B-912 (23) Chapter 1 PLC Link Communication External Device Setup Manual Chapter 2 Connection to a PLC Chapter 3 O/I Link Communication Chapter 4 DM Link Communication Chapter 5 Modbus Chapter 6 1: N Communication (Multi-drop) Chapter 7 Communication Cables
Confirm that the delivered product is what you have ordered. Read this instruction sheet to make sure of correct operation. Make sure that the instruction sheet is kept by the end user. SAFETY PRECAUTATIONS • Be certain to read this manual carefully before performing installation, wiring, or maintenance work, or operating the HG2G-S/-5S/-5F, HG3G/4G, HG1F/2F/2S/3F/4F and Touch. • The HG2G-S/-5S/-5F, HG3G/4G, HG1F/2F/2S/3F/4F and Touch has been manufactured with careful regard to quality.
SAFETY PRECAUTATIONS • Prevent the HG2G-S/-5S/-5F, HG3G/4G, HG1F/2F/2S/3F/4F and Touch from falling while moving or transporting, otherwise damage or malfunction of the HG2G-S/-5S/-5F, HG3G/4G, HG1F/2F/2S/3F/4F and Touch will result. • Use the product within the environmental limits given in the catalog and manual.
iii • Do not switch off the power or pull out the Memory Card while it is being accessed, as this may result in destruction of the stored data. If the data on the Memory Card is corrupted, format the Memory Card. • Be sure to confirm that the Memory Card Access lamp is not lit prior to turning the power off to the HG2G-5F, HG3G/4G, HG2F/3F/4F or pulling out the Memory card. Refer to the WindO/I-NV2 User’s Manual for details.
Revision history Revision history December 2004: First Edition April 2005: Second Edition September 2005: Third Edition March 2006: Fourth Edition April 2006: Fifth Edition May 2006: Sixth Edition September 2006: Seventh Edition January 2007: Eighth Edition March 2007: Ninth Edition July 2007: Tenth Edition January 2008: Eleventh Edition November 2008: Twelfth Edition December 2008: Thirteenth Edition February 2009: Fourteenth Edition April 2009: Fifteenth Edition November 200
Caution • The contents of this manual and the WindO/I-NV2 or WindO/I-NV3 application are copyrighted. All rights are reserved by IDEC Corporation. Unauthorized reproduction is prohibited. • • The contents of this manual and the WindO/I-NV2 or WindO/I-NV3 application are subject to change without notice. • Please contact your vendor or IDEC Corporation with any problems regarding the operation of this product.
Symbols Used in this Document Symbols Used in this Document This manual uses the following symbols to facilitate description. Symbols Useful information relating to a function Information that requires special attention. Failure to operate the product in accordance with the information provided can lead to serious injury or damage. Indicates the location of related information. Screen buttons are indicated by enclosing text inside a rectangle or by using the actual graphic icon.
Abbreviations, Generic Terms, and Terminology Used in this Manual Item vii Description HG2G-S The name is short for MICRO/I HG2G-S*2**F-*. HG2G-5S The name is short for MICRO/I HG2G-5ST22*F-*. HG2G-5F The name is short for MICRO/I HG2G-5FT22TF-*. HG3G The name is short for MICRO/I HG3G-*JT22*F-*. HG4G The name is short for MICRO/I HG4G-CJT22*F-B. HG1F The name is short for MICRO/I HG1F-SB22*F-*. HG2F The name is short for MICRO/I HG2F-S**2V**.
Abbreviations, Generic Terms, and Terminology Used in this Manual Item Description Device Monitor A special Popup Screen on the MICRO/I or Touch on which value of the device can be displayed or changed. System Screen Pre-allocated screen dedicated for performing initial setting of the MICRO/I or Touch, self-diagnosis, and clearing the log data etc. Pass-Through A function that enables maintenance of the external device via the MICRO/I. Memory Card A term referring to either a CF or SD Memory Card.
Contents SAFETY PRECAUTATIONS ..................................................................i Revision history .................................................................................... iv Caution ..................................................................................................v Trademarks ............................................................................................v Symbols Used in this Document ...........................................................
Contents Chapter 2 1 IDEC 1.1 1.2 1.3 1.4 1.5 2 ................................................................................................117 Connection Table ..............................................................................................................117 System Configuration .......................................................................................................120 Connection Diagram .................................................................................
Contents 7.1 7.2 7.3 7.4 7.5 8 Hitachi 8.1 8.2 8.3 8.4 8.5 9 Connection Table ............................................................................................................. 262 System Configuration ...................................................................................................... 263 Connection Diagram ........................................................................................................ 265 Environment Settings ......................................
Contents 13.5 Usable Devices 14 Koyo 14.1 14.2 14.3 14.4 14.5 Connection Table ..............................................................................................................386 System Configuration .......................................................................................................387 Connection Diagram .........................................................................................................389 Environment Settings ......................................
Contents 20.2 20.3 20.4 20.5 System Configuration ...................................................................................................... 501 Connection Diagram ........................................................................................................ 503 Environment Settings ....................................................................................................... 512 Usable Devices .................................................................................
Contents 6.1 Chapter 4 1 ...........................................................573 Communication Method ...................................................................................................573 Communication Conditions ..............................................................................................573 Flow control ......................................................................................................................573 .....................................
Contents Chapter 5 1 Modbus 1.1 1.2 1.3 1.4 1.5 1.6 Chapter 6 1 .................629 ............................................................................... 629 ..................................................630 Initial Setting ................................................................................................................... 630 External Device Settings ..................................................................................................
Contents 1.15 1.16 1.17 1.18 1.19 1.20 1.21 1.22 PLC connection cable: HG9Z-XC213 PLC connection cable: HG9Z-XC245 PLC connection cable: HG9Z-XC255 PLC connection cable: HG9Z-XC265 PLC connection cable: HG9Z-XC275 PLC connection cable: HG9Z-XC295 PLC connection cable: HG9Z-XC305 PLC connection cable: HG9Z-XC315 ..............................................................................652 ..............................................................................653 ................................
Contents xvii External Device Setup Manual
Chapter 1 PLC Link Communication 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
Chapter 1 1 PLC Link Communication 1.1 Overview With the PLC Link communication, the MICRO/I and Touch reads from and writes data to external devices such as relays and registers via the PLC's Link Unit or the CPU Unit Programming Port (the terminology used depends on the PLC manufacturer). No special communication program is required on the PLC when PLC Link communication is used. 1.2 Operation The MICRO/I and Touch can use PLC Link communication to read from and write to external devices.
2 Compatible PLC Units 2 Compatible PLC Units In order to connect the MICRO/I or Touch to a PLC using PLC Link Communication, you must select a communication protocol that is compatible with the PLC’s CPU unit and Link Unit using the WindO/I-NV2 or WindO/I-NV3 application. The PLCs and link units that are compatible with the MICRO/I or Touch are listed in the following table. 2.
Chapter 1 Series Name System (CPU unit) Link Unit WindO/I-NV2, WIndO/I-NV3 Setting Host I/F Driver Communication Driver MICROSmartPentra FC5A-C10R2, FC5A-C16R2, FC5A-C24R2, FC5A-C10R2C, FC5A-C16R2C, FC5A-C24R2C Not required (connects to CPU unit) FC4A-PC1 OpenNet(FC3A), MicroSmart (FC4A/FC5A) Product Series HG2G -5F, HG3G/ 4G HG2G -S/-5S HG1F/ 2F/ 2S/ 3F/ 4F Touch X X X --- FC4A-PC3 FC5A-SIF2 FC5A-SIF4 FC5A-D16RK1, FC5A-D16RS1, FC5A-D32K3, FC5A-D32S3 FC4A-SX5ES1E Web Server Unit (FC3A/FC
2 Compatible PLC Units 2.
Chapter 1 Series Name System (CPU unit) Link Unit WindO/I-NV2, WIndO/I-NV3 Setting Host I/F Driver Communication Driver MELSEC-Q MELSEC-FX HG2G -5F, HG3G/ 4G HG2G -S/-5S HG1F/ 2F/ 2S/ 3F/ 4F Touch X X X --- Q00CPU, Q01CPU Not required (Connects to CPU unit) Q02CPU, Q02HCPU, Q06HCPU, Q12PHCPU, Q25HCPU QJ71C24, QJ71C24N, QJ71C24N-R2 Q02CPU, Q02HCPU Not required (Connects to CPU unit) MELSEC-Q (CPU) Q02Cpu-A mode Not required (Connects to CPU unit) MELSEC-AnU (CPU) --- --- X --- Q0
2 Compatible PLC Units 2.
Chapter 1 Series Name System (CPU unit) Link Unit WindO/I-NV2, WIndO/I-NV3 Setting Product Series HG2G-5F, HG3G/4G HG2G -S/-5S HG1F/ 2F/ 2S/ 3F/ 4F Touch X X X --- Host I/F Driver Communication Driver SYSMAC-CS1 CS1G, CS1H Not required (connects to CPU unit) SYSMAC-CS1 Series CS1W-SCB41 (port1) CS1W-SCB41 (port2) CS1W-ENT01 CS1W-ENT11 SYSMAC-CS1/CJ Series (Ethernet) CS1W-ENT21 CJ1W-ENT21 SYSMAC-CJ1 CJ1G, CJ1H, CJ1M Not required (connects to CPU unit) SYSMAC-CS1 Series CS1W-ENT01 SYSM
2 Compatible PLC Units 2.
Chapter 1 2.5 SIEMENS Series Name System (CPU unit) Link Unit WindO/I-NV2, WIndO/I-NV3 Setting Host I/F Driver Communication Driver S7-200 CPU212, CPU214, CPU215, CPU216, CPU221, CPU222, CPU224, CPU226, CPU226XM Not required S7-200(PPI) (Connects to CPU unit) S7-300 CPU313C-2PtP Not required S7-MPI (Connects to CPU unit) CPU 313, CPU 314, CPU 315, CPU 315-2DP, CPU 316, CPU 318 CP-340, CP-341 CPU 412, CPU 414, CPU 416, CPU 416F-2, CPU 417 CP-440, CP-441 S7-400 2.
2 Compatible PLC Units 2.
Chapter 1 2.9 JTEKT (TOYODA) Series Name System (CPU unit) Link Unit WindO/I-NV2, WIndO/I-NV3 Setting HG2G -5F, HG3G/ 4G HG2G -S/-5S HG1F/ 2F/ 2S/ 3F/ 4F Touch TOYOPUC-PC3J X X X --- WindO/I-NV2, WIndO/I-NV3 Setting Product Series Host I/F Driver Communication Driver TOYOPUC-PC2J PC2J Not required (Connects to Built-in Link) TOYOPUC-PC3J PC3J, PC3JD Not required (Connects to Built-in Link) PC3JG Not required (Connects to Built-in Link) Product Series 2.
2 Compatible PLC Units 2.12 Schneider Series Name System (CPU unit) Link Unit WindO/I-NV2, WIndO/I-NV3 Setting Host I/F Driver Communication Driver Twido TWDNAC232D, TWDNAC485D, TWDNAC485T Modbus RTU Modbus ASCII HG2G -5F, HG3G/ 4G HG2G -S/-5S HG1F/ 2F/ 2S/ 3F/ 4F Touch X X X X 1 1 2.
Chapter 1 2.
2 Compatible PLC Units 2.17 FANUC Series Name System (CPU unit) Link Unit WindO/I-NV2, WIndO/I-NV3 Setting Host I/F Driver Communication Driver Power Mate-MODEL D Not required Series 16i, 160i, 18i, 180i, 30i, 31i, 32i Not required Power Mate HG2G -5F, HG3G /4G HG2G -S/-5S HG1F/ 2F/ 2S/ 3F/ 4F Touch X X X --- 1 1 1 2.
Chapter 1 2.
2 Compatible PLC Units 2.
Chapter 1 2.21 LS Industrial Systems Series Name System (CPU unit) Link Unit WindO/I-NV2, WIndO/I-NV3 Setting HG2G -5F, HG3G /4G HG2G -S/-5S HG1F/ 2F/ 2S/ 3F/ 4F Touch MASTER-K X X X --- WindO/I-NV2, WIndO/I-NV3 Setting Product Series Host I/F Driver Communication Driver MASTER-K K10S1 Not required (Connects to CPU unit) K80S, K120S, K200S, Not required (Connects to CPU unit) K80S G7L-CUEB Product Series G7L-CUEC K200S G6L-CUEB G6L-CUEC K300S G4L-CUEA 2.
3 Important Points Regarding Wiring 3 Important Points Regarding Wiring Take note of the following points when connecting a PLC to the MICRO/I or Touch. Depending on the environment, connect a shield wire to the FG terminal on either the PLC side or the MICRO/I or Touch side. 1 • In case of HG2F/3F/4F when using RS422/485 interface, shorting pin 9 (TERM) and pin 10 (RDA or RD+) inserts a 330-Ohm terminating resistor. Use it if necessary.
Chapter 1 4 Settings for PLC Link Communication You must setup MICRO/I or Touch using WindO/I-NV2 or WindO/I-NV3 in order for it to be able to communicate with the PLC that you will be using. You will find the WindO/I-NV2 or WindO/I-NV3 setting items for PLC Link Communication in the Host I/F Selection and Configuration - System Setup - Project dialog boxes (refer to WindO/I-NV2 User’s Manual or SmartAXIS Touch User's Manual).
4 Settings for PLC Link Communication Configuration Procedure Setting Description On the Configuration tab, in the System Setup group, click Project, and then click the Host I/F Driver or the Communication Driver tab. Transmission Wait The settings depend on the PLC that you will use. Refer to the Environment Settings for your PLC. If there is no setting given for Transmission Wait, set it to 0.
Chapter 1 22 External Device Setup Manual
Chapter 2 Connection to a PLC 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 23
Chapter 2 1 IDEC Selecting OpenNet (FC3A) or MicroSmart (FC4A/FC5A) as the Host I/F Driver allows the user to use the 1: N Communication and Pass-through function. Selecting Web Server Unit (FC3A/FC4A/FC5A) as the Host I/F Driver allows the user to use 1: N Communication. • • Pass-through function (Refer to “Pass-Through Function” in the WindO/I-NV2 User’s Manual) 1: N Communication function (Refer to Chapter 6 "1: N Communication (Multi-drop)" on page 627) 1.1 1.1.
1 IDEC Series Name MICROSmart*1 System (CPU unit) Link unit FC4A-C16R2 FC4A-C24R2 Interface Flow Control Host I/F Driver RS232C Connection Diagram 3 (refer to P43) Hardware OpenNet(FC3A), MicroSmart (FC4A/FC5A) RS232C Connection Diagram 1 (refer to P37) None FC4A-PC1 RS232C Connection Diagram 1 (refer to P37) Hardware FC4A-PC3 RS422/485 2-wire Connection Diagram 2 (refer to P40) Web Server Unit (FC4A-SX5ES1E) Ethernet - Web Server Unit (FC3A/FC4A/FC5A) Not required (connects to CPU un
Chapter 2 Series Name MICROSmart Pentra*1 26 System (CPU unit) FC5A-C10R2, FC5A-C16R2, FC5A-C24R2, FC5A-C10R2C, FC5A-C16R2C, FC5A-C24R2C Link unit WindO/I-NV2 Settings Interface Flow Control Host I/F Driver RS232C Connection Diagram 3 (refer to P43) Hardware OpenNet(FC3A), MicroSmart (FC4A/FC5A) RS232C Connection Diagram 1 (refer to P37) None FC4A-PC1 RS232C Connection Diagram 1 (refer to P37) Hardware FC4A-PC3 RS422/485 2-wire Connection Diagram 2 (refer to P40) FC5A-SIF2 RS232C Connec
1 IDEC Series Name MICROSmart Pentra*1 System (CPU unit) Link unit FC5A-D16RK1, FC5A-D16RS1, FC5A-D32K3, FC5A-D32S3 WindO/I-NV2 Settings Interface Flow Control Host I/F Driver RS232C Connection Diagram 3 (refer to P43) Hardware OpenNet(FC3A), MicroSmart (FC4A/FC5A) RS232C Connection Diagram 1 (refer to P37) None FC4A-HPC1 RS232C Connection Diagram 1 (refer to P37) Hardware FC4A-HPC3 RS422/485 2-wire Connection Diagram 2 (refer to P40) FC4A-HPH1 +FC4A-PC1 RS232C Connection Diagram 1 (refe
Chapter 2 Series Name MICROSmart Pentra*1 System (CPU unit) FC5A-D12K1E FC5A-D12S1E Link unit WindO/I-NV2 Settings Interface Flow Control Host I/F Driver Not required (connects to CPU unit) Ethernet - Web Server Unit (FC3A/FC4A/FC5A) FC4A-HPC1 RS232C Connection Diagram 1 (refer to P37) Hardware OpenNet(FC3A), MicroSmart (FC4A/FC5A) FC4A-HPC3 RS422/485 2-wire Connection Diagram 2 (refer to P40) FC4A-HPH1 +FC4A-PC1 RS232C Connection Diagram 1 (refer to P37) FC4A-HPH1 +FC4A-PC3 RS422/485
1 IDEC 1.2 System Configuration This is the system configuration for the connection of IDEC PLCs to the MICRO/I. 1.2.1 OpenNet Controller (connects to RS232C port of the CPU unit) FC3A-CP2 2 MICRO/I 2 OpenNet Controller Interface 2 Connection Diagram 1 2 - In case of HG2G-S/-5S/-5F, HG3G/4G a connection cable is available. (part number: HG9Z-XC275). - In case of HG1F a connection cable is available. (part number: HG9Z-XC183).
Chapter 2 1.2.3 MicroSmart/MICROSmart Pentra (uses the communication port1) FC4A , FC5A MICRO/I RS232C Connection Diagram 1 or 3 FC5A-D12K1E and FC5A-D12S1E can not be connected to the HMI with RS232C cable because they don't have built-in RS232C port. - In case of HG2G-5F, HG3G/4G a connection cable is available for Connection Diagram 1 or 3 (part number: HG9ZXC295). - In case of HG2G-S/-5S/-5F, HG3G/4G a connection cable is available for Connection Diagram 1 or 3 (part number: HG9Z-XC275).
1 IDEC MICRO/I RS485 2 Connection Diagram 2 FC4A-C16R2 FC4A-C24R2 FC5A-C10R2 FC5A-C16R2 FC5A-C24R2 FC5A-C10R2C FC5A-C16R2C FC5A-C24R2C 2 FC4A-PC3 (Communication Adapter) 2 2 Connection to a PLC MICRO/I 2 2 RS232C 2 FC4A-D***** FC5A-D***** FC4A-HPH1 (HMI Base Module) Connection Diagram 1 FC4A-PC1 (Communication Adapter) 2 2 MICRO/I RS485 2 2 2 FC4A-D***** FC5A-D***** FC4A-HPH1 (HMI Base Module) Connection Diagram 2 FC4A-PC3 (Communication Adapter) 2 2 - In case of HG2G-5F, HG3G/4G a conn
Chapter 2 1.2.
1 IDEC MICRO/I RS485 2 2 Connection Diagram 2 2 FC5A-D***** FC5A-SIF4 - In case of HG2G-5F, HG3G/4G a connection cable is available for Connection Diagram 1 (part number: HG9Z-XC295). - In case of HG2F/3F/4F a connection cable is available for Connection Diagram 1 (part number: HG9Z-3C125). - In case of HG1F a connection cable is available for Connection Diagram 1 (part number: HG9Z-XC183).
Chapter 2 1.2.6 OpenNet Controller/MICROSmart/MICROSmart Pentra (uses Web Server Unit) MICRO/I PLC Connecting Cable FC4A-KC3C FC3A FC4A FC5A 1.2.
1 IDEC 1.2.8 1: N Communication-OpenNet Controller/MICROSmart/MICROSmart Pentra The 1: N communication can be established by using the following connections • • • OpenNet Controller (Connects to the RS485 port of the CPU unit) 2 MICROSmart/MICROSmart Pentra (Port 2) - with RS485 connection MICROSmart/MICROSmart Pentra (Communication module -to-RS485) 2 MICRO/I 2 RS485 Connection Diagram 2 2 Connection to a PLC 2 2 ...
Chapter 2 1.2.9 1: N Communication-OpenNet Controller/MICROSmart/MICROSmart Pentra (uses Web Server Unit) The 1: N communication can be established by using the following connections • • • OpenNet Controller(uses Web Server Unit) MICROSmart/MICROSmart Pentra (uses Web Server Unit) MICROSmart Pentra FC5A-D12K1E, FC5A-D12S1E (Do not uses Web Server Unit) MICRO/I Ethernet ... ... PLC1 PLC2 PLC3 - Use a crossover cable to connect the MICRO/I and PLC directly.
1 IDEC 1.3 Connection Diagram The connector types given in the Connection Diagrams are for the unit and not the cable. For details regarding wiring, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19. 1.3.1 Connection Diagram 1: OpenNet Controller (RS232C port) to MICROI MICROSmart Pentra (RS232C port) to MICRO/I 2 2 2 2 Connection to a PLC 2 2 2 2 Mini Din 8P D-sub, 9P connector plug type - In case of HG2G-5F, HG3G/4G a connection cable is available. (part number: HG9Z-XC295).
Chapter 2 Mini Din 8P Terminal - In case of HG2G-S/-5S/-5F, HG3G/4G a connection cable is available. (part number: HG9Z-XC275). - Refer to Chapter 7 "1.19 PLC connection cable: HG9Z-XC275" on page 654 about the connection diagram of HG9ZXC275. Mini Din 8P D-sub, 9P connector socket type - In case of HG1F a connection cable is available. (part number: HG9Z-XC183). - The Connection Diagram 1 is not same as HG9Z-XC183. But both diagrams are available. Refer to Chapter 7 "1.
1 IDEC 2 2 2 2 D-sub, 25P connector socket type - In case of HG2F/3F/4F a connection cable is available. (part number: HG9Z-3C125). - The Connection Diagram 1 is not same as HG9Z-3C125. But both diagrams are available. Refer to Chapter 7 "1.4 PLC connection cable: HG9Z-3C125" on page 645 about the connection diagram of HG9Z-3C125.
Chapter 2 1.3.2 Connection Diagram 2: OpenNet Controller (RS485 port) to MICRO/I MICROSmart/MICROSmart Pentra (RS485 port) to MICRO/I MICROSmart/MICROSmart Pentra (FC5A-SIF4) to MICRO/I Screw terminal block D-sub, 9P connector plug type Screw terminal block Terminal - There is no pin number corresponding to TERM on the HG2G-S/-5S/-5F, HG3G/4G. When inserting a termination resistor, use a communication switch.
1 IDEC 2 2 2 2 Connection to a PLC 2 Screw terminal block D-sub, 9P connector socket type 2 2 2 2 Screw terminal block Terminal There is no pin number corresponding to TERM on the HG1F. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19. 2 2 2 When you use the Terminal Block type of HG1F, make sure to configure the Hardware Flow control to NONE.
Chapter 2 Screw terminal block D-sub, 25P connector socket type Screw terminal block D-sub, 37P connector plug type There is no pin number corresponding to TERM on the HG2S. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
1 IDEC 1.3.3 Connection Diagram 3: MICROSmart/MICROSmart Pentra (RS232C Port 1) to MICRO/I 2 2 2 2 Connection to a PLC 2 Mini DIN 8P D-sub, 9P connector plug type 2 In case of HG2G-5F, HG3G/4G a connection cable is available. (part number: HG9Z-XC295). 2 2 2 2 2 2 Mini Din 8P Terminal 2 - In case of HG2G-S/-5S/-5F, HG3G/4G a connection cable is available. (part number: HG9Z-XC275). - Refer to Chapter 7 "1.19 PLC connection cable: HG9Z-XC275" on page 654 about the connection diagram of HG9ZXC275.
Chapter 2 Mini DIN 8P D-sub, 9P connector socket type - In case of HG1F a connection cable is available. (part number: FC4A-KC1C). - The Connection Diagram 3 is not same as FC4A-KC1C. But both diagrams are available. Refer to Chapter 7 "1.10 PLC connection cable: FC4A-KC1C" on page 650 about the connection diagram of FC4A-KC1C. Mini DIN 8P D-sub, 25P connector socket type - In case of HG2F/3F/4Fa connection cable is available. (part number: FC4A-KC2C).
1 IDEC 2 2 2 2 D-sub, 37P connector plug type Connection to a PLC Mini DIN 8P 2 2 2 2 2 2 2 2 2 2 2 External Device Setup Manual 45
Chapter 2 1.3.
1 IDEC 2 2 2 2 Connection to a PLC 2 Terminal D-sub, 9P connector socket type 2 2 2 2 2 2 Terminal D-sub, 25P connector socket type 2 2 2 2 External Device Setup Manual 47
Chapter 2 Terminal 48 D-sub, 37P connector plug type External Device Setup Manual
1 IDEC 1.4 Environment Settings 1.4.1 OpenNet Controller and MICROSmart Item Setting Baud Rate (bps) 9600 Data Bits (bits) 7 Parity Even Stop Bits 1 *1 Network Number 2 2 0(DEC) *1. Set a decimal number for the Network Number. OpenNet Controller, MICROSmart/MICROSmart Pentra (uses Web Server Unit) Set the following items on Project Settings dialog box.
Chapter 2 1.4.3 MICROSmart Pentra (FC5A-D12K1E, FC5A-D12S1E) Set the following items on Project Settings dialog box. Item Setting IP Address (MICRO/I) Set the IP address for MICRO/I. (Set this item in Communication Interface tab.) Subnet Mask Set the subnet mask for MICRO/I. (Set this item in Communication Interface tab.) Default Gateway Set the default gateway for MICRO/I. IP Address (FC5A) Set the IP address for FC5A. (Set this item in Communication Interface tab.
1 IDEC 1.5 1.5.
Chapter 2 2 Mitsubishi Selecting MELSEC-Q (CPU), MELSEC-FX (CPU), MELSEC-FX2N (CPU), or MELSEC-FX3U (CPU) for the Host I/F Driver allows the user to use the Pass-through function. Selecting MELSEC-Q/QnA (Ethernet) for the Host I/F Driver allows the user to use the 1: N Communication. • • Pass-through function (Refer to “Pass-Through Function” in the WindO/I-NV2 User’s Manual) 1: N Communication function (Refer to Chapter 6 "6 1: N Communication (Multi-drop)" on page 627) 2.1 Connection Table 2.1.
2 Mitsubishi Series Name System (CPU unit) Link unit WindO/I-NV2 Settings Interface MELSEC-A A2A, A3A, A2U, A3U, A4U AJ71C24-S6/-S8 AJ71UC24 RS232C Connection Diagram 1 (refer to P69) Flow Control Hardware MICRO/I Type Host I/F Driver MELSECAnN (LINK) HG2G-S /-5S/-5F, HG3G/ 4G HG1F/ 2F/ 2S/ 3F/ 4F X X 2 2 RS422/485 4-wire Connection Diagram 2 (refer to P72) A1SJ71C24-R2 A1SJ71UC24-R2*1 A1SJ71UC24-R2 RS232C Connection Diagram 3 (refer to P75) 2 Hardware A1SJ71C24-R4 RS422/485 4-wire Con
Chapter 2 Series Name MELSECQnA System (CPU unit) Q4ACPU, Q4ARCPU, Q3ACPU, Q2ACPU-S1, Q2ACPU Link unit WindO/I-NV2 Settings MICRO/I Type Interface Flow Control Host I/F Driver HG2G-S /-5S/-5F, HG3G/ 4G HG1F/ 2F/ 2S/ 3F/ 4F RS232C Connection Diagram 1 (refer to P69) Hardware/ None MELSEC-Q/ QnA (LINK) X X AJ71QC24N AJ71QC24N-R4 RS422/485 4-wire Connection Diagram 2 (refer to P72) Ethernet - MELSEC-Q/ QnA (Ethernet) RS232C Connection Diagram 3 (refer to P75) Hardware/ None MELSEC-Q/
2 Mitsubishi Series Name System (CPU unit) Link unit WindO/I-NV2 Settings Interface MELSEC-Q Q00CPU*1, Q01CPU*1 Q02CPU*1 Q02HCPU, Q12PHCPU*1 Q25HCPU Q02CPU*1 Q02HCPU QJ71C24N-R2*1 QJ71C24 *1, QJ71C24N*1 Hardware RS232C Connection Diagram 3 (refer to P75) Hardware MELSEC-Q/ QnA (LINK) HG2G-S /-5S/-5F, HG3G/ 4G HG1F/ 2F/ 2S/ 3F/ 4F X X Not required (connects to CPU unit) *1 QJ71E71-100 , QJ71E71-B5, QJ71E71-B2 2 2 2 X X 2 2 RS422/485 4-wire Connection Diagram 2 (refer to P72) Q02CP
Chapter 2 Series Name MELSECFX System (CPU unit) Link unit WindO/I-NV2 Settings Interface Flow Control Host I/F Driver HG2G-S /-5S/-5F, HG3G/ 4G HG1F/ 2F/ 2S/ 3F/ 4F Hardware MELSEC-FX (CPU) X X X X X X X X FX1,FX2, FX2C, Not required (connects to CPU unit) RS422/485 4-wire Connection Diagram 4 (refer to P78) FX0, FX0N, Not required (connects to CPU unit) RS422/485 4-wire Connection Diagram 4 (refer to P78) (FX1N)*1, FX0S*1,FX1S*1 MICRO/I Type RS422/485 4-wire Connection Diagram
2 Mitsubishi Series Name System (CPU unit) Link unit WindO/I-NV2 Settings Interface MELSECFX FX1N FX1N-232-BD*2 FX1N-422-BD*2 RS232C Connection Diagram 5 (refer to P81) Flow Control Hardware MICRO/I Type Host I/F Driver MELSECFX2N (CPU) HG2G-S /-5S/-5F, HG3G/ 4G HG1F/ 2F/ 2S/ 3F/ 4F X X 2 2 RS422/485 4-wire Connection Diagram 4 (refer to P78) 2 Not required (connects to CPU unit) RS422/485 4-wire Connection Diagram 4 (refer to P78) 2 Hardware MELSECFX3UC (CPU) X X FX3G 2 FX3U-2
Chapter 2 2.2 System Configuration This is the system configuration for the connection of Mitsubishi PLCs to the MICRO/I. 2.2.1 MELSEC-A Series (using the Computer Link Unit) RS232C MICRO/I Connection Diagram 1 RS485 Connection Diagram 2 A1N, A2N, A3N AJ71C24 AJ71C24-S3 A1N, A2N, A3N A2A, A3 AJ71C24-S6 AJ71C24-S8 A1N, A2N, A3N A2A, A3A A2U, A3U, A4U AJ71UC24 AQJ2, A0J2H A0J2-C214S1 - In case of HG2F/3F/4F a connection cable is available for Connection Diagram 1 (part number: HG9Z-3C135).
2 Mitsubishi RS232C MICRO/I Connection Diagram 3 2 2 A1SJ71C24-R2 A1SH, A1SJ71UC24-R2 2 A2US, A2USH 2 RS485 Connection to a PLC Connection Diagram 2 2 2 A1SJ71C24-R4 A1SH, A1SJ71UC24-R4 2 A2US, A2USH - In case of HG2F/3F/4F a connection cable is available for Connection Diagram 3 (part number: HG9Z-3C145). - In case of HG1F a connection cable is available for Connection Diagram 3 (part number: HG9Z-XC203). 2.2.
Chapter 2 2.2.3 MELSEC-A Series (connected to the CPU Unit Programming Port) RS422 MICRO/I Connection Diagram 4 Mitsubishi 2-point adapter X-2PIF A0J2H A1SJH, AISH A2N, A2SH, A2C A2A, A3A, A2US Mitsubishi Cable RS422 A2USH, A2U FX-422CAB (Connection Diagram 4) - In case of HG2F/3F/4F a connection cable is available for Connection Diagram 4 (part number: HG9Z-3C165). - In case of HG1F a connection cable is available for Connection Diagram 4 (part number: HG9Z-XC255).
2 Mitsubishi 2.2.
Chapter 2 RS232C MICRO/I Connection Diagram 3 RS485 Connection Diagram 2 A1S71QC24N Q2ASHCPU-S1 Q2ASHCPU Q2ASCPU-S1 Q2ASCPU RS232C Connection Diagram 1 A1SJ71QC24N-R2 - In case of HG2F/3F/4F a connection cable is available for Connection Diagram 3 (part number: HG9Z-3C145). - In case of HG1F a connection cable is available for Connection Diagram 3 (part number: HG9Z-XC203). 2.2.
2 Mitsubishi 2.2.6 MELSEC-FX Series (connects to the CPU unit programming port) RS422 MICRO/I Connection Diagram 4 2 2 FX1, FX2, FX2C MICRO/I Mitsubishi Cable RS422 FX20P-CADP Connection Diagram 4 2 2 Connection to a PLC 2 FX0, FX0N, FX2N, FX2NC FX3UC, FX3U, FX3G 2 RS422 MICRO/I Connection Diagram 10 2 2 FX0, FX0N, FX2N, FX2NC 2 FX3UC, FX3U, FX3G - In case of HG2F/3F/4F a connection cable is available for Connection Diagram 4 (part number: HG9Z-3C165).
Chapter 2 Mitsubishi 2-port adapter MICRO/I FX-2PIF Mitsubishi Electric Cable RS422 FX-422CAB Connection Diagram 4 FX1, FX2, FX2C Mitsubishi 2-port adapter Mitsubishi Cable MICRO/I FX-2PIF FX20P-CADP Mitsubishi Cable RS422 FX-422CAB Connection Diagram 4 FX0, FX0N, FX2N, FX2NC FX3UC, FX3U FX3G - In case of HG2F/3F/4F a connection cable is available for Connection Diagram 4 (part number: HG9Z-3C165).
2 Mitsubishi MICRO/I RS422 Connection Diagram 10 2 FX2N FX2N-422-BD FX1N FX1N-422-BD 2 2 - In case of HG2G-5F, HG3G/4G a connection cable is available. (part number: HG9Z-XC305). - In case of HG1F a connection cable is available for Connection Diagram 10 (part number: HG9Z-XC245). Please do not use the HG9Z-XC245 for the MELSEC-FX3U/FX3UC-32-MT-LT because the Mini Din connector interferes with the housing of the PLC.
Chapter 2 2.2.
2 Mitsubishi 2.2.
Chapter 2 2.2.9 MELSEC-FX Series (Using the Ethernet Unit) MICRO/I Ethernet FX3UC FX3G FX3U-ENET-L When connecting with MELSEC-FX3UC, FX2NC-CNV-IF or FX3UC-1PS-5V is required.
2 Mitsubishi 2.3 Connection Diagram The connector types given in the Connection Diagrams are for the unit and not the cable. 2.3.
Chapter 2 D-sub, 25P connector socket type D-sub, 9P connector socket type - In case of HG1F a connection cable is available. (part number: HG9Z-XC145). - The connection diagram 1 is not same as HG9Z-XC145. But both diagrams are available. Refer to Chapter 7 "1.11 PLC connection cable: HG9Z-XC145" on page 650 about the connection diagram of HG9Z-XC145. D-sub, 25P connector socket type D-sub, 25P connector socket type - In case of HG2F/3F/4Fa connection cable is available. (part number: HG9Z-3C135).
2 Mitsubishi 2 2 2 2 D-sub, 37P connector plug type Connection to a PLC D-sub, 25P connector socket type 2 2 2 2 2 2 2 2 2 2 2 External Device Setup Manual 71
Chapter 2 2.3.2 Connection Diagram 2: Computer Link Unit (RS485) to MICRO/I Screw down terminal block D-sub, 9P connector plug type When using the QJ71C24 Serial Communication Unit, connect a terminator resistor in accordance with the instruction manual. Screw down terminal block Terminal - When using the QJ71C24 Serial Communication Unit, connect a terminator resistor in accordance with the instruction manual. - There is no pin number corresponding to TERM on the HG2G-S/-5S/-5F, HG3G/4G.
2 Mitsubishi 2 2 2 2 Connection to a PLC 2 Screw down terminal block D-sub, 9P connector socket type 2 2 2 2 2 Screw down terminal block Terminal - When using the QJ71C24 Serial Communication Unit, connect a terminator resistor in accordance with the instruction manual. - There is no pin number corresponding to TERM on the HG1F. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
Chapter 2 Screw down terminal block D-sub, 25P connector socket type When using the QJ71C24 Serial Communication Unit, connect a terminator resistor in accordance with the instruction manual. Screw down terminal block D-sub, 37P connector plug type - When using the QJ71C24 Serial Communication Unit, connect a terminator resistor in accordance with the instruction manual. - There is no pin number corresponding to TERM on the HG2S. When inserting a termination resistor, use a communication switch.
2 Mitsubishi 2.3.
Chapter 2 D-sub, 9P connector socket type D-sub, 9P connector socket type - In case of HG1F a connection cable is available. (part number: HG9Z-XC203). - The connection diagram 3 is not same as HG9Z-XC203. But both diagrams are available. Refer to Chapter 7 "1.14 PLC connection cable: HG9Z-XC203" on page 652 about the connection diagram of HG9Z-XC203. D-sub, 9P connector socket type D-sub, 25P connector socket type - In case of HG2F/3F/4F a connection cable is available. (part number: HG9Z-3C145).
2 Mitsubishi 2 2 2 2 D-sub, 37P connector plug type Connection to a PLC D-sub, 9P connector socket type 2 2 2 2 2 2 2 2 2 2 2 External Device Setup Manual 77
Chapter 2 2.3.4 Connection Diagram 4: PLC, 2-port Adapter to MICRO/I D-sub, 25P connector socket type (unit side) D-sub, 9P connector plug type D-sub, 25P connector socket type (unit side) Terminal There is no pin number corresponding to TERM on the HG2G-S/-5S/-5F, HG3G/4G. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Appendix "3 Important Points Regarding Wiring" on page 19.
2 Mitsubishi 2 2 2 2 Connection to a PLC 2 D-sub, 25P connector socket type (unit side) D-sub, 9P connector socket type 2 2 2 2 2 2 2 D-sub, 25P connector socket type (unit side) Terminal 2 - In case of HG1F a connection cable is available. (part number: HG9Z-XC255). - In case of HG1F there is no pin number corresponding to TERM on the HG1F. When inserting a termination resistor, use a communication switch.
Chapter 2 D-sub, 25P connector socket type (unit side) D-sub, 25P connector socket type In case of HG2F/3F/4F a connection cable is available. (part number: HG9Z-3C165). D-sub, 25P connector socket type (unit side) D-sub, 37P connector plug type There is no pin number corresponding to TERM on the HG2S. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Appendix "3 Important Points Regarding Wiring" on page 19.
2 Mitsubishi 2.3.
Chapter 2 82 D-sub, 9P connector plug type D-sub, 9P connector socket type D-sub, 9P connector plug type D-sub, 25P connector socket type D-sub, 9P connector plug type D-sub, 37P connector plug type External Device Setup Manual
2 Mitsubishi 2.3.
Chapter 2 84 D-sub, 9P connector socket type (cable side) D-sub, 25P connector socket type D-sub, 9P connector socket type (cable side) D-sub, 37P connector plug type External Device Setup Manual
2 Mitsubishi 2.3.7 Connection Diagram 7: MELSEC-Q (CPU unit programming port) to MICRO/I 2 2 2 2 D-sub, 9P connector plug type Connection to a PLC Mini Din 6P socket connector (unit side) 2 In case of HG2G-5F, HG3G/4G a connection cable is available. (part number: HG9Z-XC315). 2 2 2 2 2 Mini Din 6P socket connector (unit side) Terminal 2 2 2 2 2 Mini Din 6P socket connector (unit side) D-sub, 9P connector socket type In case of HG1F a connection cable is available. (part number: HG9Z-XC265).
Chapter 2 Mini Din 6P socket connector (unit side) D-sub, 25P connector socket type Mini Din 6P socket connector (unit side) D-sub, 37P connector plug type Mini-Din 6 Pin plug pin assignment by the side of the Mitsubishi Q series 86 External Device Setup Manual
2 Mitsubishi 2.3.
Chapter 2 88 D-sub, 9P connector plug type D-sub, 9P connector socket type D-sub, 9P connector plug type D-sub, 25P connector socket type D-sub, 9P connector plug type D-sub, 37P connector plug type External Device Setup Manual
2 Mitsubishi 2.3.9 Connection Diagram 9: Computer Link Unit (RS485) to MICRO/I 2 2 2 2 Connection to a PLC 2 D-sub, 25P connector socket type D-sub, 9P connector plug type 2 2 2 2 2 2 2 D-sub, 25P connector socket type Terminal There is no pin number corresponding to TERM on the HG2G-S/-5S/-5F, HG3G/4G. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Appendix "3 Important Points Regarding Wiring" on page 19.
Chapter 2 D-sub, 25P connector socket type D-sub, 9P connector socket type D-sub, 25P connector socket type Terminal There is no pin number corresponding to TERM on the HG1F. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19. When you use the Terminal Block type of HG1F, make sure to configure the Hardware Flow control to NONE.
2 Mitsubishi 2 2 2 2 Connection to a PLC 2 D-sub, 25P connector socket type D-sub, 25P connector socket type 2 2 2 2 2 2 D-sub, 25P connector socket type D-sub, 37P connector plug type There is no pin number corresponding to TERM on the HG2S. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
Chapter 2 2.3.10 Connection Diagram 10: MELSEC-FX Series CPU (RS485) to MICRO/I Mini Din 8P Connector D-sub, 9P connector plug type In case of HG2G-5F, HG3G/4G a connection cable is available. (part number: HG9Z-XC305). Mini Din 8P Connector Terminal - In case of HG2G-S/-5S/-5F, HG3G/4G a connection cable is available. (part number: HG9Z-XC275). Please do not use HG9Z-XC275 because there is the case that the housing of FX3U/FX3UC-32MT-LT and a part of it interfere.
2 Mitsubishi 2 2 2 2 Connection to a PLC 2 Mini Din 8P Connector D-sub, 9P connector socket type 2 2 2 2 2 Mini Din 8P Connector Terminal 2 - In case of HG1F a connection cable is available. (part number: HG9Z-XC245). - There is no pin number corresponding to TERM on the HG1F. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
Chapter 2 Mini Din 8P Connector D-sub, 25P connector socket type Mini Din 8P Connector D-sub, 37P connector plug type There is no pin number corresponding to TERM on the HG2S. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
2 Mitsubishi 2.4 Environment Settings 2.4.1 MELSEC-A Series: Settings for the Computer Link Unit and CPU Unit Link I/F Item Setting Interface RS232C Transmission Control Protocol 2 RS485 Station Number*1 Data Bits 2 Format 4 protocol mode Set the mode setting switch to 4. Use the same settings as for the MICRO/I. Baud Rate Set the mode setting switch to 8. Set using the Station Number setting switch.
Chapter 2 2.4.3 MELSEC-Q/QnA Series: Settings for the Computer Link Unit Item Setting Interface RS232C, RS422 Communication protocol MC Protocol (Format 4) Station Number*1 Data Bits Use the same settings as for the MICRO/I. 0(DEC) 7 or 8 Baud Rate 1200, 2400, 4800, 9600, 19200, 38400, 57600 or 115200 bps Parity None, Even or Odd Stop Bits 1 or 2 Checksum Code Yes Write During RUN Possible *1. Set a decimal number for the Station Number.
2 Mitsubishi 2.4.6 MELSEC-FX Series Item Setting Interface RS232C, RS422 Data Bits Baud Rate Use the same settings as for the MICRO/I. 7 (fixed) 2 9600 bps (fixed) Parity Even (fixed) Stop Bits 1 (fixed) 2 2 - When using CPU Direct for the connection, the PLC program scan time will increase when it starts communicating with the MICRO/I. Investigate this under your actual operating conditions. - If the PLC is MELSEC-FX3U or MELSEC-3UC, check the following two thins too.
Chapter 2 2. PLC Settings Item Network parameter Operation Setting setting notes Network type Ethernet *1 Starting I/O No. 0020 *2 Network No. 1 *2 Total stations - - Group No. 0 *2 Station No.
2 Mitsubishi 2.4.8 MELSEC-FX: in case using Ethernet Unit setting 1. MICRO/I settings - Project Settings dialog box Item Communication Interface tab Host I/F Network tab Setting IP Address Set the IP address of MICRO/I. Subnet Mask Set the subnet mask of MICRO/I. Default Gateway Set the default gateway of MICRO/I. IP Address Set the IP address of CPU Unit or Link Unit. Port Number Set the port number of CPU Unit or Link Unit in. 2 2 2 2.
Chapter 2 2.5 2.5.
2 Mitsubishi 2.5.
Chapter 2 2.5.
2 Mitsubishi 2.5.
Chapter 2 2.5.
2 Mitsubishi 2.5.
Chapter 2 Word Device Device Name Device Symbol Address Range Read /Write Address Gradual MICRO/I PLC Input Relay WX X 0 - 1F0 R *1 *2 Output Relay WY Y 0 - 1F0 R/W *1 *2 Internal Relay WM M 0 - 2032 R/W *2 Link Relay WB B 0 - 3F0 R/W *1 *2 Latch Relay WL L 0 - 2032 R/W *2 Timer (current value) TN T 0 - 255 R Counter (current value) CN C 0 - 255 R Data Register D D 0 - 1023 R/W Link Register W W 0 - 3FF R/W *1 Annunciator WF F 0 - 240 R/W *2 S
2 Mitsubishi 2.5.
Chapter 2 Word Device Device Name Device Symbol Address Range Read /Write Address Gradual MICRO/I PLC Input Relay WX X 0 - 1FF0 R *1 *2 Output Relay WY Y 0 - 1FF0 R/W *1 *2 Internal Relay WM M 0 - 32752 R/W *2 Link Special Relay WSB SB 0 - 7F0 R/W *1 *2 Link Relay WB B 0 - 7FF0 R/W *1 *2 Latch Relay WL L 0 - 32752 R/W *2 Timer (current value) TN T 0 - 8191 R Counter (current value) CN C 0 - 8191 R Data Register D D 0 - 25599 R/W Link Register W W
2 Mitsubishi 2.5.
Chapter 2 Word Device Device Name Device Symbol Address Range Read /Write Address Gradual MICRO/I PLC Input Relay WX X 0 - 1FF0 R *1 *2 Output Relay WY Y 0 - 1FF0 R/W *1 *2 Internal Relay WM M 0 - 32752 R/W *2 Link Relay WB B 0 - 7FF0 R/W *1 *2 Latch Relay WL L 0 - 32752 R/W *2 Annunciator WF F 0 - 32752 R/W *2 Edge Relay WV V 0 - 32752 R/W *2 Step Relay WS S 0 - 8176 R/W *2 Timer (current value) TN T 0 - 23087 R Counter (current value) CN C 0
2 Mitsubishi 2.5.9 MELSEC-FX (CPU) Bit Device Device Name Device Symbol Address Range Read /Write Address Gradual MICRO/I PLC Input Relay X X 0 - 337 R *1 Output Relay Y Y 0 - 337 R/W *1 Internal Relay M M 0 - 1535 R/W Timer (contact) TS T 0 - 255 R Counter (contact) CS C 0 - 255 R State S S 0 - 999 R/W 2 2 2 Connection to a PLC *1. Set this device using octal.
Chapter 2 2.5.10 MELSEC-FX2N (CPU) Bit Device Device Name Device Symbol Address Range Read /Write Address Gradual MICRO/I PLC Input Relay X X 0 - 337 R *1 Output Relay Y Y 0 - 337 R/W *1 Internal Relay M M 0 - 3071 R/W Timer (contact) TS T 0 - 255 R Counter (contact) CS C 0 - 255 R Special Int. Relay SM SM 8000 - 8255 R State S S 0 - 999 R/W Address Range Read /Write Address Gradual *1. Set this device using octal.
2 Mitsubishi 2.5.11 MELSEC-FX3UC (CPU) Bit Device Device Name Device Symbol Address Range Read /Write Address Gradual MICRO/I PLC Input Relay X X 0 - 377 R *1 Output Relay Y Y 0 - 377 R/W *1 Internal Relay M M 0 - 7679 R/W Timer (contact) TS T 0 - 511 R CS C 0 - 255 R Special Internal Relay SM SM 8000 - 8511 R State S S 0 - 4095 R/W 2 2 2 *1. Set this device using octal.
Chapter 2 2.5.
2 Mitsubishi Word Device Device Name Device Symbol Address Range Read /Write Address Gradual MICRO/I PLC Special Register SD SD 000000 - 002047 R dec Data Register D D 000000 - 029695 R/W dec Link Register W W 000000 - 0073FF R/W hex Timer (current value) TN TN 000000 - 029695 R dec Retentive Timer (current value) SN SN 000000 - 029695 R/W dec Counter (current value) CN CN 000000 - 029695 R dec Special Link Register SW SW 000000 - 0007FF R/W hex File Registe
Chapter 2 2.5.13 MELSEC-FX (Ethernet) Bit Device Device Name Int.
3 Omron 3 Omron 3.1 Connection Table 2 3.1.
Chapter 2 Series Name SYSMAC-C System (CPU unit) WindO/I-NV2 Settings Interface Flow Control Host I/F Driver C200H-LK201 RS232C Connection Diagram 1 (refer to P127) Hardware SYSMAC-C Series C200H-LK202 RS422/485 4-wire Connection Diagram 2 (refer to P130) C200HWCOM02/COM04/ COM05/COM06 RS232C Connection Diagram 6 (refer to P141) C200HW-COM03 /COM06 RS422/485 4-wire Connection Diagram 7 (refer to P144) C120-LK201-V1 RS232C Connection Diagram 1 (refer to P127) C120-LK202-V1 RS422/485 4-wir
3 Omron Series Name SYSMAC-CS1 CS1G*1, CS1H *1, CJ1M CJ1H, CJ1G Link Unit WindO/I-NV2 Settings Interface Flow Control Host I/F Driver Not required (connects to CPU unit) RS232C Connection Diagram 6 (refer to P141) Hardware SYSMACCS1Series CS1W-SCB41 (port1) RS232C Connection Diagram 6 (refer to P141) 2 CS1W-SCB41 (port2) RS422/485 4-wire Connection Diagram 7 (refer to P144) 2 CS1W-ENT01 CS1W-ENT11 CS1W-ENT21 CJ1W-ENT21 Ethernet - SYSMAC-CS1/ CJ Series (Ethernet) Not required (connec
Chapter 2 3.2 System Configuration This is the system configuration for the connection of Omron PLCs to the MICRO/I 3.2.
3 Omron MICRO/I RS232C Connection Diagram 1 2 2 C200HS C200H-LK201 MICRO/I 2 2 RS422 Connection Diagram 2 Connection to a PLC 2 2 C200H-LK202 - In case of HG2F/3F/4F a connection cable is available for Connection Diagram 1 (part number: HG9Z-3C135).
Chapter 2 C200H MICRO/I RS232C Connection Diagram 1 C200HE, C200HG, C200H-LK201-V1 C200HX MICRO/I RS422 Connection Diagram 2 C200H-LK202-V1 - In case of HG2F/3F/4F a connection cable is available for Connection Diagram 1 (part number: HG9Z-3C135). - In case of HG1F a connection cable is available for Connection Diagram 1 (part number: HG9Z-XC155).
3 Omron SYSMAC-CS1 Communication Board MICRO/I RS232C Connection Diagram 6 2 2 CS1W-SCB41(port1) MICRO/I RS422 Connection Diagram 7 2 2 Connection to a PLC 2 2 CS1W-SCB41(port2) 2 You can use the same cable for Connection Diagram 6 as for Connection Diagram 5.
Chapter 2 3.2.2 SYSMAC-C Series (using the Link I/F on the CPU Unit) MICRO/I RS232C Connection Diagram 4 C20H, C28H, C40H and C60H MICRO/I RS232C Connection Diagram 5 C200HS-CPU21/23/31/33 CQM1H - In case of HG2F/3F/4F a connection cable is available for Connection Diagram 5 (part number: HG9Z-3C155). - In case of HG1F a connection cable is available for Connection Diagram 5 (part number: HG9Z-XC213).
3 Omron SYSMAC-CS1 MICRO/I RS232C Connection Diagram 6 2 2 - In case of HG2F/3F/4F a connection cable is available for Connection Diagram 5 (part number: HG9Z-3C155). - In case of HG1F a connection cable is available for Connection Diagram 5 (part number: HG9Z-XC213).
Chapter 2 3.2.3 SYSMAC-CS1/CJ1 Series (using the Ethernet Communication Unit) SYSMAC-CS1 Ethernet Communication Unit MICRO/I Ethernet CS1G, CJ1M CS1W-ENT01 CS1W-ENT11 CS1W-ENT21 CJ1W-ENT21 CJ1 Series Ethernet Communication Unit MICRO/I Ethernet CJ1H, CJ1G, CJ1M CS1W-ENT01 CS1W-ENT11 CS1W-ENT21 CJ1W-ENT21 CJ2 Series MICRO/I Ethernet CJ2H - Use a crossover cable to connect the MICRO/I and PLC directly. - When using a hub (Ethernet switch), use a cable that can be used with the hub.
3 Omron 3.3 Connection Diagram For details regarding wiring refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19. 3.3.
Chapter 2 D-sub, 25P connector socket type D-sub, 9P connector socket type - In case of HG1F a connection cable is available (part number: HG9Z-XC155). - The connection diagram 1 is not same as HG9Z-XC155. But both diagrams are available. Refer to Chapter 7 "1.12 PLC connection cable: HG9Z-XC155" on page 651 about the connection diagram of HG9Z-XC155. D-sub, 25P connector socket type D-sub, 25P connector socket type - In case of HG2F/3F/4Fa connection cable is available. (part number: HG9Z-3C135).
3 Omron 2 2 2 2 D-sub, 37P connector plug type Connection to a PLC D-sub, 25P connector socket type 2 2 2 2 2 2 2 2 2 2 2 External Device Setup Manual 129
Chapter 2 3.3.2 Connection Diagram 2: RS422 Link unit to MICRO/I D-sub, 9P connector socket type D-sub, 9P connector plug type We recommend that you switch on the termination resistor on the PLC Link Unit side for long-distance transmission. D-sub, 9P connector socket type Terminal - We recommend that you switch on the termination resistor on the PLC Link Unit side for long-distance transmission. - There is no pin number corresponding to TERM on the HG2G-S/-5S/-5F, HG3G/4G.
3 Omron 2 2 2 2 Connection to a PLC 2 D-sub, 9P connector socket type D-sub, 9P connector socket type 2 2 2 2 2 Terminal 2 - We recommend that you switch on the termination resistor on the PLC Link Unit side for long-distance transmission. 2 - There is no pin number corresponding to TERM on the HG1F. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
Chapter 2 D-sub, 9P connector socket type D-sub, 25P connector socket type We recommend that you switch on the termination resistor on the PLC Link Unit side for long-distance transmission. D-sub, 9P connector socket type D-sub, 37P connector plug type - We recommend that you switch on the termination resistor on the PLC Link Unit side for long-distance transmission. - There is no pin number corresponding to TERM on the HG2S. When inserting a termination resistor, use a communication switch.
3 Omron 3.3.3 Connection Diagram 3: RS422 Link unit to MICRO/I 2 2 2 2 Connection to a PLC 2 D-sub, 9P connector socket type D-sub, 9P connector plug type 2 We recommend that you switch on the termination resistor on the PLC Link Unit side for long-distance transmission. 2 2 2 2 2 2 D-sub, 9P connector socket type Terminal 2 - We recommend that you switch on the termination resistor on the PLC Link Unit side for long-distance transmission.
Chapter 2 D-sub, 9P connector socket type D-sub, 9P connector socket type D-sub, 9P connector socket type Terminal - We recommend that you switch on the termination resistor on the PLC Link Unit side for long-distance transmission. - There is no pin number corresponding to TERM on the HG1F. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
3 Omron 2 2 2 2 Connection to a PLC 2 D-sub, 9P connector socket type D-sub, 25P connector socket type 2 We recommend that you switch on the termination resistor on the PLC Link Unit side for long-distance transmission. 2 2 2 2 2 2 D-sub, 9P connector socket type D-sub, 37P connector plug type - We recommend that you switch on the termination resistor on the PLC Link Unit side for long-distance transmission. - There is no pin number corresponding to TERM on the HG2S.
Chapter 2 3.3.
3 Omron 2 2 2 2 D-sub, 9P connector socket type Connection to a PLC D-sub, 9P connector socket type (unit side) 2 2 2 2 2 2 D-sub, 9P connector socket type (unit side) D-sub, 25P connector socket type 2 2 2 2 2 D-sub, 9P connector socket type (unit side) D-sub, 37P connector plug type External Device Setup Manual 137
Chapter 2 3.3.
3 Omron 2 2 2 2 D-sub, 9P connector socket type - In case of HG1F a connection cable is available. (part number: HG9Z-XC213). - The connection diagram 5 is not same as HG9Z-XC213. But both diagrams are available. Refer to Chapter 7 "1.15 PLC connection cable: HG9Z-XC213" on page 652 about the connection diagram of HG9Z-XC213.
Chapter 2 D-sub, 9P connector socket type 140 D-sub, 37P connector plug type External Device Setup Manual
3 Omron 3.3.
Chapter 2 D-sub, 9P connector socket type D-sub, 9P connector socket type - In case of HG1F a connection cable is available. (part number: HG9Z-XC213). - The connection diagram 6 is not same as HG9Z-XC213. But both diagrams are available. Refer to Chapter 7 "1.15 PLC connection cable: HG9Z-XC213" on page 652 about the connection diagram of HG9Z-XC213. D-sub, 9P connector socket type D-sub, 25P connector socket type - In case of HG2F/3F/4Fa connection cable is available. (part number: HG9Z-3C155).
3 Omron 2 2 2 2 D-sub, 37P connector plug type Connection to a PLC D-sub, 9P connector socket type 2 2 2 2 2 2 2 2 2 2 2 External Device Setup Manual 143
Chapter 2 3.3.7 Connection Diagram 7: RS422 Communication Board to MICRO/I D-sub, 9P connector socket type D-sub, 9P connector plug type We recommend that you switch on the termination resistor on the PLC Link Unit side for long-distance transmission. D-sub, 9P connector socket type Terminal - We recommend that you switch on the termination resistor on the PLC Link Unit side for long-distance transmission. - There is no pin number corresponding to TERM on the HG2G-S/-5S/-5F, HG3G/4G.
3 Omron 2 2 2 2 Connection to a PLC 2 D-sub, 9P connector socket type D-sub, 9P connector socket type 2 2 2 2 2 2 D-sub, 9P connector socket type Terminal 2 - We recommend that you switch on the termination resistor on the PLC Link Unit side for long-distance transmission. - There is no pin number corresponding to TERM on the HG1F. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
Chapter 2 D-sub, 9P connector socket type D-sub, 25P connector socket type We recommend that you switch on the termination resistor on the PLC Link Unit side for long-distance transmission. D-sub, 9P connector socket type D-sub, 37P connector plug type - We recommend that you switch on the termination resistor on the PLC Link Unit side for long-distance transmission. - There is no pin number corresponding to TERM on the HG2S. When inserting a termination resistor, use a communication switch.
3 Omron 3.3.8 Connection Diagram 8: RS422 Adaptor to MICRO/I 2 2 2 2 D-sub, 9P connector plug type Connection to a PLC Screw terminal block 2 We recommend that you switch on the termination resistor on the PLC Link Unit side for long-distance transmission. 2 2 2 2 2 Screw terminal block Terminal - We recommend that you switch on the termination resistor on the PLC Link Unit side for long-distance transmission. - There is no pin number corresponding to TERM on the HG2G-S/-5S/-5F, HG3G/4G.
Chapter 2 Screw terminal block D-sub, 9P connector socket type Screw terminal block Terminal - We recommend that you switch on the termination resistor on the PLC Link Unit side for long-distance transmission. - There is no pin number corresponding to TERM on the HG1F. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
3 Omron 2 2 2 2 Connection to a PLC 2 Screw terminal block D-sub, 25P connector socket type 2 We recommend that you switch on the termination resistor on the PLC Link Unit side for long-distance transmission. 2 2 2 2 2 2 Screw terminal block D-sub, 37P connector plug type 2 - We recommend that you switch on the termination resistor on the PLC Link Unit side for long-distance transmission. 2 - There is no pin number corresponding to TERM on the HG2S.
Chapter 2 3.4 Environment Settings 3.4.1 PLC Link Unit Settings Perform the settings using the rotary switches and DIP switches on the Link Unit. Item Setting Interface RS232C Transmission Control Protocol 1:N Command Level Levels 1, 2 and 3 are valid Baud Rate Use the same 1200, 2400, 4800, 9600 or 19200 Transmission Code settings as for the 7 or 8 bit ASCII Stop Bits MICRO/I. 1 or 2 Unit No.
3 Omron 3.4.2 CPU Unit RS232C Link I/F Settings Write the RS232C I/F setting item for the System Settings Area using a peripheral tool (such as Proconn). System Settings Area C20H/ 28H/40H/60H DM0920 Setting CQM1H C200HS/ C200HE/ C200HG/ C200HX DM6645 DM6646 DM0922 DM6647 DM6648 2 2 Standard/Individual Setting *1 Same setting as the MICRO/I Mode PLC Link Mode Communication parameters for when the previous item is set to Individual. Use the same settings as for the MICRO/I.
Chapter 2 3.4.3 CPU Unit RS232C Link I/F Settings (SYSMAC-CS1 Series) Write the RS232C I/F setting items for the System Settings Area using a peripheral tool (such as Proconn). Channel Item Setting 160 Optional/Initial Setting *1 Set to 1 for Optional Setting. Serial Communication mode Set to PLC Link. Data Bits Use the same settings as for the MICRO/I. Stop Bits Parity 161 Port Communication Speed Use the same settings as for the MICRO/I. 162 In the case of No Protocol Mode Do not set.
3 Omron 3.4.4 C200H(Communication Board) Settings Write the Communication Board setting items for the System Settings Area using a peripheral tool (such as Proconn). System Settings Area Port A Port B DM6555 DM6550 Item Setting Standard Setting/Individual Setting *1 Same setting as the MICRO/I. Mode PLC Link Mode Same setting as the MICRO/I. DM6556 DM6551 Communication parameters for when the previous item is set to Individual.
Chapter 2 3.4.5 SYSMAC-CS1 Series (Communication Board) Settings Write the Communication Board setting items for the System Settings Area using a peripheral tool (such as Proconn). System Settings Area Port 1 Port 2 DM32000 DM32010 Item Setting Optional/Initial Setting *1(*1) Set to 1 for Optional Setting. Serial Communication mode Set to PLC Link. Data Bits Use the same settings as for the MICRO/I.
3 Omron 3.4.7 SYSMAC-CS1/CJ Series (Ethernet Communication Unit) Settings Write the Communication Board setting items for the System Settings Area using a peripheral tool (such as Proconn). IP Address (MICRO/I) Set the IP address of MICRO/I. (Set this item in Communication Interface tab.) Subnet Mask Set the subnet mask of MICRO/I. (Set this item in Communication Interface tab.) Default Gateway 2 2 Set the default gateway of MICRO/I. (Set this item in Communication Interface tab.
Chapter 2 3.5 3.5.
3 Omron 3.5.
Chapter 2 Word Device Device Name Device Symbol Address Range Read /Write MICRO/I PLC Core I/O WCIO CIO 0 - 6143 R/W Work Area WWR WR 0 - 511 R/W Holding Bit WHR HR 0 - 511 R/W Auxiliary Bit WAR AR 0 - 959 R Timer (Present value) TIMN TIM 0 - 4095 R Counter (Present value) CNTN CNT 0 - 4095 R Data Memory DM DM 0 - 32767 R/W Expansion Data Memory (Bank 0) EM0 EM0 0 - 32767 R/W Expansion Data Memory (Bank 1) EM1 EM1 0 - 32767 R/W Expansion Data Memory (Bank
3 Omron 3.5.
Chapter 2 Word Device Device Name 160 Device Symbol Address Range Read /Write MICRO/I PLC Core I/O WCIO CIO 0 - 6143 R/W Work Area WWR WR 0 - 511 R/W Holding Bit WHR HR 0 - 511 R/W Auxiliary Bit WAR AR 0 - 959 R Timer (Present value) TIMN TIM 0 - 4095 R/W Counter (Present value) CNTN CNT 0 - 4095 R/W Data Memory DM DM 0 - 32767 R/W Expansion Data Memory (Bank 0) EM0 EM0 0 - 32767 R/W Expansion Data Memory (Bank 1) EM1 EM1 0 - 32767 R/W Expansion Data Memo
3 Omron - The Task Flag (bit) is 1 (ON) when the cycle execution task is in the executable state, and 0 (OFF when it is in the unexcited or standby states. - The Task Flag (Status) indicates the following states. 0: Never started 1: In the stopped state after starting once 2: Starting - In SYSMAC-CS1/CJ Ethernet Host I/F driver, Index Register is defined as a 32bit device and all 32bits are available.
Chapter 2 4 Allen-Bradley 4.1 Connection Table 4.1.
4 Allen-Bradley Selecting DirectLogic Logix DF1 (Full Duplex) or DirectLogic (Ethernet) for the Host I/F Driver allows the user to use the 1: N Communication function.
Chapter 2 Series Name ControlLogix System (CPU unit) Link unit 1756-ENBT ControlLogix5550, WindO/I-NV2 Settings MICRO/I Type Interface Host I/F Driver HG2G-S/5S/-5F, HG3G/4G HG1F/ 2F/ 2S/ 3F/ 4F Ethernet Ethernet/IP X X Ethernet Ethernet/IP (Native Tag) X*3 --- ControlLogix5555*1 CompactLogix 1769 CompactLogix*1 Not required (connects to CPU unit) PLC-5 PLC-5*1 1785-ENET*1 PLC-5E Not required (connects to CPU unit) SLC5/05*1 Not required*1 (connects to CPU unit) SLC5/03, SLC5/
4 Allen-Bradley 4.2 System Configuration This is the system configuration for the connection of Allen-Bradley PLCs to MICRO/I. 4.2.1 SLC 500 (connected to the CPU Channel 0 serial port) SLC 500 2 MICRO/I 2 RS232C Connection Diagram 1 2 SLC 5/03, SLC 5/04 PLC-5 (Interface Module) PLC-5 MICRO/I 1770-KF2 RS232C Connection Diagram 2 Connection to a PLC 4.2.
Chapter 2 4.2.3 PLC-5 (CPU Direct) PLC-5 MICRO/I RS232C Connection Diagram 2 RS485 Connection Diagram 3 All PLC-5 models MICRO/I Connect to the CPU Channel 0 serial port. 4.2.
4 Allen-Bradley 4.2.5 MicroLogix 1500 (D-sub 9 Pin connector on CPU Unit) MICRO/I RS232C Connection Diagram 6 2 2 MicroLogix1500 2 4.2.6 Ethernet/IP (MicroLogix, PLC-5, SLC 500, ControlLogix, CompactLogix) MICRO/I 2 Connection to a PLC 2 2 2 2 ControlLogix + 1756ENBT CompactLogix 1769 PLC-5E PLC-5 + 1785-ENET SLC5/03 + 1761-NETENI SLC5/04 + 1761-NETENI SLC5/05 + 1761-NETENI SLC5/05 Connect to maximum of 16 different PLCs - Use a crossover cable to connect the MICRO/I and PLC directly.
Chapter 2 4.2.7 Control Logix/CompactLogix/FlexLogix (CPU Unit) MICRO/I RS232C Connection Diagram 7 ControlLogix CompactLogix FlexLogix 4.2.8 Ethernet/IP (Native Tag) ControlLogix/CompactLogix/ (CPU Unit) MICRO/I Ethernet ControlLogix CompactLogix - Use a crossover cable to connect the MICRO/I and PLC directly. - When using a hub (Ethernet switch), use a cable that can be used with the hub.
4 Allen-Bradley 4.3 Connection Diagram The connector types given in the Connection Diagrams are for the unit and not the cable. For details regarding wiring and termination resistors, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19. 4.3.
Chapter 2 170 D-sub, 9P connector plug type (unit side) D-sub, 9P connector socket type D-sub, 9P connector plug type (unit side) D-sub, 25P connector socket type D-sub, 9P connector plug type (unit side) D-sub, 37P connector plug type External Device Setup Manual
4 Allen-Bradley 4.3.
Chapter 2 172 D-sub, 25P connector socket type (unit side) D-sub, 9P connector socket type D-sub, 25P connector socket type (unit side) D-sub, 25P connector socket type D-sub, 25P connector socket type (unit side) D-sub, 37P connector plug type External Device Setup Manual
4 Allen-Bradley 4.3.3 Connection Diagram 3: Interface Module (RS422) to MICRO/I 2 2 2 2 Connection to a PLC 2 D-sub, 25P connector socket type (unit side) D-sub, 9P connector plug type 2 2 2 2 2 2 2 D-sub, 25P connector socket type (unit side) Terminal There is no pin number corresponding to TERM on the HG2G-S/-5S/-5F, HG3G/4G. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
Chapter 2 D-sub, 25P connector socket type (unit side) D-sub, 9P connector socket type D-sub, 25P connector socket type (unit side) Terminal There is no pin number corresponding to TERM on the HG1F. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
4 Allen-Bradley 2 2 2 2 Connection to a PLC 2 D-sub, 25P connector socket type (unit side) D-sub, 25P connector socket type 2 2 2 2 2 2 D-sub, 25P connector socket type (unit side) D-sub, 37P connector plug type There is no pin number corresponding to TERM on the HG2S. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
Chapter 2 4.3.4 Connection Diagram 4: PLC-5 (RS422) to MICRO/I D-sub, 25P connector socket type (unit side) D-sub, 9P connector plug type D-sub, 25P connector socket type (unit side) Terminal There is no pin number corresponding to TERM on the HG2G-S/-5S/-5F, HG3G/4G. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
4 Allen-Bradley 2 2 2 2 Connection to a PLC 2 D-sub, 25P connector socket type (unit side) D-sub, 9P connector socket type 2 2 2 2 D-sub, 25P connector socket type (unit side) Terminal There is no pin number corresponding to TERM on the HG1F. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
Chapter 2 D-sub, 25P connector socket type (unit side) D-sub, 25P connector socket type D-sub, 25P connector socket type (unit side) D-sub, 37P connector plug type There is no pin number corresponding to TERM on the HG2S. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
4 Allen-Bradley 4.3.
Chapter 2 180 Mini Din 8P socket type D-sub, 25P connector socket type Mini Din 8P socket type D-sub, 37P connector plug type External Device Setup Manual
4 Allen-Bradley 4.3.
Chapter 2 182 D-sub 9 Pin connector plug type D-sub, 25P connector socket type D-sub 9 Pin connector plug type D-sub, 37P connector plug type External Device Setup Manual
4 Allen-Bradley 4.3.
Chapter 2 184 D-sub 9 Pin connector plug type D-sub, 25P connector socket type D-sub 9 Pin connector plug type D-sub, 37P connector plug type External Device Setup Manual
4 Allen-Bradley 4.3.
Chapter 2 186 Mini Din 8P socket type D-sub, 25P connector socket type Mini Din 8P socket type D-sub, 37P connector plug type External Device Setup Manual
4 Allen-Bradley 4.4 Environment Settings Allowed communication settings for MicroLogix, SLC 500, PLC-5, ControlLogix and CompactLogix are as follows. 4.4.
Chapter 2 4.4.2 SLC 500 (Half Duplex) Item Setting Interface RS232C Baud Rate (bps) 1200, 2400, 4800, 9600 or 19200 Data Bits *2 8 (fixed) Parity *1 *2 None or Even Stop Bits*1 *2 1 Driver *1 DF1 Half-Duplex Slave *3 Duplicate Detect *1 Disabled*3 Error Detect *1 BCC *3 Control Line *1 No handshaking*3 Node Address *1 *2*4 0 to 254 (decimal) *1*2 *1. Set using RSLogix500 (set Chan0 to System of Controller-Channel Configuration). *2.
4 Allen-Bradley 4.4.
Chapter 2 4.4.4 Ethernet/IP (ControlLogix, CompactLogix, PLC-5, SLC 500, MicroLogix) Communication Interface Setting (Ethernet) Item Setting Interface Ethernet IP Address Set the IP address of MICRO/I. Subnet Mask Set the subnet mask of MICRO/I. Default Gateway Set the default gateway of MICRO/I. Host I/F Network Setting Set some network information of PLCs. It can be set to maximum of 16. Item Setting Station No. The number to select PLC when set device address.
4 Allen-Bradley 4.4.6 Ethernet/IP (Logix Native Tag) (ControlLogix, CompactLogix) Communication Interface Setting Item Setting Interface Ethernet IP Address Set the IP address of MICRO/I. Subnet Mask Set the subnet mask of MICRO/I. Default Gateway Set the default gateway of MICRO/I. HostI/F Network Setting Set some network information of PLCs. It can be set to maximum of 16. Setting Station No. The number to select PLC when set device address.
Chapter 2 4.5 Usable Devices The types of compatible devices and their ranges are shown below. Device address selection for the MicroLogix1200, SLC 500 and PLC-5 CPU’s are is done using File No., Element No., Bit No. etc., with an appropriate delimiter. But the WindO/I-NV2 address selection is done without the delimiter. The MICRO/I address specification syntax (address specification rules) is explained below. Follow the syntax below when performing address selections using WindO/I-NV2 software.
4 Allen-Bradley Bit Device Device Name Device Symbol Address Range Read /Write Address Gradual MICRO/I PLC Control Unload Bit RUL R(UL) 6000 - 6255, 9000 - 255255 R 10*3 Control Running Bit RIN R(IN) 6000 - 6255, 9000 - 255255 R 10*3 Control Found Bit RFD R(FD) 6000 - 6255, 9000 - 255255 R 10*3 *1. Address selection rule is as follows. 2 2 2 2 Connection to a PLC 2 2 2 2 2 *2. Address selection rule is as follows.
Chapter 2 *3. Address selection rule is as follows. A communication error will occur if you specify a file or element that is not allocated to the MicroLogix1200, SLC 500 data table map.
4 Allen-Bradley Word Device Device Name Device Symbol Address Range Read /Write Address Gradual MICRO/I PLC Output WO O 0 - 16255 R 10*1 Input WI I 0 - 16255 R 10*1 Status S S 2000 - 2065 R 10*2 Bit WB B 3000 - 3255, R/W 10*2 R/W 10*2 R/W *2 10 R/W 10*2 R/W 10*2 R/W 10*2 R/W 10*2 R/W 10*2 R/W 10*3 9000 - 255255 Timer (Preset Value) TP T(P) 4000 - 4255, T(A) 4000 - 4255, 9000 - 255255 Counter (Preset Value) CP C(P) 5000 - 5255, Counter (Accumulated V
Chapter 2 *2. Address selection rule is as follows. *3. Address selection rule is as follows. WindO/I-NV2 uses 32 bit device as the divided 2 word device. Therefore, the last one digit shows that the device is upper word or lower word. - WO, WI, WB is same devices as O, I, B. They are used as word devices. - Floating Point (F) and Long Word (L) are 32-bit devices. When you write to these devices, please be sure to write a high word and low word simultaneously.
4 Allen-Bradley 4.5.
Chapter 2 Word Device Device Name Device Symbol Address Range Read /Write Addres s Gradual MICRO/I PLC Input WI I 0 - 301 R 10 *1 Output WO O 0 - 301 R 10 *1 Bit WB B 3000 - 3255, R/W 10 *2 R 10 *2 R 10 *2 R/W 10 *2 R/W 10*2 R/W 10 *2 R/W 10 *2 10000 - 255255 Timer TA T CA C TP T (accumulated value) Counter 10000 - 255255 (accumulated value) Timer (preset value) 4000 - 4255, 5000 - 5255, 10000 - 255255 4000 - 4255, 10000 - 255255 Counter CP C (preset value
4 Allen-Bradley *2. Address selection rule is as follows. 2 2 2 2 The input and output addresses are made up of the slot number and the word number. - The address makeup is as follows: Bottom digit: Word number 2nd and 3rd digits from the bottom: Slot number - If the module in the slot has 16 or fewer points, the word number is 0, and if it is a 32-point module, the word number is 0 for the lower word (bit 0 to bit 15) and 1 for the upper word (bit 16 to bit 31).
Chapter 2 4.5.
4 Allen-Bradley *2. Address selection rule is as follows. 2 2 2 2 Connection to a PLC With the PLC-5, addresses can be specified with word and bit units, or with bit units only (i.e. there are two ways), while with WindO/I-NV2 you must specify addresses using word and bit units. *3. Address selection rule is as follows.
Chapter 2 Word Device Device Name Device Symbol Address Range Read /Write Addres s Gradual MICRO/I PLC Input WI I 0 - 277*1 R 8 Output WO O 0 - 277*1 R/W 8 Bit WB B 3000 - 99999 *2 R/W 10 Timer (current value) TA T 3000 - 99999 *2 R 10 Counter (current value) CA C 3000 - 99999 *2 R 10 Timer (preset value) TP T 3000 - 99999 *2 R/W 10 Counter (preset value) CP C 3000 - 99999 *2 R/W 10 Integer N N 3000 - 99999*2 *3 R/W 10 BCD D D 3000 - 99999 *2 R/W
4 Allen-Bradley 4.5.4 Ethernet/IP If you select Ethernet/IP as Host I/F driver, the driver contains some PLCs devices. Therefore, the following devices name may be not same as devices name for each PLC. Refer to the following cross reference table about detail.
Chapter 2 *1. Address selection rule is as follows. *2. Address selection rule is as follows.
4 Allen-Bradley *3. Address selection rule is as follows. 2 2 2 2 Connection to a PLC 2 2 *4. Address selection rule is as follows.
Chapter 2 Word Device Device Name Device Symbol Address Range Read /Write Addres s Gradual MICRO/I PLC SLC/MicroLogix Input (Word) SWI I 0 - 16255 R 10*1 SLC/MicroLogix Output (Word) SWO O 0 - 16255 R 10 *1 PLC-5 Input (Word) PWI I 0 - 277 R 10 *2 PLC-5 Output (Word) PWO O 0 - 277 R/W 10 *2 Status S S 2000 - 2026 R 10*3 Timer (Preset Value) TP TP 0 - 999999 R/W 10 *3 Timer (Accumulated Value) TA TA 0 - 999999 R/W 10 *3 Counter (Preset Value) CP CP 0 - 999
4 Allen-Bradley *2. Address selection rule is as follows. 2 2 2 2 Connection to a PLC *3. Address selection rule is as follows. 2 2 2 2 2 2 *4. Address selection rule is as follows. WindO/I-NV2 uses 32 bit device as the divided 2 word device.
Chapter 2 WO, WI, WB is same devices as O, I, B. They are used as word devices. - Floating Point (F) and Long Word (L) are 32-bit devices. When you write to these devices, please be sure to write a high word and low word simultaneously. If you write only high word or only low word, 0 will be written into the other word. - A communication error will occur if you specify a file or element that is not allocated to the MicroLogis1200, SLC 500 data table map.
4 Allen-Bradley Word Device Device Name Device Symbol MicroLogix/SLC500 PLC-5 ControlLogix CompactLog ix SLC/MicroLogix Input (Word) SWI Input (Word) - - SLC/MicroLogix Output (Word) SWO Output (Word) - - PLC-5 Input (Word) PWI - Input (Word) - PLC-5 Output (Word) PWO - Output (Word) - Status S Status Status - Timer (Preset Value) TP Timer (Preset Value) Timer (Preset Value) - Timer (Accumulated Value) TA Timer (Accumulated Value) Timer (Accumulated Value) - Counter
Chapter 2 4.5.5 Logix DF1 (Full Duplex) Word Device Device Name Device Symbol Address Range Read /Write Address Gradual MICRO/I PLC INT INT INT 0 - 999999 R/W 10 *1 REAL REAL REAL 0 - 9999991 R/W 10*2 DINT DINT DINT 0 - 9999991 R/W 10*2 SINT SINT SINT 0 - 999999 R/W 10 *1 *1. Address selection rule is as follows. *2. Address selection rule is as follows. WindO/I-NV2 uses 32 bit device as the divided 2 word device.
4 Allen-Bradley - Floating Point (F) and Long Word (L) are 32-bit devices. When you write to these devices, please be sure to write a high word and low word simultaneously. If you write only high word or only low word, 0 will be written into the other word. - A communication error will occur if you specify a file or element that is not allocated to the MicroLogis1200, SLC 500 data table map.
Chapter 2 4.6 The way to set device address when use ControlLogix, CompactLogix series In ControlLogix and CompactLogix series, device is set with tag name. However, you have to set with a Symbol and Address format that is the same as MicroLogix, SLC 500 and PLC-5 because WindO/I-NV2 can not operate a tag name directly. You have to attach each tag name to a device symbol and device address at that time. This is called mapping. 4.6.
4 Allen-Bradley 4.6.4 Setting Example for WindO/I-NV2 Refer to the following about setting an example for WindO/I-NV2 software. (PLC station number is 0 in the example.) 2 *The setting example uses Allen-Bradley device address format. Tag name Data Tyde Array File Number Tag_A INT - 1 Tag_B SINT [10] - 2 Tag_C DINT [10] - 3 Tag_D REAL [10] - 4 Example2: Set an array number 5 in Tag_B. 0: SINT 2:5 Example3: Set a lower word on array number 3 in Tag_C.
Chapter 2 4.7 The way to set device address when use Ethernet/IP (Logix Native Tag) When using Ethernet/IP (Logix Native Tag) as a communication driver, the device address is set using tags. In the case of WindO/I-NV2, you can set tag names by importing a tag database file (L5K file and CSV file) created using an Allen Bradley RSLogix 5000. 4.7.
4 Allen-Bradley 4.7.2 Setting prosess Adjust the settings below in WindO/I-NV2. 1. Select “Ethernet/IP(Logix Native Tag)” under the Protocol setting in the Select Host I/F Driver dialog box. 2 2 2 2 Connection to a PLC 2. In the Host I/F Network tab in the Project Settings dialog box, set the IP address, port number, slot number, and tag file to match the communicated PLC. Use an L5K file or CSV file exported from RSLogix 5000. 2 2 2 2 2 2 2 2 2 - Change the port number as necessary.
Chapter 2 4.7.3 Setting Tags Tags can be set in the following ways. • • Using the keyboard, type the tag name directly into the text box where the device address is set. Click the […] button on the right of the text box where the device address is set, and then select a tag from the tag list in the Device Address Settings dialog box. Refer to online help for more details about the Device Address Settings dialog box. 4.7.
4 Allen-Bradley 4.7.5 Cautions When Using Indirect Read and Indirect Write MICRO/I is capable of specifying a device address offset for certain parts. When using Logix Native Tag, the offset is specified according to the following rules. • • Offsets cannot be specified for tags with no arrays. 2 The array number for tags with arrays changes according to the offset value.
Chapter 2 • With the MICRO/I, reference device values are specified in units of 16-bit devices. Therefore, to specify a value for DINT, REAL, TIMER (a 32-bit device), or PRE and ACC elements in the CONTROL structure, it is necessary to double the reference device value in the PLC before specifying it. Example 1: If 1 is specified as the reference device value for DINT[0], the upper word for DINT[0] is used. To use DINT[1], specify a reference device value of 2.
4 Allen-Bradley 4.7.6 Restrictions • • • • • Maximum number of characters for a tag name is 256 characters. • • • • The external device cannot be monitored using the MICRO/I device monitor or MICRO/I-NV2. • • Does not support the Strings data type. Array elements can be up to 3 dimensions. The maximum array number is 65535. 2 Up to 65535 tags can be used per Station No. in device settings. When tags that contain 32-bit data are specified in WindO/I-NV2, the lower 16 bits are selected.
Chapter 2 5 SIEMENS 5.1 Connection Table 5.1.
5 SIEMENS 5.2 System Configuration This is the system configuration for the connection of SIEMENS PLCs to MICRO/I screens. 5.2.1 S7-200 2 S7-200 MICRO/I 2 RS422/485 2-wire Connection Diagram 1 2 2 5.2.2 2 S7-300/400(CP-340, CP-341) S7-300/400 Connection to a PLC Connects to Serial port of CPU unit. 2 CP-340/440 CP341/441 MICRO/I 2 RS232C Connection Diagram 2 + 2 2 5.2.
Chapter 2 5.3 Connection Diagram The connector types given in the Connection Diagrams are for the unit and not the cable. For details regarding wiring, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19. 5.3.1 Connection Diagram 1: S7-200 (RS485) to MICRO/I D-sub, 9P socket connector (plug type) D-sub, 9P connector plug type - It is also possible to connect multiple PLCs and multiple MICRO/Is on the same network.
5 SIEMENS 2 2 2 2 Connection to a PLC 2 D-sub, 9P socket connector (plug type) Terminal 2 - It is also possible to connect multiple PLCs and multiple MICRO/Is on the same network. - Please short-circuit the RDA and SDA of MICRO/I and connect to SIG-B of PLC. 2 - Please short-circuit the RDB and SDB of MICRO/I and connect to SIG-A of PLC. - Refer to S7-200 manual for restrictions when using multi-drops.
Chapter 2 D-sub, 9P socket connector (plug type) Terminal - It is also possible to connect multiple PLCs and multiple MICRO/Is on the same network. - Please short-circuit the RDA and SDA of MICRO/I and connect to SIG-B of PLC. - Please short-circuit the RDB and SDB of MICRO/I and connect to SIG-A of PLC. - Refer to S7-200 manual for restrictions when using multi-drops. - When using multiple PLCs to communicate to multiple MICRO/Is, it will take extra time to establish communication between PLCs and OIs.
5 SIEMENS 2 2 2 2 Connection to a PLC 2 D-sub, 9P socket connector (plug type) D-sub, 25P connector socket type 2 - It is also possible to connect multiple PLCs and multiple MICRO/Is on the same network. - Please short-circuit the RDA and SDA of MICRO/I and connect to SIG-B of PLC. - Please short-circuit the RDB and SDB of MICRO/I and connect to SIG-A of PLC. 2 2 - Refer to S7-200 manual for restrictions when using multi-drops.
Chapter 2 D-sub, 9P socket connector (plug type) D-sub, 37P connector plug type - It is also possible to connect multiple PLCs and multiple MICRO/Is on the same network. - Please short-circuit the RDA and SDA of MICRO/I and connect to SIG-B of PLC. - Please short-circuit the RDB and SDB of MICRO/I and connect to SIG-A of PLC. - Refer to S7-200 manual for restrictions when using multi-drops.
5 SIEMENS 5.3.
Chapter 2 228 D-sub, 9P connector socket type D-sub, 9P connector socket type D-sub, 9P connector socket type D-sub, 25P connector socket type D-sub, 9P connector socket type D-sub, 37P connector plug type External Device Setup Manual
5 SIEMENS 5.3.3 Connection Diagram 3: S7-300/S7-400 + Communication Interface (RS422/485) to MICRO/I 2 2 2 2 D-sub, 9P connector plug type Connection to a PLC Mini Din 8P socket type 2 2 2 2 2 Mini Din 8P socket type Terminal 2 There is no pin number corresponding to TERM on the HG2G-S/-5S/-5F, HG3G/4G. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
Chapter 2 Mini Din 8P socket type Terminal There is no pin number corresponding to TERM on the HG1F. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19. Mini Din 8P socket type D-sub, 25P connector socket type Mini Din 8P socket type D-sub, 37P connector plug type There is no pin number corresponding to TERM on the HG2S. When inserting a termination resistor, use a communication switch.
5 SIEMENS 5.3.4 Connection Diagram 4: S7-300 MPI Interface (RS485) to MICRO/I 2 2 2 2 D-sub, 9P connector plug type Connection to a PLC D-sub, 9P connector socket type 2 2 2 2 2 D-sub, 9P connector socket type Terminal 2 There is no pin number corresponding to TERM on the HG2G-S/-5S/-5F, HG3G/4G. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
Chapter 2 D-sub, 9P connector socket type D-sub, 9P connector socket type D-sub, 9P connector socket type Terminal There is no pin number corresponding to TERM on the HG1F. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
5 SIEMENS 2 2 2 2 Connection to a PLC 2 D-sub, 9P connector socket type D-sub, 25P connector socket type 2 2 2 2 2 2 D-sub, 9P connector socket type D-sub, 37P connector plug type There is no pin number corresponding to TERM on the HG2S. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
Chapter 2 5.4 Environment Settings 5.4.1 S7-200 The communication port settings for S7-200 and MICRO/I host port are as follows. Items Details PLC Address 1 to 126(Dec) (0 to 7e (Hex)) Set the value to same value as ADDRESS (PLC) in WindO/I-NV2. Highest Address (Highest Station Address) 1 to 126(Dec) (0 to 7e(Hex)) Set the value to same value as HSA in WindO/I-NV2. Baud Rate (bps) 9600 or 19200 Set the value to same value as Baud Rate in WindO/I-NV2.
5 SIEMENS 5.4.2 S7-300/400 with Communication Module The communication port settings for S7-300 and MICRO/I host port are as follows. Items Details Interface Baud Rate (bps) Use the same settings as for the MICRO/I. Data Bits 2 RS232C 1200, 2400, 4800, 9600, 19200 or 38400 2 8 (Fixed) Parity Even, Odd or None Stop Bits 1 or 2 BCC Enable or Disable Priority Low 2 2 2 - CP340 is supporting only the 3964 and 3964R protocol.
Chapter 2 5.5 5.5.1 Usable Devices S7-200 Bit Device Device Name Device Symbol Address Range Read /Write Address Gradual MICRO/I PLC Variable memory V V 0 - 102397 R/W *1 Process-image-input-register I I 0 - 157 R *1 Process-image-output-register Q Q 0 - 157 R/W *1 Bit memory M M 0 - 317 R/W *1 Special Memory SM SM 0 - 5497 R *1 Timer (Bit) T T 0 - 255 R Dec Counter (Bit) C C 0 - 255 R Dec Sequential control relay S S 0 - 317 R/W *1 *1.
5 SIEMENS Word Device Device Name Device Symbol Address Range Read /Write Address Gradual *1 PLC Variable memory VW VW 0 - 10238 R/W Timer (Current Value) TW T 0 - 255 R/W Dec Counter (Current Value) CW C 0 - 255 R/W Dec Process-image-input-register IW IW 0 - 14 R *1 Process-image-output-register QW QW 0 - 14 R/W *1 Bit memory MW MW 0 - 30 R/W *1 Special Memory SMW SMW 0 - 548 R *1 Analog input AIW AIW 0 - 62 R *1 Analog output AQW AQW 0 - 62 R/W *1
Chapter 2 5.5.2 S7- 300/400 with Communication Module When using CP-341/441, following devices can be read and written. When using CP-340440, only a data block (DB) can be read and written. Bit Device Device Name Device Symbol Address Range Read /Write Address Gradual MICRO/I PLC Input (Bit) I I 0 - 1277 R *1 Output (Bit) Q Q 0 - 1277 R *1 Memory (Bit) M M 0 - 2557 R *1 *1.
5 SIEMENS 5.5.3 S7- 300 with MPI Interface Bit Device Device Name Device Symbol Address Range Read /Write Address Gradual MICRO/I PLC Input (Bit) I I 0 - 10237 R *1 Output (Bit) Q Q 0 - 10237 R/W *1 Memory (Bit) M M 0 - 163837 R/W *1 2 2 *1. The 1st figure is written in octal number format, and the 2nd [or more] figure is written in decimal number format.
Chapter 2 6 Keyence 6.1 Connection Table 6.1.
6 Keyence 6.2 System Configuration This is the system configuration for the connection of Keyence PLCs to the MICRO/I. 6.2.1 Connection to the CPU unit modular connector for KV-700/1000/3000/5000 KV-700/1000/3000/5000 2 MICRO/I 2 RS232C Connection Diagram 1 2 2 Connection to the D-sub, 9P connector plug type for KV-L20R/KV-L20V KV-700/1000/3000/5000 + KV-L20R/KV-L20V MICRO/I (PORT1) Connection to a PLC 6.2.2 2 2 RS232C Connection Diagram 2 2 2 6.2.
Chapter 2 6.2.4 Connection to the Ethernet port for KV-LE20A/KV-LE20V KV-700/1000/3000/5000 + KV-LE20A/KV-LE20V MICRO/I Ethernet (TCP/IP) - Use a crossover cable to connect the MICRO/I and PLC directly. - When using a hub (Ethernet switch), use a cable that can be used with the hub. 6.2.5 Connection to the Ethernet port for KV-5000 KV-5000 MICRO/I Ethernet (TCP/IP) - Use a crossover cable to connect the MICRO/I and PLC directly.
6 Keyence 6.3 6.3.1 Connection Diagram The connector types given in the Connection Diagrams are for the unit and not the cable. For details regarding wiring, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
Chapter 2 Modular connector D-sub, 25P connector socket type Modular connector D-sub, 37P connector plug type Connector Pin Layout for PLC side Modular jack 244 External Device Setup Manual
6 Keyence 6.3.
Chapter 2 246 D-sub, 9P connector plug type D-sub, 9P connector socket type D-sub, 9P connector plug type D-sub, 25P connector socket type D-sub, 9P connector plug type D-sub, 37P connector plug type External Device Setup Manual
6 Keyence 6.3.
Chapter 2 248 Screw terminal block D-sub, 25P connector socket type Screw terminal block D-sub, 37P connector plug type External Device Setup Manual
6 Keyence 6.3.4 Connection Diagram 4: KV-700/1000/3000/5000 + KV-L20R/KV-L20V (PORT2 RS422/485 4-wire) to MICRO/I 2 2 2 2 D-sub, 9P connector plug type Connection to a PLC Screw terminal block 2 2 2 2 2 Screw terminal block Terminal 2 There is no pin number corresponding to TERM on the HG2G-S/-5S/-5F, HG3G/4G. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
Chapter 2 Screw terminal block D-sub, 9P connector socket type Screw terminal block Terminal There is no pin number corresponding to TERM on the HG1F. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
6 Keyence 2 2 2 2 Connection to a PLC 2 Screw terminal block D-sub, 25P connector socket type 2 2 2 2 2 2 Screw terminal block D-sub, 37P connector plug type 2 There is no pin number corresponding to TERM on the HG2S. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
Chapter 2 6.3.5 Connection Diagram 5: KV-700/1000/3000/5000 + KV-L20R/KV-L20V (PORT2 RS485 2-wire) to MICRO/I Screw terminal block D-sub, 9P connector plug type Screw terminal block Terminal - There is no pin number corresponding to TERM on the HG2G-S/-5S/-5F, HG3G/4G. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
6 Keyence 2 2 2 2 Connection to a PLC 2 Screw terminal block D-sub, 9P connector socket type 2 2 2 2 Screw terminal block Terminal There is no pin number corresponding to TERM on the HG1F. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
Chapter 2 Screw terminal block D-sub, 25P connector socket type Screw terminal block D-sub, 37P connector plug type There is no pin number corresponding to TERM on the HG2S. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
6 Keyence 6.4 Environment Settings 6.4.1 KV-700/1000, Conventional KV series, Visual KV series Item Setting Interface RS232C Data Bits 8 Baud Rate (bps) 9600 Parity Even Stop Bits 1 - Communication parameters are fixed. Please select above-mentioned settings for proper communication. communication setting. 2 2 KV-1000/3000 Item 2 2 - When you communicate with the CPU unit for KV-700, check the “Connect CPU Unit (Enable)/ Link Unit (Disable)” check box for the 6.4.
Chapter 2 6.4.3 KV-700/1000/3000/5000 + KV-L20R Item Setting Interface RS232C, RS422/485 2-wire, RS422/485 4-wire Baud Rate (bps) 1200, 2400, 4800, 9600, 19200, 38400, 57600 or 115200 Data Bits 8 Parity Even Stop Bits 1 - See the operation manual of the PLC for more information. - When you communicate with the communication unit for the KV-L20R, uncheck the “Connect CPU Unit (Enable)/ Link Unit (Disable)” check box for the communication setting. 6.4.
6 Keyence 6.5 6.5.1 Usable Devices KV700/1000/3000/5000(RS233C, RS422/485) Bit Device Device Name Exp. /Spec. Internal Relay Device Symbol MICRO/I PLC R R Address Range Read /Write 00000 - 99915 R/W Address Gradual 2 2 Link Relay B B 0000-3FFF R/W Exp Int.
Chapter 2 Word Device Device Name Device Symbol Address Range Read /Write MICRO/I PLC Data Memory DM DM 0000 - 65534 R/W Exp Data Memory E EM EM 0000 - 65534 R/W Exp Data Memory F FM FM 0000 - 32767 R/W File register ZF ZF 000000-131071 R/W Link Register W W 0000-3FFF R/W Temporary Memory TM TM 0 - 511 R/W Timer (Preset) TC TC 00000 - 39991 R/W *1 Timer (Current) TS TS 00000 - 39991 R/W *1 Counter (Preset) CC CC 00000 - 39991 R/W *1 Counter (Current) C
6 Keyence 6.5.2 KV3000/5000 (Ethernet) Bit Device Device Name Device Symbol Address Range Read /Write PLC Exp. /Spec. Internal Relay R R 00000 - 99915 R/W Link Relay B B 0000 - 3FFF R/W Exp Int.
Chapter 2 Word Device Device Name Device Symbol Address Range Read /Write MICRO/I PLC Data Memory DM DM 00000 - 65534 R/W Exp Data Memory E EM EM 00000 - 65534 R/W Exp Data Memory F FM FM 00000 - 32767 R/W File register ZF ZF 000000 - 131071 R/W Link Register W W 0000 - 3FFF R/W Temporary Memory TM TM 000 - 511 R/W Timer (Preset) TC TC 000000 - 39991 R/W *1 Timer (Current) TS TS 000000 - 39991 R/W *1 Counter (Preset) CC CC 000000 - 39991 R/W *1 Counter
6 Keyence 6.5.
Chapter 2 7 SHARP 7.1 Connection Table 7.1.
7 SHARP 7.2 System Configuration This is the system configuration for the connection of SHARP PLCs to the MICRO/I. 7.2.1 JW20/30 Series (using link module) 2 JW-21CM RS485 2-wire Connection Diagram 1 MICRO/I 2 2 RS485 4-wire Connection Diagram 2 2 JW-21CU, JW-22CU 2 JW-32CUH/H1 JW-33CUH/H1/H2/H3 7.2.2 Connection to a PLC JW-31CUH/H1 2 JW50/70/100 Series (using link module) JW-10CM MICRO/I RS485 4-wire Connection Diagram 2 2 2 2 JW-50CU/CUH JW-70CU/CUH 2 JW-100CU/CUH 7.2.
Chapter 2 7.2.4 JW30 Series (using communication port) MICRO/I RS232C Connection Diagram 4 JW-32CUH/H1 JW-33CUH/H1/H2/H3 Connect to the communication port2 of CPU unit. 7.2.5 JW30 Series (using communication port) MICRO/I RS485 Connection Diagram 5 JW-32CUH/H1 JW-33CUH/H1/H2/H3 Connect to the communication port1 or the communication port2 of CPU unit. 7.2.6 JW10 Series RS422 MMI Connection Diagram 6 RS485 2-wire Connection Diagram 7 JW-10 Connect to MMI port or communication port on CPU unit.
7 SHARP 7.3 Connection Diagram The connector types given in the Connection Diagrams are for the unit and not the cable. For details regarding wiring, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19. 7.3.
Chapter 2 Screw terminal block D-sub, 9P connector socket type Screw terminal block Terminal - We recommend that you switch on the termination resistor on the PLC Link Unit side for long-distance transmission connection cable is available. - There is no pin number corresponding to TERM on the HG1F. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
7 SHARP 2 2 2 2 Connection to a PLC 2 Screw terminal block D-sub, 25P connector socket type 2 We recommend that you switch on the termination resistor on the PLC Link Unit side for long-distance transmission connection cable is available. 2 2 2 2 2 2 2 Screw terminal block D-sub, 37P connector plug type - We recommend that you switch on the termination resistor on the PLC Link Unit side for long-distance transmission connection cable is available.
Chapter 2 7.3.2 Connection Diagram 2: RS485 4-wire Link Unit to MICRO/I Screw terminal block D-sub, 9P connector plug type Screw terminal block Terminal - We recommend that you switch on the termination resistor on the PLC Link Unit side for long-distance transmission connection cable is available. - There is no pin number corresponding to TERM on the HG2G-S/-5S/-5F, HG3G/4G. When inserting a termination resistor, use a communication switch.
7 SHARP 2 2 2 2 Connection to a PLC 2 Screw terminal block D-sub, 9P connector socket type 2 2 2 2 Screw terminal block Terminal 2 - We recommend that you switch on the termination resistor on the PLC Link Unit side for long-distance transmission connection cable is available. 2 - There is no pin number corresponding to TERM on the HG1F. When inserting a termination resistor, use a communication switch.
Chapter 2 Screw terminal block D-sub, 25P connector socket type We recommend that you switch on the termination resistor on the PLC Link Unit side for long-distance transmission connection cable is available. Screw terminal block D-sub, 37P connector plug type - We recommend that you switch on the termination resistor on the PLC Link Unit side for long-distance transmission connection cable is available. - There is no pin number corresponding to TERM on the HG2S.
7 SHARP 7.3.
Chapter 2 272 D-sub, 15P connector socket type D-sub, 9P connector socket type D-sub, 15P connector socket type D-sub, 25P connector socket type D-sub, 15P connector socket type D-sub, 37P connector plug type External Device Setup Manual
7 SHARP 7.3.
Chapter 2 274 D-sub, 15P connector socket type D-sub, 25P connector socket type D-sub, 15P connector socket type D-sub, 37P connector plug type External Device Setup Manual
7 SHARP 7.3.5 Connection Diagram 5: PLC (RS485) Communication Port to MICRO/I 2 2 2 2 D-sub, 9P connector plug type Connection to a PLC D-sub, 25P connector socket type 2 2 2 2 2 D-sub, 25P connector socket type Terminal 2 There is no pin number corresponding to TERM on the HG2G-S/-5S/-5F, HG3G/4G. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
Chapter 2 D-sub, 25P connector socket type D-sub, 9P connector socket type D-sub, 25P connector socket type Terminal There is no pin number corresponding to TERM on the HG1F. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19. When you use the Terminal Block type of HG1F, make sure to configure the Hardware Flow control to NONE.
7 SHARP 2 2 2 2 Connection to a PLC 2 D-sub, 25P connector socket type D-sub, 25P connector socket type 2 2 2 2 2 2 D-sub, 25P connector socket type D-sub, 37P connector plug type There is no pin number corresponding to TERM on the HG2S. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
Chapter 2 7.3.6 Connection Diagram 6: JW-10 MMI Port (RS422) to MICRO/I D-sub, 9P connector socket type D-sub, 9P connector plug type D-sub, 9P connector socket type Terminal There is no pin number corresponding to TERM on the HG2G-S/-5S/-5F, HG3G/4G. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
7 SHARP 2 2 2 2 Connection to a PLC 2 D-sub, 9P connector socket type D-sub, 9P connector socket type 2 2 2 2 2 D-sub, 9P connector socket type Terminal There is no pin number corresponding to TERM on the HG1F. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19. 2 2 2 When you use the Terminal Block type of HG1F, make sure to configure the Hardware Flow control to NONE.
Chapter 2 D-sub, 9P connector socket type D-sub, 25P connector socket type D-sub, 9P connector socket type D-sub, 37P connector plug type There is no pin number corresponding to TERM on the HG2S. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
7 SHARP 7.3.7 Connection Diagram 7: JW-10 Communication Port (RS485) to MICRO/I 2 2 2 2 D-sub, 9P connector plug type Connection to a PLC Terminal 2 2 2 2 Terminal Terminal When you use the Terminal Block type of HG2G-S/-5S/-5F, HG3G/4G, make sure to configure the Hardware Flow control to NONE. 2 2 2 - There is no pin number corresponding to TERM on the HG2G-S/-5S/-5F, HG3G/4G. When inserting a termination resistor, use a communication switch.
Chapter 2 Terminal D-sub, 9P connector socket type Terminal Terminal There is no pin number corresponding to TERM on the HG1F. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19. When you use the Terminal Block type of HG1F, make sure to configure the Hardware Flow control to NONE.
7 SHARP 2 2 2 2 Connection to a PLC 2 Terminal D-sub, 25P connector socket type 2 2 2 2 2 2 Terminal D-sub, 37P connector plug type There is no pin number corresponding to TERM on the HG2S. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
Chapter 2 7.4 Environment Settings 7.4.1 Using Computer Link Module Item Setting Interface RS485 2-wire (Set DIP switch SW3-2 to OFF) RS485 4-wire (Set DIP switch SW3-2 to ON) Communication Mode Computer Link (Command mode) (Set DIP switch SW0 to”4”) Station No.
7 SHARP 7.5 Usable Devices The types of devices handles by the MICRO/I and their ranges are shown below. Bit Device WindO/I-NV2 Device Name R/W WindO/I-NV2 address PLC Device Name Relay R/W R0 - R15777 Relay Ext. Relay R/W ER20000 - ER75777 Timer (Contact) R T0 - T777 Ext. Timer (Contact) R ET1000 - ET1777 Counter (Contact) R C0 - C777 Ext.
Chapter 2 Word Device WindO/I-NV2 Device Name R/W WindO/I-NV2 address PLC Device Name PLC address Timer (Current Value) R Ext.Counter(Current Value) R TC0 - TC777 Timer 0000 - 0777 ETC1000 - ETC1777 (Current Value) 1000 - 1777 Counter (Current Value) R CC0 - CC777 Counter 0000 - 0777 Ext.Counter (Current Value) R ECC1000 - ECC1777 (Current Value) 1000 - 1777 Register Register (A) R/W RA0 - RA1576 Ext.
8 Hitachi 8 Hitachi 8.
Chapter 2 8.2 System Configuration This is the system configuration for the connection of Hitachi PLC to the MICRO/I. 8.2.1 S10mini (LQP000) (connect to CPU unit RS232C port) S10mini MICRO/I RS422/485 Connection Diagram 1 LQP000 8.2.2 10mini Communication module S10mini MICRO/I RS232C Connection Diagram 2 LQP000 LQE160 LQE560 MICRO/I RS422 Connection Diagram 3 LQE165 LQE565 8.2.
8 Hitachi 8.2.4 S10V RS422 Port on CPU Unit S10V MICRO/I 2 RS422 Connection Diagram 3 2 2 LQP510 8.2.
Chapter 2 8.3 Connection Diagram The connector types given in the Connection Diagrams are for the unit and not the cable. For details regarding wiring, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19. 8.3.1 Connection Diagram 1: S10mini (RS422/485) to MICRO/I D-sub, 9P connector plug type D-sub, 9P connector plug type D-sub, 9P connector plug type Terminal There is no pin number corresponding to TERM on the HG2G-S/-5S/-5F, HG3G/4G.
8 Hitachi 2 2 2 2 Connection to a PLC 2 D-sub, 9P connector plug type D-sub, 9P connector socket type 2 2 2 2 2 D-sub, 9P connector plug type Terminal There is no pin number corresponding to TERM on the HG1F. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19. 2 2 2 When you use the Terminal Block type of HG1F, make sure to configure the Hardware Flow control to NONE.
Chapter 2 D-sub, 9P connector plug type D-sub, 25P connector socket type D-sub, 9P connector plug type D-sub, 37P connector plug type There is no pin number corresponding to TERM on the HG2S. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
8 Hitachi 8.3.
Chapter 2 294 D-sub, 9P connector plug type D-sub, 9P connector socket type D-sub, 9P connector plug type D-sub, 25P connector socket type External Device Setup Manual
8 Hitachi 2 2 2 2 Connection to a PLC 2 D-sub, 9P connector plug type D-sub, 37P connector plug type 2 2 2 2 2 2 2 2 2 2 External Device Setup Manual 295
Chapter 2 8.3.3 Connection Diagram 3: S10V (RS422/485) to MICRO/I D-sub, 9P connector plug type D-sub, 9P connector plug type D-sub, 9P connector plug type Terminal There is no pin number corresponding to TERM on the HG2G-S/-5S/-5F, HG3G/4G. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
8 Hitachi 2 2 2 2 Connection to a PLC 2 D-sub, 9P connector plug type D-sub, 9P connector socket type 2 2 2 2 D-sub, 9P connector plug type Terminal There is no pin number corresponding to TERM on the HG1F. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19. 2 2 2 When you use the Terminal Block type of HG1F, make sure to configure the Hardware Flow control to NONE.
Chapter 2 D-sub, 9P connector plug type D-sub, 25P connector socket type D-sub, 9P connector plug type D-sub, 37P connector plug type There is no pin number corresponding to TERM on the HG2S. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
8 Hitachi 8.4 Environment Settings 8.4.1 S10mini, S10V Item Setting Interface RS232C, RS422/485 4-wire Baud Rate (bps) 19200 Data Bits 8 Parity Odd Stop Bits 1 2 2 2 2 Communication parameters are not flexible. Refer to the PLC manual for details.
Chapter 2 8.
8 Hitachi Word Device Device Name Device Symbol Address Range Read /Write MICRO/I PLC Input Relay XW X 0 - 7F0 R/W Output Relay YW Y 0 - 7F0 R/W Internal Relay RW R 0 - 7F0 R/W Global Link GW G 0 - FF0 R/W System Register SW S 0 - BF0 R E Word EW EW 400 - FF0 R/W WE E 0 - F0 R/W Keep Relay KW K 0 - 1F0 R/W On-Delay Timer (contact) TW T 0 - 1F0 R One Shot Timer (contact) UW U 0 - 70 R Up/Down Counter (contact) CW C 0 - 30 R On-Delay Timer (elapsed
Chapter 2 9 JTEKT (Toyoda) 9.1 Connection Table 9.1.
9 JTEKT (Toyoda) 9.3 Connection Diagram The connector types given in the Connection Diagrams are for the unit and not the cable. For details regarding wiring, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19. 9.3.
Chapter 2 Screw Terminal D-sub, 9P connector socket type Screw Terminal Terminal There is no pin number corresponding to TERM on the HG1F. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19. When you use the Terminal Block type of HG1F, make sure to configure the Hardware Flow control to NONE.
9 JTEKT (Toyoda) 2 2 2 2 Connection to a PLC 2 Screw Terminal D-sub, 25P connector socket type 2 2 2 2 2 2 Screw Terminal D-sub, 37P connector plug type There is no pin number corresponding to TERM on the HG2S. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
Chapter 2 9.3.2 Connection Diagram 2: TOYOPUC-PC3JG (Built-in Link) - MICRO/I Screw Terminal D-sub, 9P connector plug type Screw Terminal Terminal When you use the Terminal Block type of HG2G-S/-5S/-5F, HG3G/4G, make sure to configure the Hardware Flow control to NONE. - There is no pin number corresponding to TERM on the HG2G-S/-5S/-5F, HG3G/4G. When inserting a termination resistor, use a communication switch.
9 JTEKT (Toyoda) 2 2 2 2 Connection to a PLC 2 Screw Terminal D-sub, 9P connector socket type 2 2 2 2 Screw Terminal Terminal There is no pin number corresponding to TERM on the HG1F. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19. 2 2 2 When you use the Terminal Block type of HG1F, make sure to configure the Hardware Flow control to NONE.
Chapter 2 Screw Terminal D-sub, 25P connector socket type Screw Terminal D-sub, 37P connector plug type There is no pin number corresponding to TERM on the HG2S. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
9 JTEKT (Toyoda) 9.4 Environment Settings 9.4.1 TOYOPUC-PC3J Series Item Setting Interface RS422/485 2-wire Station No. 0-37 (set with octal number) *1 Data Bits 7 or 8 Communication Speed (bps) 1200, 2400, 4800, 9600, 19200, 38400 or 57600 Parity Even (fix) Stop Bits 1 or 2 2 2 2 Connection to a PLC *1. Although a Station No. is the number of octal in PC3J, please set it up with the number of Hexadecimal by WindO/I-NV2.
Chapter 2 9.5 9.5.
9 JTEKT (Toyoda) Bit Device Device Name Device Symbol Address Range Read /Write MICRO/I PLC Extended input EX EX 0 - 7FF R/W Extended output EY EY 0 - 7FF R/W Extended Internal relay EM EM 0 - 1FFF R/W Extended keep-relay EK EK 0 - FFF R/W Extended link relay EL EL 0 - 1FFF R/W Extended special relay EV EV 0 - FFF R/W Address Gradual 2 2 2 2 EP EP 0 - FFF R/W Extended timer contact ET ET 0 - 7FF R Extended counter contact EC EC 0 - 7FF R Extended input G
Chapter 2 Word Device Device Name 312 Device Symbol Address Range Read /Write R MICRO/I PLC Counter contact P3WC C 0 - 1F Present value register P3N N 0 - 1FF R Data register P3D D 0 - 2FFF R/W Link register P3R R 0 - 7FF R/W Special register P3S S 0 - 3FF R/W File register P3B B 0 - 1FFF R/W Internal relay P2WM M 0 - 7F R/W Keep-relay P2WK K 0 - 2F R/W Link relay P2WL L 0 - 7F R/W Timer contact P2WT T 0 - 1F R Counter contact P2WC C 0 - 1F R Pre
9 JTEKT (Toyoda) Word Device Device Name Extended special register Device Symbol MICRO/I PLC ES ES Address Range Read /Write 0 - 7FF R/W Address Gradual 2 H H 0 - 7FF R/W WGX GX 0 - FFF R/W *3 Extended output WGY GY 0 - FFF R/W *3 Extended internal relay WGM GM 0 - FFF R/W *3 Extended Buffer register 0 EB0 EB 0 - 7FFF R/W *3 Extended Buffer register 1 EB1 EB 8000 - FFFF R/W *3 Extended Buffer register 2 EB2 EB 10000 - 17FFF R/W *3 Extended Buffer register
Chapter 2 10 Toshiba Machine Works 10.1 Connection Table 10.1.
10 Toshiba Machine Works 10.2 System Configuration This is the system configuration for the connection of Toshiba machine works PLCs to the MICRO/I. 10.2.1 TC200 2 TC-200 MICRO/I RS232C Connection Diagram 1 2 2 TC3-13B1 2 Connects to Serial port of CPU unit. 2 TCmini (connected to the RS232C Port) TC mini Connection to a PLC 10.2.2 MICRO/I RS232C Connection Diagram 2 2 2 TC03-01 2 TC03-02 10.2.
Chapter 2 10.3 Connection Diagram The connector types given in the Connection Diagrams are for the unit and not the cable. For details regarding wiring, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19. 10.3.
10 Toshiba Machine Works 2 2 2 2 D-sub, 9P connector socket type Connection to a PLC D-sub, 9P connector plug type 2 2 2 2 2 2 D-sub, 9P connector plug type D-sub, 25P connector socket type 2 2 2 2 2 D-sub, 9P connector plug type D-sub, 37P connector plug type External Device Setup Manual 317
Chapter 2 10.3.
10 Toshiba Machine Works 2 2 2 2 D-sub, 9P connector socket type Connection to a PLC D-sub, 9P connector plug type 2 2 2 2 2 2 D-sub, 9P connector plug type D-sub, 25P connector socket type 2 2 2 2 2 D-sub, 9P connector plug type D-sub, 37P connector plug type External Device Setup Manual 319
Chapter 2 10.3.3 Connection Diagram 3:TCmini (RS485) - MICRO/I D-sub, 9P connector plug type Terminal When you use the Terminal Block type of HG2G-S/-5S/-5F, HG3G/4G, make sure to configure the Hardware Flow control to NONE. - There is no pin number corresponding to TERM on the HG2G-S/-5S/-5F, HG3G/4G. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
10 Toshiba Machine Works 2 2 2 2 Connection to a PLC 2 D-sub, 9P connector socket type 2 2 2 2 2 Terminal 2 There is no pin number corresponding to TERM on the HG1F. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19. When you use the Terminal Block type of HG1F, make sure to configure the Hardware Flow control to NONE.
Chapter 2 D-sub, 25P connector socket type D-sub, 37P connector plug type There is no pin number corresponding to TERM on the HG2S. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
10 Toshiba Machine Works 10.4 Environment Settings 10.4.1 TC200 Items Details Interface RS232C PC No.*1 00 - 63 (Set same as MICRO/I) (DEC) Baud Rate (bps) 9600 Data Bits 8 Parity None Stop Bits 2 2 2 2 2 *1. Set a decimal number for the PC No.
Chapter 2 10.5 Usable Devices Bit Device Device Name Device Symbol MICRO/I Address Range Read /Write Address Gradual PLC Input Relay X X 0 - F7F R Output Relay Y Y 0 - F7F R/W Internal Relay R R 0 - 77F R/W Latch Relay L L 0 - 7F R/W Exp.Int.Relay1 G G 0 - F7F R/W Exp.Int.Relay2 H H 0 - F7F R/W Spec.
11 GE Fanuc Automation 11 GE Fanuc Automation 11.1 Connection Table 2 11.1.
Chapter 2 11.2 System Configuration This is the system configuration for the connection of GE Fanuc PLCs to MICRO/I screens. 11.2.1 Series 90-30 (Using Communication Coprocessor Module (CMM)) IC683CMM311 MICRO/I RS232C Connection Diagram 1 RS422/485 4-wire Connection Diagram 2 Series 90-30 11.2.2 Series 90-30, VersaMax Micro (Using CPU Serial Port) MICRO/I RS422/485 4-wire Connection Diagram 3 Series 90-30 VersaMax Micro (23, 28 point) Connects to Serial port on Series 90-30 PLC Power Supply.
11 GE Fanuc Automation 11.3 Connection Diagram The connector types given in the Connection Diagrams are for the unit and not for the cable. For details regarding wiring, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19. 11.3.
Chapter 2 328 D-sub, 25P connector socket type (unit side) D-sub, 9P connector socket type D-sub, 25P connector socket type (unit side) D-sub, 25P connector socket type D-sub, 25P connector socket type (unit side) D-sub, 37P connector plug type External Device Setup Manual
11 GE Fanuc Automation 11.3.2 Connection Diagram 2: Series 90-30 Communication Coprocessor Module (CMM) (RS422/485) to MICRO/I 2 2 2 2 Connection to a PLC 2 D-sub, 25P connector socket type D-sub, 9P connector plug type 2 2 2 2 2 2 2 D-sub, 25P connector socket type Terminal 2 There is no pin number corresponding to TERM on the HG2G-S/-5S/-5F, HG3G/4G. When inserting a termination resistor, use a communication switch.
Chapter 2 D-sub, 25P connector socket type D-sub, 9P connector socket type D-sub, 25P connector socket type Terminal There is no pin number corresponding to TERM on the HG1F. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19. When you use the Terminal Block type of HG1F, make sure to configure the Hardware Flow control to NONE.
11 GE Fanuc Automation 2 2 2 2 Connection to a PLC 2 D-sub, 25P connector socket type D-sub, 25P connector socket type 2 2 2 2 2 2 D-sub, 25P connector socket type D-sub, 37P connector plug type There is no pin number corresponding to TERM on the HG2S. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
Chapter 2 11.3.3 Connection Diagram 3: PLC (RS485) to MICRO/I D-sub, 15P connector socket type D-sub, 9P connector plug type D-sub, 15P connector socket type Terminal There is no pin number corresponding to TERM on the HG2G-S/-5S/-5F, HG3G/4G. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
11 GE Fanuc Automation 2 2 2 2 Connection to a PLC 2 D-sub, 15P connector socket type D-sub, 9P connector socket type 2 2 2 2 2 2 D-sub, 15P connector socket type Terminal There is no pin number corresponding to TERM on the HG1F. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
Chapter 2 D-sub, 15P connector socket type D-sub, 25P connector socket type D-sub, 15P connector socket type D-sub, 37P connector plug type There is no pin number corresponding to TERM on the HG2S. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
11 GE Fanuc Automation 11.3.
Chapter 2 336 RJ-45, 8P modular connector socket type D-sub, 25P connector socket type RJ-45, 8P modular connector socket type D-sub, 37P connector plug type External Device Setup Manual
11 GE Fanuc Automation 11.4 Environment Settings The communication port settings for GE Fanuc PLCs and MICRO/I host port are as follows 11.4.
Chapter 2 11.4.3 VersaMax Micro/Nano Item Setting Interface Baud Rate [bps] Set to the same setting as the MICRO/I RS232C (Port 1), RS485 4-wire (Port 2) 1200, 2400, 4800, 9600 or 19200 Data Bits 8 (fixed) Parity Odd , Even or None Stop Bits 1 or 2 Port Mode SNP Port Type Slave - Do not set SNP ID for the PLC. If you set it, MICRO/I will not communicate with PLC. - Refer to the manuals of Series90-30 or VersaMax Micro/Nano PLCs for details.
11 GE Fanuc Automation 11.5 Usable Devices The types of devices supported by the MICRO/I and their ranges are shown below.
Chapter 2 12 Panasonic Electric Works 12.1 Connection Table 12.1.
12 Panasonic Electric Works 12.2 System Configuration This is the system configuration for the connection of Panasonic Electric Works PLCs to the MICRO/I.
Chapter 2 FP AFPG801 MICRO/I RS232C Connection Diagram 5 C32T, C24R2, C32T2 FP AFPG802 MICRO/I RS232C Connection Diagram 6 C32T, C24R2, C32T2 FP AFPG803 MICRO/I RS485 Connection Diagram 7 C32T, C24R2, C32T2 MICRO/I RS232C Connection Diagram 8 FP2, FP2SH FP10, FP10SH 342 External Device Setup Manual
12 Panasonic Electric Works MICRO/I RS232C Connection Diagram 8 2 2 FP10, FP10SH AFP3462 2 MICRO/I RS232C Connection Diagram 8 2 Connection to a PLC 2 FP2, FP2SH AFP2462 2 2 2 2 2 2 2 2 2 2 External Device Setup Manual 343
Chapter 2 12.3 Connection Diagram The connector types given in the Connection Diagrams are for the unit and not for the cable. For details regarding wiring, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19. 12.3.
12 Panasonic Electric Works 2 2 2 2 D-sub, 25P connector socket type Connection to a PLC Mini Din 5P, socket type 2 2 2 2 2 Mini Din 5P, socket type D-sub, 37P connector plug type 2 2 2 2 2 2 External Device Setup Manual 345
Chapter 2 12.3.
12 Panasonic Electric Works 2 2 2 2 D-sub, 9P connector socket type Connection to a PLC D-sub, 9P connector socket type 2 2 2 2 2 2 Mini DIN 5P, socket type D-sub, 25P connector socket type 2 2 2 2 2 D-sub, 25P connector plug type D-sub, 37P connector plug type External Device Setup Manual 347
Chapter 2 12.3.3 Connection Diagram 3: FP1 (AFP8550) - MICRO/I D-sub, 25P connector plug type D-sub, 9P connector plug type This figure shows the connection diagram when using the cable (AFP8550) from Panasonic Electric Works. In D sub connector of AFP8550, D sub connector of a plug type and MICRO/I main part is a socket type. (In case you create a cable, as for the AFP8550 side, the socket type and MICRO/I side should use plug type D sub connector.
12 Panasonic Electric Works 2 2 2 2 D-sub, 9P connector socket type This figure shows the connection diagram when using the cable (AFP8550) from Panasonic Electric Works. In D sub connector of AFP8550, D sub connector of a plug type and MICRO/I main part is a socket type. (In case you create a cable, as for the AFP8550 side, the socket type and MICRO/I side should use plug type D sub connector.
Chapter 2 D-sub, 25P connector plug type D-sub, 37P connector plug type This figure shows the connection diagram when using the cable (AFP8550) from Panasonic Electric Works. In D sub connector of AFP8550, D sub connector of a plug type and MICRO/I main part is a socket type. (In case you create a cable, as for the AFP8550 side, the socket type and MICRO/I side should use plug type D sub connector.
12 Panasonic Electric Works 12.3.4 Connection Diagram 4: FP1 - MICRO/I 2 2 2 2 D-sub, 9P connector plug type Connection to a PLC Mini Din 8P socket type 2 2 2 2 2 Mini Din 8P socket type Terminal There is no pin number corresponding to TERM on the HG2G-S/-5S/-5F, HG3G/4G. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
Chapter 2 Mini Din 8P socket type D-sub, 9P connector socket type Mini Din 8P socket type Terminal There is no pin number corresponding to TERM on the HG1F. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19. When you use the Terminal Block type of HG1F, make sure to configure the Hardware Flow control to NONE.
12 Panasonic Electric Works 2 2 2 2 Connection to a PLC 2 Mini Din 8P socket type D-sub, 25P connector socket type 2 2 2 2 2 2 Mini Din 8P socket type D-sub, 37P connector plug type There is no pin number corresponding to TERM on the HG2S. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
Chapter 2 12.3.
12 Panasonic Electric Works 2 2 2 2 D-sub, 25P connector socket type Connection to a PLC Screw terminal block 2 2 2 2 2 Screw terminal block D-sub, 37P connector plug type 2 2 2 2 2 2 External Device Setup Manual 355
Chapter 2 12.3.
12 Panasonic Electric Works 2 2 2 2 D-sub, 25P connector socket type Connection to a PLC Screw terminal block 2 2 2 2 2 Screw terminal block D-sub, 37P connector plug type 2 2 2 2 2 2 External Device Setup Manual 357
Chapter 2 12.3.7 Connection Diagram 7: FP- Communication cassette (AFPG803) - MICRO/I Screw terminal block D-sub, 9P connector plug type Screw terminal block Terminal When you use the Terminal Block type of HG2G-S/-5S/-5F, HG3G/4G, make sure to configure the Hardware Flow control to NONE. - There is no pin number corresponding to TERM on the HG2G-S/-5S/-5F, HG3G/4G. When inserting a termination resistor, use a communication switch.
12 Panasonic Electric Works 2 2 2 2 Connection to a PLC 2 Screw terminal block D-sub, 9P connector socket type 2 2 2 2 Screw terminal block Terminal There is no pin number corresponding to TERM on the HG1F. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19. 2 2 2 When you use the Terminal Block type of HG1F, make sure to configure the Hardware Flow control to NONE.
Chapter 2 Screw terminal block D-sub, 25P connector socket type Screw terminal block D-sub, 37P connector plug type There is no pin number corresponding to TERM on the HG2S. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
12 Panasonic Electric Works 12.3.
Chapter 2 362 D-sub, 9P connector plug type D-sub, 9P connector socket type D-sub, 9P connector plug type D-sub, 25P connector socket type D-sub, 9P connector plug type D-sub, 37P connector plug type External Device Setup Manual
12 Panasonic Electric Works 12.4 Environment Settings 12.4.1 FP0 and FP1 (tool port on CPU unit). Items Details Interface Use the same RS232C, RS422 4-wire Slave Address settings as for the MICRO/I. 01 - 99(DEC)*1 Baud Rate (bps) 9600 or 19200 Data Bits 8 Parity Odd Stop Bits 1 Flow Control Hardware or None 12.4.2 Details Interface Use the same RS232C Slave Address settings as for the MICRO/I.
Chapter 2 12.4.4 FP10 and FP10SH (tool port on CPU unit). Items Details Interface Use the same RS232C Slave Address settings as for the MICRO/I. 1 - 32(DEC) Baud Rate (bps) 9600 or 19200 Data Bits 7 or 8 Parity Odd Stop Bits 1 Flow Control Hardware or None 12.4.5 FP2, FP2SH, FP10 and FP10SH (Communication port on CPU unit) Items Details Interface Use the same RS232C Slave Address settings as for the MICRO/I.
12 Panasonic Electric Works 12.5 Usable Devices Types of devices supported by the MICRO/I and their ranges are shown below.
Chapter 2 13 YASKAWA ELECTRIC CORPORATION 13.1 Connection Table 13.1.
13 YASKAWA ELECTRIC CORPORATION 13.2 System Configuration This is the system configuration for the connection of YASKAWA ELECTRIC CORPORATION PLCs to the MICRO/I. 13.2.1 MP920, MP930 (connects to CPU Unit RS232C port) 2 MICRO/I RS232C Connection Diagram 1 2 2 2 13.2.2 Connection to a PLC MP920, MP930 2 MP920,MP930(217IF) RS232C Connection Diagram 1 MICRO/I 2 2 RS485 Connection Diagram 2 2 RS422 Connection Diagram 3 2 MP920, MP930 13.2.
Chapter 2 13.2.
13 YASKAWA ELECTRIC CORPORATION 13.3 Connection Diagram The connector types given in the Connection Diagrams are for the unit and not the cable. For details regarding wiring, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19. 13.3.
Chapter 2 370 D-sub, 9P connector socket type D-sub, 9P connector socket type D-sub, 9P connector socket type D-sub, 25P connector socket type D-sub, 9P connector socket type D-sub, 37P connector plug type External Device Setup Manual
13 YASKAWA ELECTRIC CORPORATION 13.3.2 Connection Diagram 2: MP920, MP930 (217IF) - MICRO/I (RS422) 2 2 2 2 D-sub, 9P connector plug type Connection to a PLC MR-8M connector 2 2 2 2 2 MR-8M connector Terminal There is no pin number corresponding to TERM on the HG2G-S/-5S/-5F, HG3G/4G. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
Chapter 2 MR-8M connector D-sub, 9P connector socket type MR-8M connector Terminal There is no pin number corresponding to TERM on the HG1F. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19. When you use the Terminal Block type of HG1F, make sure to configure the Hardware Flow control to NONE.
13 YASKAWA ELECTRIC CORPORATION 2 2 2 2 Connection to a PLC 2 MR-8M connector D-sub, 25P connector socket type 2 2 2 2 2 2 MR-8M connector D-sub, 37P connector plug type There is no pin number corresponding to TERM on the HG2S. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
Chapter 2 13.3.3 Connection Diagram 3: MP920, MP930 (217IF) - MICRO/I (RS485) MR-8M connector D-sub, 9P connector plug type MR-8M connector Terminal When you use the Terminal Block type of HG2G-S/-5S/-5F, HG3G/4G, make sure to configure the Hardware Flow control to NONE. - There is no pin number corresponding to TERM on the HG2G-S/-5S/-5F, HG3G/4G. When inserting a termination resistor, use a communication switch.
13 YASKAWA ELECTRIC CORPORATION 2 2 2 2 Connection to a PLC 2 MR-8M connector D-sub, 9P connector socket type 2 2 2 2 2 MR-8M connector Terminal 2 There is no pin number corresponding to TERM on the HG1F. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19. When you use the Terminal Block type of HG1F, make sure to configure the Hardware Flow control to NONE.
Chapter 2 MR-8M connector D-sub, 25P connector socket type MR-8M connector D-sub, 37P connector plug type There is no pin number corresponding to TERM on the HG2S. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
13 YASKAWA ELECTRIC CORPORATION 13.3.4 Connection Diagram 4: MP2300 (217IF-01) - MICRO/I (RS422) 2 2 2 2 D-sub, 9P connector plug type Connection to a PLC MDR14P connector 2 2 2 2 2 MDR14P connector Terminal There is no pin number corresponding to TERM on the HG2G-S/-5S/-5F, HG3G/4G. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
Chapter 2 MDR14P connector D-sub, 9P connector socket type MDR14P connector Terminal There is no pin number corresponding to TERM on the HG1F. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19. When you use the Terminal Block type of HG1F, make sure to configure the Hardware Flow control to NONE.
13 YASKAWA ELECTRIC CORPORATION 2 2 2 2 Connection to a PLC 2 MDR14P connector D-sub, 25P connector socket type 2 2 2 2 2 2 MDR14P connector D-sub, 37P connector plug type There is no pin number corresponding to TERM on the HG2S. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
Chapter 2 13.3.5 Connection Diagram 5: MP2300(217IF - 01) - MICRO/I (RS485) MDR14P connector D-sub, 9P connector plug type MDR14P connector Terminal When you use the Terminal Block type of HG2G-S/-5S/-5F, HG3G/4G, make sure to configure the Hardware Flow control to NONE. - There is no pin number corresponding to TERM on the HG2G-S/-5S/-5F, HG3G/4G. When inserting a termination resistor, use a communication switch.
13 YASKAWA ELECTRIC CORPORATION 2 2 2 2 Connection to a PLC 2 MDR14P connector D-sub, 9P connector socket type 2 2 2 2 2 MDR14P connector Terminal 2 There is no pin number corresponding to TERM on the HG1F. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19. When you use the Terminal Block type of HG1F, make sure to configure the Hardware Flow control to NONE.
Chapter 2 MDR14P connector D-sub, 25P connector socket type MDR14P connector D-sub, 37P connector plug type There is no pin number corresponding to TERM on the HG2S. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
13 YASKAWA ELECTRIC CORPORATION 13.4 Environment Settings 13.4.1 MP920, MP930, MP2300 Items Details Interface RS232C, RS422/485 Protocol MEMOBUS RTU Slave Address 1 - 63 (DEC) Baud Rate (bps) 9600 or 19200 Data Bits 8 (fixed) None, Even or Odd Stop Bits 1 or 2 Flow Control Hardware 2 2 2 Connection to a PLC Parity 2 2 - It is necessary to set up transmission form by the rudder program. - Please set up the head register by the side of the PLC as follows.
Chapter 2 13.4.2 Connecting with the MP2000 series via Ethernet 1. MICRO/I settings Item Setting IP Address (MICRO/I) Set the IP address of MICRO/I in Communication Interface tab. Subnet Mask Set the subnet mask of MICRO/I in Communication Interface tab. Default Gateway Set the default gateway of MICRO/I in Communication Interface tab. IP Address (PLC) Set the IP address of PLC in Host I/F Network tab. Port Number (PLC) Set the port number of PLC in Host I/F Network tab. The default is 10001.
13 YASKAWA ELECTRIC CORPORATION 13.5 Usable Devices Bit Device Device Name Device Symbol Address Range Read /Write Address Gradual MICRO/I PLC Coil MB MW 0 - 4095F R/W *1 Inputs Status IB IW 0 - FFFFF R Hexadecimal 2 2 *1.
Chapter 2 14 Koyo Selecting DirectLogic 205/405 or DirectLogic (Ethernet) for the Host I/F Driver allows the user to use the 1: N Communication function. • 1: N Communication function (Refer to Chapter 6 "1: N Communication (Multi-drop)" on page 627) 14.1 Connection Table 14.1.
14 Koyo 14.2 System Configuration This is the system configuration for the connection of Koyo PLCs to the MICRO/I. 14.2.1 DirectLogic 405 (connects to CPU unit RS232C port) 2 MICRO/I RS232C Connection Diagram 1 2 2 D4-440 14.2.2 2 DirectLogic 405 (connects to CPU unit RS422 port) Connection to a PLC MICRO/I RS422/485 Connection Diagram 2 2 2 2 D4-440 14.2.3 DirectLogic 405 (connects to DATA COMMUNICATIONS MODULE RS232C port) 2 MICRO/I 2 RS232C Connection Diagram 1 2 D4-440 14.2.
Chapter 2 14.2.5 1: N Communication-DirectLogic 405 (Connects to the general-purpose RS422 communication port on the CPU unit) The 1: N communication can be established by using the following connection. MICRO/I RS422 Connection Diagram 2 ... PLC1 PLC2 PLC3 PLCn 14.2.
14 Koyo 14.3 Connection Diagram For details regarding wiring and termination resistors, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19. 14.3.
Chapter 2 390 D-sub, 25P socket connector (unit side) D-sub, 9P connector socket type D-sub, 25P socket connector (unit side) D-sub, 25P connector socket type D-sub, 25P socket connector (unit side) D-sub, 37P connector plug type External Device Setup Manual
14 Koyo 14.3.2 Connection Diagram 2: DirectLOFGIC 405 (connects to CPU unit RS422 port) to MICRO/I 2 2 2 2 Connection to a PLC 2 D-sub, 25P socket connector (unit side) D-sub, 9P connector plug type 2 2 2 2 2 2 D-sub, 25P socket connector (unit side) Terminal There is no pin number corresponding to TERM on the HG2G-S/-5S/-5F, HG3G/4G. When inserting a termination resistor, use a communication switch.
Chapter 2 D-sub, 25P socket connector (unit side) D-sub, 9P connector socket type D-sub, 25P socket connector (unit side) Terminal There is no pin number corresponding to TERM on the HG1F. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19. When you use the Terminal Block type of HG1F, make sure to configure the Hardware Flow control to NONE.
14 Koyo 2 2 2 2 Connection to a PLC 2 D-sub, 25P socket connector (unit side) D-sub, 25P connector socket type 2 2 2 2 2 2 D-sub, 25P socket connector (unit side) D-sub, 37P connector plug type There is no pin number corresponding to TERM on the HG2S. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
Chapter 2 14.3.
14 Koyo 2 2 2 2 D-sub, 25P connector socket type Connection to a PLC 6P modular connector socket type 2 2 2 2 2 6P modular connector socket type D-sub, 37P connector plug type 2 2 2 2 2 2 External Device Setup Manual 395
Chapter 2 14.4 Environment Settings 14.4.1 D4-440 CPU Unit Communication port Items Details Interface RS232C, RS422 Data representation HEX mode Slave Address 1 - 90(DEC). Baud Rate (bps) 9600 or 19200 Data Bits 8 (fixed) Parity None or Odd Stop Bits 1 (fixed) Flow Control Hardware 14.4.
14 Koyo 14.4.4 Ethernet Unit on DirectLogic Set the following items on Configuration-System Setup-Project dialog box. Item Setting IP Address (MICRO/I) Set the IP adress of MICRO/I in Communication Interface tab. Subnet Mask Set the subnet mask of MICRO/I in Communication Interface tab. Default Gateway Set the default gateway of MICRO/I in Communication Interface tab. IP Address (Ethernet Unit) Set the IP adress of Ethernet unit in Host I/F Network tab.
Chapter 2 14.5 Usable Devices 14.5.
14 Koyo Word Device Device Name Device Symbol Address Range Read /Write Address Gradual MICRO/I PLC Input Points (Word) XW V 40400 - 40477 R 8 (octal) Output Points (Word) YW V 40500 - 40577 R/W 8 (octal) Control Relays (Word) CW V 40600 - 40777 R/W 8 (octal) Stages (Word) SW V 41000 - 41077 R/W 8 (octal) Remote In (Word) GXW V 40000 - 40177 R/W 8 (octal) Remote Out (Word) GYW V 40200 - 40377 R/W 8 (octal) Special Relays (Word) SPW V 41200 - 41237 R 8 (octal)
Chapter 2 14.5.
14 Koyo 14.5.
Chapter 2 15 FANUC 15.1 Connection Table 15.1.1 Compatible PLCs Series Name System (CPU unit) Link Unit WindO/I-NV2 Settings Interface Flow Control Host I/F Driver Power Mate-MODEL D /Series 16i Power Mate Power Mate-MODEL D*1 Not required RS422/485 4-wire Connection Diagram 1 (refer to P404) Hardware Series 16i, 160i*1 18i, 180i, Not required RS232C Connection Diagram 2 (refer to P409) Hardware 30i, 31i*1, 32i *1. We tested with the PLC of these parts.
15 FANUC 15.2 System Configuration This is the system configuration for the connection of FANUC PLCs to the MICRO/I. 15.2.1 Power Mate-MODEL D 2 MICRO/I 2 RS422 Connection Diagram 1 2 2 Power Mate-MODEL D 15.2.2 Connection to a PLC A touch-panel connection module (FANUC A20B-2902-0470) is needed for Power Mate-MODEL D.
Chapter 2 15.3 Connection Diagram For details regarding wiring and termination resistors, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19. 15.3.1 Connection Diagram 1: Power Mate-MODEL D to MICRO/I PCR-E20FS (HONDA TSUSHIN KOGYO CO.
15 FANUC 2 2 2 2 Connection to a PLC 2 PCR-E20FS (HONDA TSUSHIN KOGYO CO., LTD) Terminal - Connect a terminus unit to JD15 by the side of PowerMate. Refer to the manual of PowerMate-MODEL D for the details about a terminus unit. - FG terminal of the main part of a motion controller should perform the 3rd-sort grounding. 2 2 2 - Ground a shield by the cable clamp. - When you use the Terminal Block type of HG2G-S/-5S/-5F, HG3G/4G, make sure to configure the Hardware Flow control to NONE.
Chapter 2 PCR-E20FS (HONDA TSUSHIN KOGYO CO., LTD) D-sub, 9P connector socket type PCR-E20FS (HONDA TSUSHIN KOGYO CO., LTD) Terminal - Connect a terminus unit to JD15 by the side of PowerMate. Refer to the manual of PowerMate-MODEL D for the details about a terminus unit. - FG terminal of the main part of a motion controller should perform the 3rd-sort grounding. - Ground a shield by the cable clamp.
15 FANUC 2 2 2 2 Connection to a PLC 2 PCR-E20FS (HONDA TSUSHIN KOGYO CO., LTD) D-sub, 25P connector socket type - Connect a terminus unit to JD15 by the side of PowerMate. Refer to the manual of PowerMate-MODEL D for the details about a terminus unit. - FG terminal of the main part of a motion controller should perform the 3rd-sort grounding. 2 2 2 - Ground a shield by the cable clamp.
Chapter 2 PCR-E20FS (HONDA TSUSHIN KOGYO CO., LTD) D-sub, 37P connector plug type - Connect a terminus unit to JD15 by the side of PowerMate. Refer to the manual of PowerMate-MODEL D for the details about a terminus unit. - FG terminal of the main part of a motion controller should perform the 3rd-sort grounding. - Ground a shield by the cable clamp. There is no pin number corresponding to TERM on the HG2S. When inserting a termination resistor, use a communication switch.
15 FANUC 15.3.2 Connection Diagram 2: Series 16i, 160i, 18i, 180i, 30i, 31i, 32i to MICRO/I 2 2 2 2 Connection to a PLC 2 PCR-E20FS (HONDA TSUSHIN KOGYO CO., LTD) D-sub, 9P connector plug type 2 2 2 2 2 2 PCR-E20FS (HONDA TSUSHIN KOGYO CO.
Chapter 2 410 PCR-E20FS (HONDA TSUSHIN KOGYO CO., LTD) D-sub, 9P connector socket type PCR-E20FS (HONDA TSUSHIN KOGYO CO.
15 FANUC 2 2 2 2 D-sub, 37P connector plug type Connection to a PLC PCR-E20FS (HONDA TSUSHIN KOGYO CO.
Chapter 2 15.4 Environment Settings 15.4.1 Power Mate-MODEL D Items Details Interface RS422 4-wire Slave Address 0 (Fixed) Baud Rate (bps) 19200 (Fixed) Data Bits 8 (Fixed) Parity Even (Fixed) Stop Bits 1 (Fixed) 15.4.
15 FANUC 15.5 Usable Devices 15.5.1 Power Mate-MODEL D, Series 16i, 160i, 18i, 180i, 30i, 31i, 32i Bit Device Device Name Device Symbol Address Range Read /Write Address Gradual MICRO/I PLC Input Relay X X 0 - 99997 R/W *1 Output Relay Y Y 0 - 99997 R/W *1 Int. Relay R R 0 - 99997 R/W *1 Keep Relay K K 0 - 99997 R/W *1 Expansion Relay E E 0 - 99997 R/W *1 2 2 2 2 Connection to a PLC 2 *1. Please specify following ranges.
Chapter 2 16 YOKOGAWA 16.1 Connection Table 16.1.
16 YOKOGAWA 16.2 System Configuration This is the system configuration for the connection of YOKOGAWA PLCs to the MICRO/I. 16.2.
Chapter 2 16.2.
16 YOKOGAWA 16.3 Connection Diagram The connector types given in the Connection Diagrams are for the unit and not the cable. For details regarding wiring, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19. 16.3.
Chapter 2 418 D-sub, 9P connector socket type D-sub, 9P connector socket type D-sub, 9P connector socket type D-sub, 25P connector socket type D-sub, 9P connector socket type D-sub, 37P connector plug type External Device Setup Manual
16 YOKOGAWA 16.3.2 Connection Diagram 2: FA-M3 F3LC11-2N - MICRO/I 2 2 2 2 D-sub, 9P connector plug type Connection to a PLC Screw terminal block 2 2 2 2 2 Screw terminal block Terminal 2 - In MICRO/I and PLC, the name of A pole and B pole is reverse. - When you use the Terminal Block type of HG2G-S/-5S/-5F, HG3G/4G, make sure to configure the Hardware Flow control to NONE. 2 2 There is no pin number corresponding to TERM on the HG2G-S/-5S/-5F, HG3G/4G.
Chapter 2 Screw terminal block D-sub, 9P connector socket type Screw terminal block Terminal - In MICRO/I and PLC, the name of A pole and B pole is reverse. - When you use the Terminal Block type of HG1F, make sure to configure the Hardware Flow control to NONE. There is no pin number corresponding to TERM on the HG1F. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
16 YOKOGAWA 2 2 2 2 Connection to a PLC 2 Screw terminal block D-sub, 25P connector socket type 2 In MICRO/I and PLC, the name of A pole and B pole is reverse. 2 2 2 2 2 2 Screw terminal block D-sub, 37P connector plug type In MICRO/I and PLC, the name of A pole and B pole is reverse. 2 2 2 There is no pin number corresponding to TERM on the HG2S. When inserting a termination resistor, use a communication switch.
Chapter 2 16.3.3 Connection Diagram 3: FA-M3 - MICRO/I D-sub, 9P connector socket type D-sub, 9P connector plug type This figure shows the connection diagram when using the cable (KM10-0C) from YOKOGAWA. D-sub, 9P connector socket type Terminal This figure shows the connection diagram when using the cable (KM10-0C) from YOKOGAWA.
16 YOKOGAWA 2 2 2 D-sub, 9P connector socket type D-sub, 9P connector socket type Connection to a PLC This figure shows the connection diagram when using the cable (KM10-0C) from YOKOGAWA. 2 2 2 2 2 2 2 D-sub, 9P connector socket type D-sub, 25P connector socket type This figure shows the connection diagram when using the cable (KM10-0C) from YOKOGAWA.
Chapter 2 D-sub, 9P connector socket type D-sub, 37P connector plug type This figure shows the connection diagram when using the cable (KM10-0C) from YOKOGAWA.
16 YOKOGAWA 16.4 Environment Settings 16.4.1 YOKOGAWA FA-M3 - Link Unit (F3LC11-1N, F3LC112N) to MICRO/I Setting Items Details Interface Use the same CPU Number settings as for the MICRO/I.
Chapter 2 16.5 Usable Devices 16.5.1 FA-M3 (Serial) Bit Device Device Name Device Symbol Address Range Read /Write Address Gradual MICRO/I PLC Input Relay X X 201 - 71664 R *1 Output Relay Y Y 201 - 71664 R/W *1 Int. Relay I I 1 - 65536 R/W Dec Comm. Relay E E 1 - 4096 R/W Dec Link Relay L L 1 - 78192 R/W *2 Spec. Relay M M 1 - 9984 R/W Dec Timer Relay TU T 1 - 3072 R Dec Counter Relay CU C 1 - 3072 R Dec *1. Please specify in the following ranges.
16 YOKOGAWA Word Device Device Name Device Symbol Address Range Read /Write Address Gradual PLC Input Relay XW X 201 - 71649 R *1 Output Relay YW Y 201 - 71649 R/W *1 Int. Relay IW I 1 - 65521 R/W Dec Comm. Relay EW E 1 - 4081 R/W Dec Link Relay LW L 1 - 78177 R/W *2 Spec.
Chapter 2 16.5.2 FA-M3 (Ethernet) Bit Device Device Name Device Symbol Address Range Read /Write Address Gradual MICRO/I PLC Input Relay (bit) X X 00201 - 71664 R Dec*1 Output Relay (bit) Y Y 00201 - 71664 R/W Dec*1 Int. Relay (bit) I I 00001 - 65536 R/W Dec Comm. Relay (bit) E E 0001 - 4096 R/W Dec Link Relay (bit) L L 00001 - 78192 R/W Dec*2 Timer Relay (bit) TU T 0001 - 3072 R/W Dec Counter Relay (bit) CU C 0001 - 3072 R/W Dec Spec.
16 YOKOGAWA Word Device Device Name Device Symbol Address Range Read /Write Address Gradual PLC Input Relay (word) XW X 00201 - 71649 R Dec*1 Output Relay (word) YW Y 00201 - 71649 R/W Dec*1 Int. Relay (word) IW I 00001 - 65521 R/W Dec Comm.
Chapter 2 17 INVERTER 17.1 Connection Table 17.1.1 Compatible Mitsubishi Inverters Series Name FREQROL System WindO/I-NV2 Settings FREQROL-E500 *1 FREQROL-S500*1 Interface Flow Control Host I/F Driver RS422/485 4-wire Connection Diagram 1 (refer to P431) None FREQROL *1. We tested with the PLC of these parts. 17.2 System Configuration This is the system configuration for the connection of a Mitsubishi inverter with the MICRO/I. 17.2.
17 INVERTER 17.3 Connection Diagram The connector types given in the Connection Diagrams are for the unit and not the cable. 17.3.1 Connection diagram 1: Mitsubishi inverter PU connector to MICRO/I 2 2 2 2 Connection to a PLC 2 2 PU connector D-sub, 9P connector plug type 2 2 2 2 2 PU connector Terminal 2 There is no pin number corresponding to TERM on the HG2G-S/-5S/-5F, HG3G/4G. When inserting a termination resistor, use a communication switch.
Chapter 2 PU connector D-sub, 9P connector socket type PU connector Terminal There is no pin number corresponding to TERM on the HG1F. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
17 INVERTER 2 2 2 2 Connection to a PLC 2 PU connector D-sub, 25P connector socket type 2 2 2 2 2 2 PU connector D-sub, 37P connector plug type There is no pin number corresponding to TERM on the HG2S. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
Chapter 2 17.4 Environment Settings The following shows the settings of the communication port for performing communications between the Mitsubishi inverter FREQROL series and MICRO/I. 17.4.1 Environment settings for connecting the device to a Mitsubishi inverter Items Details Interface Use the same RS485 4-wire Inverter No. settings as for the MICRO/I.
17 INVERTER 17.
Chapter 2 18 FUJI 18.1 Connection Table 18.1.
18 FUJI Series Name MICREX-F System (CPU unit) Link Unit WindO/I-NV2 Settings Interface Flow Control Host I/F Driver None MICREX-F NV1L-RS2 RS232C Connection Diagram 5 (refer to P453) F70 NC1L-RS2 RS232C Connection Diagram 5 (refer to P453) NC1L-RS4 RS422/485 4-wire Connection Diagram 6 (refer to P456) FFU120B RS232C Connection Diagram 5 (refer to P453) F80H, F120H, F120S, F140S, F150S RS422/485 4-wire Connection Diagram 6 (refer to P456) F30, F50, F50H, F55, F60, F70, F70S, F80H*1, F81,
Chapter 2 Series Name MICREX-SX System (CPU unit) NP1PH-08, NP1PH-16, NP1PS-32, NP1PS-32R, NP1PS-74R, NP1PS-117R, NP1PS-245R, NP1PS-74D, NP1PM-48R, NP1PM-48E, NP1PM-256E, NP1PM-256H, NP1PU-048E*1, NP1PU-256E Link Unit WindO/I-NV2 Settings Interface Flow Control Host I/F Driver Not required (Connect to the CPU unit loader connection connector) FUJI NP4H-CB2 + NW0H-CNV RS232C Connection Diagram 7 (refer to P459) None MICREX-SX NP1L-RS1*1 RS232C Connection Diagram 8 (refer to P461) - MICREX-SX
18 FUJI 18.2 System Configuration This is the system configuration for the connection of FUJI PLCs to the MICRO/I. 18.2.1 FLEX-PC Series (Loader Port) FREX-PC 2 RS485 Connection Diagram 1 MICRO/I 2 NN-XONV1 RS232C Connection Diagram 2 2 2 • FLEX-PC Series (Interface Module) 2 NB Series FREX-PC-NB NB-RS1-AC/DC Connection to a PLC 18.2.
Chapter 2 18.2.
18 FUJI 18.2.4 • MICREX-F Series (Interface Module) F30/F50/F50H/F55/F60/F70/F70S/F80H/F81/F120H/F120S/F140S/F150S MICREX-F F80H FFK120A-C10 MICRO/I RS232C Connection Diagram 5 2 2 2 MICREX-F F80H FFK120A-C10 MICRO/I Connection to a PLC RS485 4-wire Connection Diagram 6 2 2 2 2 18.2.
Chapter 2 18.2.6 MICREX-SX Series (Interface Module) MICREX-SX NP1L-RS1 MICRO/I RS232C Connection Diagram 8 RS485 4-wire Connection Diagram 9 MICREX-SX NP1L-RS2 MICRO/I RS232C Connection Diagram 8 MICREX-SX NP1L-RS4 MICRO/I RS485 4-wire Connection Diagram 9 18.2.7 MICREX-SX Series (Connect to the CPU unit Ethernet Port) • NP1PM-48E / NP1PM-256E / NP1PU-048E / NP1PU-256E MICREX-SX Ethernet (TCP/IP) MICRO/I 18.2.
18 FUJI 18.3 Connection Diagram The connector types given in the Connection Diagrams are for the unit and not the cable. For details regarding wiring, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19. 18.3.1 Connection Diagram 1: FLEX-PC series (Loader Port) - MICRO/I 2 2 2 2 Connection to a PLC 2 2 Modular jack 8 Pin D-sub, 9P connector plug type 2 2 2 2 2 Modular jack 8 Pin Terminal There is no pin number corresponding to TERM on the HG2G-S/-5S/-5F, HG3G/4G.
Chapter 2 Modular jack 8 Pin D-sub, 9P connector socket type Modular jack 8 Pin Terminal There is no pin number corresponding to TERM on the HG1F. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
18 FUJI 2 2 2 2 Connection to a PLC 2 Modular jack 8 Pin D-sub, 25P connector socket type 2 2 2 2 2 2 Modular jack 8 Pin D-sub, 37P connector plug type There is no pin number corresponding to TERM on the HG2S. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
Chapter 2 18.3.
18 FUJI 2 2 2 2 D-sub, 25P connector socket type Connection to a PLC D-sub, 25P connector plug type 2 2 2 2 2 D-sub, 25P connector plug type D-sub, 37P connector plug type 2 2 2 2 2 2 External Device Setup Manual 447
Chapter 2 18.3.
18 FUJI 2 2 2 2 D-sub, 25P connector socket type Connection to a PLC D-sub, 25P connector socket type 2 2 2 2 2 D-sub, 25P connector socket type D-sub, 37P connector plug type 2 2 2 2 2 2 External Device Setup Manual 449
Chapter 2 18.3.4 Connection Diagram 4: FLEX-PC Series (Link Module RS485 Port) - MICRO/I Screw terminal block D-sub, 9P connector plug type Screw terminal block Terminal There is no pin number corresponding to TERM on the HG2G-S/-5S/-5F, HG3G/4G. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
18 FUJI 2 2 2 2 Connection to a PLC 2 Screw terminal block D-sub, 9P connector socket type 2 2 2 2 Screw terminal block Terminal There is no pin number corresponding to TERM on the HG1F. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
Chapter 2 Screw terminal block D-sub, 25P connector socket type Screw terminal block D-sub, 37P connector plug type There is no pin number corresponding to TERM on the HG2S. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
18 FUJI 18.3.
Chapter 2 454 D-sub, 25P connector socket type D-sub, 9P connector socket type D-sub, 25P connector socket type D-sub, 25P connector socket type External Device Setup Manual
18 FUJI 2 2 2 2 Connection to a PLC 2 D-sub, 25P connector socket type D-sub, 37P connector plug type 2 2 2 2 2 2 2 2 2 2 External Device Setup Manual 455
Chapter 2 18.3.6 Connection Diagram 6: MICREX-F Series (RS485 Port) - MICRO/I Screw terminal block D-sub, 9P connector plug type Screw terminal block Terminal There is no pin number corresponding to TERM on the HG2G-S/-5S/-5F, HG3G/4G. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
18 FUJI 2 2 2 2 Connection to a PLC 2 Screw terminal block D-sub, 9P connector socket type 2 2 2 2 Screw terminal block Terminal There is no pin number corresponding to TERM on the HG1F. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
Chapter 2 Screw terminal block D-sub, 25P connector socket type Screw terminal block D-sub, 37P connector plug type There is no pin number corresponding to TERM on the HG2S. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
18 FUJI 18.3.
Chapter 2 460 D-sub, 9P connector socket type D-sub, 25P connector socket type D-sub, 9P connector socket type D-sub, 37P connector plug type External Device Setup Manual
18 FUJI 18.3.
Chapter 2 462 D-sub, 9P connector socket type D-sub, 25P connector socket type D-sub, 9P connector socket type D-sub, 37P connector plug type External Device Setup Manual
18 FUJI 18.3.9 Connection Diagram 9: MICREX-SX series (RS485 Port) 2 2 2 2 D-sub, 9P connector plug type Connection to a PLC D-sub, 9P connector plug type 2 2 2 2 D-sub, 9P connector plug type Terminal There is no pin number corresponding to TERM on the HG2G-S/-5S/-5F, HG3G/4G. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
Chapter 2 D-sub, 9P connector plug type D-sub, 9P connector socket type D-sub, 9P connector plug type Terminal There is no pin number corresponding to TERM on the HG1F. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
18 FUJI 2 2 2 2 Connection to a PLC 2 D-sub, 9P connector plug type D-sub, 25P connector socket type 2 2 2 2 2 2 D-sub, 9P connector plug type D-sub, 37P connector plug type There is no pin number corresponding to TERM on the HG2S. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
Chapter 2 18.4 Environment Settings Allowed communication settings for FLEX-PC, MICREX-F and MICREX-SX are as follows. 18.4.1 FLEX-PC (CPU) FUJI FLEX-PC (CPU) to MICRO/I settings Items Details Interface RS232C, RS485 4-wire Baud Rate (bps) Use the same Data Bits settings as for the MICRO/I. 19200 8 Stop Bits 1 Parity Odd Flow Control None 18.4.
18 FUJI • FLEX-PC Communication Setting When you would like to set up the communication setting with the initialization file, refer to the following setup. Set up item of 4, 5, 6, and 7 as well as MICRO/I settings. No . Item 0 1 1 Transmission type Non sequenced format 3 Received Message No.
Chapter 2 18.4.3 MICREX-F Interface Card/ Module Items Details Interface Operation Modes RS232C Baud Rate (bps) Use the same 1200/2400/4800/9600/19200/38400/57600/115200 Data Bits settings as for the MICRO/I. 7/8*2 Stop Bits 1/2*2 Parity None/Odd/Even*2 Flow Control None/Hardware Station Number 0 *1. Set up the mode switch of Interface Card/Module as below. RS232C:Mode switch is No.1. RS485: Mode switch is No.3. *2. Set Character configuration switch to the following.
18 FUJI 18.4.4 MICREX-SX series (connecting to the CPU unit loader connection connector or using the Interface Module.) Items Details Interface RS232C, RS485 Baud Rate (bps) Use the same 38400 Data Bits settings as for the MICRO/I. 8 Stop Bits 1 Parity Even Flow Control None 2 2 2 2 - The communication settings are fixed. RS232C: Mode switch is No.1.or No.3 RS485:Mode switch is No.2.or No.3. 18.4.5 MICREX-SX series (connecting to the Ethernet port or using the Ethernet module.
Chapter 2 18.5 Usable Devices 18.5.1 FREX-PC Bit Device Device Name Int. Relay (bit) Device Symbol MICRO/I PLC M M Address Range Read /Write Address Gradual 0 - 3FF R/W Hex Input Relay (bit) X X 0 - 7FF R Hex Output Relay (bit) Y Y 0 - 7FF R/W Hex Exp. Int. Relay (bit) EM M 400 - 1FFF R/W Hex Latch Relay (bit) L L 0 - 3FF R/W Hex Exp. Latch Relay (bit) EL L 400 - 1FFF R/W Hex Step Relay (bit) S S 0 - 3FF R/W Hex Spec.
18 FUJI 18.5.2 MICREX-F Bit Device Device Name In.Output Relay (bit) Device Symbol MICRO/I PLC B B Address Range 0 - 511F Read /Write Address Gradual R/W Hex Int.Relay (bit) M M 0 - 511F R/W Hex Keep Relay (bit) K K 0 - 63F R/W Hex Edge Relay (bit) D D 0 - 63F R/W Hex Spec.Relay (bit) F F 0 - 125F R Hex Link Relay (bit) L L 0 - 511F R/W Hex Ann.
Chapter 2 Word Device Device Name Device Symbol MICRO/I 472 Address Range Read /Write Address Gradual PLC InOut Relay (word) WB WB 0 - 511 R/W Dec Di.InOut Relay (word) W24 W24 0 - 159 R/W Dec Int.Relay (word) WM WM 0 - 511 R/W Dec Keep Relay (word) WK WK 0 - 63 R/W Dec Edge Relay (word) WD WD 0 - 63 R/W Dec Link Relay (word) WL WL 0 - 511 R/W Dec Spec.Relay (word) WF WF 0 - 125 R Dec Ann.Relay (word) WA WA 0 - 45 R/W Dec FileMemo.
18 FUJI 18.5.3 MICREX-SX Word Device Device Name Device Symbol Address Range Read /Write Address Gradual MICRO/I PLC Input memory*1 - %IW - - - Output memory*1 - %QW - - - Standard memory MW1 %MW1 0 - 2490367 R/W Dec Retained memory MW3 %MW3 0 - 425983 R/W Dec System memory MW10 %MW10 0 - 511 R/W Dec *1. The virtual addresses for I/O memory differs according to the system configuration.
Chapter 2 19 Toshiba 19.1 Connection Table 19.1.
19 Toshiba Series Name System (CPU unit) Link Unit WindO/I-NV2 Settings Interface Flow Contro Host I/F Driver PROSEC T T3, T3H PU315 PU325 PU325H PU326H Not required (Connects to CPU unit) RS422/485 4-wire Connection Diagram 1 (refer to P479) None/ Hardware PROSEC T V S2T, S2E, L1, S2, PU672T PU662T PU612E L1PU11H L1PU12H S2PU82 S2PU72 S2PU32 S2PU22 S3PU65 Not required (Connects to CPU unit) RS422/485 4-wire Connection Diagram 1 (refer to P479) None/ Hardware PROSEC T S3*1 2 2 *1.
Chapter 2 19.2 System Configuration This is the system configuration for the connection of Toshiba PLCs to the MICRO/I. 19.2.1 PROSEC T Series T1 T1 MICRO/I RS232C Connection Diagram 4 CU111 MICRO/I RS485 Connection Diagram 5 19.2.
19 Toshiba 19.2.3 PROSEC T Series T2 (PU224) T2(PU224) MICRO/I RS485 Connection Diagram 1 2 2 MICRO/I 19.2.
Chapter 2 19.2.5 PROSEC T Series T2N T2N MICRO/I RS232C Connection Diagram 2 MICRO/I RS485 Connection Diagram 7 MICRO/I RS232C Connection Diagram 6 19.2.6 PROSEC T Series T3, T3H T3, T3H MICRO/I RS485 Connection Diagram 1 19.2.
19 Toshiba 19.3 Connection Diagram The connector types given in the Connection Diagrams are for the unit and not the cable. For details regarding wiring, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19. 19.3.
Chapter 2 D-sub, 15P connector socket type D-sub, 9P connector socket type D-sub, 15P connector socket type Terminal There is no pin number corresponding to TERM on the HG1F. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
19 Toshiba 2 2 2 2 Connection to a PLC 2 D-sub, 15P connector socket type D-sub, 25P connector socket type 2 2 2 2 2 2 D-sub, 15P connector socket type D-sub, 37P connector plug type There is no pin number corresponding to TERM on the HG2S. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
Chapter 2 19.3.
19 Toshiba 2 2 2 2 D-sub, 9P connector socket type Connection to a PLC D-sub, 9P connector socket type 2 2 2 2 2 2 D-sub, 9P connector socket type D-sub, 25P connector socket type 2 2 2 2 2 D-sub, 9P connector socket type D-sub, 37P connector plug type External Device Setup Manual 483
Chapter 2 19.3.3 Connection Diagram 3: T1S RS485 Terminal Block - MICRO/I Terminal block D-sub, 9P connector plug type Terminal block Terminal There is no pin number corresponding to TERM on the HG2G-S/-5S/-5F, HG3G/4G. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
19 Toshiba 2 2 2 2 Connection to a PLC 2 Terminal block D-sub, 9P connector socket type 2 2 2 2 Terminal block Terminal There is no pin number corresponding to TERM on the HG1F. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
Chapter 2 Terminal block D-sub, 25P connector socket type Terminal block D-sub, 37P connector plug type There is no pin number corresponding to TERM on the HG2S. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
19 Toshiba 19.3.
Chapter 2 488 Din connector 8P socket type D-sub, 25P connector socket type Din connector 8P socket type D-sub, 37P connector plug type External Device Setup Manual
19 Toshiba 19.3.5 Connection Diagram 5: RS485 Terminal Block - MICRO/I 2 2 2 2 D-sub, 9P connector plug type Connection to a PLC Terminal block 2 2 2 2 2 Terminal block Terminal 2 There is no pin number corresponding to TERM on the HG2G-S/-5S/-5F, HG3G/4G. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
Chapter 2 Terminal block D-sub, 9P connector socket type Terminal block Terminal There is no pin number corresponding to TERM on the HG1F. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
19 Toshiba 2 2 2 2 Connection to a PLC 2 Terminal block D-sub, 25P connector socket type 2 2 2 2 2 2 Terminal block D-sub, 37P connector plug type There is no pin number corresponding to TERM on the HG2S. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
Chapter 2 19.3.
19 Toshiba 2 2 2 2 D-sub, 9P connector socket type Connection to a PLC D-sub, 15P connector socket type 2 2 2 2 2 2 D-sub, 15P connector socket type D-sub, 25P connector socket type 2 2 2 2 2 D-sub, 15P connector socket type D-sub, 37P connector plug type External Device Setup Manual 493
Chapter 2 19.3.7 Connection Diagram 7: T2N RS485 D-sub 15Pin connector(RS232C, RS485) - MICRO/I D-sub, 15P connector socket type D-sub, 9P connector plug type D-sub, 15P connector socket type Terminal There is no pin number corresponding to TERM on the HG2G-S/-5S/-5F, HG3G/4G. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
19 Toshiba 2 2 2 2 Connection to a PLC 2 D-sub, 15P connector socket type D-sub, 9P connector socket type 2 2 2 2 2 2 D-sub, 15P connector socket type Terminal There is no pin number corresponding to TERM on the HG1F. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
Chapter 2 D-sub, 15P connector socket type D-sub, 25P connector socket type D-sub, 15P connector socket type D-sub, 37P connector plug type There is no pin number corresponding to TERM on the HG2S. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
19 Toshiba 19.4 Environment Settings Refer to the followings to configure the communication port between PLC (PROSEC T Series or V Series) and MICRO/I. Attend to the limitation of the configuration. It depends on the CPU unit and Link unit. 19.4.
Chapter 2 19.5 Usable Devices Bit Device Device Name Device Symbol Address Range Read /Write Address Gradual MICRO/I PLC Input device X X 0 - 8191F R *1 Output device Y Y 0 - 8191F R/W *1 Auxiliary device R R 0 - 4095F R/W *1 Special device S S 0 - 511F R/W *1 Timer device TS T. 0 - 999 R DEC Counter device CS C. 0 - 511 R DEC Link device Z Z 0 - 999F R/W *1 Link relay L L 0 - 255F R/W *1 Address Range Read /Write Address Gradual *1.
19 Toshiba 19.6 The mapping table of devices between PROSEC T Series and V Series When you use V Series PLCs, refer to the following table and replace a device name from PROSEC T Series to V Series.
Chapter 2 20 LS Industrial Systems 20.1 Connection Table 20.1.
20 LS Industrial Systems 20.2 System Configuration This is the system configuration for the connection of LS Industrial Systems PLCs to the MICRO/I. 20.2.1 MASTER-K K10S1 (Loader Port) 2 MASTER-K K10S1 MICRO/I 2 RS232C Connection Diagram 1 2 20.2.2 2 MASTER-K K80S, K120S, K200S (Loader Port) Connection to a PLC MASTER-K 2 K80S K120S MICRO/I 2 K200S RS232C Connection Diagram 2 2 2 20.2.
Chapter 2 20.2.4 MASTER-K K200S (Interface Module) MASTER-K K200S G6L-CUEB MICRO/I RS232C Connection Diagram 3 G6L-CUEC MICRO/I RS485 4-wire Connection Diagram 4 20.2.
20 LS Industrial Systems 20.3 Connection Diagram The connector types given in the Connection Diagrams are for the unit and not the cable. For details regarding wiring, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19. 20.3.
Chapter 2 504 Mini Din 6Pin D-sub, 25P connector socket type Mini Din 6Pin D-sub, 37P connector plug type External Device Setup Manual
20 LS Industrial Systems 20.3.
Chapter 2 506 D-sub, 25P connector plug type D-sub, 9P connector socket type D-sub, 25P connector plug type D-sub, 25P connector socket type D-sub, 25P connector plug type D-sub, 37P connector plug type External Device Setup Manual
20 LS Industrial Systems 20.3.
Chapter 2 508 D-sub, 25P connector socket type D-sub, 9P connector socket type D-sub, 25P connector socket type D-sub, 25P connector socket type D-sub, 25P connector socket type D-sub, 37P connector plug type External Device Setup Manual
20 LS Industrial Systems 20.3.4 Connection Diagram 4: MASTER-K (Interface Module RS485 Port) - MICRO/I 2 2 2 2 D-sub, 9P connector plug type Connection to a PLC Terminal Block 2 2 2 2 2 Terminal Block Terminal 2 There is no pin number corresponding to TERM on the HG2G-S/-5S/-5F, HG3G/4G. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
Chapter 2 Terminal Block D-sub, 9P connector socket type Terminal Block Terminal There is no pin number corresponding to TERM on the HG1F. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
20 LS Industrial Systems 2 2 2 2 Connection to a PLC 2 Terminal Block D-sub, 25P connector socket type 2 2 2 2 2 2 Terminal Block D-sub, 37P connector plug type There is no pin number corresponding to TERM on the HG2S. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
Chapter 2 20.4 Environment Settings Refer to the followings to configure the communication port between PLC (PROSEC T Series or V Series) and MICRO/I. Attend to the limitation of the configuration. It depends on the CPU unit and Link unit. 20.4.1 LG Industrial Systems MASTER-K K10S1, K80S, K120S, K200S (Loader Port) Items Details Interface RS232C Baud Rate [bps] 38400 Data Bits 8 Parity None Stop Bits 1 Flow Control None 20.4.
20 LS Industrial Systems 20.
Chapter 2 21 VIGOR 21.1 Connection Table 21.1.
21 VIGOR 21.2 System Configuration This is the system configuration for the connection of VIGOR PLCs to the MICRO/I. 21.2.1 VB0, VB1, VB2, VH (Programming Tool Communication Port) VB0, VB1, VB2, VH 2 MICRO/I 2 RS232C Connection Diagram 1 2 21.2.2 2 VB0, VB1, VB2, VH (VB-485A) MICRO/I Connection to a PLC VB-485A VB0, VB1, VB2, VH 2 RS485 Connection Diagram 2 2 2 21.2.
Chapter 2 21.2.4 VB0, VB1, VB2, VH (VB-232) VB-232 VB0, VB1, VB2, VH MICRO/I RS232C Connection Diagram 5 21.2.
21 VIGOR 21.3 Connection Diagram The connector types given in the Connection Diagrams are for the unit and not the cable. For details regarding wiring, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19. 21.3.
Chapter 2 518 A type connector D-sub, 25P connector socket type A type connector D-sub, 37P connector plug type External Device Setup Manual
21 VIGOR 21.3.2 Connection Diagram 2: VB0, VB1, VB2, VH (VB-485A) 2 2 2 2 D-sub, 9P connector plug type Connection to a PLC Screw down terminal block 2 2 2 2 2 Screw down terminal block Terminal 2 HG2G-5F, HG3G/4G Series uses only RDA and RDB when using RS422/485 2-wire, you don’t need to connect SDA or SDB. If connecting COM1 on the HG2G-5F, HG3G/4G to the external device, do not insert terminating resistor to the external device.
Chapter 2 520 Screw down terminal block D-sub, 9P connector socket type Screw down terminal block Terminal Screw down terminal block D-sub, 25P connector socket type External Device Setup Manual
21 VIGOR 2 2 2 2 Connection to a PLC 2 Screw down terminal block D-sub, 37P connector plug type 2 2 2 2 2 2 2 2 2 2 External Device Setup Manual 521
Chapter 2 21.3.
21 VIGOR 2 2 2 2 D-sub, 25P connector socket type Connection to a PLC Screw down terminal block 2 2 2 2 2 Screw down terminal block D-sub, 37P connector plug type 2 2 2 2 2 2 External Device Setup Manual 523
Chapter 2 21.3.4 Connection Diagram 4: VB0, VB1, VB2, VH (VB-CADP) - RS485 Screw down terminal block D-sub, 9P connector plug type Screw down terminal block Terminal - There is no pin number corresponding to TERM on the HG2G-S/-5S/-5F, HG3G/4G. When inserting a termination resistor, use a communication switch.
21 VIGOR 2 2 2 2 D-sub, 9P connector socket type Connection to a PLC Screw down terminal block 2 2 2 2 2 Screw down terminal block Terminal There is no pin number corresponding to TERM on the HG1F. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
Chapter 2 Screw down terminal block D-sub, 25P connector socket type Screw down terminal block D-sub, 37P connector plug type There is no pin number corresponding to TERM on the HG2S. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
21 VIGOR 21.3.
Chapter 2 528 D-sub, 9P connector socket type D-sub, 25P connector socket type D-sub, 9P connector socket type D-sub, 37P connector plug type External Device Setup Manual
21 VIGOR 21.3.6 Connection Diagram 6: VB0, VB1, VB2, VH (VB-485) 2 2 2 2 D-sub, 9P connector plug type Connection to a PLC Screw down terminal block 2 2 2 2 Screw down terminal block Terminal - There is no pin number corresponding to TERM on the HG2G-S/-5S/-5F, HG3G/4G. When inserting a termination resistor, use a communication switch.
Chapter 2 Screw down terminal block D-sub, 9P connector socket type Screw down terminal block Terminal There is no pin number corresponding to TERM on the HG1F. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
21 VIGOR 2 2 2 2 Connection to a PLC 2 Screw down terminal block D-sub, 25P connector socket type 2 2 2 2 2 2 Screw down terminal block D-sub, 37P connector plug type There is no pin number corresponding to TERM on the HG2S. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
Chapter 2 21.4 Environment Settings The communication port settings for VB/VH series and MICRO/I host port are as follows. 21.4.1 VB/VH Series (Communication Port for Programming Tool) Items Details Interface Baud Rate [bps] Data Bits RS232C Use the same settings as for the MICRO/I. 19200 (fixed) 7 (fixed) Parity Even Stop Bits 1 (fixed) Flow Control None Station Number 0 (fixed) 21.4.
21 VIGOR 21.
Chapter 2 22 Emerson 22.1 Connection Table 22.1.1 Compatible PLCs Series Name FloBoss System (CPU unit) FloBoss 107*1 Link Unit Not required WindO/I-NV2 Settings Interface Flow Control Host I/F Driver RS422/485 2-wire Connection Diagram 1 (refer to P536) None ROC Protocol RS232C Connection Diagram2 (refer to P537) *1. We tested with the PLC of these parts.
22 Emerson 22.2 System Configuration This is the system configuration for the connection of Emerson PLCs to the MICRO/I. 22.2.
Chapter 2 22.3 Connection Diagram The connector types given in the Connection Diagrams are for the unit and not the cable. For details regarding wiring, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19. 22.3.
22 Emerson 22.3.
Chapter 2 22.4 Environment Settings The communication port settings for FloBoss series and MICRO/I host port are as follows. 22.4.1 Connecting with FloBoss COM1 (RS485) or COM2 (RS232C) Items Details Interface Baud Rate [bps] Data Bits 538 RS232C, RS485 Use the same settings as for the MICRO/I. 1200, 2400, 4800, 9600, 19200, 38400, 57600, 115200 7, 8 Stop Bits 1, 2 Parity None, Even or Odd Flow Control None HMI Group No. Set the Group No. of MICRO/I. HMI Unit No. Set the Unit No.
22 Emerson 22.5 Usable Devices When the Emerson ROC Protocol host I/F driver is selected, check the usable PLC devices in the Device Address Settings dialog box. Click [...] for the option to configure device addresses to display the Device Address Settings dialog box. 2 Example: To set a PLC device to the Bit Button. 1. Place the Bit Button on the screen and double click to edit it. The Properties dialog box will be displayed.
Chapter 2 2. Click [...] to the right of the Destination Device text box. The Device Address Settings dialog box will be displayed. 3. Under Target, select Host.
22 Emerson 4. The various Point Types will be displayed.
Chapter 2 5. The selected Device Address is displayed in the Destination Device.
22 Emerson - The following shows the way to set TLP Selection which is selected in Emerson ROC software. Emerson ROC WindO/I-NV2 Details Point Type Point Type Select Point Type which you selected in Emerson ROC software from Point Type box. Logical Number Location Find number of Logical Number (which is shown in middle of TLP) which you selected in Emerson ROC software and input it in Location box Parameter Paramete Select Parameter which you selected in Emerson ROC software form Parameter box.
Chapter 2 544 External Device Setup Manual
Chapter 3 O/I Link Communication 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 545
Chapter 3 1 O/I Link Communication 1.1 Outline O/I Link Communication is used for performing 1:N communication (where one PLC is connected to multiple MICRO/I and Touch units). Construct a Master/Slave network (hereafter called an O/I Link) using the MICRO/I and Touch units, and perform PLC Link Communication with the PLC using the Master MICRO/I or Touch (hereafter called Master). The Slave MICRO/I and Touch units (hereafter called Slaves) can read from and write to the PLC devices via the Master.
1 O/I Link Communication 1.3 Required Optional Parts A HG2G-S/-5S, HG1F/2F/3F/4F must be equipped with an HG9Z-2G1 O/I Link Unit in order to be able to perform O/I Link communication. Refer to the O/I Link Unit installation, WindO/I-NV2 User’s Manual or SmartAXIS Touch User's Manual for details regarding connection to the HG2G-S/-5S, HG1F/2F/3F/4F and wiring. • HG9Z-2G1 1.4 1.4.
Chapter 3 1.4.3 Connect between HG2G-S/-5S, HG1F/2F/3F/4F + O/I Link Unit Wiring Diagram HG2G-S/-5S/-5F, HG3G/4G Series use different type of O/I link communication protocol than HG1F/2F/2S/3F/4F. HG2GS/-5S/-5F, HG3G/4G Series can not be connected with other HG1F/2F/2S/3F/4F in O/I link communication.
1 O/I Link Communication 1.4.4 Connect between HG2G-S/-5S, HG1F/2F/3F/4F+O/I Link Unit (Master) and HG2G-S/-5S, HG1F/ 2F/3F/4F serial interface1 (Slave) 3 3 3 3 3 Wiring Diagram 3 O/I Link Communication 3 3 3 3 - HG2G-S/-5S Series use different type of O/I link communication protocol than HG1F/2F/2S/3F/4F. HG2G-S/-5S Series can not be connected with other HG1F/2F/2S/3F/4F in O/I link communication. - The HG2G-S/-5S, HG1F/2F/3F/4F serial interface1 can only be operated as a slave.
Chapter 3 1.4.5 Connect between HG1F/2F/3F/4F+O/I Link Unit (Master) and HG2S serial interface1 (Slave) Wiring Diagram The HG2S can only be operated as a slave.
2 O/I Link Communication Settings 2 O/I Link Communication Settings To use the O/I Link Communication, you must set the necessary items in the O/I Link tab of the Configuration - System Setup Project dialog box. (Refer to the WindO/I-NV2 User’s Manual or SmartAXIS Touch User's Manual.) 3 Dialog Box Name - Tab Name Setting Description Project Settings O/I Link O/I Link Station Set the MICRO/I or Touch connected to the PLC as the master, and the other MICRO/I or Touch as slaves (1 to 15).
Chapter 3 Dialog Box Name - Tab Name Setting Master Slave 1 to 15 Project Settings Communication Interface SERIAL 2/COM2 The use of Serial 2 depends on the following selected O/I type : The use of Serial 2 depends on the following selected O/I type. HG2G-5F, HG3G/4G series: HG2G-5F, HG3G/4G series: Serial 2 maybe selected as the “O/I Link Master” for O/I Link communication, or select “Host Communication” as the communication interface for PLC communication.
3 Communication Service 3 Communication Service The Master is equipped with registers for changing the slave connection settings and for monitoring the online status of the slaves. In addition, the slaves are equipped with a register that can be used to monitor the polling period of the master.
Chapter 3 4 Communication Status Confirmation 4.1 Master Error Processing The master does not display O/I Link errors. To monitor for errors, compare LSD102 and LSD104. If they are different, it indicates that there is a communication problem. In the case of PLC Link communication with the PLC, errors are displayed and the error information is written to the System Area. 4.
4 Communication Status Confirmation When there are one or more slave units in the offline status, the total scanning time of the O/I Link will increase by 30 msec. Even when 15 slave units are in offline status, the increase will remain at 30 msec. After power is turned on, the master sends handshake commands to the registered slave units in the ascending sequence and launches normal communication starting with the slave units that send back the response.
Chapter 3 5 Notice to O/I link 5.1 Runtime System Software Version of the MICRO/I or Touch The O/I Link communication will not function if the MICRO/I or Touch with runtime system software version 1.7 and above are used with older version of the software, 1.6x or earlier. 5.2 Communication Traffic Volume of the O/I Link Network The network scanning time which includes the time to retrieve data from PLC and also to communicate to O/I link depends on the amount of communication on the network.
6 Result on the Performance Evaluation of the MICRO/I 6 Result on the Performance Evaluation of the MICRO/I Evaluation of O/I Link performance with the MICRO/I is conducted in the following conditions. 6.1 3 Conditions PLC PLC Link compatible MELSEC-Q Series Baud Rate: 115200 bps O/I Link No. of units: 16 Total cable length: 200 m Baud Rate: 115 kbps 6.1.1 3 3 When devices of the same type are set for Slave 1 to 15 For master unit, enable System Area 1 to 4 (12 words data).
Chapter 3 558 External Device Setup Manual
Chapter 4 DM Link Communication 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 559
Chapter 4 1 Outline 1.1 Outline With the DM Link communication, devices such as PLCs, PCs, and board computers (hereafter referred to as external device) read from and write to dedicated DM Link memory (hereafter referred to as data memory) in the MICRO/I or Touch.
2 System Configuration 2 System Configuration The system configuration for the DM Link communication is shown below. 2.1 DM Link 1:1 Communication 4 4 4 4 4 4 4 2.2 DM Link 1:N Communication 4 DM Link Communication 4 4 4 4 4 4 4 - When using an RS232C connection with DM Link 1:N communication, only one MICRO/I or Touch unit can be connected.
Chapter 4 3 Wiring The following is an example of wiring for use with DM Link communication. 3.1 3.1.1 RS232C With Hardware External Device: DOS/V Personal Computer System.
3 Wiring 4 4 4 4 D-sub, 9P connector D-sub, 9P connector type 4 4 4 4 DM Link Communication 4 D-sub, 9P connector D-sub, 25 connector type 4 4 4 4 4 4 D-sub, 9P connector D-sub, 37P connector plug type The pin numbers are for a typical personal computer. Be sure to check the pin arrangement for the external device that you will be using.
Chapter 4 3.1.2 Without Hardware External Device: DOS/V Personal Computer System.
3 Wiring 4 4 4 4 D-sub, 9P connector plug type D-sub, 25P connector type 4 4 4 4 DM Link Communication 4 4 D-sub, 9P connector plug type D-sub, 37P connector plug type 4 The pin numbers are for a typical personal computer. Be sure to check the pin arrangement for the external device that you will be using.
Chapter 4 3.2 3.2.1 RS422/485 4-wire D-sub, 9P connector plug type Terminal - There is no pin number corresponding to TERM on the HG2G-S/-5S/-5F, HG3G/4G. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19. - Touch has no pin number corresponding to TERM. When a termination resistor is necessary, insert one with suitable resistance value between pin 8 (RDA) and pin 9 (RDB).
3 Wiring 4 4 4 4 4 D-sub, 9P connector type 4 4 4 DM Link Communication 4 4 Terminal 4 There is no pin number corresponding to TERM on the HG1F. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
Chapter 4 D-sub, 25P connector type D-sub, 37P connector plug type There is no pin number corresponding to TERM on the HG2S. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
3 Wiring 3.2.2 2-wire 4 4 4 4 D-sub, 9P connector plug type 4 4 4 4 DM Link Communication 4 Terminal - There is no pin number corresponding to TERM on the HG2G-S/-5S/-5F, HG3G/4G. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19. - HG2G-5F, HG3G/4G Series uses only RDA and RDB when using RS422/485 2-wire, you don’t need to connect SDA or SDB.
Chapter 4 D-sub, 9P connector type Terminal There is no pin number corresponding to TERM on the HG1F. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
3 Wiring 4 4 4 4 4 D-sub, 25P connector type 4 4 4 DM Link Communication 4 4 4 D-sub, 37P connector plug type There is no pin number corresponding to TERM on the HG2S. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
Chapter 4 3.2.3 RS422/485 2-wire (DM Link 1:N Communication: N=2) In the following diagram, only describe the terminal name. Refer to Chapter 4 "3.2.2 2-wire" on page 569 for the correspondence between the terminal name and the pin number HG2G-5F, HG3G/4G Wiring Diagram If more than one MICRO/I or Touch are connected to an external device, select “RS422/485 2-wire” as “Serial Interface”. HG2G-S/-5S, HG1F/2F/2S/3F/4F, Touch Wiring Diagram - There is no pin number corresponding to TERM on the HG1F/HG2S.
4 Communication Specifications 4 Communication Specifications 4.1 Communication Method The communication method varies depending on the serial interface selected. 4.1.1 DM Link 1:1 Communication Interface 4 Communication Method RS232C Full Duplex RS422/485 2-wire Half Duplex RS422/485 4-wire Full Duplex 4.1.2 4 4 4 DM Link 1:N Communication Interface Communication Method RS232C Half Duplex 4 4 RS422/485 2-wire RS422/485 4-wire 4 4.
Chapter 4 4.3.
5 Data Memory (DM) Allocation 5 Data Memory (DM) Allocation With the DM Link communication, DM0 to DM13 and DM16 to DM8191 are the user area that you can freely use. DM14 and DM15 are allocated as the event data transmission control area.
Chapter 4 6 DM Link Communication Settings The settings required in WindO/I-NV2 or WindO/I-NV3 for the using the DM Link communication are located in the Configuration - System Setup - Project dialog box. (Refer to 1.3 and 1.4 in Chapter 2 of the WindO/I-NV2 User’s Manual or SmartAXIS Touch User's Manual. Set the items in the following table in accordance with the external device that you will be using.
7 DM Link 1:1Communication Format 7 DM Link 1:1Communication Format With DM Link 1:1 communication, the following communication format is used. • Command (Response) 4 Read Write Transmission Control Clear • 4 Event Event Transmission 7.1 4 Read This command is used by the external device to read the MICRO/I or Touch data memory. One command can read a maximum of 255 words of data. 7.1.
Chapter 4 7.1.2 Response Format: Normal response Format: Error response Detailed description: Normal response Command Code Description Bytes STX 02h Response start 1 R 52h Read response 1 DM address Starting DM address for read. This is expressed as the ASCII code of the hexadecimal value of the address. 4 Words Number of words to read The hexadecimal value expressed using ASCII code. 2 Data DM address data The hexadecimal value expressed using ASCII code.
7 DM Link 1:1Communication Format 7.1.4 Read Sequence 4 4 4 4 4 Do not transmit the following command until the external device receives the response of a command which transmitted to the display machine or serves as a timeout. 7.1.5 • Read Communication Example 4 4 To read the two words of data in DM200 and DM201 (without BCC, Basic protocol format) If the data in DM200 is 4951 (1357h), and the data in DM201 is 9320 (2468h) the sequence is as follows.
Chapter 4 7.2 Write This command is used by the external device to write data to the MICRO/I or Touch data memory. One command can write a maximum of 255 words of data. 7.2.1 Command Format Detailed description Command Code Description Bytes ENQ 05h Command start 1 W 57h Write Command 1 DM Address DM address to begin writing from 4 Words Number of words to write This is expressed as the ASCII code of the hexadecimal value of the address.
7 DM Link 1:1Communication Format 7.2.2 Response Format: Normal response 4 4 Format: Error response 4 4 4 Detailed description: Normal response Command Code Description Bytes ACK 06h Write completed normally. 1 W 57h Write response. (Only Protocol format 1) 1 CR 0Dh End. (Only Protocol format 1) 1 4 4 Detailed description: Error response Command Code Description Bytes NAK 15h Command was not received correctly. 1 CR 0Dh 7.2.3 Write Sequence Refer to 10 Error Processing.
Chapter 4 7.2.
7 DM Link 1:1Communication Format 7.3 Transmission Control The external device command controls the transmission from the MICRO/I or Touch. The commands are Transmission Prohibited and Transmission Allowed. The Transmission Control commands are the same as the general X-ON and X-OFF commands. Therefore, you can use DM Link 1:1 Communication with an external device that can perform X-ON and OFF control without making any settings. 7.3.
Chapter 4 7.3.3 Transmission Control Sequence 7.3.
7 DM Link 1:1Communication Format 7.4 Clear Command This external device command clears the MICRO/I or Touch receive buffer. 7.4.1 Command 4 Format 4 4 Detailed description Command Code Description Bytes EOT 04h Clear the receive buffer 1 4 4 When the MICRO/I or Touch receives the EOT command, all data received prior to receiving it is cleared.
Chapter 4 7.5 Event Transmission This is used to perform Event Transmission when a value in the MICRO/I or Touch data memory is changed 7.5.1 Command Format Detailed description Command Code Description Bytes STX 02h Command start 1 E 45h Event Transmission command 1 DM Address Event Transmission address. This is expressed as the ASCII code of the hexadecimal value of the address. 4 Words Event Transmission words. The hexadecimal value expressed using ASCII code.
7 DM Link 1:1Communication Format 7.5.
Chapter 4 8 DM Link 1:N Communication Format The communication format with DM Link 1:N Communication is as follows. • Command (Response) Read Write Clear 8.1 Read The Read command is used by the external device to read the MICRO/I or Touch data memory. One command can read a maximum of 255 words of data. 8.1.1 Command Format Detailed description Command Code Description Bytes ENQ 05h Command Start 1 DM Link Station Number expressed in ASCII.
8 DM Link 1:N Communication Format 8.1.2 Response Format: Normal response 4 4 4 Format: Error response 4 4 Detailed description: Normal response Command Code STX 02h Station Number R 52h Description Bytes Response start 1 DM Link Station Number expressed in ASCII. 2 1 DM address to start reading from This is expressed as the ASCII code of the hexadecimal value of the address. 4 Words Number of words to read 2 The hexadecimal value expressed using ASCII code.
Chapter 4 8.1.3 Read Sequence Do not transmit the following command until the external device receives the response of a command which transmitted to the display machine or serves as a timeout. 8.1.4 • Read Communication Example Read the two words of data from DM200 and DM201 of DM Link Station Number 1 (without BCC) In this example the data in DM200 is 1357h and the data in DM201 is 2468h. The DM address 200 (00C8h) is converted to ASCII code and stored.
8 DM Link 1:N Communication Format 8.2 Write This command is used by the external device to write data to the MICRO/I or Touch data memory. One command can write a maximum of 255 words of data. 8.2.1 4 Command Format 4 4 4 Detailed description Command Code Description Bytes ENQ 05h Command Start 1 DM Link Station Number expressed in ASCII.
Chapter 4 8.2.2 Response Format: Normal response Format: Error response Detailed description: Normal response Command Code Description Bytes ACK 06h Write finished correctly. 1 DM Link Station Number expressed in ASCII. 2 W 57h Write response 1 CR 0Dh End 1 Station Number Detailed description: Error response Transmission Command Code Description Bytes NAK 15h Command was not received correctly. 1 DM Link Station Number expressed in ASCII. 2 Refer to 10 Error Processing.
8 DM Link 1:N Communication Format 8.2.3 Write Sequence 4 4 4 4 4 Do not transmit the following command until the external device receives the response of a command which transmitted to the display machine or serves as a timeout. 8.2.
Chapter 4 8.3 Clear This command is used by the external device to clear the MICRO/I or Touch receive buffer. 8.3.1 Command Format Detailed description Command Code Description Bytes EOT 04h Clear receive buffer 1 When the MICRO/I or Touch receives the EOT command, all data received prior to receiving it is cleared. 8.4 Station Number With DM Link 1:N Communication, the MICRO/I or Touch receives commands when the station number is its own station number, FFh or 00h.
9 BCC Calculation 9 BCC Calculation 9.1 BCC Calculation Example (for DM Link 1:N Communication) 4 4 4 4 4 4 Refer to the Exclusive OR (XOR) truth table to calculate BCC.
Chapter 4 10 Error Codes • When a command that starts with the ENQ (05h) code and ends with CR (0Dh) code is received, but the content is not valid, an error response is returned. • The error response codes are as follows. Error Code Type Error Description '2' (32h) BCC BCC doesn't match (when “with BCC” is set) '3' (33h) Command A command other than 'W' or 'R' was received '4' (34h) Address Invalid DM address (other than DM0 to DM8191) '5' (35h) No.
Chapter 5 Modbus 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 597
Chapter 5 1 Modbus Selecting Modbus RTU or Modbus TCP Client for the Host I/F Driver or Communication Driver allows the user to use the 1: N Communication function. • 1: N Communication function (Chapter 6 1: N Communication Function) 1.1 1.1.
1 Modbus 1.1.
Chapter 5 1.2 System Configuration This is the system configuration for the connection of Schneider PLCs to the MICRO/I or Touch. 1.2.1 Modbus RTU Master MICRO/I Touch RS232C, RS485 Equipment for Modbus RTU Slave 1.2.2 Modbus ASCII Master MICRO/I Touch RS232C, RS485 Equipment for Modbus ASCII Slave 1.2.3 Modbus TCP Client MICRO/I Touch Ethernet Equipment for Modbus TCP Server - Use a crossover cable to connect the MICRO/I or Touch and PLC directly.
1 Modbus 1.2.4 Server MICRO/I Touch Ethernet 5 5 Equipment for Modbus TCP Client 5 - Use a crossover cable to connect the MICRO/I or Touch and PLC directly. - When using a hub (Ethernet switch), use a cable that can be used with the hub. 1.2.
Chapter 5 • Compact Controller + Communication Adapter MICRO/I Touch RS232C Connection Diagram 1 TWD LC*A 16DRF TWDNAC232D TWD LC*A 24DRF (Communication Adapter) TWD LCA* 40DRF MICRO/I Touch RS485 Connection Diagram 2 TWD LC*A 16DRF TWDNAC485D TWD LC*A 24DRF (Communication Adapter) TWD LCA* 40DRF MICRO/I Touch RS485 Connection Diagram 3 TWD LC*A 16DRF TWDNAC485T TWD LC*A 24DRF (Communication Adapter) TWD LCA* 40DRF 602 External Device Setup Manual
1 Modbus • Module Controller + Communication Module MICRO/I Touch RS232C Connection Diagram 1 5 5 TWD LMDA 20DTK 5 TWD NOZ232D TWD LMDA 20DUK 5 TWD LMDA 20DRT TWD LMDA 40DTK TWD LMDA 40DUK 5 MICRO/I Touch 5 RS485 Connection Diagram 2 5 5 TWD LMDA 20DTK TWD NOZ485D TWD LMDA 20DUK 5 TWD LMDA 20DRT TWD LMDA 40DTK 5 TWD LMDA 40DUK RS485 Connection Diagram 3 Modbus MICRO/I Touch 5 5 5 TWD LMDA 20DTK TWD NOZ485T TWD LMDA 20DUK 5 TWD LMDA 20DRT TWD LMDA 40DTK 5 TWD LMDA 40DUK Externa
Chapter 5 • Module Controller + HMI Module + Communication Adapter MICRO/I Touch RS232C Connection Diagram 1 TWD LMDA 20DTK TWD LMDA 20DUK TWD XCP ODM (HMI Module) TWD NAC232D (Communication Adapter) TWD LMDA 20DRT TWD LMDA 40DTK TWD LMDA 40DUK MICRO/I Touch RS485 Connection Diagram 2 TWD LMDA 20DTK TWD LMDA 20DUK TWD XCP ODM (HMI Module) TWD NAC485D (Communication Adapter) TWD LMDA 20DRT TWD LMDA 40DTK TWD LMDA 40DUK MICRO/I Touch RS485 Connection Diagram 3 TWD LMDA 20DTK TWD LMDA 20DUK TWD XCP
1 Modbus 1.2.6 Momentum (MODUBS/TCP Client) Ethernet 10BASE-T 5 HG2G-S/-5S/-5F, HG3G/4G, HG3F/4F, Touch 171CCC9602 5 5 - Use a crossover cable to connect the MICRO/I or Touch and PLC directly. - When using a hub (Ethernet switch), use a cable that can be used with the hub. - Please avoid using for the long distance communication because this driver may be used in the control network in the same factory only.
Chapter 5 1.2.7 1: N Communication-TWDL CAA16DRF/TWDLCAA24DRF +TWDNAC485D (Communication board) The 1: N communication can be established by using the following connection. MICRO/I Touch RS485 Connection Diagram 2 ... PLC1 1.2.8 PLC2 PLC3 PLCn 1: N Communication- TWDLCAA16DRF/TWDLCAA24DRF +TWDNAC485T (Communication board) The 1: N communication can be established by using the following connection. MICRO/I Touch RS485 Connection Diagram 3 ...
1 Modbus 1.3 Connection Diagram For details regarding wiring and termination resistors, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19. 1.3.
Chapter 5 Mini Din 8P D-sub, 9P connector socket type In case of HG1F a connection cable is available. (part number: HG9Z-XC183). Mini Din 8P D-sub, 25P connector socket type - In case of HG2F/3F/4F a connection cable is available. (part number: HG9Z-3C125). - The connection diagram 1 is not same as HG9Z-3C125. But both diagrams are available. Refer to Chapter 7 "1.4 PLC connection cable: HG9Z-3C125" on page 645 about the connection diagram of HG9Z-3C125.
1 Modbus 5 5 5 5 Mini Din 8P D-sub, 37P connector plug type 5 5 5 5 5 5 Modbus 5 5 5 5 5 External Device Setup Manual 609
Chapter 5 1.3.2 Connection Diagram 2: TWDNAC485D to MICRO/I or Touch Mini Din 8P D-sub, 9P connector plug type Mini Din 8P Terminal - There is no pin number corresponding to TERM on the HG2G-S/-5S/-5F, HG3G/4G. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19 - HG2G-5F, HG3G/4G Series uses only RDA and RDB when using RS422/485 2-wire, you don’t need to connect SDA or SDB.
1 Modbus 5 5 5 5 5 Mini Din 8P D-sub, 9P connector socket type 5 5 5 5 Mini Din 8P Terminal Modbus There is no pin number corresponding to TERM on the HG1F. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19. 5 5 5 When you use the Terminal Block type of HG1F, make sure to configure the Hardware Flow control to NONE.
Chapter 5 Mini Din 8P D-sub, 25P connector socket type In case of HG2F/3F/4F a connection cable is available. (part number: HG9Z-3C115). D-sub, 9P connector plug type D-sub, 37P connector plug type There is no pin number corresponding to TERM on the HG2S. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
1 Modbus 1.3.3 Connection Diagram 3: TWDNAC485T to MICRO/I or Touch 5 5 5 5 Screw terminal block D-sub, 9P connector plug type 5 5 5 5 5 Screw terminal block Terminal 5 - HG2G-5F, HG3G/4G Series uses only RDA and RDB when using RS422/485 2-wire, you don’t need to connect SDA or SDB. If connecting COM1 on the HG2G-5F, HG3G/4G to the external device, do not insert terminating resistor to the external device. If terminating resistor can not be removed, use COM2 on the HG2G-5F, HG3G/4G instead of COM1.
Chapter 5 Screw terminal block D-sub, 9P connector socket type Screw terminal block Terminal There is no pin number corresponding to TERM on the HG1F. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19. When you use the Terminal Block type of HG1F, make sure to configure the Hardware Flow control to NONE.
1 Modbus 5 5 5 5 5 Screw terminal block D-sub, 25P connector socket type 5 5 5 5 5 Modbus 5 Screw terminal block D-sub, 37P connector plug type There is no pin number corresponding to TERM on the HG2S. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
Chapter 5 1.4 Environment Settings 1.4.1 Twido Items Details Interface The same setting as MICRO/I or Touch Slave Address*1 RS232C, RS485 2-wire 1 - 247(DEC) Baud Rate (bps) 1200, 2400, 4800, 9600, 19200 or 38400 Data Bits 7 or 8 Parity None, Even or Odd Stop Bits 1 or 2 Flow Control Hardware Use No.0 as Broadcast 0: Disable, 1: Enable Use function6 instead of function16 Use function6 for writing to HR *1. Set a decimal number for the Slave Address. 1.4.
1 Modbus 1.5 1.5.1 Usable Devices Modbus RTU Master, Modbus ASCII Master, Modbus TCP Client Bit Device Device Name Device Symbol Address Range Read /Write Address Gradual MICRO/I, Touch PLC Coil C C 1 - 65536 R/W Dec Inputs Status I I 100001 - 165536 R Dec Address Range Read /Write Address Gradual 5 5 5 Word Device Device Name Device Symbol MICRO/I, Touch PLC Holding Registers HR HR 400001 - 465536 R/W Dec Inputs Registers IR IR 300001 - 365536 R Dec 1.5.
Chapter 5 1.6 1.6.1 Modbus TCP Server Overview of the Modbus TCP Server Communication 1. Overview The Modbus TCP Server communication performs that PC or PLC (refers to as an external device) can read and write the MICRO/I or Touch communication devices via the Ethernet. The read/write of a device is performed using the Modbus TCP protocol. Up to 4 external devices can be connected to the MICRO/I or Touch at same time. 2.
1 Modbus 1.6.2 System Configuration The following is the system configuration. 5 5 5 5 5 5 5 - Up to 4 external devices can communicate with a single MICRO/I or Touch unit at one time. - The MICRO/I or Touch unit and an external device can be directly connected on a 1:1 basis by bypassing a hub. In this case, use a crossing cable for the connection. 1.6.3 Wiring 5 Make sure to use commercially available 10BASE-T ready cables for connecting the devices.
Chapter 5 1.6.5 Settings The settings of the Modbus TCP Server communication can be configured in the Configuration - System Setup - Project dialog boxes in WindO/I-NV2 or WindO/I-NV3. The following table lists the configurable settings. Configure the settings according to the external device to be used. 620 Dialog Box - Tab Settings Description Project Settings - Host I/F Driver or Communication Driver Manufacturer Select “Modicon”.
1 Modbus 1.6.6 Communication Format This chapter describes the communication format of the Modbus TCP Server communication. The Modbus TCP Server communication supports Class 0 and Class 1 functions of the OPEN Modbus TCP SPECIFICATION Release1.0. For details about the communication methods, refer to the OPEN Modbus TCP SPECIFICATION Release1.0 as well as this manual. 5 1. Preparations for Communication The Modbus TCP Server performs communications using the TCP.
Chapter 5 4. Functions The MICRO/I or Touch supports the following functions.
1 Modbus Normal response Byte 7 FC (Function code) = 10(HEX) Byte 8-9 Reference No. From Byte 10 Number of write words 5 Byte 7 FC (Function code) = 90 (HEX) 5 Byte 8 Exception code 01 or 02 Abnormal response Example Writing to HR400001 (1 word). The write value is 1234 (HEX). 5 10 00 00 00 01 02 12 34 => 10 00 00 00 01 - FC1 Read coils - Reading of Coil (C) consecutively 5 Request Byte 7 FC (Function code) = 01 Byte 8-9 Reference No.
Chapter 5 Data sequence of read value When two or more data are read out, the read data are arranged starting from the lowest address by 8 bits (1 byte). Within any 1 byte, data in the lower address is set to the lower bit. The data in the unread bit becomes “0”. For example, when reading an 11-bit data as shown below, the read value becomes 21 03.
1 Modbus Data sequence of read value The data sequence for the read value is similar to that of FC1 Read Coils. - FC4 Read input registers - Reading of Input Register (IR) consecutively 5 Request Byte 7 FC (Function code)=04 Byte 8-9 Reference No.
Chapter 5 Normal response Byte 7 FC (Function code) = 06 (HEX) Byte 8-9 Reference No. Byte 10-11 Write data Abnormal response Byte 7 FC (Function code)=86 (HEX) Byte 8 Exception code 01 or 02 Example Writing to HR400001. The write value is 1234 (HEX).
Chapter 6 1: N Communication (Multi-drop) 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 627
Chapter 6 1 About 1: N Communication (Multi-drop) 1.1 Outline Two or more external devices can be connected to a single MICRO/I or Touch to perform PLC Link communication. MICRO/I, Touch RS485/ Ethernet ...
2 Communication Drivers Supporting 1: N Communication 2 Communication Drivers Supporting 1: N Communication The table below lists the Host I/F Drivers or Communication Drivers supporting 1: N communication. 2.
Chapter 6 3 Settings of the 1: N Communication 3.1 Initial Setting When creating a project or converting the Host I/F, set the “Connection Type” to “1: N Communication”. “Connection Type” can only be changed with the Communication Driver supporting 1: N Communication. 3.2 3.2.1 External Device Settings Common setting When 1: N Communication is specified, configure the device setting according to the format below. This applies to the external device settings only. {Station No.
3 Settings of the 1: N Communication 3.2.3 Settings when a communication error occurs Configure the operation settings in the event of a host communication error or communication error. When the HG2G-S/-5S/-5F, HG3G/4G is selected as O/I type or Touch is selected as Product Series and 1:N Communications is selected as the Connection of the Host I/F Driver or Communication Driver, then these settings are displayed in the Host I/F Driver tab or Communication Driver tab on the Project Settings dialog box.
Chapter 6 Communication error information It is possible to check the conditions of the communication and the error log. It is also possible to initialize the connection status for each Station No. 632 - Bit 1: Initialization Writing 1 initializes all values related to error information and communication error information for each Station No. When the value turns to 0 after 1 is written, this indicates that initialization is complete.
3 Settings of the 1: N Communication Communication error information for each Station Number The “Communication error Information” setting stores all communication error information. To refer to error information for each Station No., use this setting. “Communication error information for each Station No.” occupies the same number of devices as the set number of words for each Host I/F Driver or Communication Driver, starting with the set device first.
Chapter 6 3.3 Connection Diagram For the wiring diagram between the PLC and MICRO/I or Touch, refer to the PLC manual for PLC pin-outs. For connecting two or more PLC units with the MICRO/I or Touch, refer to the diagram below. 3.3.1 RS422/485 2-wire system - There is no pin number corresponding to TERM on the HG2G-S/-5S/-5F, HG3G/4G. When inserting a termination resistor, use a communication switch.
3 Settings of the 1: N Communication 6 6 6 6 6 6 6 6 6 6 There is no pin number corresponding to TERM on the HG1F. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
Chapter 6 There is no pin number corresponding to TERM on the HG2S. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
3 Settings of the 1: N Communication 3.3.2 RS422/485 4-wire system 6 6 6 6 6 6 6 6 6 - There is no pin number corresponding to TERM on the HG2G-S/-5S/-5F, HG3G/4G. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19. - Touch has no pin number corresponding to TERM. When a termination resistor is necessary, insert one with suitable resistance value between pin 8 (RDA) and pin 9 (RDB).
Chapter 6 There is no pin number corresponding to TERM on the HG1F. When inserting a termination resistor, use a communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
3 Settings of the 1: N Communication 6 6 6 6 6 6 6 6 6 6 6 There is no pin number corresponding to TERM on the HG2S. When inserting a termination resistor, use a communication 1:N Communication switch. For the setting of the switch, refer to Chapter 1 "3 Important Points Regarding Wiring" on page 19.
Chapter 6 4 1:N Communication Operation 4.1 1:N Communication Operation When 1:N Connection is selected as Connection in the Select/Change Host I/F Driver dialog box or Select/Change Communication Driver dialog box, multiple external devices (PLCs, etc.,) can be connected to a single MICRO/I or Touch. These instructions describe operation when a host communication error or communication error occurs during 1:N communication.
4 1:N Communication Operation Options when using “Ignore communication errors and continue operation" When "Ignore communication errors and continue operation" is enabled, several options become available. This section describes what these optional settings do. Settings Action when MICRO/I or Touch fails to connect to the external device Display error message Enable An error message is displayed, but operation continues(Host communication error or communication error ).
Chapter 6 5 Restrictions Note the following restrictions when performing 1: N communication. • Maximum number of units to be connected Using RS485 : 31 units Using Ethernet : 16 units (May vary depending on the PLC type. Refer to the manual of your PLC for details.) • Maximum number of source devices at one time The maximum number of devices (including O/I Link) that can be read at one time is 8192. Devices exceeding this limit cannot be read out.
Chapter 7 Communication Cables 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 643
Chapter 7 1 Communication Cables 1.1 Maintenance Cable: HG9Z-XCM22 Connection cable for the HG2G-S/-5S, HG1F/2F/2S/3F/4F maintenance port and DOS/V-family personal computers. 1.2 PLC connection cable: FC4A-KC2C Direct connection cable for the HG2F/3F/4F SIO1 and the IDEC MICROSmart.
1 Communication Cables 1.3 PLC connection cable: HG9Z-3C115 Direct connection cable for the HG2F/3F/4F SIO1 and the Schneider Twido Serial Port on CPU module. 7 7 7 7 7 7 7 7 1.4 PLC connection cable: HG9Z-3C125 Direct connection cable for the HG2F/3F/4F SIO1 and the IDEC OpenNet Controller, MicroSmart.
Chapter 7 1.5 PLC connection cable: HG9Z-3C135 Connection cable for the HG2F/3F/4F and PLC (RS232C, D-sub 25P, Mitsubishi and Omron Link Units). 1.6 PLC connection cable: HG9Z-3C145 Connection cable for the HG2F/3F/4F and PLC (RS232C, D-sub 9P, Mitsubishi Link Units).
1 Communication Cables 1.7 PLC connection cable: HG9Z-3C155 Connection cable for the HG2F/3F/4F and PLC (RS232C, D-sub 9P, Omron CPU Unit RS232C I/F).
Chapter 7 1.8 PLC connection cable: HG9Z-3C165 Connection cable for the HG2F/3F/4F and Mitsubishi A and FX Series Programming Port.
1 Communication Cables 1.9 Printer/ External devices/ PLC connection cable: FC2A-KP1C 7 7 7 7 7 7 7 Please perform the following wiring when HG2F/2S/3F/4F be connected with the printer. Refer to the printer instruction manual for details. 7 7 7 Communication Cables 7 Refer to "1.19 PLC connection cable: HG9Z-XC275" (P.654) in this chapter when the HG2G-S/-5S/-5F, HG3G/4G be connected with the PLC.
Chapter 7 1.10 PLC connection cable: FC4A-KC1C Direct connection cable for the HG1F (RS232C type) SIO1 and the IDEC MICROSmart Programming Port. 1.11 PLC connection cable: HG9Z-XC145 Direct connection cable for the HG1F (RS232C type) SIO1 and PLC (RS232C, D-sub 25P, Mitsubishi Computer Link Unit).
1 Communication Cables 1.12 PLC connection cable: HG9Z-XC155 Direct connection cable for the HG1F (RS232C type) SIO1 and PLC (RS232C, D-sub 25P, Omron Host Link Unit). 7 7 7 7 7 7 7 7 7 1.13 PLC connection cable: HG9Z-XC183 7 Direct connection cable for the HG1F (RS232C type) SIO1 and the IDEC OpenNet Controller and MICROSmart Port2.
Chapter 7 1.14 PLC connection cable: HG9Z-XC203 Direct connection cable for the HG1F (RS232C type) SIO1 and PLC (RS232C, D-sub 9P, Mitsubishi Computer Link Unit). 1.15 PLC connection cable: HG9Z-XC213 Direct connection cable for the HG1F (RS232C type) SIO1 and PLC (RS232C, D-sub 9P, Omron CPU Unit RS232C I/F except for C20H/28H/40H).
1 Communication Cables 1.16 PLC connection cable: HG9Z-XC245 Direct connection cable for the HG1F (RS422/485 type) SIO1 and the Mitsubishi FX Series. 7 7 7 7 7 7 7 7 1.17 PLC connection cable: HG9Z-XC255 Direct connection cable for the HG1F (RS422/485 type) SIO1 and the Mitsubishi A/QnA Series.
Chapter 7 1.18 PLC connection cable: HG9Z-XC265 Direct connection cable for the HG1F (RS232C type) SIO1 and the Mitsubishi Q Series. 1.19 PLC connection cable: HG9Z-XC275 Communication cable for the HG2G-S/-5S/-5F, HG3G/4G (RS232C type) Serial 1 and the IDEC MICROSmart or the Mitsubishi FX Series.
1 Communication Cables The following wiring is for the HG2G-S/-5S/-5F, HG3G/4G and the IDEC MICROSmart. 7 7 7 7 7 The following wiring is for the HG2G-S/-5S/-5F, HG3G/4G and the Mitsubishi FX Series (except the FX3U and FX3UC-32MT-LT). 7 7 7 7 7 - Please do not use the HG9Z-XC275 for the MELSEC-FX3U/FX3UC-32-MT-LT because the Mini Din connector interferes with the housing of the PLC.
Chapter 7 1.20 PLC connection cable: HG9Z-XC295 Direct connection cable for the HG2G-5F, HG3G/4G Serial Interface (COM1) and the IDEC MICROSmart Programming Port. 1.21 PLC connection cable: HG9Z-XC305 Direct connection cable for the HG2G-5F, HG3G/4G Serial Interface (COM1) and the Mitsubishi FX Series.
1 Communication Cables 1.22 PLC connection cable: HG9Z-XC315 Direct connection cable for the HG2G-5F, HG3G/4G Serial Interface (COM1) and the Mitsubishi Q Series.
Index Numerics 1:N Communication ...................................................2 1:N Communication Operation .............................640 A Abbreviations, Generic Terms, and Terminology Used in this Manual ...............................................vii About 1: N Communication (Multi-drop) ............. 628 Allen-Bradley .......................................................9, 629 Auto retry .........................................................631, 641 B Basic Format ...................
Index IDEC ..................................................................... 24 INVERTER .......................................................... 430 JTEKT (Toyoda) ................................................... 302 Keyence ............................................................... 240 Koyo Electronics ................................................... 386 LS Industrial Systems ............................................ 500 Mitsubishi .....................................................
Index Initial Setting Settings of the 1: N Communication .........................630 IP Address .................................................................21 J JTEKT (TOYODA) ....................................................12 K Keyence .............................................................10, 629 Koyo ...........................................................................14 Koyo Electronics .....................................................629 L LS Industrial Systems ..........
Index ....................................................... 654 ....................................................... 656 ....................................................... 656 ....................................................... 657 PLC Link Communication ......................................... 2 Port Number ..................................................... 21, 620 Precautions for using the Simulation Mode ....... 642 Preparations for Communication .........................
Index The way of mapping ...............................................212 The way to select device address in WindO/I-NV2 . 212 The way to set device address when use ControlLogix, CompactLogix series ..................212 The way to set device address when use Ethernet/ IP (Logix Native Tag) .......................................... 214 Time ..................................................................552, 576 Time (sec.) .................................................................
