Mitsubishi Electric GOT1000 Series Connection Manual

Mitsubishi Electric GOT1000 Series Connection Manual

Graphic operation terminal
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Connection Manual
(Non-Mitsubishi Products 2)
HITACHI IES PLC
HITACHI IES PLC
HITACHI IES PLC
HITACHI PLC
HITACHI PLC
HITACHI PLC
FUJI PLC
FUJI PLC
FUJI PLC
FUJI TEMPERATURE CONTROLLER
FUJI TEMPERATURE CONTROLLER
FUJI TEMPERATURE CONTROLLER
YASKAWA PLC
YASKAWA PLC
YASKAWA PLC
YOKOGAWA PLC
YOKOGAWA PLC
YOKOGAWA PLC
YOKOGAWA TEMPERATURE CONTROLLER
YOKOGAWA TEMPERATURE CONTROLLER
YOKOGAWA TEMPERATURE CONTROLLER
RKC TEMPERATURE CONTROLLER
RKC TEMPERATURE CONTROLLER
RKC TEMPERATURE CONTROLLER
ALLEN-BRADLEY PLC
ALLEN-BRADLEY PLC
ALLEN-BRADLEY PLC
GE PLC
GE PLC
GE PLC
LS INDUSTRIAL SYSTEMS PLC
LS INDUSTRIAL SYSTEMS PLC
LS INDUSTRIAL SYSTEMS PLC
SICK SAFETY CONTROLLER
SICK SAFETY CONTROLLER
SICK SAFETY CONTROLLER
SIEMENS PLC
SIEMENS PLC
SIEMENS PLC
HIRATA CORPORATION HNC CONTROLLER
HIRATA CORPORATION HNC CONTROLLER
HIRATA CORPORATION HNC CONTROLLER
MURATEC CONTROLLER
MURATEC CONTROLLER
MURATEC CONTROLLER
Series
for GT Works3

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Summary of Contents for Mitsubishi Electric GOT1000 Series

  • Page 1 Series Connection Manual (Non-Mitsubishi Products 2) for GT Works3 HITACHI IES PLC HITACHI IES PLC HITACHI IES PLC HITACHI PLC HITACHI PLC HITACHI PLC FUJI PLC FUJI PLC FUJI PLC FUJI TEMPERATURE CONTROLLER FUJI TEMPERATURE CONTROLLER FUJI TEMPERATURE CONTROLLER YASKAWA PLC YASKAWA PLC YASKAWA PLC YOKOGAWA PLC...
  • Page 3: Safety Precautions

    SAFETY PRECAUTIONS (Always read these precautions before using this equipment.) Before using this product, please read this manual and the relevant manuals introduced in this manual carefully and pay full attention to safety to handle the product correctly. The precautions given in this manual are concerned with this product. In this manual, the safety precautions are ranked as "WARNING"...
  • Page 4 [DESIGN PRECAUTIONS] WARNING ● Incorrect operation of the touch switch(s) may lead to a serious accident if the GOT backlight is gone out. When the GOT backlight goes out, the display section dims, while the input of the touch switch(s) remains active.
  • Page 5 [MOUNTING PRECAUTIONS] WARNING ● Be sure to shut off all phases of the external power supply used by the system before mounting or removing the GOT to/from the panel. Not switching the power off in all phases can cause a unit failure or malfunction. ●...
  • Page 6 [MOUNTING PRECAUTIONS] CAUTION ● When removing a CF card from the GOT, make sure to support the CF card by hand, as it may pop out. Failure to do so may cause the CF card to drop from the GOT and break. ●...
  • Page 7 [WIRING PRECAUTIONS] CAUTION ● Correctly wire the GOT power supply section after confirming the rated voltage and terminal arrangement of the product. Not doing so can cause a fire or failure. ● Tighten the terminal screws of the GOT power supply section in the specified torque range. Undertightening can cause a short circuit or malfunction.
  • Page 8 [Precautions for Remote Control] WARNING ● Remote control is available through a network by using GOT functions, including the Soft GOT-GOT link function, the remote personal computer operation function, and the VNC server function. If these functions are used to perform remote control of control equipment, the field operator may not notice the remote control, possibly leading to an accident.
  • Page 9 Not doing so can cause the unit to fail or malfunction. ● Replace battery with GT15-BAT(GT16, GT15) or GT11-50BAT(GT14, GT12, GT11, GT10) by Mitsubishi electric Co. only. Use of another battery may present a risk of fire or explosion. ● Dispose of used battery promptly.
  • Page 10 [DISPOSAL PRECAUTIONS] CAUTION ● When disposing of the product, handle it as industrial waste. ● When disposing of this product, treat it as industrial waste. When disposing of batteries, separate them from other wastes according to the local regulations. (For details of the battery directive in EU member states, refer to the User's Manual of the GOT to be used.) [TRANSPORTATION PRECAUTIONS] CAUTION...
  • Page 11: Table Of Contents

    INTRODUCTION Thank you for choosing Mitsubishi Graphic Operation Terminal (Mitsubishi GOT). Read this manual and make sure you understand the functions and performance of the GOT thoroughly in advance to ensure correct use. CONTENTS SAFETY PRECAUTIONS .........................A - 1 INTRODUCTION ............................A - 9 CONTENTS ..............................A - 9 MANUALS...............................
  • Page 12 CONNECTIONS TO NON-MITSUBISHI PRODUCTS 2. CONNECTION TO HITACHI IES PLC Connectable Model List ........................2 - 2 System Configuration ........................2 - 3 2.2.1 Connection to large-sized H series..................2 - 3 2.2.2 Connecting to H-200 to 252 series, H series board type or EH-150 series ......2 - 4 Connection Diagram ........................
  • Page 13 Device Range that Can Be Set...................... 4 - 29 4.4.1 FUJI MICREX-F Series ...................... 4 - 30 4.4.2 FUJI MICREX-SX Series ....................4 - 30 Precautions............................ 4 - 31 5. CONNECTION TO FUJI TEMPERATURE CONTROLLER Connectable Model List ........................5 - 2 System Configuration ........................
  • Page 14 Device Range that Can Be Set ...................... 6 - 32 6.4.1 YASKAWA GL/PROGIC8 ....................6 - 32 6.4.2 YASKAWA CP9200SH/MP900................... 6 - 33 6.4.3 YASKAWA CP9200 (H) ...................... 6 - 33 6.4.4 YASKAWA CP9300MS (MC compatible) ................6 - 33 6.4.5 YASKAWA MP2000/MP900/CP9200SH Series ..............
  • Page 15 8.5.2 Connecting to UT100 Series ....................8 - 34 8.5.3 Connecting to UT2000 Series .................... 8 - 34 8.5.4 Connecting to UTAdvanced Series ..................8 - 34 8.5.5 Connecting to RS232C/RS485 converter (ML2-[]) ............. 8 - 35 8.5.6 Station number setting......................8 - 36 Device Range that Can Be Set......................
  • Page 16 Device Range that Can Be Set ...................... 9 - 50 9.6.1 RKC SR Mini HG ........................ 9 - 51 Precautions ............................ 9 - 51 10. CONNECTION TO ALLEN-BRADLEY PLC 10.1 Connectable Model List ......................... 10 - 2 10.2 Serial Connection .......................... 10 - 4 10.2.1 System Configuration for connecting to SLC500 Series.............
  • Page 17 12.2 System Configuration ........................12 - 3 12.2.1 Connecting to K80S or K120S.................... 12 - 3 12.2.2 Connecting to K200S......................12 - 5 12.2.3 Connecting to K300S......................12 - 6 12.3 Connection Diagram ........................12 - 7 12.3.1 RS-232 cable ........................12 - 7 12.3.2 RS-422 cable ........................
  • Page 18 14.3.5 Precautions........................14 - 15 14.4 Device Range that Can Be Set ....................14 - 16 14.4.1 SIEMENS S7-300/400 Series................... 14 - 18 14.4.2 SIEMENS S7-200 Series....................14 - 18 14.4.3 SIEMENS S7 (Ethernet) ....................14 - 18 14.4.4 SIEMENS OP (Ethernet) ....................14 - 18 15.
  • Page 19: Manuals

    Stored in DVD-ROM (1D7MA7) SH-080859ENG GOT1000 Series MES Interface Function Manual for GT Works3 Stored in DVD-ROM (1D7MA8) SH-080863ENG GOT1000 Series User's Manual (Extended Functions, Option Functions) for GT Works3 Stored in DVD-ROM (1D7MB3)  GT SoftGOT1000 manuals Manual Number Manual Name...
  • Page 20  GT16 manuals Manual Number Manual Name Packaging (Model code) SH-080928ENG GT16 User's Manual (Hardware) Stored in DVD-ROM (1D7MD3) SH-080929ENG GT16 User's Manual (Basic Utility) Stored in DVD-ROM (1D7MD4) JY997D41201 GT16 Handy GOT User's Manual Stored in DVD-ROM JY997D41202 (09R821) ...
  • Page 21: Quick Reference

    Connecting a controller to the GOT Obtaining information of Mitsubishi products applicable to the GOT Connecting Mitsubishi products to the GOT GOT1000 Series Connection Manual (Mitsubishi Products) for Connecting multiple controllersto one GOT (Multi-channel function) GT Works3 Establishing communication between a personal computer and a...
  • Page 22 • GT11 User's Manual • GT11 Handy GOT User's Manual • GT10 User's Manual Configuring the gateway function GOT1000 Series Gateway Functions Manual for GT Works3 GOT1000 Series MES Interface Function Manual for GT Configuring the MES interface function Works3...
  • Page 23: Abbreviations And Generic Terms

    ABBREVIATIONS AND GENERIC TERMS  Abbreviations and generic terms Description GT1695 GT1695M-X Abbreviation of GT1695M-XTBA, GT1695M-XTBD GT1685 GT1685M-S Abbreviation of GT1685M-STBA, GT1685M-STBD GT1675M-S Abbreviation of GT1675M-STBA, GT1675M-STBD GT1675 GT1675M-V Abbreviation of GT1675M-VTBA, GT1675M-VTBD GT1675-VN Abbreviation of GT1675-VNBA, GT1675-VNBD GT1672 GT1672-VN Abbreviation of GT1672-VNBA, GT1672-VNBD GT1665M-S Abbreviation of GT1665M-STBA, GT1665M-STBD...
  • Page 24 Abbreviations and generic terms Description GT16 Handy GT1665HS-V Abbreviation of GT1665HS-VTBD Handy GOT1000 GT11 GT1155HS-Q Abbreviation of GT1155HS-QSBD Series Handy GT1150HS-Q Abbreviation of GT1150HS-QLBD GT SoftGOT1000 Abbreviation of GT SoftGOT1000 GOT900 Series Abbreviation of GOT-A900 series, GOT-F900 series GOT800 Series Abbreviation of GOT-800 series ...
  • Page 25  Option Abbreviations and generic terms Description GT05-MEM-16MC, GT05-MEM-32MC, GT05-MEM-64MC, GT05-MEM-128MC, CF card GT05-MEM-256MC, GT05-MEM-512MC, GT05-MEM-1GC, GT05-MEM-2GC, GT05-MEM-4GC, GT05-MEM-8GC, GT05-MEM-16GC Memory card NZ1MEM-2GBSD, NZ1MEM-4GBSD, NZ1MEM-8GBSD, NZ1MEM-16GBSD, L1MEM-2GBSD, SD card L1MEM-4GBSD Memory card adaptor GT05-MEM-ADPC GT16-MESB, GT15-FNB, GT15-QFNB, GT15-QFNB16M, Option function board GT15-QFNB32M, GT15-QFNB48M, GT11-50FNB, GT15-MESB48M Battery GT15-BAT, GT11-50BAT...
  • Page 26 Description GT Works3 Abbreviation of the SW DND-GTWK3-E and SW DND-GTWK3-EA GT Designer3 Abbreviation of screen drawing software GT Designer3 for GOT1000 series GT Simulator3 Abbreviation of screen simulator GT Simulator3 for GOT1000/GOT900 series GT SoftGOT1000 Abbreviation of monitoring software GT SoftGOT1000...
  • Page 27  Others Abbreviations and generic terms Description Abbreviation of IAI Corporation AZBIL Abbreviation of Azbil Corporation (former Yamatake Corporation) OMRON Abbreviation of OMRON Corporation KEYENCE Abbreviation of KEYENCE CORPORATION KOYO EI Abbreviation of KOYO ELECTRONICS INDUSTRIES CO., LTD. SHARP Abbreviation of Sharp Manufacturing Systems Corporation JTEKT Abbreviation of JTEKT Corporation SHINKO...
  • Page 28: How To Read This Manual

    HOW TO READ THIS MANUAL  Symbols Following symbols are used in this manual. BUS CONNECTION Connectable model name Not connectable model name 5.1 Connectable Model List 5 - 2 Applicable model name Shows GT16. Shows GT15. Shows GT14. Shows GT12. Shows GT11.
  • Page 29  About system configuration The following describes the system configuration of each connection included in this manual. The configuration of The configuration of The configuration of The cable connecting The cable connecting The cable connecting The configuration of The configuration of The configuration of equipment connected equipment connected...
  • Page 30 A - 28...
  • Page 31: Preparatory Procedures For Monitoring

    PREPARATORY PROCEDURES FOR MONITORING 1.1 Setting the Communication Interface ....1 - 3 1.2 Writing the Project Data and OS onto the GOT ..1 - 16 1.3 Option Devices for the Respective Connection .
  • Page 32 PREPARATORY PROCEDURES FOR MONITORING The following shows the procedures to be taken before monitoring and corresponding reference sections. Setting the communication interface Setting the Communication Interface Determine the connection type and channel No. to be used, and Each chapter GOT Side Settings perform the communication setting.
  • Page 33: Setting The Communication Interface

    1.1 Setting the Communication Interface Set the communication interface of GOT and the connected equipment. When using the GOT at the first time, make sure to set the channel of communication interface and the communication driver before writing to GOT. Set the communication interface of the GOT at [Controller Setting] and [I/F Communication Setting] in GT Designer3.
  • Page 34  Setting item This section describes the setting items of the Manufacturer, Controller Type, Driver and I/F. When using the channel No.2 to No.4, put a check mark at [Use CH*]. Item Description Use CH* Select this item when setting the channel No.2 to No.4. Manufacturer Select the manufacturer of the equipment to be connected to the GOT.
  • Page 35 (2) Setting [Controller Type] The types for the selection differs depending on the PLC to be used. For the settings, refer to the following. Type Model name Type Model name PXR3 H-302 PXR4 H-702 PXR5 H-1002 PXR9 FUJI PXR/PXG/PXH H-2002 PXG4 H-4010 PXG5...
  • Page 36 Type Model name Type Model name FA500 UT320 F3SP05 UT321 F3SP08 UT350 F3SP10 UT351 F3SP20 UT420 F3SP30 UT450 F3FP36 UT520 F3SP21 UT550 F3SP25 UT551 YOKOGAWA FA500/FA-M3 Series F3SP35 UT750 F3SP28 UP350 F3SP38 UP351 F3SP53 UP550 F3SP58 UP750 F3SP59 UM330 F3SP66 UM331 YOKOGAWA GREEN/UT100/UT2000 F3SP67...
  • Page 37 Type Model name Type Model name H-PCP-J 1761-L10BWA H-PCP-A 1761-L10BWB H-PCP-B 1761-L16AWA Z-TIO 1761-L16BWA Z-DIO 1761-L16BWB Z-CT 1761-L16BBB CB100 1761-L32AWA CB400 1761-L32BWA CB500 AB MicroLogix1000/1200/1400/1500 Series 1761-L32BWB CB700 1761-L32BBB CB900 1761-L32AAA FB100 1761-L20AWA-5A FB400 1761-L20BWA-5A FB900 1761-L20BWB-5A RB100 1762-L24BWA RKC SR Mini HG RB400 1764-LSP RB500...
  • Page 38 Type Model name Type Model name IC693CPU311 K7M-D S(/DC) IC693CPU313 K7M-D LS Industrial Systems MASTER-K IC693CPU323 K3P-07 S IC693CPU350 K4P-15AS IC693CPU360 FX3-CPU000000 IC693CPU363 SICK Flexi Soft FX3-CPU130002 IC693CPU366 FX3-CPU320002 IC693CPU367 SIMATIC S7-300 SIEMENS S7-300/400 Series IC693CPU374 SIMATIC S7-400 IC697CPU731 SIEMENS S7-200 SIMATIC S7-200 IC697CPX772 IC697CPX782...
  • Page 39 (3) Setting [I/F] The interface differs depending on the GOT to be used. Set the I/F according to the connection and the position of communication unit to be mounted onto the GOT. (a) GT16 Extension interface 1 Extension interface 2 3rd stage Standard interface 3 (RS-422/485 interface built in the GOT)
  • Page 40 (c) GT14 [Front view]] [Rear view] Standard interface 1 Standard interface 3 (GOT built-in RS-422 interface) (GOT built-in USB interface) Standard interface 2 (GOT built-in RS-232 interface) Standard interface 4 (GOT built-in Ethernet interface) [Under view] (d) GT12 [Front view] [Rear view] Standard interface 4 (GOT built-in Ethernet interface)
  • Page 41 (e) GT11 • GT11 Serial [Front view] [Rear view] Standard interface 3 Standard interface 1 (GOT built-in USB interface) (GOT built-in RS-422 interface) Standard interface 2 (GOT built-in RS-232 interface) • GT11 Bus [Front view] [Rear view] Standard interface 3 Standard interface 2 (GOT built-in USB interface) (GOT built-in RS-232 interface)
  • Page 42 GT105 [Rear view] Standard interface 3 Standard interface 1 (GOT built-in RS-422 interface) (GOT built-in USB interface) Standard interface 2 (GOT built-in RS-232 interface) (g) GT104 Standard interface 3 Standard interface 1 (GOT built-in USB interface) (GOT built-in RS-422 interface) Standard interface 2 (GOT built-in RS-232 interface) (h) GT1020, GT1030...
  • Page 43: I/F Communication Setting

    1.1.2 I/F communication setting This function displays the list of the GOT communication interfaces. Set the channel and the communication driver to the interface to be used.  Setting Select [Common] [I/F Communication Setting] from the menu. The I/F Communication Setting dialog box appears. Make the settings with reference to the following explanation. 1 - 13 1.
  • Page 44  Setting item The following describes the setting items for the standard I/F setting and extension I/F setting. Item Description Set channel No. and drivers to the GOT standard interfaces. GT16, GT14, GT12: Standard I/F-1, Standard I/F-2, Standard I/F-3, Standard I/F-4 Standard I/F Setting GT15, GT1030, GT1020: Standard I/F-1, Standard I/F-2 GT11, GT105 , GT104 : Standard I/F-1, Standard I/F-2, Standard I/F-3...
  • Page 45: Precautions

    Item Description Extend I/F Setting Set the communication unit attached to the extension interface of the GOT. Set the CH No. according to the intended purpose. The number of channels differs depending on the GOT to be used. 0: Not used 1 to 4: Used for connecting a controller of channel No.
  • Page 46: Writing The Project Data And Os Onto The Got

    1.2 Writing the Project Data and OS onto the GOT Write the standard monitor OS, communication driver, option OS, project data and communication settings onto the GOT. For details on writing to GOT, refer to the following manual. GT Designer3 Version1 Screen Design Manual 1.2.1 Writing the project data and OS onto the GOT Select [Communication]...
  • Page 47: Checking The Project Data And Os Writing On Got

    1.2.2 Checking the project data and OS writing on GOT Confirm if the standard monitor OS, communication driver, option OS, project data and communication settings are properly written onto the GOT by reading from GOT using GT Designer3. For reading from the GOT, refer to the following manual. GT Designer3 Version1 Screen Design Manual Select [Communication] [Read from GOT…] from the menu.
  • Page 48: Option Devices For The Respective Connection

    1.3 Option Devices for the Respective Connection The following shows the option devices to connect in the respective connection type. For the specifications, usage and connecting procedure on option devices, refer to the respective device manual. 1.3.1 Communication module Product name Model Specifications For QCPU (Q mode), motion controller CPU (Q series)
  • Page 49: Option Unit

    1.3.2 Option unit Product name Model Specifications Printer unit GT15-PRN USB slave (PictBridge) for connecting printer 1 ch Multimedia unit GT16M-MMR For video input signal (NTSC/PAL) 1 ch, playing movie GT16M-V4 Video input unit For video input signal (NTSC/PAL) 4 ch GT15V-75V4 GT16M-R2 RGB input unit...
  • Page 50: Installing A Unit On Another Unit (Checking The Unit Installation Position)

    1.3.7 Installing a unit on another unit (Checking the unit installation position) This section describes the precautions for installing units on another unit. For the installation method of each unit, refer to the User's Manual for the communication unit and option unit you are using.
  • Page 51 (3) Calculation example (a) When connecting the GT15-J71BR13, GT15-RS4-9S (3 units), GT15-J71E71-100 (for the gateway function) and a bar code reader (0.12 A) to the GT1575-V Current supply capacity of GOT (A) Total consumed current (A) 0.77+0.33+0.33+0.33+0.224+0.12=2.104 Since the calculated value is within the capacity of the GOT, they can be connected to the GOT. (b) When connecting the GT15-J71BR13, GT15-RS4-9S (2 units), GT15-J71E71-100 (for the gateway function) and a bar code reader (0.12 A) to the GT1585-S Current supply capacity of GOT (A)
  • Page 52 POINT POINT POINT Cautions for using GT15-QBUS2 and GT15-ABUS2 The stage number of communication units installed on the next stage of GT15-QBUS2 or GT15-ABUS2 are recognized by the GOT differently depending on the extension interface position. For communication units installed in the extension interface 2 side, even if the communication unit is physically installed in the 2nd stage position, the GOT recognizes the position as the 1st stage.
  • Page 53  When using a MELSECNET/H communication unit, CC-Link IE controller network communication unit, or CC-Link communication unit (GT15-J61BT13) Install a MELSECNET/H communication unit, CC-Link IE controller network communication unit, or CC-Link communication unit in the 1st stage of an extension interface. These communication units cannot be used if installed in the 2nd or higher stage.
  • Page 54  When using a MELSECNET/10 communication unit (GT15-75J71LP23-Z, GT15- 75J71BR13- Z) or CC-Link communication unit (GT15-75J61BT13-Z) Install a MELSECNET/10 communication unit (GT15-75J71LP23-Z, GT15-75J71BR13-Z) or CC-Link communication unit (GT15-75J61BT13-Z) at the 1st stage of the extension interface. These communication units cannot be used if installed in the 2nd or higher stage. For GT16 and the GT155 , the MELSECNET/10 communication unit (GT15-75J71LP23-Z, GT15- 75J71BR13-Z) and the CC-Link communication unit (GT15-75J61BT13-Z) are not applicable.
  • Page 55  When using the printer unit, sound output unit, or external I/O unit The printer unit, sound output unit, or external I/O unit can be installed in any position (1st to 3rd stage) of the extension interface. Example: When installing a printer unit Communication Printer unit unit...
  • Page 56 POINT POINT POINT Precautions for video input unit, RGB input unit, video/RGB input unit, RGB output unit, and multimedia unit When a communication unit is installed on any of the units above, the stage number of the communication unit recognized by the GOT varies according to the extension interface. For communication units installed in the extension interface 2 side, even if the communication unit is physically installed in the 2nd stage position, the GOT recognizes the position as the 1st stage.
  • Page 57: Connection Cables For The Respective Connection

    1.4 Connection Cables for the Respective Connection To connect the GOT to a device in the respective connection type, connection cables between the GOT and a device are necessary. For cables needed for each connection, refer to each chapter for connection. 1.4.1 GOT connector specifications The following shows the connector specifications on the GOT side.
  • Page 58  RS-422 interface Use the following as the RS-422 interface and RS-422/485 communication unit connector on the GOT. For the GOT side of the connection cable, use a connector and connector cover applicable to the GOT connector. (1) Connector model Connector type Connector model Manufacturer...
  • Page 59  RS-485 interface Use the following as the RS-485 interface and RS-422/485 communication unit connector on the GOT. For the GOT side of the connection cable, use a connector and connector cover applicable to the GOT connector. (1) Connector model Connector type Connector model Manufacturer...
  • Page 60: Coaxial Cable Connector Connection Method

    1.4.2 Coaxial cable connector connection method The following describes the method for connecting the BNC connector (connector plug for coaxial cable) and the cable. CAUTION  Solder the coaxial cable connectors properly. Insufficient soldering may result in malfunctions. Components of the BNC connector Structure of the coaxial cable External conductor Outer sheath...
  • Page 61: Terminating Resistors Of Got

    1.4.3 Terminating resistors of GOT The following shows the terminating resistor specifications on the GOT side. When setting the terminating resistor in each connection type, refer to the following.   RS-422/485 communication unit GT16 Set the terminating resistor using the terminating Set the terminating resistor using the terminating resistor setting switch.
  • Page 62   GT12 GT105 Set the terminating resistor using the terminating Set the terminating resistor using the terminating resistor setting switch. resistor setting switch. Terminating resistor selector switch  GT11 Terminating resistor selector switch Set the terminating resistor using the terminating ...
  • Page 63  GT1030 Set the terminating resistor using the terminating resistor setting switch. Terminating resistor selector switch  GT1020 Set the terminating resistor using the terminating resistor setting switch. Terminating resistor selector switch 1 - 33 1. PREPARATORY PROCEDURES FOR MONITORING 1.4 Connection Cables for the Respective Connection...
  • Page 64: Setting The Rs-232/485 Signal Conversion Adaptor

    1.4.4 Setting the RS-232/485 signal conversion adaptor Set the 2-wire/4-wire terminating resistor setting switch according to the connection type. POINT POINT POINT Enable the 5V power supply Make sure to validate "Enable the 5V power supply" in the [RS232 Setting] to operate the RS-232/485 signal conversion adaptor.
  • Page 65: Verifying Got Recognizes Connected Equipment

    1.5 Verifying GOT Recognizes Connected Equipment Verify the GOT recognizes controllers on [Communication Settings] of the Utility. • Channel number of communication interface, communication drivers allocation status • Communication unit installation status For details on the Utility, refer to the following manual. User's Manual ...
  • Page 66 The [Communication Setting] appears. Verify that the communication driver name to be used is displayed in the communication interface box to be used. When the communication driver name is not displayed normally, carry out the following procedure again. 1.1Setting the Communication Interface 1 - 36 1.
  • Page 67  For GT15, GT14 or GT11 After powering up the GOT, touch [Main Menu] [Communication setting] from the Utility. Touch [Communication setting]. (The screen on the left is not displayed on GT11.) The [Communication Setting] appears. Verify that the communication driver name to be used is displayed in the box for the communication interface to be used.
  • Page 68  For GT10 After powering up the GOT, touch [Main menu] [Communication setting] from the Utility. Touch [Standard I/F] on [Comm. Setting]. The [Standard I/F] appears. Verify that the communication driver name to be used is displayed in the box for the communication interface to be used.
  • Page 69 POINT POINT POINT Utility (1) How to display Utility (at default) When using GT16, GT1595, GT14, GT12 or GT1020 Utility call key 1-point press on GOT screen upper-left corner Utility display (When using GT16, GT12) (When using GT15) (When using GT105 When using GT1585, GT157 , (When using GT14, GT11) GT104...
  • Page 70: Checking For Normal Monitoring

    1.6 Checking for Normal Monitoring 1.6.1 Check on the GOT  Check for errors occurring on the GOT Presetting the system alarm to project data allows you to identify errors occurred on the GOT, PLC CPU, servo amplifier and communications. For details on the operation method of the GOT Utility screen, refer to the following manual.
  • Page 71  Perform an I/O check Whether the PLC can communicate with the GOT or not can be checked by the I/O check function. If this check ends successfully, it means correct communication interface settings and proper cable connection. Display the I/O check screen by Main Menu. •...
  • Page 72  Communication monitoring function The communication monitoring is a function that checks whether the PLC can communicate with the GOT. If this check ends successfully, it means correct communication interface settings and proper cable connection. Display the communication monitoring function screen by [Main Menu] [Comm.
  • Page 73: Confirming The Communication State On The Got Side (For Ethernet Connection)

    1.6.2 Confirming the communication state on the GOT side (For Ethernet connection)  ® Confirming the communication state on Windows , GT Designer3 ® (1) When using the Command Prompt of Windows ® Execute a Ping command at the Command Prompt of Windows (a) When normal communication C:\>Ping 192.168.0.18 Reply from 192.168.0.18: bytes=32 time<1ms TTL=64...
  • Page 74  Confirming the communication state on the GOT (For GT16, GT14) [PING Test] can be confirmed by the Utility screen of the GOT. For details on the operation method of the GOT Utility screen, refer to the following manual. GT16 User's Manual (Basic Utility) GT14 User's Manual 1 - 44 1.
  • Page 75: Confirming The Communication State To Each Station (Station Monitoring Function)

    1.6.3 Confirming the communication state to each station (Station monitoring function) The station monitoring function detects the faults (communication timeout) of the stations monitored by the GOT. When an abnormal state is detected, the function assigns the information of the faulty station to the GOT special register (GS).
  • Page 76 (2) Faulty station information The bit corresponding to the faulty station is set. (0: Normal 1: Abnormal) The bit is reset after the fault is recovered. (a) For the Ethernet connection (except for the Ethernet multiple connection). GS231 bit 0 GS231 bit 1 GS231 bit 2 GS231 bit 3...
  • Page 77 (3) Network No., station No. notification The network No. and station No. of the GOT in Ethernet connection are stored at GOT startup. If connected by other than Ethernet, 0 is stored. Device Description GS376 GS378 GS380 GS382 Network No. (1 to 239) GS377 GS379 GS381...
  • Page 78 1 - 48 1. PREPARATORY PROCEDURES FOR MONITORING 1.6 Checking for Normal Monitoring...
  • Page 79 CONNECTIONS TO NON-MITSUBISHI PRODUCTS CONNECTION TO HITACHI IES PLC ....2 - 1 CONNECTION TO HITACHI PLC ....3 - 1 CONNECTION TO FUJI PLC.
  • Page 81 CONNECTION TO HITACHI IES PLC 2.1 Connectable Model List ......2 - 2 2.2 System Configuration .
  • Page 82 CONNECTION TO HITACHI IES PLC 2.1 Connectable Model List The following table shows the connectable models. Communication Series Model name Clock Refer to Type H-302 H-702 H-1002 H-2002 Large-sized H RS-232 2.2.1 Series RS-422 H-4010 H-300 H-700 H-2000 H-200 H-250 H-200 to 252 H-252 RS-232...
  • Page 83: Connection To Hitachi Ies Plc

    2.2 System Configuration 2.2.1 Connection to large-sized H series Communication driver Intelligent Large-sized serial port H series · HITACHI HIDIC H module · HITACHI HIDIC H (Protocol2) Connection cable To use "transmission control procedure 2" as a protocol, select "HITACHI HIDIC H (Protocol2)"...
  • Page 84: Connecting To H-200 To 252 Series, H Series Board Type Or Eh-150 Series

    2.2.2 Connecting to H-200 to 252 series, H series board type or EH-150 series Communication driver H-200 to 252 series, H series board type, · HITACHI HIDIC H EH-150 series · HITACHI HIDIC H (Protocol2) Connection cable To use "transmission control procedure 2" as a protocol, select "HITACHI HIDIC H (Protocol2)"...
  • Page 85: Connection Diagram

    2.3 Connection Diagram The following diagram shows the connection between the 2.3.2 RS-422 cable GOT and the PLC.  2.3.1 RS-232 cable Connection diagram RS422 connection diagram 1)  Connection diagram GOT side HITACHI IES PLC side RS232 connection diagram 1) SDA1(TXD1+) RXDP GOT side...
  • Page 86  Precautions when preparing a cable (1) Cable length The length of the RS-422 cable must be 200m or less. (2) GOT side connector For the GOT side connector, refer to the following. 1.4.1GOT connector specifications (3) HITACHI IES PLC side connector Use the connector compatible with the HITACHI IES PLC side module.
  • Page 87: Got Side Settings

    2.4 GOT Side Settings 2.4.1 Setting communication 2.4.2 Communication detail settings interface (Communication settings) Make the settings according to the usage environment. (1) HITACHI HIDIC H Set the channel of the connected equipment. Item Description Range Set this item when change the 4800bps, transmission speed used for Transmission...
  • Page 88 (2) HITACHI HIDIC H (Protocol2) POINT POINT POINT (1) Communication interface setting by the Utility The communication interface setting can be changed on the Utility's [Communication Settings] after writing [Communication Settings] of project data. For details on the Utility, refer to the following manual.
  • Page 89: Plc Side Setting

    2.5 PLC Side Setting (2) For transmission control procedure2 POINT POINT POINT Item Set value HITACHI IES PLC Transmission speed 19200bps For details of the HITACHI IES PLC, refer to the Station No. following manual. Data bit 7bit HITACHI IES PLC user's Manual Stop bit 1bit Parity bit...
  • Page 90: Device Range That Can Be Set

    2.6 Device Range that Can Be Set The device ranges of controller that can be used for GOT are as follows. Note that the device ranges in the following tables are the maximum values that can be set in GT Designer3. The device specifications of controllers may differ depending on the models, even though belonging to the same series.
  • Page 91 POINT POINT POINT Device settings of HITACHI IES PLC (1) When specifying an external I/O device (a) When setting a bit device Set the device using the format of module No. + slot No. + module bit No. Device number Module internal bit No.
  • Page 92: Hitachi Hidic H Series

    2.6.1 HITACHI HIDIC H Series Device name Setting range Device No. representation External input (X) X00000 to X05A95 Hexadecimal + Decimal External output (Y) Y00000 to Y05A95 Remote external input (X) X10000 to X49995 Decimal Remote external output (Y) Y10000 to Y49995 1st CPU link (L) L0000 to L3FFF 2nd CPU link (L1)
  • Page 93: Connection To Hitachi Plc

    CONNECTION TO HITACHI PLC 3.1 Connectable Model List ......3 - 2 3.2 System Configuration ......3 - 3 3.3 Connection Diagram .
  • Page 94: Connectable Model List

    CONNECTION TO HITACHI PLC 3.1 Connectable Model List The following table shows the connectable models. Communication Series Model name Clock Refer to Type LQP510 RS-232 S10V 3.2.1 RS-422 LQP520 LQP800 LQP000 RS-232 S10mini LQP010 3.2.2 RS-422 LQP011 LQP120 3 - 2 3.
  • Page 95: System Configuration

    3.2 System Configuration 3.2.1 Connecting to S10V Communication driver Communication S10V module HITACHI S10mini/S10V Connection cable Connection cable Number of Commun Communication connectable Model Cable model Max. ication Option device Model equipment name Connection diagram number distance module Type GT09-C30R21301-9S (3m) - (Built into GOT) LQE560 RS-232...
  • Page 96: Connecting To S10Mini

    3.2.2 Connecting to S10mini Communication driver Communication S10mini module HITACHI S10mini/S10V Connection cable Connection cable Number of Commun connectable Communication Cable model Max. Series ication Option device Model equipment Connection diagram number distance module Type GT09-C30R21301-9S (3m) LQE560 - (Built into GOT) LQE060 RS-232 RS232 connection diagram...
  • Page 97: Connection Diagram

    3.3 Connection Diagram The following diagram shows the connection between the 3.3.2 RS-422 cable GOT and the PLC.  3.3.1 RS-232 cable Connection diagram RS422 connection diagram 1)  Connection diagram GOT side PLC side RS232 connection diagram 1) SDA1(TXD1+) RD-H For the GT16, GT15 SDB1(TXD1-)
  • Page 98  Precautions when preparing a cable (1) Cable length The length of the RS-422 cable must be 500m or less. (2) GOT side connector For the GOT side connector, refer to the following. 1.4.1GOT connector specifications (3) HITACHI PLC side connector Use the connector compatible with the HITACHI PLC side module.
  • Page 99: Got Side Settings

    3.4 GOT Side Settings 3.4.1 Setting communication 3.4.2 Communication detail settings interface (Communication settings) Make the settings according to the usage environment. Set the channel of the connected equipment. Item Description Range Set this item when change the 9600bps, transmission speed used for 19200bps, Transmission communication with the connected...
  • Page 100: Plc Side Setting

    3.5 PLC Side Setting 3.5.1 Connecting to communication POINT POINT POINT module HITACHI PLC  For details of HITACHI PLCs, refer to the following Communication settings manuals. Make the communication settings of the HITACHI PLC user's Manual Communication module. Item Set value Model name Refer to...
  • Page 101: Device Range That Can Be Set

    3.6 Device Range that Can Be Set The device ranges of controller that can be used for GOT 3.6.1 HITACHI S10mini/S10V are as follows. Note that the device ranges in the following tables are the maximum values that can be set in GT Designer3. Device The device specifications of controllers may differ depending on the models, even though belonging to the...
  • Page 102 Device Device name Setting range represen tation One-shot timer (UW) UW000 to UW0F0 Up-down counter (CW) CW00 to CWF0 Global link register (GW) GW000 to GWFF0 Event register (EW) EW000 to EWFF0 SW000 to SWBF0 System register (SW) Transfer register (JW) JW000 to JWFF0 Receive register (QW) QW000 to QWFF0...
  • Page 103: Connection To Fuji Plc

    CONNECTION TO FUJI PLC 4.1 Connectable Model List ......4 - 2 4.2 Serial Connection....... . . 4 - 3 4.3 Ethernet Connection .
  • Page 104: Connectable Model List

    CONNECTION TO FUJI PLC 4.1 Connectable Model List The following table shows the connectable models. Communication Series Model name Clock Refer to Type RS-232 4.2.1 RS-485 RS-232 4.2.2 RS-485 MICREX-F F120S RS-232 F140S 4.2.3 RS-485 F15 S SPH200 SPH300 MICREX-SX RS-232 4.2.4 RS-485...
  • Page 105: Serial Connection

    4.2 Serial Connection 4.2.1 System Configuration for connecting to MICREX-F55 For details on the system configuration on the PLC side, refer to the following section. 4.5 Precautions  When using the RS-232 interface card Communication driver RS-232C MICREX-F55 interface card FUJI MICREX-F Connection cable Connection cable...
  • Page 106  When connecting to multiple PLCs Connection cable RS-232C/485 RS-232C/485 interface capsule interface capsule T-link T-link MICREX-F55 MICREX-F55 Connection cable Number of connectable RS-232C/485 Commun Model Cable model Max. equipment interface ication Option device Model name Connection diagram number distance Type capsule RS485 connection diagram...
  • Page 107: System Configuration For Connecting To Micrex-F70

    4.2.2 System Configuration for connecting to MICREX-F70 For details on the system configuration on the PLC side, refer to the following. 4.5 Precautions  When using general-purpose interface modules Communication driver General-purpose MICREX-F70 interface module FUJI MICREX-F Connection cable Connection cable Number of connectable General-purpose Commun...
  • Page 108  When connecting to multiple PLCs (using RS-232C/485 interface capsules) Connection cable RS-232C/485 RS-232C/485 interface capsule interface capsule T-link T-link MICREX-F70 MICREX-F70 Connection cable Number of connectable RS-232C/485 Commun Model Cable model Max. equipment interface ication Option device Model name Connection diagram number distance Type...
  • Page 109  When connecting to multiple PLCs (using general-purpose interface modules) General-purpose General-purpose MICREX-F70 MICREX-F70 interface module interface module Connection cable Connection cable General- Number of connectable Commun purpose Model Cable model Max. equipment ication Option device Model interface name Connection diagram number distance Type module...
  • Page 110: System Configuration For Connecting To Micrex-F120S/140S/15[]S

    4.2.3 System Configuration for connecting to MICREX-F120S/140S/15[]S For details on the system configuration on the PLC side, refer to the following. 4.5 Precautions  When using general-purpose interface modules Communication driver MICREX-F General-purpose 120S/140S/ interface module FUJI MICREX-F 15□S Connection cable Connection cable Number of General-purpose...
  • Page 111  When connecting to multiple PLCs (using RS-232C/485 interface capsules) Connection cable RS-232C/485 RS-232C/485 interface capsule interface capsule T-link T-link MICREX-F MICREX-F 120S/140S/ 120S/140S/ 15□S 15□S Connection cable Number of RS-232C/485 Commun connectable Model Cable model Max. interface ication Option device Model equipment name...
  • Page 112  When connecting to multiple PLCs (using general-purpose interface modules) MICREX-F MICREX-F General-purpose General-purpose 120S/140S/ 120S/140S/ interface module interface module 15□S 15□S Connection cable Connection cable General- Number of connectable Commun purpose Model Cable model Max. equipment ication Option device Model interface name...
  • Page 113: System Configuration For Connecting To Micrex-Sx Sph

    4.2.4 System Configuration for connecting to MICREX-SX SPH Communication driver General-purpose MICREX-SX communication FUJI MICREX-SX SPH module Connection cable Connection cable Number of General-purpose Commun connectable Cable model Max. interface Model name ication Option device Model equipment Connection diagram number distance Type module...
  • Page 114: Connection Diagram

    4.2.5 Connection Diagram (2) Precautions when preparing a cable (a) Cable length The following diagram shows the connection between the The length of the RS-232 cable must be 15m or GOT and the PLC. less. (b) GOT side connector  RS-232 cable For the GOT side connector, refer to the following.
  • Page 115  RS-485 cable (1) Connection diagram RS485 connection diagram 1) GOT side PLC side PLC side RDA1(RXD1+) RDB1(RXD1-) SDA1(TXD1+) SDB1(TXD1-) RSA(RTS+) CSA(CTS+) RSB(RTS-) CSB(CTS-) SDA2(TXD2+) SDB2(TXD2-) RDA2(RXD2+) RDB2(RXD2-) Shell Turn ON the terminating switch of a interface converter which will be a terminal. Set the terminating resistor of GOT side which will be a terminal.
  • Page 116 RS485 connection diagram 3) PLC side GOT side (D-sub 9-pin) SDA(+) RDA1(RXD1+) SDB(-) RDB1(RXD1-) RDA(+) SDA1(TXD1+) RDB(-) SDB1(TXD1-) RSA(RTS+) CSA(CTS+) RSB(RTS-) CSB(CTS-) SDA2(TXD2+) SDB2(TXD2-) RDA2(RXD2+) RDB2(RXD2-) Shell Turn ON the terminating switch of a interface converter which will be a terminal. Set the terminating resistor of GOT side which will be a terminal.
  • Page 117 RS485 connection diagram 5) PLC side GOT side (terminal block) SDA(+) RDA1(RXD1+) SDB(-) RDB1(RXD1-) RDA(+) SDA1(TXD1+) RDB(-) SDB1(TXD1-) RSA(RTS+) CSA(CTS+) RSB(RTS-) CSB(CTS-) SDA2(TXD2+) SDB2(TXD2-) RDA2(RXD2+) RDB2(RXD2-) Shell Turn ON the terminating switch of a interface converter which will be a terminal. Set the terminating resistor of GOT side which will be a terminal.
  • Page 118 (2) Precautions when preparing a cable (a) Cable length The length of the RS-485 cable must be within the maximum distance. (b) GOT side connector For the GOT side connector, refer to the following. 1.4.1 GOT connector specifications (c) FUJI PLC side connector Use the connector compatible with the FUJI PLC side module.
  • Page 119: Got Side Settings

    4.2.6 GOT Side Settings POINT POINT POINT  Setting communication interface The settings of connecting equipment can be (Communication settings) confirmed in [I/F Communication Setting]. Set the channel of the connected equipment. For details, refer to the following. 1.1.2 I/F communication setting ...
  • Page 120 (For FUJI MICREX-SX SPH) Item Description Range 9600bps, Set this item when change the 19200bps, Transmission transmission speed used for 38400bps, communication with the connected Speed 57600bps, equipment. (Default: 38400bps) 115200bps Set this item when change the data length used for communication with 7bits/8bits Data Bit the connected equipment.
  • Page 121: Plc Side Setting

    4.2.7 PLC Side Setting  Connecting to NV1L-RS2, NC1L-RS2 (1) Communication settings Make the communication settings using setting POINT POINT POINT switches. FUJI PLC Item Set value For details of FUJI PLCs, refer to the following Command-setting-type start-stop MODE manuals. synchronization, nonsequence format FUJI PLC user's Manual 9600bps, 19200bps...
  • Page 122 (b) Setting of Transmission speed, Stop bit, Data bit,  Connecting to NC1L-RS4 Parity bit, Initializing method (1) Communication settings For the NV1L-RS2 For the NC1L-RS2 Make the communication settings using setting switches. Item Set value Command-setting-type start-stop MODE synchronization, nonsequence format 9600bps, 19200bps Transmission speed 8bits or 7bits...
  • Page 123 (b) Setting of the station No.  Connecting to FFU120B Make the station No. using RS-485 station No. switches. (1) Communication settings Make the communication settings using setting Station No. switches. Item Set value 0 to 99 Command-setting-type start-stop MODE synchronization, nonsequence format 9600bps, 19200bps Transmission speed...
  • Page 124 (b) Setting of the station No.  Connecting to FFK120A-C10 Make the station No. using RS-485 station No. switches. (1) Communication settings Make the communication settings using setting Station No. switches. Item Set value 0 to 99 Command-setting-type start-stop synchronization, nonsequence format RS-232C 1:1 Command-setting-type start-stop (c) Connecting terminating resistors...
  • Page 125 (a) Setting of the MODE (e) Transmission speed settings Make the MODE settings using the MODE switch. Make the settings using the baudrate setting switches. MODE Switch position Command-setting-type start-stop synchronization, nonsequence format RS-232C 1:1 Command-setting-type start-stop synchronization, nonsequence format RS-232C 1:1, and RS-485 1:N Switch No.
  • Page 126  Station number setting Set each station number so that no station number overlaps. The station number can be set without regard to the cable connection order. There is no problem even if station numbers are not consecutive. Station Station Station Station Station...
  • Page 127: Ethernet Connection

    4.3 Ethernet Connection 4.3.1 System Configuration for connecting to MICREX-SX SPH Communication driver Ethernet MICREX-SX SPH interface module Ethernet( ), Gateway FUJI Connection cable Connection cable Number of connectable Ethernet Max. Cable model equipment Model name Option device Model interface module Connection diagram number distance When PLC: GOT is 1: N...
  • Page 128: Got Side Settings

    4.3.2 GOT Side Settings  Communication detail settings Make the settings according to the usage environment.  Setting communication interface (Communication settings) Set the channel of the connected equipment. Item Description Range Set the network No. of the GOT. GOT NET No. 1 to 239 (Default: 1) Set the station No.
  • Page 129 Click the [Setting] button and perform the setting in the [GOT  IP Address Setting] screen. Ethernet setting Item Description Set value The host is displayed. (The host is Host ― Each of [GOT PLC No.] set in the communication detail indicated with an asterisk (*).) setting and [PLC No.] set in the Ethernet setting must be set to different station numbers.
  • Page 130: Plc Side Setting (Micrex-Sx Sph)

    4.3.3 PLC side setting (MICREX-SX SPH) POINT POINT POINT FUJI PLC For details of FUJI PLCs, refer to the following manuals. FUJI PLC user's Manual  Setting the IP address and self port reference Set the IP address and self port reference No. using a peripheral tool of the PLC.
  • Page 131: Device Range That Can Be Set

    4.4 Device Range that Can Be Set The device ranges of controller that can be used for GOT are as follows. (2) FUJI MICREX-SX SPH Note that the device ranges in the following tables are the maximum values that can be set in GT Designer3. The device specifications of controllers may differ depending on the models, even though belonging to the same series.
  • Page 132: Fuji Micrex-F Series

    4.4.1 FUJI MICREX-F Series Only reading is possible. Only 32-bit (2-word) designation is allowed. Decimal points are not displayed. To read/write data from/to a user file, set SI data for the data format of the PLC CPU and 16 bits for data length on GT Designer3.
  • Page 133: Precautions

    4.5 Precautions  Station No. settings of the PLC side In the system configuration, the PLC with the station number set with the host address must be included. For details of host address setting, refer to the following. ■ Communication detail settings ...
  • Page 134 4 - 32 4. CONNECTION TO FUJI PLC 4.5 Precautions...
  • Page 135: Connection To Fuji Temperature Controller

    CONNECTION TO FUJI TEMPERATURE CONTROLLER 5.1 Connectable Model List ......5 - 2 5.2 System Configuration .
  • Page 136: Connectable Model List

    CONNECTION TO FUJI TEMPERATURE CONTROLLER 5.1 Connectable Model List The following table shows the connectable models. Communication Series Model name Clock Refer to Type PXR3 PXR4 RS-232 5.2.1 PXR5 PXR9 Micro Controller X PXG4 PXG5 RS-485 5.2.2 PXG9 PXH9 5 - 2 5.
  • Page 137: System Configuration

    5.2 System Configuration 5.2.1 Connecting to PXR3, PXR4, PXR5 or PXR9  When connecting via the RS-232 communication Communication driver PXR3,PXR4, PXR3,PXR4, Interface PXR5,PXR9 PXR5,PXR9 converter FUJI PXR/PXG/PXH Connection cable 2) Connection cable 1) Temperat Connection cable 1) Interface converter Connection cable 2) Number of controller...
  • Page 138: Connecting To Pxg4, Pxg5, Pxg9 Or Pxh9

    RS485 connection diagram 9) Including the cable length of the option devices. Product manufactured by MITSUBISHI ELECTRIC ENGINEERING COMPANY LIMITED. For details of the product, contact MITSUBISHI ELECTRIC ENGINEERING COMPANY LIMITED. Connect it to the RS-232 interface (built into GOT).
  • Page 139 RS485 connection diagram 9) Including the cable length of the option devices. Product manufactured by MITSUBISHI ELECTRIC ENGINEERING COMPANY LIMITED. For details of the product, contact MITSUBISHI ELECTRIC ENGINEERING COMPANY LIMITED. Connect it to the RS-232 interface (built into GOT).
  • Page 140: Connection Diagram

    5.3 Connection Diagram The following diagram shows the connection between the RS232 connection diagram 3) GOT and the temperature controller. Interface converter side 5.3.1 RS-232 cable GOT side (K3SC-10)  Connection diagram RD(RXD) SD(TXD) RS232 connection diagram 1) Interface ER(DTR) converter side GOT side (RC-77...
  • Page 141: Cable

    5.3.2 RS-485 cable  Connection diagram RS485 connection diagram 1) Interface Terminating resistor(100Ω 1/2W) converter Temperature Temperature controller side (RC-77) controller side + * 1 TXD+ - * 1 TXD- RXD+ RXD- Pin No. of temperature controller differs depending on the model. Refer to the following table. Model of temperature controller Signal name PXR3...
  • Page 142 RS485 connection diagram 4) Temperature Temperature GOT side controller side controller side + * 1 + * 1 SDA1(TXD1+) - * 1 SDB1(TXD1-) SDA2(TXD2+) Terminating resistor(100Ω 1/2W) SDB2(TXD2-) RDA2(RXD2+) RDA1(RXD1+) RDB2(RXD2-) RDB1(RXD1-) RSA(RTS+) RSB(RTS-) CSA(CTS+) CSB(CTS-) Pin No. of temperature controller differs depending on the model. Refer to the following table. Model of temperature controller Signal name PXR3...
  • Page 143 RS485 connection diagram 6) Temperature Temperature GOT side controller side controller side + * 1 + * 1 SDA1 - * 1 SDB1 - * 1 RDA1 RDB1 SDA2 Terminating resistor(100Ω 1/2W) SDB2 RDA2 RDB2 Pin No. of temperature controller differs depending on the model. Refer to the following table. Model of temperature controller Signal name PXR3...
  • Page 144 RS485 connection diagram 9) Temperature Temperature GOT side controller side controller side + * 1 - * 1 - * 1 Terminating resistor(100Ω 1/2W) Pin No. of temperature controller differs depending on the model. Refer to the following table. Model of temperature controller Signal name PXR3 PXR4...
  • Page 145: Got Side Settings

    5.4 GOT Side Settings 5.4.1 Setting communication 5.4.2 Communication detail settings interface (Communication settings) Make the settings according to the usage environment. Set the channel of the connected equipment. Item Description Range Set this item when change the 9600bps, transmission speed used for 19200bps, Transmission communication with the connected...
  • Page 146 POINT POINT POINT (1) Host address Do not specify a number between 200 and 215. (2) Format • When connecting to PXH, specify the format 1. • When connecting to only PXR/PXG, specifying the format 2 is recommended. (3) Delay Time Set the delay time to 5ms or more.
  • Page 147: Temperature Controller Side Setting

    5.5 Temperature Controller Side Setting 5.5.2 Connecting to PXG4, PXG5 or POINT POINT POINT PXG9 (1) FUJI temperature controller For details of FUJI temperature controller, refer to the following manual.  Communication settings User's Manual of the FUJI temperature Make the communication settings by operating the key controller of the temperature controller.
  • Page 148: Connecting To Pxh9

    5.5.3 Connecting to PXH9 5.5.4 Connecting to interface converter (RC-77)  Communication settings  Make the communication settings by operating the key Communication settings of the temperature controller. Make the communication settings using setting switches. (1) RS-485 communication settings Item Set value Item Set value...
  • Page 149: Connecting To Interface Converter (Si-30A)

    5.5.5 Connecting to interface (2) Settings of DCE/DTE, RS-422/485 and terminating converter (SI-30A) resistor selection Setting item Set value  Communication settings DCE-DTE DCE/DTE Make the communication settings using setting 422-485 switches. RS-422/485 RS-485 Item Set value Terminating resistor TERMINATOR ON-OFF selection Transmission speed...
  • Page 150: Connecting To Interface Converter (Ks-485)

    5.5.6 Connecting to interface 5.5.7 Connecting to interface converter (KS-485) converter (K3SC-10)   Communication settings Communication settings Make the communication settings using setting Make the communication settings by operating the DIP switches. switch of the temperature controller. Item Set value Item Set value Transmission speed...
  • Page 151: Station Number Setting

    5.5.8 Station number setting (2) Settings of data length, parity bit, stop bit, master/ slave device and echoback Set each station number so that no station number overlaps. The station number can be set without regard to the cable connection order. There is no problem even if station numbers are not consecutive.
  • Page 152: Device Range That Can Be Set

    5.6 Device Range that Can Be Set The device ranges of controller that can be used for GOT are as follows. Note that the device ranges in the following tables are the maximum values that can be set in GT Designer3. The device specifications of controllers may differ depending on the models, even though belonging to the same series.
  • Page 153: Fuji Pxr/Pxg/Pxh

    5.6.1 FUJI PXR/PXG/PXH Device name Setting range Device No. representation Bit data (0) 00001 to 00001 Decimal 10001 to 10016 Bit data (1) Word device bit Specified bit of the following word devices ― 30001 to 31398 Word data (3) Decimal Word data (4) 40001 to 43776...
  • Page 154 5 - 20 5. CONNECTION TO FUJI TEMPERATURE CONTROLLER 5.7 Precautions...
  • Page 155: Connection To Yaskawa Plc

    CONNECTION TO YASKAWA PLC 6.1 Connectable Model List ......6 - 2 6.2 Serial Connection....... . . 6 - 3 6.3 Ethernet Connection .
  • Page 156: Connectable Model List

    CONNECTION TO YASKAWA PLC 6.1 Connectable Model List The following table shows the connectable models. Model name Clock Communication Refer to GL120 RS-232 6.2.1 RS-422 GL130 GL60S RS-232 GL60H 6.2.2 RS-422 GL70H MP920 MP930 RS-232 CP-9300MS 6.2.3 RS-422 CP-9200(H) PROGIC-8 RS-232 MP940 6.2.4...
  • Page 157: Serial Connection

    6.2 Serial Connection 6.2.1 System configuration for connecting to GL120 or GL130 Communication driver MEMOBUS GL120, YASKAWA GL/CP9200(SH/H)/CP9300MS Module GL130 Connection cable Connection cable Number of connectable Commun MEMOBUS Model Cable model Max. equipment ication Option device Model name Connection diagram number distance module Type...
  • Page 158: System Configuration For Connecting To Gl60S, Gl60H Or Gl70H

    6.2.2 System configuration for connecting to GL60S, GL60H or GL70H Communication driver GL60S, MEMOBUS GL60H, YASKAWA GL/CP9200(SH/H)/CP9300MS Module GL70H Connection cable Connection cable Number of connectable Commun MEMOBUS Model Cable model Max. equipment ication Option device Model name Connection diagram number distance module Type...
  • Page 159: System Configuration For Connecting To Mp-920/930, Cp-9300Ms/9200(H) Or Progic-8

    6.2.3 System configuration for connecting to MP-920/930, CP-9300MS/9200(H) or PROGIC-8 Communication driver Communication driver YASKAWA GL/CP9200(SH/H)/CP9300MS YASKAWA MP (For GT16, GT15, GT14, GT12, GT11) (For GT10) MP-920/930, Communications CP-9300MS/9200(H), Module PROGIC-8 Connection cable Connection cable Number of Communica connectable Communic Cable model Max.
  • Page 160 Connection cable Number of Communica connectable Communic Cable model Max. Model name tion Option device Model equipment ation Type Connection diagram number distance module GT09-C30R20201-9P (3m) - (Built into GOT) same as above RS-232 RS232 connection diagram 1) GT15-RS2-9P same as - (Built into GOT) RS232 connection diagram 6) above...
  • Page 161: System Configuration For Connecting To Mp-940

    6.2.4 System configuration for connecting to MP-940 Communication driver Communication driver YASKAWA GL/CP9200(SH/H)/CP9300MS YASKAWA MP (For GT16, GT15, GT14, GT12, GT11) (For GT10) MP-940 Connection cable Connection cable Number of connectable Communi Model Cable model Max. equipment cation Option device Model name Connection diagram number...
  • Page 162: System Configuration For Connecting To Cp-9200Sh, Cp-317

    6.2.5 System configuration for connecting to CP-9200SH, CP-317 Communication driver Communication driver YASKAWA GL/CP9200(SH/H)/CP9300MS YASKAWA MP (For GT16, GT15, GT14, GT12, GT11) (For GT10) CP-9200SH Communications CP-317 Module Connection cable Connection cable Number of Commun connectable Communication Cable model Model name ication Max.
  • Page 163: System Configuration For Connecting To Mp2200, Mp2300 Or Mp2300S

    6.2.6 System configuration for connecting to MP2200, MP2300 or MP2300S Communication driver Communication driver YASKAWA GL/CP9200(SH/H)/CP9300MS YASKAWA MP (For GT16, GT15, GT14, GT12, GT11) (For GT10) MP2200, Communications MP2300 Module Connection cable Connection cable Number of Communi connectable Communication Model Cable model cation Max.
  • Page 164: Connection Diagram

    6.2.7 Connection Diagram RS232 connection diagram 4) GOT side YASKAWA PLC side The following diagram shows the connection between the GOT and the PLC. Clamped by hood CD/NC RD(RXD)  RS-232 cable SD(TXD) ER(DTR) (1) Connection diagram RS232 connection diagram 1) DR(DSR) GOT side YASKAWA PLC side...
  • Page 165 RS232 connection diagram 7) RS232 connection diagram 9) GOT side YASKAWA PLC side GOT side (terminal block) YASKAWA PLC side CD/NC RD(RXD) SD(TXD) Clamped by hood ER(DTR) DR(DSR) RS(RTS) CS(CTS) GT16: CD, GT15: CD, GT14: NC, GT12: NC, GT11: NC, GT105 : NC, GT104 : NC RS232 connection diagram 8) RS232 connection diagram 10) GOT side...
  • Page 166  RS-422 cable RS422 connection diagram 3) GOT side YASKAWA PLC side (1) Connection diagram SDA1(TXD1+) RS422 connection diagram 1) SDB1(TXD1-) YASKAWA PLC side GOT side RDA1(RXD1+) SDA1(TXD1+) RDB1(RXD1-) SDB1(TXD1-) SDA2(TXD2+) RDA1(RXD1+) SDB2(TXD2-) RDB1(RXD1-) Receiving side RDA2(RXD2+) termination SDA2(TXD2+) PGND RDB2(RXD2-) Receiving side SDB2(TXD2-)
  • Page 167 RS422 connection diagram 5) RS422 connection diagram 8) GOT side YASKAWA PLC side YASKAWA PLC side GOT side PGND Receiving side termination Sending side termination RS422 connection diagram 6) YASKAWA PLC side GOT side Connect RXR with RX(-) and TXR with TX(-) of 217IF01, and insert the terminating resistor.
  • Page 168 (2) Precautions when preparing a cable RS422 connection diagram 10) (a) Cable length GOT side The length of RS-422 cable 2) must be 300m or YASKAWA PLC side (terminal block) less. RX(+) The maximum length of RS-422 cable 1) differs according to the specifications of the YASKAWA RX(-) PLC side.
  • Page 169: Got Side Settings

    6.2.8 GOT Side Settings  Communication detail settings  Make the settings according to the usage environment. Setting communication interface (Communication settings) (1) YASKAWA GL/CP9200(SH/H)/CP9300MS Set the channel of the connected equipment. Item Description Range Set this item when change the 4800bps, transmission speed used for 9600bps,...
  • Page 170 (2) YASKAWA MP Item Description Range 4800bps, Set this item when change the transmission 9600bps, Transmission speed used for communication with the 19200bps, Speed connected equipment. 38400bps, (Default: 19200bps) 57600bps Set this item when change the data length used for communication with the connected Data Bit 8bit (fixed) equipment.
  • Page 171: Plc Side Settings

    6.2.9 PLC Side Settings POINT POINT POINT (1) Delay Time POINT POINT POINT When connecting to PLC CP-9200(H) and CP- 9300MS, set the following. YASKAWA PLC Model name Delay Time For details of YASKAWA PLCs, refer to the following CP-9200(H) 30ms or more manuals.
  • Page 172  Sequence program To communicate the YASKAWA PLCs with the GOT1000 series, the ladder program to receive messages is required. The following shows an example ladder program for MP2000 series. ladder program to receive massages One scan at startup Sets parameters in the first scan after startup.
  • Page 173 Parameter settings completed. END_IF 0010 0010 NL-1 DB000400 SB000004 Sends a Message Receive instruction(Execute). 0011 0011 NL-1 Message receive function (MSG-RCV) 0012 MSG-RCV 0013 Busy DB000210 Execute SB000004 NL-1 When the receive message command coil (Execute) Abort DB000400 Complete DB000211 turns on, the executing coil (Busy) turns on.
  • Page 174: Ethernet Connection

    6.3 Ethernet Connection 6.3.1 System configuration for connecting to MP-920 or MP2200 or MP2300 or MP2300S or CP-9200SH or CP-312 or CP-317 Communication driver MP920,MP2200, Communications MP2300, Module CP-9200SH,CP-312, Ethernet( ), Gateway YASKAWA CP-317 Connection cable Connection cable Number of connectable Maximum Communication equipment...
  • Page 175: Got Side Settings

    6.3.2 GOT Side Settings  Communication detail settings Make the settings according to the usage environment.  Setting communication interface (1) GT16, GT14 (Communication settings) Set the channel of the connected equipment. Item Description Range Set the network No. of the GOT. GOT NET No.
  • Page 176 Click the [Setting] button and perform the setting in the [GOT (2) GT15, GT12 IP Address Setting] screen. Each of [GOT PLC No.] set in the communication detail setting and [PLC No.] set in the Ethernet setting must be set to different station numbers.
  • Page 177: Plc Side Setting (Mp2000 Series, Mp920 Series)

    6.3.3 PLC side setting (MP2000  Ethernet setting series, MP920 series) POINT POINT POINT YASKAWA PLC For details of YASKAWA PLCs, refer to the following manuals. YASKAWA PLC user's Manual  Parameter settings Make the parameter settings with a peripheral tool. Item Description Set value...
  • Page 178 (2) Setting for the built-in MP2300S Ethernet and 218IF- Item Set value Range PLC side IP IP Address [ ].[ ].[ ].[ ] address Transmission Subnet Mask [ ].[ ].[ ].[ ] PLC side setting parameter Gateway IP Address [ ].[ ].[ ].[ ] setting Up to 16 one-byte Device name...
  • Page 179  Sequence program To communicate the MP2000 series or MP920 series with the GOT1000 series, the ladder program to receive massages is required. When connecting the MP2000 series or MP920 series with multiple GOTs, ladder programs to receive messages for each GOT are required.
  • Page 180 Write range: HI 0010 STORE 0010 Source 0000065534 NL-2 Dest DW00013 Clears the system registers 0011 STORE 0011 Source 00000 NL-2 Dest DW00014 Clears the normal pass counter 0012 STORE 0012 Source 00000 NL-2 Dest DW00024 Clears the error counter 0013 STORE 0013...
  • Page 181 Increments the abnormal pass counter 0021 0022 Dest DW00025 NL-2 Stores the processing results 0022 STORE 0023 Source DW00000 NL-2 Dest DW00026 Stores the status STORE 0023 0024 Source DW00001 NL-2 Dest DW00027 Stores the number of station to which STORE 0024 0025...
  • Page 182: Plc Side Setting (Cp-9200Sh Series, Cp-312, Cp-317 Series)

    6.3.4 PLC side setting (CP-9200SH  Settings by DIP switch series, CP-312, CP-317 series) (1) Settings for 218TXB Set the DIP switch (SW2) as follows. POINT POINT POINT 10/100 YASKAWA PLC For details of YASKAWA PLCs, refer to the following manuals.
  • Page 183  Sequence program To communicate the CP-9200SH series, CP-312 series, or CP-317 series with GOT1000 series, the ladder program to receive messages is required. When multiple GOTs are connected to the CP-9200SH series, CP-312 series, or CP-317 series, ladder programs to receive messages for each GOT are required.
  • Page 184 1 0023 MSG-RCV RECEIVE MESSAGE function (standard system functions) ONCOIL EXECUTE BUSY DB-210 1 0024 SB000004 FOUT DB000210 ...=009 COMPLETE ONCOIL ABORT DB-211 1 0026 SB000004 FOUT DB000211 ...=010 .../039 DEV-TYP ERROR DB-212 1 0028 00006 ===============> FIN FOUT DB000212 ...=011 .../041 PRO-TYP...
  • Page 185: Precautions

    6.3.5 Precautions  When connecting to multiple GOTs (1) Setting PLC No. When connecting two or more GOTs in the Ethernet network, set each [PLC No.] to the GOT. 6.3.2 ■ Ethernet setting (2) Setting IP address Do not use the IP address "192.168.0.18" when using multiple GOTs.
  • Page 186: Device Range That Can Be Set

    6.4 Device Range that Can Be Set The device ranges of controller that can be used for GOT (2) When setting as a word device are as follows. Set the device using the format of word address Note that the device ranges in the following tables are the (DEC).
  • Page 187: Yaskawa Cp9200Sh/Mp900

    6.4.3 YASKAWA CP9200 (H) SR and SW indicate registers (virtual register) compatible to the data format where internal data of PLC is displayed using R or W. The following shows the difference between the display values of SR, SW and those of R, W corresponding to the values of PLC internal data.
  • Page 188: Yaskawa Mp2000/Mp900/Cp9200Sh Series

    6.4.5 YASKAWA MP2000/MP900/ CP9200SH Series Device No. Device name Setting range representation Decimal + Coil (MB) MB000000 to MB65534F Hexadecimal Input relay (IB) IB00000 to IB7FFFF Hexadecimal Word device Specified bit of the following ― *2*3 word devices Input register IW0000 to IW7FFF Hexadecimal (IW)
  • Page 189 CONNECTION TO YOKOGAWA PLC 7.1 Connectable Model List ......7 - 2 7.2 Serial Connection....... . . 7 - 3 7.3 Ethernet Connection .
  • Page 190: Connectable Model List

    CONNECTION TO YOKOGAWA PLC 7.1 Connectable Model List The following table shows the connectable models. Communication Series Model name Clock Refer to Type F3SP05 F3SP08 F3SP10 F3SP20 F3SP30 F3FP36 F3SP21 F3SP22-0S FA-M3 F3SP25 RS-232 7.2.1 F3SP35 RS-422 F3SP28 F3SP38 F3SP53 F3SP58 F3SP59 F3SP66...
  • Page 191: Serial Connection

    7.2 Serial Connection 7.2.1 System configuration for connecting to FA-M3/M3V  When using the conversion cable Communication driver Conversion FA-M3/M3V cable YOKOGAWA FA500/FA-M3/STARDOM Connection cable Connection cable Number of Commun connectable Conversion Model Cable model Max. ication Option device Model equipment name Connection diagram number...
  • Page 192  When using the PC link module PC link FA-M3/M3V module Connection cable Connection cable Number of Commun connectable PC link Model Cable model Max. ication Option device Model equipment name Connection diagram number distance module Type F3SP05 F3SP08 - (Built into GOT) F3SP10 F3SP20 F3SP30...
  • Page 193: System Configuration For Connecting To Fa500

    7.2.2 System configuration for connecting to FA500 Communication driver PC link FA500 module YOKOGAWA FA500/FA-M3/STARDOM Connection cable Connection cable Number of Commun PC link connectable Cable model Max. Series ication Option device Model equipment Connection diagram number distance module Type GT09-C30R20205-25P(3m) - (Built into GOT) LC01-0N...
  • Page 194: Connection Diagram

    7.2.4 Connection diagram (2) Precautions when preparing a cable (a) Cable length The following diagram shows the connection between the The length of the RS-232 cable must be 15m or GOT and the PLC. less. (b) GOT side connector  RS-232 cable For the GOT side connector, refer to the following.
  • Page 195: Rs-422 Cable

     RS-422 cable RS422 connection diagram 3) GOT side YOKOGAWA PLC side (1) Connection diagram RS422 connection diagram 1) GOT side YOKOGAWA PLC side SDA1(TXD1+) SDB1(TXD1-) RDA1(RXD1+) RDB1(RXD1-) SDA2(TXD2+) SDB2(TXD2-) RDA2(RXD2+) SHIELD RDB2(RXD2-) RSA(RTS+) RS422 connection diagram 4) GOT side YOKOGAWA PLC side RSB(RTS-) CSA(CTS+)
  • Page 196: Got Side Settings

    7.2.5 GOT side settings (2) Precautions when preparing a cable (a) Cable length  Setting communication interface The length of the RS-422 cable must be 1200m or less. (Communication settings) (b) GOT side connector Set the channel of the connected equipment. For the GOT side connector, refer to the following.
  • Page 197: Plc Side Setting

    7.2.6 PLC side setting  Communication detail settings Make the settings according to the usage environment. POINT POINT POINT YOKOGAWA PLC For details of YOKOGAWA PLCs, refer to the following manuals. YOKOGAWA PLC user's Manual Model name Refer to CPU port/D-Sub 9-pin KM10-0C conversion cable 7.2.7...
  • Page 198: Connecting To Cpu Port/D-Sub 9-Pin Conversion Cable, Sio Port Adapter Cable

    7.2.7 Connecting to CPU port/D-sub 7.2.8 Connecting PC link module 9-pin conversion cable, SIO (F3LC01-1N, F3LC11-1N, port adapter cable F3LC11-2N, F3LC11-2F)   Setting of PLC CPU Switch setting on the PC link module Make the PLC CPU settings, displaying [Configuration] Set the switches accordingly.
  • Page 199: Connecting Pc Link Module (F3Lc11-1F, F3Lc12-1F)

    7.2.9 Connecting PC link module (2) Data format setting switch (F3LC11-1F, F3LC12-1F) Set the data length, parity, stop bit and checksum consistent with the corresponding settings on the GOT side.  Switch setting on the PC link module For the settings on the GOT side, refer to the following. 7.2.5 ■...
  • Page 200: Connecting Pc Link Module (Lc01-0N, Lc02-0N)

    7.2.10 Connecting PC link module (2) Data format switch (SW2) (LC01-0N, LC02-0N) Set the character length, parity, stop bit and checksum consistent with the corresponding settings on the GOT side.  Switch setting on the PC link module For the settings on the GOT side, refer to the following. Set the switches accordingly.
  • Page 201: Connecting To Stardom

    7.2.11 Connecting to STARDOM (2) Data format setting switch Set the data length, parity, stop bit and checksum Make the communication settings as shown below.For consistent with the corresponding settings on the GOT details of the communication settings, refer to the following side.
  • Page 202 Select "Reboot (Online Mode)" on the "Reboot" Copy a sample project POU to the new project. screen of the FCX Maintenance Page to set the online (1) Open C{Install Folder}\LogicDesigner\Projects\ mode. EXAMPLE_J.mwt.  Defining Logic POU (2) Right-click [FAM3_Emulator] in the Logic POU under the project tree in the Example_J project, Define Logic POU using Logic Designer (peripheral and select [Copy].
  • Page 203: Precautions

    7.2.12 Precautions Defining Target Setting Define the IP address or host name of STARDOM for  Device range which the communication settings are made. Double-click [Physical hardware] When performing monitoring with the GOT connected [Configuration:IPC_33/FCX01:FCX/Target Setting] to a YOKOGAWA PLC and setting devices for objects, and input the IP address or the host name.
  • Page 204: Ethernet Connection

    7.3 Ethernet Connection 7.3.1 System configuration for connecting to FA-M3/M3V Communication driver PC link FA-M3/M3V module Ethernet( YOKOGAWA ), Gateway Connection cable Connection cable Number of connectable Ethernet Maximum Model Cable model equipment interface segment Option device Model name Connection diagram number module length F3SP05...
  • Page 205: Got Side Settings

    7.3.2 GOT Side Settings  Communication detail settings Make the settings according to the usage environment.  Setting communication interface (1) GT16, GT14 (Communication settings) Set the channel of the connected equipment. Item Description Range Set the network No. of the GOT. GOT NET No.
  • Page 206 Click the [Setting] button and perform the setting in the [GOT (2) GT15, GT12 IP Address Setting] screen. Each of [GOT PLC No.] set in the communication detail setting and [PLC No.] set in the Ethernet setting must be set to different station numbers.
  • Page 207: Plc Side Setting

    7.3.3 PLC side setting  Ethernet setting POINT POINT POINT YOKOGAWA PLC For details of YOKOGAWA PLCs, refer to the following manuals. YOKOGAWA PLC user's Manual Model name Refer to F3LE01-5T 7.3.4 Item Description Set value Ethernet interface module F3LE11-0T The host is displayed.(The host is F3LE12-0T 7.3.5...
  • Page 208: Connecting To Ethernet Interface Module (F3Le12-0T)

    7.3.5 Connecting to Ethernet (2) Condition setting switch Interface Module (F3LE12-0T) Set the data format, write protection, line processing at TCP timeout error or operation mode with the DIP switch on the side of the base unit.  Switch settings of Ethernet Interface Module Switch Set the switches accordingly.
  • Page 209: Connecting To F3Sp66, F3Sp67, F3Sp71-4N (Built-In Ethernet Interface)

    7.3.6 Connecting to F3SP66, 7.3.7 Precautions F3SP67, F3SP71-4N (built-in  Device range Ethernet interface) When performing monitoring with the GOT connected to a YOKOGAWA PLC and setting devices for objects,  Project setting/configuration setting use devices within the device range of the Set the setting with software for programming YOKOGAWA PLC.
  • Page 210: Device Range That Can Be Set

    7.4 Device Range that Can Be Set The device ranges of controller that can be used for GOT are as follows.  Setting item Note that the device ranges in the following tables are the maximum values that can be set in GT Designer3. The device specifications of controllers may differ depending on the models, even though belonging to the same series.
  • Page 211: Yokogawa Fa500/Fa-M3 Series

    7.4.1 YOKOGAWA FA500/FA-M3 7.4.2 YOKOGAWA STARDOM/FA- Series M3 Series Device No. Device No. Device name Setting range representa Device name Setting range representa tion tion X00201 to X71664 X00201 to X71664 Input relay (X) Input relay (X) Output relay (Y) Y00201 to Y71664 Output relay (Y) Y00201 to Y71664...
  • Page 212 7 - 24 7. CONNECTION TO YOKOGAWA PLC 7.4 Device Range that Can Be Set...
  • Page 213: Connection To Yokogawa Temperature Controller

    CONNECTION TO YOKOGAWA TEMPERATURE CONTROLLER 8.1 Connectable Model List ......8 - 2 8.2 System Configuration .
  • Page 214: Connectable Model List

    CONNECTION TO YOKOGAWA TEMPERATURE CONTROLLER 8.1 Connectable Model List The following table shows the connectable models. Communication Series Model name Clock Refer to Type UT320 UT321 UT350 UT351 UT420 UT450 UT520 UT550 UT551 RS-232 GREEN UT750 8.2.1 RS-485 UP350 UP351 UP550 UP750 UM330...
  • Page 215: System Configuration

    8.2 System Configuration 8.2.1 Connecting to GREEN Series  When using the RS232C/RS485 converter Communication driver RS232C GREEN GREEN /RS485 Series Series YOKOGAWA GREEN/UT100/ converter UT2000/UTAdvanced Connection cable 2) Connection cable 1) RS232C/RS485 Temperature Connection cable 1) Connection cable 2) controller converter Number of...
  • Page 216 Connect the connection cable to the standard RS-485 communication interface. Connect the connection cable to the high performance RS-485 communication interface. Product manufactured by MITSUBISHI ELECTRIC ENGINEERING COMPANY LIMITED.For details of the product, contact MITSUBISHI ELECTRIC ENGINEERING COMPANY LIMITED. Connect it to the RS-232 interface (built into GOT).
  • Page 217: Connecting To Ut100 Series

    (2-wire type) FA-LTBGTR4CBL20(2m) RS485 connection diagram 1200m GT15-RS4-TE (2-wire type) Product manufactured by MITSUBISHI ELECTRIC ENGINEERING COMPANY LIMITED.For details of the product, contact MITSUBISHI ELECTRIC ENGINEERING COMPANY LIMITED. 8 - 5 8. CONNECTION TO YOKOGAWA TEMPERATURE CONTROLLER 8.2 System Configuration...
  • Page 218: Connecting To Ut2000 Series

    Including the cable length of the option devices. Connect it to the RS-232 interface (built into GOT).It cannot be mounted on GT1655 and GT155 . Product manufactured by MITSUBISHI ELECTRIC ENGINEERING COMPANY LIMITED.For details of the product, contact MITSUBISHI ELECTRIC ENGINEERING COMPANY LIMITED.
  • Page 219: Connecting To Utadvanced Series

    8.2.4 Connecting to UTAdvanced Series  When using the RS232C/RS485 converter Communication driver RS232C UTAdvanced UTAdvanced /RS485 YOKOGAWA GREEN/UT100/ series series converter UT2000/UTAdvanced Connection cable 2) Connection cable 1) RS232C/RS485 Temperature Connection cable 1) Connection cable 2) controller converter Number of connectable Cable model Commun...
  • Page 220  When connecting directly UTAdvanced UTAdvanced series series Connection cable Temperature Connection cable controller Number of connectable Commun equipment Cable model Max. Series ication Option device Model Connection diagram number distance Type GT09-C30R40303-6T(3m) Up to 31 temperature controllers GT16-C02R4-9S (0.2m) 1200m GT09-C100R40303-6T(10m) for 1 GOT...
  • Page 221 Without "/LP" and without the power supply of 24VDC sensor Connect it to the RS-232 interface (built into GOT). Product manufactured by MITSUBISHI ELECTRIC ENGINEERING COMPANY LIMITED. For details of the product, contact MITSUBISHI ELECTRIC ENGINEERING COMPANY LIMITED. 8 - 9 8.
  • Page 222: Connection Diagram

    8.3 Connection Diagram The following diagram shows the connection between the GOT and the temperature controller. 8.3.1 RS-232 cable  Connection diagram RS232 connection diagram 1) RS232C/RS485 Interface converter side GOT side (ML2-□) RD(RXD) SD(TXD) ER(DTR) DR(DSR) RS(RTS) CS(CTS) Connect FG grounding to the appropriate part of a cable shield line.
  • Page 223: Rs-485 Cable

    8.3.2 RS-485 cable  Connection diagram RS485 connection diagram 1) RS232C/RS485 Terminating resistor(220Ω 1/4W) Temperature Temperature controller controller interface converter RDA(-) SDA(-) RDA(-) RDB(+) SDB(+) RDB(+) SDA(-) RDA(-) SDA(-) SDB(+) RDB(+) SDB(+) Pin No. of temperature controller differs depending on the model. Refer to the following table. Model of temperature controller GREEN Series GREEN Series...
  • Page 224 RS485 connection diagram 3) Temperature GOT side Temperature controller controller SDB(+) RDA1(RXD1+) SDB(+) SDA(-) RDB1(RXD1-) SDA(-) RDB(+) SDA1(TXD1+) RDB(+) RDA(-) SDB1(TXD1-) RDA(-) RSA(RTS+) CSA(CTS+) RSB(RTS-) Terminating resistor(220Ω 1/4W) CSB(CTS-) SDA2(TXD2+) SDB2(TXD2-) RDA2(RXD2+) RDB2(RXD2-) Shell Pin No. of temperature controller differs depending on the model.Refer to the following table. Model of temperature controller GREEN Series GREEN Series...
  • Page 225 RS485 connection diagram 4) GOT side Temperature controller Temperature controller SDB(+) SDB(+) SDA(-) SDA(-) RDB(+) RDB(+) RDA(-) RDA(-) Terminating resistor Pin No. of temperature controller differs depending on the model.Refer to the following table. Model of temperature controller UTAdvanced Series UT35A/ UT55A (product GREEN Series...
  • Page 226 RS485 connection diagram 5) GOT side Temperature controller Temperature controller SDB(+) RDA1 SDB(+) SDA(-) RDB1 SDA(-) RDB(+) RDB(+) SDA1 RDA(-) RDA(-) SDB1 SDA2 SDB2 RDA2 Terminating resistor(220Ω 1/4W) RDB2 Pin No. of temperature controller differs depending on the model. Refer to the following table. Model of temperature controller UTAdvanced Series UT35A/...
  • Page 227 RS485 connection diagram 6) Terminating resistor(220Ω 1/4W) RS23C/RS485 Temperature controller Temperature controller interface converter SDB(+) B(+) SDB(+) SDA(-) A(-) SDA(-) RDB(+) RDB(+) RDA(-) RDA(-) Pin No. of temperature controller differs depending on the model.Refer to the following table. Model of temperature controller GREEN Series GREEN Series Signal name...
  • Page 228 RS485 connection diagram 8) Terminating resistor(220Ω 1/4W) GOT side Temperature controller Temperature controller SDB(+) SDA1(TXD1+) SDB(+) SDA(-) SDB1(TXD1-) SDA(-) RDA1(RXD1+) RDB(+) RDB(+) RDB1(RXD1-) RDA(-) RDA(-) SDA2(TXD2+) SDB2(TXD2-) RSA(RTS+) RSB(RTS-) CSA(CTS+) CSB(CTS-) RDA2(RXD2+) RDB2(RXD2-) Shell Pin No. of temperature controller differs depending on the model.Refer to the following table. Model of temperature controller GREEN Series GREEN Series...
  • Page 229 RS485 connection diagram 10) GOT side Temperature controller Temperature controller RSB(+) SDA1(TXD1+) RSB(+) RSA(-) SDB1(TXD1-) RSA(-) RDA1(RXD1+) RDB1(RXD1-) SDA2(TXD2+) SDB2(TXD2-) Terminating resistor(220Ω 1/4) RSA(RTS+) RSB(RTS-) CSA(CTS+) CSB(CTS-) RDA2(RXD2+) RDB2(RXD2-) Shell Pin No. of temperature controller differs depending on the model. Refer to the following table. Model of temperature controller GREEN Series UT100 Series...
  • Page 230 • For the product condition of UTAdvanced series, refer to the following table. Suffix code Product Model Optional suffix code Remark condition Function Open network Product with the open network port of RS485 communication (4-wire type/2-wire type) UT55A Product with two RS485 communication 1 or 2 Without "/LP"...
  • Page 231 RS485 connection diagram 13) GOT side Temperature controller Temperature controller RSB(+) SDA1 RSB(+) RSA(-) SDB1 RSA(-) RDA1 RDB1 SDA2 SDB2 Terminating resistor(100Ω 1/4W) RDA2 RDB2 Pin No. of temperature controller differs depending on the model. Refer to the following table. Model of temperature controller GREEN Series UT100 Series...
  • Page 232 RS485 connection diagram 15) GOT side Temperature controller Temperature controller SDA1(TXD1+) SDB1(TXD1-) RDA1(RXD1+) RDB1(RXD1-) RSA(RTS+) RSB(RTS-) CSA(CTS+) Terminating resistor(100Ω 1/2W) CSB(CTS-) SDA2(TXD2+) SDB2(TXD2-) RDA2(RXD2+) RDB2(RXD2-) Shell Terminating resistor should be provided for a temperature controller which will be a terminal. Set the terminating resistor of GOT side which will be a terminal.
  • Page 233 RS485 connection diagram 18) GOT side Temperature controller Temperature controller SDA1 SDB1 RDA1 RDB1 SDA2 SDB2 RDA2 Terminating resistor(100Ω 1/2W) RDB2 Terminating resistor should be provided for a temperature controller which will be a terminal. Set the terminating resistor of GOT side which will be a terminal. ■...
  • Page 234 RS485 connection diagram 20) Terminating resistor (220Ω 1/4W) RS232C/RS485 Temperature controller Temperature controller interface converter RDA(-) RDA(-) RDA(-) RDB(+) RDB(+) RDB(+) SDA(-) SDA(-) SDA(-) SDB(+) SDB(+) SDB(+) Pin No. of temperature controller differs depending on the model. Refer to the following table. Model of temperature controller UTAdvanced Series UT35A/...
  • Page 235 RS485 connection diagram 21) Temperature Temperature controller side controller SDB(+) SDB(+) SDA(-) SDA(-) RDB(+) RDB(+) RDA(-) RDA(-) Terminating resistor (220Ω 1/4W) Pin No. of temperature controller differs depending on the model. Refer to the following table. Model of temperature controller UTAdvanced Series GREEN GREEN...
  • Page 236 RS485 connection diagram 22) Temperature Temperature controller * 1 * 2 side controller Terminating resistor (100Ω 1/2W) Terminating resistor should be provided for a GOT and a temperature controller which will be a terminal. Set the 2-wire/4-wire terminating resistor setting switch of the RS-232/485 signal conversion adaptor as follows. 2-wire type/4-wire type : 4-wire type (2Pair) Terminating resistor : OPEN...
  • Page 237 RS485 connection diagram 23) Temperature Temperature controller controller GOT side SDB(+) RDA1(RXD1+) SDB(+) SDA(-) RDB1(RXD1-) SDA(-) RDB(+) SDA1(TXD1+) RDB(+) RDA(-) SDB1(TXD1-) RDA(-) RSA(RTS+) CSA(CTS+) RSB(RTS-) CSB(CTS-) Terminating resistor(220Ω 1/4W) SDA2(TXD2+) SDB2(TXD2-) RDA2(RXD2+) RDB2(RXD2-) Shell Pin No. of temperature controller differs depending on the model. Refer to the following table. Model of temperature controller UTAdvanced Series GREEN...
  • Page 238 RS485 connection diagram 24) Temperature Temperature GOT side controller controller SDB(+) RDA1(RXD1+) SDB(+) SDA(-) RDB1(RXD1-) SDA(-) RDB(+) SDA1(TXD1+) RDB(+) RDA(-) SDB1(TXD1-) RDA(-) RSA(RTS+) CSA(CTS+) RSB(RTS-) CSB(CTS-) Terminating resistor(220Ω 1/4W) SDA2(TXD2+) SDB2(TXD2-) RDA2(RXD2+) RDB2(RXD2-) Pin No. of temperature controller differs depending on the model. Refer to the following table. Model of temperature controller UTAdvanced Series GREEN...
  • Page 239 RS485 connection diagram 25) Terminating resistor Temperature (220Ω 1/4W) Temperature controller controller GOT side SDB(+) SDB(+) SDA1(TXD1+) SDA(-) SDB1(TXD1-) SDA(-) RDB(+) RDB(+) RDA1(RXD1+) RDA(-) RDA(-) RDB1(RXD1-) SDA2(TXD2+) SDB2(TXD2-) RSA(RTS+) RSB(RTS-) CSA(CTS+) CSB(CTS-) RDA2(RXD2+) RDB2(RXD2-) Shell Pin No. of temperature controller differs depending on the model. Refer to the following table. Model of temperature controller UTAdvanced Series GREEN...
  • Page 240 RS485 connection diagram 26) Terminating resistor Temperature Temperature (220Ω 1/4W) controller controller GOT side SDB(+) SDB(+) SDA1(TXD1+) SDA(-) SDA(-) SDB1(TXD1-) RDB(+) RDB(+) RDA(-) RDA(-) SDA2(TXD2+) SDB2(TXD2-) RDA1(RXD1+) RDB1(RXD1-) RSA(RTS+) RSB(RTS-) CSA(CTS+) CSB(CTS-) RDA2(RXD2+) RDB2(RXD2-) Pin No. of temperature controller differs depending on the model. Refer to the following table. Model of temperature controller UTAdvanced Series GREEN...
  • Page 241 RS485 connection diagram 27) Temperature Temperature GOT side controller controller RSB(+) SDA1(TXD1+) RSB(+) RSA(-) SDB1(TXD1-) RSA(-) RDA1(RXD1+) RDB1(RXD1-) SDA2(TXD2+) SDB2(TXD2-) Terminating resistor(220Ω 1/4W) RSA(RTS+) RSB(RTS-) CSA(CTS+) CSB(CTS-) RDA2(RXD2+) RDB2(RXD2-) Shell Pin No. of temperature controller differs depending on the model. Refer to the following table. Model of temperature controller GREEN Series UT100 Series...
  • Page 242  Precautions when preparing a cable (1) Cable length The length of the RS-485 cable must be within the maximum distance. (2) GOT side connector For the GOT side connector, refer to the following. 1.4.1 GOT connector specifications (3) YOKOGAWA temperature controller side connector Use the connector compatible with the YOKOGAWA temperature controller side.
  • Page 243: Got Side Settings

    8.4 GOT Side Settings 8.4.1 Setting communication 8.4.2 Communication detail settings interface (Communication settings) Set the channel of the connected equipment. Item Description Range 4800bps, Set this item when change the 9600bps, transmission speed used for Transmission 19200bps, communication with the connected Speed 38400bps, equipment.
  • Page 244 POINT POINT POINT (1) Format • When connecting to UT100 Series, specify the format 1. • When connecting to only GREEN/UT2000/ UTAdvanced Series, specifying the format 2 is recommended. (2) Communication interface setting by the Utility The communication interface setting can be changed on the Utility's [Communication setting] after writing [Communication Settings] of project data.
  • Page 245: Temperature Controller Side Setting

    8.5 Temperature Controller Side Setting 8.5.1 Connecting to GREEN Series POINT POINT POINT  Communication settings (1) YOKOGAWA temperature controller For details of YOKOGAWA temperature controller, Make the communication settings by operating the key refer to the following manual. of the temperature controller. User's Manual of the YOKOGAWA temperature (1) For the UT /UP /UM /US1000 (except UT750, controller...
  • Page 246: Connecting To Ut100 Series

    8.5.2 Connecting to UT100 Series (2) Communication mode settings Make this setting by operating the communication  mode select DIP SW. Communication settings Make the communication settings by operating the key Switch position Communication mode of the temperature controller. PC link communication mode Item Set value Transmission speed...
  • Page 247: Connecting To Rs232C/Rs485 Converter (Ml2-[])

    8.5.5 Connecting to RS232C/RS485 converter (ML2-[])  Communication settings Make the communication settings using setting switches. Item Set value 9600bps, 19200bps, 38400bps Transmission speed 2-wire type or 4-wire type Setting (2-wire/4-wire) With, Without Terminating resistor Echo back RS-485 driver-active control AUTO Adjust the settings with GOT settings.
  • Page 248 8.5.6 Station number setting (3) All station specification Target station differs depending on write-in operation or read-out operation. Set each station number so that no station number • For write-in operation, all station will be a target.In the overlaps. WORD BIT write-in operation, only the temperature The station number can be set without regard to the cable controller whose station No.
  • Page 249: Device Range That Can Be Set

    8.6 Device Range that Can Be Set The device ranges of controller that can be used for GOT The following shows the relation between station numbers of are as follows. the temperature controller and the GOT data register. Note that the device ranges in the following tables are the Statio maximum values that can be set in GT Designer3.
  • Page 250: Precautions

    8.7 Precautions  Station number settings of temperature controller In the system configuration, the temperature controller with the station number set with the host address must be included.For details of host address setting, refer to the following. 8.4.2 Communication detail settings ...
  • Page 251 CONNECTION TO RKC TEMPERATURE CONTROLLER 9.1 Connectable Model List ......9 - 2 9.2 System Configuration .
  • Page 252: Connectable Model List

    CONNECTION TO RKC TEMPERATURE CONTROLLER 9.1 Connectable Model List The following table shows the connectable models. Communication Series Clock Refer to Model name Type RS-232 H-PCP-J RS-422 9.2.1 RS-485 SR Mini HG H-PCP-A RS-232 9.2.2 RS-422 H-PCP-B Z-TIO RS-232 Z-DIO RS-422 9.2.3 RS-485...
  • Page 253: Connectable Model List

    Communication Series Clock Refer to Model name Type RS-232 X-TIO 9.2.9 RS-485 RS-232 9.2.10 RS-485 RS-232 B400 B400 9.2.11 RS-485 From the models of temperature controller, select the detailed model name which supports each communication type and communication protocol (MODBUS). For details of RKC temperature controller detailed model names, refer to the following catalog.
  • Page 254: System Configuration

    9.2 System Configuration 9.2.1 Connecting to H-PCP-J  When connecting to one temperature controller Communication driver H-PCP-J SR Mini HG(MODBUS) Connection cable FAIL FAIL FAIL FAIL FAIL COM.PORT3 Conversion Temperature controller Connection cable Number of connector connectable Model Communication Cable model Max.
  • Page 255 Connect it to the RS-232 interface (built into GOT). It cannot be mounted on GT1655 and GT155 . To use the dedicated cable, conversion of the cable may be necessary. Product manufactured by MITSUBISHI ELECTRIC ENGINEERING COMPANY LIMITED. For details of the product, contact MITSUBISHI ELECTRIC ENGINEERING COMPANY LIMITED.
  • Page 256: System Configuration

    Product manufactured by RKC. For details of the product, contact RKC. To use the dedicated cable, conversion of the cable may be necessary. Product manufactured by MITSUBISHI ELECTRIC ENGINEERING COMPANY LIMITED. For details of the product, contact MITSUBISHI ELECTRIC ENGINEERING COMPANY LIMITED.
  • Page 257: Connecting To H-Pcp-A Or H-Pcp-B

    9.2.2 Connecting to H-PCP-A or H-PCP-B  When connecting to one temperature controller Communication driver H-PCP-A, H-PCP-B SR Mini HG(MODBUS) Connection cable Modular connector 1 Temperature controller Connection cable Number of Conversion connectable Model Communication Cable model Max. connector Option device Model equipment name...
  • Page 258  When connecting to multiple temperature controllers H-PCP-A, H-PCP-A, Modular connector 1 H-PCP-B H-PCP-B Connection cable 2) Modular connector 1 Modular connector 2 Connection cable 1) Temperature controller Connection cable 1) Connection cable 2) Number of Max. Cable model Cable model connectable Model Communication...
  • Page 259: Connecting To Srz

    GT14-RS2T4-9P diagram 11) Including the cable length of the option devices. Product manufactured by MITSUBISHI ELECTRIC ENGINEERING COMPANY LIMITED. For details of the product, contact MITSUBISHI ELECTRIC ENGINEERING COMPANY LIMITED. Connect it to the RS-232 interface (built into GOT). 9 - 9 9.
  • Page 260  When connecting to communication extension module (Z-COM) with a converter Z-TIO/ Z-TIO/ Interface Z-COM Z-DIO/ Z-COM Z-DIO/ converter Z-CT Z-CT Connection cable 2) terminating resistor Connection cable 1) Z-COM Connection cable 1) Connection cable 2) Converter Number of Cable model Cable model connectable Terminating...
  • Page 261 The total length of the connection cable 1) + connection cable 2) + option device cable Connect it to the RS-232 interface (built into GOT). It cannot be mounted on GT1655 and GT155 . Product manufactured by MITSUBISHI ELECTRIC ENGINEERING COMPANY LIMITED. For details of the product, contact MITSUBISHI ELECTRIC ENGINEERING COMPANY LIMITED.
  • Page 262: Connecting To Cb Series (Cb100, Cb400, Cb500, Cb700, Cb900)

    RS485 connection 1200m GT14-RS2T4-9P diagram 11) Product manufactured by MITSUBISHI ELECTRIC ENGINEERING COMPANY LIMITED. For details of the product, contact MITSUBISHI ELECTRIC ENGINEERING COMPANY LIMITED. Connect it to the RS-232 interface (built into GOT). 9 - 12 9. CONNECTION TO RKC TEMPERATURE CONTROLLER...
  • Page 263: Connecting To Fb Series (Fb100, Fb400 Or Fb900)

    9.2.5 Connecting to FB series (FB100, FB400 or FB900)  When connecting to one temperature controller Communication driver FB series SR Mini HG(MODBUS) Connection cable Temperature controller Connection cable Number of connectable Model Communication Cable model Max. Option device Model equipment name Type...
  • Page 264  When connecting to multiple temperature controllers with interface converter (CD485/V) Interface FB series FB series converter Connection cable 2) Connection cable 1) Temperature Connection cable 1) Connection cable 2) Converter controller Number of connectable Cable model Cable model Max. Model Communication Max.
  • Page 265 RS485 connection diagram 14) 1200m GT14-RS2T4-9P RS485 connection diagram 11) Product manufactured by MITSUBISHI ELECTRIC ENGINEERING COMPANY LIMITED. For details of the product, contact MITSUBISHI ELECTRIC ENGINEERING COMPANY LIMITED. Connect it to the RS-232 interface (built into GOT). 9 - 15 9.
  • Page 266: Connecting To Rb Series (Rb100, Rb400, Rb500, Rb700, Rb900)

    RS485 connection 1200m GT14-RS2T4-9P diagram 11) Product manufactured by MITSUBISHI ELECTRIC ENGINEERING COMPANY LIMITED. For details of the product, contact MITSUBISHI ELECTRIC ENGINEERING COMPANY LIMITED. Connect it to the RS-232 interface (built into GOT). 9 - 16 9. CONNECTION TO RKC TEMPERATURE CONTROLLER...
  • Page 267: Connection To Pf900/901, Ha400/401, Ha900/901, Rmc500, Ma900/901, Ag500, Sa100/200

    GT14-RS2T4-9P SA100 SA200 Product manufactured by MITSUBISHI ELECTRIC ENGINEERING COMPANY LIMITED. For details of the product, contact MITSUBISHI ELECTRIC ENGINEERING COMPANY LIMITED. Connect it to the RS-232 interface (built into GOT). It cannot be mounted on GT1655 and GT155 .
  • Page 268  When connecting to multiple temperature controllers with interface converter (COM-A) Temperature Temperature Interface controller controller converter Connection cable 3) Connection cable 1) Connection cable 2) Interface Temperature Connection Connection cable 1) Connection cable 3) controller cable 2) converter Number of Max.
  • Page 269: Connection To Thv-A1

    12) Product manufactured by RKC. For details of the product, contact RKC. Product manufactured by MITSUBISHI ELECTRIC ENGINEERING COMPANY LIMITED. For details of the product, contact MITSUBISHI ELECTRIC ENGINEERING COMPANY LIMITED. Connect it to the RS-232 interface (built into GOT). It cannot be mounted on GT1655 and GT155 .
  • Page 270 For GT11, the number of connectable temperature controllers differs according to the hardware version. For the procedure to check the hardware version, refer to the following manual. GT11 User’s Manual Model name of GT11 Hardware version Number of connectable temperature controllers C or later GT1155-QTBD B or earlier...
  • Page 271  When connecting to multiple temperature controllers with interface converter (CD485V) Temperature Temperature Interface controller controller converter Connection cable 3) Connection cable 1) Connection cable 2) Interface Temperature Connection cable Connection cable Connection cable 3) controller converter Number of Max. Comm connectable Cable model...
  • Page 272: Connection To Srx

    9.2.9 Connection to SRX Communication driver SR Mini HG(MODBUS)  When connecting to temperature control module (X-TIO) with a converter Interface converter Connection cable 2) Connection cable 1) Temperature Connection cable 1) Interface Converter Connection cable 2) controller Number of connectable Cable model Commun...
  • Page 273: Connecting To Sb1

    Including the cable length of the option devices. Product manufactured by MITSUBISHI ELECTRIC ENGINEERING COMPANY LIMITED. For details of the product, contact MITSUBISHI ELECTRIC ENGINEERING COMPANY LIMITED. Connect it to the RS-232 interface (built into GOT). 9.2.10 Connecting to SB1...
  • Page 274  When connecting to multiple temperature controllers with interface converter (CD485V) Temperature Temperature Interface controller controller converter Connection cable 2) OUT MAN STEP PV OUT MAN STEP PV Connection cable 1) Temperature Connection cable 1) Connection cable 2) Converter controller Number of Cable model connectable...
  • Page 275: Connecting To B400

    RS485 connection diagram 11) GT14-RS2T4-9P Product manufactured by MITSUBISHI ELECTRIC ENGINEERING COMPANY LIMITED. For details of the product, contact MITSUBISHI ELECTRIC ENGINEERING COMPANY LIMITED. Connect it to the RS-232 interface (built into GOT). It cannot be mounted on GT1655 and GT155 .
  • Page 276: Connection Diagram

    9.3 Connection Diagram The following diagram shows the connection between the RS232 connection diagram 3) GOT and the temperature controller. Interface converter GOT side (CD485/V) side 9.3.1 RS-232 cable CD/NC RD(RXD)  Connection diagram SD(TXD) RS232 connection diagram 1) ER(DTR) RKC temperature controller side GOT side (Modular connector) * 1...
  • Page 277: Cable

    9.3.2 RS-422 cable RS422 connection diagram 2) POINT POINT POINT RKC temperature controller side GOT side (Modular connector) Differences in polarity between GOT and RKC T (B) temperature controllers T (A) The polarity of poles A and B in signal names is R (B) reversed between GOT and RKC temperature controllers.
  • Page 278 RS422 connection diagram 4) RS422 connection diagram 6) RKC temperature controller side RKC temperature controller side * 1 RKC temperature controller side * 1 GOT side (Modular connector) T(A) T(A) T(B) T(B) T(B) T(A) R(A) R(A) R(B) R(B) R(B) R(A) For the terminal number of the temperature controller, refer to the following table Set the 2-wire/4-wire terminating resistor setting switch of...
  • Page 279  Precautions when preparing a cable (1) Cable length The length of the RS-422 cable must be within the maximum distance. (2) GOT side connector For the GOT side connector, refer to the following. 1.4.1 GOT connector specifications (3) RKC temperature controller side connector Use the connector compatible with the RKC temperature controller side module.
  • Page 280: Cable

    9.3.3 RS-485 cable RS485 connection diagram 3) RKC temperature controller side GOT side (Modular connector) (terminal block)  Connection diagram SDA1(TXD1+) T/R(B) RS485 connection diagram 1) SDB1(TXD1-) T/R(A) RKC temperature controller side GOT side (Modular connector) SDA1(TXD1+) T/R(B) SDB1(TXD1-) T/R(A) RDA1(RXD1+) SDA2(TXD2+) RDB1(RXD1-)
  • Page 281: Connection Diagram

    RS485 connection diagram 5) Temperature Temperature Temperature Temperature GOT side (terminal block) controller controller controller controller T/R(B) T/R(B) T/R(B) T/R(B) SDA1(TXD1+) T/R(A) T/R(A) T/R(A) T/R(A) SDB1(TXD1-) RDA1(RXD1+) RDB1(RXD1-) Combination module* Combination module* SDA2(TXD2+) SDB2(TXD2-) RDA2(RXD2+) RDB2(RXD2-) Terminating resistor(120Ω 1/2W) RSA(RTS+) (More than 100Ω...
  • Page 282 RS485 connection diagram 6) Temperature Temperature Temperature Temperature GOT side (terminal block) controller controller controller controller T/R(B) T/R(B) T/R(B) T/R(B) SDA1(TXD1+) T/R(A) T/R(A) T/R(A) T/R(A) SDB1(TXD1-) Combination module Combination module SDA2(TXD2+) SDB2(TXD2-) RDA2(RXD2+) Terminating resistor(120Ω 1/2W) RDA1(RXD1+) (More than 100Ω in case of CB series) RDB2(RXD2-) RDB1(RXD1-) RSA(RTS+)
  • Page 283 RS485 connection diagram 7) Temperature Temperature Temperature Temperature GOT side (terminal block) controller controller controller controller T/R(B) T/R(B) T/R(B) T/R(B) SDA1 T/R(A) T/R(A) T/R(A) T/R(A) SDB1 RDA1 RDB1 Combination module Combination module SDA2 SDB2 RDA2 RDB2 Terminating resistor(120Ω 1/2W) (More than 100Ω in case of CB series) Set the terminating resistor of GOT as follows.
  • Page 284 RS485 connection diagram 8) Terminating resistor(120Ω 1/2W) (More than 100Ω in case of CB series) Interface converter Temperature Temperature Temperature Temperature side(CD-485V) controller controller controller controller T/R(B) T/R(B) T/R(B) T/R(B) T/R(A) T/R(A) T/R(A) T/R(A) Combination module Combination module When combining the module, because the communication line is connected between the modules with each other, wire only the communication terminal on the both end of the combination module.
  • Page 285 RS485 connection diagram 9) RS485 connection diagram 10) RKC temperature controller side RKC temperature controller side RKC temperature controller side GOT side (Modular connector) (Modular connector) (Modular connector) T/R(B) T/R(B) T/R(B) T/R(A) T/R(A) T/R(A) N.C. N.C. N.C. N.C. For details of the pin assignment, refer to the following Set the 2-wire/4-wire terminating resistor setting switch of manual.
  • Page 286 RS485 connection diagram 12) RS485 connection diagram 13) RKC temperature controller side RKC temperature controller side GOT side GOT side (Modular connector) (Modular connector) T/R(B) T/R(B) T/R(A) T/R(A) N.C. N.C. Set the 2-wire/4-wire terminating resistor setting switch of the RS-232/485 signal conversion adaptor as follows. 2-wire type/4-wire type : 2-wire type (1Pair) Terminating resistor : 110...
  • Page 287 RS485 connection diagram 15) RKC temperature controller side GOT side (Modular connector) T/R(B) T/R(A) Set the terminating resistor selector to "110 ". ■ Connecting terminating resistors For details of the pin assignment, refer to the following manual. User's Manual of the RKC temperature controller ...
  • Page 288: Got Side Settings

    9.4 GOT Side Settings 9.4.1 Setting communication 9.4.2 Communication detail settings interface (Communication settings) Set the channel of the connected equipment. Item Description Range 9600bps, Set this item when change the transmission 19200bps, Transmissio speed used for communication with the 38400bps, n Speed connected equipment.
  • Page 289: Temperature Controller Side Setting

    9.5 Temperature Controller Side Setting  POINT POINT POINT Setting DIP switches Make the settings of transmission speed, YOKOGAWA temperature controller communication mode, data length, parity bit and stop For details of RKC temperature controller, refer to the bit. following manual. COM.PORT3 User's Manual of the RKC temperature controller...
  • Page 290: Connecting To H-Pcp-A, H-Pcp-B

    9.5.2 Connecting to H-PCP-A, H- (2) Communication mode settings PCP-B (a) COM.PORT1/COM.PORT2  Communication settings Communication protocol Make the communication settings of the temperature MODBUS protocol controller. (b) COM.PORT3 Item Setting range 9600bps, 19200bps Transmission speed Communication protocol Data bit 8bits MODBUS protocol Parity bit...
  • Page 291: Connecting To Z-Tio, Z-Dio, Z-Ct

    9.5.3 Connecting to Z-TIO, Z-DIO,  Unit address settings Z-CT Set the unit address using the unit address setting switch. (1) Communication settings Make the communication settings of the temperature controller. Item Setting range 9600bps, 19200bps, 38400bps Communication speed Communication protocol MODBUS Unit address setting switch Data bit : 8bits, Parity : None...
  • Page 292: Connecting To Z-Com

    9.5.4 Connecting to Z-COM (3) Unit address settings Set the unit address using the unit address setting switch. (1) Communication settings Module address setting switch Item Setting range 9600bps, 19200bps, 38400bps Communication speed Communication protocol Host (MODBUS) Data bit 8bits (fixed) Parity None (fixed) Setting range : 0 to F...
  • Page 293: Connecting To Cb Series

    9.5.6 Connecting to FB Series (3) Unit address settings Set the unit address using the unit address setting switch. (1) Communication settings Unit address setting switch Item Setting range Communication protocol 1: MODBUS Device address 1 to 99 (Slave address) 96: 9600bps Setting range : 0 to F 19.2: 19200bps...
  • Page 294: Connecting To Rb Series

    9.5.7 Connecting to RB Series 9.5.9 Connecting to HA400/401, HA900/901 (1) Communication settings  Communication settings Item Setting range Make the communication settings by operating the key Communication protocol 1: MODBUS of the temperature controller. Device address 1 to 99 (Communication 1) (Slave address) Item...
  • Page 295: Connecting To Ag500

    9.5.10 Connecting to AG500 9.5.12 Connecting to MA900, MA901   Communication settings Communication settings Make the communication settings by operating the key Make the communication settings by operating the key of the temperature controller. of the temperature controller. Item Setting range Item Setting range...
  • Page 296: Connecting To Sa100/Sa200

    9.5.14 Connecting to SA100/SA200 (2) Setting DIP switches Make the settings of transmission speed, data bit  configuration, communication protocol. Communication settings Make the communication settings by operating the key of the temperature controller. Dip switch Item Setting range 9600bps, 19200bps Communication speed [8N1]: 8bit, None, 1bit 1 2 3 4 5 6 7 8...
  • Page 297: Connecting To Sb1

    Set value Data bit Parity bit Stop bit Even HINT HINT HINT The rotary switch (address setting switch) is also used Set the maximum time from when the last character stop bit for the data interval extension time setting. is sent from the GOT side until the transmission cable The setting method is the same as that of the module becomes ready to receive.
  • Page 298: Station Number Setting

    9.5.18 Station number setting (2) DIP switch setting (SW3) Set the communication speed and the data bit configuration using the DIP switch (SW3). Set each station number so that no station number overlaps. Dip switch(SW3) The station number can be set without regard to the cable connection order.
  • Page 299 (2) Indirect specification When setting the device, indirectly specify the station number of the temperature controller of which data is to be changed using the 16-bit GOT internal data register (GD10 to GD25). When specifying the station No. from 100 to 115 on GT Designer3, the value of GD10 to GD25 compatible to the station No.
  • Page 300: Device Range That Can Be Set

    9.6 Device Range that Can Be Set The device ranges of controller that can be used for GOT are as follows. Note that the device ranges in the following tables are the maximum values that can be set in GT Designer3. The device specifications of controllers may differ depending on the models, even though belonging to the same series.
  • Page 301: Rkc Sr Mini Hg

    9.6.1 RKC SR Mini HG Device No. Device name Setting range representation Word device bit Specified bit of the following word devices ― Data (..) ..0000 to ..FFFF Hexadecimal 9.7 Precautions  Station number setting of the temperature controller system Make sure to establish temperature controller system with No.01 station.
  • Page 302 9 - 52 9. CONNECTION TO RKC TEMPERATURE CONTROLLER 9.7 Precautions...
  • Page 303: Connection To Allen-Bradley Plc

    CONNECTION TO ALLEN-BRADLEY PLC 10.1 Connectable Model List ......10 - 2 10.2 Serial Connection....... . 10 - 4 10.3 Ethernet Connection .
  • Page 304: Connectable Model List

    10. CONNECTION TO ALLEN-BRADLEY 10.1 Connectable Model List The following table shows the connectable models. Communicati Series Model name Clock Refer to on Type SLC500-20 SLC500-30 SLC500-40 RS-232 SLC5/01 SLC500 10.2.1 SLC5/02 SLC5/03 SLC5/04 RS-232 SLC5/05 1761-L10BWA 1761-L10BWB 1761-L16AWA 1761-L16BWA 1761-L16BWB MicroLogix1000 1761-L16BBB...
  • Page 305 Communicati Series Model name Clock Refer to on Type 1769-L31 1769-L32E RS-232 10.2.3 CompactLogix 1769-L32C Ethernet 10.3.1 1769-L35E 1769-L35CR 1794-L33 FlexLogix RS-232 10.2.3 1794-L34 GT14 models compatible with Ethernet connection are only GT1455-QTBDE, GT1450-QMBDE and GT1450-QLBDE. 10 - 3 10. CONNECTION TO ALLEN-BRADLEY PLC 10.1 Connectable Model List...
  • Page 306: Serial Connection

    10.2 Serial Connection 10.2.1 System Configuration for connecting to SLC500 Series  When connecting to one PLC Communication driver Communication driver AB SLC500, AB 1:N AB SLC500 (For GT16, GT15, GT14, GT12, GT11) (For GT10) SLC500 series Connection cable Connection cable Number of connectable Communic Cable model...
  • Page 307: System Configuration For Connecting To Micrologix1000/1200/1400/1500 Series

    10.2.2 System configuration for connecting to MicroLogix1000/1200/1400/1500 Series  When connecting to one PLC Communication driver MicroLogix 1000/1200/1500 AB MicroLogix series Connection cable Connection cable Number of Commu connectable Cable model Max. nication Option device Model Series equipment Connection diagram number distance Type 1761-CBL-PM02...
  • Page 308: System Configuration For Connecting To Control/Compact/Flexlogix Series

    10.2.3 System Configuration for connecting to Control/Compact/FlexLogix Series Communication driver Control/ Compact/ AB Control/CompactLogix FlexLogix series Connection cable Connection cable Number of connectable Communic Cable model Max. equipment Series Option device Model ation Type Connection diagram number distance 1747-CP3 1756-CP3 - (Built into GOT) Control/Compact/ RS-232...
  • Page 309: Connection Diagram

    10.2.4 Connection Diagram RS232 connection diagram 4) ALLEN-BRADLEY PLC side GOT side The following diagram shows the connection between the GOT and the PLC. CD/NC  RD(RXD) RS-232 cable SD(TXD) (1) Connection diagram ER(DTR) RS232 connection diagram 1) ALLEN-BRADLEY PLC side GOT side DR(DSR) CD/NC...
  • Page 310 RS232 connection diagram 7) GOT side (terminal block) ALLEN-BRADLEY PLC side (2) Precautions when preparing a cable (a) Cable length The length of the RS-232 cable must be 15m or less. (b) GOT side connector For the GOT side connector, refer to the following. 1.4.1 GOT connector specifications (c) ALLEN-BRADLEY PLC side connector Use the connector compatible with the ALLEN-...
  • Page 311: Got Side Settings

    10.2.5 GOT Side Settings The detailed setting is displayed after Manufacturer, Controller Type, I/F, and Driver are set.  Setting communication interface Make the settings according to the usage (Communication settings) environment. Set the channel of the connected equipment. 10.2.5 ■ Communication detail settings Click the [OK] button when settings are completed.
  • Page 312 (2) AB MicroLogix (3) AB Control/CompactLogix Item Description Range Item Description Range Set this item when change the Set this item when change the 9600bps, 4800bps, transmission speed used for transmission speed used for 19200bps, Transmission 9600bps, Transmission communication with the connected communication with the connected 38400bps, Speed...
  • Page 313 (4) AB SLC500 POINT POINT POINT (1) Communication interface setting by the Utility The communication interface setting can be changed on the Utility's [Communication setting] after writing [Communication Settings] of project data. For details on the Utility, refer to the following manual.
  • Page 314: Plc Side Setting

    10.2.6 PLC Side Setting  Connecting to DH485 network via adapter (1770-KF3) (Setting of Adapter) POINT POINT POINT Item Setting details 4800bps, 9600bps, 19200bps Baud Rate ALLEN-BRADLEY PLC Parity Even For details of ALLEN-BRADLEY PLCs, refer to the Flow Control Disable (No Handshaking) following manuals.
  • Page 315: Ethernet Connection

    10.3 Ethernet Connection 10.3.1 System configuration for connecting to ControlLogix or CompactLogix Communication driver EtherNet/IP ControlLogix, communication CompactLogix EtherNet/IP(AB), Gateway module Connection cable Connection cable Maximum Number of connectable Communi EtherNet/IP segment equipment Series cation Option device Cable model Model communication module Type length...
  • Page 316 The number of the connectable GOTs for 1 PLC differs depending on the PLC series. (ControlLogix5550/5555/5560) • When PLC:GOT is N:1, the following number of the PLCs can be connected to 1 GOT. <For GT16, GT14> TCP: 128 or less <For GT15>...
  • Page 317: Got Side Settings

    10.3.2 GOT Side Settings  Communication detail settings Make the settings according to the usage environment.  Setting communication interface (1) GT16, GT14 (Communication settings) Set the channel of the connected equipment. Item Description Range Set the network No. of the GOT. GOT NET No.
  • Page 318 Click the [Setting] button and perform the setting in the [GOT (2) GT15, GT12 IP Address Setting] screen. Each of [GOT PLC No.] set in the communication detail setting and [PLC No.] set in the Ethernet setting must be set to different station numbers.
  • Page 319: Plc Side Setting

    10.3.3 PLC side setting  Ethernet setting POINT POINT POINT ALLEN-BRADLEY PLC For details of ALLEN-BRADLEY PLCs, refer to the following manuals. ALLEN-BRADLEY PLC user's Manual  Parameter setting Set the following parameters with the software package Item Description Set value manufactured by the Allen-Bradley.
  • Page 320: Device Range That Can Be Set

    10.4 Device Range that Can Be Set The device ranges of controller that can be used for GOT are as follows. POINT POINT POINT Note that the device ranges in the following tables are the maximum values that can be set in GT Designer3. Device settings of ALLEN-BRADLEY PLC The device specifications of controllers may differ ALLEN-BRADLEY...
  • Page 321: Ab Slc500

    10.4.1 AB SLC500 (b) When setting an element address as a word device Device File type Element No. Device name Setting range File No. represen Element delimiter tation ↓ B3:0/0 to B3:255/15 Bit (B) B10:0/0 to B255:255/15 Setting by GT Designer3 Timer (Timing T4:0/14(TT) to T4:255/14(TT) T10:0/14(TT) to T255:255/14(TT)
  • Page 322: Ab Micrologix1000/1200/1400/1500 Series

    10.4.2 AB MicroLogix1000/1200/ 10.4.3 AB MicroLogix1000/1200/ 1400/1500 Series 1400/1500 Series (Device extended) Device For details of this communication driver, please contact our Device name Setting range company. represen tation Bit (I) I 0.0/0 to I 16.7/15 Bit (O) O 0.0/0 to O 16.7/15 Bit (B) B3:0/0 to B255:255/15 10.4.4 AB Control/CompactLogix...
  • Page 323: Connection To Ge Plc

    CONNECTION TO GE PLC 11.1 Connectable Model List ......11 - 2 11.2 System Configuration ......11 - 3 11.3 Connection Diagram .
  • Page 324: Connectable Model List

    11. CONNECTION TO GE PLC 11.1 Connectable Model List The following table shows the connectable models. Communication Series Model name Clock Refer to Type IC693CPU311 IC693CPU313 IC693CPU323 IC693CPU350 RS-232 Series90-30 IC693CPU360 11.2.1 RS-422 IC693CPU363 IC693CPU366 IC693CPU367 IC693CPU374 IC697CPU731 IC697CPX772 IC697CPX782 IC697CPX928 IC697CPX935 RS-232...
  • Page 325: System Configuration

    11.2 System Configuration 11.2.1 Connecting to Series90-30 POINT POINT POINT Connectable model Only the models that are compatible with SNP-X protocol can be connected. Communication driver Power Series Communication Supplies 90-30 Modules GE (SNP-X) COMM PORT COPROC CPU 363 Connection cable PORT 1 RS-232 PORT 2...
  • Page 326  For the RS-422 connection (connecting to the Communication Modules) Connection cable Number of Cable model Commun connectable Power Communication Connection Max. Model name ication Option device Model equipment diagram distance Supplies Modules Type number RS422 1200m - (Built into GOT) connection diagram 1) IC693PWR321...
  • Page 327  For the RS-422 connection (connecting to the Power Supplies) Connection cable Number of Commu Cable model connectable Max. Model name nication Connection diagram Option device Model Power Supplies equipment distance Type number RS422 1200m - (Built into GOT) connection diagram 2) IC693PWR321 IC693CPU350 GT16-C02R4-9S(0.2m)
  • Page 328: Connecting To Series90-70

    11.2.2 Connecting to Series90-70 POINT POINT POINT Only the models that are compatible with SNP-X protocol can be connected.  For the RS-232 connection Communication driver Series Communication 90-70 Modules GE (SNP-X) PORT 1 LOGIC POWER Connection cable PORT 2 MEM PROTECT COMMUNICATIONS POWER SUPPLY...
  • Page 329: Connecting To Versamax Micro

    11.2.3 Connecting to VersaMax Micro POINT POINT POINT Only the models that are compatible with SNP-X protocol can be connected.  For the RS-232 connection Communication driver VersaMax GE (SNP-X) Micro Connection cable Connection cable Number of connectable Cable model Communication equipment Model name...
  • Page 330  For the RS-422 connection VersaMax Micro ----- Connection cable Connection cable Number of connectable Cable model Communication equipment Connection diagram Max. distance Option device Model Type number IC200UAL004 RS422 connection 1200m - (Built into GOT) IC200UAL005 diagram 3) IC200UAL006 GT16-C02R4-9S(0.2m) 1200m IC200UAA007...
  • Page 331: Connection Diagram

    11.3 Connection Diagram The following diagram shows the connection between the GOT and the PLC.  Precautions when preparing a cable (1) Cable length 11.3.1 RS-232 cable The length of the RS-232 cable must be 15m or less.  (2) GOT side connector Connection diagram For the GOT side connector, refer to the following.
  • Page 332: Rs-422 Cable

    11.3.2 RS-422 cable  Connection diagram RS422 connection diagram 1) Communication Communication GOT side Module Terminating resistor120Ω Module TERM TERM RD(B’) SDA1(TXD1+) RD(B’) RD(A’) SDB1(TXD1-) RD(A’) SD(B) RDA1(RXD1+) SD(B) SD(A) RDB1(RXD1-) SD(A) SDA2(TXD2+) RTS(A) SDB2(TXD2-) RTS(A) CTS(A’) RDA2(RXD2+) CTS(A’) RTS(B) RDB2(RXD2-) RTS(B) CTS(B’)
  • Page 333 RS422 connection diagram 3) terminating resistor 120Ω GOT side RD(B’) SDA1(TXD1+) RD(B’) RD(A’) SDB1(TXD1-) RD(A’) SD(B) RDA1(RXD1+) SD(B) SD(A) RDB1(RXD1-) SD(A) SDA2(TXD2+) RTS(A) SDB2(TXD2-) RTS(A) CTS(A’) RDA2(RXD2+) CTS(A’) RTS(B) RDB2(RXD2-) RTS(B) CTS(B’) RSA(RTS+) CTS(B’) SHLD RSB(RTS-) SHLD CSA(CTS+) CSB(CTS-) SHLD Shell Connect FG grounding to the appropriate part of a cable shield line.
  • Page 334 RS422 connection diagram 5) terminating resistor 120Ω GOT side RD(B’) RD(B’) RD(A’) RD(A’) SD(B) SD(B) SD(A) SD(A) RTS(A) RTS(A) CTS(A’) CTS(A’) RTS(B) RTS(B) CTS(B’) CTS(B’) Connect FG grounding to the appropriate part of a cable shield line. Terminating resistor should be provided for a PLC which will be a terminal. RS422 connection diagram 6) terminating resistor 120Ω...
  • Page 335  Precautions when preparing a cable (1) Cable length The length of the RS-422 cable must be 1200m or less. (2) GOT side connector For the GOT side connector, refer to the following. 1.4.1 GOT connector specifications (3) GE PLC side connector Use the connector compatible with the GE PLC side module.
  • Page 336: Got Side Settings

    11.4 GOT Side Settings 11.4.1 Setting communication 11.4.2 Communication detail settings interface (Communication Make the settings according to the usage environment. settings) (1) GE (SNP-X) Set the channel of the connected equipment. Item Description Range Set this item when change the 9600bps, transmission speed used for 19200bps,...
  • Page 337: Plc Side Setting

    11.5 PLC Side Setting 11.5.2 Connecting to VersaMaxMicro POINT POINT POINT  Communication settings GE PLC For details of GE PLCs, refer to the following manuals. Make the communication settings using the engineering tool. GE PLC user's Manual Setting item PLC side setting Model name Refer to...
  • Page 338: Connecting To Ic693Cmm311

    11.5.3 Connecting to IC693CMM311 11.5.5 Station number setting  Communication settings Set each station number so that no station number overlaps. Make the communication settings using the The station number can be set without regard to the cable engineering tool. connection order.
  • Page 339: Device Range That Can Be Set

    11.6 Device Range that Can Be Set The device ranges of controller that can be used for GOT 11.6.1 GE Series 90 are as follows. Note that the device ranges in the following tables are the maximum values that can be set in GT Designer3. Device The device specifications of controllers may differ depending on the models, even though belonging to the...
  • Page 340 11 - 18 11. CONNECTION TO GE PLC 11.7 Precautions...
  • Page 341: Connection To Ls Industrial Systems Plc

    CONNECTION TO LS INDUSTRIAL SYSTEMS PLC 12.1 Connectable Model List ......12 - 2 12.2 System Configuration .
  • Page 342: Connectable Model List

    12. CONNECTION TO LS INDUSTRIAL SYSTEMS PLC 12.1 Connectable Model List The following table shows the connectable models. Communi Series Model name Clock cation Refer to Type K80S K7M-D S(/DC) RS-232 12.2.1 RS-422 K120S K7M-D RS-232 K200S K3P-07 S 12.2.2 RS-422 RS-232 K300S...
  • Page 343: System Configuration

    12.2 System Configuration 12.2.1 Connecting to K80S or K120S  When connecting to one PLC Communication driver Cnet K80S, LS Industrial Systems K120S module MASTER-K Connection cable Connection cable Number of connectable Communi Cable model Max. equipment Series cation Connection diagram Option device Model Cnet I/F module...
  • Page 344  When connecting to multiple PLCs Cnet Cnet K80S, K80S, K120S K120S module module Connection cable 2) Connection cable 1) Connection cable Connection cable Cnet I/F module Number of Max. connectable Cable model Commu Cable model distance equipment Series Connection Model name nication Connection...
  • Page 345: Connecting To K200S

    12.2.2 Connecting to K200S  When connecting to one PLC Communication driver Cnet K200S LS Industrial Systems MASTER-K module Connection cable Connection cable Number of Cable model connectable Communic Max. Series Connection diagram Option device Model Cnet I/F module equipment ation Type distance number...
  • Page 346: Connecting To K300S

    12.2.3 Connecting to K300S  When connecting to one PLC Communication driver Cnet K300S LS Industrial Systems module MASTER-K Connection cable Connection cable Number of Cable model connectable Communic Max. Series Connection diagram Option device Model Cnet I/F module equipment ation Type distance number...
  • Page 347: Connection Diagram

    12.3 Connection Diagram The following diagram shows the connection between the GOT and the PLC. RS232 connection diagram 3) LS INDUSTRIAL SYSTEM GOT side (terminal block) 12.3.1 RS-232 cable PLC side RXD2  Connection diagram TXD2 RS232 connection diagram 1) LS INDUSTRIAL SYSTEM GOT side RXD1...
  • Page 348: Cable

    12.3.2 RS-422 cable RS422 connection diagram 4)  LS INDUSTRIAL SYSTEMS PLC Connection diagram GOT side side (terminal block) RS422 connection diagram 1) SDA1 LS INDUSTRIAL SYSTEMS PLC SDB1 GOT side side (terminal block) RDA1 RDB1 SDA2 SDB2 RDA2 RDB2 For the system terminal, connect a 120 (1/2W) terminating resistor across RDA and RDB, and across...
  • Page 349: Got Side Settings

    12.4 GOT Side Settings 12.4.1 Setting communication 12.4.2 Communication detail settings interface (Communication Make the settings according to the usage environment. settings) Set the channel of the connected equipment. Item Description Range Set this item when change the 9600bps, transmission speed used for 19200bps, Transmission communication with the connected...
  • Page 350: Plc Side Setting

    12.5 PLC Side Setting 12.5.1 Connecting to PLC CPU POINT POINT POINT  Settings of the communication specifications LS INDUSTRIAL SYSTEMS PLC There is no item to be set using the hardware. For details of LS INDUSTRIAL SYSTEMS PLCs, refer to the following manual.
  • Page 351: Device Range That Can Be Set

    12.6 Device Range that Can Be Set The device ranges of controller that can be used for GOT are as follows. POINT POINT POINT Note that the device ranges in the following tables are the maximum values that can be set in GT Designer3. Device settings of LS IS PLC The device specifications of controllers may differ (1) When setting bit device (except timer and...
  • Page 352 12 - 12 12. CONNECTION TO LS INDUSTRIAL SYSTEMS PLC 12.6 Device Range that Can Be Set...
  • Page 353: Connection To Sick Safety Controller

    CONNECTION TO SICK SAFETY CONTROLLER 13.1 Connectable Model List ......13 - 2 13.2 System Configuration ......13 - 2 13.3 Connection Diagram .
  • Page 354: Connectable Model List

    13. CONNECTION TO SICK SAFETY CONTROLLER 13.1 Connectable Model List The following table shows the connectable models. Communication Series Model name Clock Refer to Type FX3-CPU000000 Flexi Soft FX3-CPU130002 RS-232 13.2.1 FX3-CPU320002 13.2 System Configuration 13.2.1 Connecting to Flexi Soft Communication driver Flexi Soft SICK Flexi Soft...
  • Page 355: Connection Diagram

    13.3 Connection Diagram The following diagram shows the connection between the GOT and the PLC. 13.3.1 RS-232 cable  Connection diagram RS232 connection diagram 1) GOT side SICK cable(male) side (terminal block) (D-Sub9-pin)  Precautions when preparing a cable (1) Cable length The length of the RS-232 cable must be 30cm or less.
  • Page 356: Got Side Settings

    13.4 GOT Side Settings 13.4.1 Setting communication 13.4.2 Communication detail settings interface (Communication settings) Make the settings according to the usage environment. Set the channel of the connected equipment. (1) SICK Flexi Soft Item Description Range Set this item when change the 9600bps, transmission speed used for 19200bps,...
  • Page 357: Plc Side Setting

    13.5 PLC Side Setting POINT POINT POINT SICK PLC For details of SICK PLCs, refer to the following manual. User's Manual of the SICK PLC 13.5.1 Connecting to Flexi Soft  Communication settings Communication settings are not required, since the following contents are fixed.
  • Page 358: Device Range That Can Be Set

    13.6 Device Range That Can Be Set The device ranges of controller that can be used for GOT (d) EFI output (EQ) are as follows. Note that the device ranges in the following tables are the maximum values that can be set in GT Designer3. The device specifications of controllers may differ depending on the models, even though belonging to the Device...
  • Page 359: Sick Safety Controller (Sick Flexi Soft)

    (3) When using offset specification (f) EFI output (EQ) When setting devices using the offset function, the Offset +3 to +15 device values are as follows. EQ10 EQ11 EQ12 (a) Input (I) Fixed to 0 Fixed to 0 Offset +8 to +15 +240 I1.1 I1.2...
  • Page 360 13 - 8 13. CONNECTION TO SICK SAFETY CONTROLLER 13.6 Device Range That Can Be Set...
  • Page 361: Connection To Siemens Plc

    CONNECTION TO SIEMENS PLC 14.1 Connectable Model List ......14 - 2 14.2 Serial Connection....... . 14 - 3 14.3 Ethernet Connection .
  • Page 362: Connectable Model List

    14. CONNECTION TO SIEMENS PLC 14.1 Connectable Model List The following table shows the connectable models. Ethernet Communication Series Clock Connection Refer to Type Type RS-232 14.2.2 SIMATIC S7-200 Ethernet 14.3.2 communication RS-232 14.2.1 FETCH/ 14.3.1 SIMATIC S7-300 WRITE Ethernet 14.3.2 communication RS-232...
  • Page 363: Serial Connection

    14.2 Serial Connection 14.2.1 System configuration for connecting to SIMATIC S7-300/400 series  When connecting to one PLC Communication driver SIMATIC S7-300/400 HMI Adapter SIEMENS S7-300/400 series Connection cable Connection cable Number of Commu Cable model connectable Max. Series nication Connection diagram Option device Model...
  • Page 364: System Configuration For Connecting To Simatic S7-200

    14.2.2 System configuration for connecting to SIMATIC S7-200 Communication driver SIMATIC S7-200 SIEMENS S7-200 Connection cable Connection cable Number of connectable Communicati Cable model equipment Series Max. distance Option device Model on Type Connection diagram number - (Built into GOT) 6ES7 901-3BF20-0XA0 6ES7 901-3CB30-0XA0 GT15-RS2-9P...
  • Page 365: Connection Diagram

    14.2.3 Connection Diagram The following diagram shows the connection between the GOT and the PLC. RS232 connection diagram 3) GOT side SIEMENS PLC side  RS-232 cable SD(TXD) (1) Connection diagram RD(RXD) RS232 connection diagram 1) SIEMENS PLC side GOT side SG(GND) CD/NC RD(RXD)
  • Page 366: Got Side Settings

    14.2.4 GOT Side Settings  Setting communication interface (Communication settings)  Communication detail settings Set the channel of the connected equipment. Make the settings according to the usage environment. (1) SIEMENS S7-300/400 Item Description Range Set this item when change the transmission speed used for 9600bps, Transmission...
  • Page 367: Plc Side Setting

    14.2.5 PLC Side Setting (2) SIEMENS S7-200 POINT POINT POINT SIEMENS PLC For details of SIEMENS PLCs, refer to the following manuals. SIEMENS PLC user's Manual Model name Refer to PLC CPU S7-200 14.2.7 Item Description Range HMI Adapter 6ES7 972-0CA11-0XA0 14.2.6 Set this item when change the 9600bps,...
  • Page 368: Connecting To Simatic S7-200

    14.2.7 Connecting to SIMATIC S7- 14.2.8 Precautions  GOT alarm list (system alarm) function  Communication settings Error information cannot be monitored when the GOT is connected to a SIEMENS PLC. Set the communication settings of PLC and PC/PPI (The error information on the PLC CPU side can be cable.
  • Page 369: Ethernet Connection

    14.3 Ethernet Connection 14.3.1 System configuration for connecting to SIMATIC S7-300/400 series (Ethernet connection type: FETCH/WRITE) Communication driver SIMATIC Ethernet S7-300/400 Module Ethernet( SIEMENS S7 ), Gateway series Connection cable Connection cable Number of connectable Maximum Ethernet equipment segment Series Option device Cable model Model...
  • Page 370: System Configuration For Connecting To Simatic S7-200/300/400/1200 Series (Ethernet Connection Type: Op Communication)

    14.3.2 System configuration for connecting to SIMATIC S7-200/300/400/1200 series (Ethernet connection type: OP communication) Communication driver SIMATIC Ethernet S7-200/300 Module /400/1200 Ethernet( ), Gateway SIEMENS OP series Connection cable Connection cable Number of connectable Maximum Ethernet equipment segment Series Option device Cable model Model Module...
  • Page 371: Got Side Settings

    14.3.3 GOT Side Settings  Communication detail settings Make the settings according to the usage environment.  Setting communication interface (1) GT16, GT14 (Communication settings) Set the channel of the connected equipment. Item Description Range Set the network No. of the GOT. GOT NET No.
  • Page 372 Click the [Setting] button and perform the setting in the [GOT (2) GT15 IP Address Setting] screen. Each of [GOT PLC No.] set in the communication detail setting and [PLC No.] set in the Ethernet setting must be set to different station numbers. ...
  • Page 373  (2) Ethernet connection type: OP communication Ethernet setting This section describes the Ethernet setting for the (1) Ethernet connection type: FETCH/WRITE communication driver SIEMENS OP (Ethernet). This section describes the Ethernet setting for the communication driver SIEMENS S7 (Ethernet). Item Description Set value...
  • Page 374: Plc Side Setting

    14.3.4 PLC side setting (2) Ethernet connection type: OP communication (a) S7-200 Set the following parameters. POINT POINT POINT Item Setting details Module Position Value in [Position] of the Ethernet module SIEMENS PLC IP Address PLC side IP address For details of SIEMENS PLCs, refer to the following Module Address Subnet manuals.
  • Page 375: Precautions

    14.3.5 Precautions  When connecting to multiple GOTs (1) Setting PLC No. When connecting two or more GOTs in the Ethernet network, set each [PLC No.] to the GOT. 14.3.3 Ethernet setting (2) Setting IP address Do not use the IP address "192.168.0.18" when using multiple GOTs.
  • Page 376: Device Range That Can Be Set

    14.4 Device Range that Can Be Set The device ranges of controller that can be used for GOT (2) When setting a bit device as a word device are as follows. Set the device number. For the device name setting, enter "W" after the bit Note that the device ranges in the following tables are the memory device name.
  • Page 377 (b) S7-200 Series POINT POINT POINT Device settings of SIEMENS PLC (S7-200/300/400/ 1200 series, SIEMENS OP (Ethernet)) (1) When setting a bit device as a bit device Set the device using the format of byte address (DEC) + bit address (0 to 7). Item Description Set the device name, device number, and bit number.
  • Page 378: Siemens S7-300/400 Series

    14.4.1 SIEMENS S7-300/400 Series 14.4.3 SIEMENS S7 (Ethernet) Device Device Device name Setting range Device name Setting range represen represen tation tation Input relay (I) I0000 to I5117 Input relay (I) I0000 to I1277 Decimal Decimal Output relay (Q) Q0000 to Q5117 Output relay (Q) Q0000 to Q1277 + Octal...
  • Page 379: Connection To Hirata Corporation Hnc Controller

    CONNECTION TO HIRATA CORPORATION HNC CONTROLLER 15.1 Connectable Model List ......15 - 2 15.2 System Configuration .
  • Page 380: Connectable Model List

    15. CONNECTION TO HIRATA CORPORATION HNC CONTROLLER For the connection to the HNC controller manufactured by Hirata Corporation, please contact our company. 15.1 Connectable Model List 15.2 System Configuration 15.3 Connection Diagram 15.4 GOT Side Settings 15.5 PLC Side Setting 15.6 Device Range that Can Be Set 15 - 2 15.
  • Page 381: Connection To Muratec Controller

    CONNECTION TO MURATEC CONTROLLER 16.1 Connectable Model List ......16 - 2 16.2 System Configuration ......16 - 2 16.3 Connection Diagram .
  • Page 382: Connectable Model List

    16. CONNECTION TO MURATEC CONTROLLER For the connection to the MURATEC controller, please contact our company. 16.1 Connectable Model List 16.2 System Configuration 16.3 Connection Diagram 16.4 GOT Side Settings 16.5 MURATEC Controller Side Setting 16.6 Device Range that Can Be Set 16 - 2 16.
  • Page 383: Index

    INDEX Connection diagram CONNECTION TO YOKOGAWA PLC....7-6 ALLEN-BRADLEY PLC CONNECTION TO ALLEN-BRADLEY PLC ..10-1 Control/Compact/FlexLogix....10-6,10-13 CONNECTION TO FUJI FA PLC ......4-1 MicroLogix1000/1200/1500 Series ....10-5 CONNECTION TO GE FANUC PLC ....11-1 SLC500 Series..........10-4 CONNECTION TO HIRATA CORPORATION HNC CONTROLLER ........
  • Page 384 CONNECTION TO HITACHI IES PLC ....2-9 CONNECTION TO HITACHI PLC...... 3-8 GE FANUC PLC CONNECTION TO LS INDUSTRIAL Series90-30............11-3 SYSTEMS PLC ..........12-10 Series90-70............11-6 CONNECTION TO MURATEC VersaMax Micro ..........11-7 CONTROLLER..........16-2 GOT connector specifications ......1-27 Precautions GOT Side Settings CONNECTION TO FUJI FA PLC .....
  • Page 385 CONNECTION TO LS INDUSTRIAL SYSTEMS PLC..........12-3 CONNECTION TO MURATEC CONTROLLER ..........16-2 CONNECTION TO RKC TEMPERATURE CONTROLLER ..........9-4 CONNECTION TO SICK SAFETY CONTROLLER ..........13-2 CONNECTION TO SIEMENS PLC....14-3 CONNECTION TO YASKAWA PLC ..6-3,6-20 CONNECTION TO YOKOGAWA PLC ..7-3,7-16 CONNECTION TO YOKOGAWA TEMPERATURE CONTROLLER ......
  • Page 386: Revisions

    SH(NA)-080870ENG-K Compatible with GT Works3 Version1.54G • Description of the temperature controller manufactured by Azbil (former Yamatake) Corporation is moved from this manual to GOT1000 Series Connection Manual (Non-Mitsubishi Products 1). • Ping test at the GT14 compatible Sep., 2012 SH(NA)-080870ENG-L Compatible with GT Works3 Version1.58L...
  • Page 387 This manual confers no industrial property rights or any rights of any other kind, nor does it confer any patent licenses. Mitsubishi Electric Corporation cannot be held responsible for any problems involving industrial property rights which may occur as a result of using the contents noted in this manual.
  • Page 388 REVISIONS - 3...
  • Page 389: Warranty

    If requested by the customer, Mitsubishi Electric Corporation or its representative firm may carry out the primary failure diagnosis at the customer’s expence. The primary failure diagnosis will, however, be free of charge should the cause of failure be attributable to Mitsubishi Electric Corporation.
  • Page 390 GOT is a registered trademark of Mitsubishi Electric Corporation. Microsoft, Windows, Windows NT, Windows Server, Windows Vista, and Windows 7 are registered trademarks or trademarks of Microsoft Corporation in the United States and other countries. Adobe and Adobe Reader are registered trademarks of Adobe Systems Incorporated.
  • Page 392 Series Connection Manual for GT Works3 (Non-Mitsubishi Products 2) SW1-GTD3-U(CON3)-E MODEL MODEL 1D7MC4 CODE SH(NA)-080870ENG-W(1512)MEE HEAD OFFICE : TOKYO BUILDING, 2-7-3 MARUNOUCHI, CHIYODA-KU, TOKYO 100-8310, JAPAN NAGOYA WORKS : 1-14 , YADA-MINAMI 5-CHOME , HIGASHI-KU, NAGOYA , JAPAN When exported from Japan, this manual does not require application to the Ministry of Economy, Trade and Industry for service transaction permission.

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