WIKA Phase-Out T53.10 Configuration Manual
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WIKA Phase-Out T53.10 Configuration Manual

Fieldbus temperature transmitter or foundation fieldbus and profibus pa
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Fieldbus Temperature Transmitter Model T53.10
for FOUNDATION™ Fieldbus and PROFIBUS
Fieldbus Temperature Transmitter Model T53.10
Configuration Manual
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  • Page 1 Configuration Manual for PROFIBUS ® Fieldbus Temperature Transmitter Model T53.10 ® for FOUNDATION™ Fieldbus and PROFIBUS Fieldbus Temperature Transmitter Model T53.10...

  • Page 2: Table Of Contents

    CONTENTS Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . This .configuration .manual .

  • Page 3: Introduction

    .function .of .the .modules .ensures .automatic .switch .to .the .connected .protocol . The .Fieldbus .Software has .been .developped .by .WIKA .according .to .the .specifications .of .the .Fieldbus .Foundation . and .the .PROFIBUS .Nutzerorganisation . . The .files .for .Profibus ®...

  • Page 4: Physical Block (Pa Slot 0) Parameter List, Profibus

    DS-4 0,0,0,0 ALARM_SUM VISBLE_ Software .revision .of .the .device SOFTWARE_REVISION STRING VISBLE_ Physical .revision .of .the .device . HARDWARE_REVISION STRING WIKA .manufacturer .identification .number . signed . 0x006B DEVICE_MAN_ID WIKA . VISBLE_ Manufacturer .device .number DEVICE_ID 5310 STRING VISBLE_ Device .serial .number...

  • Page 5: The Transducer Block

    .to .the .application .software .  .3 .Default .configuration WIKA .delivers .the .transmitters .with .at .default .configuration .which .will .suit .the .customer’s .de- mand .in .many .cases . .The .configuration .task .has .thus .been .reduced .considerably . . The .individual .default .configurations .are .shown .in .the .TB .Parameter .List, .but .in .short .the .de- fault .configuration .is .as .follows: .

  • Page 6: Ai_Transducer Block Configuration Flowchart

    2.5 AI_Transducer Block Configuration Flowchart Configure T53 Transducer block Temperature PRIMARY_VALUE_UNIT measurement? to F,R,C or K Set LIN_TYPE to RTD RTD? type (Pt100 etc.) SENSOR_CONNECTION to 2-,3- or 4-wire. Enter wire resistance in 2-wire? Ohms for both wires to COMP_WIRE1 4-wire? Enter setup for sensor 2: Set LIN_TYPE_2 to RTD...
  • Page 7 RTD+Thermo- SENSOR_MEAS_TYPE couple? to dual sensor type Set LIN_TYPE to TC type (TC K etc.) Error! (try again) Set LIN_TYPE_2 to RTD type (Pt100 etc.) Set LIN_TYPE to Resistance? ”no linearisation” or ”linearisation table” Set RJ_TYPE (internal, external etc.) PRIMARY_VALUE_UNIT to Ohm or kOhm RJ_TYPE Enter RJ temperature to...
  • Page 8 Set LIN_TYPE to Potentiometer? ”no linearisation” or ”linearisation table” PRIMARY_VALUE_UNIT to ”%” Error! (try again) SENSOR_CONNECTION to 3- or 4-wire. Enter wire resistance in 3-wire? Ohms for 2 wires to COMP_WIRE1 Dual sensor? Enter setup for sensor 2: Set LIN_TYPE_2 to ”no linearisation”...

  • Page 9: Transducer Block Examples Setup

    2.6 - Transducer Block Examples Setup  .6 .1 .Measurement .of .RTD .with .one .sensor: PRIMARY_VALUE_UNIT . . . . . = .K, .°C, .°F .or .°R . . LIN_TYPE . . . . . . . . . . . . . . . . = .Any .RTD . . LIN_TYPE_ .

  • Page 10: Measurement .Of .Thermocouple .With .Two .Sensors

     .6 .4 .Measurement .of .thermocouple .with .two .sensors: . PRIMARY_VALUE_UNIT . . . . . = .K, .°C, .°F .or .°R . . LIN_TYPE . . . . . . . . . . . . . . . . = .Any .TC . . LIN_TYPE_ .

  • Page 11: Measurement .Of .Resistance .(Linear) .With .Two .Sensors

     .6 .7 .Measurement .of .resistance .(linear) .with .two .sensors: . PRIMARY_VALUE_UNIT . . . . . = .Ohm .or .kOhm . . LIN_TYPE . . . . . . . . . . . . . . . . = .No .linearisation . . LIN_TYPE_ .

  • Page 12: Measurement .Of .Voltage .(Linear) .With .One .Sensor

     .6 .10 .Measurement .of .voltage .(linear) .with .one .sensor: . PRIMARY_VALUE_UNIT . . . . . = .µV, .mV .or .V . . LIN_TYPE . . . . . . . . . . . . . . . . = .No .linearisation . . LIN_TYPE_ .

  • Page 13: Measurement .Of .Tc .(With .Custom .Polynomial .Linearisation) .On .Sensor .1

    TAB_XY_VALUE5 . . = .0,8; .300 . TAB_XY_VALUE6 . . = .1,6; .400 . TAB_XY_VALUE7 . . = .3,; .500 . TAB_XY_VALUE8 . . = .6,4; .600 . TAB_XY_VALUE9 . . = .1,8; .700 . TAB_XY_VALUE10 . . = .5,6; .800 (Output .will .readout .35% .with .1,0% .potentiometer .value)  .6 .13 .Measurement .of .TC .(with .Custom .Polynomial .Linearisation) .on .sensor .1 PRIMARY_VALUE_UNIT .

  • Page 14: Ai_Transducer And Pr_Cust_Lin Block, Schematic

    2.7 AI_Transducer and PR_CUST_LIN Block, Schematic AI_TRANSDUCER and PR_CUST_LIN schematic Intern INTERN_TEMP temp. (Channel_4) EXTERNAL_RJ_VALUE SENSOR_WIRE_CHECK_RJ temp. (none) RJ_COMP_WIRE LIN_TYPE_1/2 RJ_TYPE RTDX_FACTOR_1/2 CUSTOM_TC_.. TAB_X_Y_VALUE CAL_POINT_LO_1/2 SENSOR_MEAS_TYPE CAL_ACTUAL_LO_1/2 RJ_TEMP R.J. Comp. Arithmetic CAL_POINT_HI_1/2 CUSTOM_RTD_.. CAL_ACTUAL_HI_1/2 +,-, redund. PRIMARY_VALUE Process Input Linearisation Min/Max hold (Channel_1) calibration...

  • Page 15: Ai_Transducer Block (Pa Slot 3) Parameter List

    2.8 AI_TRANSDUCER Block (PA Slot 3) Parameter List  .8 .1 .Sensor .characterising .parameters Rel. Size RO / Parameter Index Description Type Store Min. Max. Default byte Selects .the .unit .code .of .the .PRIMARY_VALUE .and . other .values . . 1 000 .= . K .(Kelvin) .

  • Page 16: Rtd ./ .Resistor .Specific .Parameters

    AI_TRANSDUCER Block (PA Slot 3) Parameter List  .8 . .RTD ./ .Resistor .specific .parameters Rel. Size RO / Parameter Index Description Type Store Min. Max. Default byte Connection .to .sensor .1, .select .for .-, .3- .and .4-wire . connection . .Ignored .if .sensor .1 .is .not .a .resistive .sensor . Defined .codes: signed .

  • Page 17: Output .Conditioning .Parameters

    AI_TRANSDUCER Block (PA Slot 3) Parameter List  .8 .4 .Output .conditioning .parameters Rel. Size RO / Parameter Index Description Type Store Min. Max. Default byte Mathematical .function .to .calculate .PRIMARY_VALUE . (PV) . Defined .codes: 0: . PV .= .SV_1 1: .

  • Page 18: Diagnostic .Parameters

    AI_TRANSDUCER Block (PA Slot 3) Parameter List  .8 .6 .Diagnostic .parameters Rel. Size RO / Parameter Index Description Type Store Min. Max. Default byte Input .malfunction: .Diagnosis .object .for .errors .that .con- cern .all .values 0 .= . device .OK Bit: signed .

  • Page 19: Sensor .Calibration, .Description

    AI_TRANSDUCER Block (PA Slot 3) Parameter List  .8 .8 .Sensor .calibration, .Description Sensor .calibration .is .a .very .useful .function .when .the .transmitter .output .needs .to .be .adjusted .to .the .sen- sor .signal, .e .g . .when .the .temperature .sensor .does .not .correspond .to .the .ideal .values .for .the .selected . temperature .range .
  • Page 20 Rel. Size RO / Parameter Index Description Type Store Min. Max. Default byte The .high .calibration .value .applied .to .sensor . . The .value .from .either .a .calibrator .or .a .reference .equip- Float CAL_POINT_HI_2 ment . Entering .any .value .will .force .the .device .to .automatically . measure .and .store .the .actual .high .point .value .

  • Page 21: Pr_Cust_Lin Block (Pa Slot 4) Parameter List

    2.9 PR_CUST_LIN Block (PA Slot 4) Parameter List  .9 .1 .Linear .interpolation .linearisation, .Description LinType .1 .= .“Linearisation .Table” .generates .a .customer .specific .linear .interpolation .linearisation . .Linear . interpolation .linearisation .can .be .used .on .mV, .ohmic .and .potentiometer .signals .The .linear .interpolation . linearisation .is .defined .by .straight .lines .drawn .between .the .entered .X ./ .Y .(input ./ .output) .coordinates .

  • Page 22: Custom .Polynomial .Linearisation, .Description

    Rel. Size RO / Parameter Index Description Type Store Min. Max. Default byte Float . TAB_X_Y_VALUE23 Linearisation .x,y .coordinate .3 0, .0 array Float . Linearisation .x,y .coordinate .4 0, .0 TAB_X_Y_VALUE24 array Float . Linearisation .x,y .coordinate .5 0, .0 TAB_X_Y_VALUE25 array Float .

  • Page 23: Custom .Polynomial .Linearisation, .Parameter .List

    function .is .particularly .suitable .for .specific .RTD .sensors .but .also .for .non-linear .ohmic .signals .if .the .user . can .accept .to .enter .the .input .and .output .values .of .the .polynomials .in .ohm .and .°C .respectively . . . Please .remember .that .polynomial .linearisation .is .absolute . .The .output .value .is .calculated .continuously . according .to .the .applied .input .value .and .the .function .formula .

  • Page 24: Analogue Input Blocks, Profibus

    3.0 Analogue Input Blocks, Profibus 3 .1 .Analogue .Input .Blocks .Overview, .Profibus Analog .Input .Function .Blocks .represent .transmitters . .The .parameters .are .shown .in .Figure .1 . Figure .1: .Summary .of .the .parameter .of .Analog .Input .Function .Blocks . . The structure of the MODE and the simulation feature of the AI is shows in Figure 2.
  • Page 25 3.2 Analogue Input Blocks (PA Slot 1 & 2) Parameter List, Profibus Rel. Size RO / Parameter Description Type Store Min. Max. Default Index byte Static .Revision . .Counter .incremented .with .every .parameter . signed . ST_REV configuration .change . Octet .
  • Page 26 Kazakhstan E-mail: .info@wika .fi Mexico TOO .WIKA .Kazakhstan Instrumentos .WIKA .Mexico .S .A . .de .C .V . France Phone: . .(+7) .3 .7 .33 .08 .48 Phone: . . (+5) .555 .00 .53 .00 WIKA .Instruments .s .a .r .l .

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