INSTRUCTION MANUAL TEMPERATURE CONTROL · PDF file• Base (model: R3–BS) •...
Transcript of INSTRUCTION MANUAL TEMPERATURE CONTROL · PDF file• Base (model: R3–BS) •...
R3-TC2
P. 1 / 37EM-8468 Rev.25-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPANPhone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
CONTENTS
BEFORE USE .... ........................................................................................................... 2
POINTS OF CAUTION ...................................................................................................... 2
COMPONENT IDENTIFICATION .......................................................................................... 2
INSTALLATION ............................................................................................................. 2
EXTERNAL DIMENSIONS unit: mm (inch) ............................................................................. 3
WIRING INSTRUCTIONS .................................................................................................. 3
TERMINAL CONNECTIONS ............................................................................................... 4
FUNCTION DESCRIPTIONS ............................................................................................... 5
SYSTEM CONFIGURATIONS & CONTROL EXAMPLES ................................................................ 6
OPERATION ................................................................................................................. 7
MODBUS COMMUNICATION ........................................................................................... 12
SETTING .................................................................................................................. 14
UNIVERSAL INPUT ...................................................................................................... 16
CONTROL OUTPUT ...................................................................................................... 19
LOOP ...................................................................................................................... 21
BANK ...................................................................................................................... 28
EVENT INPUT ............................................................................................................. 34
CT INPUT ................................................................................................................. 35
AUTO-TUNING............................................................................................................ 37
TEMPERATURE CONTROL MODULE MODEL R3-TC2INSTRUCTION MANUAL
R3-TC2
P. 2 / 37EM-8468 Rev.25-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPANPhone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
BEFORE USE ....Thank you for choosing M-System. Before use, please check contents of the package you received as outlined below.If you have any problems or questions with the product, please contact M-System’s Sales Office or representatives.
■ PACKAGE INCLUDES: Temperature control module (control module + CJC sensor, 2 pcs.) .......................... (1)
■ MODEL NO.Confirm that the model number described on the product is exactly what you ordered.
■ INSTRUCTION MANUALThis manual describes necessary points of caution when you use this product, including installation, connection and basic maintenance procedures.
POINTS OF CAUTION■ HOT INSERTION/REMOVAL OF MODULESRemoving or replacing modules does not affect other mod-ules on the same backplane. It is possible to replace them without removing the power supply. However, replacing multiple modules at once may greatly change line voltage levels. We recommend that you replace them one by one.
■ ENVIRONMENT•Indooruse•Whenheavydustormetalparticlesarepresentintheair,
install the unit inside proper housing with sufficient ven-tilation.
•Donotinstalltheunitwhereitissubjectedtocontinuousvibration.Donotsubjecttheunittophysicalimpact.
•Environmentaltemperaturemustbewithin-10to+55°C(14to131°F)withrelativehumiditywithin30to90%RHin order to ensure adequate life span and operation.
■ WIRING•Do not install cables (power supply, input and output)
close to noise sources (relay drive cable, high frequency line, etc.).
•Do not bind these cables together with those in whichnoisesarepresent.Donotinstalltheminthesameduct.
■ UNUSED INPUT CHANNELS•Unused channels canbe specifiedand set so on thePC
Configurator Software (model: R3CON) without needing to short at the field terminals.
■ AND ....•Theunitisdesignedtofunctionassoonaspowerissup-plied,however,awarmupfor10minutesisrequiredforsatisfying complete performance described in the data sheet.
COMPONENT IDENTIFICATION
■ FRONT VIEW
■ STATUS INDICATOR LEDRUN indicator:Bi-color(red/green)LED; Red when the internal bus operates normally.ERR indicator:Bi-color(red/green)LED; Redatdeviceerror; Green in normal operating conditions.Loop status indicators:RedLED RUN1: Turns on while loop 1 is in operation. AUTO1: Turns on during auto mode, turns off during
manual mode with loop 1 ERR1: Turns on at error with loop 1 ALM1: Turns on at alarm with loop 1 RUN2: Turns on while loop 2 is in operation. AUTO2: Turns on during auto mode, turns off during
manual mode with loop 2 ERR2: Turns on at error with loop 2 ALM2: Turns on at alarm with loop 2
INSTALLATIONUsetheInstallationBase(model:R3-BSx).
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CJC SENSOR(2)
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Loop Status IndicatorRUN1AUTO1ERR1ALM1RUN2AUTO2ERR2ALM2
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ERR LED
RUN LED
R3-TC2
P. 3 / 37EM-8468 Rev.25-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPANPhone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
EXTERNAL DIMENSIONS unit: mm (inch)
WIRING INSTRUCTIONS■ SOLDERLESS TERMINAL mm (inch)Refer to the drawing below for recommended ring tongue terminal size. Spade tongue type is also applicable. Solder-less terminals with insulation sleeve do not fit. Applicable wiresize:0.3–0.75mm2
3.2 (.13) dia.4 min.(.16)
12 (.47) max.
6 m
ax.
(.24)
3 (.12) max.
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CJC SENSOR (2)
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(.24)
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(5.1
2)
27.5 (1.08) 109 (4.29)POSITIONINGGUIDE
TERMINAL COVER
20–M3SCREW
R3-TC2
P. 4 / 37EM-8468 Rev.25-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPANPhone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
TERMINAL CONNECTIONSConnect the unit as in the diagram below.
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–Mv2
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–
Pv1UNIVERSAL INPUT
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–
Mv1
Do1
Mv2
Do2
CT 1
Di 1
Di 2
•DC Voltage (-10 – +10V DC) •DC Current (0 – 20mA DC)
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–
CJCSENSOR
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–
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–
INPUT+
–
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•DC Voltage (-1000 – +1000mV DC)
INPUT+
–
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•Thermocouple
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•RTD/Resistor (3-wire)
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•Potentiometer
comp. leadwire
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•RTD/Resistor (2-wire)
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B
MAX
MIN
+
–
•DC Voltage (-10 – +10V DC) •DC Current (0 – 20mA DC)
•Clamp-on current Sensor
■ DISCRETE INPUT CONNECTION e.g.
Di 1
Di2
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–
CJCSENSOR
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–
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–
INPUT+
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•DC Voltage (-1000 – +1000mV DC)
INPUT+
–
•Thermocouple
•RTD/Resistor (3-wire)
•Potentiometer
comp. leadwire
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•RTD/Resistor (2-wire)
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MIN
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–
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Load Side
Power Side
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■ CONTROL OUTPUT 1 & 2 CONNECTION e.g.
■ CONTROL OUTPUT 3 & 4 CONNECTION e.g.
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–
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INTERNAL POWER
BUS
■ UNIVERSAL INPUT CONNECTION (Pv1) e.g.
CT 2
Pv2UNIVERSAL INPUT
Mv1
Do2
Do1
■ UNIVERSAL INPUT CONNECTION (Pv2) e.g. ■ CT 1 / CT 2 CONNECTION e.g.
BU
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ON
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CT
OR
R3-TC2
P. 5 / 37EM-8468 Rev.25-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPANPhone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
FUNCTION DESCRIPTIONS
■ UNIVERSAL INPUT• Input types 1)DC:0−20mA/-1000−+1000mV/-10−+10V 2)Potentiometer:Max.totalresistance4000Ω 3)Resistor:Max.4000Ω 4)RTD:Pt100/Pt500/Pt1000/Pt50Ω/JPt100/ Ni508.4Ω/Cu10 5)Thermocouple:(PR)/K/E/J/T/B/R/S/C/N/U/ L/P• Two input points can be assigned respectively with one of theselections(1)through(5).
• Samplingcycle:100milliseconds• Burnout detection available for potentiometer, resistor, RTDandthermocoupleinputs
• Coldjunctioncompensationsensorsforthermocouplein-put included in the product package
• Fineinputadjustmentavailable• DC,potentiometerandresistorinputscanbescaledinto
temperature ranges.• Firstorderlagfilterforinputsignals
■ CONTROL OUTPUT• Output types 1)12VDCpulse/0−20mADC/0−10VDC selected by model number suffix code when ordering 2) Open collector• Two output points by the selection (1) plus two output
points with the selection (2)• Controlcycle0.1to99.9seconds• Output resolution 1 millisecond• PV,SPandMVsignalscanbescaledandprovidedasdutyratiooutput;Alarmcontactoutput(ON/OFF)alsoavail-able
• MinimumON/OFFpulsewidthcanbespecifiedforrelaylife protection
■ CONTROL LOOP• Control strategies 1)StandardPIDcontrol 2)Heating-coolingPIDcontrol (independentPIDoperationforheatingandcooling) 3)Heating-coolingON/OFFcontrol (heating-only or cooling-only output is possible.)• Two control loops can be assigned respectively to one of
the selections (1) through (3).• Limit cycle method auto-tuning• Direct/reverseactionselectableforstandardPIDcontrol• Input2canbecascadedtoloop1asitsSP(remoteSP)• MVtrackingfunction:MVinmanualmodeiscarriedon
into auto mode.• High/lowlimitsselectableforSPandMVvalues• SpecificMVvaluesapplicableatSTOP/abnormality.• ThreePValarmmodesselectableforeachloop• Fourbanksettingsavailableforeachloop;Bankscanbe
switched during operation.• Bank setting SP/SPriseramp/SPfallramp/P/I/D/CoolingP/CoolingI/CoolingD/Heatingsensitivity/Coolingsensi-tivity/Deadband/PValarmhigh/lowlimits
■ EVENT INPUT• Two discrete input points can be assigned to a specific
event.• Eventtypes Switching banks / Switching operation / Switching manu-al/automode/Switchinglocal/remoteSP
■ CT INPUT• Input type M-Systemclamp-oncurrentsensor(model:CLSE)• Two input points can be assigned respectively to monitor
specific control output status.• One signal can watch heater wire break, SSR shortcircuit
failure and overload at once.• Control output must be turned on for at the minimum of 110milliseconds todetectaheaterwirebreak;mustbeturnedoffforattheminimumof200millisecondstode-tect an SSR shortcircuit failure.
■ COMMUNICATION• MonitoringandsettingcanbeperformedeasilywithPC
Configurator Software (model: R3CON).• Variousvaluescanbereadoutvianetworkcommunica-tion(dataallocationmode:8)
• Modbus interface module (model: R3-NM3) available with the R3 extension area communication realizes a large ca-pacity data reading/writing.
R3-TC2
P. 6 / 37EM-8468 Rev.25-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPANPhone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
SYSTEM CONFIGURATIONS & CONTROL EXAMPLES
Relay
Oven
Heater Power
R3–BSR3–NM3R3–TC2
■ 1 loop heating ON/OFF control and heater wire break detection1. Installation example:• Base (model: R3–BS)• Interface Module (model: R3–NM3)• Temperature Control Module (model: R3–TC2)• Clamp-on Current Sensor (model: CLSE)• Oven• Heater• Relay• Temperature sensor
2. Proccess until start operating:
CLSE
Relay Power
CONTROL OUTPUT 3 (Do1)
UNIVERSAL INPUT 2 (Pv2)
CT INPUT 1
RyHeater
Turn ON power supply
Set input sensor type and range
Set CT input to wire break detection
Select control mode (ON/OFF Control)
Specify target temperature (SP)
Select operation mode (auto)
Start operation
Temp. Sensor
R3–BSR3–PS1R3–NM3R3–TC2R3–SV4
■ 1 loop heating and cooling control (PID)1. Installation example: • Base (model: R3–BS) • Power Supply Module (R3–PS1) • Interface Module (model: R3–NM3) • Temperature Control Module (model: R3–TC2) • DC Voltage Input Module (model: R3–SV4) (Other R3 modules also available) • Object to heat/cool • Temperature sensor
2. Proccess until start operating:
Control output 2 (Mv2) Control output 1 (Mv1)
UNIVERSAL INPUT 1 (Pv1)
Object to heat/cool
Cold water
Hot water
Select control mode (PID)
Set deadband
Specify target temperature (SP)
Select operation mode (auto)
Start operation
Temp. Sensor
Turn ON power supply
Set input sensor type and range
Note: The examples above are for single loop, however, dual loop control is also availabe using only one R3-TC2.
R3-TC2
P. 7 / 37EM-8468 Rev.25-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPANPhone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
OPERATION
■ GETTING READY WITH PC CONFIGURATOR SOFTWARE (model: R3CON)ThePCConfiguratorSoftwareisusedtosetupvariousparametersfortheTemperatureControllerModuleandtoperformauto-tuning.ConnecttheCONFIGporttothePCandstartuptheR3CON.TheflowchartbelowshowshowtomovetotheController’ssetting window. In this example, the R3-TC2 is supposed to be installed in the slot 1.
Click [Connect] under [Connect] menu Choose ‘TC2S’ from the list
Click [Settings] button
Choose a COM port and click OK
Click [Upload] button
R3-TC2
P. 8 / 37EM-8468 Rev.25-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPANPhone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
■ R3CON CONFIGURATION WINDOWThe Controller’s setting window is as shown below.ThetrendgraphshowsrealtimePVandMVstatus,andparametersandoperationstatuscanbemonitored.
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(1) MONITOR WINDOWTrend graph shows PV, SP and MV for loop 1 and 2.Choose Loop 1 or Loop 2 tub at the top.Trend data for both loops is continuously stored even though only one loop is chosen at a moment. (2) SWITCHING OPERATION / MODEControl operation and mode is set with the buttons. (3) ALARM INDICATORS / RESET BUTTONSAlarm status of the selected loop is indicated.Various alarm status can be reset by clicking [Reset PV], [Reset CT] and [Reset All]. (4) SETTING ITEMS TREE & LISTSetting parameters are grouped in the menu tree.Choose a specic group to show a parameter list to choose from. Modied selections / values are written in the device immediately. (5) CT INPUT INDICATORSCTx(ON) display shows current value when the relevantcontrol output is ON; while CTx(OFF) shows current when it is OFF.‘ - ’ shows that the control output has not been switched on or off during the last control cycle.
(6) BANK[Switch Bank] dialog box appears when [Bank] button is clicked. Choose a bank and click OK to apply the change.
(7) AUTO-TUNING[Auto-tuning] dialog box appears when [Auto-tuning]is clicked.Choose a bank and click OK to start auto-tuning for the specied bank.
(8) MANUAL MV[Set MV Manually] dialog box appears when [Manual MV] button is clicked.Enter a MV value and click OK to apply the change(only in MAN mode).
(9) SETTINGSGraph scales in the trend graph and display languagecan be changed.[Settings] dialog box appears when the button is clicked.(10) Y axis max / Y axis minSpecify a full-scale temperature range for Y axis.Selectable from -9999.9999 to +9999.9999. Minimum span is of 0.2.(11) X axis time spanSpecify a full-scale time span for X axis.Selectable among:10 sec. 30 sec. 1 min. 3 min. 5 min.10 min. 15 min. 30 min. 1 hour 2 hours(12) Display LanguageEnglish and Japanese can be switched. (13) RELOADUsed to upload the setting from the device.Alternatively press F5 button on the keyboard to reload.
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R3-TC2
P. 9 / 37EM-8468 Rev.25-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPANPhone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
■ SETTING EXAMPLE 1: TEMPERATURE CONTROL WITH STANDARD PIDThefollowingisanexampletocontroltemperatureofloop1to40.0°CbystandardPIDcontrol.
(1)ConnectPt100totheuniversalinputterminal1tomeasuretemperature.ConnectalsoanSSRandaheatertothecontroloutput 1.
(2) Go to the setting items tree and change the following parameters.
SETTING ITEMS TREE PARAMETER SELECTIONUniversalinput1 Input type RTDPt100Universalinput1 Wiring 3 wiresControl output 1 Output assignment Loop 1, Heating controlLoop1,Bank0 SP(setpointvalue) 40.0
(3)ConfirmthatPt100iscorrectlyconnectedtotheuniversalinput1andthecontrolledobject(heater,etc)forheatingcontrolto the control output 1.
(4)ClickRUNbuttonandAUTObuttonlocatedbelowthetrendgraphtostartcontroloperations.IndicatorsSTOPandMANareswitchedrespectivelytoRUNandAUTO.
(5)ClickAuto-tuningbuttonlocatedbelowthetrendgraphtoshowtheAuto-tuningdialogbox.ChooseBank0andclickOK.
(6)TheControllerstartsauto-tuning.IndicatorATstartsblinking.ClickSTOPbuttontostoptheauto-tuning.(7)IndicatorATstopsblinkingtostartcontroloperationwhentheauto-tuningiscomplete.(8)Gotothesettingitemstreeandchangethefollowingparameterssothatthecontroloperationautomaticallystartsatthe
start up of the device.
SETTING ITEMS TREE PARAMETER SELECTIONLoop 1 Operation at startup RUNLoop 1 Control mode at startup AUTO
Now the setting is complete.
SSR
Power Supply
Heater
R3-TC2
Pt100
Universal Input 1
Control Output 1
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R3-TC2
P. 10 / 37EM-8468 Rev.25-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPANPhone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
■ SETTING EXAMPLE 2: HEATER WIRE BREAKIn addition to the setting example 1 configuration, the heater’s wire break can be detected using a CT input. Suppose that the heaterhas100V/1kWrating,drivenbyanSSR.
(1)Currentflowingthroughtheheateriscalculatedintheequation:1kW/100V=10A.ChoosethecurrentsensormodelCLSE-05,forthemaximumof50Arating.ConnectthesensortoCTinput1asinthefigurebelow.
(2) Go to the setting items tree and change the following parameters.
SETTING ITEMS TREE PARAMETER SELECTIONCT input 1 CT sensor type CLSE-05CT input 1 Output assignment Control output 1
(3)Oncetheabovesettingiscomplete,theControllermeasurescurrentvaluesofthecontroloutput1atONandOFFstates.TheCT1(ON)displayshows(approx.)10AandtheCT1(OFF)displayshows(approx.)0.0A.
(4) Set a threshold for the heater wire break. Setto5.0A,avaluehalftherating(approx.10.0A).
SETTING ITEMS TREE PARAMETER SELECTIONCT input 1 Heater wire break alarm EnableCT input 1 Heater wire break alarm setpoint 5.0
(5)Setalsothefollowingitemsifthewirebreakshouldbealertedatthecontroloutput3(opencollector).
SETTING ITEMS TREE PARAMETER SELECTIONCT input 1 Heater wire break alarm output Control output 3Control output 3 Output assignment Alarm OR
Now the heater wire break alarm setting is complete.
SSR
Power Supply
Heater
R3-TC2
CLSE-05
CT Input 1
Control Output 1
R3-TC2
P. 11 / 37EM-8468 Rev.25-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPANPhone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
■ SETTING EXAMPLE 3: SWITCHING SETPOINT VALUE BY EVENT INPUT The Controller has two discrete inputs for event control input.AtthemaximumoffoursetsoftemperaturesetpointsandPIDparameterscanbepredefinedandstoredinthe‘banks.’Theexternal event input can be used to switch among these banks. Inthisexample,theControllerissetaccordingtotheexample1forthesetpoint40.0°C.Byusingbanks,anadditionalsettingtoswitchthesetpointto50.0°Cbyaneventinputiscreated.
(1) Connect a switch to the discrete input 1 as shown below.
(2) Go to the setting items tree and change the following parameters.
SETTING ITEMS TREE PARAMETER SELECTIONLoop 1, Bank 1 SP(setpointvalue) 50.0Eventinput Eventinput1functionassignment Loop1,Bankbit0
(3)ClickAuto-tuningbuttonlocatedbelowthetrendgraphtoshowtheAuto-tuningdialogbox.ChooseBank1andclickOK. The Controller go through auto-tuning and then starts control operations.
Nowthesettingiscompletetoswitchthetemperaturesetpointto50.0°Cwiththeswitchclosed(ON)andto40.0°Cwiththesameopened(OFF).
R3-TC2
Di 1
R3-TC2
P. 12 / 37EM-8468 Rev.25-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPANPhone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
MODBUS COMMUNICATION
■ R3 I/O DATATheControllerfunctionsasananaloginputmoduleintheR3remoteI/Osystem.Thefollowing8wordsofanaloginputdatacan be read out at Input Register area.
+0 Loop1PV(numberofdecimalplacesasspecifiedwiththe‘input1decimal’)
+1 Loop1SP(numberofdecimalplacesasspecifiedwiththe‘input1decimal’)
+2 Loop1HeatingMV(0.01%increments)
+3 Loop1CoolingMV(0.01%increments)
+4 Loop2PV(numberofdecimalplacesasspecifiedwiththe‘input2decimal’)
+5 Loop2SP(numberofdecimalplacesasspecifiedwiththe‘input2decimal’)
+6 Loop2HeatingMV(0.01%increments)
+7 Loop2CoolingMV(0.01%increments)
■ R3 EXTENSION AREA COMMUNICATIONThe Controller is compatible with the R3 extension area communication.ByusingthemodelR3-NM3ModbusExtensionNetworkModule,alargevolumeofitsdatacanbereadoutandwritteninfrom the Modbus host device via Holding Register area.
■ EXTENSION AREA ADDRESS ASSIGNMENTSAHoldingRegisterareaof3000wordsisassignedperI/Omoduleasshowninthetablebelow.
SLOT ADDRESS1 2001through50002 5001through80003 8001through110004 11001through14000: :15 44001through4700016 47001through50000
■ READING EXAMPLEInordertoreadtheMVvalueinthetablebelowfromtheR3-TC2intheslotposition2,read1wordattheaddress5005,slot2topaddress5001addedwith4.
ADDRESS PARAMETER UNIT+4 Loop1,HeatingMV(controloutput) 0.01%
If7510isread,theregistervalueisconvertedintoactualengineeringunitvaluebythefollowingequation: 7510×0.01=75.10%
■ WRITING EXAMPLEInordertowrite40.0attheSPvalueinthetablebelowoftheR3-TC2intheslotposition3,write400(whentheinput1decimalissetto‘1,’disregardthedecimalpoint)attheaddress9153,slot3topaddress8001addedwith1152.
ADDRESS PARAMETER RANGE DEFAULT+1152 Loop1,SP(setpoint) -3200.0to+3200.0
(decimal by input 1 decimal setting)25.0
Withthedecimalsetting‘2,’writein‘4000’for‘40.00.’Withthesetting‘3,’‘40000’cannotbewrittenasthemaximumrangeislimitedupto32000.
R3-TC2
P. 13 / 37EM-8468 Rev.25-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPANPhone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
■ READINGThefollowingparameterscanbereadout.AddresscolumnshowsoffsetsfromthetopaddressoftheR3ExtensionAreaCom-munication.
ADDRESS PARAMETER UNIT+0 Loop 1, Status 1 (See the table below) ---+1 Loop 1, Status 2 (See the table below) ---+2 Loop1,PV(presentvalue) Input 1 decimal setting+3 Loop1,InternalSP(setpointvalue) Input 1 decimal setting+4 Loop1,HeatingMV(controloutput) 0.01%+5 Loop1,CoolingMV(controloutput) 0.01%+6 Loop1,LocalSP(setpointvalue) Input 1 decimal setting+7 Loop1,RemoteSP(setpointvalue) Input 1 decimal setting+8 Loop 2, Status 1 (See the table below) ---+9 Loop 2, Status 2 (See the table below) ---+10 Loop2,PV(presentvalue) Input 2 decimal setting+11 Loop2,InternalSP(setpointvalue) Input 2 decimal setting+12 Loop2,HeatingMV(controloutput) 0.01%+13 Loop2,CoolingMV(controloutput) 0.01%+14 Loop2,LocalSP(setpointvalue) Input 2 decimal setting+66 CT input 1, Current value 0.1A+67 CT input 1, Current value at the control output ON *1 0.1A+68 CTinput1,CurrentvalueatthecontroloutputOFF*1 0.1A+69 CT input 2, Current value 0.1A+70 CT input 2, Current value at the control output ON *1 0.1A+71 CTinput2,CurrentvalueatthecontroloutputOFF*1 0.1A
*1.‘-1’(-0.1A)issetwhentheControllerisunabletomeasureiftherelevantcontroloutputdoesnotremainONorOFFforthedefinedtimedurationinacontrolcycle.NoCTalarmisjudgedinthiscase.
Status 1 and Status 2 are assigned with the following status indicators.
BIT STATUS PARAMETER DATA 0 DATA 1
STATUS1
LSB
MSB
0 RUN Loop operating condition STOP RUN1 AUTO Loop control mode MANUAL AUTO2 RSP Local/RemoteSPselection LocalSP RemoteSP3 SP_LAMP SPlampoperation Not operating Operating4 AT Auto-tuning Not running Running5 POUT_12*2 Loop 1 status: Control output 1
Loop 2 status: Control output 2OFF ON
6 POUT_34*2 Loop 1 status: Control output 3Loop 2 status: Control output 4
OFF ON
7 INP_ERR Input error Normal Error8 INP_R_ERR RemoteSPinputerror Normal Error9 ALM_HB Heater wire break alarm Normal Alarm
10 ALM_SB SSR shortcircuit failure alarm Normal Alarm11 ALM_OC Overload alarm Normal Alarm12 --- --- --- ---13 ALM_PV1 PV1alarm Normal Alarm14 ALM_PV2 PV2alarm Normal Alarm15 ALM_PV3 PV3alarm Normal Alarm
STATUS2 LSB 0 EV1 Eventinput1 OFF ON
1 EV2 Eventinput2 OFF ON2 BANK0 Bankbit0 OFF ON3 BANK1 Bank bit 1 OFF ON
*2. Control outputs 1 and 3 are read out at Loop 1 status, Control output 2 and 4 are read at Loop 2 status regardless of the outputassignmentsetting.Thesebitsisalwaysat‘1’(ON)withDCoutput.
R3-TC2
P. 14 / 37EM-8468 Rev.25-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPANPhone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
■ SETPOINT VALUE SETTINGSPforeachloopcanbechangedviaModbus.
ADDRESS PARAMETER RANGE DEFAULT+6 Loop1,LocalSP(setpointvalue) -3200.0to+3200.0
(decimal by input 1/2 decimal setting)---
+14 Loop2,LocalSP(setpointvalue)
TheseregistersareoverwrittenbytheSPinbanksettingwhenthepowersupplyisturnedofforwhenthebankisswitched.WritetheSPinthebanksettingifthevaluesshouldbemaintained.
■ COMMAND EXECUTIONPredefinedcommandsforeachloopcanbeissuedviaModbusbywritinginthefollowingaddresses.
ADDRESS PARAMETER RANGE DEFAULT+64 Loop 1, Command See the table below. ---+65 Loop 2, Command
Available commands are as in the table below:
COMMAND PARAMETER1 SetloopoperationtoRUN2 SetloopoperationtoSTOP3 SetcontrolmodetoAUTO4 SetcontrolmodetoMANUAL8 Reset all latched alarms in the loop9 ResetalllatchedPValarms10 Reset all latched CT alarms16 SwitchtoBank017 Switch to Bank 118 Switch to Bank 219 Switch to Bank 324 Runauto-tuningintheconditionsspecifiedbyBank025 Run auto-tuning in the conditions specified by Bank 126 Run auto-tuning in the conditions specified by Bank 227 Run auto-tuning in the conditions specified by Bank 3
Loop operation, control mode and bank switching operation can be executed by an event input, however, using both commands and event inputs may cause an unexpected result. We recommend that a function assigned to an event input be not controlled by a command.
SETTING
■ SETTING CHANGE VIA MODBUSReading and writing via Modbus from the host is possible by the Network Module (model: R3-NM3).ParametersarelistedwithModbusaddressanddatasizeinthismanual.AccessHoldingRegistersattheseaddressestoreadand write to refer and change settings.Referto“COMMUNICATION”sectionfortheprocedure.
R3-TC2
P. 15 / 37EM-8468 Rev.25-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPANPhone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
PV1
Universal Input 1
MV1
Control Output 1
MV2
Control Output 2
Do1
Control Output 3
Do2
Control Output 4
Input type
Temperature unit
Filter time constant
Bank 1SP
Bank 2SP
Bank 3SP
Bank 4SP
Input zero adjustmentInput span adjustment
Loop 1PID or ON/OFF control
Input 0%, 100%Input scaling 0%, 100%
Decimal
Input 1 PV
Input 1 PV Local SP1 Remote SP1
Local SP1
Bank Switching
Input 2 PV Local SP2
Output Assignment
Remote SP1
SP high/low limit
SP ramp
MV value at STOPLoop 1 MV
AUTO
Remote SP
MANUAL
RUN
AUTO
STOP
PV2
Universal Input 2
BA
NK
SW
ITC
HIN
G
LOC
AL S
P / R
EM
OT
E S
P
AU
TO / M
AN
UA
L
RU
N / S
TOP
Di1
Event Input 1, 2
Di2
Input type
Temperature unit
Filter time constant
Bank 1SP
Bank 2SP
Bank 3SP
Bank 4SP
Input zero adjustmentInput span adjustment
Loop 2PID or ON/OFF control
Input 0%, 100%Input scaling 0%, 100%
Decimal
Input 2 PV
Local SP2
Bank Switching
SP high/low limit
SP ramp
MV value at STOP
Alarm
Event Input Assignment
Loop 2 MV
AUTO
MANUAL
RUN
AUTO
STOP
Output 0%, 100%Output scaling 0%, 100%
Output 0%, 100%Output scaling 0%, 100%
Output 0%, 100%Output scaling 0%, 100%
Output 0%, 100%Output scaling 0%, 100%
■ FUNCTION BLOCK DIAGRAMThe figure below is a simplified function block diagram showing relations between the I/O signal and the setting.
R3-TC2
P. 16 / 37EM-8468 Rev.25-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPANPhone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
UNIVERSAL INPUTThe Controller has two universal inputs (universal input 1, universal input 2) which can be assigned independently for tem-peratureinputs.InadditiontoRTDandthermocouples,resistor,DCandpotentiometerinputsarealsousable.Theresistor,DCandpotentiometerinputisscaledintoatemperaturerange.Universalinput1isusuallyassignedasPVinputsignalforloop1,whileuniversalinput2isforloop2.Universalinput2signalcanbecascadedintotheloop1SP.
■ INPUT TYPE
ADDRESS PARAMETER RANGE DEFAULT+128 Universalinput1,Inputtype See the table below. 10+384 Universalinput2,Inputtype
• DC Voltage (-10 – +10V DC)• DC Current (0 – 20mA DC)
CJCSENSOR
+
––
INPUT
• DC Voltage (-1000 – +1000mV DC)
INPUT
• Thermocouple
• RTD / Resistor (3-wire)
Universal Input 1
• Potentiometer
comp. leadwire
A
B
B
• RTD / Resistor (2-wire)
A
B
MAX
MIN
Universal Input 2
Loop 1
Loop 2
SET VALUE PARAMETER0 DC0−20mA1 DC-1000−+1000mV2 DC-10−+10V3 POT0−4000Ω4 POT0−2500Ω5 POT0−1200Ω6 POT0−600Ω7 POT0−300Ω8 POT0−150Ω9 Resistor0−4000Ω10 RTDPt10014 RTDPt50015 RTDPt100016 RTDPt50Ω17 RTDJPt100
SET VALUE PARAMETER20 RTDNi508.4Ω22 RTDCu1024 TC(PR)25 TCK26 TCE27 TC J28 TC T29 TC B30 TC R31 TC S32 TC C33 TC N34 TCU35 TC L36 TCP
R3-TC2
P. 17 / 37EM-8468 Rev.25-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPANPhone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
■ WIRINGChooseeither2wiresor3wireswhentheinputtypeissettoRTDorresistor.
ADDRESS PARAMETER RANGE DEFAULT+129 Universalinput1,Wiring 0:2wires
1 : 3 wires1
+385 Universalinput2,Wiring
■ BURNOUTChooseburnoutfunctionwhentheinputtypeissettothermocouple,RTDorresistor.
ADDRESS PARAMETER RANGE DEFAULT+130 Universalinput1,Burnout 0:Disable
1:Enable1
+386 Universalinput2,Burnout
■ COLD JUNCTION COMPENSATIONChoosecoldjunctioncompensationbythecoldjunctiontemperaturesensorincludedintheproductpackageforthermocoupleinput.Whenthesettingisdisabled,theterminaltemperatureisassumedtoshow0°Csothatthemeasuredemfisdirectlyconvertedinto temperature.
ADDRESS PARAMETER RANGE DEFAULT+131 Universalinput1,Coldjunctioncompensation 0:Disable
1:Enable1
+387 Universalinput2,Coldjunctioncompensation
■ TEMPERATURE UNITChoosetemperatureunitusedforthermocoupleorRTDinput.Thesettingisappliedonlytotheunit,butnottothetemperaturevaluessuchasSP.Ifyouhavechangedtheunitsetting,besure to check and change all other temperature values.
ADDRESS PARAMETER RANGE DEFAULT+132 Universalinput1,Temperatureunit 0:degC
1:degF0
+388 Universalinput2,Temperatureunit
■ INPUT ZERO ADJUSTMENT / INPUT SPAN ADJUSTMENTInputsignalscanbefinelyadjusted.The following equation is applied to the engineering unit value data. [Adjustedvalue]=[input]×[inputspanadjustment]+[inputzeroadjustment]
ADDRESS PARAMETER RANGE DEFAULT+133 Universalinput1,Inputzeroadjustment -300.00to+300.00
(unit as in the table below)0.00
+389 Universalinput2,Inputzeroadjustment+134 Universalinput1,Inputspanadjustment 0.8500to1.1500 1.0000+390 Universalinput2,Inputspanadjustment
INPUT TYPE UNIT0−20mADC mA-1000−+1000mVDC mV-10−+10VDC VThermocouple mVRTD,Resistor ΩPotentiometer %
R3-TC2
P. 18 / 37EM-8468 Rev.25-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPANPhone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
■ INPUT 0% / INPUT 100% / INPUT SCALING 0% / INPUT SCALING 100%DC,resistorandpotentiometerinputsignalscanbeconvertedintoatemperaturerange.SpecifytheoriginalinputrangefromINPUT0%toINPUT100%,andtheconvertedrangefromINPUTSCALING0%toINPUTSCALING100%.
ADDRESS PARAMETER RANGE DEFAULT+135 Universalinput1,Input0% -1000.0to+4000.0*3
(unit as in the table below)4.0
+136 Universalinput1,Input100% 20.0+137 Universalinput1,Inputscaling0% -3200.0to+3200.0
(decimal by input 1 decimal setting)0.0
+138 Universalinput1,Inputscaling100% 100.0+391 Universalinput2,Input0% -1000.0to+4000.0*3
(unit as in the table below)4.0
+392 Universalinput2,Input100% 20.0+393 Universalinput2,Inputscaling0% -3200.0to+3200.0
(decimal by input 2 decimal setting)0.0
+394 Universalinput2,Inputscaling100% 100.0
*3.Signedwordshavethemaximumrangeupto+32767.+32768to+40000isinternallyconvertedinto-32768to-25536sothattheentirerangeupto40000canbewithinthenormalrangelimits.
INPUT TYPE UNIT0−20mADC mA-1000−+1000mVDC mV-10−+10VDC VResistor ΩPotentiometer %
■ FILTER TIME CONSTANTFirstorderlagfiltercanbeappliedtotheinputsignal.Timeconstantsettingisavailablefrom0.5to60.0seconds.Setting0.0disablesthefilterfunction.ThefilteroperatesjustlikeatypicalCRfilter.Withastepinput,thefilteroutputtakesthepresettimeconstanttimetoreach63%value.
ADDRESS PARAMETER RANGE DEFAULT+139 Universalinput1,Filtertimeconstant 0.0,0.5to60.0seconds 0.0+395 Universalinput2,Filtertimeconstant
■ DECIMALChoosethenumberofdecimalplacesforPV(input)signal.The setting affects the input and relevant loop, and the output setting assigned to its loop’s control output.Thoseparametersaffectedbythesettingareindicatedwith‘decimalbyinput1decimalsetting’or‘decimalbyinput2decimalsetting.’
ADDRESS PARAMETER RANGE DEFAULT+140 Universalinput1,Decimal 0,1,2,3(digits) 1+396 Universalinput2,Decimal
PVandrelevantrangesmaybelimitedasshowninthetablebelowdependinguponthedecimalsetting.
DECIMAL RANGE0 -32000−+320001 -3200.0−+3200.02 -320.00−+320.003 -32.000−+32.000
Related ranges are not automatically scaled when the setting is changed. Be sure to check and change all other values.
R3-TC2
P. 19 / 37EM-8468 Rev.25-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPANPhone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
CONTROL OUTPUTThe Controller has four control outputs (control output 1 through 4) which are assigned to control output, alarm output and other outputs.Basic output channel configuration is determined by the model number suffix codes as shown below.
Control output 1, Control output 2 R3-TC2Px 12VDCpulseoutputR3-TC2Ax 0−20mADCoutputR3-TC2Vx 0−10VDCoutput
Control output 3, Control output 4 Open collector output
Eachoutputchannelcanbeassignedwithalarmoutput(ON/OFF)orwithcontroloutput(continuousvalue)asexplainedinthe table below.
OUTPUT ON/OFF CONTINUOUS VALUE12VDCpulse ONat12V;OFFat0V Scaled output range is converted into a
proportional duty ratio output0−20mADC ONat100%scaledcurrent;OFFat0%
scaled currentScaled output range is converted into a proportional current range
0−10VDC ONat100%scaledvoltage;OFFat0%scaled voltage
Scaled output range is converted into a proportional voltage range
Open collector ONatclosedstate;OFFatopenstate Scaled output range is converted into a proportional duty ratio output
■ OUTPUT ASSIGNMENT
ADDRESS PARAMETER RANGE DEFAULT+1280 Control output 1, Output assignment See the table below. 16+1440 Control output 2, Output assignment 32+1600 Control output 3, Output assignment 16+1760 Control output 4, Output assignment 32
SET VALUE PARAMETER TYPE OUTPUT SCALING DECIMAL0 Not assigned --- ----1 Deviceerror ON/OFF ----2 Alarm OR ON/OFF ----3 AlarmAND ON/OFF ----4 Input error, OR for all loops ON/OFF ----
16 Loop 1, Heating control output Continuous value 217 Loop 1, Cooling control output Continuous value 218 Loop1,PV Continuous value By input 1 decimal setting19 Loop1,InternalSP Continuous value By input 1 decimal setting20 Loop1,LocalSP Continuous value By input 1 decimal setting21 Loop1,RemoteSP Continuous value By input 1 decimal setting22 Loop 1, Input error ON/OFF ----23 Loop1,RemoteSPinputerror ON/OFF ----32 Loop 2, Heating control output Continuous value 233 Loop 2, Cooling control output Continuous value 234 Loop2,PV Continuous value By input 2 decimal setting35 Loop2,InternalSP Continuous value By input 2 decimal setting36 Loop2,LocalSP Continuous value By input 2 decimal setting38 Loop 2, Input error ON/OFF ---
R3-TC2
P. 20 / 37EM-8468 Rev.25-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPANPhone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
■ CONTROL CYCLESpecifydutycyclefordutyratiooutput.DisregardedwithDCsignaloutputsetting.
ADDRESS PARAMETER RANGE DEFAULT+1281 Control output 1, Control cycle 1.0to99.9seconds 2.0+1441 Control output 2, Control cycle+1601 Control output 3, Control cycle+1761 Control output 4, Control cycle
■ MINIMUM ON/OFF WIDTHSpecifytheminimumpulsewidthforONandOFFwithdutyratiooutput.Forexample,with1%setting,theoutputbelow1%isoutputas0%,whiletheoutputabove99%isoutputas100%.
ADDRESS PARAMETER RANGE DEFAULT+1282 Controloutput1,MinimumON/OFFwidth 0.0to50.0% 0.0+1442 Controloutput2,MinimumON/OFFwidth+1602 Controloutput3,MinimumON/OFFwidth+1762 Controloutput4,MinimumON/OFFwidth
■ OUTPUT SCALING 0% / OUTPUT SCALING 100% / OUTPUT 0% / OUTPUT 100%SpecifytheinternaltemperatureoutputrangefromOUTPUTSCALING0%toOUTPUTSCALING100%,andtheconvertedoutputrangefromOUTPUT0%toOUTPUT100%.
ADDRESS PARAMETER RANGE DEFAULT+1283 Controloutput1,Outputscaling0% -3200.0to+3200.0
(temperature unit)0.0
+1284 Controloutput1,Outputscaling100% 100.0+1443 Controloutput2,Outputscaling0% 0.0+1444 Controloutput2,Outputscaling100% 100.0+1603 Controloutput3,Outputscaling0% 0.0+1604 Controloutput3,Outputscaling100% 100.0+1763 Controloutput4,Outputscaling0% 0.0+1764 Controloutput4,Outputscaling100% 100.0+1285 Controloutput1,Output0% 0.0to100.0% *4+1286 Controloutput1,Output100%+1445 Controloutput2,Output0%+1446 Controloutput2,Output100%+1605 Controloutput3,Output0% 0.0to100.0% 0.0+1606 Controloutput3,Output100% 100.0+1765 Controloutput4,Output0% 0.0+1766 Controloutput4,Output100% 100.0
*4.Defaultvalueandengineeringunitdependsuponthemodelnumbersuffixcodeasinthetablebelow.
MODEL OUTPUT 0% OUTPUT 100% UNITR3-TC2Px 0.0 100.0 %R3-TC2Ax 4.0 20.0 mAR3-TC2Vx 0.0 10.0 V
■ OUTPUT INVERSIONVoltagepulsesignallevelandopencollectoroutputON/OFFlogiccanbeinverted.
ADDRESS PARAMETER RANGE DEFAULT+1287 Control output 1, Output inversion 0:Normal
1 : Inverted0
+1447 Control output 2, Output inversion+1607 Control output 3, Output inversion+1767 Control output 4, Output inversion
R3-TC2
P. 21 / 37EM-8468 Rev.25-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPANPhone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
LOOPTheControllerhastwocontrol loops(loop1, loop2)whichcanbeassignedindependentlywithPIDandON/OFFcontroloperations.Eachloopreceivestherelevantinputtofeedbackandperformtemperaturecontrol.
■ OPERATION AT STARTUPSpecifywhethertheControllerautomaticallystartsoperating(RUN)ornot(STOP).WithSTOPsetting,itoutputsthepre-defined‘MVoutputatSTOPstatus.’
ADDRESS PARAMETER RANGE DEFAULT+192 Loop 1, Operation at startup 0:STOP
1:RUN0
+448 Loop 2, Operation at startup
■ CONTROL MODE AT STARTUPSpecifythecontrolmodeatthestartup.InMANUALmode,thecontroloutputcanbemanuallymanipulated.InAUTOmode,the Controller starts automatic control operations.
ADDRESS PARAMETER RANGE DEFAULT+193 Loop 1, Control mode at startup 0:MANUAL
1:AUTO0
+449 Loop 2, Control mode at startup
R3-TC2
P. 22 / 37EM-8468 Rev.25-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPANPhone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
■ CONTROL TYPESpecify the control strategy for each loop.
ADDRESS PARAMETER RANGE DEFAULT+194 Loop 1, Control type 0:StandardPIDcontrol
1:Heating-coolingPIDcontrol2:Heating-coolingON/OFFcontrol
0
+450 Loop 2, Control type
•StandardPIDControlTypicalPIDcontroloperationisperformedbyPID1P(proportionalband),PID1I(integraltime)andPID1D(derivativetime)setintheselectedbank.TheControllerautomaticallyadjuststheheatingcontroloutput(MV)tomatchthesetpointvalue(SP)withtheuniversalinputvalue(PV).
•Heating-CoolingPIDControlPIDcontrolisappliedtobothheatingandcoolingusingPIDparametersinPID1(forheating)andPID2(forcooling)param-eters.
PARAMETER DESCRIPTIONS SMALLER SET VALUE LARGER SET VALUEP
(proportional band)Poutputisproportionaltothedeviationbetweentheinput(PV)andthesetpoint(SP).
•Takesshortertimetoreach the target tempera-ture
•Overshootingorcyclingmay occur more fre-quently.
•Takeslongertimetoreach the target tempera-ture
•Overshootingisunlikelyto occur.
I(integral time)
I output is proportional to the integrated deviationbetweenPVandSP.ItisusedtoautomaticallyadjustoffsetbyPoutput.
•Takesshortertimetoreach the target tempera-ture
•Overshooting,under-shooting, or cycling may occur to a greater degree.
•Takeslongertimetoreach the target tempera-ture
•Overshooting,under-shooting, or cycling may be diminished.
D(derivative time)
Doutputisproportionaltothederiva-tiveofdeviationbetweenPVandSP.It is used as a corrective action against changesinPVandSP.
•Overshootingorunder-shooting may occur to a greater degree.
•Overshootingorunder-shooting may be dimin-ished.
•Smallhuntingmayoccur.
•Heating-CoolingON/OFFControlThecontroloutputisturnedonuntiltheuniversalinput(PV)matchesthesetpointvalue(SP)andthenturnedoff.HeatingcontrolisappliedwhentheSPisgreaterthanthePV,whilecoolingcontrolisappliedwhentheSPissmallerthanthePV.TheoutputisturnedonagainifthePVisdeviatedfromtheSPagain,butthesensitivitytoreacttoadeviationcanbesetforheating and cooling respectively.
■ DIRECT/REVERSE ACTIONDirectorreverseactioncanbespecifiedforthestandardPIDcontrol.Choose‘reverse’actionwhentheMVshouldbedecreasedwithanincreasingPV(typicalheatingcontrol),and‘direct’actionwhentheMVshouldbeincreased(typicalcoolingcontrol).DisregardediftheselectedcontrolstrategyisotherthanthestandardPIDcontrol.
ADDRESS PARAMETER RANGE DEFAULT+195 Loop1,Direct/reverseaction 0:Reverse
1:Direct0
+451 Loop2,Direct/reverseaction
proportionalband
SP
PV
50%
100%
MV
0%
heating sensitivity cooling sensitivity
PV
ON
OFF
heating control output SP cooling control output
R3-TC2
P. 23 / 37EM-8468 Rev.25-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPANPhone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
■ REMOTE SPInput2signalcanbecascadedintoInput1setpointvalueasRemoteSP.
ADDRESS PARAMETER RANGE DEFAULT+196 Loop1,RemoteSP 0:Disable
1:Enable0
RemoteSPoperatesasinthefunctiondiagrambelow.LocalandremoteSPareswitchedbyaneventinput.Ifnoeventinputisassigned,onlytheremoteSPisused.
■ SP TRACKINGSpecifywhethertheremoteSPshouldbecarriedonwhenitisswitchedtothelocalSPmode.
ADDRESS PARAMETER RANGE DEFAULT+197 Loop1,SPtracking 0:Disable
1:Enable0
■ SP LOW LIMIT / SP HIGH LIMITSpecifythelowerandtheupperlimitsfortheSP.Forexample,iftheSPrangeissetto0.0−100.0,setting100.0isusedforsetting200.0automatically.
ADDRESS PARAMETER RANGE DEFAULT+198 Loop1,SPlowlimit -3200.0to+3200.0
(decimal by input 1 decimal setting)-3200.0
+199 Loop1,SPhighlimit 3200.0+454 Loop2,SPlowlimit -3200.0to+3200.0
(decimal by input 2 decimal setting)-3200.0
+455 Loop2,SPhighlimit 3200.0
Input 1
Loop 1
Selected Bank SP
Local SP
Input 2
Loop 2
Selected Bank SP
Local SP
Internal SP
Event Input
Remote SP
Remote SP
Internal SP
Loop 1 Control
PV
Loop 2 Control
PV
R3-TC2
P. 24 / 37EM-8468 Rev.25-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPANPhone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
■ MV AT STARTUP / MV AT STOP / MV AT ERRORSpecificMVvaluescanbesetforrespectiveloopstatus.
ADDRESS PARAMETER RANGE DEFAULT+200 Loop1,MVatstartup -105.00to+105.00% 0.00+201 Loop1,MVatSTOP+202 Loop1,MVaterror+456 Loop2,MVatstartup+457 Loop2,MVatSTOP+458 Loop2,MVaterror
WithstandardPIDcontrol,-5.00isusedforanyvaluebelow-5.00.Withheating-coolingPIDcontrol,negativevalueisappliedforcoolingcontrol.WithON/OFFcontrol,coolingcontrolisturnedonat-100.00,bothcoolingandheatingisoffat0.00,andheatingisonat100.00.WithMANUALcontrolmode,theMVatstartupisappliedatthestartup,however,oncetheControllertransitsfromAUTOtoMANUAL,theMVvalueatthemomentofthetransitioniscarriedon.TheController’sactionisdeterminedinthefollowingpriorityorder:MANUAL>STOP>Error.
■ MV LOW LIMIT / MV HIGH LIMITSpecifythelowerandtheupperlimitsfortheMV.Forexample,iftheMVrangeissetto0.00−50.00,setting50.00isusedforsetting70.00automatically.
ADDRESS PARAMETER RANGE DEFAULT+203 Loop1,MVlowlimit -105.00to+105.00% -100.00+204 Loop1,MVhighlimit 100.00+459 Loop2,MVlowlimit -100.00+460 Loop2,MVhighlimit 100.00
■ ERROR ACTIONSpecifytheController’sactionincaseofaninputerror(burnout)oranerrorintheremoteSPinput.
ADDRESS PARAMETER RANGE DEFAULT+205 Loop1,Erroraction 0:Operationcontinued
1:‘MVaterror’output2:STOP
1
+461 Loop2,Erroraction
With‘Operationcontinued’setting,theControllercontinuesoperating.With‘MVaterror’outputsetting,itoutputsthespecifiedoutputvalueuntiltheerroriscancelled.WithSTOPsetting,theControllerstopsoperating.Itdoesnotrestartautomaticallyevenwhentheerroriscancelled.
■ CT ALARM ACTIONSpecify the Controller’s action in case of an alarm by CT input (heater wire break, SSR shortcircuit failure or overload).
ADDRESS PARAMETER RANGE DEFAULT+206 Loop 1, CT alarm action 0:Operationcontinued
1:‘MVaterror’output2:STOP
1
+462 Loop 2, CT alarm action
With‘Operationcontinued’setting,theControllercontinuesoperating.With‘MVaterror’outputsetting,itoutputsthespecifiedoutputvalueuntiltheerroriscancelled.WithSTOPsetting,theControllerstopsoperating.Itdoesnotrestartautomaticallyevenwhentheerroriscancelled.
R3-TC2
P. 25 / 37EM-8468 Rev.25-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPANPhone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
■ PV ALARM 1, PV ALARM 2, PV ALARM 3TheControllermonitorsPVsignaltotriggeralarmsinpredefinedconditions.Threealarmconditions(PVALARM1through3)perloopcanbespecified.High/lowsetpointvaluescanbespecifiedbybanks,togetherwithothersettingssuchasSP.
• ALARM TYPESpecify conditions to be monitored for alarm trip.
ADDRESS PARAMETER RANGE DEFAULT+320 Loop 1, Alarm 1 type See the table below. 0+328 Loop 1, Alarm 2 type+336 Loop 1, Alarm 3 type+576 Loop 2, Alarm 1 type+584 Loop 2, Alarm 2 type+592 Loop 2, Alarm 3 type
StandbysequenceisafunctiontopreventunwantedalarmtriggeredatthestartuporatanSPchange.IfthePVisinalarmrangeatthestartuporatanSPchange,noalarmistriggereduntilthePVisoutoftherange.Onceitisoutandthenintherange again, normal alarm function starts functioning.
SET VALUE0 Alarm OFF
1 Deviation Hi/Lo limit
2 Deviation Hi limit
3 Deviation Lo limit
4 Deviation range
5 Deviation Hi/Lo limitwith standby sequence
6 Deviation Hi limitwith standby sequence
7 Deviation Lo limitwith standby sequence
8 Absolute value Hi/Lo limit
9 Absolute value Hi limit
10 Absolute value Lo limit
11 Absolute value Hi/Lo limitwith standby sequence
12 Absolute value Hi limitwith standby sequence
13 Absolute value Lo limitwith standby sequence
alarm rangeLo
SP
Hi
SP
Hi
Lo
SP
Lo
SP
Hi
Lo
SP
Hi
SP
Hi
Lo
SP
Lo
0
0
Hi
Hi
Lo
0
Lo
0
Hi
Lo
0
Hi
0
ALARM TYPE
R3-TC2
P. 26 / 37EM-8468 Rev.25-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPANPhone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
• ALARM HIGH SETPOINT / ALARM LOW SETPOINTMultiplesetpointvaluescanbespecifiedbyusingbanks.Referto‘BANK’sectionforassignedaddresses.Forthedeviationalarm,specifyoffsetvaluesfromtheSP(positivevalueforatemperaturevaluegreaterthantheSP,nega-tive value for one smaller).Fortheabsolutevaluealarm,specifyabsolutetemperaturevalues.
• ALARM HYSTERESISHysteresis,adeadbandbetweenONpointandOFFpoint,isusedtopreventfrequentON/OFFoperations(generallycalled‘chattering’)ofanalarmoutputdevicewhenthePVfluctuatesaroundthesetpoint.
ADDRESS PARAMETER RANGE DEFAULT+321 Loop 1, Alarm 1 hysteresis 0.0to999.9
(decimal by input 1 decimal setting)0.0
+329 Loop 1, Alarm 2 hysteresis+337 Loop 1, Alarm 3 hysteresis+577 Loop 2, Alarm 1 hysteresis 0.0to999.9
(decimal by input 2 decimal setting)+585 Loop 2, Alarm 2 hysteresis+593 Loop 2, Alarm 3 hysteresis
• ALARM LATCHINGOnce an alarm is tripped, it is held even when the alarm condition is cancelled.Latched alarm is reset by turning the device’s power supply off or by Modbus command.
ADDRESS PARAMETER RANGE DEFAULT+322 Loop 1, Alarm 1 latching 0:Disable
1:Enable0
+330 Loop 1, Alarm 2 latching+338 Loop 1, Alarm 3 latching+578 Loop 2, Alarm 1 latching+586 Loop 2, Alarm 2 latching+594 Loop 2, Alarm 3 latching
• ALARM ON DELAY / ALARM OFF DELAYAlarm ON delay time is applied to the time during which an alarm condition should remain true, before the alarm trips.AlarmOFFdelaytimeisappliedtothetimeduringwhichanalarmconditionsshouldremainfalse,beforethetrippedalarmis reset.Setting0meansnodelayinthealarmoperations.
ADDRESS PARAMETER RANGE DEFAULT+323 Loop 1, Alarm 1 ON delay 0to999seconds 0+331 Loop 1, Alarm 2 ON delay+339 Loop 1, Alarm 3 ON delay+579 Loop 2, Alarm 1 ON delay+587 Loop 2, Alarm 2 ON delay+595 Loop 2, Alarm 3 ON delay+324 Loop1,Alarm1OFFdelay+332 Loop1,Alarm2OFFdelay+340 Loop1,Alarm3OFFdelay+580 Loop2,Alarm1OFFdelay+588 Loop2,Alarm2OFFdelay+596 Loop2,Alarm3OFFdelay
alarm hysteresis alarm hysteresis
alarm ON
alarm OFFalarm Lo limit alarm Hi limit
R3-TC2
P. 27 / 37EM-8468 Rev.25-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPANPhone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
• ALARM SP TYPEWhentheSPischanged,actualtargettemperaturegraduallychangesinarampsettinguntilitreachesthefinalsetpoint.Chooseeitherthesetpointintheramptransitionorthefinalsetpointshouldbeusedforreferenceofalarmjudgment.
ADDRESS PARAMETER RANGE DEFAULT+325 Loop1,Alarm1SPtype 0:RampSP
1:SP0
+333 Loop1,Alarm2SPtype+341 Loop1,Alarm3SPtype+581 Loop2,Alarm1SPtype+589 Loop2,Alarm2SPtype+597 Loop2,Alarm3SPtype
• ALARM OUTPUTSpecify the output device for alarms.Whenoneofthecontroloutputsisspecified,besurealsotospecify‘AlarmOR’or‘AlarmAND’withitsoutputassignment.With‘AlarmOR’setting,theoutputisprovidedifoneormorealarmsassignedtoitareintrueconditions.With‘AlarmAND’setting it is provided only if all alarms assigned to it are in true conditions.
ADDRESS PARAMETER RANGE DEFAULT+326 Loop 1, Alarm 1 output 0:Networkonly
1 : Control output 12 : Control output 23 : Control output 34 : Control output 4
0+334 Loop 1, Alarm 2 output+342 Loop 1, Alarm 3 output+582 Loop 2, Alarm 1 output+590 Loop 2, Alarm 2 output+598 Loop 2, Alarm 3 output
R3-TC2
P. 28 / 37EM-8468 Rev.25-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPANPhone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
BANKTheControllerhas four sets ofbanksper loop. Temperature setpointandPIDandotherparameters canbe storedandswitchedeasilyduringoperationbyanexternaleventinput(Di)orviaModbuscommunication.Bank0isusedwhenthereisnobankswitching.
■ SP (SETPOINT VALUE)SpecifylocalSP.
CAUTION LocalSPbankissavedinthenonvolatilememoryofthedevice.IftheSPbankischangedfrequentlyduringoperation,thememorymayreachitslimitofwriting,approx.106 cycles in a short time.Usethe‘SetpointValueSetting’forfrequentchanges.
[Bank 0]
ADDRESS PARAMETER RANGE DEFAULT+1152 Loop1,SP(setpointvalue) -3200.0to+3200.0
(decimal by input 1/2 decimal setting)25.0
+1792 Loop2,SP(setpointvalue)
[Bank 1]
ADDRESS PARAMETER RANGE DEFAULT+1312 Loop1,SP(setpointvalue) -3200.0to+3200.0
(decimal by input 1/2 decimal setting)25.0
+1856 Loop2,SP(setpointvalue)
[Bank 2]
ADDRESS PARAMETER RANGE DEFAULT+1472 Loop1,SP(setpointvalue) -3200.0to+3200.0
(decimal by input 1/2 decimal setting)25.0
+1920 Loop2,SP(setpointvalue)
[Bank 3]
ADDRESS PARAMETER RANGE DEFAULT+1632 Loop1,SP(setpointvalue) -3200.0to+3200.0
(decimal by input 1/2 decimal setting)25.0
+1984 Loop2,SP(setpointvalue)
■ SP RAMP FALL RATE / SP RAMP RISE RATESPcanbechangedgraduallyinspecifiedramprateswhenanewSPvalueisapplied.SPrampfallrateisappliedwithadecreasingSP,whileSPriserateiswithanincreasingSP.TheSPisinstantlyswitchedtoanewvaluewhen‘0.0’isset.ThesettingisvalidforallSPvaluechangesexceptatSTOPstatusandinerrorstatus.[Bank 0]
ADDRESS PARAMETER RANGE DEFAULT+1153 Loop1,SPrampfallrate 0.0to3200.0persecond
(decimal by input 1 decimal setting)0.0
+1154 Loop1,SPrampriserate+1793 Loop2,SPrampfallrate 0.0to3200.0persecond
(decimal by input 2 decimal setting)0.0
+1794 Loop2,SPrampriserate
[Bank 1]
ADDRESS PARAMETER RANGE DEFAULT+1313 Loop1,SPrampfallrate 0.0to3200.0persecond
(decimal by input 1 decimal setting)0.0
+1314 Loop1,SPrampriserate+1857 Loop2,SPrampfallrate 0.0to3200.0persecond
(decimal by input 2 decimal setting)0.0
+1858 Loop2,SPrampriserate
[Bank 2]
ADDRESS PARAMETER RANGE DEFAULT+1473 Loop1,SPrampfallrate 0.0to3200.0persecond
(decimal by input 1 decimal setting)0.0
+1474 Loop1,SPrampriserate+1921 Loop2,SPrampfallrate 0.0to3200.0persecond
(decimal by input 2 decimal setting)0.0
+1922 Loop2,SPrampriserate
[Bank 3]
ADDRESS PARAMETER RANGE DEFAULT+1633 Loop1,SPrampfallrate 0.0to3200.0persecond
(decimal by input 1 decimal setting)0.0
+1634 Loop1,SPrampriserate+1985 Loop2,SPrampfallrate 0.0to3200.0persecond
(decimal by input 2 decimal setting)0.0
+1986 Loop2,SPrampriserate
R3-TC2
P. 29 / 37EM-8468 Rev.25-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPANPhone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
■ P (proportional band) / I (integral time) / D (derivative time)PIDparametersareusedinstandardandheating-coolingPIDcontrol.OnlyPID1isusedforthestandardPID.Withtheheating-coolingPID,PID1isusedforheating,whilePID2isforcooling.[Bank 0]
ADDRESS PARAMETER RANGE DEFAULT+1155 Loop1,PID1P(proportionalband) 0.1to3200.0(decimalbyinput1decimalsetting) 8.0+1156 Loop1,PID1I(integraltime) 0to3999seconds 200+1157 Loop1,PID1D(derivativetime) 0.0to999.9seconds 40.0+1158 Loop1,PID2P(proportionalband) 0.1to3200.0(decimalbyinput1decimalsetting) 8.0+1159 Loop1,PID2I(integraltime) 0to3999seconds 200+1160 Loop1,PID2D(derivativetime) 0.0to999.9seconds 40.0+1795 Loop2,PID1P(proportionalband) 0.1to3200.0(decimalbyinput2decimalsetting) 8.0+1796 Loop2,PID1I(integraltime) 0to3999seconds 200+1797 Loop2,PID1D(derivativetime) 0.0to999.9seconds 40.0+1798 Loop2,PID2P(proportionalband) 0.1to3200.0(decimalbyinput2decimalsetting) 8.0+1799 Loop2,PID2I(integraltime) 0to3999seconds 200+1800 Loop2,PID2D(derivativetime) 0.0to999.9seconds 40.0
[Bank 1]
ADDRESS PARAMETER RANGE DEFAULT+1315 Loop1,PID1P(proportionalband) 0.1to3200.0(decimalbyinput1decimalsetting) 8.0+1316 Loop1,PID1I(integraltime) 0to3999seconds 200+1317 Loop1,PID1D(derivativetime) 0.0to999.9seconds 40.0+1318 Loop1,PID2P(proportionalband) 0.1to3200.0(decimalbyinput1decimalsetting) 8.0+1319 Loop1,PID2I(integraltime) 0to3999seconds 200+1320 Loop1,PID2D(derivativetime) 0.0to999.9seconds 40.0+1859 Loop2,PID1P(proportionalband) 0.1to3200.0(decimalbyinput2decimalsetting) 8.0+1860 Loop2,PID1I(integraltime) 0to3999seconds 200+1861 Loop2,PID1D(derivativetime) 0.0to999.9seconds 40.0+1862 Loop2,PID2P(proportionalband) 0.1to3200.0(decimalbyinput2decimalsetting) 8.0+1863 Loop2,PID2I(integraltime) 0to3999seconds 200+1864 Loop2,PID2D(derivativetime) 0.0to999.9seconds 40.0
[Bank 2]
ADDRESS PARAMETER RANGE DEFAULT+1475 Loop1,PID1P(proportionalband) 0.1to3200.0(decimalbyinput1decimalsetting) 8.0+1476 Loop1,PID1I(integraltime) 0to3999seconds 200+1477 Loop1,PID1D(derivativetime) 0.0to999.9seconds 40.0+1478 Loop1,PID2P(proportionalband) 0.1to3200.0(decimalbyinput1decimalsetting) 8.0+1479 Loop1,PID2I(integraltime) 0to3999seconds 200+1480 Loop1,PID2D(derivativetime) 0.0to999.9seconds 40.0+1923 Loop2,PID1P(proportionalband) 0.1to3200.0(decimalbyinput2decimalsetting) 8.0+1924 Loop2,PID1I(integraltime) 0to3999seconds 200+1925 Loop2,PID1D(derivativetime) 0.0to999.9seconds 40.0+1926 Loop2,PID2P(proportionalband) 0.1to3200.0(decimalbyinput2decimalsetting) 8.0+1927 Loop2,PID2I(integraltime) 0to3999seconds 200+1928 Loop2,PID2D(derivativetime) 0.0to999.9seconds 40.0
[Bank 3]
ADDRESS PARAMETER RANGE DEFAULT+1635 Loop1,PID1P(proportionalband) 0.1to3200.0(decimalbyinput1decimalsetting) 8.0+1636 Loop1,PID1I(integraltime) 0to3999seconds 200+1637 Loop1,PID1D(derivativetime) 0.0to999.9seconds 40.0+1638 Loop1,PID2P(proportionalband) 0.1to3200.0(decimalbyinput1decimalsetting) 8.0+1639 Loop1,PID2I(integraltime) 0to3999seconds 200+1640 Loop1,PID2D(derivativetime) 0.0to999.9seconds 40.0+1987 Loop2,PID1P(proportionalband) 0.1to3200.0(decimalbyinput2decimalsetting) 8.0+1988 Loop2,PID1I(integraltime) 0to3999seconds 200+1989 Loop2,PID1D(derivativetime) 0.0to999.9seconds 40.0+1990 Loop2,PID2P(proportionalband) 0.1to3200.0(decimalbyinput2decimalsetting) 8.0+1991 Loop2,PID2I(integraltime) 0to3999seconds 200+1992 Loop2,PID2D(derivativetime) 0.0to999.9seconds 40.0
R3-TC2
P. 30 / 37EM-8468 Rev.25-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPANPhone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
■ HEATING SENSITIVITY / COOLING SENSITIVITYSensitivity,adeadbandbetweenONpointandOFFpointforheating/coolingcontroloutput,isusedtopreventfrequentON/OFFoperations(generallycalled‘chattering’)ofacontroloutputdevicewhenthePVfluctuatesaroundthesetpoint.[Bank 0]
ADDRESS PARAMETER RANGE DEFAULT+1167 Loop 1, Heating sensitivity 0.0to999.9
(decimal by input 1 decimal setting)0.0
+1168 Loop 1, Cooling sensitivity+1807 Loop 2, Heating sensitivity 0.0to999.9
(decimal by input 2 decimal setting)0.0
+1808 Loop 2, Cooling sensitivity
[Bank 1]
ADDRESS PARAMETER RANGE DEFAULT+1327 Loop 1, Heating sensitivity 0.0to999.9
(decimal by input 1 decimal setting)0.0
+1328 Loop 1, Cooling sensitivity+1871 Loop 2, Heating sensitivity 0.0to999.9
(decimal by input 2 decimal setting)0.0
+1872 Loop 2, Cooling sensitivity
[Bank 2]
ADDRESS PARAMETER RANGE DEFAULT+1487 Loop 1, Heating sensitivity 0.0to999.9
(decimal by input 1 decimal setting)0.0
+1488 Loop 1, Cooling sensitivity+1935 Loop 2, Heating sensitivity 0.0to999.9
(decimal by input 2 decimal setting)0.0
+1936 Loop 2, Cooling sensitivity
[Bank 3]
ADDRESS PARAMETER RANGE DEFAULT+1647 Loop 1, Heating sensitivity 0.0to999.9
(decimal by input 1 decimal setting)0.0
+1648 Loop 1, Cooling sensitivity+1999 Loop 2, Heating sensitivity 0.0to999.9
(decimal by input 2 decimal setting)0.0
+2000 Loop 2, Cooling sensitivity
R3-TC2
P. 31 / 37EM-8468 Rev.25-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPANPhone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
■ DEADBANDDeadbandisazoneinwhichneitherheatingnorcoolingcontrolisperformed.Negative value setting means both heating and cooling control is performed in the zone.
ThefigurebelowshowsanexampleofON/OFFcontrolwiththedeadbandsetto10°C.
AtPIDcontrol,deadbandisenabledforPcontrol.AtPcontrol(I=0andD=0.0),withcontinuousvaluecontrol,azoneinwhichbothheatingMVandcoolingMVequal0isformedat±5°CoftheSPwhenthedeadbandissetto10°C.Withtheset-tingto-10°C,thezoneiswithbothheatingMVandcoolingMV.
Note:Inordertobeintelligible,thegraphsshowMVatPcontrol.However,incasethatIand/orDareset,thegraphsmaybedifferentfromtheavobe,sinceswitchingofheatingMV/coolingMVdoesnotmatchSP.
[Bank 1]
ADDRESS PARAMETER RANGE DEFAULT1170 Loop1,Deadband -999.9to+999.9
(decimal by input 1/2 decimal setting)0.0
1810 Loop2,Deadband
[Bank 2]
ADDRESS PARAMETER RANGE DEFAULT1330 Loop1,Deadband -999.9to+999.9
(decimal by input 1/2 decimal setting)0.0
1874 Loop2,Deadband
[Bank 3]
ADDRESS PARAMETER RANGE DEFAULT1490 Loop1,Deadband -999.9to+999.9
(decimal by input 1/2 decimal setting)0.0
1938 Loop2,Deadband
[Bank 4]
ADDRESS PARAMETER RANGE DEFAULT1650 Loop1,Deadband -999.9to+999.9
(decimal by input 1/2 decimal setting)0.0
2002 Loop2,Deadband
heating sensitivity cooling sensitivity
ON
OFFSP
10°C
10°C
heatingMV
coolingMV
• Deadband set to 10°C (at I=0, D=0.0)
SPPV
50%
100%
MV
0%
10°C
heatingMV
coolingMV
• Deadband set to -10°C (at I=0, D=0.0)
SPPV
50%
100%
MV
0%
R3-TC2
P. 32 / 37EM-8468 Rev.25-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPANPhone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
■ MANUAL RESETManualresetisusedtoeliminateerrorsbyoffsetgeneratedbyPcontrol(I=0,D=0.0)orPDcontrol(I=0).MV(controloutput)changesfrom100%to0%proportionallytothetemperaturerangesetwithPvalue.TheMVisconvertedsothattheMVsetwiththemanualresetvalueisequaltotheSP.ThefigurebelowshowsanexampleofMVvaluetransitionagainstPVwhenSPissetto50.0°C,themanualresetvalueto40.00%,withP(proportional-only)control(P=10.0,I=0,D=0.0).
[Bank 0]
ADDRESS PARAMETER RANGE DEFAULT+1170 Loop 1, Manual reset 0.00to100.00% 50.00+1810 Loop 2, Manual reset
[Bank 1]
ADDRESS PARAMETER RANGE DEFAULT+1330 Loop 1, Manual reset 0.00to100.00% 50.00+1874 Loop 2, Manual reset
[Bank 2]
ADDRESS PARAMETER RANGE DEFAULT+1490 Loop 1, Manual reset 0.00to100.00% 50.00+1938 Loop 2, Manual reset
[Bank 3]
ADDRESS PARAMETER RANGE DEFAULT+1650 Loop 1, Manual reset 0.00to100.00% 50.00+2002 Loop 2, Manual reset
SP
44°C 54°CSP=50°CPV
40%
100%
MV
0%
R3-TC2
P. 33 / 37EM-8468 Rev.25-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPANPhone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
■ ALARM LOW SETPOINT / HIGH SETPOINT FOR PV ALARM 1...3HighandlowalarmsetpointvaluesforPVAlarm1through3aresetinthebanks.OtherPValarmrelatedparametersaresetwithPVAlarm1through3.Alarm setpoints can be easily switched between banks depending upon different conditions such as setpoint changes.[Bank 0]
ADDRESS PARAMETER RANGE DEFAULT+1161 Loop 1, Alarm 1 low setpoint -3200.0to+3200.0
(decimal by input 1 decimal setting)0.0
+1162 Loop 1, Alarm 1 high setpoint+1163 Loop 1, Alarm 2 low setpoint+1164 Loop 1, Alarm 2 high setpoint+1165 Loop 1, Alarm 3 low setpoint+1166 Loop 1, Alarm 3 high setpoint+1801 Loop 2, Alarm 1 low setpoint -3200.0to+3200.0
(decimal by input 2 decimal setting)0.0
+1802 Loop 2, Alarm 1 high setpoint+1803 Loop 2, Alarm 2 low setpoint+1804 Loop 2, Alarm 2 high setpoint+1805 Loop 2, Alarm 3 low setpoint+1806 Loop 2, Alarm 3 high setpoint
[Bank 1]
ADDRESS PARAMETER RANGE DEFAULT+1321 Loop 1, Alarm 1 low setpoint -3200.0to+3200.0
(decimal by input 1 decimal setting)0.0
+1322 Loop 1, Alarm 1 high setpoint+1323 Loop 1, Alarm 2 low setpoint+1324 Loop 1, Alarm 2 high setpoint+1325 Loop 1, Alarm 3 low setpoint+1326 Loop 1, Alarm 3 high setpoint+1865 Loop 2, Alarm 1 low setpoint -3200.0to+3200.0
(decimal by input 2 decimal setting)0.0
+1866 Loop 2, Alarm 1 high setpoint+1867 Loop 2, Alarm 2 low setpoint+1868 Loop 2, Alarm 2 high setpoint+1869 Loop 2, Alarm 3 low setpoint+1870 Loop 2, Alarm 3 high setpoint
[Bank 2]
ADDRESS PARAMETER RANGE DEFAULT+1481 Loop 1, Alarm 1 low setpoint -3200.0to+3200.0
(decimal by input 1 decimal setting)0.0
+1482 Loop 1, Alarm 1 high setpoint+1483 Loop 1, Alarm 2 low setpoint+1484 Loop 1, Alarm 2 high setpoint+1485 Loop 1, Alarm 3 low setpoint+1486 Loop 1, Alarm 3 high setpoint+1929 Loop 2, Alarm 1 low setpoint -3200.0to+3200.0
(decimal by input 2 decimal setting)0.0
+1930 Loop 2, Alarm 1 high setpoint+1931 Loop 2, Alarm 2 low setpoint+1932 Loop 2, Alarm 2 high setpoint+1933 Loop 2, Alarm 3 low setpoint+1934 Loop 2, Alarm 3 high setpoint
[Bank 3]
ADDRESS PARAMETER RANGE DEFAULT+1641 Loop 1, Alarm 1 low setpoint -3200.0to+3200.0
(decimal by input 1 decimal setting)0.0
+1642 Loop 1, Alarm 1 high setpoint+1643 Loop 1, Alarm 2 low setpoint+1644 Loop 1, Alarm 2 high setpoint+1645 Loop 1, Alarm 3 low setpoint+1646 Loop 1, Alarm 3 high setpoint+1993 Loop 2, Alarm 1 low setpoint -3200.0to+3200.0
(decimal by input 2 decimal setting)0.0
+1994 Loop 2, Alarm 1 high setpoint+1995 Loop 2, Alarm 2 low setpoint+1996 Loop 2, Alarm 2 high setpoint+1997 Loop 2, Alarm 3 low setpoint+1998 Loop 2, Alarm 3 high setpoint
R3-TC2
P. 34 / 37EM-8468 Rev.25-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPANPhone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
EVENT INPUTThe Controller has two discrete inputs for event control (event input 1, event input 2) which can be assigned for various pur-poses such as mode switching, bank switching.Inthefollowingexplanations,anopencontactisdescribedOFF,whileaclosedcontactisON.
■ EVENT INPUT 1 FUNCTION ASSIGNMENT / EVENT INPUT 2 FUNCTION ASSIGNMENT
ADDRESS PARAMETER RANGE DEFAULT+1248 Eventinput1functionassignment See the table below. 0+1408 Eventinput2functionassignment
SET VALUE FUNCTION0 Disable1 Allloops,Bankbit02 All loops, Bank bit 13 Allloops,Controloperation:OFF=STOP/ON=RUN4 Allloops,Controloperation:OFF=RUN/ON=STOP5 Allloops,Controlmode:OFF=MANUAL/ON=AUTO6 Allloops,Controlmode:OFF=AUTO/ON=MANUAL17 Loop1,Bankbit018 Loop 1, Bank bit 119 Loop1,Controloperation:OFF=STOP/ON=RUN20 Loop1,Controloperation:OFF=RUN/ON=STOP21 Loop1,Controlmode:OFF=MANUAL/ON=AUTO22 Loop1,Controlmode:OFF=AUTO/ON=MANUAL23 Loop1,SP:OFF=LocalSP/ON=RemoteSP24 Loop1,SP:OFF=RemoteSP/ON=LocalSP33 Loop2,Bankbit034 Loop 2, Bank bit 135 Loop2,Controloperation:OFF=STOP/ON=RUN36 Loop2,Controloperation:OFF=RUN/ON=STOP37 Loop2,Controlmode:OFF=MANUAL/ON=AUTO38 Loop2,Controlmode:OFF=AUTO/ON=MANUAL
Combinationofbankbit0and1determineswhichbankshouldbeused.
BANK BIT 0 BANK BIT 1 SELECTED BANKOFF OFF Bank0ON OFF Bank 1OFF ON Bank 2ON ON Bank 3
Ifonlyoneofthebankbitsisassignedforevent,theother(non-assigned)bitstatusisassumedtobeOFFwhenselectingabank.
R3-TC2
P. 35 / 37EM-8468 Rev.25-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPANPhone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
CT INPUTThe Controller has two CT inputs (CT input 1, CT input 2) which are used to monitor the control outputs with clamp-on cur-rent sensors, for alarm purposes.
CAUTION TheControllercanmonitorthecontroloutputsonlyincaseof12VDCpulseoropencollector.TheseoutputsmustbesetforPIDorheating-coolingPIDcontrolassignedwithheatingoutputorcoolingoutput.
■ CT SENSOR TYPE
ADDRESS PARAMETER RANGE DEFAULT+1216 CT input 1, CT sensor type See the table below. 0+1376 CT input 2, CT sensor type
SET VALUE SENSOR MODEL INPUT RANGE0 CLSE-R5 0.0−5.0A1 CLSE-05 0.0−50.0A2 CLSE-10 0.0−100.0A3 CLSE-20 0.0−200.0A4 CLSE-40 0.0−400.0A5 CLSE-60 0.0−600.0A
■ OUTPUT ASSIGNMENT
ADDRESS PARAMETER RANGE DEFAULT+1217 CT input 1, Output assignment See the table below. 0+1377 CT input 2, Output assignment
SET VALUE OUTPUT0 Control output 11 Control output 22 Control output 33 Control output 4
■ HEATER WIRE BREAK ALARM / SSR SHORTCIRCUIT FAILURE ALARM / OVERLOAD ALARMThe following three types of alarm are available using the CT inputs.These alarms could be used independently or in combination.Forexample,withaheaterdrivenbyanSSR,theheaterwirebreak,theSSRshortcircuitfailureandtheoverloadcanbealldetected and alerted.
Heater wire break alarm Currentflowsthroughtheloadnormallywhenthe control output is on. Current stops when the heater’s wire breaks.The Controller measures the current with a clamp-on current sensor and triggers an alarm when it is below the setpoint.
measuring current
control output ON
control output OFF
heater current
SSR shortcircuit failure alarm
Currentstopnormallywhenthecontroloutputisoff.Currentflowsthroughtheloadwhenthe SSR fails in the shortcircuit mode.The Controller measures the current with a clamp-on current sensor and triggers an alarm when it is above the setpoint.
Overload alarm Regardless of the control status, the Controller continuously measures the current with a clamp-on current sensor and triggers an alarm when it is above the setpoint.
CAUTION Controloutputmustbeturnedonforattheminimumof110millisecondstodetectaheaterwirebreak;mustbeturnedoffforattheminimumof200millisecondstodetectanSSRshortcircuitfailure.IfthereisnoONand/orOFFstatus longer than the minimum duration for one control cycle, the Controller cannot measure current. Current dis-playshows-0.1A(invalidmeasurement)andallrelatedalarmsareresetexceptforthoselatched.
R3-TC2
P. 36 / 37EM-8468 Rev.25-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPANPhone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
Choose alarm functions.
ADDRESS PARAMETER RANGE DEFAULT+256 CT input 1, Heater wire break alarm 0:Disable
1:Enable0
+262 CT input 1, SSR shortcircuit failure alarm+268 CT input 1, Overload alarm+512 CT input 2, Heater wire break alarm+518 CT input 2, SSR shortcircuit failure alarm+524 CT input 2, Overload alarm
• ALARM SETPOINTSpecify a threshold for each alarm.
ADDRESS PARAMETER RANGE DEFAULT+257 CT input 1, Heater wire break alarm setpoint 0.0to600.0A 0.0+263 CT input 1, SSR shortcircuit failure alarm setpoint+269 CT input 1, Overload alarm setpoint+513 CT input 2, Heater wire break alarm setpoint+519 CT input 2, SSR shortcircuit failure alarm setpoint+525 CT input 2, Overload alarm setpoint
• ALARM HYSTERESIS (DEADBAND)Hysteresis,adeadbandbetweenONpointandOFFpoint,isusedtopreventfrequentON/OFFoperations(generallycalled‘chattering’)ofanalarmoutputdevicewhenthecurrentfluctuatesaroundthesetpoint.
ADDRESS PARAMETER RANGE DEFAULT+258 CT input 1, Heater wire break alarm hysteresis 0.0to99.9A 0.0+264 CT input 1, SSR shortcircuit failure alarm hysteresis+270 CT input 1, Overload alarm hysteresis+514 CT input 2, Heater wire break alarm hysteresis+520 CT input 2, SSR shortcircuit failure alarm hysteresis+526 CT input 2, Overload alarm hysteresis
• ALARM LATCHINGOnce an alarm is tripped, it is held when the alarm condition is cancelled.Latched alarm is reset by turning the device’s power supply off or by a Modbus command.
ADDRESS PARAMETER RANGE DEFAULT+259 CT input 1, Heater wire break alarm latching 0:Disable
1:Enable0
+265 CT input 1, SSR shortcircuit failure alarm latching+271 CT input 1, Overload alarm latching+515 CT input 2, Heater wire break alarm latching+521 CT input 2, SSR shortcircuit failure alarm latching+527 CT input 2, Overload alarm latching
• ALARM OUTPUTSpecify the output device for alarms.Whenoneofthecontroloutputsisspecified,besurealsotospecify‘AlarmOR’or‘AlarmAND’withitsoutputassignment.With‘AlarmOR’setting,theoutputisprovidedifoneormorealarmsassignedtoitareintrueconditions.With‘AlarmAND’setting it is provided only if all alarms assigned to it are in true conditions.
ADDRESS PARAMETER RANGE DEFAULT+260 CT input 1, Heater wire break alarm output 0:Networkonly
1 : Control output 12 : Control output 23 : Control output 34 : Control output 4
0+266 CT input 1, SSR shortcircuit failure alarm output+272 CT input 1, Overload alarm output+516 CT input 2, Heater wire break alarm output+522 CT input 2, SSR shortcircuit failure alarm output+528 CT input 2, Overload alarm output
R3-TC2
P. 37 / 37EM-8468 Rev.25-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPANPhone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
AUTO-TUNINGLimitcyclemethodauto-tuningisavailableforstandardPIDandheating-coolingPIDcontroltoautomaticallydetermineap-propriatePIDparametersbyprovidingMVsignalinstepsasshownbelowandobservingPVsignalbehavior.Auto-tuning conditions should be set in advance. The Controller starts auto-tuning by a command.
CAUTION Inordertostoparunningauto-tuningprocess,turnthepowersupplyofforSTOPtheloopoperation.OnceSTOPisapplied,switchtoRUNagaintoresumenormalcontrol,cancellingtheauto-tuning.
■ AUTO-TUNING CONTROL TYPE
ADDRESS PARAMETER RANGE DEFAULT+207 Loop 1, Auto-tuning control type See the table below. 0+463 Loop 2, Auto-tuning control type
SET VALUE AUTO-TUNING CONTROL TYPE0 Follow-upPIDcontrol1 Follow-upPIcontrol2 PIDcontrolwithfixedsetpoint3 PIcontrolwithfixedsetpoint
Follow-upcontrolissuitableforaloopinwhichthesetpointchangesaccordingtotheprocessstatus.
■ AUTO-TUNING HYSTERESIS (DEADBAND)SpecifyhysteresisvaluestobeappliedwhenmonitoringPVvariationintheauto-tuningprocess.IfthePVfluctuates,setalargervalue.ToolargeavaluemayresultintuningtoinappropriatePIDparameters.
ADDRESS PARAMETER RANGE DEFAULT+208 Loop 1, Auto-tuning hysteresis 0.0to999.9
(decimal by input 1/2 decimal setting)0.1
+464 Loop 1, Auto-tuning hysteresis
■ AUTO-TUNING MV HIGH LIMIT / AUTO-TUNING MV LOW LIMITSpecifythemaximumrangeofMVappliedinstepsforauto-tuning.WithstandardPIDcontrol,0.00isusedforanegativerange.Withheating-coolingPIDcontrol,anegativevalueisusedforthecoolingcontrol.
ADDRESS PARAMETER RANGE DEFAULT+209 Loop1,Auto-tuningMVhighlimit -105.00to+105.00% 100.00+210 Loop1,Auto-tuningMVlowlimit -100.00+465 Loop2,Auto-tuningMVhighlimit 100.00+466 Loop2,Auto-tuningMVlowlimit -100.00
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MV
SP