Page 1 C o n n e c t i o n M a n u a l [ 2 ] Contents Overview IDEC JTEKT KEYENCE KOGANEI KOYO ELECTRONICS MITSUBISHI ELECTRIC 10. MODICON 11. MOELLER 12. M-SYSTEM 13. OMRON 14. Oriental Motor 15.
Page 2 Record of Revisions Reference numbers are shown at the bottom left corner on the back cover of each manual. Printing Date Reference No. Revised Contents May, 2014 2211NE0 First edition...
Page 3: Overview
For further details about PLCs, inverters, or temperature controllers, refer to the manual attached to each controller. Notes: 1. This manual may not, in whole or in part, be printed or reproduced without the prior written consent of Hakko Electronics Co., Ltd.
Page 4  After wiring is finished, remove the paper used as a dust cover before starting to operate the V9 series. Operation with the cover attached may result in an accident, fire, malfunction, or trouble.  Do not attempt to repair the V9 series at your site. Ask Hakko Electronics or the designated contractor for repairs.
Page 5 CAUTION  Do not repair, disassemble or modify the V9 series. Hakko Electronics Co., Ltd. is not responsible for any damages resulting from repair, disassembly or modification of a unit that was performed by an unauthorized person.  Do not use a sharp-pointed tool when pressing a touch switch. Doing so may damage the screen.
Page 6: Table Of Contents
Contents Overview System Configuration ............. . . 1-1 1.1.1 Overview .
Page 7 IDEC PLC Connection ..............3-1 Serial Connection.
Page 8 PLC Connection ..............8-1 Serial Connection.
Page 9 9.2.7 Wiring Diagrams ................9-76 When Connected at CN1:.
Page 10 Oriental Motor 14.1 Temperature Controller / Servo / Inverter Connection ....... . . 14-1 Stepping Motor .
Page 11 1. Overview System Configuration Physical Ports Connection Methods Hardware Settings System Device Memory for Communication Confirmation...
Page 12: System Configuration
1.1 System Configuration System Configuration 1.1.1 Overview The V9 series is equipped with seven physical ports consisting of three serial ports, one LAN port, one USB-A port, one USB mini-B port, and one network communication port . The LAN port can open eight ports simultaneously. You can use the physical ports to connect a maximum of eight different models of devices and allow the V9 series to communicate with them at the same time.
Page 13: System Composition
1. Overview 1.1.2 System Composition Serial Communication  1 : 1 Connection A communication port is selectable from CN1, MJ1, and MJ2. For more information, refer to “ 1 : 1 Connection” (page 1-8) in “1.3 Connection Methods”.  1 : n Connection A communication port is selectable from CN1, MJ1, and MJ2. A maximum of 31 units of the same model can be connected to each port.
Page 14: Ethernet Communication
1.1 System Configuration Ethernet Communication Because eight communication ports can be opened, the V9series is allowed to communicate with eight models of PLCs at the same time. Port1 Port2 Port3 Port4 Port5 Port6 Port7 Port8 Ethernet PROGRAMMER PROGRAMMER PROGRAMMER PROGRAMMER Company A Company B Company C Company E...
Page 15: Physical Ports
1. Overview Physical Ports 1.2.1 The CN1 port supports communication via RS-232C, RS-422 (4-wire system), and RS-485 (2-wire system). The signal level can be changed between RS-232C and RS-422/485 under [Communication Setting] of the editor. * The signal level can be changed between RS-232C and RS-422/485 in the Local mode on the V9 unit as well. For details, refer to the separate V9 Series Hardware Specifications manual.
Page 16: Mj1/Mj2
* For MJ1, MJ2 and USBA, the maximum allowable current is 150 mA in total (only when the installation angle of MONITOUCH is within 60 to 120). Recommended Cable Recommended Cable Hakko Electronics’ cable “V6-TMP” 3, 5, 10 m Notes on Configuring a Cable Pins No. 3 and 4 are provided for external power supply. To prevent damage to the device due to CAUTION wrong connection, check the pin numbers and connect wires correctly.
Page 17: Network Communication Port (Under Development)
1. Overview 1.2.3 The LAN connector uses the same type RJ-45 connector as MJ1 and MJ2. CAUTION Check the indication on the unit and insert a cable into the correct position. LAN Port Specifications Specifications Item IEEE802.3u IEEE802.3 100BASE-TX ( 10BASE-T ( Baud Rate 100 Mbps...
Page 18: Dip Switch (Dipsw) Settings
1.2 Physical Ports 1.2.5 USB Port Specifications Item Specifications USB-A Applicable USB versions 2.0 standards USB mini-B Baud Rate High-speed 480 Mbps Applicable Devices Port Applicable Devices Printer (EPSON ESC/P-R compatible), barcode reader, USB flash drive, USB-CFREC-2 (under development), numeric USB-A keypad, keyboard, mouse, USB hub USB mini-B...
Page 19: Connection Methods
1. Overview Connection Methods 1.3.1 Serial Communication 1 : 1 Connection Overview  One set of the V9 is connected to one PLC (1 : 1 connection).  You can make settings for 1 : 1 communication in [Communication Setting] for the logical ports PLC1 - PLC8. A communication port is selectable from CN1, MJ1, and MJ2.
Page 20 1.3 Connection Methods V-SFT Ver. 6 Settings Hardware Settings Selecting a device to be connected Select the device for connection from [System Setting]  [Hardware Setting]. Double-click PLC properties Configure [Communication Setting] on the [PLC Properties] window. Item Contents Connection Mode 1 : 1 Signal Level Baud Rate...
Page 21 1. Overview 1-10 Wiring Be sure to turn off the power before connecting cables. Otherwise, electrical shock or damage may DANGER occur. RS-232C connection  Prepare a communication cable on your side. Twisted pairs of 0.3 mm sq. or above are recommended. ...
Page 22  If the PLC has a signal ground (SG) terminal, connect it.  To use a terminal block for connection, use Hakko Electronics’ optionally available “TC-D9”.  The DIP switch on the back of the V9 unit is used to set the terminating resistance.
Page 23 MJ1/MJ2 RS-232C connection  Use Hakko Electronics’ cable “V6-TMP” (3, 5, 10 m) as a communication cable.  The maximum length of wiring is 15 m. * The maximum length varies depending on the connected device. Check the specifications for each device.
Page 24 CAUTION instead or a commercially available RS-232C-to-RS-422 converter.  Use Hakko Electronics’ cable “V6-TMP” (3, 5, 10 m) as a communication cable.  The maximum length of wiring is 500 m. * The maximum length varies depending on the connected device. Check the specifications for each device.
Page 25: N Connection (Multi-Drop)
1. Overview 1-14 1 : n Connection (Multi-drop) Overview  Multi-drop connection connects one V9 unit to multiple PLCs of the same model as a 1 : n connection. (Maximum connectable units: 31)  You can make settings for 1 : n communication in [Communication Setting] for the logical ports PLC1 - PLC8. A communication port is selectable from CN1, MJ1, and MJ2.
Page 26 1.3 Connection Methods 1-15 PLC properties Configure [Communication Setting] on the [PLC Properties] window. Item Contents Connection Mode 1 : n Signal Level RS-422/485 Baud Rate Data Length Stop Bit Configure according to the connected device. Parity Target Port No. Transmission Mode For settings other than the above, see “1.4 Hardware Settings”...
Page 27 1. Overview 1-16 RS-485 (2-wire system) connection  Connection example RS-485 port of the RS-485 port of the connected device connected device Name Dsub 9 (Male) Send/receive Send/receive data (+) data (+) Send/receive Send/receive data () data () Terminating resistance ON For wiring between connected devices, refer to the manuals issued by the manufacturers.
Page 28: N : 1 Connection (Multi-Link2) (Under Development)
The connection between the master and the PLC is the same as the one for 1 : 1 connection. RS-485 (2-wire system) connection is adopted to connect a master with slaves. At this time, use Hakko Electronics’ cable “V6-MLT” for the multi-link2 master.
Page 29 1. Overview 1-18 V-SFT Ver. 6 Settings Make settings on [Hardware Setting]  [PLC Properties]. The differences with respect to a 1 : 1 connection and the points where caution is required are explained here. For details on other settings, refer to Hardware Settings in “ 1 : 1 Connection” (page 1-8). PLC Properties Item Contents...
Page 30: Connection Method
1.3 Connection Methods 1-19 System Configurations and Wiring Diagrams Connection Method 1 Connecting the MJ1/MJ2 of the master to CN1 connectors of the slaves Master Slave Slave Slave (= Local port 1) (= Local port 2) (= Local port 3) (= Local port 4) MJ1/MJ2 MJ1/MJ2...
Page 31: Wiring Diagrams
1. Overview 1-20 Connection Method 2 Connecting the CN1 of the master to the CN1s of the slaves Master Slave Slave Slave (= Local port 1) (= Local port 2) (= Local port 3) (= Local port 4) MJ1/MJ2 Communication between V9 units: RS-485 (2-wire system), maximum length = 500 m (a) Connection between master and PLC Choose the connection port between MJ1 and MJ2.
Page 32 1.3 Connection Methods 1-21 Connection Method 3 Connecting the MJ1/MJ2 of the master to the MJ1/MJ2 ports of the slaves Master Slave Slave Slave (= Local port 1) (= Local port 2) (= Local port 3) (= Local port 4) MJ1/MJ2 MJ1/MJ2 MJ1/MJ2...
Page 33 1. Overview 1-22 Connection Method 4 Connecting the CN1 of the master to the MJ1/MJ2 of the slaves Master Slave Slave Slave (= Local port 1) (= Local port 2) (= Local port 3) (= Local port 4) MJ1/MJ2 MJ1/MJ2 MJ1/MJ2 MJ1/MJ2 Terminal...
Page 34 1.3 Connection Methods 1-23 Wiring diagrams  When a TC-D9 is used: Set the slide switch of “TC-D9” to ON (2-wire system). Slave Slave Slave MJ1/MJ2 MJ1/MJ2 MJ1/MJ2 Terminating Terminating Terminating resistance resistance resistance (OFF) (OFF) (ON) − − − Master CN1+TC-D9 Name...
Page 35 1. Overview 1-24 Terminating Resistance Setting The terminating resistance should be set on the DIP switch. Automatic upload to storage Terminating resistance of MJ2 +RD/-RD terminating resistance of CN1 Terminating resistance of MJ1 Not used +SD/-SD terminating resistance of CN1 When the PLC is connected to the master via RS-232C: There is no terminating resistance setting for communications between the master and the PLC.
Page 36: N: 1 Connection (Multi-Link2 (Ethernet)) (Under Development)
1.3 Connection Methods 1-25 n: 1 Connection (Multi-link2 (Ethernet)) (Under Development) Overview  One PLC is connected to a maximum of 32 V9 units. The V8 series can be used together.  Multi-link2 (Ethernet) enables you to establish an original network consisting of a master V9 of local port No. 1 and slave V9 units of local port Nos.
Page 37 1. Overview 1-26 V-SFT Ver. 6 Settings Make settings on [Hardware Setting]  [PLC Properties]. The differences with respect to a 1 : 1 connection and the points where caution is required are explained here. For details on other settings, refer to Hardware Settings in “ 1 : 1 Connection” (page 1-8). PLC Properties Item Contents...
Page 38 1.3 Connection Methods 1-27 Multi-link2 (Ethernet) table  Slave  Master IP address of master IP address of slave Station number Station number Item Contents  For local port 1 (master) Set the IP addresses of all V9 units used as slave to respective local port numbers. Multi-link2 (Ethernet) Table ...
Page 39: N : N Connection (1: N Multi-Link2 (Ethernet)) (Under Development)
1. Overview 1-28 n : n Connection (1: n Multi-link2 (Ethernet)) (Under Development) Overview  A maximum of 32 units of V9 series can be connected to a maximum of 31 units of PLCs.  Multi-link2 (Ethernet) enables you to establish an original network consisting of a master V9 of local port No. 1 and slave V9 units of local port Nos.
Page 40 1.3 Connection Methods 1-29 V-SFT Ver. 6 Settings Make settings on [Hardware Setting]  [PLC Properties]. The differences with respect to a 1 : n connection and the points where care is required are explained here. For details on other settings, refer to “ Hardware Settings” (page 1-14) in “ 1 : n Connection (Multi-drop)”. PLC Properties Item Contents...
Page 41 1. Overview 1-30 Multi-link2 (Ethernet) table  Slave  Master IP address of master IP address of slave Station number Station number Item Contents  For local port 1 (master) Set the IP addresses of all V9 units used as slave to respective local port numbers. Multi-link2 (Ethernet) Table ...
Page 42: N : 1 Connection (Multi-Link) (Under Development)
1.3 Connection Methods 1-31 n : 1 Connection (Multi-link) (Under Development) Overview  One PLC is connected to a maximum of 31 V9 units. The V8, V7, and V6 series can be used together. - Connection example 1: Port No. 1 Port No. 2 Port No.
Page 43 1. Overview 1-32 V-SFT Ver. 6 Settings Make settings on [Hardware Setting]  [PLC Properties]. The differences with respect to a 1 : 1 connection and the points where care is required are explained here. For details on other settings, refer to Hardware Settings in “ 1 : 1 Connection” (page 1-8). PLC Properties Item Contents...
Page 44 5. Press the [Apply] switch. Wiring When Connected at CN1 This shows the situation when a multi-link connection is made at CN1. It is convenient to use the Hakko Electronics’ optional terminal converter “TC-D9”.  When a TC-D9 is used: Set the slide switch of “TC-D9”...
Page 45 1-34 When connecting to Mitsubishi Electric’s QnA CPU: Use the GD port of Hakko Electronics’ optional dual port interface V-MDD for the PLC CPU port.  When a TC-D9 is used: Set the slide switch of “TC-D9” to ON (2-wire system).
Page 46 (OFF) Terminal block Terminating resistance − (ON) When connecting to Mitsubishi Electric’s QnA CPU: Use the GD port of Hakko Electronics’ optional dual port interface V-MDD for the PLC CPU port. V-MDD GD port Name Terminal block +RxD Terminating resistance +TxD −...
Page 47: Ethernet Communication
1. Overview 1-36 1.3.2 Ethernet Communication Overview  Because eight communication ports can be opened, the V9 series is allowed to communicate with eight models of PLCs at the same time. Port1 Port2 Port3 Port4 Port5 Port6 Port7 Port8 Ethernet PROGRAMMER PROGRAMMER PROGRAMMER...
Page 48: Hardware Settings
1.3 Connection Methods 1-37 V-SFT Ver. 6 Settings Hardware Settings Selecting a device to be connected Select the device for connection from [System Setting]  [Hardware Setting]. Double-click PLC properties Configure the [PLC Properties]. Item Contents 1:1/1:n Connection Mode Set the number of PLCs that are to be communicated with. Port No.
Page 49 1. Overview 1-38 Item Contents These settings are valid when [1 : 1] is selected for [Connection Mode]. Select the IP address of the PLC registered in the PLC table. 1 : 1 communications are executed with the PLC selected here. Connect To Click [Setting] to display the [PLC Table] window.
Page 50 1.3 Connection Methods 1-39 Item Contents Send Timeout Specify the timeout time to send the EREAD/EWRITE/SEND/MES command. 0 to 255 Retrials Set the number of retrials to be performed when a time-out occurs. Device Protect Internal Device Check either check box to write-protect the device memory from computers or other stations. Memory Card Device For more information on each setting item, see “...
Page 51 1. Overview 1-40 Connection Example With hub Between hubs UTP straight cable 100m Between the node and the hub 100m F A C T O R Y A C E PROGRAMMER Without hub UTP cross cable/UTP straight cable F A C T O R Y A C E PROGRAMMER 100m...
Page 52: Network Communication (Under Development)
1.3 Connection Methods 1-41 1.3.3 Network Communication (Under Development) Overview  The optional communication interface unit “CUR-xx” is required to enable a network communication listed below. Communication Interface Network Available Models Remarks Unit Mitsubishi Electric A series (OPCN-1) Under CUR-00 OPCN-1 OMRON SYSMAC C (OPCN-1)
Page 53: Slave Communication
1. Overview 1-42 1.3.4 Slave Communication Connecting via V-Link, Modbus RTU, or Modbus TCP/IP is applicable to slave communication using the V9. V-Link and Modbus RTU are used for serial communication, and Modbus TCP/IP is used for Ethernet (TCP/IP) communication. V-Link ...
Page 54: Hardware Settings
1.4 Hardware Settings 1-43 Hardware Settings Select and set the devices to connect to the V9 series on the Hardware Setting screen. Item Contents Set the devices (PLC, temperature controller, servo, inverter, barcode reader etc.) to connect to PLC Setting PLC1 to PLC8.
Page 55: Selecting A Device To Be Connected
1. Overview 1-44 Selecting a Device to be Connected Double-click on a PLC icon in the [Hardware Setting] window to display the window shown below. Double-click Item Contents Connected Device Select the device to connect. Maker Select the maker of the device. Select the model of the device to connect.
Page 56 1.4 Hardware Settings 1-45 Item Contents Select a transmission mode for the connected device. This setting is required if a device of Mitsubishi, Omron, Hitachi Industrial Transmission Mode Equipment Systems, Yokogawa, JTEKT, or Yaskawa is in use. Specify the number of retrials to be allowed in the event of a timeout during communication.
Page 57: Monitouch Settings
1. Overview 1-46 Item Contents [1] (higher priority) - [8] (lower priority) Specify the priority taken during 8-way communication. If interrupts from two Priority or more devices occur at the same time, communication with these devices will take place in order of priority. This is set to [Yes] if the V7-series screen program (including temperature control network/PLC2Way settings) has been converted to data for the V9 series.
Page 58: Control Area
1.4 Hardware Settings 1-47 Control Area Item Contents This device memory is used for switching the screen by an external command. When a screen number is specified in a device memory, the screen is displayed. Displaying Screen Device When the screen is switched by an internal switch, the currently displayed screen number is stored in this device memory.
Page 59 1. Overview 1-48 Display scanning This operation can be utilized for display scanning. Forcibly change data in the watchdog device memory when giving a graphic change command and check that the same data is saved in the answer back device memory. This can prove that the graphic change command is received and executed correctly.
Page 60: Buzzer
1.4 Hardware Settings 1-49 Buzzer Make settings for the buzzer. For more information, refer to the V9 Series Reference Manual. Backlight Make settings for the backlight. For more information, refer to the V9 Series Reference Manual. Local IP Address Item Contents This is valid when the IP address of the V9 has been registered in the network table.
Page 61 1. Overview 1-50 Network table This is an area for registering IP addresses of the MONITOUCH, PC and other devices. Select [System Setting]  [Ethernet Communication]  [Network Table] and register. Double-click a number in the No. column to display the [Network Table Setting] dialog. An IP address and other items can be registered.
Page 62 1.4 Hardware Settings 1-51 Basics of ethernet settings IP address This is an address that is used for recognizing each node on the Ethernet and should be unique. The IP address is 32-bit data which consists of the network address and the host address and can be classified into classes A to C depending on the network size.
Page 63: Other Equipment
1. Overview 1-52 1.4.3 Other Equipment Printer Configure these settings when connecting a printer. Selecting the printer model Double-click Item Contents Model Select the model of the printer to connect. Select the port to connect the printer cable to. USB A: Select when connecting an EPSON, ESC/P-R compatible printer.
Page 64 1.4 Hardware Settings 1-53 Printer properties Item Contents When this setting is enabled and the bit is set to ON (0  1), screen images and data sheets can be printed out. 15 14 13 12 11 10 09 08 07 06 05 04 03 02 01 00 Printer Control Device 0 ...
Page 65: Touch Switch (Ch)
1. Overview 1-54 Item Contents Set the communication baud rate. Baud Rate 4800/9600/19200/38400/57600/76800/115K BPS Select an option for parity bit. Parity None / Odd / Even Serial Port Select a data length. Data Length 7 bits / 8 bits Select a stop bit. Stop Bit 1 bit / 2 bits * For details on printing, refer to the V9 Series Reference Manual.
Page 66: System Device Memory For Communication Confirmation
1.5 System Device Memory for Communication Confirmation 1-55 System Device Memory for Communication Confirmation The V9 series has addresses $s and $Pn as system device memory.  $Pn This is the system device memory for 8-way communications, and 512 words are allocated for each logical port. For more information, see “1.5.1 $Pn (For 8-way Communication)”.
Page 67 1. Overview 1-56 $Pn List The $Pn list is presented below. Part of the information of logical ports PLC1/PLC2 can also be stored in $s. Device Contents (n = 1 to 8) Type V9 local port number Stores the local port number of the V9 series. V (PLC1) (Universal serial communication, slave communication, etc.)
Page 68 1.5 System Device Memory for Communication Confirmation 1-57 Device Contents (n = 1 to 8) Type Error status Station No. 10 status (page 1-60) (PLC2) Error status Station No. 20 status (page 1-60) (PLC2) Error status Station No. 30 status (page 1-60) (PLC2) Error status Station No.
Page 69 1. Overview 1-58 Device Contents (n = 1 to 8) Type 419-421 Device memory map 21 Status, error code 422-424 Device memory map 22 Status, error code 425-427 Device memory map 23 Status, error code 428-430 Device memory map 24 Status, error code 431-433 Device memory map 25 Status, error code 434-436...
Page 70 1.5 System Device Memory for Communication Confirmation 1-59 Details $Pn:99 The update timing for the link down information stored in $Pn:010 to 025 is set here. Always updated with the latest information Other than 0: Only updated when a communication error occurs ...
Page 71 1. Overview 1-60 $Pn: 100 to 355 The results of communication with each station are stored here. The status codes are shown below. Code (HEX) Contents 0000H Normal FFFFH Time-out 8001H Check code error 8002H Data error 800BH Receives the error code from the connected device Errors other than the above are stored as shown below.
Page 72 1.5 System Device Memory for Communication Confirmation 1-61 $Pn: 356 to 451 This device memory is valid when an Omron ID controller (V600/620/680) is connected with [Guarantee synchronism of the data] checked on the [Device Memory Map Setting] dialog.  Status ($Pn 356, 359, …) The execution status of the device memory map is stored here.
Page 73 1. Overview 1-62 $Pn: 508 to 511 If “800BH” is stored for the error status information ($Pn: 100 to 355), on transferring the data of that station number to any internal device memory address, the reception code will be obtained at $Pn: 508 to 511. Notes on use ...
Page 74: S518 (Ethernet Status Confirmation)
1.5 System Device Memory for Communication Confirmation 1-63 1.5.2 $s518 (Ethernet Status Confirmation) Stores the current status of the Ethernet. Address Contents Stored Value  [0]: Normal  [Other than 0]: Error $s518 Ethernet status (for built-in LAN port) * For details on errors, refer to the next section. Error details Built-in Contents...
Page 75 1. Overview 1-64 Please use this page freely.
Page 76: Iai 2.1 Temperature Controller/Servo/Inverter Connection
2. IAI Temperature Controller/Servo/Inverter Connection...
Page 77: Serial Connection
2.1 Temperature Controller/Servo/Inverter Connection Temperature Controller/Servo/Inverter Connection Serial Connection X-SEL Controller Connection PLC Selection on Model Port Signal Level Lst File the Editor MJ1/MJ2 XSEL-K Orthogonal XSEL-KE HOST port RS-232C Wiring diagram 1 - C2 Wiring diagram 1 - M2 XSEL-KT/KET Scalar XSEL-KX...
Page 78: X-Sel Controller
2. IAI 2.1.1 X-SEL Controller Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / 1 : n / Multi-link2 / Multi-link2 (Ethernet) / Connection Mode 1 : n Multi-link2 (Ethernet) Signal Level RS-232C / RS-422/485 Baud Rate 9600 / 19200 / 38400 / 57600 / 115K bps Data Length 8 bits Stop Bit...
Page 79 2.1 Temperature Controller/Servo/Inverter Connection Available Device Memory The available setting range of device memory varies depending on the model. Be sure to set within the range available for the model to be used. Use [TYPE] when assigning indirect device memory for macro programs. Device Memory TYPE Remarks...
Page 80 2. IAI 215 (System Status) Address Name System mode Most significant level system error number Most recent system error number System status byte 1 System status byte 2 System status byte 3 System status byte 4 253 (Program) Address Name Value 0: Program end 1: Program execution...
Page 81 2.1 Temperature Controller/Servo/Inverter Connection PLC_CTL Real numbers used on the V series are IEEE 32-bit single precision ones. Contents F1 (= $u n) Station number n + 1 Command: 201 (HEX) Unit type 0: Main CPU application area n + 2 1: Main CPU core area 2: Driver CPU n + 3...
Page 82 2. IAI Contents F1 (= $u n) Station number n + 1 Command: 213 (HEX) n + 2 Program number 1 - 8 Program status inquiry n + 3 Status (PLC1 - 8) n + 4 Running program step number n + 5 Program-sensitive error code n + 6...
Page 83 2.1 Temperature Controller/Servo/Inverter Connection Contents F1 (= $u n) Station number n + 1 Command: 234 (HEX) Axis pattern: m (number of ON bits) 7 6 5 4 3 2 1 0 n + 2 Axis 1 Traverse by absolute command 1 - 8 6 + 2m...
Page 84 2. IAI Contents F1 (= $u n) Station number n + 1 Command: 244 (HEX) n + 2 Change start point data number n + 3 Change point data count: t (1 to 2) Axis pattern: m (number of ON bits) 7 6 5 4 3 2 1 0 n + 4 Axis 1...
Page 85 2.1 Temperature Controller/Servo/Inverter Connection Contents F1 (= $u n) Station number 1 - 8 Program pause n + 1 Command: 255 (HEX) (PLC1 - 8) n + 2 Program number Station number 1 - 8 Program one step execution n + 1 Command: 256 (HEX) (PLC1 - 8) n + 2...
Page 86 2-10 2. IAI Contents F1 (= $u n) Station number n + 1 Command: 2A2 (HEX) Inquiry top number for interference check zone n + 2 definition data n + 3 Inquiry record count t (1 to 16) Effective axis pattern: m (number of ON bits) 7 6 5 4 3 2 1 0 n + 4 Axis 1...
Page 87 2.1 Temperature Controller/Servo/Inverter Connection 2-11 Contents F1 (= $u n) Station number n + 1 Command: 2D6 (HEX) Inquiry axis pattern: m (number of ON bits) 7 6 5 4 3 2 1 0 n + 2 Traverse by point number Axis 1 command 1 - 8...
Page 88: Robo Cylinder (Rcp2/Erc)
2-12 2. IAI 2.1.2 ROBO CYLINDER (RCP2/ERC) Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / 1 : n / Multi-link2 / Connection Mode Multi-link2 (Ethernet) / 1 : n multi-link2 (Ethernet) Signal Level RS-232C / RS-422/485 Baud Rate 9600 / 19200 / 38400 /115K bps...
Page 89 2.1 Temperature Controller/Servo/Inverter Connection 2-13 Application software Set parameters using the application software. (Underlined setting: default) Parameter No. Parameter Name Setting Parameter 16 Serial communication speed 9600 / 19200 / 38400 / 115200 bps Item Parameter Name Setting Axis number assignment Axis number table 0 to 15 RCB-TU-SIO-A/B...
Page 90 2-14 2. IAI Contents F1 (= $u n) Station number n + 1 Command: 66 (HEX) Speed, acceleration 1 - 8 setting (in mm) (PLC1 -8) n + 2 Speed n + 3 Acceleration Station number n + 1 Command: 76 (HEX) Speed, acceleration 1 - 8 setting...
Page 91: Robo Cylinder (Rcs/E-Con)
2.1 Temperature Controller/Servo/Inverter Connection 2-15 2.1.3 ROBO CYLINDER (RCS/E-CON) Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / 1 : n / Multi-link2 / Connection Mode Multi-link2 (Ethernet) / 1 : n Multi-link2 (Ethernet) Signal Level RS-232C / RS-422/485 Baud Rate...
Page 92 2-16 2. IAI Emergency stop terminal block When the servo cannot be turned on, connect the EMG switch between the EMG1 terminal and the EMG2 terminal on the emergency stop terminal block. When the EMG switch is not used, short-circuit them. E-CON Application software Set parameters using the application software.
Page 93 2.1 Temperature Controller/Servo/Inverter Connection 2-17 Emergency stop terminal block When the servo cannot be turned on, connect the EMG switch between the EMG1 terminal and the EMG2 terminal on the emergency stop terminal block. When the EMG switch is not used, short-circuit them. Available Device Memory The available setting range of device memory varies depending on the model.
Page 94: Pcon / Acon / Scon (Modbus Rtu)
2-18 2. IAI 2.1.4 PCON / ACON / SCON (MODBUS RTU) Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / 1 : n / Multi-link2 / Multi-link2 (Ethernet) / Connection Mode 1 : n Multi-link2 (Ethernet) Signal Level RS-232C / RS-422/485 Baud Rate 9600 / 19200 / 38400 / 57600 / 115K bps Data Length...
Page 95 2.1 Temperature Controller/Servo/Inverter Connection 2-19 RCB-TU-SIO-A/B PORT switch (PORT) PORT Setting Remarks Emergency stop terminal block When the servo cannot be turned on, connect the EMG switch between the EMG1 terminal and the EMG2 terminal on the emergency stop terminal block. When the EMG switch is not used, short-circuit them.
Page 96: Wiring Diagrams
2-20 2. IAI 2.1.5 Wiring Diagrams When Connected at CN1: RS-232C Wiring diagram 1 - C2 HOST Name Name Dsub 9 (Female) Dsub 9 (Male) * Use shielded twist-pair cables. Wiring diagram 2 - C2 Name Name Dsub 25 (Male) Dsub 9 (Male) * Use shielded twist-pair cables.
Page 97 2.1 Temperature Controller/Servo/Inverter Connection 2-21 Wiring diagram 4 - C2 RS232 Name Name Dsub 9 (Female) Dsub 9 (Male) * Use shielded twist-pair cables. IAI’s SIO converter “RCB-TU-SIO-A/B” LED1 LED2 RS232 PORT SW1 Terminal Name Name block Mini DIN 8 (Male) RS-485 Wiring diagram 1 - C4 Name...
Page 98: When Connected At Mj1/Mj2:
2-22 2. IAI When Connected at MJ1/MJ2: RS-232C Wiring diagram 1 - M2 MJ1/2 HOST Name Name Dsub 9 (Female) RJ - 45 1 23 45 67 8 * Use shielded twist-pair cables. Wiring diagram 2 - M2 MJ1/2 Name Name Dsub 25 (Male) RJ - 45...
Page 99 2.1 Temperature Controller/Servo/Inverter Connection 2-23 Wiring diagram 4 - M2 IAI’s SIO converter “RCB-TU-SIO-A/B” Hakko Electronics’ screen program transfer cable “V-CP” LED1 LED2 RS232 PORT SW1 Terminal Name Name block Mini DIN 8 (Male) RS-485 Wiring diagram 1 - M4...
Page 100 2-24 2. IAI Please use this page freely.
Page 101 3. IDEC PLC Connection...
Page 102 3.1 PLC Connection PLC Connection Serial Connection Connection Ladder PLC Selection on the Unit/Port Signal Level Editor Transfer MJ1/MJ2 IDEC’s cable IDEC’s cable “FC2A-KC1” “FC2A-KC1” +Wiring diagram 1 - C2 +Wiring diagram 1 - M2 Loader port RS-232C MICRO 3 FC2A-Cxxxx IDEC’s cable IDEC’s cable...
Page 103 3. IDEC 3.1.1 MICRO 3 Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / 1 : n / Multi-link2 / Multi-link2 (Ethernet) / Connection Mode 1 : n Multi-link2 (Ethernet) Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 bps Data Length 7 / 8 bits Stop Bit...
Page 104: Micro Smart
3.1 PLC Connection 3.1.2 MICRO Smart Communication Setting Editor Communication setting Item Setting Remarks 1 : 1 / 1 : n / Multi-link2 / Multi-link2 (Ethernet) / Connection Mode 1 : n Multi-link2 (Ethernet) Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 bps Data Length 7 / 8 bits Stop Bit...
Page 105: Micro Smart Pentra
3. IDEC 3.1.3 MICRO Smart Pentra Communication Setting Editor Communication setting Item Setting Remarks 1 : 1 / 1 : n / Multi-link2 / Multi-link2 (Ethernet) / Connection Mode 1 : n Multi-link2 (Ethernet) Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 / 38400 / 57600 / 115K bps Data Length 7 / 8 bits Stop Bit...
Page 106 3.1 PLC Connection Available Device Memory The available setting range of device memory varies depending on the PLC model. Be sure to set within the range available for the PLC to be used. Use [TYPE] when assigning indirect device memory for macro programs. Device Memory TYPE Remarks...
Page 107 3. IDEC 3.1.4 Wiring Diagrams When Connected at CN1: RS-232C Wiring diagram 1 - C2 FC2A-KC1 Name Name Dsub 25 (Male) Dsub 9 (Male) * Use shielded twist-pair cables. Wiring diagram 2 - C2 FC2A-KC2 Name Name Dsub 9 (Male) Dsub 9 (Male) * Use shielded twist-pair cables.
Page 108 3.1 PLC Connection Wiring diagram 4 - C2 FC4A-KC1C Name Name Dsub 9 (Male) Dsub 9 (Male) * Use shielded twist-pair cables. Wiring diagram 5 - C2 FC4A-KC2C Name Name Dsub 25 (Male) Dsub 9 (Male) * Use shielded twist-pair cables. Wiring diagram 6 - C2 Name Name...
Page 109 3. IDEC RS-422/RS-485 Wiring diagram 1 - C4 Name Name Dsub 9 (Male) * Use shielded twist-pair cables. Wiring diagram 2 - C4 Name Name Mini DIN 8 (Male) Dsub 9 (Male) * Use shielded twist-pair cables.
Page 110 3.1 PLC Connection When Connected at MJ1/MJ2: RS-232C Wiring diagram 1 - M2 MJ1/2 FC2A-KC1 Name Name Dsub 25 (Male) RJ - 45 1 23 45 6 7 8 * Use shielded twist-pair cables. Wiring diagram 2 - M2 MJ1/2 FC2A-KC2 Name Name...
Page 111 3-10 3. IDEC Wiring diagram 5 - M2 MJ1/2 FC4A-KC2C Name Name Dsub 25 (Male) RJ - 45 1 23 4 56 78 * Use shielded twist-pair cables. Wiring diagram 6 - M2 MJ1/2 Name Name Mini DIN 8 (Male) RJ - 45 12 34 56 7 8 * Use shielded twist-pair cables.
Page 112 3.1 PLC Connection 3-11 RS-422/RS-485 Wiring diagram 1 - M4 MJ1/2 Name Name RJ - 45 1 23 4 56 7 8 +RD/+SD -RD/-SD * Use shielded twist-pair cables. Wiring diagram 2 - M4 MJ1/2 Name Name Mini DIN 8 (Male) RJ - 45 1 2 3 45 6 7 8 +RD/+SD...
Page 113 3-12 3. IDEC Please use this page freely.
Page 114 4. JTEKT PLC Connection...
Page 115 4.1 PLC Connection PLC Connection The PLC models shown below can be connected. Serial Connection Connection Ladder PLC Selection on Unit/Port Signal Level the Editor Transfer MJ1/MJ2 PC/CMP-LINK (TPU-5174) PC/CMP2-LINK (TPU-5138) 3PORT-LINK (TLU-2769) 2PORT-LINK (TLU-2695) PC/CMP-LINK (THU-2755) PC/CMP2-LINK PC3J/2J (THU-5139) TOYOPUC RS-485 Wiring diagram 1 - C4...
Page 116 4. JTEKT 4.1.1 TOYOPUC Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / 1 : n / Multi-link / Multi-link2 / Multi-link2 (Ethernet) Connection Mode / 1 : n Multi-link2 (Ethernet) Signal Level RS-422/485 Baud Rate 4800 / 9600 / 19200 / 38400 / 57600 / 115k bps Parity Even Data Length...
Page 117: Dip Switch
4.1 PLC Connection THU-2755 / THU-5139 / THU-2927 Rotary switch Switch Setting Remarks Station 0 Set the number from 00 to 37 in octal notation. SW1 denotes the higher-order digit, and SW2 denotes the lower-order digit. Baud rate 1: 19200, 2: 9600, 3: 4800 DIP switch Switch No.
Page 118 4. JTEKT PRG No. setting If [Transmission Mode: Data Area Division] is set under [Communication Setting], specify a program number ([PRG No.]) in addition to device type and address number. The assigned device memory is expressed as shown below when editing the screen.
Page 119: Toyopuc (Ethernet)
4.1 PLC Connection 4.1.2 TOYOPUC (Ethernet) Communication Setting Editor Make the following settings on the editor. For more information, see “1.3.2 Ethernet Communication”.  IP address for the V9 unit - When specified on the screen program: [System Setting]  [Hardware Setting]  [Local Port IP Address] - When specified on the V9 unit: Local mode ...
Page 120 4. JTEKT Available Device Memory The available setting range of device memory varies depending on the PLC model. Be sure to set within the range available for the PLC to be used. Use [TYPE] when assigning indirect device memory for macro programs. Device Memory TYPE Remarks...
Page 121: Toyopuc (Ethernet Pc10 Mode)
4.1 PLC Connection 4.1.3 TOYOPUC (Ethernet PC10 Mode) Communication Setting Editor Make the following settings on the editor. For more information, see “1.3.2 Ethernet Communication”.  IP address for the V9 unit - When specified on the screen program: [System Setting]  [Hardware Setting]  [Local Port IP Address] - When specified on the V9 unit: Local mode ...
Page 122 4. JTEKT If “TOYOPUC (Ethernet PC10 mode)” is selected as a connected model in V-SFT and if establishing communication with PC10G or PC10GE is intended, set the following dialogs.  PC10G: PC10 mode  PC10GE: PC10 extended mode PCwin settings Click [Option] ...
Page 123 4.1 PLC Connection Indirect Device Memory Designation  For the address number of 65536 or greater:  For the address number of 0 to 65535: Model Device type Model Device type Address No. Lower address No. Bit designation Higher address No. Expansion code Station number Bit designation...
Page 124 4-10 4. JTEKT Contents F1 (=$u n) Data 3 0 fixed Program and supplementary information write prohibition Memory card operation Data 4 System I/O write prohibition 0 fixed System I/O read prohibition System memory write prohibition System memory read prohibition Data 5 1 command step 0 fixed...
Page 125 4.1 PLC Connection 4-11 4.1.4 Wiring Diagrams When Connected at CN1: RS-422/RS-485 Wiring diagram 1 - C4 Name Name Dsub 9 (Male) * Use shielded twist-pair cables. When Connected at MJ1/MJ2: RS-422/RS-485 Wiring diagram 1 - M4 MJ1/2 Name Name RJ - 45 12 3 45 6 78 +RD/+SD...
Page 126 4-12 4. JTEKT Please use this page freely.
Page 127 5. KEYENCE PLC Connection...
Page 128 Wiring diagram 4 - M2 link KZ-350 Port 2 RS-422 Wiring diagram 1 - C4 RS-232C Wiring diagram 1 - C2 Wiring diagram 1 - M2 Hakko Electronics’ cable “D9-MB-CPUQ” KZ-A500 CPU KZ-A500 CPU modular port RS-422 Keyence’s “KZ-C20” KV-10...
Page 129: Kz Series Link
5. KEYENCE 5.1.1 KZ Series Link Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / 1 : n / Multi-link2 / Connection Mode Multi-link2 (Ethernet) / 1 : n Multi-link2 (Ethernet) Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 / 38400 bps Data Length...
Page 130 5.1 PLC Connection Port 2 Port select switch (INTERFACE) INTERFACE Item Setting Signal level 422A: RS-422 switch 232C: RS-232C 422A 232C INTERFACE Operation mode setting switch (SET A) SET A Item Setting SET A A1 A2 A3 Port 2 Link mode Terminator select switch (TERMINATOR) TERMINATOR Item...
Page 131: Kz-A500 Cpu
5. KEYENCE 5.1.2 KZ-A500 CPU Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / Multi-link2 / Multi-link2 (Ethernet) Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 / 38400 bps 9600 bps only valid when a signal level is RS-422/485. Data Length 8 bits Stop Bit...
Page 132 5.1 PLC Connection 5.1.3 KV10/24 CPU Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / Multi-link2 / Multi-link2 (Ethernet) Signal Level RS-232C If a baud rate higher than 57600 bps is set, Baud Rate 9600 / 19200 / 38400 / 57600 bps communication is performed at 9600 bps.
Page 133 5. KEYENCE 5.1.4 KV-700 Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / Multi-link2 / Multi-link2 (Ethernet) Signal Level RS-232C / RS-422/485 Baud Rate 9600 / 19200 / 38400 / 57600 bps Data Length 8 bits Stop Bit 1 bit...
Page 134 5.1 PLC Connection Available Device Memory The available setting range of device memory varies depending on the PLC model. Be sure to set within the range available for the PLC to be used. Use [TYPE] when assigning indirect device memory for macro programs. Device Memory TYPE Remarks...
Page 135: Kv-700 (Ethernet Tcp/Ip)
5. KEYENCE 5.1.5 KV-700 (Ethernet TCP/IP) Communication Setting Editor Make the following settings on the editor. For more information, see “1.3.2 Ethernet Communication”.  IP address for the V9 unit - When specified on the screen program: [System Setting]  [Hardware Setting]  [Local Port IP Address] - When specified on the V9 unit: Local mode ...
Page 136 5.1 PLC Connection 5.1.6 KV-1000 Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / Multi-link2 / Multi-link2 (Ethernet) Signal Level RS-232C / RS-422/485 Baud Rate 9600 / 19200 / 38400 / 57600 / 115K bps Data Length 8 bits Stop Bit...
Page 137 5-10 5. KEYENCE Available Device Memory The available setting range of device memory varies depending on the PLC model. Be sure to set within the range available for the PLC to be used. Use [TYPE] when assigning indirect device memory for macro programs. Device Memory TYPE Remarks...
Page 138: Kv-1000 (Ethernet Tcp/Ip)
5.1 PLC Connection 5-11 5.1.7 KV-1000 (Ethernet TCP/IP) Communication Setting Editor Make the following settings on the editor. For more information, see “1.3.2 Ethernet Communication”.  IP address for the V9 unit - When specified on the screen program: [System Setting]  [Hardware Setting]  [Local Port IP Address] - When specified on the V9 unit: Local mode ...
Page 139 5-12 5. KEYENCE 5.1.8 KV-3000 / 5000 Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / Multi-link2 / Multi-link2 (Ethernet) Signal Level RS-232C / RS-422/485 Baud Rate 9600 / 19200 / 38400 / 57600 / 115K bps Data Length 8 bits Stop Bit...
Page 140 5.1 PLC Connection 5-13 Available Device Memory The available setting range of device memory varies depending on the PLC model. Be sure to set within the range available for the PLC to be used. Use [TYPE] when assigning indirect device memory for macro programs. Device Memory TYPE Remarks...
Page 141 5-14 5. KEYENCE 5.1.9 KV-3000 / 5000 (Ethernet TCP/IP) Communication Setting Editor Make the following settings on the editor. For more information, see “1.3.2 Ethernet Communication”.  IP address for the V9 unit - When specified on the screen program: [System Setting] ...
Page 142 Name Modular 6 pin Dsub 9 (Male) 6 5 43 2 1 * Use shielded twist-pair cables. Wiring diagram 2 - C2 Hakko Electronics’ cable “D9-KI2-KV-2M” Name Name Modular 6 pin Dsub 9 (Male) 6 5 43 2 1 * Use shielded twist-pair cables.
Page 143 5-16 5. KEYENCE Wiring diagram 5 - C2 Name Name Dsub 25 (Male) Dsub 9 (Male) * Use shielded twist-pair cables. RS-422/RS-485 Wiring diagram 1 - C4 Name Name Dsub 9 (Male) * Use shielded twist-pair cables. When Connected at MJ1/MJ2: RS-232C Wiring diagram 1 - M2 MJ1/2...
Page 144 5.1 PLC Connection 5-17 Wiring diagram 3 - M2 MJ1/2 Name Name Dsub 9 (Female) RJ - 45 1 23 45 6 7 8 * Use shielded twist-pair cables. Wiring diagram 4 - M2 MJ1/2 Name Name RJ - 45 12 34 56 7 8 * Use shielded twist-pair cables.
Page 145 5-18 5. KEYENCE Please use this page freely.
Page 146 6. KOGANEI Temperature Controller / Servo / Inverter...
Page 147 6.1 Temperature Controller / Servo / Inverter Temperature Controller / Servo / Inverter Serial Connection Wiring diagrams PLC Selection on the Model Port Signal Level Lst File Editor MJ1/MJ2 IBFL-TC. IBFL-TC IBFL-TC Connector a / b RS-485 Wiring diagram 1 - C4 Wiring diagram 1 - M4...
Page 148 6. KOGANEI 6.1.1 IBFL-TC Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / 1 : n / Multi-link2 Connection Mode Multi-link2 (Ethernet) / 1 : n Multi-link2 (Ethernet) Signal Level RS-422/485 Baud Rate 115200 bps Data Length 8 bits Stop Bit...
Page 149 6.1 Temperature Controller / Servo / Inverter Contents F1 (=$u n) Station number n + 1 Command: 6 IBFL-TC status Sensor switch A 0: OFF 1: ON Sensor switch B 0: OFF 1: ON Operation 1 update flag 1 - 8 At update: 0 ...
Page 150 6. KOGANEI 6.1.2 Wiring Diagrams When Connected at CN1: RS-422/RS-485 Wiring diagram 1 - C4 Name Name Dsub 9 (Male) B (-) * Use shielded twist-pair cables. When Connected at MJ1/MJ2: RS-422/RS-485 Wiring diagram 1 - M4 MJ1/2 Name Name RJ - 45 1 2 3 4 5 6 7 8 B (-)
Page 151 7. KOYO ELECTRONICS PLC Connection...
Page 152 7.1 PLC Connection PLC Connection Serial Connection Connection Ladder PLC Selection on Port Signal Level the Editor Transfer MJ1/MJ2 RS-232C Wiring diagram 1 - C2 Wiring diagram 1 - M2 SU-5 U-01DM RS-422 Wiring diagram 4 - C4 RS-232C Wiring diagram 1 - C2 Wiring diagram 1 - M2 Universal communication port SU-5E...
Page 153 7. KOYO ELECTRONICS 7.1.1 SU/SG Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / 1 : n / Multi-link2 / Multi-link2 (Ethernet) / Connection Mode 1 : n Multi-link2 (Ethernet) Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 / 38400 bps Data Length 8 bits Stop Bit...
Page 154 7.1 PLC Connection DIP switch (SW5) (Underlined setting: default) Item Setting Remarks No. 1 P-P setting Master/slave No. 2 OFF: Slave setting Time-out No. 3 OFF: Normal operation selection ASCII/HEX No. 4 OFF: HEX selection SU-5E/6B Universal Communication Port System parameter setting Set the station number, parity and data type using the system parameter setting of the programmer.
Page 155 7. KOYO ELECTRONICS SU-5M/6M Universal Communication Port 1 Set special registers “R772” and “R773”, then specify “AA5A” (HEX) for the setting completion register “R767”. When the set value at R767 is changed to “AAAA” (HEX), it is regarded as normal; if it is changed to “AAEA” (HEX), it is regarded as erroneous. Parameter setting register (Underlined setting: default) Register...
Page 156 7.1 PLC Connection Host Link Module (U-01DM) Settings are the same as those described in “ SU-5” (page 7-2). SU-6H Universal Communication Port Set special registers “R772” and “R773”, then specify “AA5A” (HEX) for the setting completion register “R767”. When the set value at R767 is changed to “AAAA”...
Page 157 7. KOYO ELECTRONICS SZ-4 Universal Communication Port (PORT2) System parameter setting Set the station number, parity and data type using the system parameter setting of the programmer. For more information, refer to the PLC manual issued by the manufacturer. (Underlined setting: default) Item Setting Remarks...
Page 158 7.1 PLC Connection SG-8 Universal Communication Port System parameter setting Set the station number using the system parameter setting of the programmer. For more information, refer to the PLC manual issued by the manufacturer. (Underlined setting: default) Item Setting Remarks Station number 1 to 90 Valid only when DIP switch No.
Page 159 7. KOYO ELECTRONICS DIP switch (SW2) (Underlined setting: default) Item Setting Remarks No. 1 4800 bps No. 2 Baud rate 9600 bps No. 3 19200 bps OFF: No parity No. 4 Parity ON: Odd parity No. 5 Self diagnosis OFF: Not provided Turnaround No.
Page 160: Sr-T (K Protocol)
7.1 PLC Connection 7.1.2 SR-T (K Protocol) Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / Multi-link2 / Connection Mode Multi-link2 (Ethernet) Signal Level RS-422/485 Baud Rate 19200 Data Length 8 bits Stop Bit 1 bit Parity Target Port No.
Page 161: Su/Sg (K-Sequence)
7-10 7. KOYO ELECTRONICS 7.1.3 SU/SG (K-Sequence) Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / Multi-link2 / Connection Mode Multi-link2 (Ethernet) Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 / 38400 bps Data Length 8 bits Stop Bit...
Page 162 7.1 PLC Connection 7-11 Parameter setting register (Underlined setting: default) Register Setting Setting Example Communication protocol 80: K-Sequence 00E0H E0: Automatic recognition (Modbus, CCM, K-Sequence) R772 K-Sequence Communication timeout 0: 800 ms Response delay time 0: 0 ms Station number 01 to 1F (HEX) Baud rate 4: 4800 bps...
Page 163 7-12 7. KOYO ELECTRONICS SZ-4/SZ-4M Programmer Communication Port (PORT1) / Universal Communication Port (PORT2) No particular setting is necessary on the PLC. The PLC performs communication functions using the following parameters. Set the following parameters under [Communication Setting] of V9. Item Setting Remarks...
Page 164: Su/Sg (Modbus Rtu)
7.1 PLC Connection 7-13 7.1.4 SU/SG (MODBUS RTU) Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / 1 : n / Multi-link2 / Multi-link2 (Ethernet) / Connection Mode 1 : n Multi-link2 (Ethernet) Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 / 38400 bps Data Length 8 bits...
Page 165 7-14 7. KOYO ELECTRONICS Universal Communication Port 3 Set parameters into the special register “R776, 777”, then set “5AAA” (HEX) into the setting complete register “R767”. When the set value at R767 is changed to “AAAA” (HEX), it is regarded as normal; if it is changed to “EAAA” (HEX), it is regarded as erroneous.
Page 166 7.1 PLC Connection 7-15 Available Device Memory The available setting range of device memory varies depending on the PLC model. Be sure to set within the range available for the PLC to be used. Use [TYPE] when assigning indirect device memory for macro programs. Device Memory TYPE Remarks...
Page 167 7-16 7. KOYO ELECTRONICS 7.1.5 Wiring Diagrams When Connected at CN1: RS-232C Wiring diagram 1 - C2 Name Name Dsub 25 (Male) Dsub 9 (Male) * Use shielded twist-pair cables. Wiring diagram 2 - C2 Name Name High density Dsub 9 (Male) Dsub 15 (Male) * Use shielded twist-pair cables.
Page 168 7.1 PLC Connection 7-17 RS-422/RS-485 Wiring diagram 1 - C4 Name Name Dsub 25 (Male) Dsub 9 (Male) +RXD -RXD +CTS +TXD -TXD -RTS * Use shielded twist-pair cables. +RTS -CTS Wiring diagram 2 - C4 Name Name Dsub 25 (Male) Dsub 9 (Male) +TXD -TXD...
Page 169 7-18 7. KOYO ELECTRONICS Wiring diagram 4 - C4 Name Name Dsub 25 (Male) Dsub 9 (Male) +RTS -RTS +CTS -CTS +OUT -OUT * Use shielded twist-pair cables. Wiring diagram 5 - C4 Name Name Dsub 25 (Male) Dsub 9 (Male) +OUT -OUT * Use shielded twist-pair cables.
Page 170 7.1 PLC Connection 7-19 When Connected at MJ1/MJ2: RS-232C Wiring diagram 1 - M2 MJ1/2 Name Name Dsub 25 (Male) RJ - 45 12 34 56 7 8 * Use shielded twist-pair cables. Wiring diagram 2 - M2 MJ1/2 Name Name High density RJ - 45...
Page 171 7-20 7. KOYO ELECTRONICS RS-422/RS-485 Wiring diagram 1 - M4 MJ1/2 Name Name RJ - 45 1 2 34 56 78 +RD/+SD -RD/-SD * Use shielded twist-pair cables.
Page 172 8. LS PLC Connection...
Page 173: Ethernet Connection
8.1 PLC Connection PLC Connection Serial Connection Connection Ladder PLC Selection on Unit/Port Signal Level the Editor Transfer MJ1/MJ2 K3P-07AS K200S K3P-07CS RS-232C port on MASTER-KxxxS RS-232C Wiring diagram 1 - C2 Wiring diagram 1 - M2 the CPU unit K300S K4P-15AS K1000S...
Page 174 8. LS 8.1.1 MASTER-KxxxS Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / Multi-link2 / Multi-link2 (Ethernet) Signal Level RS-232C 9600 / 19200 / 38400 / 57600 / 76800 / Baud Rate 115200 bps Data Length 8 bits...
Page 175: Master-Kxxxs Cnet
8.1 PLC Connection 8.1.2 MASTER-KxxxS CNET Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / 1 : n / Multi-link2 / Connection Mode Multi-link2 (Ethernet) / 1 : n Multi-link2 (Ethernet) Signal Level RS-232C / RS-422/485 9600 / 19200 / 38400 /57600 / 76800 / Baud Rate 115200 bps Data Length...
Page 176 8. LS Cnet Frame Editor (Underlined setting: default) Item Setting Remarks Channel RS232C / RS422 Baud Rate 9600 / 19200 / 38400 / 76800 bps 76800: Valid only when [Channel: RS422 side] is selected Data Bit 7 / 8 bits Stop Bit 1 / 2 bits Parity...
Page 177: Glofa Cnet
8.1 PLC Connection 8.1.3 GLOFA CNET Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / 1 : n / Multi-link2 / Connection Mode Multi-link2 (Ethernet) / 1 : n Multi-link2 (Ethernet) Signal Level RS-232C / RS-422/485 Baud Rate 9600 / 19200 / 38400 /57600 / 76800 bps Data Length 7 / 8 bits Stop Bit...
Page 178 8. LS Available Device Memory The available setting range of device memory varies depending on the PLC model. Be sure to set within the range available for the PLC to be used. Use [TYPE] when assigning indirect device memory for macro programs. Device Memory TYPE Remarks...
Page 179: Glofa Gm7 Cnet
8.1 PLC Connection 8.1.4 GLOFA GM7 CNET Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / 1 : n / Multi-link2 / Connection Mode Multi-link2 (Ethernet) / 1 : n Multi-link2 (Ethernet) Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 / 38400 /57600 bps Data Length 7 / 8 bits Stop Bit...
Page 180: Glofa Gm Series Cpu
8. LS 8.1.5 GLOFA GM Series CPU Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / Multi-link2 / Multi-link2 (Ethernet) Signal Level RS-232C / RS-422/485 Baud Rate 38400 bps Data Length 8 bits Stop Bit 1 bit Parity...
Page 181: Glofa Gm Series (Ethernet Udp/Ip)
8.1 PLC Connection 8.1.6 GLOFA GM Series (Ethernet UDP/IP) Communication Setting Editor Make the following settings on the editor. For more information, see “1.3.2 Ethernet Communication”.  IP address for the V9 unit - When specified on the screen program: [System Setting] ...
Page 182: Xgt/Xgk Series Cnet
8-10 8. LS 8.1.7 XGT/XGK Series CNET Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / 1 : n / Multi-link2 / Connection Mode Multi-link2 (Ethernet) / 1 : n Multi-link2 (Ethernet) Signal Level RS-232C / RS-422/485 4800 / 9600 / 19200 / 38400 /57600 / Baud Rate 115200 bps Data Length...
Page 183 8.1 PLC Connection 8-11 Available Device Memory The available setting range of device memory varies depending on the PLC model. Be sure to set within the range available for the PLC to be used. Use [TYPE] when assigning indirect device memory for macro programs. Device Memory TYPE Remarks...
Page 184: Xgt/Xgk Series Cpu
8-12 8. LS 8.1.8 XGT/XGK Series CPU Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / Multi-link2 / Multi-link2 (Ethernet) Signal Level RS-232C Baud Rate 115200 bps Data Length 8 bits Stop Bit 1 bit Parity None...
Page 185: Xgt / Xgi Series Cnet
8.1 PLC Connection 8-13 8.1.10 XGT / XGI Series CNET Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / 1 : n / Multi-link2 / Connection Mode Multi-link2 (Ethernet) / 1 : n Multi-link2 (Ethernet) Signal Level RS-232C / RS-422/485 4800 / 9600 / 19200 / 38400 /57600 / Baud Rate 115200 bps...
Page 186 8-14 8. LS Indirect Device Memory Designation  For the address number of 65536 or greater:  For the address number of 0 to 65535: Model Device type Model Device type Address No. Lower address No. Expansion code Bit designation Higher address No.
Page 187: Xgt / Xgi Series Cpu
8.1 PLC Connection 8-15 8.1.11 XGT / XGI Series CPU Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / Multi-link2 / Connection Mode Multi-link2 (Ethernet) Signal Level RS-232C Baud Rate 115200 bps Data Length 8 bits Stop Bit 1 bit...
Page 188 8-16 8. LS Indirect Device Memory Designation Model Device type Address No. Expansion code Bit designation Station number  Using Q or I device memory - Word access QW127.15.3 C (Address) B (Slot No.) A (Base No.) Address number = A  64 + B  4 + C = 127  64 + 15  4 + 3 = 8191 Specify “8191”...
Page 189: Xgt / Xgi Series (Ethernet)
8.1 PLC Connection 8-17 8.1.12 XGT / XGI Series (Ethernet) Communication Setting Editor Make the following settings on the editor. For more information, see “1.3.2 Ethernet Communication”.  IP address for the V9 unit - When specified on the screen program: [System Setting] ...
Page 190 8-18 8. LS 8.1.13 Wiring Diagrams When Connected at CN1: RS-232C Wiring diagram 1 - C2 Name Name Dsub 9 (Male) Dsub 9 (Male) * Use shielded twist-pair cables. Wiring diagram 2 - C2 Name Name Dsub 9 (Male) Dsub 9 (Male) * Use shielded twist-pair cables.
Page 191 8.1 PLC Connection 8-19 Wiring diagram 2 - C4 COM1 Name Name Dsub 9 (Male) * Use shielded twist-pair cables.
Page 192 8-20 8. LS When Connected at MJ1/MJ2: RS-232C Wiring diagram 1 - M2 MJ1/2 Name Name Dsub 9 (Male) RJ - 45 1 2 34 56 7 8 * Use shielded twist-pair cables. Wiring diagram 2 - M2 MJ1/2 Name Name Dsub 9 (Male) RJ - 45...
Page 193 9. MITSUBISHI ELECTRIC PLC Connection Temperature Controller/Servo/Inverter Connection...
Page 194 RS-232C Wiring diagram 2 - C2 Wiring diagram 2 - M2 AJ71UC24 A2U, A3U, A4U AJ71UC24 AJ71C24 A1, A2, A3 AJ71C24-S3 Hakko Electronics’ cable A1N, A2N, A3N AJ71C24-S6 “D9-MI4-0T” RS-422 Wiring diagram 1 - M4 A3H, A3M, A73 AJ71C24-S8 AJ71UC24...
Page 195 9. MITSUBISHI ELECTRIC Connection Ladder PLC Selection on the Unit/Port Signal Level Editor Transfer MJ1/MJ2 Q02, Q02H QJ71C24 Hakko Electronics’ cable Q06H QJ71C24N “D9-MI2-09” Q12H QJ71C24-R2 RS-232C Wiring diagram 1 - M2 Q25H QJ71C24N-R2 Wiring diagram 1 - C2 QJ71C24N-R4...
Page 196 9.1 PLC Connection FX Series Connection Ladder PLC Selection on the Port Signal Level Editor Transfer MJ1/MJ2 Hakko Electronics’ cable RS-422 Tool port “D9-MB-CPUQ” Hakko Electronics’ cable “D9-MI4-FX” FX series CPU Hakko Electronics’ cable FX0N RS-422 Tool port “D9-MB-CPUQ” Mitsubishi’s cable “FX-20P-CADP”...
Page 197 9. MITSUBISHI ELECTRIC Connection Ladder PLC Selection on the Port Signal Level Editor Transfer MJ1/MJ2 Hakko Electronics’ cable “D9-MI2-FX2N-2M” FX3G-232BD RS-232C Wiring diagram 3 - M2 Wiring diagram 3 - C2 FX-3G Hakko Electronics’ cable “D9-MI4-0T” FX3G-485BD RS-485 Wiring diagram 1 - M4 Wiring diagram 1 - C4 Hakko Electronics’...
Page 198 9.1 PLC Connection Keep Ladder PLC Selection on the Unit TCP/IP UDP/IP Port No. Editor Alive Transfer Q02, Q02H Q06H QJ71E71 QJ71E71-B2 Auto-open: 5000 Q12H QJ71E71-100 Q25H Q02U Open setting: Q03UD As desired QnH (Q) series Q04UDH, Q06UDH (max. 16 units) (multi CPU) (Ethernet) Q10UDH, Q13UDH Q20UDH, Q26UDH...
Page 199: A Series Link
9. MITSUBISHI ELECTRIC 9.1.1 A Series Link Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / 1 : n / Multi-link / Multi-link2 / Connection Mode Multi-link2 (Ethernet) / 1 : n Multi-link2 (Ethernet) Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 bps Transmission Mode 1 / Transmission Mode 1: Without CR/LF...
Page 200 9.1 PLC Connection A1SJ71C24-R2, A1SJ71UC24-R2 Switch Contents Example: RS-232C, 19200 bps SW03 Not used SW04 Write while running Enabled Disabled 9600 19200 SW03 SW05 SW04 Baud rate SW06 SW05 SW06 SW07 SW07 SW08 Data bit SW08 SW09 Parity bit Provided Not provided SW09 SW10...
Page 201: A Series Cpu
9. MITSUBISHI ELECTRIC 9.1.2 A Series CPU Communication Setting Editor Communication setting Item Setting Remarks Connection Mode 1 : 1 / Multi-link2 / Multi-link2 (Ethernet) Signal Level RS-422/485 Baud Rate 9600 bps Data Length 8 bits Stop Bit 1 bit Parity No particular setting is necessary on the PLC.
Page 202: Qna Series Link
9.1 PLC Connection 9.1.3 QnA Series Link Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / 1 : n / Multi-link2 / Connection Mode Multi-link2 (Ethernet) / 1 : n Multi-link2 (Ethernet) Signal Level RS-232C / RS-422/485 4800 / 9600 / 19200 / 38400 /57600 / Baud Rate...
Page 203 9-10 9. MITSUBISHI ELECTRIC Available Device Memory The available setting range of device memory varies depending on the PLC model. Be sure to set within the range available for the PLC to be used. Use [TYPE] when assigning indirect device memory for macro programs. Device Memory TYPE Remarks...
Page 204: Qna Series Cpu
9.1 PLC Connection 9-11 9.1.4 QnA Series CPU Communication Setting Editor Communication setting Item Setting Remarks Connection Mode 1 : 1 / Multi-link / Multi-link2 / Multi-link2 (Ethernet) “V-MDD” is necessary for multi-link. Signal Level RS-422/485 Baud Rate 19200 bps Data Length 8 bits Stop Bit...
Page 205: Qna Series (Ethernet)
9-12 9. MITSUBISHI ELECTRIC 9.1.5 QnA Series (Ethernet) Communication Setting Editor Make the following settings on the editor. For more information, see “1.3.2 Ethernet Communication”.  IP address for the V9 unit - When specified on the screen program: [System Setting]  [Hardware Setting]  [Local Port IP Address] - When specified on the V9 unit: Local mode ...
Page 206 9.1 PLC Connection 9-13 PC parameter Make the I/O assignment setting for the Ethernet unit. Network parameter (Ethernet) Item Setting Remarks Network type Ethernet Station I/O No. Network No. For more information, refer to the manual of the Make settings in accordance with the network PLC.
Page 207 9-14 9. MITSUBISHI ELECTRIC Available Device Memory The available setting range of device memory varies depending on the PLC model. Be sure to set within the range available for the PLC to be used. Use [TYPE] when assigning indirect device memory for macro programs. Device Memory TYPE Remarks...
Page 208: Qnh (Q) Series Link
9.1 PLC Connection 9-15 9.1.6 QnH (Q) Series Link Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / 1 : n / Multi-link2 / Connection Mode Multi-link2 (Ethernet) / 1 : n Multi-link2 (Ethernet) Signal Level RS-232C / RS-422/485 Baud Rate...
Page 209 9-16 9. MITSUBISHI ELECTRIC Available Device Memory The available setting range of device memory varies depending on the PLC model. Be sure to set within the range available for the PLC to be used. Use [TYPE] when assigning indirect device memory for macro programs. Device Memory TYPE Remarks...
Page 210: Qnh (Q) Series Cpu
9.1 PLC Connection 9-17 9.1.7 QnH (Q) Series CPU Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / Multi-link2 / Connection mode Multi-link2 (Ethernet) Signal level RS-232C Baud rate 9600 / 19200 / 38400 /57600 / 115K bps Data length 8 bits Stop bit...
Page 211: Qnh (Q) Series (Ethernet)
9-18 9. MITSUBISHI ELECTRIC 9.1.8 QnH (Q) Series (Ethernet) Communication Setting Editor Make the following settings on the editor. For more information, see “1.3.2 Ethernet Communication”.  IP address for the V9 unit - When specified on the screen program: [System Setting] ...
Page 212 9.1 PLC Connection 9-19 Make the PLC setting using the programming tool “GX-Developer”. For more information, refer to the PLC manual issued by the manufacturer. Ethernet unit PC parameter Make the I/O assignment setting for the Ethernet unit. Network parameter (Ethernet) Item Setting Remarks...
Page 213 9-20 9. MITSUBISHI ELECTRIC Built-in Ethernet port PC parameter Make the settings for the IP address and the open settings in the [Built-in Ethernet port] tab window. Item Setting Remarks Make settings in accordance with the For more information, refer to the manual of the IP address (DEC) network environment.
Page 214: Qnu Series Cpu
9.1 PLC Connection 9-21 Available Device Memory The available setting range of device memory varies depending on the PLC model. Be sure to set within the range available for the PLC to be used. Use [TYPE] when assigning indirect device memory for macro programs. Device Memory TYPE Remarks...
Page 215: Qnh (Q) Series (Ethernet Ascii)
9-22 9. MITSUBISHI ELECTRIC 9.1.14 QnH (Q) Series (Ethernet ASCII) Communication Setting Editor Make the following settings on the editor. For more information, see “1.3.2 Ethernet Communication”.  IP address for the V9 unit - When specified on the screen program: [System Setting] ...
Page 216 9.1 PLC Connection 9-23 Make the PLC setting using the programming tool “GX-Developer”. For more information, refer to the PLC manual issued by the manufacturer. Ethernet unit PC parameter Make the I/O assignment setting for the Ethernet unit. Network parameter (Ethernet) Item Setting Remarks...
Page 217 9-24 9. MITSUBISHI ELECTRIC Open setting Item Setting Remarks Protocol Make settings in accordance with the Host station Port No. (DEC) It is not possible to set it from No. 5000 to 5002. network environment. Transmission target device IP address (DEC) IP address of V9 Transmission target device Port No.
Page 218: Qnh (Q) Series (Multi-Cpu) (Ethernet Ascii)
9.1 PLC Connection 9-25 Available Device Memory The available setting range of device memory varies depending on the PLC model. Be sure to set within the range available for the PLC to be used. Use [TYPE] when assigning indirect device memory for macro programs. Device Memory TYPE Remarks...
Page 219: Qnu Series (Built-In Ethernet)
9-26 9. MITSUBISHI ELECTRIC 9.1.16 QnU Series (Built-in Ethernet) Communication Setting Editor Make the following settings on the editor. For more information, see “1.3.2 Ethernet Communication”.  IP address for the V9 unit - When specified on the screen program: [System Setting] ...
Page 220 9.1 PLC Connection 9-27 Make the PLC setting using the programming tool “GX-Developer”. For more information, refer to the PLC manual issued by the manufacturer. QnU Series Built-in Ethernet PC parameter Make the settings for the IP address and the open settings in the Built-in Ethernet port tab window. Item Setting Remarks...
Page 221 9-28 9. MITSUBISHI ELECTRIC Available Device Memory The available setting range of device memory varies depending on the PLC model. Be sure to set within the range available for the PLC to be used. Use [TYPE] when assigning indirect device memory for macro programs. Device Memory TYPE Remarks...
Page 222: L Series Link
9.1 PLC Connection 9-29 9.1.17 L Series Link Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / 1 : n / Multi-link2 / Multi-link2 (Ethernet) / Connection Mode 1 : n Multi-link2 (Ethernet) Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 / 38400 /57600 / 115K bps Data Length 8 bits...
Page 223 9-30 9. MITSUBISHI ELECTRIC Available Device Memory The available setting range of device memory varies depending on the PLC model. Be sure to set within the range available for the PLC to be used. Use [TYPE] when assigning indirect device memory for macro programs. Device Memory TYPE Remarks...
Page 224: L Series (Built-In Ethernet)
9.1 PLC Connection 9-31 9.1.18 L Series (Built-in Ethernet) Communication Setting Editor Make the following settings on the editor. For more information, see “1.3.2 Ethernet Communication”.  IP address for the V9 unit - When specified on the screen program: [System Setting] ...
Page 225 9-32 9. MITSUBISHI ELECTRIC Make the PLC setting using the programming tool “GX-Developer”. For more information, refer to the PLC manual issued by the manufacturer. L Series Built-in Ethernet Make the settings for the IP address and the open settings in the Built-in Ethernet port tab window. Item Setting Remarks...
Page 226 9.1 PLC Connection 9-33 Available Device Memory The available setting range of device memory varies depending on the PLC model. Be sure to set within the range available for the PLC to be used. Use [TYPE] when assigning indirect device memory for macro programs. Device Memory TYPE Remarks...
Page 227: Fx Series Cpu
9-34 9. MITSUBISHI ELECTRIC 9.1.19 FX Series CPU Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / Multi-link2 / Connection Mode Multi-link2 (Ethernet) Signal Level RS-422/485 Baud Rate 9600 bps Data Length 7 bits Stop Bit 1 bit Parity...
Page 228: Fx2N/1N Series Cpu
9.1 PLC Connection 9-35 9.1.20 FX2N/1N Series CPU Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / Multi-link2 / Connection Mode Multi-link2 (Ethernet) Signal Level RS-422/485 Baud Rate 9600 / 19200 / 38400 bps Data Length 7 bits Stop Bit...
Page 229: Fx1S Series Cpu
9-36 9. MITSUBISHI ELECTRIC 9.1.21 FX1S Series CPU Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / Multi-link2 / Connection Mode Multi-link2 (Ethernet) Signal Level RS-422/485 Baud Rate 9600 bps Data Length 7 bits Stop Bit 1 bit Parity...
Page 230: Fx Series Link (A Protocol)
9.1 PLC Connection 9-37 9.1.22 FX Series Link (A Protocol) Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / 1 : n / Multi-link / Multi-link2 / Connection Mode Multi-link2 (Ethernet) / 1 : n Multi-link2 (Ethernet) Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 bps Transmission Mode...
Page 231 9-38 9. MITSUBISHI ELECTRIC Available Device Memory The available setting range of device memory varies depending on the PLC model. Be sure to set within the range available for the PLC to be used. Use [TYPE] when assigning indirect device memory for macro programs. Device Memory TYPE Remarks...
Page 232: Fx-3U/3Uc/3G Series Cpu
9.1 PLC Connection 9-39 9.1.23 FX-3U/3UC/3G Series CPU Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / Multi-link2 / Connection Mode Multi-link2 (Ethernet) Signal Level RS-422/485 Baud Rate 9600 / 19200 / 38400 /57600 / 115K bps Data Length 7 bits Stop Bit...
Page 233: Fx-3U Series (Ethernet)
9-40 9. MITSUBISHI ELECTRIC 9.1.24 FX-3U Series (Ethernet) Communication Setting Editor Make the following settings on the editor. For more information, see “1.3.2 Ethernet Communication”.  IP address for the V9 unit - When specified on the screen program: [System Setting]  [Hardware Setting]  [Local Port IP Address] - When specified on the V9 unit: Local mode ...
Page 234 9.1 PLC Connection 9-41 FX3U-ENET-L Make PLC settings using the configuration tool “FX3U-ENET-L”. Ethernet operational settings Item Setting Remarks Communication data code Binary code Always wait for OPEN (Communication possible Initial timing at STOP time) IP address (DEC) Specify according to the environment. Ethernet open settings Use row No.
Page 235 9-42 9. MITSUBISHI ELECTRIC Open setting Item Setting Remarks Protocol Fixed buffer Receive, Send Fixed buffer communication procedure Procedure exist (MC) Pairing open Enable Existence confirmation No confirm Make settings in accordance with the Host station Port No. (DEC) 1025 to 5548, 5552 to 65534 network environment.
Page 236: Fx 3U/3Uc/3G Series Link (A Protocol)
9.1 PLC Connection 9-43 9.1.25 FX 3U/3UC/3G Series Link (A Protocol) Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / 1 : n / Multi-link / Multi-link2 / Connection Mode Multi-link2 (Ethernet) / 1 : n Multi-link2 (Ethernet) Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 bps...
Page 237 9-44 9. MITSUBISHI ELECTRIC Available Device Memory The available setting range of device memory varies depending on the PLC model. Be sure to set within the range available for the PLC to be used. Use [TYPE] when assigning indirect device memory for macro programs. Device Memory TYPE Remarks...
Page 238: A-Link + Net
9.1 PLC Connection 9-45 9.1.26 A-Link + Net10 The A-link + Net10 can only be selected by the logical port PLC1. The V9 series can communicate with an A series on the network (Net10) via the standard type link unit. Network No.
Page 239 9-46 9. MITSUBISHI ELECTRIC Available Device Memory The contents of “Available Device Memory” are the same as those described in “9.1.1 A Series Link”. When setting the device memory on the V-SFT, specify the station number as well. Specify the network number using a macro. For more information, refer to the following. Network specification macro When accessing a PLC on a network number other than that directly connected via NET/10, execute “SYS (OUT_ENQ) F1”...
Page 240: Q170Mcpu (Multi Cpu)
9.1 PLC Connection 9-47 9.1.27 Q170MCPU (Multi CPU) Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / Multi-link2 / Multi-link2 (Ethernet) Signal Level RS-232C Baud Rate 9600 / 19200 / 38400 / 57600 / 115K bps Data Length 8 bits Stop Bit...
Page 241 9-48 9. MITSUBISHI ELECTRIC Specifying the access CPU In addition to the device type and address, an access CPU must be specified. The assigned device memory is expressed as shown below when editing the screen. Example: 1 : D00000 Address number Device type Access CPU No.
Page 242: Q170 Series (Multi Cpu) (Ethernet)
9.1 PLC Connection 9-49 9.1.28 Q170 Series (Multi CPU) (Ethernet) Communication Setting Editor Make the following settings on the editor. For more information, see “1.3.2 Ethernet Communication”.  IP address for the V9 unit - When specified on the screen program: [System Setting] ...
Page 243 9-50 9. MITSUBISHI ELECTRIC When using the PLC for the first time, the operating system must be installed. Make communication settings using the programming tool “MT-Developer2”. For more information, refer to the PLC manual issued by the manufacturer. Built-in Ethernet port setting Specify the IP address and open method on the built-in Ethernet port setting dialog.
Page 244 9.1 PLC Connection 9-51 Available Device Memory The available setting range of device memory varies depending on the PLC model. Be sure to set within the range available for the PLC to be used. Use [TYPE] when assigning indirect device memory for macro programs. Device Memory TYPE Remarks...
Page 245 9-52 9. MITSUBISHI ELECTRIC 9.1.29 Wiring Diagrams When Connected at CN1: RS-232C Wiring diagram 1 - C2 Hakko Electronics’ cable “D9-MI2-09- M” ( = 2, 3, 5, 10, 15) Name Name Dsub 9 (Male) Dsub 9 (Male) * Use shielded twist-pair cables.
Page 246 Name Dsub 25 (Male) Dsub 9 (Male) * Use shielded twist-pair cables. RS-422/RS-485 Wiring diagram 1 - C4 Hakko Electronics’ cable “D9-MI4-0T- M” ( = 2, 3, 5, 10, 15) Name Name Dsub 9 (Male) * Use shielded twist-pair cables.
Page 247 9-54 9. MITSUBISHI ELECTRIC Wiring diagram 3 - C4 Hakko Electronics’ cable “D9-MB-CPUQ- M” ( = 2, 3, 5, 10, 15) Name Name Dsub 25 (Male) Dsub 9 (Male) DSRA DSRB * Use shielded twist-pair cables. According to our noise tests, the attachment of a ferrite core improves noise voltage by 650 to 900 V and aids in preventing communication errors.
Page 248 9.1 PLC Connection 9-55 Wiring diagram 2 - M2 MJ1/2 Name Name Dsub 25 (Male) RJ - 45 1 2 3 4 56 7 8 * Use shielded twist-pair cables. Wiring diagram 3 - M2 MJ1/2 Name Name Dsub 9 (Female) RJ - 45 1 2 3 45 6 7 8 * Use shielded twist-pair cables.
Page 249 9-56 9. MITSUBISHI ELECTRIC RS-422/RS-485 Wiring diagram 1 - M4 MJ1/2 Name Name RJ - 45 1 23 4 56 78 +RD/+SD -RD/-SD * Use shielded twist-pair cables.
Page 250: V-Mdd (Dual Port Interface)
9.1 PLC Connection 9-57 V-MDD (Dual Port Interface) “V-MDD” is the add-on connector unit with two ports, specifically designed for Mitsubishi’s A series, QnA series or FX series CPU programmer. Mitsubishi A/QnA/FX series A6GPP, A7PHP, computer, etc. When connecting to the CPU of the Mitsubishi A/QnA series: Insert the connector on the backside into the CPU port directly or use the “MDD-CPU”...
Page 251 9-58 9. MITSUBISHI ELECTRIC Temperature Controller/Servo/Inverter Connection Inverter Connection PLC Selection on the Model Port Signal level Lst File Editor MJ1/MJ2 FR-A500 FR-E500 PU connector FR-*500 FR-E500.Lst FR-F500 RS-485 Wiring diagram 1 - C4 Wiring diagram 1 - M4 FR-S500 RS-485 connector FR-V500 FR-V500...
Page 252 9.2 Temperature Controller/Servo/Inverter Connection 9-59 9.2.1 FR-*500 Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / 1 : n / Multi-link / Multi-link2 / Connection Mode Multi-link2 (Ethernet) / 1 : n Multi-link2 (Ethernet) Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 bps Data Length 7 / 8 bits...
Page 253 9-60 9. MITSUBISHI ELECTRIC Available Device Memory The available setting range of device memory varies depending on the model. Be sure to set within the range available for the model to be used. Use [TYPE] when assigning indirect device memory for macro programs. Device Memory TYPE Remarks...
Page 254 9.2 Temperature Controller/Servo/Inverter Connection 9-61 PLC_CTL Macro command “PLC_CTL F0 F1 F2” Contents F1 (= $u n) Station number Writing running 1 - 8 n + 1 Command: 00EEH frequency (EEPROM) (PLC1 - 8) n + 2 Running frequency Station number Writing running 1 - 8 n + 1...
Page 255 9-62 9. MITSUBISHI ELECTRIC 9.2.2 FR-V500 Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / 1 : n / Multi-link2 / Connection Mode Multi-link2 (Ethernet) / 1 : n Multi-link2 (Ethernet) Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 bps Data Length 7 / 8 bits Stop Bit...
Page 256 9.2 Temperature Controller/Servo/Inverter Connection 9-63 Available Device Memory The available setting range of device memory varies depending on the model. Be sure to set within the range available for the model to be used. Use [TYPE] when assigning indirect device memory for macro programs. Device Memory TYPE Remarks...
Page 257 9-64 9. MITSUBISHI ELECTRIC PLC_CTL Macro command “PLC_CTL F0 F1 F2” Contents F1 (= $u n) Station number Writing setting 1 - 8 n + 1 Command: 00EEH speed (EEPROM) (PLC1 - 8) n + 2 Running frequency Station number Writing setting 1 - 8 n + 1...
Page 258 9.2 Temperature Controller/Servo/Inverter Connection 9-65 9.2.3 MR-J2S-*A Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / 1 : n / Multi-link2 / Connection Mode Multi-link2 (Ethernet) / 1 : n Multi-link2 (Ethernet) Signal Level RS-232C / RS-422/485 Baud Rate 9600 / 19200 / 38400 / 57600 bps Data Length 8 bits (fixed) Stop Bit...
Page 259 9-66 9. MITSUBISHI ELECTRIC Available Device Memory The available setting range of device memory varies depending on the model. Be sure to set within the range available for the model to be used. Use [TYPE] when assigning indirect device memory for macro programs. Device Memory TYPE Remarks...
Page 260 9.2 Temperature Controller/Servo/Inverter Connection 9-67 9.2.4 MR-J3-*A Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / 1 : n / Multi-link2 / Connection Mode Multi-link2 (Ethernet) / 1 : n Multi-link2 (Ethernet) Signal Level RS-232C / RS-422/485 Baud Rate 9600 / 19200 / 38400 / 57600 / 115K bps Data Length 8 bits Stop Bit...
Page 261 9-68 9. MITSUBISHI ELECTRIC Device Memory TYPE Remarks (basic setting parameters upper limit) Double-word, read only (gain/filter parameters upper limit) Double-word, read only (extension setting parameters upper limit) Double-word, read only (I/O setting parameters upper limit) Double-word, read only F06A (basic setting parameters upper limit) Real number, read only F06B...
Page 262 9.2 Temperature Controller/Servo/Inverter Connection 9-69 9.2.5 MR-J3-*T Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / 1 : n / Multi-link2 / Connection Mode Multi-link2 (Ethernet) / 1 : n Multi-link2 (Ethernet) Signal Level RS-232C / RS-422/485 Baud Rate 9600 / 19200 / 38400 / 57600 / 115K bps Data Length 8 bits (fixed) Stop Bit...
Page 263 9-70 9. MITSUBISHI ELECTRIC Device Memory TYPE Remarks (basic setting parameters upper limit) Double-word, read only (gain/filter parameters upper limit) Double-word, read only (extension setting parameters upper limit) Double-word, read only (I/O setting parameters upper limit) Double-word, read only F06A (basic setting parameters upper limit) Real number, read only F06B...
Page 264 9.2 Temperature Controller/Servo/Inverter Connection 9-71 PLC_CTL Macro command “PLC_CTL F0 F1 F2” Contents F1 (= $u n) Station number n + 1 Command: 0002H 1 - 8 Software version (PLC1 - 8) n + 2 Data No. 0070H n+3 to n+10 Software version Station number n + 1...
Page 265 9-72 9. MITSUBISHI ELECTRIC 9.2.6 FR-E700 Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / 1 : n / Multi-link2 / Connection Mode Multi-link2 (Ethernet) / 1 : n Multi-link2 (Ethernet) Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 bps Data Length 7 / 8 bits Stop Bit...
Page 266 9.2 Temperature Controller/Servo/Inverter Connection 9-73 RS-485 communication is possible. Note that a communication fault (E.PUE) occurs as soon as the inverter is switched to the operation mode with command source. When the value in the range from 0.1 to 999.8 is set: If the V series does not start communication within the preset time, the inverter stops due to an alarm.
Page 267 9-74 9. MITSUBISHI ELECTRIC Address Name Inverter status monitor (expansion) Fault occurrence Not used (inverter running)* Forward rotation (STF) ABC (fault)* Reverse rotation (STR) FU (frequency detection)* SU (Up-to-frequency) OL (overload) * Definitions change according to the Pr.190 to 192. PLC_CTL Macro command “PLC_CTL F0 F1 F2”...
Page 268 9.2 Temperature Controller/Servo/Inverter Connection 9-75 Contents F1 (= $u n) Station number Command: 00F9H 0000H: stop AU (current input selection) Not used Not used Forward rotation command Write run command 1 - 8 Reverse rotation command (Expansion) (PLC1 - 8) n + 2 RL (low speed operation command) RM (middle speed operation command)
Page 269 9-76 9. MITSUBISHI ELECTRIC 9.2.7 Wiring Diagrams When Connected at CN1: RS-232C Wiring diagram 1 - C2 Half-pitch 20-pin Name Name Dsub 9 (Male) * Use shielded twist-pair cables. RS-422/RS-485 Wiring diagram 1 - C4 Name Name RJ-45 Dsub 9 (Male) 1 2 34 5 67 8 * Use shielded twist-pair cables.
Page 270 9.2 Temperature Controller/Servo/Inverter Connection 9-77 When Connected at MJ1/MJ2: RS-232C Wiring diagram 1 - M2 Half-pitch 20-pin MJ1/2 Name Name RJ - 45 1 2 3 45 6 78 * Use shielded twist-pair cables. RS-422/RS-485 Wiring diagram 1 - M4 MJ1/2 Name Name...
Page 271 9-78 9. MITSUBISHI ELECTRIC Please use this page freely.
Page 272 10. MODICON 10.1 PLC Connection...
Page 273 10.1 PLC Connection 10-1 10.1 PLC Connection Serial Connection Connection Ladder PLC Selection Unit/Port Signal Level on the Editor Transfer MJ1/MJ2 140 CPU 113 02 140 CPU 113 03 140 CPU 331 10 140 CPU 434 12A 140 CPU 434 12B Modbus RTU Quantum COMM1...
Page 274 10-2 10. MODICON 10.1.1 Modbus RTU Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / Multi-link2 / Connection Mode Multi-link2 (Ethernet) Signal Level RS-232C Baud Rate 4800 / 9600 / 19200 bps Data Length 8 bits Stop Bit 1 / 2 bits...
Page 275 10.1 PLC Connection 10-3 10.1.2 Wiring Diagrams When Connected at CN1: RS-232C Wiring diagram 1 - C2 Name Name Dsub 9 (Male) Dsub 9 (Male) * Use shielded twist-pair cables. When Connected at MJ1/MJ2: RS-232C Wiring diagram 1 - M2 MJ1/2 Name Name...
Page 276 10-4 10. MODICON Please use this page freely.
Page 277 11. MOELLER 11.1 PLC Connection...
Page 278 11.1 PLC Connection 11-1 11.1 PLC Connection Serial Connection Connection Ladder PLC Selection on the Unit/Port Signal Level Editor Transfer MJ1/MJ2 Wiring diagram 1 - C2 Wiring diagram 1 - M2 PS4-141-MM1 PS4-151-MM1 PS4-201-MM1 MOELLER’s MOELLER’s PRG port RS-232C PS4-201-MM5 “ZB4-303-KB1”...
Page 279: Connection Mode
11-2 11. MOELLER 11.1.1 PS4 Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / Multi-link2 / Multi-link2 (Ethernet) Signal Level RS-232C Baud Rate 9600 bps Data Length 8 bits Stop Bit 1 bit Parity None PRG port...
Page 280 11.1 PLC Connection 11-3 11.1.2 Wiring Diagrams When Connected at CN1: RS-232C Wiring diagram 1 - C2 Name Name Mini DIN 8 (Male) Dsub 9 (Male) * Use shielded twist-pair cables. Wiring diagram 2 - C2 Name Name Dsub 9 (Male) Dsub 9 (Male) MOELLER “ZB4-303-KB1”...
Page 281 11-4 11. MOELLER Please use this page freely.
Page 282 12. M-SYSTEM 12.1 Temperature Controller/Servo/Inverter Connection...
Page 283 12.1 Temperature Controller/Servo/Inverter Connection 12-1 12.1 Temperature Controller/Servo/Inverter Connection Remote I/O Connection PLC Selection on the Model Port Signal Level Lst File Editor MJ1/MJ2 Dsub connector RS-232C Wiring diagram 1 - C2 Wiring diagram 1 - M2 R1M series R1M series MSYS_R1M.Lst (MODBUS RTU) Terminal block...
Page 284: Bits
12-2 12. M-SYSTEM 12.1.1 R1M Series Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / 1 : n / Multi-link2 / Connection Mode Multi-link2 (Ethernet) / 1 : n Multi-link2 (Ethernet) Signal Level RS-232C / RS-422/485 Baud Rate 9600 / 19200 / 38400 bps Data Length...
Page 285 12.1 Temperature Controller/Servo/Inverter Connection 12-3 12.1.2 Wiring Diagrams When Connected at CN1: RS-232C Wiring diagram 1 - C2 Name Name Dsub 9 (Male) Dsub 9 (Male) * Use shielded twist-pair cables. RS-422/RS-485 Wiring diagram 1 - C4 Name Name Dsub 9 (Male) +RD/+SD -RD/-SD * Use shielded twist-pair cables.
Page 286 12-4 12. M-SYSTEM When Connected at MJ1/MJ2: RS-232C Wiring diagram 1 - M2 MJ1/2 Name Name Dsub 9 (Male) RJ - 45 1 23 4 56 78 * Use shielded twist-pair cables. RS-422/RS-485 Wiring diagram 1 - M4 MJ1/2 Name Name RJ - 45 +RD/+SD...
Page 287 13. OMRON 13.1 PLC Connection 13.2 Temperature Controller/Servo/Inverter Connection...
Page 288 Wiring diagram 3 - M2 C200H-LK201-V1 C200HS-CPU01, 03 C200HS-CPU21, 23 C200H-LK202 RS-422 Wiring diagram 1 - C4 C200HS-CPU31, 33 C200H-LK202-V1 C200HS-CPU21, 23 Hakko Electronics’ cable Hakko Electronics’ cable C200HS-CPU31, 33 “D9-OM2-09” “MJ-OM209” CQM1-CPU21 RS-232C port RS-232C CQM1-CPU41, 42, Wiring diagram 2 - C2...
Page 289 13. OMRON SYSMAC CS1/CJ1 Connection Ladder PLC Selection on the Unit/Port Signal Level Editor Transfer MJ1/MJ2 RS-232C port Hakko Electronics’ cable Hakko Electronics’ cable “D9-OM2-09” “MJ-OM209” RS-232C CS1W-SCU21 CS1W-SCU21-V1 Wiring diagram 2 - C2 Wiring diagram 2 - M2 CS1W-SCU31-V1 RS-422 Wiring diagram 3 - C4 Hakko Electronics’...
Page 290 13.1 PLC Connection 13-3 Ethernet Connection SYSMAC CS1/CJ1 Keep Ladder PLC Selection on the Editor Unit TCP/IP UDP/IP Port No. Alive Transfer CS1W-ETN01 CS1W-ETN11 SYSMAC CS1/CJ1 (Ethernet) CS1W-ETN21 SYSMAC CS1/CJ1 (Ethernet Auto) 9600 SYSMAC CS1/CJ1 DNA (Ethernet) CJ1W-ETN11 CJ1W-ETN21 For KeepAlive functions, see “1.3.2 Ethernet Communication”. For the ladder transfer function, see the V9 Series Reference Manual.
Page 291 13-4 13. OMRON 13.1.1 SYSMAC C Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / 1 : n / Multi-link2 / Multi-link2 (Ethernet) / Connection Mode 1 : n Multi-link2 (Ethernet) Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 bps Data Length 7 / 8 bits Stop Bit...
Page 292 13.1 PLC Connection 13-5 C20H / C28H / C40H Standard setting Item Setting Remarks Start Bit 1 bit Communication parameter format can be specified in the DM920 to Data Length 7 bits DM923 device memory. Parity Even For more information, refer to the PLC manual issued by the Stop Bit 2 bits manufacturer.
Page 293 13-6 13. OMRON C500H-LK203 Back switch setting Switch Setting Contents 5-V power supply I/O port RS-232C/RS422 Synchronization Internal Terminating resistance Provided Applicable for RS-422 1 to 5 Unit No. 0 7 / 2 / even Monitor 19200 bps System No. 0 1 : n protocol Disables levels 1, 2, and 3 C200HX / C200HG / C200HE...
Page 294 13.1 PLC Connection 13-7 CPM2A Communication condition setting switch Communication Setting Contents Condition Setting Switch The peripheral port and RS-232C port are operated according to the communication protocol and communication format set on the PLC system setting. PLC system setting Item Setting Remarks...
Page 295 13-8 13. OMRON Available Device Memory The available setting range of device memory varies depending on the PLC model. Be sure to set within the range available for the PLC to be used. Use [TYPE] when assigning indirect device memory for macro programs. Device Memory TYPE Remarks...
Page 296 13.1 PLC Connection 13-9 13.1.2 SYSMAC CV Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / 1 : n / Multi-link2 / Multi-link2 (Ethernet) / Connection Mode 1 : n Multi-link2 (Ethernet) Signal Level RS-232C / RS-422 Baud Rate 4800 / 9600 / 19200 bps Data Length 7 / 8 bits Stop Bit...
Page 297 13-10 13. OMRON Basic setting DIP switch DIP Switch Setting Remarks No. 3 OFF: Host link communication OFF: The host communication port is operated Fixed to 9600 bps for baud rate, 0 for station No. 4 according to the communication condition set number, 7 bits for data length, 2 bits for stop bit on the PLC system setting.
Page 298 13.1 PLC Connection 13-11 Available Device Memory The available setting range of device memory varies depending on the PLC model. Be sure to set within the range available for the PLC to be used. Use [TYPE] when assigning indirect device memory for macro programs. Device Memory TYPE Remarks...
Page 299 13-12 13. OMRON 13.1.3 SYSMAC CS1/CJ1 Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / 1 : n / Multi-link2 / Multi-link2 (Ethernet) / Connection Mode 1 : n Multi-link2 (Ethernet) Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 / 38400 / 57600 / 115k bps Data Length 7 / 8 bits Stop Bit...
Page 300 13.1 PLC Connection 13-13 PC system setting Item Setting Remarks User Setting Checked Baud Rate 4800 / 9600 / 19200 / 38400 / 57600 / 115200 The system setting can be made by specifying a value for the address using a programming console. Parameter 7, 2, E For more information, refer to the PLC manual issued by the...
Page 301 13-14 13. OMRON DM Area Board Unit Contents Setting Port 1 Port 2 Port 1 Port 2 15 to 04 Reserved 0: 9600 5: 4800 6: 9600 D32001 D32011 m + 1 m + 11 03 to 00 Baud rate 7: 19200 8: 38400 9: 57600...
Page 302 13.1 PLC Connection 13-15 Available Device Memory The available setting range of device memory varies depending on the PLC model. Be sure to set within the range available for the PLC to be used. Use [TYPE] when assigning indirect device memory for macro programs. Device Memory TYPE Remarks...
Page 303: Communication Settings
13-16 13. OMRON 13.1.4 SYSMAC CS1/CJ1 (DNA) The V9 series can communicate with CS1/CJ1 on the network (Controller Link) via the serial unit. Node Node Node Node Node Network No. 1 Network No. 2 DNA table SYSTEM Network Node Communication Setting Editor Communication settings The communication setting is the same as the one described in “13.1.3 SYSMAC CS1/CJ1”.
Page 304 13.1 PLC Connection 13-17 Communication setting The communication setting is the same as the one described in “13.1.3 SYSMAC CS1/CJ1”. CX-Integrator Set the PLC routing table on “CX-Integrator”. Two types of routing tables are available: local network table and relay network table.
Page 305 13-18 13. OMRON 13.1.5 SYSMAC CS1/CJ1 (Ethernet) Communication Setting Editor Make the following settings on the editor. For more information, see “1.3.2 Ethernet Communication”.  IP address for the V9 unit - When specified on the screen program: [System Setting]  [Hardware Setting]  [Local Port IP Address] - When specified on the V9 unit: Local mode ...
Page 306 13.1 PLC Connection 13-19 Make the following settings on CX Programmer. For more information, refer to the PLC manual issued by the manufacturer. Parameter setting Item Setting IP Address IP address of the PLC Subnet Mask Subnet mask of the PLC IP Address Conversion IP address table IP address and node number of the PLC...
Page 307 13-20 13. OMRON 13.1.6 SYSMAC CS1/CJ1 (Ethernet Auto) Communication Setting Editor Make the following settings on the editor. For more information, see “1.3.2 Ethernet Communication”.  IP address for the V9 unit - When specified on the screen program: [System Setting]  [Hardware Setting]  [Local Port IP Address] - When specified on the V9 unit: Local mode ...
Page 308 13.1 PLC Connection 13-21 Make the following settings on CX Programmer. For more information, refer to the PLC manual issued by the manufacturer. Parameter setting Item Setting IP address of the PLC IP Address Set the same number as the node number of the rotary switch for the lowest byte which is to be the FINS (FINS node address) node address.
Page 309 13-22 13. OMRON 13.1.7 SYSMAC CS1/CJ1 DNA (Ethernet) The V9 series can communicate with CS1/CJ1 on the network (Controller Link) via the Ethernet unit. 192.168.1.1 192.168.1.2 Node Node Node Node Node Node Node Network No. 5 Network No. 1 Network No. 2 Ethernet PLC table DNA table...
Page 310 13.1 PLC Connection 13-23  IP address and port number of the PLC Register on the [PLC Table] in [System Setting]  [Hardware Setting]  [PLC Properties]  [Target Settings]. PLC table No. = PLC node address Set the IP address, port number and whether or not to use the KeepAlive function to the same number as the PLC node address.
Page 311 13-24 13. OMRON Communication setting Make the following settings on CX Programmer. For more information, refer to the PLC manual issued by the manufacturer. Parameter setting Item Setting IP Address IP address of the PLC Subnet Mask Subnet mask of the PLC IP Address Conversion IP address table IP address and node number of the PLC...
Page 312 Wiring diagram 1 - C2 Name Name Dsub 9 (Male) Dsub 9 (Male) * Use shielded twist-pair cables. Wiring diagram 2 - C2 Hakko Electronics’ cable “D9-OM2-09- M” ( = 2, 3, 5, 10, 15) Name Name Dsub 9 (Male) Dsub 9 (Male) * Use shielded twist-pair cables.
Page 313 13-26 13. OMRON RS-422/RS-485 Wiring diagram 1 - C4 Name Name Dsub 9 (Male) Dsub 9 (Male) * Use shielded twist-pair cables. Wiring diagram 2 - C4 Name Name Dsub 9 (Male) Dsub 9 (Male) * Use shielded twist-pair cables. Wiring diagram 3 - C4 Name Name...
Page 314 Name Dsub 9 (Male) RJ - 45 1 2 3 45 6 78 * Use shielded twist-pair cables. Wiring diagram 2 - M2 Hakko Electronics’ cable “MJ-OM209- M” ( = 2, 3, 5, 10, 15) MJ1/2 Name Name Dsub 9 (Male)
Page 315 13-28 13. OMRON Wiring diagram 4 - M2 MJ1/2 Name Name Dsub 9 (Male) RJ - 45 SHELL 1 2 34 56 78 * Use shielded twist-pair cables. RS-422/RS-485 Wiring diagram 1 - M4 MJ1/2 Name Name RJ - 45 SDA- 1 23 45 6 78 SDB+...
Page 316 13.2 Temperature Controller/Servo/Inverter Connection 13-29 13.2 Temperature Controller/Servo/Inverter Connection Temperature Controller Connection PLC Selection on Model Port Signal Level Lst File the Editor MJ1/MJ2 E5AK-xxx01xx Terminal RS-232C Wiring diagram 1 - C2 Wiring diagram 1 - M2 E5AK E5AK-xxx02xx Terminal RS-422 Wiring diagram 2 - C4 E5AK.Lst...
Page 317 13-30 13. OMRON Power Meter Connection PLC Selection on the Model Port Signal Level Lst File Editor MJ1/MJ2 Terminal RS-485 Wiring diagram 1 - C4 Wiring diagram 1 - M4 KM20 KM20-B40-FLK OM_KM20.Lst K3SC terminal RS-232C Wiring diagram 4 - C2 Wiring diagram 4 - M2 Terminal RS-485...
Page 318 13.2 Temperature Controller/Servo/Inverter Connection 13-31 13.2.1 E5AK Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / 1 : n / Multi-link2 / Multi-link2 (Ethernet) / Connection Mode 1 : n Multi-link2 (Ethernet) Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 bps Data Length 7 / 8 bits Stop Bit...
Page 319 13-32 13. OMRON 13.2.2 E5AK-T Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / 1 : n / Multi-link2 / Connection Mode Multi-link2 (Ethernet) / 1 : n Multi-link2 (Ethernet) Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 bps Data Length 7 / 8 bits Stop Bit...
Page 320 13.2 Temperature Controller/Servo/Inverter Connection 13-33 13.2.3 E5AN/E5EN/E5CN/E5GN Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / 1 : n / Multi-link2 / Multi-link2 (Ethernet) / Connection Mode 1 : n Multi-link2 (Ethernet) Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 / 38400 / 57600 bps Data Length 7 / 8 bits Stop Bit...
Page 321 13-34 13. OMRON Available Device Memory The available setting range of device memory varies depending on the model. Be sure to set within the range available for the model to be used. Use [TYPE] when assigning indirect device memory for macro programs. Device Memory TYPE Remarks...
Page 322 13.2 Temperature Controller/Servo/Inverter Connection 13-35 13.2.4 E5AR/E5ER Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / 1 : n / Multi-link2 / Multi-link2 (Ethernet) / Connection Mode 1 : n Multi-link2 (Ethernet) Signal Level RS-422/485 Baud Rate 9600 / 19200 / 38400 bps Data Length 7 / 8 bits Stop Bit...
Page 323 13-36 13. OMRON Indirect Device Memory Designation n + 0 Model (91 to 98) Device type n + 1 Address No. n + 2 Expansion code Bit designation n + 3 Station number For bit designation, an expansion code setting is required. 00H: when designating bit 0 to 15 01H: when designating bit 16 to 31 PLC_CTL...
Page 324 13.2 Temperature Controller/Servo/Inverter Connection 13-37 Contents F1 (= $u n) AT cancellation 0A00H: Channel 1 0A10H: Channel 2 0A20H: Channel 3 0A30H: Channel 4 09F0H: All channels Write mode 0400H: Backup mode 0401H: RAM write mode 0500H: Save RAM data 0600H: Software reset 0700H: Move to set area 1 0800H: Move to protect level...
Page 325 13-38 13. OMRON 13.2.5 E5CK Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / 1 : n / Multi-link2 / Multi-link2 (Ethernet) / Connection Mode 1 : n Multi-link2 (Ethernet) Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 bps Data Length 7 / 8 bits Stop Bit...
Page 326 13.2 Temperature Controller/Servo/Inverter Connection 13-39 13.2.6 E5CK-T Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / 1 : n / Multi-link2 / Connection Mode Multi-link2 (Ethernet) / 1 : n Multi-link2 (Ethernet) Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 bps...
Page 327 13-40 13. OMRON 13.2.7 E5CN-HT Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / 1 : n / Multi-link2 / Connection Mode Multi-link2 (Ethernet) 1 : n Multi-link2 (Ethernet) Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 / 38400 / 57600 bps Data Length...
Page 328 13.2 Temperature Controller/Servo/Inverter Connection 13-41 PLC_CTL Macro command “PLC_CTL F0 F1 F2” Contents F1 (= $u n) Station number n + 1 Command: 0006H Operation status (higher byte) 00: Control not in execution (Setting area 1, outputting manipulated variables for manual operation, resetting operation or alarm occurrence) 01: Control in execution (Other than above)
Page 329 13-42 13. OMRON 13.2.8 E5EK Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / 1 : n / Multi-link2 / Multi-link2 (Ethernet) / Connection Mode 1 : n Multi-link2 (Ethernet) Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 bps Data Length 7 / 8 bits Stop Bit...
Page 330 13.2 Temperature Controller/Servo/Inverter Connection 13-43 13.2.9 E5ZD Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / 1 : n / Multi-link2 / Multi-link2 (Ethernet) / Connection Mode 1 : n Multi-link2 (Ethernet) Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 bps Data Length 7 bits Stop Bit...
Page 331 13-44 13. OMRON Device Memory TYPE Remarks 0023 Fuzzy strength 0024 Fuzzy scale 1 0025 Fuzzy scale 2 Address denotations: Example: xx : yyyyzz Channel number 0 to 7 Address number Colon Bank number 0 to 7 Indirect Device Memory Designation n + 0 Model (91 to 98) Device type...
Page 332 13.2 Temperature Controller/Servo/Inverter Connection 13-45 13.2.10 E5ZE Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / 1 : n / Multi-link2 / Multi-link2 (Ethernet) / Connection Mode 1 : n Multi-link2 (Ethernet) Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 bps Data Length 7 bits Stop Bit...
Page 333 13-46 13. OMRON Available Device Memory The available setting range of device memory varies depending on the model. Be sure to set within the range available for the model to be used. Use [TYPE] when assigning indirect device memory for macro programs. Device Memory TYPE Remarks...
Page 334 13.2 Temperature Controller/Servo/Inverter Connection 13-47 PLC_CTL Macro command “PLC_CTL F0 F1 F2” Contents F1 (= $u n) Station number n + 1 Command: 0 1 - 8 0 - 7: AT start channel No. Auto tuning (PLC1 - 8) 10: Collective start at all channels n + 2 11: Sequential start at all channels 12: Cancel...
Page 335 13-48 13. OMRON 13.2.11 E5ZN Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / 1 : n / Multi-link2 / Multi-link2 (Ethernet) / Connection Mode 1 : n Multi-link2 (Ethernet) Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 bps Data Length 7 / 8 bits Stop Bit...
Page 336 13.2 Temperature Controller/Servo/Inverter Connection 13-49 PLC_CTL Macro command “PLC_CTL F0 F1 F2” Contents F1 (= $u n) Station number n + 1 Command: 06H Operation status (higher byte) 00: Control in execution for all channels (Operation in progress while the setting area is “0” with no error occurring.) 1 - 8 01: Control stopping at any of the channels...
Page 337 13-50 13. OMRON 13.2.12 V600/620/680 Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / 1 : n / Multi-link2 / Multi-link2 (Ethernet) / Connection Mode 1 : n Multi-link2 (Ethernet) Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 / 38400 / 115K bps Data Length 7 / 8 bits Stop Bit...
Page 338 13.2 Temperature Controller/Servo/Inverter Connection 13-51  Synchronized writing Writing starts when the control device memory (command bit) is set (ON). When writing has been finished, the control device memory (acknowledge bit) is set (ON). Item Contents The data is written into the device memory addresses registered in the device memory map when the control device memory (command bit) is set (ON).
Page 339 13-52 13. OMRON DIP Switch Setting Unit No. (Valid only when “1 : N” is selected by SW6. When “1 : 1” is selected, set all switches to the OFF positions.) DIP switch 2 Communication protocol OFF: 1 : 1 ON: 1 : N Terminating resistance at sending side (valid only for RS-422) OFF: Not provided...
Page 340 13.2 Temperature Controller/Servo/Inverter Connection 13-53 V680 (Default: OFF (all)) Switch Setting Setting 0 to 31 (32 to 99: not available) Higher-order digit: 0 to 3 Controller No. setting Lower-order digit: 0 to 9 SW3-1 Switch selection OFF: DIP switch enabled SW3-3 SW3-4 Baud Rate...
Page 341 13-54 13. OMRON PLC_CTL Macro command “PLC_CTL F0 F1 F2” Contents F1 (= $u n) Station number n + 1 Command: 0 Read (specified with ASCII code) 1 - 8 n + 2 Top address Channel 1 (PLC1 - 8) n + 3 Word count: m n + 4 to...
Page 342 13.2 Temperature Controller/Servo/Inverter Connection 13-55 Contents F1 (= $u n) Station number n + 1 Command: 100 Read (specified with ASCII code) 1 - 8 n + 2 Top address Channel 2 (PLC1 - 8) n + 3 Word count: m n + 4 to Read data n + (3 + m)
Page 343 13-56 13. OMRON Operation Communication area Tag is located in the communication area: in proximity Tag is located in the communication area: not in proximity Antenna ID controller When a tag is located in proximity: V series ID controller Read/write command Exit code: 74 Inaccessible 1) The V series sends the read/write command.
Page 344 13.2 Temperature Controller/Servo/Inverter Connection 13-57 13.2.13 KM20 Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / 1 : n / Multi-link2 / Multi-link2 (Ethernet) / Connection Mode 1 : n Multi-link2 (Ethernet) Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 / 38400 bps Data Length 7 / 8 bits Stop Bit...
Page 345 13-58 13. OMRON Available Device Memory The available setting range of device memory varies depending on the model. Be sure to set within the range available for the model to be used. Use [TYPE] when assigning indirect device memory for macro programs. Device Memory TYPE Remarks...
Page 346 13.2 Temperature Controller/Servo/Inverter Connection 13-59 13.2.14 KM100 Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / 1 : n / Multi-link2 / Multi-link2 (Ethernet) / Connection Mode 1 : n Multi-link2 (Ethernet) Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 / 38400 bps Data Length 7 / 8 bits Stop Bit...
Page 347 13-60 13. OMRON PLC_CTL Macro command “PLC_CTL F0 F1 F2” Contents F1 (= $u n) Station number 1 - 8 Status read out n + 1 Command: 06H (PLC1 - 8) n + 2 Operation status Station number n + 1 Command: 30H 0000H: Start calculation of arbitrary integral power consumption 0100H: Stop calculation of arbitrary integral power consumption...
Page 348 13.2 Temperature Controller/Servo/Inverter Connection 13-61 13.2.15 Wiring Diagrams When Connected at CN1: RS-232C Wiring diagram 1 - C2 Name Name Dsub 9 (Male) * Use shielded twist-pair cables. Wiring diagram 2 - C2 Name Name Dsub 25(Male) Dsub 9 (Male) * Use shielded twist-pair cables.
Page 349 13-62 13. OMRON RS-422/RS-485 Wiring diagram 1 - C4 Name Name Dsub 9 (Male) B(+) A(-) * Use shielded twist-pair cables. Wiring diagram 2 - C4 Name Name Dsub 9 (Male) SDB+ SDA- RDA- RDB+ * Use shielded twist-pair cables. Wiring diagram 3 - C4 Name Name...
Page 350 13.2 Temperature Controller/Servo/Inverter Connection 13-63 Wiring diagram 5 - C4 Name Name Dsub 9 (Male) Dsub 9 (Male) * Use shielded twist-pair cables. When Connected at MJ1/MJ2: RS-232C Wiring diagram 1 - M2 MJ1/2 Name Name RJ-45 1 2 3 45 6 78 * Use shielded twist-pair cables.
Page 351 13-64 13. OMRON Wiring diagram 4 - M2 MJ1/2 Name Name Name Name RJ-45 A(-) B(+) 1 2 34 56 7 8 RS-485 RS-232C * Use shielded twist-pair cables. K3SC DIPSW9:OFF RS-422/RS-485 Wiring diagram 1 - M4 MJ1/2 Name Name RJ - 45 B(+) 12 34 56 7 8...
Page 352 13.2 Temperature Controller/Servo/Inverter Connection 13-65 Wiring diagram 5 - M4 MJ1/2 Name Name Dsub 9 (Male) RJ - 45 12 34 5 6 78 +RD/+SD -RD/-SD * Use shielded twist-pair cables.
Page 353 13-66 13. OMRON Please use this page freely.
Page 354 14. Oriental Motor 14.1 Temperature Controller / Servo / Inverter Connection...
Page 355 14.1 Temperature Controller / Servo / Inverter Connection 14-1 14.1 Temperature Controller / Servo / Inverter Connection Stepping Motor Connection PLC Selection on the Model Port Signal Level Lst File Editor MJ1/MJ2 ARD-KD High-efficiency AR series OM_AR ARD-AD RS-485 Wiring diagram 1 - C4 Wiring diagram 1 - M4 (MODBUS RTU) (MODBUS RTU).Lst...
Page 356: High-Efficiency Ar Series (Modbus Rtu)
14-2 14. Oriental Motor 14.1.1 High-efficiency AR Series (MODBUS RTU) Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / 1 : n / Multi-link2 / Connection Mode Multi-link2 (Ethernet) / 1 : n Multi-link2 (Ethernet) Signal Level RS-422/485 Baud Rate...
Page 357 14.1 Temperature Controller / Servo / Inverter Connection 14-3 Terminating resistance setting switches (TERM.) TERM. Setting Item Setting Remarks Both ON: With terminating Be sure to set both switches to the resistance same position (ON or OFF). Terminating resistance Both OFF: Without Turning ON either one only may result terminating in communication error.
Page 358: Crk Series (Modbus Rtu)
14-4 14. Oriental Motor 14.1.2 CRK Series (MODBUS RTU) Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / 1 : n / Multi-link2 / Connection Mode Multi-link2 (Ethernet) / 1 : n Multi-link2 (Ethernet) Signal Level RS-422/485 Baud Rate...
Page 359 14.1 Temperature Controller / Servo / Inverter Connection 14-5 Available Device Memory The available setting range of device memory varies depending on the model. Be sure to set within the range available for the model to be used. Use [TYPE] when assigning indirect device memory for macro programs. Device Memory TYPE Remarks...
Page 360: Wiring Diagram
14-6 14. Oriental Motor 14.1.3 Wiring diagram When Connected at CN1: RS-485 Wiring diagram 1 - C4 CN6/7 Name Name RJ - 45 Dsub 9 (Male) 1 23 45 6 78 * Use shielded twist-pair cables. When Connected at MJ1/MJ2: RS-485 Wiring diagram 1 - M4 CN6/7...
Page 361 15. Panasonic 15.1 PLC Connection 15.2 Temperature Controller/Servo/Inverter Connection...
Page 362 15.1 PLC Connection 15-1 15.1 PLC Connection Serial Connection Connection Ladder PLC Selection on the Unit/Port Signal Level Editor Transfer MJ1/MJ2 COM port of the CPU RS-232C Wiring diagram 1 - C2 Wiring diagram 1 - M2 AFP3462 (CCU) RS-232C AFP3463 (C-NET) RS-422 Wiring diagram 1 - C4...
Page 363 15-2 15. Panasonic Ethernet Connection FP/FP-X Series Keep Ladder PLC Selection on the Unit TCP/IP UDP/IP Port No. Editor Alive Transfer FP Series (TCP/IP) FP2-ET1 As desired FP Series (UDP/IP) FP-X (TCP/IP) FP-X AFPX-COM5 As desired FP7 Series (Ethernet) Built-in Ethernet 8000 to 65535 To speed up communications, we recommend you to use UDP/IP communication.
Page 364 15.1 PLC Connection 15-3 15.1.1 FP Series (RS232C/422) Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / 1 : n / Multi-link / Multi-link2 / Connection Mode Multi-link2 (Ethernet) / 1 : n Multi-link2 (Ethernet) Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 / 38400 /57600 / 115k bps Data Length...
Page 365 15-4 15. Panasonic FP- Tool port setting (Underlined setting: default) Contents System Register Unit No. 1 to 99 Data Length 7 / 8 bits Parity None / Odd / Even Stop Bit 1 / 2 bits Baud Rate 4800 / 9600 / 19200 / 38400 /57600 / 115k bps System register setting is enabled in the RUN mode.
Page 366 15.1 PLC Connection 15-5 Tool port setting (Underlined setting: default) Contents System Register Data Length 7 / 8 bits 4800 / 9600 / 19200 / 38400 / 57600 / 115200 bps Baud Rate Parity Odd (fixed) Stop Bit 1 (fixed) System register setting is enabled in the RUN mode.
Page 367 15-6 15. Panasonic Operation mode setting switch (lower) Switch Setting Contents Baud rate: 19200 bps Station number setting switch (lower) (Underlined setting: default) Switch Setting The tens place The ones place 01 to 32 AFP3462 / AFP5462 (CCU) DIP switch setting Switch Setting Contents...
Page 368: Fp Series (Tcp/Ip)
15.1 PLC Connection 15-7 15.1.2 FP Series (TCP/IP) Communication Setting Editor Make the following settings on the editor. For more information, see “1.3.2 Ethernet Communication”.  IP address for the V9 unit - When specified on the screen program: [System Setting]  [Hardware Setting]  [Local Port IP Address] - When specified on the V9 unit: Local mode ...
Page 369 15-8 15. Panasonic  IP address and port number of the PLC Register on the [PLC Table] in [System Setting]  [Hardware Setting]  [PLC Properties]  [Target Settings]. Set the same PLC table number as the one set for “MEWTOCOL Station Number” ([Initial Information Setting]  [Local Node Setting]).
Page 370 15.1 PLC Connection 15-9 Available Device Memory The available setting range of device memory varies depending on the PLC model. Be sure to set within the range available for the PLC to be used. Use [TYPE] when assigning indirect device memory for macro programs. Device Memory TYPE Remarks...
Page 371: Fp Series (Udp/Ip)
15-10 15. Panasonic 15.1.3 FP Series (UDP/IP) Communication Setting Editor Make the following settings on the editor. For more information, see “1.3.2 Ethernet Communication”.  IP address for the V9 unit - When specified on the screen program: [System Setting]  [Hardware Setting]  [Local Port IP Address] - When specified on the V9 unit: Local mode ...
Page 372 15.1 PLC Connection 15-11  IP address and port number of the PLC Register on the [PLC Table] in [System Setting]  [Hardware Setting]  [PLC Properties]  [Target Settings]. Set the same PLC table number as the one set for “MEWTOCOL Station Number” ([Initial Information Setting]  [Local Node Setting]).
Page 373 15-12 15. Panasonic Available Device Memory The available setting range of device memory varies depending on the PLC model. Be sure to set within the range available for the PLC to be used. Use [TYPE] when assigning indirect device memory for macro programs. Device Memory TYPE Remarks...
Page 374: Fp-X (Tcp/Ip)
15.1 PLC Connection 15-13 15.1.4 FP-X (TCP/IP) Communication Setting Editor Make the following settings on the editor. For more information, see “1.3.2 Ethernet Communication”.  IP address for the V9 unit - When specified on the screen program: [System Setting]  [Hardware Setting]  [Local Port IP Address] - When specified on the V9 unit: Local mode ...
Page 375 15-14 15. Panasonic  IP address and port number of the PLC Register on the [PLC Table] in [System Setting]  [Hardware Setting]  [PLC Properties]  [Target Settings]. Set the same PLC table number as the one set for “No. 410 Unit No.” ([Option]  [PLC System Register Setting]  [COM1 Port Setting]).
Page 376 15.1 PLC Connection 15-15 Available Device Memory The available setting range of device memory varies depending on the PLC model. Be sure to set within the range available for the PLC to be used. Use [TYPE] when assigning indirect device memory for macro programs. Device Memory TYPE Remarks...
Page 377 15-16 15. Panasonic 15.1.5 FP7 Series (RS232C/422) Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / 1 : n / Multi-link / Multi-link2 / Connection Mode Multi-link2 (Ethernet) / 1 : n Multi-link2 (Ethernet) Signal Level RS-232C / RS-422/485 4800 / 9600 / 19200 / 38400 / 57600 / Baud Rate 115K bps Data Length...
Page 378 15.1 PLC Connection 15-17 AFP7CCS1M1 Setting Item Contents Remarks RS-485 Terminating ON at termination resistance setting Calendar This model is equipped with a calendar function; however, the calendar data cannot be written from the V series. Thus, time correction must be performed on the PLC side. Available Device Memory The available setting range of device memory varies depending on the PLC model.
Page 379 15-18 15. Panasonic Indirect device memory designation n + 0 Model Device type n + 1 Lower address No. Higher address No. n + 2 Program block number n + 3 Expansion code * Bit designation n + 4 Station number * Specify the expansion code as follows.
Page 380: Fp7 Series (Ethernet)
15.1 PLC Connection 15-19 15.1.6 FP7 Series (Ethernet) Communication Setting Editor Make the following settings on the editor. For more information, see “1.3.2 Ethernet Communication”.  IP address for the V9 unit - When specified on the screen program: [System Setting]  [Hardware Setting]  [Local Port IP Address] - When specified on the V9 unit: Local mode ...
Page 381 15-20 15. Panasonic Make PLC settings using the programming tool “FPWIN GR7”. For more information, refer to the PLC manual issued by the manufacturer. FP7 configuration Setting Item Setting Local IP address Set the IP address of the PLC. Basic information Subnet mask Set the subnet mask of the PLC.
Page 382 15.1 PLC Connection 15-21 Specify the program block number. Indications on the screen configuration software are as follows. Example: 1: DT000100 Address number Device type Program block number 0: Global device 1 to 999: Local device Specify the slot number. Indications on the screen configuration software are as follows. Example: 1: UM000100 Address number Device type...
Page 383 15-22 15. Panasonic 15.1.7 Wiring Diagrams When Connected at CN1: RS-232C Wiring diagram 1 - C2 Name Name Dsub 9 (Male) Dsub 9 (Male) * Use shielded twist-pair cables. Wiring diagram 2 - C2 Name Name Dsub 9 (Male) Dsub 9 (Male) * Use shielded twist-pair cables.
Page 384 15.1 PLC Connection 15-23 Wiring diagram 4 - C2 Name Name Dsub 9 (Male) * Use shielded twist-pair cables. Wiring diagram 5 - C2 Name Name Dsub 9 (Male) COM1 COM2 * Use shielded twist-pair cables. RS-422/RS-485 Wiring diagram 1 - C4 Name Name Dsub 9 (Male)
Page 385 15-24 15. Panasonic When Connected at MJ1/MJ2: RS-232C Wiring diagram 1 - M2 MJ1/2 Name Name Dsub 9 (Male) RJ - 45 1 2 34 56 78 * Use shielded twist-pair cables. Wiring diagram 2 - M2 MJ1/2 Name Name Dsub 9 (Male) RJ - 45 1 23 45 6 7 8...
Page 386 15.1 PLC Connection 15-25 Wiring diagram 5 - M2 MJ1/2 Name Name RJ - 45 COM1 COM2 1 2 3 456 7 8 * Use shielded twist-pair cables. Wiring diagram 6 - M2 MJ1/2 Name Name Dsub 9 (Male) RJ - 45 SHELL 1 2 3 4 56 7 8 RS-422/RS-485...
Page 387 15-26 15. Panasonic 15.2 Temperature Controller/Servo/Inverter Connection Serial Connection Laser Marker Connection PLC Selection on the Model Port Signal Level Lst File Editor MJ1/MJ2 LP-410U, LP-410TU, LP-411U, LP-411TU, LP-420S9U, LP-420S9TU, LP-421S9U, LP-421S9TU, LP-400 COM2 RS-232C Wiring diagram 1 - C2 Wiring diagram 1 - M2 LP-400.Lst LP-425S9U, LP-425S9TU,...
Page 388: Lp-400 Series
15.2 Temperature Controller/Servo/Inverter Connection 15-27 15.2.1 LP-400 Series Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / Multi-link2 / Multi-link2 (Ethernet) Signal Level RS-232C Baud Rate 4800 / 9600 / 19200 / 38400 bps Data Length 8 bits Stop Bit...
Page 389 15-28 15. Panasonic Wiring on the terminal block If printing cannot be performed correctly, check the wiring status on the terminal block.  Short-circuit A11 “LASER STOP-” and A12 “LASER STOP+”. When they are opened, the auto shutter is closed and printing is disabled.
Page 390 15.2 Temperature Controller/Servo/Inverter Connection 15-29 MCS (text to print (1-byte character)) Address Name Setting Range 0000 to 0014 Text to print in line number 01 (1-byte character) 0015 to 0029 Text to print in line number 02 (1-byte character) Text to print (CHAR 30 bytes) 0885 to 0899 Text to print in line number 60 (1-byte character) LMT (limit date and time)
Page 391 15-30 15. Panasonic LTC (lot condition) Address Name Setting Range Current 0000 Lot condition 01 to 08: Limit 1 to 8 10 to 17: Counter 0 to 7 0: Year or counter 1: Month 2: Day Lot function number 0 3: Year and month 0001 Limit condition...
Page 392 15.2 Temperature Controller/Servo/Inverter Connection 15-31 CDC (logo condition) Address Name Setting Range 0000 Area number 0 to F (HEX) 0001 X magnification 10000 to 1000000: 10.000 to 1000.000% 0002 Y magnification 10000 to 1000000: 10.000 to 1000.000% 0003 X position -300000 to +300000: -300.000 to +300.000 mm Logo number 0 0004...
Page 393 15-32 15. Panasonic WTC (print quality adjustment) Address Name Setting Range 0000 Laser start point adjustment -100 to +100 0001 Laser end point adjustment -100 to +100 0002 Edge adjustment 000 to 100 0003 Curve adjustment 000 to 100 0004 Weight adjustment 000 to 100 0005...
Page 394 15.2 Temperature Controller/Servo/Inverter Connection 15-33 STS (status request) Address Name Setting Range 0: No error 0000 Error status 1: Error occurring 0: Excitation OFF 0001 Laser excitation status 1: During excitation 2: Excitation finish 0: Standby 0002 Standby status 1: During printing 0: Busy 0003 Print ready status...
Page 395 15-34 15. Panasonic Indirect Device Memory Designation Models (11 to 18) Device type Address No. Bit designation Expansion code Station number * In the expansion code, set which word, higher or lower, is to be read when a double-word address is specified. 0: 0 to 15 bits (lower) 1: 16 to 31 bits (higher)
Page 396 15.2 Temperature Controller/Servo/Inverter Connection 15-35 PLC_CTL Macro command “PLC_CTL F0 F1 F2” Contents F1 (= $u n) Station number: 0 (fixed) 1 - 8 File overwrite (PLC1 - 8) n + 1 Command: A1H Station number: 0 (fixed) n + 1 Command: A2H LP-430U/430TU/431U/431TU 1 - 8...
Page 397 15-36 15. Panasonic Contents F1 (= $u n) Station number: 0 (fixed) n + 1 Command: 24H n + 2 List line: 00 to 99 n + 3 Fine-adjustment type: 3 (all columns adjustment) n + 4 Target column: 001 to 100 LP-430U/430TU/420S9U/420S9TU/ All columns 1 - 8...
Page 398 15.2 Temperature Controller/Servo/Inverter Connection 15-37 Contents F1 (= $u n) Station number: 0 (fixed) n + 1 Command: A4H 1 - 8 Setting delete (PLC1 - 8) n + 2 List line: 00 to 99 n + 3 Fine-adjustment type: 0 (setting delete) Station number: 0 (fixed) n + 1 Command: A4H...
Page 399 15-38 15. Panasonic Contents F1 (= $u n) Station number: 0 (fixed) n + 1 Command: A4H n + 2 List line: 00 to 99 n + 3 Fine-adjustment type: 5 (column adjustment) n + 4 Target column: 001 to 100 LP-430U/430TU/420S9U/420S9TU/ Column 1 - 8...
Page 400 15.2 Temperature Controller/Servo/Inverter Connection 15-39 Contents F1 (= $u n) Station number: 0 (fixed) n + 1 Command: 25H n + 2 Condition number: 01 to 60 n + 3 Area number: 0 to F (HEX) n + 4 Start line: 01 to 60 n + 5 End line: 01 to 60 Standard character arrangement...
Page 401 15-40 15. Panasonic Contents F1 (= $u n) Station number: 0 (fixed) n + 1 Command: 25H n + 2 Condition number: 01 to 60 n + 3 Area number: 0 to F (HEX) n + 4 Start line: 01 to 60 n + 5 End line: 01 to 60 Standard character arrangement...
Page 402 15.2 Temperature Controller/Servo/Inverter Connection 15-41 Contents F1 (= $u n) Station number: 0 (fixed) n + 1 Command: A5H n + 2 Condition number: 01 to 60 n + 3 Area number: 0 to F (HEX) n + 4 Start line: 01 to 60 n + 5 End line: 01 to 60 Standard character arrangement...
Page 403 15-42 15. Panasonic Contents F1 (= $u n) Station number: 0 (fixed) n + 1 Command: A5H n + 2 Condition number: 01 to 60 n + 3 Area number: 0 to F (HEX) n + 4 Start line: 01 to 60 n + 5 End line: 01 to 60 Standard character arrangement...
Page 404 15.2 Temperature Controller/Servo/Inverter Connection 15-43 Contents F1 (= $u n) Station number: 0 (fixed) n + 1 Command: A6H Counter 0 n + 2 0: Not reset 1: Reset Counter 1 n + 3 0: Not reset 1: Reset Counter 2 n + 4 0: Not reset 1: Reset...
Page 405 15-44 15. Panasonic Contents F1 (= $u n) Station number: 0 (fixed) n + 1 Command: AAH Step & repeat n + 2 0: None 1: Provided n + 3 Number of lines: 001 to 100 n + 4 Number of columns: 001 to 100 LP-430U/430TU/420S9U/420S9TU/ 410U/410TU 0 to 110000:...
Page 406 15.2 Temperature Controller/Servo/Inverter Connection 15-45 Contents F1 (= $u n) Station number: 0 (fixed) Command: 2CH Barcode number: 0 to 7 Area number: 0 to FH Type 10: Model 1 11: Model 2 12: Micro QR Version Model 1: 0 to 14 Model 2: 0 to 22 Micro QR: 0 to 4 Data input mode...
Page 407 15-46 15. Panasonic Contents F1 (= $u n) Station number: 0 (fixed) Command: 2CH Barcode number: 0 to 7 Area number: 0 to FH Type 00: CODE39 01: ITF 03: NW-7 Inversion 0: Invalid 1: Valid Check character CODE39, ITF 0: No 1: Yes NW-7...
Page 408 15.2 Temperature Controller/Servo/Inverter Connection 15-47 Contents F1 (= $u n) LP-430U/430TU/420S9U/420S9TU/ 410U/410TU 001000 to 110000: 001.000 to 110.000 mm LP-431U/431TU/421S9U/421S9TU/ n+7 to n+8 Height 411U/411TU 001000 to 055000: 001.000 to 055.000 mm LP-435U/435TU/425S9U/425S9TU 001000 to 160000: 001.000 to 160.000 mm Narrow element width 0050 to 1000: 0.050 to 1.000 mm LP-430U/430TU/420S9U/420S9TU/...
Page 409 15-48 15. Panasonic Contents F1 (= $u n) LP-430U/430TU/420S9U/420S9TU/ 410U/410TU -55000 to +55000: -055.000 to n+10 to n+11 X position +055.000 mm LP-431U/431TU/421S9U/421S9TU/ 411U/411TU RSS-14 Standard -27500 to +27500: -027.500 to & Truncated +027.500 mm 1 to 8 RSS Limited (PLC1 to 8) n+12 to n+13 Y position...
Page 410 15.2 Temperature Controller/Servo/Inverter Connection 15-49 Contents F1 (= $u n) Station number: 0 (fixed) Command: 2CH Barcode number: 0 to 7 Area number: 0 to FH Type 35: RSS Expanded Stacked 45: RSS Expanded Stacked CC-A 55: RSS Expanded Stacked CC-B Human-readable string 0: Without human-readable string 2: With human-readable string...
Page 411 15-50 15. Panasonic Contents F1 (= $u n) LP-430U/430TU/420S9U/420S9TU/ 410U/410TU 001000 to 110000: 001.000 to 110.000 mm Barcode LP-431U/431TU/421S9U/421S9TU/ n+7 to n+8 1-stack 411U/411TU height 001000 to 055000: 001.000 to 055.000 mm LP-435U/435TU/425S9U/425S9TU 001000 to 160000: 001.000 to 160.000 mm Narrow element width 0050 to 1000: 0.050 to 1.000 mm LP-430U/430TU/420S9U/420S9TU/...
Page 412 15.2 Temperature Controller/Servo/Inverter Connection 15-51 Contents F1 (= $u n) Station number: 0 (fixed) Command: ACH Barcode number: 0 to 7 Area number: 0 to FH Type 20: Data matrix Data input mode 0: 1-byte 1: Kanji characters Number of rows Number of columns LP-430U/430TU/420S9U/420S9TU/ Data matrix code...
Page 413 15-52 15. Panasonic Contents F1 (= $u n) Tilting angle n+14 to n+15 -18000 to +18000: -180.00 to +180.00 deg CODE39 Ratio quiet zone/narrow element n+16 000 to 200: 00.0 to 20.0 1 to 8 (PLC1 to 8) Ratio wide element width/narrow element width n+17 18 to 34: 1.8 to 3.4 NW-7...
Page 414 15.2 Temperature Controller/Servo/Inverter Connection 15-53 Contents F1 (= $u n) Station number: 0 (fixed) Command: ACH Barcode number: 0 to 7 Area number: 0 to FH Type 30: RSS-14 Standard & Truncated 33: RSS Limited 34: RSS Expanded 40: RSS-14 Standard & Truncated CC-A 43: RSS Limited CC-A 44: RSS Expanded CC-A 50: RSS-14 Standard &...
Page 415 15-54 15. Panasonic Contents F1 (= $u n) LP-430U/430TU/420S9U/420S9TU/ 410U/410TU 001000 to 110000: 001.000 to 110,000 mm Barcode LP-431U/431TU/421S9U/421S9TU/ n+7 to n+8 1-stack 411U/411TU height 001000 to 055000: 001.000 to 055.000 mm LP-435U/435TU/425S9U/425S9TU 001000 to 160000: 001.000 to 160.000 mm Separator height (W) ratio 000 to 100: 00.0 to 10.0 mm Standard module width...
Page 416 15.2 Temperature Controller/Servo/Inverter Connection 15-55 Contents F1 (= $u n) Tilting angle n+16 to n+17 -18000 to +18000: -180.00 to +180.00 deg RSS-14 Expanded 1 to 8 Stacked (PLC1 to 8) n+18 Laser power correction: 0 to 200% n+19 Scan speed correction: 5 to 500% Station number: 0 (fixed) Command: ACH Barcode number: 0 to 7...
Page 417 15-56 15. Panasonic Contents F1 (= $u n) Station number: 0 (fixed) Command: 2EH Barcode number: 0 to 7 Pattern number For QR code 0: Quite zone/margin 1: Black module 2: White module Reading of 2-D 1 to 8 3: Alignment code pattern (PLC1 to 8) 4: Finder...
Page 418 15.2 Temperature Controller/Servo/Inverter Connection 15-57 Contents F1 (= $u n) Station number: 0 (fixed) Command: B0H Processing condition number: 0 to 7 Area number: 0 to FH LP-430U/430TU/420S9U/420S9TU/ 410U/410TU n+4 to n+5 X offset -55000 to +55000: -055.000 to +055.000 mm Processing Writing of LP-431U/431TU/421S9U/421S9TU/...
Page 419 15-58 15. Panasonic Contents F1 (= $u n) Station number: 0 (fixed) Command: 31H Processing condition number: 0 to 7 Processing element number: 0 to 31 Element type 1: Circle LP-430U/430TU/420S9U/420S9TU/ 410U/410TU Center X n+5 to n+6 -55000 to +55000: coordinate -055.000 to +055.000 mm LP-431U/431TU/421S9U/421S9TU/...
Page 420 15.2 Temperature Controller/Servo/Inverter Connection 15-59 Contents F1 (= $u n) LP-430U/430TU/420S9U/420S9TU/ 410U/410TU 000010 to 110000: 000.010 to 110.000 mm Dashed LP-431U/431TU/421S9U/421S9TU/ n+17 to n+18 line: dash 411U/411TU length 000010 to 550000: 000.010 to 055.000 mm LP-435U/435TU/425S9U/425S9TU 000010 to 160000: Reading of 000.010 to 160.000 mm processing 1 to 8...
Page 421 15-60 15. Panasonic Contents F1 (= $u n) Station number: 0 (fixed) Command: B1H Processing condition number: 0 to 7 Processing element number: 0 to 31 Element type 1: Circle LP-430U/430TU/420S9U/420S9TU/ 410U/410TU Center X n+5 to n+6 -55000 to +55000: coordinate -055.000 to +055.000 mm LP-431U/431TU/421S9U/421S9TU/...
Page 422 15.2 Temperature Controller/Servo/Inverter Connection 15-61 Contents F1 (= $u n) LP-430U/430TU/420S9U/420S9TU/ 410U/410TU 000010 to 110000: 000.010 to 110.000 mm Dashed LP-431U/431TU/421S9U/421S9TU/ n+17 to n+18 line: dash 411U/411TU length 000010 to 550000: 000.010 to 055.000 mm LP-435U/435TU/425S9U/425S9TU 000010 to 160000: Writing of Processing 000.010 to 160.000 mm processing...
Page 423 15-62 15. Panasonic Contents F1 (= $u n) Station number: 0 (fixed) Command: 35H Printing character 0: 1-byte character Reading of barcode print 1 to 8 Setting section data (1-byte (PLC1 to 8) 0: Composite 1D section, except for composite characters) 1: Composite 2D section Barcode number: 0 to 7...
Page 424: Kw Series
15.2 Temperature Controller/Servo/Inverter Connection 15-63 15.2.2 KW Series Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / 1 : n / Multi-link2 / Multi-link2 (Ethernet) / Connection Mode 1 : n Multi-link2 (Ethernet) Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 / 38400 bps Data Length 7 / 8 bits...
Page 425 15-64 15. Panasonic KW1M-R(AKW1131/AKW1131K) (Underlined setting: default) Mode Display Item Setting FORM Wired/wireless setting mode WIRED PROT Protocol setting mode MEWT: MEWTOCOL Station number setting mode 1 to 99 4800: 4800 bps 9600: 9600 bps Baud rate setting mode 19200: 19200 bps MODE 3 38400: 38400 bps 8bit-o: data length 8 bits, odd parity...
Page 426 15.2 Temperature Controller/Servo/Inverter Connection 15-65 KW7M (Underlined setting: default) Mode Display Item Setting PROT Protocol setting mode MEWT: MEWTOCOL Station number setting mode 1 to 99 4800: 4800 bps 9600: 9600 bps Baud rate setting mode 19200: 19200 bps 38400: 38400 bps MODE 2 8bit-o: data length 8 bits, odd parity 7bit-n: data length 7 bits, without parity...
Page 427: Minas A4 Series
15-66 15. Panasonic 15.2.3 MINAS A4 Series Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / 1 : n / Multi-link2 / Multi-link2 (Ethernet) / Connection Mode 1 : n Multi-link2 (Ethernet) Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 / 38400 / 57600 bps Data Length 8 bits Stop Bit...
Page 428 15.2 Temperature Controller/Servo/Inverter Connection 15-67 Available Device Memory The available setting range of device memory varies depending on the model. Be sure to set within the range available for the model to be used. Use [TYPE] when assigning indirect device memory for macro programs. Device Memory TYPE Remarks...
Page 429 15-68 15. Panasonic PLC_CTL Macro command “PLC_CTL F0 F1 F2” Contents F1 (=$u n) Station number: 0 to 15 Software version 1 to 8 Command: 0000H information readout (PLC1 to 8) Software version Station number: 0 to 15 Command: 0001H Model code 1st and 2nd characters Model code 3rd and 4th characters Amplifier model...
Page 430 15.2 Temperature Controller/Servo/Inverter Connection 15-69 15.2.4 Wiring Diagrams When Connected at CN1: RS-232C Wiring diagram 1 - C2 Name Name Dsub 9 (Female) Dsub 9 (Male) * Use shielded twist-pair cables. Wiring diagram 2 - C2 Name Name Dsub 9 (Male) * Use shielded twist-pair cables.
Page 431 15-70 15. Panasonic RS-485 Wiring diagram 1 - C4 Name Name Dsub 9 (Male) * Use shielded twist-pair cables. Eco-POWER METER connected at the terminal (except for KW4M) Name Name Dsub 9 (Male) * Use shielded twist-pair cables. Wiring diagram 2 - C4 Name Name Mini DIN 8 (Male)
Page 432 15.2 Temperature Controller/Servo/Inverter Connection 15-71 When Connected at MJ1/MJ2: RS-232C Wiring diagram 1 - M2 MJ1/2 Name Name Dsub 9 (Female) RJ - 45 12 3 45 678 * Use shielded twist-pair cables. Wiring diagram 2 - M2 MJ1/2 Name Name RJ - 45 12 34 5 67 8...
Page 433 15-72 15. Panasonic RS-485 Wiring diagram 1 - M4 MJ1/2 Name Name RJ - 45 12 34 5 67 8 +RD/+SD -RD/-SD * Use shielded twist-pair cables. Eco-POWER METER connected at the terminal (except for KW4M) MJ1/2 Name Name RJ - 45 12 34 5 67 8 +RD/+SD -RD/-SD...
Page 434 16. RKC 16.1 Temperature Controller/Servo/Inverter Connection...
Page 435 16.1 Temperature Controller/Servo/Inverter Connection 16-1 16.1 Temperature Controller/Servo/Inverter Connection Serial Connection Module-type Temperature Controller Connection PLC Selection on the Signal Model Port Lst File Editor Level MJ1/MJ2 H-PCP-A-x4N-4 * xx Z-1021 SR-Mini Modular RS-422A Wiring diagram 2 - C4 Wiring diagram 2 - M4 SR-Mini.Lst (MODBUS RTU) connector 1/2...
Page 436 16-2 16. RKC Multi-loop Temperature Controller Connection PLC Selection on the Signal Model Port Lst File Editor Level MJ1/MJ2 RKC_MA900. MA900-4xxxx-xx-x*xxx-x6/x MA900/MA901 Communication RS-485 Wiring diagram 1 - C4 Wiring diagram 1 - M4 (MODBUS RTU) terminal RKC_MA901. MA901-8xxxx-xx-x*xxx-x6/x...
Page 437 16.1 Temperature Controller/Servo/Inverter Connection 16-3 16.1.1 CB100/CB400/CB500/CB700/CB900 (MODBUS RTU) Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / 1 : n / Multi-link2 / Connection Mode Multi-link2 (Ethernet) / 1 : n Multi-link2 (Ethernet) Signal Level RS-422/485 Baud Rate 4800 / 9600 / 19200 bps Parity None / Odd / Even Data Length...
Page 438: Srv (Modbus Rtu)
16-4 16. RKC 16.1.2 SRV (MODBUS RTU) Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / 1 : n / Multi-link2 / Connection Mode Multi-link2 (Ethernet) / 1 : n Multi-link2 (Ethernet) Signal Level RS-232C / RS-422/485 Baud Rate 9600 / 19200 / 38400 bps Data Length 8 bits Stop Bit...
Page 439: Sr-Mini (Modbus Rtu)
16.1 Temperature Controller/Servo/Inverter Connection 16-5 16.1.3 SR-Mini (MODBUS RTU) Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / 1 : n / Multi-link2 / Connection Mode Multi-link2 (Ethernet) / 1 : n Multi-link2 (Ethernet) Signal Level RS-232C / RS-422/485 Baud Rate 9600 / 19200 bps Data Length 8 bits...
Page 440: Sr-Mini (Standard Protocol)
16-6 16. RKC 16.1.4 SR-Mini (Standard Protocol) Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / 1 : n / Multi-link2 / Connection Mode Multi-link2 (Ethernet) / 1 : n Multi-link2 (Ethernet) Signal Level RS-232C / RS-422/485 Baud Rate 9600 / 19200 bps Data Length 7/ 8 bits Stop Bit...
Page 441: Rex-F400/F700/F900 (Standard Protocol)
16.1 Temperature Controller/Servo/Inverter Connection 16-7 16.1.5 REX-F400/F700/F900 (Standard Protocol) Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / 1 : n / Multi-link2 / Connection Mode Multi-link2 (Ethernet) / 1 : n Multi-link2 (Ethernet) Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 bps Data Length 7/ 8 bits...
Page 442: Ma900 / Ma901 (Modbus Rtu)
16-8 16. RKC 16.1.6 MA900 / MA901 (MODBUS RTU) Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / 1 : n / Multi-link2 / Connection Mode Multi-link2 (Ethernet) / 1 : n Multi-link2 (Ethernet) Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 bps Data Length 8 bits...
Page 443: Srz (Modbus Rtu)
16.1 Temperature Controller/Servo/Inverter Connection 16-9 16.1.7 SRZ (MODBUS RTU) Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / 1 : n / Multi-link2 / Connection Mode Multi-link2 (Ethernet) / 1 : n Multi-link2 (Ethernet) Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 / 38400 bps Data Length 8 bits...
Page 444: Fb100/Fb400/Fb900 (Modbus Rtu)
16-10 16. RKC 16.1.8 FB100/FB400/FB900 (MODBUS RTU) Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / 1 : n / Multi-link2 / Connection Mode Multi-link2 (Ethernet) / 1 : n multi-link2 (Ethernet) Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 / 38400 bps...
Page 445 16.1 Temperature Controller/Servo/Inverter Connection 16-11 Available Device Memory The available setting range of device memory varies depending on the controller model. Be sure to set within the range available for the controller to be used. Use [TYPE] when assigning indirect device memory for macro programs. Device Memory TYPE Remarks...
Page 446 16-12 16. RKC 16.1.9 Wiring Diagrams When Connected at CN1: RS-232C Wiring diagram 1 - C2 Name Name Dsub 9 (Male) * Use shielded twist-pair cables. RS-422/RS-485 Wiring diagram 1 - C4 Name Name Dsub 9 (Male) T/R(B) T/R(A) * Use shielded twist-pair cables. Wiring diagram 2 - C4 Name Name...
Page 447 16.1 Temperature Controller/Servo/Inverter Connection 16-13 Wiring diagram 3 - C4 Name Name Dsub 9 (Male) T(A) T(B) R(A) R(B) * Use shielded twist-pair cables.
Page 448 16-14 16. RKC When Connected at MJ1/MJ2: RS-232C Wiring diagram 1 - M2 MJ1/2 Name Name RJ - 45 1 2 34 56 7 8 * Use shielded twist-pair cables. RS-422/RS-485 Wiring diagram 1 - M4 MJ1/2 Name Name RJ - 45 T/R(B) 1 23 45 6 7 8 +RD/+SD...
Page 449 16.1 Temperature Controller/Servo/Inverter Connection 16-15 Wiring diagram 3 - M4 MJ1/2 Name Name RJ - 45 T(A) 1 2 34 56 7 8 +RD/+SD T(B) R(A) -RD/-SD R(B) * Use shielded twist-pair cables.
Page 450 16-16 16. RKC Please use this page freely.
Page 451 17. RS Automation 17.1 PLC Connection...
Page 452 17.1 PLC Connection 17-1 17.1 PLC Connection Serial Connection Connection Ladder PLC Selection Signal Unit/Port on the Editor Level Transfer MJ1/MJ2 COM port NX70-CPU70p1 NX70-CCU+(CCU) RS-232C Wiring diagram 1 - C2 Wiring diagram 1 - M2 NX70 plus COM1/COM2 NX70-CPU70p2 NX70-CCU+(CCU) COM1/COM2 RS-485...
Page 453 17-2 17. RS Automation Ethernet Connection Keep Ladder PLC Selection Unit TCP/IP UDP/IP Port No. on the Editor Alive Transfer NX-CPU750A NX-CPU750B NX700 Series (Ethernet) NX-Ethernet As desired NX-CPU750C NX-CPU750D X8-M16DDR 50000 (fixed) X8 Series (Ethernet) X8-M14DDT CPU with built-in Ethernet (Max.
Page 454: Nx7/Nx Plus Series (70P/700P/Ccu)
17.1 PLC Connection 17-3 17.1.1 NX7/NX Plus Series (70P/700P/CCU+) Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / 1 : n / Multi-link / Multi-link2 / Connection Mode Multi-link2 (Ethernet) / 1 : n Multi-link2 (Ethernet) For RS-485 connection, set the transmission delay Signal Level RS-232C / RS-422/485...
Page 455 17-4 17. RS Automation NX70-CPU70p1 (COM Port) DIP switches DIPSW Contents Setting Terminating Resistance Terminating resistance (for RS-485 connection) Invalid Valid ON: EEPROM Program write target OFF: RAM ON: RS-485 RS-232C / RS-485 selection OFF: RS-232C Baud rate 9600bps Baud rate selection 38400bps 19200bps 4800bps...
Page 456: Baud Rate Setting
17.1 PLC Connection 17-5 NX-CCU+(CCU) / NX70-CCU+(CCU) DIP switches DIPSW Contents Setting Baud Rate 38400bps Baud rate selection 19200bps 9600bps 4800bps Data length ON: 8 bits Parity check OFF: None Stop bit OFF: 1 bit Reserved NX7-xxxDx/NX7R-xxADx/NX7S-xxxDx DIP switches DIPSW Contents Setting ON: RS-485...
Page 457 17-6 17. RS Automation 17.1.2 N7/NX Series (70/700/750/CCU) Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / 1 : n / Multi-link / Multi-link2 / Connection Mode Multi-link2 (Ethernet) / 1 : n Multi-link2 (Ethernet) Signal Level RS-232C / RS-422/485 4800 / 9600 / 19200 / 38400 / 57600 / 76800 / Baud Rate 115K bps...
Page 458: X8 Series
17.1 PLC Connection 17-7 17.1.3 X8 Series Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks 1 : 1 / 1 : n / Multi-link / Multi-link2 / Connection Mode Multi-link2 (Ethernet) / 1 : n Multi-link2 (Ethernet) Signal Level RS-232C / RS-422/485 Baud Rate 4800 / 9600 / 19200 / 38400 / 57600 / 115K bps Data Length 8 bits...
Page 459 17-8 17. RS Automation Available Device Memory The available setting range of device memory varies depending on the PLC model. Be sure to set within the range available for the PLC to be used. Use [TYPE] when assigning indirect device memory for macro programs. Device Memory TYPE Remarks...
Page 460 17.1 PLC Connection 17-9 Indirect Device Memory Designation Model Device type Lower address No. Higher address No. Bit designation Station number  Device memory other than String, Timer, Counter, and Control Example: Indirect device memory designation of “N20.100” N20.100 B(Data Table Element) A(Data Table Number) Converting to binary...
Page 461 17-10 17. RS Automation  String, Timer, Counter, or Control device memory Example: Indirect device memory designation of “ST3.25.10” ST3.25.10 (Data Table sub-Element) (Data Table Element) (Data Table Number) Converting to binary Converting to binary 3(DEC)= 11(BIN) 25(DEC)= 11001(BIN) Converting to binary 10(DEC)= 1010(BIN) Arranging the values W, X , Y and Z in the following order...
Page 462: Nx700 Series (Ethernet)
17.1 PLC Connection 17-11 17.1.4 NX700 Series (Ethernet) Communication Setting Editor Make the following settings on the editor. For more information, see “1.3.2 Ethernet Communication”.  IP address for the V9 unit - When specified on the screen program: [System Setting]  [Hardware Setting]  [Local Port IP Address] - When specified on the V9 unit: Local mode ...
Page 463 17-12 17. RS Automation  IP address and port number of the PLC Register on the [PLC Table] in [System Setting]  [Hardware Setting]  [PLC Properties]  [Target Settings]. Set the same PLC table number as the one set for “MEWTOCOL Station Number” ([Initial Information Setting]  [Local Node Setting]).
Page 464 17.1 PLC Connection 17-13 Available Device Memory The available setting range of device memory varies depending on the PLC model. Be sure to set within the range available for the PLC to be used. Use [TYPE] when assigning indirect device memory for macro programs. Device Memory TYPE Remarks...
Page 465: X8 Series (Ethernet)
17-14 17. RS Automation 17.1.5 X8 Series (Ethernet) Communication Setting Editor Make the following settings on the editor. For more information, see “1.3.2 Ethernet Communication”.  IP address for the V9 unit - When specified on the screen program: [System Setting]  [Hardware Setting]  [Local Port IP Address] - When specified on the V9 unit: Local mode ...
Page 466: Channel Configuration
17.1 PLC Connection 17-15 Set a station number for the PLC using the PLC software “XGPC” (version 1.0 or greater). For more information, refer to the PLC manual issued by the manufacturer. Channel Configuration Setting Item Setting Remarks IP Address Set the IP address of the PLC.
Page 467 17-16 17. RS Automation 17.1.6 Wiring Diagrams When Connected at CN1: RS-232C Wiring diagram 1 - C2 Name Name Dsub 9 (Male) Dsub 9 (Male) * Use shielded twist-pair cables. Wiring diagram 2 - C2 Name Name Dsub 9 (Male) Dsub 9 (Male) * Use shielded twist-pair cables.
Page 468 17.1 PLC Connection 17-17 Wiring diagram 4 - C2 Name Name Dsub 15 (Male) Dsub 9 (Male) * Use shielded twist-pair cables. Wiring diagram 5 - C2 Name Name Dsub 9 (Male) Dsub 9 (Male) * Use shielded twist-pair cables. Wiring diagram 6 - C2 Name Name...
Page 469 17-18 17. RS Automation Wiring diagram 8 - C2 Name Name Dsub 9 (Male) Dsub 9 (Male) * Use shielded twist-pair cables. Wiring diagram 9 - C2 Name Name Dsub 9 (Female) Dsub 9 (Male) * Use shielded twist-pair cables. RS-422/RS-485 Wiring diagram 1 - C4 Name...
Page 470 17.1 PLC Connection 17-19 Wiring diagram 3 - C4 Name Name RJ-45 Dsub 9 (Male) 485+ 485- 1 23 45 6 78 485+ 485- * Use shielded twist-pair cables. Wiring diagram 4 - C4 Name Name Dsub 15 (Male) Dsub 9 (Male) TXD+ RXD+ RTS+...
Page 471 17-20 17. RS Automation When Connected at MJ1/MJ2: RS-232C Wiring diagram 1 - M2 MJ1/2 Name Name Dsub 9 (Male) RJ - 45 1 2 34 56 78 * Use shielded twist-pair cables. Wiring diagram 2 - M2 MJ1/2 Name Name Dsub 9 (Male) RJ - 45...
Page 472 17.1 PLC Connection 17-21 Wiring diagram 5 - M2 MJ1/2 Name Name Dsub 9 (Male) RJ - 45 12 34 5 67 8 * Use shielded twist-pair cables. Wiring diagram 6 - M2 MJ1/2 Name Name Plug (10-wire) RJ - 45 1 2 3 4 5 6 7 8 * Use shielded twist-pair cables.
Page 473 17-22 17. RS Automation Wiring diagram 9 - M2 MJ1/2 Name Name Dsub 9 (Female) RJ - 45 12 3 45 67 8 * Use shielded twist-pair cables. RS-422/RS-485 Wiring diagram 1 - M4 MJ1/2 Name Name Dsub 9 (Male) RJ-45 12 3 45 67 8 +RD/+SD...
Page 474 17.1 PLC Connection 17-23 Wiring diagram 4 - M4 MJ1/2 Name Name Dsub 9 (Female) RJ-45 485P+ 1 23 45 67 8 +RD/+SD -RD/-SD 485N- * Use shielded twist-pair cables.
Page 475 17-24 17. RS Automation Please use this page freely.
Page 476: Connection Compatibility List
List-1 Connection Compatibility List April, 2014 1 : n 1 : n n : 1 Multi-link2 n : 1 Manufacturer Models 1 : 1 Multi-link2 Ethernet Multi-drop Multi-link2 Multi-link Ethernet PLC-5 PLC-5 (Ethernet) Control Logix / Compact Logix Control Logix (Ethernet) SLC500 Allen-Bradley SLC500 (Ethernet TCP/IP)
Page 477 List-2 1 : n 1 : n n : 1 n : 1 Multi-link2 Manufacturer Models 1 : 1 Multi-link2 Ethernet Multi-drop Multi-link2 Multi-link Ethernet FVR-E11S FVR-E11S (MODBUS RTU) FVR-C11S (MODBUS RTU) FRENIC5000 G11S/P11S FRENIC5000 G11S/P11S (MODBUS RTU) FRENIC5000 VG7S (MODBUS RTU) FRENIC-HVAC/AQUA (MODBUS RTU) FRENIC-Mini (MODBUS RTU) FRENIC-Eco (MODBUS RTU)
Page 478 List-3 1 : n 1 : n n : 1 n : 1 Multi-link2 Manufacturer Models 1 : 1 Multi-link2 Ethernet Multi-drop Multi-link2 Multi-link Ethernet MASTER-KxxxS MASTER-KxxxS CNET GLOFA CNET GLOFA GM7 CNET GLOFA GM series CPU XGT/XGK series CNET XGT/XGK series CPU XGT/XGK series (Ethernet) XGT/XGI series CNET...
Page 479 List-4 1 : n 1 : n n : 1 n : 1 Multi-link2 Manufacturer Models 1 : 1 Multi-link2 Ethernet Multi-drop Multi-link2 Multi-link Ethernet SYSMAC C SYSMAC CV SYSMAC CS1/CJ1 SYSMAC CS1/CJ1 DNA SYSMAC CS1/CJ1 (Ethernet) SYSMAC CS1/CJ1 (Ethernet Auto) SYSMAC CS1/CJ1 DNA (Ethernet) E5AK E5AK-T...
Page 480 List-5 1 : n 1 : n n : 1 n : 1 Multi-link2 Manufacturer Models 1 : 1 Multi-link2 Ethernet Multi-drop Multi-link2 Multi-link Ethernet C Series FC Series GC Series DCL-33A JCx-300 Series SHINKO TECHNOS PC-900 PCD-33A ACS-13A ACD/ACR Series WCL-13A S5 PG port S7-200 PPI...
Page 481 List-6 1 : n 1 : n n : 1 n : 1 Multi-link2 Manufacturer Models 1 : 1 Multi-link2 Ethernet Multi-drop Multi-link2 Multi-link Ethernet FA-M3 FA-M3R FA-M3/FA-M3R (Ethernet UDP/IP) FA-M3/FA-M3R (Ethernet UDP/IP ASCII) FA-M3/FA-M3R (Ethernet TCP/IP) FA-M3/FA-M3R (Ethernet TCP/IP ASCII) FA-M3V FA-M3V (Ethernet) Yokogawa Electric...
Page 482 www.monitouch.com Sales 890-1, Kamikashiwano-machi, Hakusan-shi, Ishikawa, 924-0035 Japan TEL +81-76-274-2144 FAX +81-76-274-5136...

Fuji Electric Monitouch V9 Series Connection Manual

Quick Links

Related Manuals for Fuji Electric Monitouch V9 Series

Summary of Contents for Fuji Electric Monitouch V9 Series

Table of Contents