’émetteur.Antenne type: Gain:COLLINEAR 9dBi,50ΩSleeve 2.14dBi,50Ω

2.13 EMC and Radiocommunications regulatory arrangement in Australia and New Zealand (RCM)

AS/NZS 4268AS/NZS 2772.2EN61326-1ClassA,Table2(Foruseinindustriallocation)

CAUTIONThistransmitterisaClassAproduct,anditisdesignedforuseintheindustrialenvironment.Pleaseusethistransmitterintheindustrialenvironment only.

2.14 RegardingtheSpecificationsattheTimeofOrder

Sensor type

CAUTIONTheavailabletypesofsensorsofthisproductthat comply with explosion-proof standards arethermocouple,RTD,andresistor.Thus,ifyouselecttheexplosionproofsuffixcode,youcannotselectDCvoltage(mV,V)forthesensortype.IfyouneedtochangeittoDCvoltageinyourenvironment,makesureyourenvironmentdoesnotrequireexplosionprotection.


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2.15 ConfigurationToolsforTransmitter

Table8.1showsYokogawa’srecommendeddevicesandconfigurationtoolsrequiredforconfiguringthesettingsofthetransmitter.Configurethesettingsforthetransmitterusingthethesetoolsviainfraredorwirelesscommunication.The following describes the overview of the main configurationtools.Forrelationbetweeneachfunctionblockandsettingtool,refertotable2.1.Fordetailsoneachofthetools,includingtheoperatingprocedures,refertotherespectiveinstructionmanual.

WirelessFieldDeviceConfigurationTool(Wireless and Infrared Communication)• Deviceadjustmentandconfigurationsoftware

FieldMate:Forconfiguringtheinputsettingsforthetransmitter and the device settings and performing a self-diagnosis and other checks

FieldWirelessSystemConfigurationTools(Wireless Communication)• FieldWirelessConfigurator:Forconfiguringthenetwork(communication)settings and registering the transmitter with the gateway

• Field Wireless Management Tool:Formaintenance,includingthetransmittermanagement and program downloading

UAPMO

TRANSDUCER

AI1 ～ AI8

UDO

CO

• Configuration• Diagnostics/Alerts• Power Status• Identification

• Block Info• Configuration

• Block Info• Block Mode• ynamic Variables• onfiguration• thers

• PP Download

• Configuration• Others

FieldMate/DTM

Field Wireless Management Tool

Field Wireless Configurator

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Table 2.1 Relation between functional block and setting tool

<3. Component Names> 3-1

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3. Part Names and Functions

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Battery pack

Write protection switch

Antenna

Yes (Note2)

(Write disenabled)No

(Write enabled)

Hardware write protection switch (Write Protect)

Write Protection

Write ProtectionSwitch Position(Note1)

* The figure shows the integral antenna

Electrical connection Connection terminal

Infrared portStatus display LED

Write Protect

OFF ON

(Reserved)

OFF ON

Write Protect

(Reserved) L

OFF ON

Write Protect

(Reserved)

Four bolts to fix the front door( M5 Hexagon socket head cap bolts )

Note1: Settheswitch(WriteProtct)asshowninthefigureabovetosetthewriteprotection.Thehardwarewriteprotectionswitchissetto OFFside(writable).Fordetailsofwriteprotectionsettings,refertosubsection7.3.9“WriteProtect”.

Note2: WhentheswitchisONside(writeprotectionsetting),provisioningisacceptable.Fordetailsofprovisioning,refertosection6.4“ConnectingtotheFieldWirelessNetwork“

Figure 3.1 Component Names

Table 3.1 Display Description of Status Display LED

Display Status

RDY(green)On AtStartup,SquawkBlinking Duringoperation(measurementperiod),waitingtojointhenetwork(at1Hz),Off PowerOff,inDeepSleepmode,LEDModesettoOff

ALM(red)On Alarmgenerated,SquawkOff PowerOff,inDeepSleepmode,LEDModesettoOff.

Squawk:TheRDYandALMLED’softhetransmitter(YTMX580)thatrespondstotheSquawkcommand(TRANSDUCERblockSpecialcmd)lightfortenseconds.Thiscanbeusedforsuchthingsasidentifyingthetransmitter.

<4. Installation> 4-1

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4. Installation4.1 Precautions • Before installing the transmitter and remote

ntenna,readthecautionarynotesinsection2.4,“ChoosingtheInstallationLocation.”

• For additional information on the ambient conditions allowed at the installation location, refertochapter10“GeneralSpecifications.”

NOTETo connect this transmitter to the Field Wireless Network,informationforconnectingtothefieldwireless devices needs to be set beforehand. Refertosection6.4“ConnectingtotheFieldWirelessNetwork.”

IMPORTANT• Whenperformingon-sitepipefittingwork

thatinvolveswelding,usecaretopreventoutflowoftheweldingcurrentintothetransmitter.

• Donotusethetransmitterasafootholdforinstallation.

4.2 Procedure for Mounting Transmitter

• UsethemountingbracketshowninFigure4.1to install the transmitter on a 50A (2-inch) pipe orwall.Thepipemountingbracketcanbeusedfor both a horizontal pipe and a vertical pipe.

• Toinstallthemountingbracketonthetransmitter,torquethetransmitterfasteningeachboltsabout5to6N·m.


IM 04R01B01-01EN

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Vertical Pipe Mounting Horizontal Pipe Mounting

Washer

Wall Mounting

2-inch pipemounting bracket

2-inch PipeMounting Bracket




Wall mountingbracket Wall Mounting

Washer

Washer

Note: You need to provide bolts for fastening the wall mounting bracket on the wall. Recommended 5mm bolt. (When inch bolt, #10 or #12.)

Figure 4.1 Transmitter Mounting


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4.3 Mouting Procedure of Remote Antenna

Mounting Remote Antenna to Main Body

• Screw the remote antenna into the connector on the top of the body. Tighten the antenna connectorwithatorqueof2to3N·m.

• Confirmandwaterprooftheconnection.Fordetailsofwaterproofing,seesection5.5“WiringandWaterproofingofRemoteAntenna”

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Antenna connector

Remote antenna

Fixing of Remote Antenna

• Fix the antenna extension cable to the bracket withtheprovidednutasshowninthefigure4.2.

• Fixtothe2-inch(2B)pipebyusingtheUboltsand bracket.

• Screw the antenna into the antenna connector of the antenna extension cable on the bracket.

Tightentheantennaconnectorwithatorqueof2to3N·m.

• Waterproof the connection. For details of waterproofing,seesection5.5“WiringandWaterproofingofRemoteAntenna”

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Washer

Bracket

Antenna

Nut

2-inch pipe

U Bolt

WasherNut

AntennaExtension Cable

Figure4.2 Exampleoffixingofremoteantenna

<5. Wiring> 5-1

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5. Wiring5.1 Notes on Wiring

IMPORTANT• Applyawaterproofingsealanttothethreads

of the connection port. (It is recommended thatyouusenon-hardeningsealantmadeofsiliconresinforwaterproofing.)

• CoverunusedconnectionportswithYTMXBP(blindplugforwireconnectionport).

• Laywiringasfarawayaspossiblefromelectricalnoisesourcessuchaslargetransformers,motorsandpowersupplies.

• Beforewiring,removetheblindplugsandinsert the cables into the main body and connect them to the appropriate terminals.

• Whenyouopenthedoor,paygreatattentionto the environmental conditions in order to preventdustandwaterdropletsenteringinside the transmitter.

• Torunwiringtothesensor,paysufficientattention to the wiring parameters described insection2.6“InstallationofanExplosion-ProtectedInstrument.”

• To prevent electrical noise, the signal cable andthepowercablemustnotbehousedinthesameconduit.

• Thefrontdoorcanbeopenedbyturningthefourfrontdoorboltsseventimescounterclockwise.Pleasenotethattheboltsareheldbythefrictionforceoftherubberbutmayfalloutifturnedmorethannecessary.

• Thisinstrumentisdesignedtomeasurecircuitsthatarenotdirectlyconnectedtothemains.

DonotuseitformeasurementsthatfallunderMeasurementCategoryII,III,orIV.

5.2 Cable SelectionWhen wiring in an area where the ambient temperatureishighorlow,usewiresorcablesthatareappropriateforsuchanarea.

Input Wiring

Adedicatedcableisusedforconnectionbetweenthetemperaturesensorandthetemperaturetransmitter.

Whenathermocoupleisusedasthetemperaturesensor, a compensation wire that is appropriate for thetypeofthermocouple(refertocompensatingcablesforIEC584-3thermocouples)mustbeused.Whenaresistancetemperaturesensor(RTD)isusedasthetemperaturesensor,2-core/3-core/4-corecablemustbeused(refertoresistancethermometer sensor IEC 60751). In a place where thecablewillbesusceptibletotheeffectofnoise,ashieldedcablemustbeused.

The terminal of the dedicated cable is a 4 mm screw.

Externel Power Wiring

Requiredcables(industrialequipmentinsulationcables)

Examples:• 600Vpolyvinylchlorideinsulatedwires(IV):JIS

C3307 Operationaltemperaturehighlimit:60°C• Polyvinylchlorideinsulatedwiresforelectrical

apparatus(KIV):JISC3316 Operationaltemperaturehighlimit:60°C• 600Vgradeheat-resistantpolyvinylchloride

insulatedwires(HIV):JISC3317 Operationaltemperaturehighlimit:60°C• HeatproofvinylinsulatedwiresVW-1(UL1015/

UL1007) Operationaltemperaturehighlimit:105°CWire Size• Core: AWG14 to 13 (2 to 2.6 mm2)Terminal Treatment• Ringterminalfor4mm:Withinsulationcovers

<5. Wiring> 5-2

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5.3 Cable and Terminal Connections

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Figure 5.1 Input Terminal Connection

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Figure 5.2 Input Terminal Connection Label (For Battery Model)

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Figure 5.3 Input Terminal Connection Label (For External Power Supply Model)

Input Wiring

ConnectthetemperaturesensorandotherinputcablesasshowninFigure5.4.Thesensorinputterminallayoutdiffersbetweeninput1andinputs2to8asshowninFigure5.5.Becarefultoavoidawiring error.

CAUTIONExplosionproofingnotapplicableduringDCvoltages,DCmiliamperesinput.

(B)(A)

(+)(–)

(b)(B)

(A)(A)

(b)(B)

(a)

50Ω(+)

(–)

(+)

(–)

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Thermocoupleand DC voltage

RTD and resistance (2-wire)



Current (4-20mA)

PowerSupply

4-20mADevice

Figure 5.4 Input Terminal Wire Connection Diagram

42

3 1 1 3 42

Input Terminal1 Input Terminals 2 to 8

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Figure 5.5 Input Terminal Layout

External Power Supply Wiring

Connect the texternal power cables as shown in Figure5.6.

External Power Supply24V DC

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Figure 5.6 External Power Supply Terminal Wire Connection Diagram

<5. Wiring> 5-3

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WARNING• Externalpowersupplytransmittermodels

do not have a power switch. Provide a powerswitchonthepowersupplylinetoseparate the transmitter from the main powersupply.UselabelstoindicatethatthisswitchisforcuttingoffthepowersupplytothetransmitterandtoindicateON and OFF.

Switchspecifications Steady-statecurrentrating:100mAor

more Inrushcurrentrating:500mAormore IEC 60947-1,3 compliant• Connectafuse(between630mAand1A)

tothepowersupplyline.

5.4 Wiring CautionsUsemetalconduitwiringorawaterproofgland(metalwiringconduitJISF8801)forcablewiring.

• Apply non-hardening sealant to the threads of thewiringtapandaflexiblefittingforsecurewaterproofing.

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Flexible fitting

Temperaturesensorsignal

Wiringconduit

Tee

Drain plug

Apply a nonhardeningsealamt to the threads forwaterproofing

Figure 5.7 Example of Wiring Using a Wiring Conduit

5.5 WiringandWaterproofingofRemote Antenna

• Use the provided extension antenna cable to connect the antenna connector with the remote antenna. Tighten the connector of the antenna extensioncablewithatorqueof2to3N-m.Fortheallowablebendingradiuswhenwiringtheantennaandforthefixedantenna,refertoChapter10“GeneralSpecifications”.

• Whenusingtwoextensioncables,theprovidedarrestershouldbeinsertedbetweenthesecables.

• Beforethewiringwork,confirmthepolarities(male/female) of the connectors of antenna, extension antenna cable, and arrester.

Remote Antenna

Housing of YTMX

Extention cable 1Length: 3 m or 1 m

Waterproofing theconnection

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Housing of YTMX

Extension cable 2Length: 10 m or 3 m

Extension cable 1Length: 3 m or 1 m

Remote Antenna

Arrester

Ground Wiring

Waterproofing theconnection

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Figure 5.8 Example of Wiring Using a Wiring Conduit for Remote antenna

<5. Wiring> 5-4

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Mounting of Arrester and Wiring

• Mountanarresterbetweentheextensioncablesandconnectthegroundingcabletothegrounding

• Connectthegroundingcabletothegroundingterminal on the main body.

Makesuretoearthgroundtheprotectivegroundterminalthroughminimumresistance.

Donotsharethegroundwithotherdevices.

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Antenna

YTMX580

Extension cable 2

Grounding wiring

Arrester

Extension cable 1

Figure 5.9 Connection of the arrester and antenna extension cables

WaterproofingofRemoteAntennaconnector

Confirmtheconnectionoftheremoteantenna,extension antenna cable, arrester, and the groundingcablefromarrester,andthenwaterproof the connection.

1) Clean the connection to be waterproofed.2) Windthebutylrubberself-bondingtapearound

theconnection.Seethemanualofthetapeaboutthewinding.

3) Toprotectthebutylrubberself-bondingtapefromtheenvironmentsuchasultravioletraysand so on, wind vinyl tape (or a vinyl type self-bonding tape) on it.

Antenna

Grounding wiring

YTMX580E0511.ai

YTMX580

Figure5.10 Waterproofingofremoteantennaconnector

5.6 GroundingAlwaysgroundthetransmittercaseinaccordancewith national and local electrical codes. The most effectivetransmittercasegroundingmethodisadirectconnectiontoearthgroundwithminimalimpedance.

Groundingterminalsarelocatedinsideandoutsideof the terminal block respectively. Any of them may beused.

IMPORTANTPropergroundingisnecessarytomaintainthefunctionandperformanceofthisproduct.Whenthe groundingisinadequate,theequipmentmaybe damaged. Refer to TI 01W01A58-01EN for detailsofgroundingmethodandprecautions.

• UseagroundingcableofAWG14(2mm2) or morebetweenthegroundingelectrodeandthegrounding terminalofthisproduct,andconnectwiththeshortestroute.

• UseagroundingcableofAWG11(4mm2) ormoreandringtongueterminalforM4terminal between thegroundingterminalofthearresterandgroundingelectrode,andconnectwiththeshortestroutevia external groundingterminalofthisproduct.

• Selectthegroundingcablethathasastructureofadequatelyprotectsagainstmechanical damage, chemical or electrical degradation, electrodynamic force and thermodynamic force for connection of the groundingelectrodeandthegroundterminalofthisproductorarrester.

<5. Wiring> 5-5

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E0512.aiGrounding terminal

Figure 5.11 Grounding Terminal inside the Terminal Cover

E0513.aiGrounding terminal

Figure 5.12 Grounding Terminal on the Bottom of the Case

Applicable Cable (Insulated wire for industrial equipment)

When wiring in an area where the ambient temperatureishighorlow,usewiresorcablesthatareappropriateforsuchanarea.

Examples:• 600Vpolyvinylchlorideinsulatedwires(IV):JIS

C3307 Operationaltemperaturehighlimit:60°C• Polyvinylchlorideinsulatedwiresforelectricalapparatus(KIV):JISC3316

Operationaltemperaturehighlimit:60°C• 600Vgradeheat-resistantpolyvinylchlorideinsulatedwires(HIV):JISC3317

Operationaltemperaturehighlimit:60°C• HeatproofvinylinsulatedwiresVW-1(UL1015/UL1007)

Operationaltemperaturehighlimit:105°CWire Size

• Core: AWG14 to 13 (2 to 2.6 mm2)Terminal Treatment• Ringterminalfor4mm:Withinsulationcovers

CAUTIONGroundingisrecommendedforsafeoperation.

<6. Operation> 6-1

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6. Operation6.1 Preparation for Starting

Operation

NOTEItisrequiredtosetsecurityandnetworkinformation to enable the transmitter to be connected to the Field Wireless Network. For moredetails,refertosection6.4“ConnectingtotheFieldWirelessNetwork”.

1) Checking Installation and Wiring Ensurethatthetransmitterisinstalledcorrectly

andthetemperaturesensorandotherinputcables are connected correctly according to the proceduresdescribedinChapter4“Installation”andChapter5“Wiring”.

Whenconnectingthethermocouple,particularattentionneedstobepaidbecausethetransmitter cannot detect a wrong polarity connection.

2) Turningonthepower In the case of the battery model, place

batteries in the battery case,* and insert it in the transmitter.

To insert batteries into the battery case, be carefultopolarityofbatteriesandbatterycase.

For details of Installation of battery, refer to section8.4“Battery”.

Inthecaseoftheexternalpowersupplymodel,turnonthepowersupply.

* Battery case is installed in the main body when shipped fromthefactory.however,batteriesnotincludedbecausesold separately.

3) Connectingtothefieldwirelesssystemconfigurationtoolorfieldwirelessdeviceconfigurationtool

Connectthefieldwirelessdevicestothefieldwireless network.

ForYokogawa’srecommendedfieldwirelesssystemconfigurationtoolorfieldwirelessdeviceconfigurationtool,refertosection8.2“CalibrationInstrumentsSelection.”

4) Usingthedeviceconfigurationtoolconfirmthat transmitter is operation properly. Check parametervaluesorchangethesetpointsasnecessary.

Fordetailsonhowtoconfirmthis,refertosection7.4“Self-Diagnostics.”

ISA100 Wireless devices display self-diagnostic informationinaneasy-to-understandmannerusingfourcategories(Failurestatus, Functioncheckstatus,Outofspecificationstatus,Maintenancerequiredstatus ) according to NAMUR NE107*

ThestatusdisplayLEDcanalsobeusedtoensurethatthetransmitteroperatesnormally.

* NAMURNE107“Self-MonitoringandDiagnosisofFieldDevices”

CheckingUsingtheStatusDisplayLED.

When the transmitter operates normally, the display ofthestatusdisplayLEDisasfollows.

RDY(green):Turnsonforapprox.1secondinthepublishperiod.ALM(red):Off

Publish period

On

1 sec

OffRDY(Green)

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Figure 6.1 LED Display Example

NOTEIfanerroroccurswiththetransmitter,ALMofthestatusdisplayLEDturnson.IfALMturnson,checktheself-diagnosticresultinthewirelessfielddeviceconfigurationtool.(Refertosection7.4“Self-Diagnostics”)

Verify and Change Transmitter Parameter Setting and Values

The parameters related to the following items are setatfactoryasspecifiedinorder.• Inputsensortype• ConnectionofRTD• Measurementrange(measurementlower/upperlimit,unit)

<6. Operation> 6-2

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6.2 Zero-gain Adjustment

IMPORTANTAfterperformingzero-gainadjustment,donotpoweroffthetransmitterimmediately.Turningoffthe power within 30 seconds resets the zero-gainadjustmentvaluetothevaluebeforetheadjustment.Furthermore,settingthesensortypeautomaticallyresetsthezero-gainadjustmentvaluetothefactorysetting

When the preparation for starting operation is completed,performazero-gainadjustmentasnecessary. Thistransmitterisfullycalibratedatthefactoryandbasicallyre-cablibrationisnotnecessary;however,userscanmakethezero-gainadjustment.Thezero-gainadjustmentofthistransmittercanbeperformed by the following steps.

1)Applythelowerlimitofprocesstemperaturetothesensor.Setthelowerlimittemperatureusingthedeviceconfigurationtool.

2)Applytheupperlimitofprocesstemperaturetothesensor.Settheupperlimittemperatureusingthedeviceconfigurationtool.

Thezero-gainadjustmentshouldbeperformedwhentheinputtothetemperaturesensorisstabilized. Fordetailsonthezero-gainadjustment,refertosubsection7.3.10“Inputcalibration”.

6.3 StartingOperationEnsurethattheinstallation,thewiring,thenetworkconnection, and the action of the transmitter are correct before starting operation.

IMPORTANTClose the front door and tighten the fastening boltsonthefrontdoorfirmly.

6.4 Connecting to the Field Wireless Network

Preparation work prior to connecting to a fieldwirelessnetwork

This transmitter does not need to be connected with a physical wire. Instead of physical wiring, it isnecessarytosetthefieldwirelessdevicestocommunicatewithbeforeinstallingthetransmitter.Thisprocedureiscalledaprovisioning.Thistransmittersupportsprovisioningviainfraredcommunicationusingaprovisioningdeviceandcanbesecurelyconnectedtoanetwork.Iftheprovisioning information is not set, the transmitter cannotbeconnectedtothefieldwirelessnetwork.

Provisioning:

Provisioningisworktosetthesecurityandnetwork information to enable the transmitter to beconnectedtothefieldwirelessnetwork.

Thistransmittersupportsaprovisioningmethodusinginfraredcommunication.

Fordetailsonprovisioningusingaprovisioningdevice,connectingtoafieldwirelessnetworkandthesettingprocedure,refertoYFGW710FieldWireless Integrated Gateway (IM 01W01F01-01EN) or YFGW410 Field Wireless Management Station (IM 01W02D01-01EN).

E0602.ai

Within 30cm

Figure 6.2 Provisioning Example

<6. Operation> 6-3

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Device Role

Thetransmittersupportstwofunctions:anIOfunctionandaroutingfunctiontoroutewirelesstraffic.Thedevicerolesbelowcanbesetinaccordance with the network topology (star or mesh).ConfigurethesettingsusingtheFieldWirelessConfigurator.FordetailsontheFieldWirelessConfigurator,refertosection8.2“CalibrationInstrumentsSelection.”

• IOFunctiononly(IO)• IOandRoutingFunction(IO+Router)

GW: Gateway deviceIO: YTMX580 IO + R: YTMX580

IO

GW

IOIO

GW: Gateway device

IO IO+Router

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IO: YTMX580

GW

IO+R IO+RIO

IO IO

Network form

Device role

Star Mesh

Example network connectionsand devices

Provisioning work

ThissubsectiondescribesprovisioningworkusingFieldMate as the provisioning device.Provisioning work performs provisioning for each fieldwirelessdeviceusingFieldMateandaninfrared adapter.

WhenusingtheYokogawarecommendednearinfrared adapter for the provisioning device, the distance between the front glass (Infrared port ) of thistransmitterandtheinfraredsurfaceofthenearinfraredadaptershouldbewithin30cm.Fordetailson the Yokogawa recommended infrared adapter, refertosection8.2“CallibrationInstrumentsSelection”.Perform the following provisioning tasks.

• Setting provisioning information• Creatingaprovisioninginformationfile

1) Setting provisioning information SetthedevicetagandNetworkIDusingaFieldMateprovisioningfunction.Thedevicetag,NetworkID,andjoinkeyaresetinthefieldwirelessdevice.ItisnotnecessarytoinputajoinkeybecauseFieldMateautomaticallygenerates it.

• Setting device tag Thedevicetagisusedfortheusertorecognizethefieldwirelessdevice.

• SettingNetworkID ThisistheNetworkIDforthefieldwirelessnetworktowhichthefieldwirelessdeviceisconnected.Setavaluefrom2to65535.

ThefieldwirelessdeviceisconnectedtothefieldwirelessnetworkcorrespondingtotheNetworkIDsetbyprovisioningwork.

2)Creatingaprovisioninginformationfile The following provisioned information is stored intheprovisioninginformationfile.

• NetworkID• Devicetag• EUI64• Joinkey• Provisioner(nameoftheuserwhoperformed

provisioning work by FieldMate)• Date(Timeanddatewhenprovisioningwas

performed by FieldMate)

Thisprovisioninginformationfileisrequiredtoloadfromthefieldwirelessconfiguratortothefieldwirelessgateway.Storethefilecarefully.

<6. Operation> 6-4

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Connectingtoafieldwirelessnetwork

The action after installing the battery pack varies depending on the silence setting.With the factory setting, installing the battery pack automaticallystartsasearchforthefieldwirelessnetwork and the transmitter goes into the join state whenthefieldwirelessgatewayisfound.Ifthefieldwirelessintegratedgatewayisnotfound,acycleofa1-hourpauseand6-minutesearchisrepeatedafteraspecifiedtimehaselapseduntilthetransmittercanjointhefieldwirelessnetwork.Fordetailsonthesilencesetting,refertosubsection7.3.12“SwitchingtotheSilenceMode”.

Boot

Ready and pauseDeep Sleep Ready

Confirm connecting status

Join

(Disconnect)

(Connect)

(Search failure)

(Search start) (Search start)

Silence mode OFF

Silence mode ON

Configuration Tool

Configuration Tool

(Search failure)

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Mounting battery pack or turn on the power supply for the external power supply model

Figure 6.3 Wireless Status Transition

6.5 Shutting Down the Transmitter

Inthecaseoftheexternalpowersupplymodel,turnoffthepowersupply.In the case of the battery model, remove the battery packtoturnoffthepower,orsetthetransmittertodeepsleepmodefromthefieldwirelessdeviceconfigurationtool.

NOTE• Refertosubsection8.4.1“ReplacingtheBatteryPack”forthebatterypackremoving.

• When storing the transmitter with a battery packinserted,itisrecommendedtoputthetransmitter into deep sleep mode to conserve battery power. For details on how to switch to deepsleepmode,refertosubsection7.3.11“SwitchingtotheDeepSleepMode."

6.6 RestartingInthecaseoftheexternalpowersupplymodel,turnonthepowersupply.In the case of the battery model, the battery pack mustberemovedandtheninserted,orinfraredcommunicationmustbereceived.Ifyouacquiredatafromthetransmitterusingaprovisioningdevicetoolorawirelessfielddeviceconfigurationtool(forinfrared),itwillwakethetransmitter from deep sleep.

<7. Setting Parameters> 7-1

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7. Setting ParametersThis transmitter can remotely handle sensor typechanges,rangechanges,TagNo.setup,monitoringofself-diagnosticresults,accordingtocommunicationwiththefieldwirelessconfigurationtoolorthedeviceconfigurationtool.

7.1 Environment for parameter setting

After installing the battery pack, perform provisioningandhavethetransmitterjointhefieldwireless network.

ThistransmittersupportstheOOB(out-of-band)methodusinginfraredcommunication.Fordetails on how to provisioning, refer to section 6.4 “ConnectiontoFieldWirelessnetwork”

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infrared port

Figure7.1 ConnectingtheconfigurationTool

7.2 Preparing Software7.2.1 Softwares for the Field Wireless

ConfigurationToolandtheDeviceConfigurationTool

Beforeusingthedeviceconfigurationtool,confirmthatCF/DDandDeviceDTMforyourtransmitter(YTMX580)areinstalledinthedeviceconfigurationtool.

ForthelatestinformationonCF/DDandDeviceDTM,refertothefollowingwebsite.

<http://www.field-wireless.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.Fordetailsonhowtoconfirmthedeviceinformationusingthefieldwirelessconfigurationtoolorthedeviceconfigurationtool, refer to YFGW710 Field Wireless Integrated Gateway (IM 01W01F01-01EN) or YFGW410 Field Wireless Management Station (IM 01W02D01-01EN).

Refertosection8.2“CalibrationInstrumentsSelection”forthefieldwirelessconfigurationtoolorthedeviceconfigurationtoolofourrecommendation.

7.2.2 Software DownloadSoftwaredownloadfunctionpermitstoupdatewirelessfielddevicesoftware(Updateradiofirmware,Updatesensorboardfirmware)viaISA100wirelesscommunication.Fordetails,referto YFGW710 Field Wireless Integrated Gateway (IM 01W01F01-01EN) or YFGW410 Field Wireless Management Station (IM 01W02D01-01EN).


IM 04R01B01-01EN

7.3 Setting ParametersWhen the data of AI Block (AI1 Temp to AI8 Temp) parameters is rewritten, it is necessary to set the operational mode (Mode.Target) of the block to O/S (OutofService).Whenthesettingiscompleted,change the operational mode (Mode.Target) to the Auto.

Block Mode:

Blockmodesareuniversalparametersthatdisplayeach block's operating condition, and comprises the following modes.

Target : Sets the operating condition of the block.

Actual:Indicatesthecurrentoperatingcondition.

Permit : Indicates the operating condition that the

block is allowed to take.

Normal: Indicates the operating condition that the

blockwillusuallytake.

InTargetmode,ifyouchangethefunctionblockmodetoO/S(OutofService),thefunctionblock

operation stops. Settings can be changed while in thisstate.IfyouchangetheFunctionblockmodetoMan(Manual),updatingofthefunctionblockoutputvaluesstops.IfyouchangetheFunctionblockmodetoAuto,measuredvaluesareupdated.ThemodeshouldusuallybesettoAuto.

7.3.1 Parameter Usage and SelectionBefore setting a parameter, please see the following tableforasummaryofhowandwheneachparameterisused.

IMPORTANTAfter setting and sending data with the fieldwirelessconfigurationtoolordeviceconfigurationtool,wait30secondsbeforeturningoffthetransmitter.Ifitisturnedofftoo soon, the settings will not be stored in the transmitter.

Table 7.1 Parameter Usage and Selection

Item DescriptionTag No SetsthetagNo.forDeviceTag(softwaretag).ThetagNo.can

besetSixteencharacters(alphanumericcharacters,including“-”and“.”).

Outputmode Allowsoutputtingprocessvalueandself-diagnosticinformationviafieldwirelessnetwork.Eitheroralloftemperature/voltage/resistance (AI1 to AI8:ProcessValue),andself-diagnosticinformation(UAPMO:DiagnosticStatus)canbesetoutputdata.

Range Rangecorrespondingfor0%to100%signalissetwithactualinputapplied.

Displaytemperatureunitsetting Setsthetemperatureunittodisplay.Burnoutsetting Setstheoutputstatuswhentheinputsensorhasburnedout.Zero-gainadjustmentsetting Setstheinputadjustmentfunctionusingtwoadjustment

points..Resetadjustmentvalue Resetthetrimadjustmenttothefactorysetting.Thezero-gain

adjustmentsetbyusercanbereturnedtothefactorysetting.Software write protect Prohibit writing the setting data. Adjustmentinformationandmemofield Memofieldavailabletowritethecheckdate,checkerand

others(asanadjustmentinformation),oranything.Operational mode Set the operational mode of the sensor and integral indicator,

etc.

NOTESome of the parameter settings are in thedialogueformcalledmethod,theon-lineinstructionsyoucanconfiguretheparameterseasily.


IM 04R01B01-01EN

7.3.2 Function Block and Menu Tree

(1) Function Block

Thefunctionofthistransmitterisshownbelow.Aspecificfunctionmightnotbeabletobeusedaccordingtothefieldwirelessconfigurationtoolused.Whenthefieldwirelessconfigurationtoolofourrecommendationisused,thesoftware(COblock:FieldWirelessConfigurator,UDOblock:FieldWirelessManagementTool)attached to the Field Wireless Gateway is necessary for setting the dotted line part.Refertosection8.2“CalibrationInstrumentsSelection”forthefieldwirelessconfigurationtoolofourrecommendation.

• Configuration• Diagnostics/Alerts• Power Status• Identification

(UAPMO)

• APP Download(UDO)

• Configuration• Others

(CO)

• UAPMO• UDO• CO• TRANSDUCER• AI1 Temp• AI2 Temp• AI3 Temp• AI4 Temp• AI5 Temp• AI6 Temp• AI7 Temp• AI8 Temp

Online Menu• UAP Option• Hardware Write Protect• Static Revision• Reset Energy Left• Radio Silence

(Configuration)

• Diagnostic Status• Diagnostic Status Detail1, Diagnostic Status Detail2, Diagnostic Status Detail3• Diagnostic Switch• Diagnostic Configuration

(Diagnostics/Alerts)

• 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)

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• Energy Left• Power Supply Status

(Power Status)


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• Block Info• Block Mode • Dynamic Variables• Configuration• Others

(AI1 Temp ~ AI8 Temp)

• Tag Description

(Block Info)

• Mode.Target• Mode.Actual• Mode.Permitted• Mode.Normal

(Block Mode)

• Process Value• Simulation• Reference Junction Temp

(Dynamic Variables)

• Simulate Switch• Transducer Value• Simulate Value

(Simulation)

• Process Value.Status• Process Value.Value **

(Process Value)

• Transducer Value.Status• Transducer Value.Value

(Transducer Value)

• Simulate Value.Status• Simulate Value.Value

(Simulate Value)

• Block Mode• Concentrator OID• Scale *• Process Value Filter Time• Lin Type *• Sensor Connection *• Bias *• Selection of Reference Junction *• External Reference Junction Value *• Process Value Type *• Burn Out Type *　

(Configuration) (Block Mode)


(SCALE)

• Scale.EU at 100% *• Scale.EU at 0% *• Scale.Units Index *• Scale.Decimal *

• Sensor Serial Number• Sensor Range *• Cal Point Lo/Hi *• Cal Point Clear *• Reference Junction Unit *

(Others) (Sensor Range)

• Sencer Range.EU at 100%• Sensor Range.EU at 0%• Sensor Range.Units Index *•Sensor Range.Decimal *

Online Menu (Continued)

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• Block Info• Configuration /Calibration• Others

(TRANSDUCER)• Tag Description(Block Info)

• Model• Serial Number• Wireless Status• LED Mode• YTMX Option• Utility Frequence• Measurement Rate

(Configuration/Calibration)

(Others)

• Special Cmd

*: When the data of these parameters is rewritten, it is necessary to set the operational mode (Mode.Target) of the AI block (AI1 Temp toAI8Temp)toO/S(OutofService).

**: Whenthedataoftheseparametersisrewritten,itisnecessarytosettheoperationalmodeoftheAIblocktoManual.


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(2) Menu Tree

Themenutreeofthedeviceconfigurationtoolofourrecommendationisshownbelow.Refertosection8.2“CalibrationInstrumentsSelection”forthedeviceconfigurationtoolofourrecommendation.

• UAPMO• TRANSDUCER• AI1 Temp• AI2 Temp• AI3 Temp• AI4 Temp• AI5 Temp• AI6 Temp• AI7 Temp• AI8 Temp

(Device Configuration)

• Device Configuration• Diagnostic• Process Variables

Online Menu

• Configure/Setup

(UAPMO)

E0703-1.ai

• UAP Option• Hardware Write Protect• Static Revision• Reset Energy Left• Radio Silence

(Configuration)

• Version Revision• CTS Version• ITS Version• Identification Number

(Identification)

• Configure/Setup

(TRANSDUCER)

• Tag Description

(Block Info)

• Model• Serial Number• Wireless Status• LED Mode• YTMX Option• Utility Frequence• Measurement Rate

(Configuration/Calibration)

• Configure/Setup

(AI1 Temp - AI8 Temp)

• Tag Description

(Block Info)


(Block Mode)

• Block Mode• Concentrator OID• Scale *• Process Value Filter Time• Lin Type *• Sensor Connection *• Bias *• Selection of Reference Junction *• External Reference Junction Value *• Process Value Type *• Burn Out Type *

(Configuration)

• Sensor Serial Number• Sensor Range *• Cal Point Lo/Hi *• Cal Point Clear *• Reference Junction Unit *

(Others)


(Block Mode)

• Scale.EU at 100% *• Scale.EU at 0% *• Scale.Units Index *• Scale.Decimal *

(SCALE)

• Sensor Range.EU at 100% • Sensor Range.EU at 0% • Sensor Range.Units Index *• Sensor Range.Decimal *

(Sensor Range)

• Special Cmd

(Others)

*: When the data of these parameters is rewritten, it is necessary to set the operational mode (Mode.Target) of the AI block (AI1 Temp toAI8Temp)toO/S(OutofService).


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• UAPMO

(Diagnostic)

Online Menu (Continued)

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• AI1 Temp• AI2 Temp• AI3 Temp• AI4 Temp• AI5 Temp• AI6 Temp• AI7 Temp• AI8 Temp

(Process Variables)

• Device Diagnostics

(UAPMO)

• Process Variables

(AI1 Temp - AI8 Temp)

• Diagnostic Status• Diagnostic Status Detail1, Diagnostic Status Detail2, Diagnostic Status Detail3,• Diagnostic Switch• Diagnostic Configuration

(Diagnostics/Alerts)

• Process Value• Simulation• Reference Junction Temp

(Dynamic Variables)

• Energy Left• Power Supply Status

(Power Status)

• 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)

**: When the data of these parameters is rewritten, it is necessary to set the operational mode (Mode.Target) of the AI block (AI1 Temp toAI8Temp)toManual.


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7.3.3 Parameters for Wireless Communication

(1) Network Information

CO block

The network-related information can be checked.

(2) Publication Period (Update Time)

COblock:Datapublicationperiod

Setsthepublicationperiodvalueto1to3,600seconds.Thesettingaffectsthebatterylife.

Whenthepublicationperiodissetto1second,themaximumnumberofmeasurementpointsis3.Whenusedwiththe1secondpublicationperiod,set5ormoresensortypes(LinType)to“NOT_USED”.Whenthepublicationperiodissetto1secondandthenumberofmeasurementpointsissetto4ormore,themodeofallinputsbecomesO/S(OutofService)anddataisnotupdated.

Whenpublicationperiodisset0seconds,thetransmitterisstoppedtoupdateprocessvariablesbywayofthefieldwirelessnetwork.Andthetransmittercontinuestomeasureprocess variables with special interval time internally.

(3) Remaining battery life

UAPMOblock:EnergyLeft

In the case of the battery model, an estimated numberofremainingdayswhentheambienttemperatureisassumedtoberoomtemperature(23°C)isshown.It takes a few days for the parameter to display thecorrectvaluesafterrestart.Inthecaseoftheexternalpowersupplymodel,thevaluedoesnotchangefromthefactorydefaultvalue.

UAPMOblock:ResetEnergyLeft

In the case of the battery model, the battery levelcalculationisinitializedandreturnedtoamodethatassumesnewbatteries.Before changing battery, initialization of the remaining battery life is performed by Reset EnergyLeftparameter.It takes a few days for the parameter to display thecorrectvalues.Inthecaseoftheexternalpowersupplymodel,initialization is not necessary.

NOTEResettheremainingbatterypowercalculationbefore changing battery.

(4) LED display mode

TRANSDUCERblock:LEDModeThisparameterisusedtosetthedisplaymodeofthestatusdisplayLED.Thepowerconsumptionofthebatteriescanbereducedbysetting“Alwaysoff(1).”LEDON:Onduringoperationinaccordancewiththedisplayspecification

LEDOFF:AlwaysoffForthedisplayspecifications,refertotable3.1“DisplayDescriptionofStatusDisplayLED.”

7.3.4 Tag and Device InformationIfthesearespecifiedwhenordering,thedesignatedTag No. and device information are set and shipped.

Tag No. and device information can be checked as follows.

ProceduretocallupthetagNo.anddeviceinformation• DeviceTag(SoftwareTag) Thisisspecifiedwhenwritingcharacters(upto16characters)thatdifferfromthosespecifiedinTagNo.totheamplifiertag.

Fordetailsonhowtoconfirmthis,refertosection6.4.”ConnectingtotheFieldWirelessNetwork”.


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• TagDescription Thisisauniversalparametertostorethe

comment that describes the content of the taglocatedintheTRANSDUCERandAI1toAI8 blocks.

LimitationofDeviceInformation Whenchangingthedeviceinformation,input

the information based on the following limitation onthenumberofcharacters.

• Messagefunction(upto32characters) TRANSDUCERblock:TagDescription AI1toAI8block:TagDescription

7.3.5 UnitTheunitfortheprocessvalueissetatthefactory.Thespecifiedunitoftheinputsensorsset(°Cifnotspecified).

Whentheunitofthetemperature,voltage,andresistanceisdisplayed,settheProcessValueTypeparametertoactualtargetvalue(Direct).

And sensor type set by the sensor type setting parameter(LinType)mustbecorrespondedwiththeunitdisplayed.

Whenusingtheresistancetemperaturesensororthethermocouplesensor,unitdisplayedset°Corothers,usingvoltage,setmVorV,andusingresistance, set ohm.

Theunitcanbesetbyfollowingtheprocedurebelow.

Proceduretocalluptheunitparameter(UnitsIndex)

AI1 to AI8 block : Scale : Units Index Sensor Range : Units Index ReferenceJunctionUnit

Tochangetheunit,selectthedesiredunitfromthedisplayedunitlist.

7.3.6 Measurement RangeTheunitparameterissetatthefactorybeforeshipmentifspecifiedatthetimeoforder.Tochangethemeasurementrange,followtheprocedurebelow.

Proceduretocallupthelowerlimitsettingparameter(EUat0%)

AI1toAI8block:Scale:EUat0%

Proceduretocalluptheupperlimitsettingparameter(EUat100%)

AI1toAI8block:Scale:EUat100%

Setthelowerlimitsettingparameter(EUat0%)andupperlimitsettingparameter(EUat100%)totheunitspecifiedintheunitparameter(UnitsIndex).

7.3.7 Input SensorWhen changing the sensor type, it is necessary to change the parameters related to the sensor type. The setting items are the sensor type and the numberofcables.TheinputterminalofYTMX580supportsthefollowingsensortypes.

Thermocouple:TYPEB,E,J,K,N,R,S,T(IEC60584)Resistancethermometer(RTD):Pt100,Pt200,Pt500 (IEC 60751)Resistance ohm (0 to 2000 ohm)DCvoltagemV(−10to100mV),V(-0.01to1V)CurrentmA(4to20mA,withexternalshuntresistors)

Whena50Ωshuntresistorisusedforthecurrentinput,settherangeto0.2to1V.

Checktheconnectionsbetweentheinputterminalsandtemperaturesensorsandsetthecorrectsensortypeandthenumberofwireconnectionsfortheparameters.(RefertoFigure7.2)

CAUTIONExplosionproofingnotapplicableduringDCvoltages,DCmiliamperesinput.


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E0704.ai

(B)(A)

(+)(–)

(b)(B)

(A)

(A)

(b)(B)

(a)

4-20mADevice 50Ω

(+)

(–)

(+)

(–)

Thermocouple and DC voltage




Current (4 - 20mA)

Powersupply

Figure 7.2 YTMX580 Wire Connection Diagram

1) Setting the Sensor Type

Proceduretocallupthesensortypesettingparameter(LinType)

AI1toAI8block:LinType

Set the sensor type.

Proceduretocallupthesensortypeinformationparameter (Sensor Range)

AI1toAI8block:SensorRange:EUat0% AI1toAI8block:SenesorRange:EUat100%

Displaysthelowerandupperlimitvaluesthatcanbemeasuredbythesensortypesetinthesensortypesettingparameter(LinType)asthelowerlimitinformationparameter(EUat0%)andtheupperlimitinformationparameter(EUat100%).

2) Setting the Temperature Sensor and Resistance Connection

Thisissetwhenusingtheresistancetemperaturesensor and resistance.

Proceduretocalluptheconnectionsettingparameter (Sensor Connection)

AI1 to AI8 block : Sensor Connection

Select and set any of the 2-, 3-, or 4-wire methods corresponding to the resistance temperaturesensorandresistance.

3) Setting the Cold Junction Compensation (CJC) of the Thermocouple Sensor

Thisissetwhenusingthethermocouplesensor.

ProceduretocallupCJCfunctionparameter(SelectionofReferenceJunction)

AI1 to AI8 block : Selection of Reference Junction

SelecttheCJCfunction. Tocalibratevoltageforthethermocoupleinput,setthecoldjunctiontemperaturetoNoReference.

ProceduretocallupexternaltemperatureCompensation parameter(External Reference JunctionValue)

AI1toAI8block:ExternalReferenceJunctionValue

IntheCJCfunctionparameter(SelectionofReferenceJunction),thecoldjunctiontemperaturevalueofthethermocoupleis selected the external, set the external compensationtemperature.

TheCJCisalsocalledreferencejunctioncompensation.

IMPORTANTSettingthesensortypeautomaticallyresetsthezero-gainadjustmentvaluetothefactorysetting.

7.3.8 AssignmenttoAIObjectOutputoftheprocessvalueviafieldwirelessnetwork is set by AI1 to AI8 block.Eitheractualtargetvalueor%valueofthetemperature,thevoltage,andresistanceissetastheoutputofprocessvaluefromtheAI1toAI8block.


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7.3.9 Write ProtectHardware write protection and software write protectionfunctionsareavailableforthistransmitter.

1) Procedure to call up the protection setting parameter(UAPOption)

ThefollowingsettingscanbeconfiguredintheUAP Option parameter.

• Setting to enable or disable changing the settingtotheDiagnosticSwitchandDiagnosticConfigurationparameters.

• Setting to enable or disable the hardware write protection switch.

• Setting to enable or disable software write protection.

2) Procedure to call up the protection setting display parameter (Hardware Write Protect)

UAPMO block : Hardware Write Protect

The Hardware Write Protect parameter enables theswitchstatusofhardwarewriteprotectiontobe displayed.

For the relationship between hardware write protection and software write protection, refer to Chapter9."ParameterSummary".

7.3.10 Input CalibrationTheinputcalibrationfunctionisusedtoadjusttothetransmittersinternalinterpretationoftheinputsignal.Twopoints,namely,theloweradjustmentpointcalledZeropointandtheupperadjustmentpointcalledGain,areadjusted,respectively.Therearetwoadjustmentmethods.Onemethodusesareference signal generator (e.g. a voltage generator orvariableresistor)andtheotherusesthesignalfromatemperaturesensorimmersedinthesolutionwithaknowntemperature.Inputadjustmentisperformedbyinputting(writing)thesignals(voltage,andresistancevalues)currentlybeinginputastheparameters.Thistransmitterautomaticallycorrectstheerrorbetweenthewrittendataandtheinternallycalculatedvalue.

1) Setting the Input Adjustment Value

a) Setting the AI1 to AI8 block write mode

• AI1 to AI8 block : Block Mode : Target

Set the Target parameter to O/S.

b) Setting the sensor type

• AI1toAI8block:LinType

SetthesensortypeusedintheLinTypeparameter.

c)Settingthecoldconjunctioncompensation

• AI1toAI8block:SelectionReferenceJunction

SettheSelectionReferenceJunctionparameter to No Reference (0) in order toremovetheeffectofthecoldjunctioncompensationwhenusingthethermocoupleforthe sensor type.

d)PerformZeroPointAdjustmentusingareferencesignalgenerator.Theinputvalueisadjustednearthezeropointwithinthemeasurementrangeused.e)SettheZeroPointAdjustmentvaluewhentheinputisstabilized.

• AI1toAI8block:CalPointLo SettheCalPointLoparametertothevoltagevalue(unit:mV)whenthetemperaturesensoristhethermocouple,andsettheresistancevalue(unit:Ω)whenthetemperaturesensoristheresistancetemperaturesensor.

f) Performgain-pointadjustmentusingareferencesignalgenerator.Theinputvalueisadjustednearthegainpointwithinthemeasurementrangeused.

g)Setthegain-pointadjustmentvaluewhentheinputisstabilized.

• AI1 to AI8 block : Cal Point Hi

Set the Cal Point Hi parameter to the voltage value(unit:mV)whenthetemperaturesensoristhethermocouple,andsettheresistancevalue(unit:Ω)whenthetemperaturesensoristheresistancetemperaturesensor.

h) Setting the AI1 to AI8 block write mode

• AI1 to AI8 block : Block Mode : Target

SettheTargetparametertoAutoandensurethatthesettingerroroftheadjustmentvaluehasnotoccurred


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Input

Output

GAIN

E0705.ai

ZERO

Figure 7.3 Trim function images

IMPORTANTSettingthesensortypeautomaticallyresetsthezero-gainadjustmentvaluetothefactorysetting.

2) Clearing the Adjustment Value

Theadjustmentvaluesetwithinputadjustmentcan be cleared and reset to the factory setting.

When the setting is completed, change the Mode.TargettotheAuto.

Proceduretocalluptheadjustmentvalueresetparameter (Cal Point Clear)

AI1 to AI8 block : Cal Point Clear

Set the Cal Point Clear parameter to Clear.

7.3.11 Switching to the Deep Sleep ModeWhenthebatterymodeltransmitterwillnotbeusedfor a long time, switch the transmitter to the deep sleep mode to conserve battery power. To switch to deepsleepmode,followtheprocedurebelow.

Proceduretocalluptheswitch-to-deep-sleepparameter (Special Cmd)

TRANSDUCERblock:SpecialCmd

Set deep sleep mode (Standby) to the Special CmdparameterfortheTRANSDUCERblock.To start from deep sleep mode, either remove andinsertthebatterypack,orusethedeviceconfigurationtool.

CAUTIONAfter setting the deep sleep mode by infrareddeviceconfigurationtool,keeptheinfraredportof device away from any other infrared signals.

NOTE• Thisproceduretoswitchtodeepsleepmodecanonlybeuseforwirelesscommunication.

Transmitter becomes the stop state after setting deep sleep mode and cannot reply anyrequestfromCommunicationTool.

• For this reason, there is the case that an errorisdisplayonCommunicationTool.

Towakeupfromdeepsleepmode,pleasepullbatterypackandwaitmorethan30seconds before attaching battery pack.

7.3.12 Switching to the Silence ModeThisisafunctiontopausethetransmitterwhenitcannotjointhefieldwirelessnetworkafteraspecifiedtimehaselapsed.Thisfunctioniseffectivein conserving battery power when, for example, the installationofthefieldwirelessgatewayisdelayedcomparedtothatoffieldwirelessdevices.Thedefaultvalueis28800seconds(about8hours).Thereafter,acycleofaone-hourpauseandsix-minutesearchisrepeateduntilthetransmittercanjointhefieldwirelessnetwork.

• Proceduretocalluptheswitch-to-silenceparameter (Radio Silence)

UAPMO block : Radio Silence

Set 0 to 231 seconds for the Radio Silence parameter of the UAPMO block. If 0 is set, the Radio Silence parameter is invalid.

To start from the silence mode, the battery pack mustberemovedandtheninsertedinthecaseofthebatterymodelorthepowersupplymustbeturnedoffandthenturnedoninthecaseoftheexternalpowersupplymodelorinfraredcommunicationmustbereceived.

Usethedeviceconfigurationtool.


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7.4 Self-Diagnostics7.4.1 Identify Problems by Using the

DeviceConfigurationToolThedeviceconfigurationtoolallowscheckingtheself-diagnosisresultsandsettingerrorsofthistransmitter.First,checkDiagnosticStatusoftheself-diagnosticresult.

Proceduretocalluptheself-diagnosticparameter

UAPMOblock:DiagnosticStatus

Anyofthefourcategories(Failurestatus, Functioncheckstatus, Outofspecificationstatus,Maintenancerequiredstatus ) according toNAMURNE107*issuppliedtoDiagnosticStatusofeachdiagnosticresult.

Table 7.2 Diagnostic Status

Bits Contents ExampleNAMUR NE107

Categorization(*)

DiagnosticConfiguration

Bit31(MSB) F:Failurestatus --- DiagnosticConfiguration.1Bit30 C:Functioncheckstatus --- DiagnosticConfiguration.2Bit29 O:Outofspecificationstatus --- DiagnosticConfiguration.3Bit28 M:Maintenancerequiredstatus --- DiagnosticConfiguration.4Bit27 Faultsinelectronics F DiagnosticConfiguration.5Bit26 Faultsinsensororactuatorelement F DiagnosticConfiguration.6Bit25 Installation, calibration problem C DiagnosticConfiguration.7Bit24 Outofservice C DiagnosticConfiguration.8Bit23 Outsidesensorlimits O DiagnosticConfiguration.9Bit22 Environmentalconditionsoutofdevicespecification O DiagnosticConfiguration.10Bit21 Faultprediction:Maintenancerequired M DiagnosticConfiguration.11Bit20 Power is critical low: maintenance need short-term M DiagnosticConfiguration.12Bit19 Power is low: maintenance need mid-term M DiagnosticConfiguration.13Bit18 Softwareupdateincomplete C DiagnosticConfiguration.14Bit17 Simulationisactive C DiagnosticConfiguration.15Bit16-Bit08 reserved by WCI --- DiagnosticConfiguration.16to24Bit07-Bit01 vendorspecificarea --- DiagnosticConfiguration.25to31

Bit00Detailinformationavailable

---DiagnosticConfiguration.32

1: available0: no available

NAMURNE107"Self-MonitoringandDiagnosisofFieldDevices"

CheckingtheDiagnosticStatuscategoryallowstakingtheproperaction.TheDiagnosticStatuscontents are common for all ISA devices, and the settingfortheDiagnosticStatuscategorycanbechanged.Forfurtherdetails,refertoDiagnosticStatusDetailTochangethealertcategorysetinOutofServicetoFailureinDiagnosticStatusContentsthat can be diagnosed in the transmitter, perform thefollowingprocedure.Alternatively, the category setting can be changed inDiagnosticConfiguration(1to32)correspondingtoDiagnosticStatusContents(Bit31to 00).

a)UAPMOblock:EnableDiagnosticStatusConfigurationinUAPOption.

b)UAPMOblock:ChangeOutofServiceinDiagnosticConfiguration8fromFunctionChecktoFailure.

c)UAPMOblock:DisableDiagnosticStatusConfigurationinUAPOption.

InDiagnosticConfiguration,setanyoneofF:Failstatus,C:Functioncheckstatus,O:Outofspecificationstatus,andM:Maintenancerequiredstatus.


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ThecontentsofdiagnosticstatusaredefinedeithervalidorinvalidatDiagnosticSwitchparameter.Followtheexamplebelowtochange“OutofService”toinvalid.

a)UAPMOblock:EnableDiagnosticStatusConfigurationinUAPOption.

b)UAPMOblock:DiagnosticSwitchturn“Off“forOutofService.

c)UAPMOblock:DisableDiagnosticStatusConfigurationinUAPOption.UAPOptionselect“disable“.

Table 7.3 Diagnostic Results Summary

Diagnostic Status ContentsNAMUR NE107

CategoryDiagnostic Status Detail Description

Faultsinelectronic F

AMP ERR Amplifierfailure

MEMORY ERR Memoryfailure

ADCERR ADCfailure

Firm Update ERR Firmware write error

Faultsinsensororactuatorelement F

SENSOR1to8FAILURE Sensor1to8burnout

TERMSNSFAILURE CJCsensorburnout

Installation, calibration problem CSENSOR1to8SPANADJERR Sensor1to8faultyinputofspan

adjustmentvalue

SENSOR1to8ZEROADJERR

Sensor1to8faultyinputofzeroadjustmentvalue

Outofservice C AI1toAI8O/SMODE AI1 to AI8 O/S Mode

Outsidesensorlimits O --- ---

Environmentalconditionsoutofdevicespecification. O

SENSOR1 to 8 TEMP HI Sensor1to8temperaturehigherlimitscaleout

SENSOR1to8TEMPLO Sensor1to8temperaturelowerlimitscaleout

AMB TEMP HI Ambienttemperaturehigherlimitscaleout

AMBTEMPLO Ambienttemperaturelowerlimitscaleout

Faultprediction:Maintenancerequired. M FIRMWARECONDITION

CHECK Firmware internal error

Power is critical low:maintenance need short-term M LOWBATFORDEEPSLEEP Deepsleepduetolowbattery(Battery

model only)

Power is low:maintenance need mid-term M LOWBAT Lowbattery(Batterymodelonly)

Softwareupdateincomplete C --- ---

Simulationisactive C AI1toAI8SIMULATEMODE AI1toAI8SIMULATEMode

Note:Becarefulwhenchangingthealertcategoryandturningdetectiononandoffasdescribedabove.BesuretosetUAPOptionDiagnosticStatusconfigurationtodisableagain to prevent setting errors.

*NAMURNE107“Self-MonitoringandDiagnosisofFieldDevices”

InDiagnosticConfigurationsetting,selectonefromthefollowings;F:Failurestatus,C:Functioncheckstatus,O:Outofspecificationstatus,orM:Maintenancerequiredstatus.


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7.4.2 Checking Using the Status Display LED

NOTEIfthereisanerrorintheself-diagnosticresult,ALM(red)ofthestatusdisplayLEDofthetransmitterturnson.

IfALMturnson,checktheself-diagnosticresultinthefieldwirelessdeviceconfigurationtool.

If an error indication is displayed, refer to subsection8.6.3“AlarmsandCountermeasures”andfixtheproblem.

Correct use of the ALM (red) LED displayIf,forexample,thermocoupleisselectedfortheinputsensortype(LinType)andthesensordoesnotconnecttoterminals,sensorburnoutisdetectedandtheALM(red)LEDturnson.IftheLEDisbeinglit,thebatterylifeofthedevicewillbeaffected.Itisthereforerecommendedtosettheunusedinputsensortype(LinType)toNOT_USED.

ALM

Self-diagnostic error (transmitter error)

E0706.ai

LED display window

Figure 7.4 Checking Using the Status Display LED

<8. Maintenance> 8-1

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8. Maintenance8.1 GeneralMaintenanceofthetransmitteriseasyduetoitsmodularconstruction.

Thischapterdescribestheproceduresforcalibrationandadjustmentaswellasthereplacementofpartssuchasabatterypackrequiredforthemaintenanceofthetransmitter.

Transmittersareprecisioninstruments.Pleasecarefullyandthoroughlyreadthefollowingsectionsfor information on how to properly handle them while performing maintenance.

IMPORTANT• Asarule,maintenanceofthistransmittershouldbedoneinashopthathasallthenecessary tools.

• Whenyouopenthedoor,paygreatattentionto the environmental conditions in order to preventdustandwaterdropletsenteringinside the transmitter.

• Whenyoucarryoutworkwiththebatterypackremoved,paysufficientattentiontotheenvironmentalconditions,inparticular,inorder to prevent foreign matter entering the compartment in the transmitter for inserting the battery pack.

8.2 Calibration Instruments Selection

Table8.1liststheinstrumentsthatcanbeusedto calibrate a transmitter. When selecting an instrument,considertherequiredaccuracylevel.Exercisecarewhenhandlingtheseinstrumentstoensuretheymaintainthespecifiedaccuracy.

FortheconfigurationtoolsrecommendedbyYokogawaandthelatestinformationonDeviceFile,refer to the following website.

<http://www.field-wireless.com/>

Table 8.1 Instruments Required for Calibration

Name Yokogawa-recommended Instrument RemarksProvisioning device tool

• FieldMate (R2.03.00 or later)• ProvisioningDeviceTool• InfraredAdaptercertifiedbyYokogawa Supplier:ACTiSYS Productname:IrDAInfraRedUSBAdaptor Productnumber:ACT-IR224UN-LN96(9600bps)

Field wireless configurationtool

• Field Wireless Integrated Gateway attached Software FieldWirelessConfigurator Field Wireless Management Tool• FieldWirelessSystemrelatedProduct PlantResourceManager(PRM)(R3.05orlater)• DeviceConfigurationToolviaISA100Wireless

Communication FiledMate (R2.03.00 or later) DeviceFile(R3.02.12orlater)• DeviceConfigurationToolviaInfraredCommunication FiledMate (R2.03.00 or later) DeviceFile(R3.02.12orlater)

Universal calibration system

• Model9100type(FLUKE) ForcalibrationofDCvoltageorthermocoupleinput)

Variableresistor • 279301 type 6-dial variable resistor(accuracy:±0.005%)

For calibration of resistance thermometer(RTD)input


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8.3 Calibration ProcedureThetransmitteristestedadequatelybeforeitisshippedfromthefactorytoguaranteeacertainaccuracylevelevenwithoutcalibration.Soperformthecalibrationdescribedinthissectiononlyunderspecialcircumstances,suchaswhentheneedtoevaluateuncertaintyarisesduringoperation.

1) After inserting the battery pack in the case ofthebatterymodelorafterturningonthepowersupplyinthecaseoftheexternalpowersupplymodel,performprovisioningtomakethetransmitterjoinafieldwirelessnetwork for calibration, or prepare for infrared communication.

2) Setthepublicationperiodto1or2secondusingtheconfigurationtooltosetcontinuousforthetransmitter.Ifthenumberofmeasurementpoints is 3 or less, select 1 second, and if the numberofmeasurementpointsis4ormore,select 2 seconds.

Fordetailsofpublicationperiod,refertosubsection7.3.3“ParametersforWirelessCommunication”.

3) ConnectthedevicesasshowninFigure8.1andallowthetransmittertowarmupforatleast5minutes.

E0801.ai

(a)(A)

(B)

(−)

(b)

(+)

Example of wiring for thermocouple or DC voltage input

YTMX sensorinput terminal

Universal calibration system

Variable resistor

Example of wiring for RTD 4-wire type

YTMX sensorinput terminal

Figure 8.1 Example of wiring for calibration equipment

4) CalibrationProcedurea)ForDCvoltageinput Withauniversalcalibrationsystem,deliverinputsignalscorrespondingto0,25,75,or100%oftheinputspantothetemperaturetransmitter.

b)Forthermocoupleinput Sincethisinstrumentisequippedwithacoldjunctioncompensatingfunction,useacoldjunctioncompensatingfunctioninuniversalcalibration system in order to compensate for thisfunctionuponcalibration.Accordingtothereferencemillivolttableforthermocouple,obtain millivolt corresponding to 0, 25, 50,75,or100%ofthespan,andusethatpowerastheinputvalue,thendeliveritfromtheuniversalcalibrationsystemtothetemperaturetransmitter.Checktheoutputvalueforthatinputvalue.

c)Forresistancethermometer(RTD)input Usingathermometerresistorasinput,calibrationofthetemperaturetransmitteriscarriedoutviaa4-corewireconnection.Asdefinedinthereferenceresistorvaluetableoftheresistancethermometer(RTD),obtainresistancevaluescorrespondingto0,25,50,75or100%ofthespan,andusetheobtainedresistanceastheinputvalue,thendeliverittothetemperaturetransmitterby means of a variable resistor. Check the outputvalueforthatinputvalue.

5) When the inspection is completed, change the publicationperiodbacktotheoriginalvalueusingFieldWirelessConfigurationTool.

6) Applyaspecifiedinputsignalfollowingstepsa)toc)above.Iftheoutputsignalisoutsidetheaccuracyrange,performoutputadjustmentusingthedeviceconfigurationtool.Fordetailsonhowtoperformadjustment,refertosubsection7.3.10“Inputcalibration”.


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8.4 BatteryThissectiondescribestheprocedureforreplacingthe battery pack and batteries of battery model. Table 8.2 shows the tools needed to replace the battery pack and batteries.Abatterypackmeansthespecifiedbatteriesenclosed in a battery case.

Table 8.2 Tools for Disassembly and Reassembly

Tool Quantity RemarksPhillips screwdriver

1 ISO8764-1,TipNo.2(JISB 4633, No. 2 )

Hex Key 1 across-flats4mm

8.4.1 Replacing the Battery Pack

WARNING

Toensuretheinstallationminimizestheriskfromelectrostatic discharge.Topreventelectrostaticdischargecausedbystaticchargebuiltupontheoperator,groundtheoperatorthroughconductiveshoesandfloorsandbywearinganti-staticworkclothestopreventchargebuild-up.Avoidanyactionsthatcausethegenerationofelectrostaticcharge,suchasrubbingwithadryclothonfaceoftheBatteryPackandproduct.Ifstaticelectricitycannotbesuppressed,checkthatthesurroundingatmospheredoesnotcontain explosive gas or steam before replacing the Battery Pack.

The battery pack in an intrinsically safe explosion-proof transmitter can be replaced in the installed conditioninahazardousarea.

Preliminary

Resettheremainingbatterypowercalculation. For details on how to reset the remaining

batterypowercalculation,refertosubsection7.3.3“ParametersforWirelessCommunication.”

Incasethatthebatteryrunsoutalready,resettheremainingbatterypowercalculationpromptly after replacing the battery pack.

Removing

1) LoosenthefourM5Hexagonsocketheadcapbolts at each corner of the front door and then open the front cover. Use a hex wrench of 4 mm hexagonwidthacrossflatstounscrewthebolts.

Thefrontdoorcanbeopenedbyturningthefourfrontdoorboltsseventimescounterclockwise.Pleasenotethattheboltsareheldbythefrictionforceoftherubberbutmayfalloutifturnedmorethannecessary.

2) Loosenthetwobatterypackmountingscrews(seeFigure8.2).

3) Pullthebatterypack.

E0802.ai

The screw has the dropout prevention mechanism,it is not separated from the battery pack

Figure 8.2 Removing the Battery Pack

Remounting

1) Insert the new battery pack lightly.2) Pushthecenterofthebatterypackandinsertit

securely.3) Tightenthetwobatterypackmountingscrews

toatorqueofapproximately0.7N•m.4) Closethefrontdoorandtightenthefour

fastening bolts.

CAUTIONBesuretousethededicatedbatterypackinanintrinsically safe transmitter. For details on the batterypack,refertosection8.4.3“HandlingBatteries.”


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8.4.2 Replacing the BatteriesThe batteries in the battery pack can be replaced.

WARNING

Besuretoreplacethebatteriesordisassembleand assemble the battery pack in a non-hazardousarea.Doingsoinanhazardousareacouldcauseanexplosion.

CAUTIONWhenreplacingthebatteries,besuretoreplacethe two batteries at the same time and do not useanoldandanewbatterytogether.

Disassembling

1) Loosenthetwobatterycasemountingscrews.2) Separate the battery case into two parts.3) Remove the old batteries.

Assembling

1) Insert new batteries into the battery case. Becarefultopolarity.2) Attach the two parts of the battery case to each

other.Becarefultopolarityofbatterycase.3) Tightenthetwobatterycasemountingscrews

toatorqueofapproximately0.7N•m.

The screw has the dropout prevention mechanism,it is not separated from the battery pack

E0803.ai

Figure 8.3 Disassembling the Battery Pack

8.4.3 Handling BatteriesThisbatterypackcontainstwoprimarylithium/thionyl chloride batteries. Each battery contains approximately5gramsoflithium,foratotalof10grams in each pack. Under normal conditions, the battery materials are self-contained and are not reactive as long as the batteries and the pack integrityaremaintained.Careshouldbetakentoprevent thermal, electrical or mechanical damage. Protect the electrode of the battery pack to avoid rapidelectricaldischarge.Dischargedabatterymayleadtofluidleakageandexcessiveheat.Batteriesshouldbestoredinacleananddryarea.Formaximumbatterylife,storagetemperatureshouldnotexceed30°C.

WARNING

Handling the battery packThefollowingprecautionsmustbeobservedinordertosafelyandeffectivelyuseabatterypack.Improperusemayleadtofluidleakage,excessive heat, ignition, or explosion.

• Never charge it.• Donotshort-circuitit.• Donotdisassemble,transform,ormodifyit.• Donotheatitorthrowitintoafire.• Donotsoakitinfreshwaterorseawater.

CAUTIONObservethefollowingprecautionsforthesafedisposal of batteries.• Donotincineratethebattery,anddonotexposeittoahightemperatureof100°Cormore.Thismayleadtofluidleakageorexplosion.

• Disposeofthebatteryaccordingtolawsandregulations.


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Use the following dedicated parts for the battery pack and batteries.

BatterypackPartnumber:F9915MA*1

BatterycasePartnumber:F9915NS*2 ( Battery case only )

BatteriesPartnumber:F9915NRAlternatively,TadiranTL-5930/SorSL-2780/Sbatteriesmaybepurchasedandused.

*1IfyouneedF9915MA,pleasepurchaseF9915NQ.F9915NQisasetofF9915MAandinstructionmanual.

*2IfyouneedF9915NS,pleasepurchaseF9915NK.F9915NKisasetofF9915NSandinstructionmanual.

WARNING

Besuretousethededicatedbatterypackinanintrinsically safe transmitter.Besuretouseabatterypackthatisindicatedas“Rev.1”fortheTIISintrinsicallysafeexplosion-prooftransmitter(suffixcode/JS37).

“Rev.1” indicationE0804.ai

Figure8.4Where“Rev.1”appearsonthebatterypack

Transportation of products containing lithium batteries

Thebatterypackcontainslithiumbatteries.When transporting this transmitter with the battery pack inserted, keep it in deep sleep mode in order to conserve battery power. For details on how to switch to deep sleep mode, refertosubsection7.3.11“SwitchingtoDeepSleepMode.”

PrimarylithiumbatteriesareregulatedintransportationbytheU.S.DepartmentofTransportation, and are also covered by the International Air Transport Association (IATA), the International Civil Aviation Organization(ICAO),andtheEuropeanGroundTransportationofDangerousGoods(ARD).Itistheresponsibilityoftheshippertoensurecompliancewiththeseoranyotherlocalrequirements.Consultcurrentregulationsandrequirementsbeforeshipping.

Procedure to replace and dispose of the batteries of the product

ThisisanexplanationaboutthenewEUBatteryDirective(DIRECTIVE2006/66/EC).This directive is only valid in the EU.

Batteriesareincludedinthisproduct. Whenyouremovebatteriesfromthisproduct

and dispose them, discard them in accordance with domestic law concerning disposal.

Takearightactiononwastebatteries,becausethe collection system in the EU on waste batteriesareregulated.

Batterytype:Primarylithium-thionylchloridebattery

Crossed-outdustbinsymbol

NOTEThe symbol (see above), which is marked on the batteries,meanstheyshallbesortedoutandcollectedasordainedinANNEXIIinDIRECTIVE2006/66/EC

8.5 Replacing the Front Door Gasket

When the gasket is damaged, exchange of the gasket is recommended for protection against water anddust.Pleasefitgasket(B8808DE)intotheditchofthedoorinthedirectionofthefigurenottoslack.

E0805.ai

Figure 8.5 Fit the Front Door Gasket


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8.6 TroubleshootingIfanyabnormalityappearsinthemeasuredvalues,usethetroubleshootingflowchartbelowtoisolateand remedy the problem. Since some problems havecomplexcauses,theseflowchartsmaynotidentifyall.Ifyouhavedifficultyisolatingorcorrecting a problem, contact Yokogawa service personnel.

8.6.1 Basic Troubleshooting FlowFirst determine whether the process variable isactuallyabnormaloraproblemexistsinthemeasurementsystem.

Iftheproblemisinthemeasurementsystem,isolate the problem and decide what corrective action to take.

Thistransmitterisequippedwithaself-diagnosticfunctionwhichwillbeusefulintroubleshooting.

Ifanerroroccurswiththetransmitter,ALMofthestatusdisplayLEDturnson.Checktheself-diagnosticresultinthefieldwirelessdeviceconfigurationtool.

Refertosubsection8.6.3“AlarmsandCountermeasures”.

YES

NO

E0806.ai

Abnormalities appear inmeasurement

Is process variableitself abnormal?

Isolate problem inmeasurement system

Check/correctoperating conditions

Check transmitterCheck/correctenvironmental conditions

Environmental condition

Operation conditions

Error in measurementsystem

Transmitter itself

Inspect theprocess system

: Areas where self-diagnostic offers support

Measurementsystem problem

Figure 8.6 Basic Troubleshooting Flow

8.6.2 Example of Troubleshooting FlowThefollowingshowsanexampleoftheflowfortroubleshooting.

RefertothisexampleandTable8.3“Problems,CausesandCountermeasures”andlocatethe problem and take the corresponding countermeasure.

E0807.ai

YES

NO

Was a faultyarea found with self-

diagnosis?

The following phenomena indicate that thisinstrument may be out of operation.[Example]• No output signal is delivered.• Process variable changes but the output signal remains unchanged.• The assessed value of the process variable and the output are not coincident.

Refer to our service personnel for details.

• Check the status display LED ( ALM (red)) .• Connect the device configuration tool and check

self-diagnosis.

Refer to the errormessage list andcheck for recoverymeasures.

Is the sensorcorrectly connected?

Check the sensorconnection andcorrect it.

NO

YES

YES

Isthe wireless deviceconnection correct?

Connect thewireless devicesagain.

NO

Figure 8.7 Example of Troubleshooting Flow


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Table 8.3 Problems, Cause and Countermeasure

ObservedProblems Possible Cause Countermeasure Related ParameterOutputfluctuatesgreatly. Inputadjustmentbyuserwas

not correctly done.Setorcleartheuseradjustmentvalue.

•LinType• Sensor Range

Dampingadjustmentisnotcorrect.

Setthedampingadjustmentto0.

•ProcessValueFilterTime

Transmitteroutputsfixedcurrent.

Inputadjustmentbyuserwasnot correctly done.

Setorcleartheuseradjustmentvalue.

•LinType• Sensor Range

Thesimulationfunctionissetto ON.

SetthesimulationfunctiontoOFF.

•SimulateSwitch

Outputisreversed. Thelowerlimitvalueisgreaterthantheupperlimitvalue.

Setthecorrectvaluetotheupperlimitvalueandthelowerlimitvalue.

•LinType• Sensor Range•CalPointLo• Cal Point Hi

Parameters cannot be changed.

The transmitter is in write protectstatus.

Release write protect. • UAP Option• Hardware Write Protect

AI1 to AI8 become all O/S and data is not updated.

publicationperiod is set to 1 secondandthenumberofmeasurementpointsissetto4or more.

Setthepublicationperiodto2 seconds or more, or set thenumberofmeasurementpoints to 3 or less. Refer to“publicationperiod”ofsubsection7.3.3“ParametersforWirelessCommunication”.

•LinType

AI parameter cannot be changed.

The Permitted setting of Block Mode is not correct.

Set the Permitted setting in Target.

• Mode


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8.6.3 Alarms and Countermeasures

Table 8.4 Alarm Message Summary

Factory NAMUR category

Bit Diagnostic Status

Diagnostic Status Detail Cause

Release/recovery

conditions (except restart)

OutputOperation Action

F

Bit 27 Faultsinelectronics

AMP ERR

Amplifiertemperaturesensor error

None

Theoutputisfixedto±999999°C.The sign is dependent on the setting of BurnOutType.

Replace the amplifier.Contact Yokogawa service personnel.

M E M O R Y ERROR Amplifiermemory

failure None Same as above


ADCERRORAmplifierADconverterfailure None Same as

above


Firm Update ERR Firmwareupdate

write error None ----


Bit 26

Faultsinsensor or actuatorelement

SENSOR1 to S E N S O R 8 FAILURE Sensor 1 to

Sensor8burnout None

Theoutputisfixedto±999999°C.The sign is dependent on the setting of BurnOutType

Replace the sensor.

TERM SNS FAILURE CJCsensor

burnout NoneOperable at theCJCvalue(0°C).

Replace the amplifire.Contact Yokogawa service personnel.

M

Bit 19Power is low: maintenance need mid-term

LOWBAT(Battery mod-el only) *2

Lowremainingbattery power None Normal action Replace the

batteries.

Bit 20

Power is critical low: maintenance need short - term

LOWBATFOR DEEPSLEEP(Battery model only)

Lowremainingbattery power causesswitchingto deep-sleep mode.

None

Normal action, butpowerturnsoff15minutesafter alarm is generated.

Replace the batteries.

Bit 21

Faultprediction: Maintenance required

FIRMWARE CONDITIONCHECK

Firmware internal error None Normal action Restart.

(Cont. on next page.)


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Factory NAMUR category

Bit Diagnostic Status

Diagnostic Status Detail Cause

Release/recovery

conditions (except restart)

OutputOperation Action

O

Bit 22

Environmental conditions outofdevicespecification

SENSOR1 to S E N S O R 8 TEMP HI

Thetemperatureof sensor 1 to sensor 8 is higher than the temperaturespecifiedintheSensor Range parameter.

Recovers when the temperaturefalls within the range.

Normal actionCheck the sensor t ype se t t ing and connection method.

SENSOR1 to S E N S O R 8 TEMPLO

Thetemperatureof sensor 1 to sensor 8 is lower than the temperaturespecifiedintheSensor Range parameter.

Recovers when the temperaturerises within the range.

Normal actionCheck the sensor t ype se t t ing and connection method.

Bit 22

Environmental conditions outofdevicespecification

AMB TEMP HI The ambient

temperatureis higher than +85°C.

Recovers when the temperaturefalls below +85°C.

Normal action

Check the temperatureinthe vicinity of the transmitter.

AMB TEMP LO The ambient

temperatureislowerthan-40°C.

Recovers when the temperaturerises above -40°C.

Normal action

Check the temperatureinthe vicinity of the transmitter.

C

Bit 25Installation, calibration problem

SENSOR1 to SENSOR8 SPANADJERR

Sensor 1 to sensor8inputadjustmentrangeerror

Recovers when the inputiswithinthe range.

Normal action Checktheinputadjustmentsetting.

SENSOR1 to SENSOR8 ZEROADJERR

Sensor 1 to sensor8inputadjustmentvalueerror

Recovers when the inputvalueis a normal value.

Normal action Checktheinputadjustmentsetting.

Bit 24 Outofservice

AI1 to AI8 O/S MODE

AI1 to AI8 block is O/S mode.

Recovers when the mode target of AI1 to AI8 block is other than O/S.

Hold Check the AI1 to AI8 block setting.

Bit 17 Simulationisactive

AI1 to AI8 SIMULATEMODE SimulateSwitch

of the AI1 to AI8 block is enabled

Recovers when the SimulateSwitch of AI1 to AI8 block is set to DISABLE.

Normal action Check the AI1 to AI8 block setting.

*1:“FactoryNAMURcategory”referstothefourcategories(C:Functioncheckstatus,M:Maintenancerequiredstatus,F:Failurestatus,andO:Outofspecificationstatus)accordingtoNAMURNE107*.

*NAMURNE107“Self-MonitoringandDiagnosisofFieldDevices”

*2:Ifasearchforthefieldwirelessnetworkcontinuesforalongperiodoftimeinalowambienttemperatureenvironment,theLOWBATalarmmayoccurevenifnewbatteriesareused.Thisisattributedtoabatterycharacteristic.

Ifthereisnotanyproblemwiththebatteries,theLOWBATalarmwillbeclearedwithinonehourafterthetransmitterjoinsthefieldwireless network.

<9. Parameter Summary> 9-1

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9. Parameter SummaryTable 9.1 Parameter Summary

ObjectID

AttributeID Label Description Default value Handling

1.UAPMOblock

1 VersionRevision Indicates the application revision of YTMX580. This revision changes when the application software is downloaded.

R**.**.** R

10 Static Revision Whenaparameterischanged,+1isaddedtothepreviousvalue.Thiscanbeusedtodeterminewhetherornottheparameter was changed.

0 R

64 IdentificationNumber

IndicatesthevendorID,modelID,andrevisionofthedevice. 1.VenderID 2.ModelID 3.DeviceRevision

1. 005945432. 18023. ---

R

65 CTSVersion Indicatestheversionofthecommunicationstacktestsystem(CTS).

0 R

66 ITSVersion Indicates the version of the interoperability test system (ITS). 0 R67 DiagnosticStatus Indicatesthediagnosticresultsofthedevicebasedonthe

NAMUR NE0107* model.SettingDiagnosticStatustoONallowsturningOFFandONthedisplayofthediagnosticresultsforeachsummary,andchanging Categorize. For Categorize at the time of shipment, refertotables7.2“DiagnosticStatus”.

--- R

68 UAP OPTION AllowssettingtheDiagnosticStatusandwriteprotectionofUAP.DiagnosticStatusconfiguration 1:Enable,0:Disable(default)Hardware write protect 1:Enable,0:Disable(default)Software write protect 1:On,0:Off(default)The following table shows the relationship between the hardware write protection and software write protection.

Writeprotect switch

Parameter(UAPMO.UAPOption) Write

protect statsu

Hardwarewrite

protect

Softwarewrite

protectOfforOn Disable Off NoOfforOn Disable On ProtectedOff Enable OfforOn NoOn Enable OfforOn Protected

0. Disable W

69 DiagnosticSwitch WhenUAPOptionissettoEnableandDiagnosticStatusis set to Enable, enable or disable can be set for each bit of DiagnosticStatus.

0 W

70 DiagnosticConfiguration

WhenUAPOptionissettoEnableandDiagnosticStatusissetto Enable, categories based on NAMAR NE107 can be set for eachbitofDiagnosticStatus.

Refer to Table 9.2.

W

102 DiagnosticStatusDetail

DetailedinformationonDiagnosticStatus.ForCategorizeatthetime of shipment, refer to Table 9.2.

Refer to Table 9.2.

R

103 EnergyLeft Indicatesthenumberofdaysofremainingbatterylifeassumingambienttemperatureconditionas23degreesCelsius.Theunitis day.

2190 (Battery model)32767 (External powersupplymodel)

R

104 ResetEnergyLeft Resetstheremainingbatterypowercalculationtorestoreittoaremainingbatterypowercalculationwhichisbasedonnewbatteries. 0:Continue 1: Reset

0 (reading valueisalways 0)

W

(Cont. on next page.)Note:TSAPIDis2.


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ObjectID


1.UAPMO(continued)

105 PowerSupplyStatus

Indicatesremainingbatterylifeandpowersupplyofdevice. 0: external powered 1:batterypowered,greaterthan75%remainingcapacity 2:batterypowered,between25%and75%remaining

capacity 3:batterypowered,lessthan25%remainingcapacity

--- R

110 Hardware Write Protect

Allowsrecognizingthestatusofthehardwarewriteprotectionswitch. 0: Switch OFF 1: Switch ON

0 : OFF R

111 Radio Silence Repeatsacycleofa1-hourpauseand6-minutesearchifthetransmittercannotjointhenetworkafteratimespecifiedinRadio Silence has elapsed.

28800 W

2.UDOblock

2 DESCRIPTION Indicates the version and model information of the downloaded data.

--- R

3 STATE Indicates the present transition state. 0: Idle 1:Downloading 2: Uploading 3: Applying 4:DLComplete 5:ULComplete 6:DLError 7:ULError

0 : Idle R

5 MAX_BLOCK_SIZE

Maximumdownloadblocksize.ThisvalueissmallerthanthemaximumdatasizeofAPDU.

64 R

14 LAST_BLOCK_DOWNLOADED

Indicatesthelastdownloadedblocknumber.0meansthatnoblock has been downloaded.

0 R

16 ERROR_CODE IndicatestheerrorcodesforDLError. 0: noError 1:Timeout 2:ClientAbout 64:Applyfailure

0 : noErro R

3.COblock

1 REVISION IndicatestheversionlevelofComm_endpoint,etc. --- R2 COMM_

ENDPOINTIndicates the Endpoint information. The following shows the components. 1. Network address of remote endpoint 2. Transport layer port at remote endpoint 3.ObjectIDatremoteendpoint 4. Stale data limit 5.Datapublicationperiod 6.Idealpublicationphase 7.PublishAutoRetransmit 8.Configurationstatus

1. 0000:000 :0000:0000 :0000:0000 :0000:00002. 03. 04. 05. 306. 07. 08. 0

W

3 COMM_CONTRACT

Indicates the Contract information. The following shows the components. 1.ContractID 2.Contract_Status 3.Actual_Phase

1. 02. 03. 0

R

4 PUB_ITEM_MAX Displaysthemaximumnumberofitemsthatcanbepublished. --- R5 PUB_ITEM_NUM DisplaysthenumberofitemsthataresetinPUB_ITEM. --- R6 PUB_ITEM Setsitemsthatarepublished(upto9items).Thefollowing

shows the components. 1.ObjectID 2.AttributeID 3.AttributeIndex 4. Size

1.02.03.04.0

W



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ObjectID


4.TRANSDUCER block

1 TagDescription Memofieldavailabletowriteanything.(upto32letters) Transducer W2 Model Indicates the model name of the transmitter. YTMX580 R3 SerialNumber Indicatesthedevicenumberofthetransmitter. --- R5 WirelessStatus Indicatesthewirelesscommunicationstatus.

0:IndicatestheIdlestatus. 1:IndicatestheJoinstatus. 2:IndicateswhetherContract(Pub)hasbeenestablished.

(Not established / Established) 4: Indicates whether Contract (R/W) has been established.

(Not established / Established)

0.Idlestatus R

7 LEDMode SelectsthemodeofthestatusdisplayLED(RDY/ALM). 0:Onduringoperationinaccordancewiththedisplayspecification.(LEDON) 1:AlwaysOff.(LEDOFF)*Forthedisplayspecifications,refertotable3.1“DisplayDescriptionofStatusDisplayLED.”

0. On in accordance with the display specification

W

8 YTMX Option Indicatestheoptionalfunctionsupportedbythedevice.Thiscannotbechangedbytheuser. 1.Indicatestheunitsystemused.(SIsystem/Other)

Specify when ordering

R

9 Special Cmd Specialfunctionparameter. 0.Initialvalueatthetimeofreading(None) 1.Squawkmode(Squawk) 2.Deep-sleepmode(Standby)

To start from the deep-sleep mode, either remove and reinsert thebatterypackorusetheconfigurationtool.

0 (reading valueisalways 0)

W

10 UtilityFrequence Setscommercialpowerfrequencycut-offfilter. 0: 50Hz 1: 60Hz

0. 50Hz W

11 MearsurementRate

Displaysthemeasurementperiod(unit:second).1 to 3600

30 R

5. to 12.AI1 to AI8block

1 ProcessValue AI1toAI8isatemperatureoutputobject.Displaysanalogvalue(orthecorrespondingprocessvalue)andstatus.SettingthisinCOblockPUB_ITEMenablesdatatobeupdatedviawirelesscommunication. 1.Status:IndicatesthestatusoftheAI1toAI8outputvalue. RefertoTable9.3.”ProcessValue.status.

2.Value:AI1toAI8outputvalue.

1. ---2. ---

W

2 Mode Auniversalparametertoindicatetheblock’soperationstatus.O/S,Auto,andMancanbeselected. 1.Target:SpecifiestheAI1toAI8mode. 2.Actual:IndicatesthepresentAI1toAI8mode. 3.Permitted:Indicatesthemodethatcanbespecifiedin Target. 4.Normal:IndicatestheAI1toAI8normalstatusmode.

0x01: O/S 0x08:Manual 0x10:Auto

1.0x10:Auto2.0x10:Auto3. 0x19: O/S +Manual+Auto4.0x10:Auto

W

3 ConcentratorOID IndicatestheConcentratorobjectvaluethatcorrespondstothedataupdateoftheProcessValue.

--- R

4 Scale AllowsspecifyingtheupperorlowerlimitfortheProcessValuescaling,unitcode,etc.Fahrenheit(°F)andRankine(°R)cannotbesetifthetemperatureunitoftheoptioncodeis–A. 1.EUat100%:IndicatestheupperlimittotheProcessValue. 2.EUat0%:IndicatesthelowerlimittotheProcessValue. 3.UnitsIndex:IndicatesthesetunitusedfortheProcess Value.

<Unit> 1000: Kelvin 1001: degC ( °C ) 1002: degF ( °F) 1003: Rankin 1240:V 1243:mV 1281: Ohm 4.Decimal:1

1. 100.0f2. 0.0f3. 1001 : degC(°C)4. 1

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ObjectID


5. to 12.AI1 to AI8block(continued)

26 TagDescription Auniversalparametertostorethecommentthatdescribesthetag.(upto32letters)

Sensor*The asterisk (*) indicates the sensor inputnumber.

W

27 ProcessValueFilter Time

AllowsadjustingthedampingtimeconstantfortheProcessValue.Dampingtimeconstantsetlongerthanpublicationperiod. Settingunit:Second.

15. of W

28 SimulateSwitch SwitchforenablingordisablingofthesimulationfunctionfortheAl1 to Al8 objects. 1:Disable 2: Enable

1:Disable W

29 TransducerValue WhenSimulateSwitchissettoDisable,thisvalueisusedastheinputvaluefortheAI1toAI8object.Thetemperaturevaluecalculatedfromthephysicalvalueofthesensor.TheBiasvalueisaddedtothetemperaturevalue. 1.Status:IndicatesthestatusoftheAI1toAI8outputvalue. RefertoTable9.3.”ProcessValue.status.


1. ---2. ---

R

30 SimulateValue WhenSimulateSwitchissettoEnable,thisvalueisusedastheinputvaluefortheAI1toAI8object.Theinputvaluecanbechanged,buttechnicalunitisnotconvertedtooutputvalueoftheAIobject. 1.Status:IndicatesthestatusoftheAI1toAI8outputvalue. RefertoTable9.3.”ProcessValue.status.


1. ---2. ---

W

51 LinType Sets the sensor type. 0:Notused,102:Pt100(IEC60751), 103: Pt200 (IEC 60751), 104: Pt500 (IEC 60751), 128: Type B (IEC 60584), 131: Type E (IEC 60584), 133:TypeJ(IEC60584),134:TypeK(IEC60584), 135: Type N (IEC 60584), 136: Type R (IEC 60584), 137: Type S (IEC 60584), 138 Type T (IEC 60584), 240:mV,241:Ohm,242:V

102: Pt100 W

52 Bias AddstheBIAStemperaturevaluetothetemperaturevalue.ThisissetasatemperaturevaluetowhichavalueconvertedtotheunitsetintheUnitsIndexofSensorRangeisadded.

0.0f W

53 Sensor Range Indicatesthebasicinformationonthesensorused. 1.EUat100%:IndicatestheupperlimitofthesensorsetinLinType.

2.EUat0%:IndicatesthelowerlimitofthesensorsetinLinType.

3.UnitsIndex:SetstheunitforTransducerValue, SimulateValue,Bias,EUat100%,EUat0%,Reference

JunctionTempandExternalReferenceJunctionVale. 4.Decimal:0

1. 850.0f2. -200.0f3. 1001: degC(°C)4. 0

W

57 Reference JunctionTemp

Indicatestheterminalblocktemperaturevalueforthecoldjunctioncompensation.

--- R

58 Selection of Reference Junction

Setsthecoldjunctioncompensationwhenusingthethermocouplesensor. 0:Nocoldconjunctioncompensation(NoReference). 1:Internaltemperaturevalue(Internal). 2:Externaltemperaturevalue(External).

1: Internal temperaturevalue

W

59 External Reference JunctionValue

SetstheexternaltemperatureSetstheexternaltemperaturewhensettingthecoldjunctiontemperaturevalueofthethermocoupletotheexternaltemperaturevalueinSelectionofReferenceJunction.

0.0f W

61 Sensor Connection

SetsthenumberofconnectionswhenLinTypeistheresistancetemperaturesensor. 0: 2-wire (Two Wires) 1: 3-wire (Three Wires) 2:4-wire(FourWires)

1: 3-wire W



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ObjectID


5. to 12.AI1 to AI8block(continued)

102 Sensor Serial Number

Indicatestheserialnumberofthesensor,whichcorrespondstothetagassignedtothetemperaturesensor.

--- W

103 CalPointLo Setsthezero-pointadjustmentfortheinputadjustment(zero-gainadjustment)ofthesensor.BesuretoperformadjustmentwithCalPoint(zero-point)first.

--- W

104 Cal Point Hi Setsthegain-pointadjustmentfortheinputadjustment(zero-gainadjustment)ofthesensor.

--- W

105 Cal Point Clear Resetstheinputadjustmentvalueofthesensortothefactorysetting. 0: None 1: Clear

0: None W

106 ProcessValueType

SelectsdatatooutputtoProcessValue.Value. 0.%valueafterthescalingprocessisperformed.(Indirect) 1.Actualtargetvalueafterthefilterprocessisperformed.(Direct)

0:%valueafter the scaling process is performed

W

107 Reference JunctionUnit

SetstheunitforReferenceJunctionTempandExternalReferenceJunctionValue.Selectanyof°C(Celsius),K(Kelvin),°F(Fahrenheit),and°R(Rankine).Fahrenheit(°F)andRankine(°R)cannotbesetifthetemperatureunitoftheoptioncodeis–A.*Refertotheunitsforthe“Scale”.

1001: degC (°C)

W

108 BurnOutType Setstheburnout.Enabledwhen“LinType”issettootherthanmVorV. 0:OFF.Burnoutisnotset. 1:UP.Ifthesensorburnsout,themeasurementresultisfixedto+overrange. 2:DOWN.Ifthesensorburnsout,themeasurementresultisfixedto-overrange.

1. Up W

(Note) R: Read only, W: Read and Write(Note)“FactoryNAMURcategory”referstothefourcategories(C:Functioncheckstatus,M:Maintenancerequiredstatus,F:Failure

status,andO:Outofspecificationstatus)accordingtoNAMURNE107*.

* NAMURNE107“Self-MonitoringandDiagnosisofFieldDevices”


IM 04R01B01-01EN

Table 9.2 Diagnostic Status Detail

Bit Diagnostic Status Detail Description

Diagnostic Status

assignmentbit

NAMUR

DiagnosticStatusDetail.131 AMP ERR Amplifierfailure Bit27 F30 MEMORY ERR Memoryfailure Bit27 F27 Firm Update ERR Firmware write error Bit27 F26 ADCERR ADConverterfailure Bit27 F21 TERMSNSFAILURE CJCsensorburnout Bit26 F20 AMB TEMP HI Ambienttemperaturehigherlimitscaleout Bit22 O19 AMBTEMPLO Ambienttemperaturelowerlimitscaleout Bit22 O15 LOWBAT Lowbattery(Batterymodelonly) Bit19 M14 LOWBATFORDEEPSLEEP Deepsleepduetolowbattery(Batterymodelonly) Bit20 M11 FIRMWARECONDITIONCHECK Firmware internal error Bit21 MDiagnosticStatusDetail.231 SENSOR1FAILURE Sensor1burnout Bit26 F30 SENSOR2FAILURE Sensor2burnout Bit26 F29 SENSOR3FAILURE Sensor3burnout Bit26 F28 SENSOR4FAILURE Sensor4burnout Bit26 F27 SENSOR5FAILURE Sensor5burnout Bit26 F26 SENSOR6FAILURE Sensor6burnout Bit26 F25 SENSOR7FAILURE Sensor7burnout Bit26 F24 SENSOR8FAILURE Sensor8burnout Bit26 F15 SENSOR1 TEMP HI Sensor1temperaturehigherlimitscaleout Bit22 O14 SENSOR2 TEMP HI Sensor2temperaturehigherlimitscaleout Bit22 O13 SENSOR3 TEMP HI Sensor3temperaturehigherlimitscaleout Bit22 O12 SENSOR4 TEMP HI Sensor4temperaturehigherlimitscaleout Bit22 O11 SENSOR5 TEMP HI Sensor5temperaturehigherlimitscaleout Bit22 O10 SENSOR6 TEMP HI Sensor6temperaturehigherlimitscaleout Bit22 O9 SENSOR7 TEMP HI Sensor7temperaturehigherlimitscaleout Bit22 O8 SENSOR8 TEMP HI Sensor8temperaturehigherlimitscaleout Bit22 O7 SENSOR1TEMPLO Sensor1temperaturelowerlimitscaleout Bit22 O6 SENSOR2TEMPLO Sensor2temperaturelowerlimitscaleout Bit22 O5 SENSOR3TEMPLO Sensor3temperaturelowerlimitscaleout Bit22 O4 SENSOR4TEMPLO Sensor4temperaturelowerlimitscaleout Bit22 O3 SENSOR5TEMPLO Sensor5temperaturelowerlimitscaleout Bit22 O2 SENSOR6TEMPLO Sensor6temperaturelowerlimitscaleout Bit22 O1 SENSOR7TEMPLO Sensor7temperaturelowerlimitscaleout Bit22 O0 SENSOR8TEMPLO Sensor8temperaturelowerlimitscaleout Bit22 ODiagnosticStatusDetail.331 SENSOR1SPANADJERR Sensor1faultyinputofspanadjustmentvalue Bit25 C30 SENSOR2SPANADJERR Sensor2faultyinputofspanadjustmentvalue Bit25 C29 SENSOR3SPANADJERR Sensor3faultyinputofspanadjustmentvalue Bit25 C28 SENSOR4SPANADJERR Sensor4faultyinputofspanadjustmentvalue Bit25 C27 SENSOR5SPANADJERR Sensor5faultyinputofspanadjustmentvalue Bit25 C26 SENSOR6SPANADJERR Sensor6faultyinputofspanadjustmentvalue Bit25 C25 SENSOR7SPANADJERR Sensor7faultyinputofspanadjustmentvalue Bit25 C24 SENSOR8SPANADJERR Sensor8faultyinputofspanadjustmentvalue Bit25 C23 SENSOR1ZEROADJERR Sensor1faultyinputofzeroadjustmentvalue Bit25 C22 SENSOR2ZEROADJERR Sensor2faultyinputofzeroadjustmentvalue Bit25 C21 SENSOR3ZEROADJERR Sensor3faultyinputofzeroadjustmentvalue Bit25 C20 SENSOR4ZEROADJERR Sensor4faultyinputofzeroadjustmentvalue Bit25 C19 SENSOR5ZEROADJERR Sensor5faultyinputofzeroadjustmentvalue Bit25 C18 SENSOR6ZEROADJERR Sensor6faultyinputofzeroadjustmentvalue Bit25 C17 SENSOR7ZEROADJERR Sensor7faultyinputofzeroadjustmentvalue Bit25 C16 SENSOR8ZEROADJERR Sensor8faultyinputofzeroadjustmentvalue Bit25 C



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Bit Diagnostic Status Detail Description

Diagnostic Status

assignmentbit

NAMUR

15 AI1O/SMODE AI1 O/S Mode Bit24 C14 AI2O/SMODE AI2 O/S Mode Bit24 C13 AI3O/SMODE AI3 O/S Mode Bit24 C12 AI4O/SMODE AI4 O/S Mode Bit24 C11 AI5O/SMODE AI5 O/S Mode Bit24 C10 AI6O/SMODE AI6 O/S Mode Bit24 C9 AI7O/SMODE AI7 O/S Mode Bit24 C8 AI8O/SMODE AI8 O/S Mode Bit24 C7 AI1SIMULATEMODE AI1SIMULATEMODE Bit17 C6 AI2SIMULATEMODE AI2SIMULATEMODE Bit17 C5 AI3SIMULATEMODE AI3SIMULATEMODE Bit17 C4 AI4SIMULATEMODE AI4SIMULATEMODE Bit17 C3 AI5SIMULATEMODE AI5SIMULATEMODE Bit17 C2 AI6SIMULATEMODE AI6SIMULATEMODE Bit17 C1 AI7SIMULATEMODE AI7SIMULATEMODE Bit17 C0 AI8SIMULATEMODE AI8SIMULATEMODE Bit17 C

Table 9.3 Process Value.StatusStatus value Description0x80 Normal(Good_NonCascade::NonSpecific:NotLimited)0x03 Sensorunused(Bad::NonSpecific:Constant)0x0F Deviceerror(Bad::DeviceFailure::Constant)0x13 Sensorburnout(Bad::SensorFailure:Constant)0x1F O/SMode(Bad::OutOfService:Constant)0x48 Manualmode(Uncertain::SubstitutedOrManualEntry:NotLimited)0x50 Outsideofthemeasurementrange(Uncertain::SensorConversionInaccurate:NotLimited)0x54 Maladjustment(Uncertain::RangeLimitsExceeded:NotLimited)

E0901.ai

AI algorithm

Filtering ProcessValue

AI publishSimulate

valueSensorSignal

SIMULATELinearization

INPUT_RANGE

Linearization Scale

Process Value Filter Time Scale

Transducervalue

ExternalReferenceJunction Value

RJ.

Reference Junction TempSelection of Reference Junction

Bias

Lin Type

SwitchInput

Mode.Target

NO REF

+ +

ProcessValue Type

ProcessValue

Mode andProcess Value.Status handling

O/SAuto

Man

Operator

Operator

Operator

ProcessValue

ProcessValue

Figure 9.1 Example schema of analog input object

<10. General Specifications> 10-1

IM 04R01B01-01EN

10. GeneralSpecifications10.1 GeneralSpecification WIRELESSSPECIFICATIONS

Communication Protocol

ISA100 Wireless ( IEEE802.15.4 )

Data Rate

250 kbps

Frequency

2400 - 2483.5 MHz license free ISM band

Radio Security

AES128bitcodified

RF Transmitter Power

Max.11.6dBm(fixed)

Antenna

+2 dBi Omni directional type

MEASUREMENTRANGE

See Table 10.1

PERFORMANCESPECIFICATIONS

Accuracy

See Table 10.1

Cold Junction Compensation Accuracy

For T/C only±0.5°C(±0.9°F)(addedtoaccuracy)

AmbientTemperatureEffect(per1.0°Cchange)

See Table 10.2

Battery Pack (Battery Model)

Batterypackwithlonglifelithium-thionylchloride batteries. With the intrinsically safe type, the battery pack is replaceable in a hazardousarea.Typicalbatterylifeis6yearsat60secondspublicationperiodinthefollowingconditions.*• Networkconnection:JOINstatus• Ambienttemperature:23±2°C• Devicerole:IOfunctiononly• LEDindicator:off* Environmentalconditionsuchasambienttemperatureandvibrationmayaffectthebattery life.

FUNCTIONALSPECIFICATIONS

Number of Input

channels: 8 points

Input Signal

Thermocouples:B,E,J,K,N,R,S,T(IEC60584)RTDs:Pt100,Pt200,andPt500(IEC60751 ) 2-, 3-, and 4-wireDCvolts:mV(-10to100mV) V(-0.01to1V)Resistance: 2-, 3-, and 4-wire resistance ( 0 to 2000 Ohm ) DCmiliamperes:mA(4to20mA,withexternalshuntresistors.).Note: ExplosionproofingnotapplicableduringDCvoltages,DCmiliamperesinput.

Maximum Allowable Input Voltage

±2.5VDCCategoryO(Transientovervoltage330V)

Input Resistance

10MΩormore

Input Signal Source Resistance ( for T/C, mV )

1kΩorlower

InputLeadWireResistance(forRTD,Ohm)

10Ωperwireorlower

Output

ISA100 Wireless ( IEEE802.15.4) 2.4 GHz signal.

Publication Period ( Update Time )

1 to 3600 sec selectableMinimumof2secondswith4ormoremeasuringpoints.

Zero-gain Adjustment

Settheamountofzero-gainpointadjustment

Status Display

TheRDY(green)andALM(red)LEDsindicatethefollowingstatuses:Starting,Running,Waitingto“JOIN”(network),Squawk,Alarm,DeepSleep


IM 04R01B01-01EN

Sensor Burnout

SelectHIGH,LOWorOFFastheconfiguration.(setusingsoftware)

Self Diagnostics

Amplifierfailure,sensorfailure,configurationerror,batteryalarm,wirelesscommunicationalarm and over-range error for process variables.

Software Download Function

SoftwaredownloadfunctionpermitstoupdatewirelessfielddevicesoftwareviaISA100Wirelsswirelesscommunication.

Device Role

Thefollowing2devicerolesaresupporteddepending on the network topology.• IOFunctiononly(IO)• IOFunctionandRoutingFunction (IO+Router)

Infrared Communication

Datarate:9600bpsDistance:Infraredsurfaceofthenearinfraredadaptershouldbewithin30cm

Power Supply

• Battery Model2xprimarylithium-thionylchloridebatteries(sizeD)With battery case (batteries sold separately)

• ExternalPowerSupplyModelRatedsupplyvoltage:24VDCAllowablepowersupplyvoltagerange:10.5to26.4VDCPowerconsumption:Max1.2W

Insulation Resistance

Measuringinputterminaltogroundterminal: 100MΩorgreater(at500VDC)

Dielectric Strength

Dielectricstrengththatcanwithstandthefollowing conditions

• Battery ModelMeasuringinputterminaltogroundterminal: 500VAC(50/60Hz),1min,leakage

currentof5mAorlessBetweenmeasuringinputterminal: 200VAC(50/60Hz),1min,leakage

currentof5mAorless

• ExternalPowerSupplyModelPowerterminaltogroundterminal: 500VAC(50/60Hz),1min,leakage

currentof5mAorlessNote:Thepowersupplyterminalhasabuilt-insurge

protection device. Theterminalwithoutthesurgeprotectiondevice

has the dielectric strength shown above.Measuringinputterminaltogroundterminal: 500VAC(50/60Hz),1min,leakage

currentof5mAorlessBetweenmeasuringinputterminal: 200VAC(50/60Hz),1min,leakage

currentof5mAorless

Explosion-proof Construction

FM, CSA, ATEX, IECEx, TIIS intrinsically safe approval* FM: Nonincendive ( Class I ) CSA: Non-incendive ( Class I )


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NORMALOPERATINGCONDITION

(Optionalfeaturesorapprovalcodesmayaffectlimits. )

Ambient Temperature Limits

-40to85°C(-40to185°F)As for explosion protect type, see REGULATORYCOMPLIANCESTATEMENTS

Ambient Humidity Limits

0to100%RH

Storage Temperature

-40to85°C(-40to185°F)

Vibration

3Gorless,atresonantfrequenciesfrom10to2000 Hz ( IEC 60770-1 )

REGULATORYCOMPLIANCESTATEMENTS

Safety Standards

EN 61010-1, EN 61010-2-030, CSA C22.2 No.61010-1-12,CSA C22.2 No.61010-2-030-12,UL61010-1,UL61010-2-030(CSANRTL/C)OvervoltageCategoryIPollutionDegree2Indoor/Outdooruse

EMC Conformity Standards

EN61326-1ClassATable2(Foruseinindustriallocations),EN61326-2-3* Duringthetest,thetransmittercontinuesto

operateundertheelectromagneticeffectsofwithin±1%ofthespan.

EN 301 489-1, EN 301 489-17

RE Conformity Standards

ETSI EN 300 328, ETSI EN 301 489-1, ETSI EN 301 489-17, EN 62311

Regulation Conformity of the Wireless Module

• FCC Approval: Part15• IC Approval: RSS GEN, RSS 210• JapaneseRadioLaw: WirelessequipmentspecifiedinNo.19,Clause1,Article2oftheCertificationRule;2.4GHzSophisticatedLowPowerDataCommunicationSystem(ConstructionDesignAttestationNumber:007WWCUL0480)

KoreaCertification(RadioWaveAct)

한국어 (Korean)본제품은, KC마크 적합품입니다.등록번호: KCC-REM-YHQ-WEN007

기기명칭 :특정소줄력 무선기기（무선데이터통신시스템용 무선기기）제조 년월 : 제품본체의 주명판에 기재신청자 : 요꼬가와전기(주)제조자 : 요꼬가와전기(주)제조국가 : 일본

영어 (English)ThisisaconformingproducttoKCmarking(KoreanCertification).RegistrationNo.:KCC-REM-YHQ-WEN007

EQUIPMENTNAME:WIRELESSTRANSMITTERDATEOFMANUFACTURE:Seethenameplateoftheproduct.APPLICANT:YOKOGAWAELECTRICCORP.MANUFACTURER:YOKOGAWAELECTRICCORP.COUNTRYOFORIGIN:JAPAN

EMC and Radiocommunications regulatory arrangement in Australia and New Zealand (RCM)

AS/NZS 4268 AS/NZS 2772.2 EN61326-1ClassA,Table2(Foruseinindustriallocation)


IM 04R01B01-01EN

IECEx Intrinsically safe ApprovalCertificateNo.:IECExDEK12.0013XEx ia IIC T4 GaInputParameter:Ui=28V,Ii=135mA, Pi=850mW,Ci=0.013μF,Li=0.24mHSensorCircuitParameter:Uo=5.88V, Io=130.1mA,Po=191.2mW,Co=1μF, Lo=1mHAmbientTemperature:–50to70°CEnclosure:IP66/IP67

TIIS Intrinsically safe Approval Battery Model (Integral antenna)Approvalnumber:TC20543Ex ia IIC T4 XPowerSupply:Batterypack(F9915MA)orbatterycase(F9915NS)DC7.2VSensorCircuitParameter:Uo=5.88V, Io=130.1mA,Po=191.3mW,Co=1μF, Lo=1mHAmbientTemperature:–20to60°CEnclosure:IP66/IP67

Battery Model (Remote antenna)Approvalnumber:TC20816Ex ia IIC T4 XPowerSupply:Batterypack(F9915MA)orbatterycase(F9915NS)DC7.2VSensorCircuitParameter:Uo=5.88V, Io=130.1mA,Po=191.3mW,Co=1μF, Lo=1mHAntennaCircuit:Uo=5.88V,Io=177.4mA, Po = 349.5 mWAmbientTemperature:–20to60°CEnclosure:IP20

ExternalPowerSupplyModel(Integral antenna)Approvalnumber:TC21262Ex ia IIC T4 XInputParameter:Ui=28V,Ii=135mA, Pi=850mW,Ci=0.013μF,Li=0.24mHSensorCircuitParameter:Uo=5.88V, Io=130.1mA,Po=191.2mW,Co=1μF, Lo=1mHAmbientTemperature:–50to70°CEnclosure:IP20

Explosion Protect

FM Intrinsically safe,nonincendive ApprovalIntrinsicallySafeforClassI,Division1,GroupsA,B,C&D,ClassII,Division1,GroupsE,F&GandClassIII,Division1,ClassI,Zone0,inHazardousLocations,AExiaIICNonincendiveforClassI,Division2,GroupsA,B,C&D,ClassII,Division.2,GroupsF&GandClassIII,Division1,ClassI,Zone2,GroupIIC,inHazardousLocationsInputParameter:Ui=28V,Ii=135mA, Pi=850mW,Ci=0.013μF,Li=0.24mHSensorCircuitParameter:Voc,Uo=5.88V, Isc, Io = 130.1 mA, Po = 191.2 mW, Ca,Co=1μF,La,Lo=1mHAmbientTemperature:–50to70°C(-58to158°F)Enclosure:NEMAType4X

CSA Intrinsically safe ApprovalCertificateNo.:2495456IntrinsicallySafeforClassI,Division1,GroupsA,B,C&D,ClassII,Division1,GroupsE,F&G,ClassIII,Division1Non-incendiveforClassI,Division2,GroupsA,B,C&D,ClassII,Division2,GroupsF&G,ClassIII,Division1Enclosure:Type4X,IP66/IP67TemperatureCode:T4AmbientTemperature:–50to70°CEx ia IIC T4InputParameter:Ui=28V,Ii=135mA, Pi=850mW,Ci=0.013μF,Li=0.24mHSensorCircuitParameter:Uo=5.88V, Io=130.1mA,Po=191.2mW,Co=1μF, Lo=1mH

ATEX Intrinsically safe ApprovalCertificateNo.:DEKRA12ATEX0068XII 1 G Ex ia IIC T4 GaInputParameter:Ui=28V,Ii=135mA, Pi=850mW,Ci=0.013μF,Li=0.24mHSensorCircuitParameter:Uo=5.88V, Io=130.1mA,Po=191.2mW,Co=1μF, Lo=1mHAmbientTemperature:–50to70°CEnclosure:IP66/IP67


IM 04R01B01-01EN

ExternalPowerSupplyModel(Remoteantenna)Approvalnumber:TC21344Ex ia IIC T4 XInputParameter:Ui=28V,Ii=135mA, Pi=850mW,Ci=0.013μF,Li=0.24mHSensorCircuitParameter:Uo=5.88V, Io=130.1mA,Po=191.2mW,Co=1μF, Lo=1mHAntennaCircuit:Uo=5.88V,Io=177.4mA, Po = 349.5 mWAmbientTemperature:–50to70°CEnclosure:IP20

EnclosureIntheexamination,IP20enclosure,whichisthe lowest intrinsically safe explosion-proof requirement,hasbeenverified,butboththeintegrated antenna model and remote antenna modelcanbeusedinanenvironmentthatrequiresIP66/IP67.

PHYSICALSPECIFICATIONS

Enclosure

Housing

Lowcoppercastaluminumalloy

Coating• Standard coatingpolyurethane,mint-greenpaint.(Munsell5.6BG3.3/2.9oritsequivalent)

• High anti-corrosion coating (Option Code /X2)Base coating: epoxy resin coatingFinishcoating:polyurethanecoatingThe color is same as standard type.

Degrees of Protection

IP66/IP67, NEMA Type 4XNote: For Intrinsically safe Approval, refer to REGULATORYCOMPLIANCESTATEMENTS

Connections

G 1/2 female, 1/2-14 NPT female, or M20 X 1.5 female

Connection Terminal

4mm screw terminal

Name plate and tag

316 SST

Mounting Bracket

316 SSTSelectpipemountingorwallmounting

Weight

3.2 kg (7.05 lb)Withoutmountingbracket.

Accessories

Remote Antenna Cable (optional accessories)

(Only by order of option)SpecificationofCable:8D-SFA(HDPE)OutsideDiameterofCable:11.1mmMinimumBendRadius:67mm(whenfixing) 167 mm (when wiring)Cable End Treatment: N type connector, one end is male and the other is female.OperationlTemperatureRange:-40to+85°C (-40to185°F)

* “Whenfixing”showsthebendingradiusforfixing(thestateismaintainedforalongtime).“Whenwiring”showsthebendingradiuswhilechecking the wiring position. This bending radiusissetlargerthanthatforfixinginordertopreventdamagetothecablebecausethecableis likely to be repeatedly bent when checking thefinalwiringposition.


IM 04R01B01-01EN

Table 10.1 Sensor type, measurement range, and accuracy

Sensor Type Standard Measurement Range Accuracy

T/C

B

IEC 60584

100to1820°C(212.0to3308.0°F) Accuracynotguaranteedforlessthan400°C(752.0°F)±2.54°C(±4.57°F)intherangefrom400°C(752.0°F)ormoretolessthan800°C(1472.0°F)±1.54°C(±2.78°F)for800°C(1472.0°F)ormore

E -200to1000°C(-328.0to1832.0°F) ±0.80°C(±1.44°F)forlessthan0°C(32.0°F)±0.40°C(±0.72°F)for0°C(32.0°F)ormore

J -180to760°C(-292.0to1400.0°F) ±0.80°C(±1.44°F)forlessthan0°C(32.0°F)±0.70°C(±1.26°F)for0°C(32.0°F)ormore

K -180to1372°C(-292.0to2501.6°F) ±1.10°C(±1.98°F)forlessthan0°C(32.0°F)±1.00°C(±1.80°F)for0°C(32.0°F)ormore

N -200to1300°C(-328.0to2372.0°F) ±2.00°C(±3.60°F)forlessthan0°C(32.0°F)±1.00°C(±1.80°F)for0°C(32.0°F)ormore

R0to1768°C(32.0to3214.4°F) ±2.00°C(±3.60°F)forlessthan

200°C(392.0°F)±1.50°C(±2.70°F)for200°C(392.0°F)ormore

S0to1768°C(32.0to3214.4°F) ±2.00°C(±3.60°F)forlessthan

200°C(392.0°F)±1.40°C(±2.52°F)for200°C(392.0°F)ormore

T -200to400°C(-328.0to752.0°F) ±0.70°C(±1.26°F)

RTD

Pt100

IEC 60751

-200to850°C(-328.0to1562.0°F) ±0.30°C(±0.54°F)forlessthan400°C(752.0°F)±0.40°C(±0.72°F)intherangefrom400°C(752.0°F)ormoretolessthan500°C(932.0°F)±0.50°C(±0.90°F)for500°C(932.0°F)ormore

Pt200 -200to850°C(-328.0to1562.0°F) ±0.54°C(±0.98°F)forlessthan400°C(752.0°F)±0.64°C(±1.15°F)intherangefrom400°C(752.0°F)ormoretolessthan500°C(932.0°F)±0.74°C(±1.33°F)for500°C(932.0°F)ormore

Pt500 -200to850°C(-328.0to1562.0°F) ±0.38°C(±0.68°F)forlessthan400°C(752.0°F)±0.48°C(±0.86°F)intherangefrom400°C(752.0°F)ormoretolessthan500°C(932.0°F)±0.58°C(±1.04°F)for500°C(932.0°F)ormore

mV - -10to100[mV] ±0.035[mV]V - -0.01to1[V] ±0.001[V]

Ohm - 0to2000[Ω] ±1.0[Ω]Note1: ForT/Cinput,addColdJunctionCompensationAccuracy(±0.5°C)tothetotalaccuracy.Note2: ForRTDinputofthe2-wireconnection,addacorrectedvalue(±0.1°C)tothetotalaccuracy.Note3: ForDCmiliamperes(4to20mA),connectexternalshuntresistors.Note4: Explosionproofingnotapplicableto[DCvolts,DCmiliamperes].


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Table10.2 Effectsofambienttemperature

Sensor Type TemperatureEffectsper1.0°CChangeinAmbientTemperature Measurement Range

T/C

B0.2°C-(0.066%of(t-100)) t<300°C0.07°C-(0.0057%of(t-300)) 300°C≤t<1000°C0.037°C t≥1000°C

E0.035°C-(0.00492%oft) t<0°C0.035°C-(0.00146%oft) t≥0°C

J 0.0039°C-(0.00529%oft) t<0°C0.0039°C+(0.00149%oft) t≥0°C

K 0.00521°C-(0.00707%oft) t<0°C0.00521°C+(0.00182%oft) t≥0°C

N 0.0077°C-(0.00918%oft) t<0°C0.0077°C+(0.00136%oft) t≥0°C

R, S0.04°C0+(0.0102%oft) t<100°C0.0316°C-(0.001%oft) 100°C≤t<600°C0.0175°C+(0.00173%oft) t≥600°C

T 0.00513°C-(0.00631%oft) t<0°C0.00513°C+(0.0008%oft) t≥0°C

RTD

Pt100 0.0048°C+(0.0016%ofabsolutevaluet) EntireSensorInputRange

Pt200 0.0038°C+(0.0015%ofabsolutevaluet) t<650°C0.0028°C+(0.0016%oft) t≥650°C

Pt500 0.003°C+(0.0014%ofabsolutevaluet) t<650°C0.002°C+(0.0016%oft) t≥650°C

mV 0.0002mV+(0.0015%ofreading) EntireSensorInputRangeV 0.005mV+(0.0015%ofreading) EntireSensorInputRange

Ohm 0.001Ω+(0.0009%ofreading) EntireSensorInputRangeNote1: The“t”onTable10.2meansthevalueofthereadingin°C.Note2: The“absolutevaluet”onTable10.2meanstheabsolutevalueofthereadingin°C. [Exampleofabsolutevaluet] Whenthetemperaturevalueis250Kelvin,absreadingis23.15,absolute(250-273.15).


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10.2 ModelandSuffixCodesModel SuffixCode Descriptions

YTMX580 Multi-InputTemperatureTransmitterOutputSignal -L Wirelesscommunication(ISA100Wireless)Housing 7 Always 7

Electrical Connection0 G 1/2 female, nine electrical connections2 1/2 NPT female, nine electrical connections4 M20 female, nine electrical connections

Integral Indicator N None

MountingBracketL 316SST2-inchpipemountingW 316SSTwallmounting*1

N NonePowerSupply -A Battery(caseonly,batterynotincluded),withablindplug

-B 24VDC,withoutablindplugAntenna*5 A Integral antenna

B Remote antenna*4

Temperatureunit -A Cel, K*2

-B Cel, K, degF, degR*3

--- A Always AOption Codes Optionalspecifications(SeeOptionCode)*1: Forwallmounting,pleaseprepareboltsandnuts.*2: ThisisaJapan-onlyspecification(onlyavailabletoendusersinsideJapan).*3: InJapan,degF(°F)anddegR(°R)arenon-statutorymeasurementunits.Suffixcode-Bcanonlybespecifiedbyendusersoutside

ofJapan.*4: Order the remote antenna cables separately from accessary option.*5: Useofantennaislimitedbylocalregulationofradioandtelecommunicationlaw.ConsultYokogawafordetails.Note: “Cel“means“°C“,“degF“means“°F“and“degR“means“°R“.

10.3 OptionalSpecificationItem Description OptionCode

Coating High anti-corrosion coating /X2Factoryconfiguredsettings Factoryconfiguraedsettingwithmultipleinputs/ranges /FC1*1

Customizedproduct DetailsinIMYTMX-S#E*2 /S#*1: Iftheoptioncoderelatedtoexplosionprotectionisspecified,EitherDCV(mV)orDCV(V)assensortypeisshouldNOTbeapplied.*2: Contactyoursupplierincaseyourinstrumenthasoption/S#(where‘#’isanumber),andyouarenotinthepossessionofIM

YTMX-S#E.

Table A. Settings upon shipment

Tag No. “Blank”orasspecifiedinorderSensor type AsspecifiedinorderNumberofwiresforRTD “3-wires”orasspecifiedinorderCalibration range lower limit

SeeTable10.1.MeasurementRangeorasspecifiedinorderCalibration range Upper limitCalibrationunit

10.4 OptionalSpecifications(ForExplosionProtectedtype)Item Description OptionCode

Canadian Standards Association (CSA) CSA Intrinsically safe and Approval non-incendive approval /CS17*1

FactoryMutual(FM) FM intrinsically safe and nonincendive approval /FS17*1

JapaneseIndustrialStandards(TIIS) TIIS intrinsically safe approval /JS37*1

ATEX ATEX intrinsically safe approval /KS27*1

IECEx Scheme IECEx intrinsically safe approval /SS27*1

*1: /CS17,/FS17,/JS37,/KS27,/SS27cannotbespecifiedtogether.


IM 04R01B01-01EN

10.5 Standard AccessoriesProduct Qty

User’smanual(Booklet) 1Mountingbracket*1(2-inchpipemountingorwallmounting) 1 setBattery case ( installed in the main body. )*3 1Remote antenna*2 1

*1: Notincludedifspecifyingnomountingbrackets(MountingbracketsuffixcodeisN).*2: Withtheremoteantennaoption(AntennatypesuffixcodeisB).*3: Whenbatteryisspecifiedforthepowersupply(powersupplysuffixcodeis-A)

10.6 OptionalAccessoriesProduct Model code (part number) Specification

Antenna cable*1 F9193UA Antennacable1m,Operationltemperaturerange:-40to+85°C,Withremoteantennamountingbracket.

F9193UB Antennacable3m,Operationltemperaturerange:-40to+85°C,Withremoteantennamountingbracket.

F9193UC Antenna cable 4 m (1 m+3 m) with arrestor, Operationl temperaturerange:-40to+85°C,Withremoteantennamountingbracket.

F9193UD Antenna cable 6 m (3 m+3 m) with arrestor, Operationl temperaturerange:-40to+85°C,Withremoteantennamountingbracket.

F9193UE Antenna cable 13 m (3 m+10 m) with arrestor, Operationltemperaturerange:-40to+85°C,Withremoteantennamountingbracket.

Antenna*1 F9193DH +2 dBi Remote Antenna (White)

*1: Useofremoteantennacableislimitedbylocalregulationofradioandtelecommunicationlaw.ConsultYokogawafordetails.

Product Model code (part number) SpecificationBattery pack assembly F9915NQ*1 Batterycase,Lithium-thionylchloridebatteries2piecesBattery case F9915NK *2 Battery case onlyBatteries F9915NR Lithium-thionylchloridebatteries,2piecesFront door part B8808DE Front door Gasket, 1 piece

B8808DM FrontdoorBoltCap(Long),1pieceB8808DN Front door Bolt Cap (Short) , 1 pieceB8808EM Front door Bolt SUS316, 1 piece

Bracket B8808DW 2BPipeMountingBracketSUS316B8808DV WallMountingBracketSUS316

Shuntresistor X010-050-1 50Ω±0.1%,for4mmscrewterminals,Operationltemperaturerange:-25to+80

*1: IfyouneedF9915MA,pleasepurchaseF9915NQ.F9915NQisasetofF9915MAandinstructionmanual.*2: IfyouneedF9915NS,pleasepurchaseF9915NK.F9915NKisasetofF9915NSandinstructionmanual.


IM 04R01B01-01EN

Model SurffixCode DescriptionYTMXBP Blindplugforelectricalconnection

TypeandQuantity

-A1 G 1/2, 1piece-A4 G 1/2, 4pieces-A7 G 1/2, 7pieces-C1 1/2 NPT, 1piece-C4 1/2 NPT, 4pieces-C7 1/2 NPT, 7pieces-D1 M20, 1piece-D4 M20, 4pieces-D7 M20, 7pieces


IM 04R01B01-01EN

Note:Ifnotspecified,thetoleranceis±3%.However,fordimentionslessthan10mm,thetoleranceis±0.3mm.

10.7 Dimensions 2-inchverticalpipemounting

E1001.ai

133.8 (5.27)

118 (4.65)118 (4.65)

120 (4.72)

253.

5 (9

.98)

125 (4.92)

147.3 (5.80)

67.3

110

(4.3

3)

45.2

2-inch pipe(O.D. 60mm)

Mountingbracket

173

(6.8

1)

335.

5 (1

3.21

)

Height of directly attach the remote antenna to the body

(1.78)(2.65)

48 48 48 48

3055

.8

48 48 48

Electrical connection

(1.89)

(1.89)

(1.1

8)(2

.20)

Unit: mm (approx. inch)


IM 04R01B01-01EN

2-inchhorizontalpipemounting

E1002.ai

173

(6.8

1)

253.8 (9.99)

89.5

(3.5

2)16

4 (6

.46)

125 (4.92)

147.3 (5.80)

67.3

110

(4.3

3)

45.2

246

(9.6

9)89

.5 (3

.52)


(1.78)(2.65)

48 48 48 48

48 48 48

3055

.8

Electrical connection(1.89)

(1.89)

(1.1

8)(2

.20)

2-inch pipe(O.D. 60mm)




IM 04R01B01-01EN

Wallmounting

E1003.ai

256 (10)

276 (10.87)

184

(7.2

4)

143 (5.63)

335.

5 (1

3.21

)33

8 (1

3.31

)

256

(10.

08)

164

(6.4

6)

Mounting bracket

10

10


48 48 48 48

48 48 48

3051

.3

(1.89)

(1.89)

(1.1

8)(2

.02)

Electrical connection

(0.39)


4-Ø6.2 (0.24) hole

Wall mounting dimensions4-Φ6.2±0.2 holeor M5 tapping

164±0

.5(6

.46±0

.02 )

256±0.5(10.08±0.02)



IM 04R01B01-01EN

Remoteantennabracket

E1004.ai


2-inch pipe

71.7 (2.82)17 (0.67) 37.3 (1.47)17.5 (0.69)

87.7

(3.4

5)

98 (3.86)

135

(5.3

1)29

2 (1

1.50

)

minimum R67

RemoteAntenna/Cable

Main unit Main unit

Antenna

Antenna

CableLength : 1 m or 3 m (selectable)

Cable 2Length : 3 m or 10 m (selectable)

Cable 1Length : 1 m or 3 m (selectable)

E1005.ai

<With arrester><Without arrester>

Arrester

150

18

Ø20.5

Antenna

Antenna

* Non-direction antenna

* Gain : +2 dBi

* Part Number : F9193DH

Remote antenna

High-frequency coaxial cable

*Sheath dia. : 11.1 mm



IM 04R01B01-01EN

InfraredConfiguration

E1006.ai

Infrared port

TerminalConfiguration

E1007.ai

Ground terminal

Ground terminal

InputWiring

(+)(–) (B)

(A) (b)(B)

(A)(A)

(b)(B)

(a)

50Ω(+)(+)

(–)(–)

E1008.ai

Current（4~20mA）

T/C or DC milivolts two-wireRTD or ohm

three-wireRTD or ohm

four-wireRTD or ohm

4~20mADevice

PowerSupply

ExternalPowerSupplyWiring

E1009.ai

External Power Supply24V DC

i

IM 04R01B01-01EN

Revision Information Title : YTMX580 Multi-InputTemperatureTransmitterManualNo. : IM04R01B01-01EN

Edition Date Page Revised Item1st Sep. 2011 — Newpublication2nd Feb. 2012 1-2, 2-1, 2-4,

2-5, 10-210-3, 10-7

—

• Additionsofdescriptionsforregulatorycompliancestatements(CE,FCC,IC, KC ).

• additionsofoperationltemperaturerangeforremoteantennacable.• Corrections

3rd July.2012 2-3 to 2-10—

• AddedsupportforExplosionProtectedTypeInstrument.• Change the KC Marking CertificationNo.• Corrections

4th Feb. 2014 1-2 AdditionoftheControlofPollutionCausedbytheProduct.1-3 Addition of the safety symbols.2-1, 4-3, 10-13 Changeofdimension(Remoteantennaandmountinghardware).2-1, 2-8, 2-9 Change the name plate.2-11, 10-1, 10-2 SupportforCompliantwithSafetyStandards(IEC/EN/UL/CSA61010-13rd

edition).2-9 to 2-11, 8-3, 8-5, 10-2, 10-3, 10-7

SupportforTIISintrinsicallysafeapproval.

2-11 Change for EMC Conformity Standards, Safty Standard.2-13, 10-3 AdditionoftheEMCandRadiocommunicationsregulatoryarrangementin

AustraliaandNewZealand(RCM).10-6 Correct(TemperatureEffectsper1.0°CChangeinAmbientofsensor

TemperatureofsensortypeB).2-4, 2-5, 2-11, 2-12, 3-1, 4-3, 5-1, 5-5, 7-14, 8-1, 10-2,10-4, 10-5, 10-6, 10-7, 10-8

Other addition and correct.

10-4, 10-8 Changeofoperationltemperaturerange(antennacable).10-8 Addition of the optional accessories.

5th Mar, 2017 1-1, 2-3, 2-4 to 2-8, 2-10 to 2-18, 5-1 to 5-3, 6-1, 6-4, 7-7, 7-11, 7-13, 8-2, 8-3, 8-8, 9-1, 9-6, 10-2, 10-4, 10-5, 10-8, 10-15

TIIS, FM, CSA, ATEX, IECEx intrinsically safe approval description for the 24 VDCexternalpowersupplymodel(remoteantennamodel)

5-1, 7-8, 9-4, 10-1, 10-6

ModificationsforRTDIECstandardnumber

2-2, 6-1, 7-1, 8-1, 10-1, 10-8

Notation change to ISA100 Wireless

6th Aug,2018 ---1-35-6

DeletetheATEXDocumentation.ChangesofControlofPollutionCausedbytheProductAddition of the IMPORTANTforGrounding.

7th Oct, 2018 10-4, 10-5 ChangesofPovalue2-20, 10-3 Notation change to RE

ytmx580 multi-input temperature transmitter · user’s manual yokogawa electric corporation...

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