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Toshiba TOSDIC-CIE DS Manual

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Toshiba Integrated Control System
DPCS Renewal
Instruction Manual
(Emulator)
6F8C1140

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  • Page 1 Toshiba Integrated Control System DPCS Renewal Instruction Manual (Emulator) 6F8C1140...
  • Page 2 Seventh Edition Aug, 2014 The contents of this manual may be revised without notice.  Copyright 2006-2014 by Toshiba Corporation. All rights reserved. No part of this manual may be reproduced in any form without permission.
  • Page 3 Safety Precautions Safety Precautions The instruction manual and the labels affixed to the products or equipment give important information for using products safely. It helps prevent damage to properties and hazard to people who use them or work with them. Make yourself familiar with the signal words and signs in this page, then read the safety precautions that follow and always follow the instructions to avoid hazards.
  • Page 4 Safety Precautions Confirmation of product safety label Confirm that product safety labes are put on the front panel of the power supply module. If the lavel is lost or soiled, inform TOSHIBA Corporation.
  • Page 5 Safety Precautions 1. Safety Precautions for Installation WARNING Grounding required: To avoid the risk of electric shock or fire, be sure to ground the equipment. CAUTION Choose proper environment for installation: Avoid installing and storing the equipment in the following environments: Location with considerable dust ...
  • Page 6 Safety Precautions 2. Safety Precautions for Inspection and Maintenance WARNING Turn off power: Turn off power before attaching or detaching modules or before connecting devices. Failure to do so may result in electric shock or equipment fault. Make sure that power is off: Always check and make sure that the external power is turned off before installing or removing modules.
  • Page 7 Turn off power in the event of a problem: If the temperature in or around the equipment becomes abnormally high or an unusual fault occurs in the equipment, stop using it and turn off power, then contact your Toshiba representative. If left alone, overheat may result in fire.
  • Page 8 Safety Precautions Avoid touching hot components: Some components inside the modules become very hot after the power is turned on. To avoid burns, do not touch them. CAUTION Do not touch components: Do not touch pins, connectors or soldered surfaces in modules with any part of your body. Static electricity may damage IC's or LSI's and cause equipment to fail.
  • Page 9 Safety Precautions 5. Safety Precautions for Disposal WARNING Keep lithium batteries out of fire: To avoid risk of explosion, do not throw lithium batteries into fire when you dispose of them. CAUTION Disposal of batteries: Dispose lithium or Ni-Cad batteries according to the ordinance or regulations. ...
  • Page 10 (see NOTE 3) will be needed for system operation, maintenance and management. Consult the Toshiba sales representative in your area. (Note 1) Equipment which directly involves human life is as follows: Medical equipment such as life sustaining equipment and equipment in surgical operation rooms.
  • Page 11 TOSHIBA engineer. Non-Liability Clauses  Toshiba will not be responsible for damage caused by a fire, earthquake or a third party, or by use under abnormal conditions such as an accident, intention, error or abuse by the user.
  • Page 12 Safety Precautions...

  • Page 13: Introduction

    Introduction Introduction Toshiba integrated control system "TOSDIC-CIE DS" is an integrated control system with the new concept to meet the open technology age. An easy-to-use open system is realized by adopting the standard multi-vendor network and the package software of simple engineering in addition to the control and computer technologies fostered over long years.
  • Page 14 Introduction For more information, refer to the following documents. Hardware Renewal Procedures Engineering Procedures Related Documents Document Name English Version Installation/Wiring Manual 6F8C0734 DPCS Builder Instruction Manual 6F8C0620 PCS-DS Engineering Tool Instruction Manual 6F8C0765 OIS/SVR Engineering Tool Instruction Manual 6F8C0766 OIS-DS Standard Screen Operation Manual 6F8C9770 OIS-DS Tag Display Pattern Manual...

  • Page 15: Table Of Contents

    Contents Contents Safety Precautions Introduction Contents xiii 1. Hardware Renewal DPCS Renewal POC Station Renewal DBS Station Renewal Network Renewal Reviewing the Network Configuration Renewal Procedures Firmware 2. Engineering The Engineering System Engineering Operations Cautions on Renewal of TOSDIC Appendix 1. Ethernet Control LAN Network Construction Guide 10M Ethernet Control LAN System Configuration System Specifications...

  • Page 16: Contents

    Contents Inputs other than 1-5V (VAMPX1 + VAINX1B) About CDDI On/Off of digital input About VSIOX1 About PVC Value at using SRT01 or STC01 About registering Point parameters of I/O modules Control period VAMPX12/STC01 Cold Junction Compensation Cold Junction Compensation input of VAMPX12 Cold Junction Compensation input of STC01...

  • Page 17: Hardware Renewal

    1. Hardware Renewal 1. Hardware Renewal DPCS Renewal For renewal to DPCS Emulator, renew the Main Unit (Unit, Emulation module, Dual Tracking module, Communication module, Power supply module, Fan unit), the Loop Unit (Base unit, Loop PIO module), and the PI/O Unit (Base unit, Base card, Intelligent PIO Module). To renew the Main Unit, you need to renew the following items.
  • Page 18 1. Hardware Renewal To renew the Loop Unit, you need to renew the following items. Table 1.3 Renewal Items for TOSDIC-AS/AD (Loop Unit) DPCS DPCS Emulator VLCPX1 (Current output) SBIF3 (Communication module) + SLP05 (Loop module – current output) VLCPX2 (Current output) Note) SBIF3 and SLP05 should be configured VLCPX3 (Current output) redundant.
  • Page 19 1. Hardware Renewal To renewal the I/O Unit, you need to renew the following items. Table 1.4 Renewal Items for TOSDIC-AS/AD (PI/O Unit) DPCS DPCS Emulator VPCPX2/X2B (I/O control card) SBIF1C (Communication module) Note) SBIF1 should be the redundant configuration. VAINX1 (A/D converter) VAMPX11 (Analog input multiplexer card) Non-isolated SAI012 x 2...
  • Page 20 1. Hardware Renewal Table 1.5 The table of renewal Item VLCPX1 VLCPX2 VLCPX3 VLCPX4 VLCPX5 VLCPX1P VLCPX2P VLCPX3P VLCPX4P VLCPX5P VBMPX1/12 VACPX2/2B VPWSX3 VLCUX1 (VLCPX1/2/4/5) VCNUX1R/L VCNUX62R/L VMVUX1 VMVUX2 VMVUX3 VSWCX61-X64 VSWCX65C/X65P VSWUX2/X3 VIOUX2 VPCPX2/X2B VAINX1 VAMPX11 Non-isolated VAMPX11 solated VAMPX12 VRTDX1 VAIMX1...
  • Page 21 1. Hardware Renewal SLP0n VLCUXn ULCU12 VLCPXn Exchange VSWUXn New cable Remove UMASnn Exchange VCNUXn VTBUXn Reuse (with cable) Figure 1.2 Renewal of the Loop Unit...
  • Page 22 1. Hardware Renewal VIOUX2 UIOU12 P/O Card Exchange The base card corresponding to an I/O module. New cable Reuse VTBUXn Figure 1.3 Renewal of the PI/O Unit...

  • Page 23: Poc Station Renewal

    1. Hardware Renewal POC Station Renewal Install OIS-DS instead of POC. DBS Station Renewal Install SVR instead of DBS. Network Renewal Reviewing the Network Configuration Select either 10M or 100M for the Ethernet Control LAN from the SHC bus or ADMAP, considering the network constraints.
  • Page 24 1. Hardware Renewal Table 1.6 10M Ethernet Control LAN Renewal Items for TOSDIC-AS Item TOSDIC-AS CIEMAC-DS Remarks Transceiver branch DELNI UTHB1 Note 1) equipment Transceiver VXVRU1 UTTN1 VXVRU12 UTMT1(Multiport) UTOT1(Optical) Optical repeater Note 2) VSHRU1 UTOR1 VSHRU3 Not supported For long distance Electric repeater VSHRU2, VSHRU4...
  • Page 25 1. Hardware Renewal Table 1.7 100M Ethernet Control LAN Renewal Items for TOSDIC-AS Item TOSDIC-AS CIEMAC-DS Remarks Transceiver branch DELNI UHSH1 Note 1) equipment UHHB1 Transceiver VXVRU1 UHOE1 VXVRU12 (FX-TX conversion module) Optical repeater Note 2) VSHRU1 Not supported VSHRU3 Not supported Electric repeater VSHRU2, VSHRU4...
  • Page 26 1. Hardware Renewal (2) Renewal of TOSDIC-AD To renew a network of TOSDIC-AD, you need to renew or add the following items. Table 1.8 10M Ethernet Control LAN Renewal Items for TOSDIC-AD Item TOSDIC-AD CIEMAC-DS Remarks CBM tap CBT-20-20-4F/2F UTHB1 UTTN1 (Multiport) Transceiver Optical repeater Note 1)
  • Page 27 1. Hardware Renewal Table 1.9 100M Ethernet Control LAN Renewal Items for TOSDIC-AD Item TOSDIC-AD CIEMAC-DS Remarks CBM tap CBT-20-20-4F/2F UHSH1 Note 1) UHHB1 UHOE1 (FX-TX conversion module) Optical repeater Note 2) HMR-100, UMRU1A Not supported UMRU15 Not supported Electric repeater UMRU20 Not supported Star coupler...
  • Page 28 1. Hardware Renewal (3) Network Connections for DPCS Figure 1.2 shows the SHC bus connection in the DPCS cabinet for TOSDIC-AS. Figure 1.3 shows the ADMAP connection for TOSDIC-AD. Figures 1.4 and 1.5 are examples of connection in the DPCS cabinet when they are renewed with the Ethernet Control LAN. The branch equipment such as DELNI and taps is renewed with hubs and switching hubs.
  • Page 29 1. Hardware Renewal DPCS Cabinet DPCS Cabinet DPCS Cabinet VETHX1 VETHX1 VETHX1 VETHX1 VETHX1 VETHX1 VETHX1 Twisted Pair Cable (for internal wiring only) 10BASE5 AUI Cable Bus A 10BASE5 Coaxial Cable Bus B Transceiver Multiport Transceiver Transceiver Figure 1.6 Connection with 10BASE5 Coaxial Cables DPCS Cabinet DPCS Cabinet DPCS Cabinet...

  • Page 30: Firmware

    1. Hardware Renewal Firmware Table 1.10 lists the cards and version supported in DPCS Emulator Table 1.10 List of Supported Cards and Version Control Card Version VPCPX2 V6.*, V9.* VSCPX2 V3.*, V4.* VACPX2 V1.*, V8.* VLCPX1 V5.* VLCPX2 V5.* VLCPX3 V5.* VLCPX4 V1.*...

  • Page 31: Engineering

    OIS/SVR Construction Figure 2.1 The TOSDIC-CIE DS Engineering Tool System To connect DPCS to TOSDIC-CIE DS, reconstruct the system by using the following development tools. Table 2.1 shows overview of the functions of the Engineering Tools. Table 2.1 DPCS Functions of Engineering Tools...
  • Page 32 2. Engineering DPCS Tool System Configuration System Configuration PCS-DS Engineering Module Configuration System Log SIO Log Signal Instrument List DPCS Instrument Tag Parameter List DPCS DPCS-DPCS Transmission Utility Download/Upload Backup/Restoration Save&Load Maintenance SVP Tool DPCS Import/Export Virtual I/O Input Tool Copy/Delete/Initialize Document Print DPCS Engineering...

  • Page 33: Engineering Operations

    2. Engineering Engineering Operations (1) Engineering of DPCS Figure 2.3 indicates the specific engineering operations to connect DPCS.  Use the DPCS Builder to build the control card functions for DPCS and create files to be downloaded to the control cards. These files are temporarily written to a floppy disk. If you upload the information of the control cards currently operating, refer to "Cautions on Renewal of TOSDIC".

  • Page 34: Cautions On Renewal Of Tosdic

    Cautions on Renewal of TOSDIC In TOSDIC, the POC system loader is used to construct the DPCS functions. In TOSDIC-CIE DS, these operations are done by the DPCS Builder. Therefore, you must have the DPCS builder and a machine to run (1) DPCS Builder The DPCS Builder operates on the MS-DOS environment.

  • Page 35: Appendix 1. Ethernet Control Lan Network Construction Guide

    Appendix 1. Ethernet Control LAN Network Construction Guide This chapter describes how to construct an Ethernet Control LAN for the TOSDIC-CIE DS system and the limitations for the network. Read this before you deigned a network. 10M Ethernet Control LAN In the TOSDIC-CIE DS system Ethernet Control LAN, you can use repeaters (electric repeaters or optical repeaters) to add segments and expand the maximum transmission distance.
  • Page 36 A point-to-point connection cable with repeaters (or transceivers) at both ends. No station is connected. In the TOSDIC-CIE DS system, this refers to the following three types of segments. An optical fiber cable with optical repeaters connected at both ends.
  • Page 37 Appendix1. Ethernet Control LAN Network Construction Guide Maximum network configuration The "Constraints for expanding transmission lines" are often summarized and referred to as the "5,4,3 rule". "5 segments/4 repeaters/3 cable segments" (Up to 5 segments, 4 repeaters, and 3 cable segments) Some examples of network configuration under this rule are shown below.
  • Page 38 Appendix 1. Ethernet Control LAN Network Construction Guide Maximum 2500m 500m 500m 500m 500m 500m Stations cannot Stations cannot be connected be connected Station Station Cable Link Segment Cable Link Segment Cable Segment (Optical Fiber) Segment (Optical Fiber) Segment FOMAU FOMAU FOMAU FOMAU...
  • Page 39 Appendix1. Ethernet Control LAN Network Construction Guide An Example of TOSDIC-CIE DS System Configuration The following is an example of network configuration for the TOSDIC-CIE DS system. SVR-DS SVR-DS OIS-DS OIS-DS OIS-DS Primary Secondar 10BASE-T (Twisted Pair Cable) (Maximum 100m)

  • Page 40: System Specifications

    Appendix 1. Ethernet Control LAN Network Construction Guide System Specifications Table A1.1 Ethernet Control LAN Transmission Line Specifications Item Specification Complied Standards IEEE 802.3 - 10BASE5 - 10BASE-T - FOIRL Transmission Configuration Bus Type Transmission Speed 10Mbps Medium Access Method CSMA/CD Transmission Signal Base Band...

  • Page 41: 100M Ethernet Control Lan

    Appendix1. Ethernet Control LAN Network Construction Guide 100M Ethernet Control LAN For the 100M Ethernet Control LAN, basically the transmission line configuration specified in the IEEE802.3u is used. If OIS-DS and SVR-DS are installed at a place such as an operator room with good environment (e.g. low noise), twisted pair cables are used in wiring within the operator room.

  • Page 42: System Specifications

    Appendix 1. Ethernet Control LAN Network Construction Guide System Specifications The following table shows the transmission line specifications for the 100M Ethernet Control LAN. The 100M Ethernet Control LAN basically complies with the IEEE802.3u specification. Table A1.2 100M Ethernet Control LAN Transmission Line Specifications Item Specification Complied Standards...

  • Page 43: Network Configuration/Constraints

    Appendix1. Ethernet Control LAN Network Construction Guide Network Configuration/Constraints Concepts of Network Configuration The 100M Ethernet Control LAN basically complies with the IEEE802.3u specification. You must construct your network around a hub (line concentrator) as in Figure 3.6, according to the IEEE802.3u specification.
  • Page 44 Due to the delay time in switching hubs, the maximum number of stages for switching hubs is 2 for the TOSDIC-CIE DS system to ensure the response time between OIS and PCS. Therefore, the maximum transmission distances are as shown in Table 3.5.
  • Page 45 Appendix1. Ethernet Control LAN Network Construction Guide Guielines Guideline 1: When choosing from the FX module built in switching hubs/hubs and the external FX-TX conversion module, we recommend the external FX-TX conversion module due to the following reasons. (1) It reduces the setting operation for switching hubs (prevents misuse). (2) It is easy to renewal (stocked products don’t have FX modules).
  • Page 46 Appendix 1. Ethernet Control LAN Network Construction Guide Description of Figures The symbols used in the following figures mean the following. 100BASE-TX Switching Hub TX-SHUB 100BASE-TX Shared Hub TX-HUB FX-TX Conversion Module FX-TX (Optical Media Converter) Twisted Pair Cable Optical Fiber Stations such as OIS, SVR,PCS, and Station DPCS...
  • Page 47 Appendix1. Ethernet Control LAN Network Construction Guide TX-SHUB Twisted Pair Cable Max: 30m TX-HUB Twisted Pair Cable Max: 30m Station Figure A1.8 Connection Between a Switching Hub and Hub TX-SHUB FX-TX Optical Fiber Twisted Pair Cable Max: 2km Max: 3m Twisted Pair Cable FX-TX Max: 3m...
  • Page 48 Appendix 1. Ethernet Control LAN Network Construction Guide TX-SHUB FX-TX Optical Fiber Twisted Pair Cable Max: 150m Max: 3m Twisted Pair Cable FX-TX Max: 3m TX-HUB Twisted Pair Cable Max: 30m Station Figure A1.11 Connection Between Switching Hub and Hub via Optical Fiber TX-HUB FX-TX Optical Fiber...
  • Page 49 Appendix1. Ethernet Control LAN Network Construction Guide TX-SHUB First Stage FX-TX FX-TX FX-TX FX-TX Optical Fiber: Max 2km (Full-duplex) FX-TX Optical Fiber: Max 2km (Full-duplex) Station FX-TX FX-TX FX-TX TX-SHUB Second Stage TX-SHUB TX-SHUB FX-TX FX-TX FX-TX TX-HUB Station Optical Fiber: Max 150m FX-TX (Half-duplex)
  • Page 50 Appendix 1. Ethernet Control LAN Network Construction Guide TX-SHUB Max: 2km (Full-duplex) FX-TX FX-TX FX-TX Max: 150m (Half-duplex) FX-TX FX-TX FX-TX TX-HUB TX-SHUB Max: 30m Station Station Station Station Station TX-HUB Station Station Figure A1.14 Cascade Connection of Hubs Prohibited...
  • Page 51 Appendix1. Ethernet Control LAN Network Construction Guide A Configuration Example The following is an example of configuration based on the constraints. OIS-DS OIS-DS SVR-DS OIS-DS OIS-DS OIS-DS 100BASE-TX 100BASE-TX Twisted Pair Cable TX-HUB Max: 30m TX-SHUB FX-SHUB Twisted Pair Cable Max: 30m FX-TX FX-TX...

  • Page 52: Full-Duplex And Half-Duplex

    Appendix 1. Ethernet Control LAN Network Construction Guide Full-duplex and Half-duplex There are two types of Ethernet communication modes: full-duplex and half-duplex. The maximum transmission distances and optical fiber lengths are different for the two modes. Full-duplex This mode allows simultaneous send and receive. A station can receive data from other station while sending data.

  • Page 53: Switching Hubs And Hubs (Shared Hubs)

    Appendix1. Ethernet Control LAN Network Construction Guide Switching Hubs and Hubs (Shared Hubs) There are two types of hubs: switching hubs (also called simply "switches") and shared hubs (also called simply "hubs"). Switching Hub It is called a Multiport Bridge in IEEE802.3u. It has a MAC address table for stations connected between ports.
  • Page 54 Appendix 1. Ethernet Control LAN Network Construction Guide Shared Hub: (A “Hub” refer to a shared hub.) It is called a Multiport Repeater in IEEE802.3u. It doesn’t have functions such as filtering and switching. Frames input to one port are repeated to all the other ports. The following figure illustrates the data flow when data is sent from Station A to Station B if a shared hub is used.
  • Page 55 Appendix1. Ethernet Control LAN Network Construction Guide Since I/F boards and FX-TX conversion modules of the components (PCS-DS, OIS-DS,DPCS and SVR-DS) in the 100M Ethernet of the TOSDIC-CIE DS support the full-duplex communication mode, the communication modes between various network devices are the following.
  • Page 56 Appendix 1. Ethernet Control LAN Network Construction Guide...

  • Page 57: Appendix 2. Diffrence Between Dpcs And Dpcs Emulator

    Appendix2. The diffrence between DPCS and DPCS Emulator Appendix 2. Differences between DPCS and DPCS Emulator This appendix describes the difference between DPCS and DPCS Emulator. Please read this notes carefully before designing a renewal system. Differences and Notes Table A2.1 List of the difference (1) Hardware and Performance Item DPCS...
  • Page 58 Appendix2. The diffrence between DPCS and DPCS Emulator Table A2.2 List of the difference (2) Timing of Operation Item DPCS DPCE Emulator Notes Scan Period Each control card There are two scan In DPCS, each control card has its own have scan period.
  • Page 59 Appendix2. The diffrence between DPCS and DPCS Emulator Table A2.3 List of the difference (3) Processing of I/O Item DPCS DPCE Emulator Notes Input of VPCPX* All channel input from It synchronize on scan I/O asynchronize on period. At the head of scan time (CT).
  • Page 60 Appendix2. The diffrence between DPCS and DPCS Emulator Item DPCS DPCE Emulator Notes VSIOX1 As virtual input and SSIF1. DPCS Emulator does not have a rotary output of VPCPX2, it is switch of VPCPX2. When use SSIF1, used with a rotary register SSIF1 at Serial I/O switch, setting up.
  • Page 61 Appendix2. The diffrence between DPCS and DPCS Emulator Item DPCS DPCE Emulator Notes Input of Tc VAMPX1 and STC01 STC01 has some temperature ranges linearizing poly line preset in parameter. Select a suitable table. temperature range that was used at VAMPX1.
  • Page 62 Appendix2. The diffrence between DPCS and DPCS Emulator Item DPCS DPCE Emulator Notes Switching Per control card Self diagnostic check of conditions Communication error emulation module. Self diagnostic check Self diagnostic check of of Hard ware. I/O modules. Communication error of Ethernet communication module.
  • Page 63 Appendix2. The diffrence between DPCS and DPCS Emulator Table A2.6 List of the difference (6) Maintenance Item DPCS DPCE Emulator Notes Online hard ware Power off and Redundant configuration In redundant configuration of I/O maintenance exchange per control module is needed. modules, it is possible to exchange the card.
  • Page 64 Appendix2. The diffrence between DPCS and DPCS Emulator Item DPCS DPCE Emulator Notes The action at the After downloading, the After downloading, the At HALT mode and RUN mode, you can time of download control card starts. control card starts. download.
  • Page 65 Appendix2. The diffrence between DPCS and DPCS Emulator Item DPCS DPCE Emulator Notes Redundant SVP supervises the No status checking of DPCS emulator do not check the status power supply redundant state of a power supply. of power supply. unit power supply.
  • Page 66 Appendix2. The diffrence between DPCS and DPCS Emulator Table A2.9 List of the difference (9) Special cards Item DPCS DPCE Emulator Notes Temperature Soft less Not supported Application is required. logging LCP Custom-made version High speed LCP Soft less Not supported Change to VLCPX5.

  • Page 67: About Registration Of Serial I/O Modules

    Appendix2. The diffrence between DPCS and DPCS Emulator About registration of Serial I/O Modules VRTDX1 In DPCS Emulator, SRT01 module is used instead of VRTDX1. In VRTDX1, various input ranges were registered. But all ranges are not supported in SRT01. For that reason, you choose a suitable range from SRT01 parameters (it registers at SI/O point information).

  • Page 68: About Cddi On/Off Of Digital Input

    Appendix2. The diffrence between DPCS and DPCS Emulator Table A2.11 Conversion table of VAMPX1+VAINX1B, and SAI01 VAMPX1+VAINX1B SAI01 Input range (V) BIAS LEVEL Input range (V) -5.00 --- +5.00 -5.00 --- +5.00 -1.00 --- +1.00 -1.00 --- +1.00 -0.20 --- +0.20 -1.00 --- +1.00 -0.10 --- +0.10 -0.10 --- +0.10...

  • Page 69: About Pvc Value At Using Srt01 Or Stc01

    Appendix2. The diffrence between DPCS and DPCS Emulator name on the engineering tools is “Analog input”, “Analog output (Current, Pusle, Voltage)”, please register as block number 1 to 4 in order. Input the value of a place of SSIF module to a bus number and a unit number.

  • Page 70: Control Period

    Appendix2. The diffrence between DPCS and DPCS Emulator Control period In a DPCS emulator, each control card of DPCS is registered to either a main scan or a high-speed scan. The program of each control card is executed according to the execution time of a main scan or a high-speed scan.
  • Page 71 Appendix2. The diffrence between DPCS and DPCS Emulator Check Input Gather Execute program Make Output download from V-Para to I/O data Control card ..Control card ..Control card Partial Tracking Partial Slot 11 Slot NN Slot 6A...

  • Page 72: Vampx12/Stc01 Cold Junction Compensation

    Appendix2. The diffrence between DPCS and DPCS Emulator VAMPX12/STC01 Cold Junction Compensation Cold Junction Compensation input of VAMPX12 Cold Junction Compensation input of VAMPX12 is assigned at the 16th channel on terminal unit. By using it in common with other Cold Junction Compensation input, the 16 channels can be used not as the Cold Junction but as the thermocouple input.

  • Page 73: Cold Junction Compensation Input Of Stc01

    Appendix2. The diffrence between DPCS and DPCS Emulator Cold Junction Compensation input of STC01 The thermocouple compensation line of STC01 on the UIOU57 base card is attached on VTBUX32 of TOSDIC terminal unit. The Cold Junction Compensation needs the circumference temperature of VTBUX32 terminal unit.
  • Page 74 TOSHIBA CORPRATION Social Infrastructure System company Securuty & automation Systems Division 72-34, Horikawa-Cho, Saiwai-Ku, Kawasaki 212-8585, JAPAN...

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