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RKC INSTRUMENT SA201 Initial Setting Manual

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Temperature Controller
SA201
Initial Setting Manual
IMR01K03-E1
RKC INSTRUMENT INC.
®

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Summary of Contents for RKC INSTRUMENT SA201

  • Page 1 Temperature Controller SA201 Initial Setting Manual IMR01K03-E1 RKC INSTRUMENT INC. ®...
  • Page 2 !" Modbus is a registered trademark of Schneider Electric. !" Company names and product names used in this manual are the trademarks or registered trademarks of the respective companies. All Rights Reserved, Copyright  2001, RKC INSTRUMENT INC.
  • Page 3 Thank you for purchasing the RKC instrument. In order to achieve maximum performance and ensure proper operation of your new instrument, carefully read all the instructions in this manual. Please place this manual in a convenient location for easy reference.
  • Page 4 CAUTION ! This is a Class A instrument. In a domestic environment, this instrument may cause radio interference, in which case the user may be required to take adequate measures. ! This instrument is protected from electric shock by reinforced insulation. Provide reinforced insulation between the wire for the input signal and the wires for instrument power supply, source of power and loads.

  • Page 5: Table Of Contents

    CONTENTS Page 1. PROCEDURE FOR INITIALIZATION........1 1. 1 Transfer to Engineering Mode .................2 1.2 Procedure for Parameter Setting ..............4 1.3 End of Engineering Mode ................6 2. DETAILS OF PARAMETER SETTING .........7 2.1 Attention Items in Setting.................8 2.2 F10 Display function ..................12 2.3 F21 Input Specification ..................13 2.4 F30 Output Function ..................16 2.5 F41 Alarm 1 Function/F42 Alarm 2 Function ..........18...
  • Page 6 MEMO IMR01K03-E1...

  • Page 7: Procedure For Initialization

    1. PROCEDURE FOR INITIALIZATION Initialization is to set parameters relating to instrument specifications (input type, input range, alarm type, etc.). Engineering mode that can do this setting. !" Initialization flowchart Power ON See 1.1 Transfer to Engineering Mode. Unlock the engineering mode Change from RUN to STOP See 1.1 Transfer to Engineering Mode.

  • Page 8: Transfer To Engineering Mode

    1. Press the SET key for 2 seconds with the PV/SV display mode change the instrument to parameter setting mode. For details on parameter setting mode, see SA201 Instruction Manual (IMR01K01-E# # # # ). 2. Press the SET key to change to the set data lock function display (LCK).
  • Page 9 OUT1 ALM2 type. OUT2 SA201 STOP mode display Before the setting is changed in engineering mode, it is necessary to set the operation mode to the STOP mode. If “Set value” is set to 0002 (no selection from RUN to STOP by the front key can be made) by SPCH (STOP display selection) corresponding to function block F10 (P.

  • Page 10: Procedure For Parameter Setting

    1. PROCEDURE FOR INITIALIZATION 1.2 Procedure for Parameter Setting !" !" !" !" Flowchart of displaying parameter items Display flowcharts in engineering mode are shown in the following. : Press the SET key. : Press the UP or DOWN key. STOP display Monitor display MV display...
  • Page 11 The following procedure is for changing the input type from “K” to “J.” 1. Press the UP key to change the display to F21. OUT1 ALM1 OUT2 ALM2 SA201 Function block symbol display 2. Press the SET key to change to input type selection (InP). OUT1 ALM1 OUT2...

  • Page 12: End Of Engineering Mode

    Set value 0000: Lock 0001: Unlock ALM1 OUT1 ALM2 OUT2 SA201 Set data lock function display 7. Press the SET key to lock the engineering mode. The display changes to the first parameter in parameter setting mode. OUT1 OUT1 ALM1...

  • Page 13: Details Of Parameter Setting

    2. DETAILS OF PARAMETER SETTING !" Parameter list Function block Parameter Page Display function STOP display selection (SPCH) P. 12 (F10.) Monitor display configuration selection (dCHG) MV display selection P. 13 (MVd) Input specification Input type selection (InP) (F21.) Display unit selection P.

  • Page 14: Attention Items In Setting

    2. DETAILS OF PARAMETER SETTING 2.1 Attention Items in Setting If any of the following parameter is changed, the relevant set value is initialized or is automatically converted. Before changing the set values, always record all of them (SV setting mode, parameter setting mode and engineering mode).
  • Page 15 2. DETAILS OF PARAMETER SETTING !" !" When changed parameter of decimal point position setting !" !" When change a decimal point position, it is converted into about set value of a list shown below automatically. Set it in value to use once again. Mode Description Setting limiter [high limit]...
  • Page 16 2. DETAILS OF PARAMETER SETTING Continued from the previous page. • If the number of digits below the decimal point is changed in the decreasing direction, the decreased number of digits is omitted. Example: Suppose set SLH is 99.99, if change decimal point position from 0 to 2. The figures below the decimal point are omitted, and as a result SLH becomes 99.
  • Page 17 2. DETAILS OF PARAMETER SETTING !" !" When changed parameter of alarm type selection !" !" When change alarm 1 type and alarm 2 type, all the set value of a list shown below is initialized. Set it in value to use once again. Default value Mode Description...

  • Page 18: F10 Display Function

    2. DETAILS OF PARAMETER SETTING 2.2 F10 Display function (1) STOP display selection (SPCH) Details of setting Factory set value 0000 STOP is displayed on the PV display unit. (TYPE 1) 0001 STOP is displayed on the SV display unit. (TYPE 2) 0000 0002 No selection from RUN to STOP by the front key can be made.

  • Page 19: F21 Input Specification

    2. DETAILS OF PARAMTER SETTING (3) MV display selection (MVd) For the SA201 Z-1045 specification, always set “1: MV display provided.” Details of setting Factory set value 0000 MV display not provided 0000 0001 MV display provided 2.3 F21 Input Specification...
  • Page 20 2. DETAILS OF PARAMTER SETTING (2) Display unit selection (UnIT) Details of setting Factory set value °C 0000 0000 °F 0001 The invalidity in case of the voltage/current inputs. See 2.1 Attention Items in Setting (P. 8). (3) Decimal point position setting (PGdP) Details of setting Factory set value 0000...
  • Page 21 2. DETAILS OF PARAMTER SETTING (4) Setting limiter [high limit] (SLH) Setting limiter [low limit] (SLL) Details of setting Factory set value -199 to +1372 °C (-326 to +2502 °F) Note 1 -199.9 to +999.9 °C (-199.9 to +999.9 °F) -199 to +1200 °C (-326 to +2192 °F) -199.9 to +999.9 °C (-199.9 to +999.9 °F) 0 to 1769 °C (0 to 3216 °F)

  • Page 22: F30 Output Function

    2. DETAILS OF PARAMTER SETTING 2.4 F30 Output Function (1) Output logic operation selection (LoGC) Match the setting with the instrument specification. Otherwise malfunction may result. Details of setting Factory Remarks OUT1 OUT2 value 0001 Control output OR output of alarm 2 PID action+No alarm function * Note 1 (Energized)
  • Page 23 2. DETAILS OF PARAMTER SETTING Continued from the previous page. Details of setting Factory OUT1 OUT2 Remarks value 0012 Transmission Control output Transmission output+PID Note 1 output action (Z-1033 specification) 0013 Transmission OR output of alarm 1 and Transmission output+Alarm 1, output alarm 2 (Energized) alarm 2...

  • Page 24: F41 Alarm 1 Function/F42 Alarm 2 Function

    2. DETAILS OF PARAMTER SETTING 2.5 F41 Alarm 1 Function F42 Alarm 2 Function (1) Alarm type selection (AS1, AS2) Details of setting Factory set value 0000 Alarm not provided Factory set value 0001 SV high alarm varies depending on 0002 SV low alarm the instrument...

  • Page 25: F51 Control Action

    2. DETAILS OF PARAMTER SETTING (4) Process abnormality action selection (AEo1, AEo2) Set the alarm action in input abnormality by input break (when the input is over-scaled or underscaled). Details of setting Factory set value 0000 Normal processing: Note 1 The alarm action set by alarm type selection (AS1/AS2) is taken even if the input is abnormal.

  • Page 26: F61 Communication Function

    RKC communication protocol 0000 0001 Modbus protocol 2.8 F71 Setting Change Rate Limiter Setting (1) Setting change rate limiter Used/Unused (SVrS) For the SA201 Z-1045 specification, always set “1: Used.” Details of display Factory set value 0000 Unused 0000 0001...

  • Page 27: F91 Displayed For Maintenance Information

    2. DETAILS OF PARAMETER SETTING 2.9 F91 Displayed for Maintenance Information Only displayed for the F91 function block. (1) ROM version (E227) Display the version of loading software. (2) Integrated operating time (WT) Display product calculation operating time. However, as the integral time is increments by 1 when the power is turned on or off. Details of display : 0 to 9999 (3) Holding peak ambient temperature (TCJ) The maximum ambient temperature on the rear terminal board of the instrument is stored and...

  • Page 28: Initialize Communication Data

    3. INITIALIZE COMMUNICATION DATA !" RKC communication protocol !" !" !" The number of digits for data is 6. For details on the structure of communication data, see SA201 Communication Instruction Manual (IMR01K02-E# # # # ). Name Iden- Description Factory...
  • Page 29 3. INITIALIZE COMMUNICATION DATA Continued from the previous page. Name Iden- Description Factory Attrib- tifier set value Alarm 2 type selection 0 to 8 (See P. 18) Note 1 Alarm 2 differential gap 0 to span Note 2 ALM2 process abnormality 0: Normal processing Note 3 action...
  • Page 30 3. INITIALIZE COMMUNICATION DATA !" !" Modbus protocol !" !" For details on the structure of communication data, see SA201 Communication Instruction Manual (IMR01K02-E# # # # ). Address Name Description Factory Attrib- set value STOP display selection 0: It makes display “STOP” in PV display.
  • Page 31 3. INITIALIZE COMMUNICATION DATA Continued from the previous page. Address Name Description Factory Attrib- set value Alarm 2 type selection 0 to 8 (See P. 18) Note 1 Alarm 2 differential gap 0 to span Note 2 Alarm 2 process 0: Normal processing Note 3 abnormality action...

  • Page 32: Input Range Tables

    4. INPUT RANGE TABLES Input Range Table 1 Input type Input range Range code 0 to 200 °C 0 to 400 °C 0 to 600 °C 0 to 800 °C 0 to 1000 °C 0 to 1200 °C 0 to 1372 °C -199.9 to +300.0 °C 0.0 to 400.0 °C 0.0 to 800.0 °C...

  • Page 33: Input Type

    4. INPUT RANGE TABLES Continued from the previous page. Input type Input range Range code 0 to 800 °F 0 to 1600 °F 0 to 2192 °F 0 to 400 °F 0 to 300 °F -199.9 to +999.9 °F 0.0 to 800.0 °F 0 to 1600 °C 0 to 1769 °C 0 to 1350 °C...
  • Page 34 4. INPUT RANGE TABLES Continued from the previous page. Input type Input range Range code 0 to 2000 °C 0 to 2320 °C W5Re/W26Re 0 to 4000 °F 0 to 1300 °C 0 to 1390 °C 0 to 1200 °C PL II 0 to 2400 °F 0 to 2534 °F...
  • Page 35 4. INPUT RANGE TABLES Continued from the previous page. Input type Input range Range code -199.9 to +649.0 °C -199.9 to +200.0 °C -100.0 to +50.0 °C -100.0 to +100.0 °C -100.0 to +200.0 °C JPt100 0.0 to 50.0 °C 0.0 to 100.0 °C 0.0 to 200.0 °C 0.0 to 300.0 °C...
  • Page 36 MEMO IMR01K03-E1...
  • Page 37 The first edition: NOV. 2001 The third edition: JUN.2000...
  • Page 38 RKC INSTRUMENT INC. HEADQUARTERS: 16-6, KUGAHARA 5-CHOME, OHTA-KU TOKYO 146-8515 JAPAN PHONE: 03-3751-9799 (+81 3 3751 9799) E-mail: info@rkcinst.co.jp FAX: 03-3751-8585 (+81 3 3751 8585) IMR01K03-E1 NOV. 2001...

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