Summary of Contents for Hakko Electronics Monitouch V9 Series
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C o n n e c t i o n M a n u a l [ 1 ] Contents Overview 16. Fuji Electric ALLEN BRADLEY 17. Gammaflux Automationdirect 18. GE Fanuc Azbil 19. Hitachi Baumuller 20. Hitachi Industrial Equipment Systems BECKHOFF CHINO...
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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 2210NE0 First edition...
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.
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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.
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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.
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.
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.
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...
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.
* 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.
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...
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.
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...
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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. ...
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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.
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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.
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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.
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.
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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”...
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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.
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.
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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...
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...
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.
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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...
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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...
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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...
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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.
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.
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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...
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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 ...
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.
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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...
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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 ...
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.
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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...
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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”...
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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).
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(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 −...
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...
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.
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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.
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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 “...
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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...
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)
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 ...
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.
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.
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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.
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.
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.
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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.
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.
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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.
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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.
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.
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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 ...
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.
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)”.
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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.)
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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.
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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 ...
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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.
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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.
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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 ...
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...
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1. Overview 1-64 Please use this page freely.
2. ALLEN BRADLEY 2.1.1 PLC-5 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...
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2.1 PLC Connection SW-6 (RS-232C communication rate and diagnostic commands) Item Setting Remarks 4800 bps 9600 bps 19200 bps Set the same value as the one set RS-232C Communication Rate on V9. Diagnostic Commands Execute diagnostic commands Series B 1785-KE SW-1 (RS-232C link features) Item Setting...
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2. ALLEN BRADLEY 1770-KF2 Setting changes will take effect when the power is turned on. After changing a setting, turn the power off and back on again. SW-1 (asynchronous link features) Item Setting Remarks SW1: OFF Error check: BCC SW2: OFF Parity: None SW5: OFF Embedded response: No...
2.1 PLC Connection Channel 0 SW-2 (selection of RS-232C/RS-422A) Setting Remarks RS-232C RS-422A ON: Lower position OFF: Upper position Channel configuration Item Setting Remarks Communication Mode System (Point-To-Point) Channel 0 Remote Mode Change Unchecked Baud Rate 4800 / 9600 / 19.2 K Bits Per Char 7 / 8 Stop Bits...
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2. ALLEN BRADLEY 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...
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2.1 PLC Connection Indirect Device Memory Designation For the file numbers 66 to 255: For the file numbers 0 to 65: n + 0 Model Device type n + 0 Model Device type n + 1 Address No. n + 1 Lower address No.
2. ALLEN BRADLEY 2.1.2 PLC-5 (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 ...
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2.1 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...
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2-10 2. ALLEN BRADLEY Indirect Device Memory Designation For the file numbers 66 to 255: For the file numbers 0 to 65: Model Device type Model Device type Address No. Lower address No. Bit designation Higher address No. Station number Bit designation Station number...
2.1 PLC Connection 2-11 2.1.3 Control Logix / Compact Logix The logical port PLC1 can only be selected because the tag table is used. Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks For multi-link2 and multi-link2 (Ethernet), be Connection Mode 1 : 1 / Multi-link2 / Multi-link2 (Ethernet) sure to use the same tag table.
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2-12 2. ALLEN BRADLEY System protocol Item Setting Remarks Protocol DF1 Point to Point Station Address NAK Receive Limit ENQ Transmit Limit ACK Timeout Embedded Responses Autodetect Error Detection Enable Duplicate Detection Checked Compact Logix CH0 - serial port Item Setting Remarks Mode...
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2.1 PLC Connection 2-13 CH0 - system protocol Item Setting Remarks Protocol DF1 Point to Point Station Address NAK Receive Limit ENQ Transmit Limit ACK Timeout Embedded Responses Autodetect Error Detection Enable Duplicate Detection Checked Available Device Memory Create a CSV file by exporting “tag” created by using the ladder tool of the PLC. Then import the CSV file into the editor to set the PLC device memory.
2-14 2. ALLEN BRADLEY 2.1.4 Control Logix (Ethernet) The logical port PLC1 can only be selected because the tag table is used. 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] ...
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2.1 PLC Connection 2-15 - [Yes] Specify the CPU slot number at the [PLC Table] under [Target Settings] on the [PLC Properties] window ([System Setting] [Hardware Setting]). Setting range: 0 to 16 Ethernet Slot Slot Slot Slot No.0 No.1 No.2 No.3 Valid only for 1 : 1 connection...
2-16 2. ALLEN BRADLEY 2.1.5 SLC500 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...
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2.1 PLC Connection 2-17 1747-KE Jumper JW2 Item Setting Remarks RS-232 RS-422 DF1 port setup menu Item Setting Remarks Baudrate 19200 Bits Per Character Parity Even Stop Bits DF1 full-duplex setup menu Item Setting Remarks Duplicate Packet Detection Enabled Checksum Constant Carrier Detect Disabled Message Timeout...
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2-18 2. ALLEN BRADLEY 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...
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2.1 PLC Connection 2-19 Address denotations The assigned device memory is expressed as shown below when editing the screen. Address other than input/output - For word access For bit access Nxxx: Nxxx: yyy/zz Element number Bit number File number Element number Device type File number...
2-20 2. ALLEN BRADLEY 2.1.6 SLC500 (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 ...
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2.1 PLC Connection 2-21 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...
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2-22 2. ALLEN BRADLEY Address denotations The assigned device memory is expressed as shown below when editing the screen. Address other than input/output - For word access For bit access Nxxx: Nxxx: yyy/zz Element number Bit number File number Element number Device type File number...
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2-24 2. ALLEN BRADLEY Calendar This model is not equipped with the calendar function. Use the built-in clock of the V series. 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.
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2.1 PLC Connection 2-25 Address denotations The assigned device memory is expressed as shown below when editing the screen. Address other than input/output - For word access For bit access Nxxx: Nxxx: yyy/zz Element number Bit number File number Element number Device type File number...
2-26 2. ALLEN BRADLEY 2.1.8 Micro Logix (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] ...
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2.1 PLC Connection 2-27 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...
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2-28 2. ALLEN BRADLEY Address denotations The assigned device memory is expressed as shown below when editing the screen. Address other than input/output - For word access For bit access Nxxx: Nxxx: yyy/zz Element number Bit number File number Element number Device type File number...
2.1 PLC Connection 2-29 2.1.9 NET-ENI (SLC500 Ethernet TCP/IP) The V9 series establishes communication with SLC500 via NET-ENI. Ethernet SLC500 SYSTEM NET-ENI Micro Logix RS-232C RS-232 Channel0 AB’s cable “1761-CBL-PM02” 192.168.1.10 192.168.1.11 Communication Setting Editor Make the following settings on the editor. For more information, see “1.3.2 Ethernet Communication”. ...
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2-30 2. ALLEN BRADLEY SLC500 Channel configuration Item Setting Remarks Driver DF1 Full Duplex Baud 9600 / 19200 / 38400 Parity NONE Stop Bits Chan. 0 - System Control Line No Handshaking Error Detection Embedded Responses Auto Detect Duplicate Packet Detect Checked...
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2.1 PLC Connection 2-31 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...
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2-32 2. ALLEN BRADLEY Address denotations The assigned device memory is expressed as shown below when editing the screen. Address other than input/output - For word access For bit access Nxxx: Nxxx: yyy/zz Element number Bit number File number Element number Device type File number...
2.1 PLC Connection 2-33 2.1.10 NET-ENI (MicroLogix Ethernet TCP/IP) The V9 series establishes communication with MicroLogix via NET-ENI. Ethernet SYSTEM NET-ENI Micro Logix RS-232C RS-232 Channel0 AB’s cable “1761-CBL-HM02” 192.168.1.10 192.168.1.11 Communication Setting Editor Make the following settings on the editor. For more information, see “1.3.2 Ethernet Communication”. ...
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2-34 2. ALLEN BRADLEY MicroLogix Channel Configuration (Underlined setting: default) Item Setting Remarks Driver DF1 Full Duplex Baud 4800 / 9600 / 19200 / 38.4K Parity NONE Chan. 0 Control Line No Handshaking Error Detection Embedded Responses Auto Detect Duplicate Packet Detect Checked Calendar This model is not equipped with the calendar function.
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2.1 PLC Connection 2-35 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...
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2-36 2. ALLEN BRADLEY Address denotations The assigned device memory is expressed as shown below when editing the screen. Address other than input/output - For word access For bit access Nxxx: Nxxx: yyy/zz Element number Bit number File number Element number Device type File number...
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2.1 PLC Connection 2-37 2.1.11 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 (Female) Dsub 9 (Male) * Use shielded twist-pair cables.
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2-38 2. ALLEN BRADLEY Wiring diagram 4 - C2 Name Name Dsub 25 (Female) Dsub 9 (Male) * Use shielded twist-pair cables.
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2.1 PLC Connection 2-39 RS-422/RS-485 Wiring diagram 1 - C4 Name Name Dsub 9 (Female) Dsub 9 (Male) TXD- RXD- RXD+ TXD+ * Use shielded twist-pair cables. Wiring diagram 2 - C4 Name Name Dsub 25 (Female) Dsub 9 (Male) * Use shielded twist-pair cables.
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2-40 2. ALLEN BRADLEY When Connected at MJ1/MJ2: RS-232C Wiring diagram 1 - M2 MJ1/2 Name Name RJ - 45 Dsub 9 (Female) 12 34 5 6 7 8 * Use shielded twist-pair cables. Wiring diagram 2 - M2 MJ1/2 Name Name Dsub 9 (Female)
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2.1 PLC Connection 2-41 Wiring diagram 4 - M2 MJ1/2 Name Name Dsub 15 (Male) RJ - 45 1 2 34 56 7 8 * Use shielded twist-pair cables. Wiring diagram 5 - M2 MJ1/2 Name Name Dsub 25 (Female) RJ - 45 1 2 34 56 7 8 * Use shielded twist-pair cables.
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2-42 2. ALLEN BRADLEY Please use this page freely.
3. Automationdirect 3.1.1 Direct LOGIC (K-Sequence) 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 Data Length 8 bits Stop Bit...
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3.1 PLC Connection PORT2 Set parameters into the special register “R774, 775”, then set “A5AA” (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 “AEAA” (HEX), it is regarded as erroneous.
3. Automationdirect 3.1.2 Direct LOGIC (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] [Hardware Setting] [Local Port IP Address] - When specified on the V9 unit: Local mode ...
3.1 PLC Connection DirectLOGIC/SU Series Make PLC settings by using the software “DirectSOFT”. For more information, refer to the PLC manual issued by the manufacturer. Link wizard Contents Setting Remarks Transport Protocol UDP/IP “0” cannot be set. Module ID Make settings in accordance with Set all DIP switches on Hx-ECOM to the OFF positions.
3. Automationdirect 3.1.3 Direct LOGIC (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 Stop Bit...
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3.1 PLC Connection PORT3 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.
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3. Automationdirect 3.1.4 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.
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3.1 PLC Connection 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...
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3-10 3. Automationdirect When Connected at MJ1/MJ2: RS-232C Wiring diagram 1 - M2 MJ1/2 Name Name Dsub 25 (Male) RJ - 45 12 34 5 6 7 8 * Use shielded twist-pair cables. Wiring diagram 2 - M2 MJ1/2 Name Name High density RJ - 45...
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4. Azbil PLC Connection Temperature Controller/Servo/Inverter Connection...
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4.1 PLC Connection PLC Connection Serial Connection Connection Ladder PLC Selection on the Model Port Signal Level Editor Transfer MJ1/MJ2 LOAD connector (CN7) Wiring diagram 1 - C2 Wiring diagram 1 - M2 MX50 RS-232C ASCII connector (CN8) Wiring diagram 2 - C2 Wiring diagram 2 - M2 MX series LOAD connector...
4. Azbil 4.1.1 MX 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 bps Data Length 8 bits Stop Bit 1 / 2 bits Parity...
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4.1 PLC Connection MX200 Make the following settings on the front panel. For more information, refer to the PLC manual issued by the manufacturer. LOAD connector (Underlined setting: default) Communication Setup Mode Setting Remarks 1 to 63 (DEC): 1 to 63 Item 0: Address setting 7F(HEX): 127 Settings can also be made in the...
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4. Azbil 4.1.2 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 25 (Male) Dsub 9 (Male) * Use shielded twist-pair cables.
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4.1 PLC Connection When Connected at MJ1/MJ2: RS-232C Wiring diagram 1 - M2 MJ1/2 Name Name Dsub 9 (Female) RJ - 45 12 34 56 7 8 * Use shielded twist-pair cables. Wiring diagram 2 - M2 MJ1/2 Name Name Dsub 25 (Male) RJ - 45 12 34 56 7 8...
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4. Azbil Temperature Controller/Servo/Inverter Connection Serial Connection Digital Indicating Controller Connection PLC Selection Model Port Signal Level Lst File on the Editor MJ1/MJ2 SDC10 SDC10xxxxx05xx Terminal on the back RS-485 Wiring diagram 1 - C4 Wiring diagram 1 - M4 SDC10.Lst SDC20xxxx02xx SDC20xxxx04xx...
4-14 4. Azbil 4.2.9 DMC50 (COM) 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 bps Data Length 8 bits Stop Bit...
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4.2 Temperature Controller/Servo/Inverter Connection 4-15 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 (Parameter Type ID) TYPE Remarks...
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4.2 Temperature Controller/Servo/Inverter Connection 4-17 Indirect Device Memory Designation When the address (group ID) is 0 to FFH: n + 0 Model Device type n + 1 Group ID Item ID n + 2 Bit designation Expansion code n + 3 Station number * In the expansion code, specify the sub-station number, and set which word, higher or lower, is to be read when a 2-word address is specified (expansion bit designation).
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4-18 4. Azbil 4.2.10 AHC2001 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 bps Data Length 7/ 8 bits Stop Bit...
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4.2 Temperature Controller/Servo/Inverter Connection 4-19 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 (Parameter Type ID) TYPE Remarks...
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4-20 4. Azbil Device Memory (Parameter Type ID) TYPE Remarks (user-defined area) Double-word (user-defined area) Double-word Address denotations On the signal name reference list, every group ID is designated as “001”. To access any group ID other than “001”, manually input the desired ID.
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4.2 Temperature Controller/Servo/Inverter Connection 4-21 4.2.11 AHC2001+DCP31/32 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 bps Data Length 7/ 8 bits Stop Bit...
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4-22 4. Azbil IBS (air-fuel ratio controller) Set the baud rate by the jumper setting (J2) on the CPU board. (Underlined setting: default) Item Setting Remarks 9600 bps: short-circuited between 1 and 2, 3 and 4, RS-485 open between 5 and 6 Baud rate setting 4800 bps: open between 1 and 2, short-circuited between 3 and 4, open between 5 and 6...
4.2 Temperature Controller/Servo/Inverter Connection 4-27 4.2.15 NX (MODBUS 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] ...
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4-28 4. Azbil 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...
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4.2 Temperature Controller/Servo/Inverter Connection 4-29 4.2.16 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 9 (Female) Dsub 9 (Male) * Use shielded twist-pair cables.
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4-30 4. Azbil Wiring diagram 2 - C4 Name Name Dsub 9 (Male) * Use shielded twist-pair cables. Wiring diagram 3 - C4 CONSOLE UNIT Name Name Dsub 9 (Male) RJ-10 Identifier DB DA Identifier * Use shielded twist-pair cables. Wiring diagram 4 - C4 Name Name...
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4.2 Temperature Controller/Servo/Inverter Connection 4-31 When Connected at MJ1/MJ2: RS-232C Wiring diagram 1 - M2 MJ1/2 Name Name RJ - 45 1 23 45 67 8 * Use shielded twist-pair cables. Wiring diagram 2 - M2 MJ1/2 Name Name Dsub 9 (Female) RJ - 45 1 23 4 56 78 * Use shielded twist-pair cables.
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4-32 4. Azbil Wiring diagram 3 - M4 MJ1/2 CONSOLE UNIT Name Name RJ-10 RJ - 45 Identifie 12 34 56 7 8 +RD/+SD r pin DB DA -RD/-SD Identifier * Use shielded twist-pair cables. Wiring diagram 4 - M4 MJ1/2 Name Name...
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5.1 PLC Connection PLC Connection Serial Connection Connection Ladder PLC Selection on the Unit/Port Signal Level Editor Transfer MJ1/MJ2 RS-232C port RS-232C Wiring diagram 1 - C2 Wiring diagram 1 - M2 BMx-x-PLC BMx-x-PLC RS-422 port RS-422 Wiring diagram 1 - C4 For the ladder transfer function, see the V9 Series Reference Manual.
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6.1 PLC Connection PLC Connection Ethernet Connection Keep Ladder PLC Selection on the Editor Unit LAN port TCP/IP UDP/IP Port No. Alive Transfer BC9000 ADS protocol (Ethernet) BC9100 CPU (built-in) 48898 fixed KLxxxx BX9000 For KeepAlive functions, see “1.3.2 Ethernet Communication”. For the ladder transfer function, see the V9 Series Reference Manual.
6. BECKHOFF 6.1.1 ADS Protocol (Ethernet) Communication Setting Editor Communication settings 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 ...
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6.1 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...
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6. BECKHOFF PLC_CTL Macro command “PLC_CTL F0 F1 F2” Contents F1 (= $u n) Station number n + 1 Command: 0001H n + 2 Port n + 3 1 - 8 Access Inputs Index Group (PLC1 - 8) n + 4 n + 5 Index Offset n + 6...
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7. CHINO Temperature Controller/Servo/Inverter Connection...
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7.1 Temperature Controller/Servo/Inverter Connection Temperature Controller/Servo/Inverter Connection Digital Temperature Controller Connection PLC Selection on Model Port Signal Level Lst File the Editor MJ1/MJ2 DP1xxxBRxx Terminal block RS-232C Wiring diagram 1 - C2 Wiring diagram 1 - M2 DP1xxxBAxx Terminal block RS-422 Wiring diagram 1 - C4 Terminal...
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7. CHINO 7.1.1 DP1000 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...
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7.1 Temperature Controller/Servo/Inverter Connection DP1000G The communication parameters can be set using keys attached to the digital program controller. Be sure to match the settings to those made under [Communication Setting] of the editor. (Underlined setting: default) Setting Mode No. Item Remarks COM1...
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7. CHINO D (Data) Address Denotations Command Decimal Name Place Address (BIN) Parameter 1 (BCD) Parameter 2 (BCD) Read Write Pattern No. Step No. PV status PV (measurement value) SV (setting value) Time display method Time unit 1 Time MV1 status MV2 status Execution target SV Execution P...
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8.1 PLC Connection PLC Connection Serial Connection Connection Ladder PLC Selection Unit/Port Signal Level on the Editor Transfer MJ1/MJ2 CM2-BPxxMDxx-R CM2-BPxxMDxx-T LOADER port RS-232C Wiring diagram 1 - C2 Wiring diagram 1 - M2 CM2-BPxxMDxx-S CM2-BPxxMDxx-U CM2-BPxxMDxx-R Comm port RS-232C Wiring diagram 3 - C2 Wiring diagram 3 - M2 BP series...
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8. CIMON 8.1.1 BP 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 / RS-422/485 Baud Rate 9600 / 19200 / 38400 bps Data Length 7 / 8 bits Stop Bit 1 / 2 bits...
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8.1 PLC Connection CM2-BPxxMDxx-T, U (CH2) Make communication settings using the application software “CICON”. For more information, refer to the instruction manual issued by CIMON. Item Setting Remarks RS-422: 4-wire Comm Type RS422 / RS485 RS-485: 2-wire Protocol CICON(Loader) Protocol Baud Rate 9600 / 19200 / 38400 bps Parity...
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8. CIMON 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...
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8.1 PLC Connection 8.1.2 CP 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 / RS-422/485 Baud Rate 9600 / 19200 / 38400 bps Data Length 7 / 8 bits Stop Bit...
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8. CIMON CM1-SC01A, CM1-SC01B, CM1-SC02A (CH1) Make communication settings using the application software “CICON”. For more information, refer to the instruction manual issued by CIMON. Item Setting Remarks Protocol CICON(Loader) Protocol Baud Rate 9600 / 19200 / 38400 bps Parity Even / Odd / None Data Bit 7 / 8 bits...
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8.1 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...
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8. CIMON 8.1.3 Wiring Diagrams When Connected at CN1: RS-232C Wiring diagram 1 - C2 Name Name Modular 6 pin Dsub 9 (Male) 1 23 4 56 * Use shielded twist-pair cables. Wiring diagram 2 - C2 Name Name Dsub 9 (Male) Dsub 9 (Male) * Use shielded twist-pair cables.
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8.1 PLC Connection RS-422/RS-485 Wiring diagram 1 - C4 Name Name 8 pin Terminal 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...
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8-10 8. CIMON Wiring diagram 5 - C4 Name Name Dsub 9 (Male) 6 pin Terminal * Use shielded twist-pair cables.
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8.1 PLC Connection 8-11 When Connected at MJ1/MJ2: RS-232C Wiring diagram 1 - M2 MJ1/2 Name Name Modular 6 pin RJ - 45 12 3 45 678 12 3 45 6 * Use shielded twist-pair cables. Wiring diagram 2 - M2 MJ1/2 Name Name...
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8-12 8. CIMON RS-422/RS-485 Wiring diagram 1 - M4 MJ1/2 Name Name Dsub 9 (Male) RJ-45 12 34 56 7 8 +RD/+SD -RD/-SD * Use shielded twist-pair cables. Wiring diagram 2 - M4 MJ1/2 Name Name 8 pin Terminal RJ-45 12 3 45 67 8 +RD/+SD -RD/-SD...
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9.1 PLC Connection PLC Connection Serial Connection Connection Ladder PLC Selection Unit/Port Signal Level on the Editor Transfer MJ1/MJ2 DVP-EH2 RS-232C communication RS-232C Wiring diagram 1 - C2 Wiring diagram 1 - M2 DVP-ES port DVP-EX DVP-SS DVP series DVP-SA RS-485 communication DVP-SX RS-485...
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9. DELTA 9.1.1 DVP 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 9600 / 19200 / 38400 / 57600 / 115200 bps Data Length 7 / 8 bits Stop Bit...
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9.1 PLC Connection 9.1.2 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. RS-422/RS-485 Wiring diagram 1 - C4 Name Name Dsub 9 (Male) * Use shielded twist-pair cables.
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9. DELTA When Connected at MJ1/MJ2: RS-232C Wiring diagram 1 - M2 MJ1/2 Name Name Mini DIN 8 (Male) RJ - 45 12 34 5 67 8 * Use shielded twist-pair cables. RS-422/RS-485 Wiring diagram 1 - M4 MJ1/2 Name Name RJ-45 12 34 5 6 7 8...
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10. DELTA TAU DATA SYSTEMS 10.1 Temperature Controller/Servo/Inverter Connection...
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10.1 Temperature Controller/Servo/Inverter Connection 10-1 10.1 Temperature Controller/Servo/Inverter Connection Serial Connection Motion Controller Connection PLC Selection Model Port Signal Level Lst File on the Editor MJ1/MJ2 PMAC PCI Serial port Wiring diagram 1 - C2 Wiring diagram 1 - M2 Turbo PMAC PCI Option-9T PMAC2 PCI...
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10-2 10. DELTA TAU DATA SYSTEMS 10.1.1 PMAC Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / Multi-link2 / Multi-link2 (Ethernet) Signal Level RS-232C 4800 / 9600 / 19200 / 38400 / 57600 / 76800 / Baud Rate 115K bps Data Length...
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10.1 Temperature Controller/Servo/Inverter Connection 10-3 PMAC2 PCI BASE BOARD E-POINT E-POINT Contents Setting Serial port type selection RS-232C: Install a jumper between pins 1 and 2. Turbo PMAC PCI MAIN BOARD E-POINT E-POINT Contents Setting Parity control for serial communication No parity: Install a jumper between pins 1 and 2.
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10-4 10. DELTA TAU DATA SYSTEMS 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...
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10.1 Temperature Controller/Servo/Inverter Connection 10-5 10.1.2 PMAC (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] ...
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10-6 10. DELTA TAU DATA SYSTEMS UMAC Make UMAC settings by using the software “PEWIN32PRO2 *”. For more information, refer to the UMAC manual issued by the manufacturer. * For Ethernet communication, PEWIN32PRO service pack 2.0 and later is necessary. Ethernet configuration Item Setting...
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10.1 Temperature Controller/Servo/Inverter Connection 10-7 5. The [ETHUSBConfigure] dialog is displayed. Click [OK]. 6. The [Ethernet Configuration] dialog is displayed again. Click [Done] in the dialog. 7. Turn the power off and back on again. * UMAC settings must be made via USB communication. Before performing Ethernet communication with MONITOUCH, turn the power to UMAC off and remove the USB cable.
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10-8 10. DELTA TAU DATA SYSTEMS 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...
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10.1 Temperature Controller/Servo/Inverter Connection 10-9 10.1.3 Wiring Diagrams When Connected at CN1: RS-232C Wiring diagram 1 - C2 Name Name IDC-26(Female) Dsub 9 (Male) * Use shielded twist-pair cables. Wiring diagram 2 - C2 Name Name IDC-10(Female) Dsub 9 (Male) * Use shielded twist-pair cables.
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10-10 10. DELTA TAU DATA SYSTEMS When Connected at MJ1/MJ2: RS-232C Wiring diagram 1 - M2 MJ1/2 Name Name IDC-26(Female) RJ - 45 1 23 45 6 7 8 * Use shielded twist-pair cables. Wiring diagram 2 - M2 MJ1/2 Name Name IDC-10(Female)
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11.1 PLC Connection 11-1 11.1 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 Programming port on the ELC-PA10 RS-232C Wiring diagram 1 - C2 Wiring diagram 1 - M2 CPU unit (COM1) ELC-PC12...
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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 (Male) Dsub 9 (Male) * Use shielded twist-pair cables. RS-422 Wiring diagram 1 - C4 Name Name Dsub 9 (Male) * Use shielded twist-pair cables.
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11-4 11. EATON Cutler-Hammer RS-422 Wiring diagram 1 - M4 MJ1/2 Name Name RJ - 45 1 23 4 56 78 +RD/+SD -RD/-SD * Use shielded twist-pair cables.
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13.1 PLC Connection 13-1 13.1 PLC Connection Serial Connection Connection Ladder PLC Selection Port Signal Level on the Editor Transfer MJ1/MJ2 Power Mate JD14 RS-422 Wiring diagram 1 - C4 Model H/D JD40 RS-422 Wiring diagram 2 - C4 Power Mate i Model H/D JD42 RS-232C...
15-2 15. FUFENG 15.1.1 APC Series 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 4800 / 9600 / 19200 / 38400 / 115K bps...
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15.1 PLC Connection 15-3 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...
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15-4 15. FUFENG 15.1.2 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) Dsub 9 (Male) * Use shielded twist-pair cables.
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15.1 PLC Connection 15-5 When Connected at MJ1/MJ2: RS-232C Wiring diagram 1 - M2 MJ1/2 Name Name Dsub 9 (Female) RJ - 45 12 34 5 67 8 * Use shielded twist-pair cables. Wiring diagram 2 - M2 MJ1/2 Name Name Dsub 9 (Male) RJ - 45...
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15-6 15. FUFENG Please use this page freely.
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16. Fuji Electric 16.1 PLC Connection 16.2 Temperature Controller/Servo/Inverter Connection...
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16-2 16. Fuji Electric Ethernet Connection MICREX-SX Series Keep Ladder PLC Selection on Unit TCP/IP UDP/IP Port No. the Editor Alive Transfer NP1PH-xx (SPH200) NP1PS-xx (SPH300) NP1L-ET1 MICREX-SX Self port standard No. + NP1PM-xx (SPH2000) (Ethernet) NP1PM-xx (SPH2000) CPU with built-in Ethernet For KeepAlive functions, see “1.3.2 Ethernet Communication”.
16.1 PLC Connection 16-3 MICREX-SX Model Selection When the MICREX-SX SPH or SPB series is connected, a mode selection may be required on the V9 editor depending on the programming tool used on the PLC or the setting on the programming tool. PLC Programming Tool Setting on the V9 Editor Mode...
16-4 16. Fuji Electric 16.1.1 MICREX-F 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 bps Data Length 7 / 8 bits...
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16.1 PLC Connection 16-5 Transmission setting NV1L-RS2, NC1L-RS2, NC1L-RS4, FFU120B Switch Contents E.g.) Editor Default Setting Initializing method Switch Initial file Parity Provided Not provided Parity bit Even Data bit length 7 bits 8 bits Stop bit length 1 bit 2 bits 19200 9600...
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16-6 16. Fuji 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...
16-8 16. Fuji Electric NW0LA-RS2, NW0LA-RS4 (parameter setting) On the PLC loader, set parameters for general communications. Be sure to match the settings to those made under [Communication Setting] of the editor. Item Setting Remarks Mode General (Command asyn) Station No. RS-232C: 0, RS-485: 0 to 31 These settings can also be specified for Initialize method...
16-10 16. Fuji Electric 16.1.4 MICREX-SX SPH/SPB Series (IEC Mode) 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 For the SPH series: Stop Bit...
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16.1 PLC Connection 16-11 NW0LA-RS2, NW0LA-RS4 (parameter setting) On the PLC loader, set parameters for general communications. Be sure to match the settings to those made under [Communication Setting] of the editor. Item Setting Remarks Mode Loader Baud rate 4800 / 9600 / 19200 / 38400 Parity Odd / Even / None Data bits...
16-12 16. Fuji Electric Indirect Device Memory Designation Specify the CPU number in the expansion code. PLC_CTL Macro command “PLC_CTL F0 F1 F2” Contents F1 (= $u n) Station number: 0000H 1 - 8 All start (PLC1 - 8) n + 1 Command: 0400H Station number: 0000H 1 - 8...
16.1 PLC Connection 16-13 PLC_CTL The macro command is the same as the one described in “16.1.4 MICREX-SX SPH/SPB Series (IEC Mode)”. 16.1.6 MICREX-SX SPH/SPB CPU (IEC Mode) Communication Setting Editor Communication setting (Underlined setting: default) Item Setting Remarks Connection Mode 1 : 1 / Multi-link2 / Multi-link2 (Ethernet) Signal Level RS-422/485...
16-14 16. Fuji Electric 16.1.8 MICREX-SX (Ethernet) (IEC 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] ...
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16.1 PLC Connection 16-15 When the Ethernet module is used, the module driver must be transferred to the PLC. To transfer it to the PLC, check [Module driver] on the relevant PLC transfer setting dialog. - SX Programmer Standard Ver. 3 - SX Programmer Standard Ver.
16-16 16. Fuji Electric PLC Table [System Setting] [Hardware Setting] [PLC Properties] [Target Settings] [PLC Table] Valid only for 1 : 1 connection Select the PLC for connection from those registered on the PLC table. Set the IP address, port number 507 and whether or not to use the KeepAlive function of the PLC.
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16.1 PLC Connection 16-17 16.1.10 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 Dsub 15 (Male) Dsub 9 (Male) * Use shielded twist-pair cables.
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16-18 16. Fuji Electric Wiring diagram 4 - 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) * Use shielded twist-pair cables. Wiring diagram 2 - C4 Name Name Dsub 9 (Male)
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16.1 PLC Connection 16-19 When Connected at MJ1/MJ2: RS-232C Wiring diagram 1 - M2 MJ1/2 Name Name Dsub 25 (Male) RJ - 45 1 23 4 5 67 8 * Use shielded twist-pair cables. Wiring diagram 2 - M2 MJ1/2 Name Name Dsub 15 (Male)
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16-20 16. Fuji Electric RS-422/RS-485 Wiring diagram 1 - M4 MJ1/2 Name Name RJ - 45 1 2 34 56 7 8 +RD/+SD -RD/-SD * Use shielded twist-pair cables.
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16.2 Temperature Controller/Servo/Inverter Connection 16-21 16.2 Temperature Controller/Servo/Inverter Connection The controllers shown below can be connected. Temperature Controller Connection PLC Selection on the Model Port Signal Level Lst File Editor MJ1/MJ2 PYX4xx PYX5xx Terminal block RS-485 Wiring diagram 1 - C4 Wiring diagram 1 - M4 PYX.Lst (MODBUS RTU)
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16-22 16. Fuji Electric Inverter Connection PLC Selection on the Model Port Signal Level Lst File Editor MJ1/MJ2 FVR-E11S FVR-E11S.Lst Touch panel FVRxxE11S-x RS-485 Wiring diagram 6 - C4 Wiring diagram 6 - M4 FVR-E11S FVR-E11S connector (MODBUS RTU) (Modbus).Lst FVR-C11S FVR-C11S FVRxxC11S-x...
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16.2 Temperature Controller/Servo/Inverter Connection 16-23 Servo Amplifier Connection PLC Selection on the Model Port Signal Level Lst File Editor MJ1/MJ2 FALDIC- series RYSxx RS-485 Wiring diagram 12 - C4 Wiring diagram 12 - M4 F_FAL-A.Lst RYCxxx FALDIC-W series CN3A (UP port) RS-485 Wiring diagram 17 - C4 Wiring diagram 17 - M4...
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16-24 16. Fuji Electric Electronic Multimeter Connection PLC Selection on Model Port Signal Level Lst File the Editor MJ1/MJ2 WE1MA-AFxxx-Mxx F_WE1MA.Lst WE1MA-AGxxx-Mxx WE1MA-A1xxx-Mxx F_WE1MA_1P.Lst WE1MA-A5xxx-Mxx WE1MA-A2xxx-Mxx F_WE1MA_1P3L.L WE1MA (Ver. A) Terminal block RS-485 Wiring diagram 15 - C4 Wiring diagram 15 - M4 (MODBUS RTU) WE1MA-A6xxx-Mxx WE1MA-A3xxx-Mxx...
16.2 Temperature Controller/Servo/Inverter Connection 16-25 16.2.1 PYX (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 9600 bps Do not change the default settings because these settings on the Data Length 8 bits...
16-26 16. Fuji Electric 16.2.2 PXR (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 9600 bps Do not change the default settings because these settings on the temperature controller cannot be changed.
16.2 Temperature Controller/Servo/Inverter Connection 16-27 16.2.3 PXG (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 Do not change the default settings of the signal level, data Baud Rate 9600 / 19200 bps length and stop bit because these settings on the temperature...
16-28 16. Fuji Electric 16.2.4 PXH (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 Do not change the default settings of the signal level, data Baud Rate 9600 / 19200 / 38400 bps length and stop bit because these settings on the temperature...
16.2 Temperature Controller/Servo/Inverter Connection 16-29 16.2.5 PUM (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 Do not change the default settings of the signal level, data Baud Rate 9600 / 19200 / 38400 / 115200 bps length and stop bit because these settings on the temperature...
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16-30 16. Fuji 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...
16.2 Temperature Controller/Servo/Inverter Connection 16-31 16.2.6 F-MPC04P (Loader) 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 Data Length 7 / 8 bits Do not change the default setting because the setting on the...
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16-32 16. Fuji Electric Station Number Table A maximum of 31 units can be connected via serial communication. Port numbers from 0 to 31 can be set on the [Device Setting] dialog of the editor; however, depending on the controller, port numbers exceeding 32 may be available. In such a case, use the station number table to enable communications with devices of port No.
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16.2 Temperature Controller/Servo/Inverter Connection 16-33 Macro To rewrite the station number table on the V series screen, use macro commands [FROM_WR] and [RESTART]. FROM_WR FROM_WR F0 F1 Function: Writing to FROM As many words as specified for F1 from the device memory address set for F0 is written in the FP-ROM. ...
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16-34 16. Fuji Electric Example of Procedure for Rewriting the Station Number Table Port No. Setting Port No. Setting Port No. Setting Write Reconnect Execute reconnection of the Set the port number from Write the station number network using the [RESTART] $u0 to 31 on the screen.
16.2 Temperature Controller/Servo/Inverter Connection 16-35 16.2.7 F-MPC Series / FePSU 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 Data Length 7 / 8 bits...
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16-36 16. Fuji Electric F-MPC04S Communication setting The communication parameters can be set using keys attached to the front of the power monitor unit. Be sure to match the settings to those made under [Communication Setting] of the editor. (Underlined setting: default) Setting Code Item Setting...
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16.2 Temperature Controller/Servo/Inverter Connection 16-37 F-MPC50/F-MPC55/F-MPC60B (UM4Bx, UM42xx, UM43xx) Communication setting The communication parameters can be set using keys attached to the front of the power monitor unit. Be sure to match the settings to those made under [Communication Setting] of the editor. (Underlined setting: default) Setting Code Item...
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16-38 16. Fuji Electric F*JF-R Communication setting The communication parameters can be set using keys attached to the front of the digital regular electricity meter. Be sure to match the settings to those made under [Communication Setting] of the editor. (Underlined setting: default) Type Item...
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16.2 Temperature Controller/Servo/Inverter Connection 16-39 Address F-MPC04/F-MPC04P/F-MPC04S FePSU F-MPC30/F-MPC50/F-MPC55V/F-MPC60B 12zz (Blank) Protective OC (output setting) OCG operation time Protective OCA overcurrent pre-alarm 13zz Load pre-alarm sensitivity current (Blank) (current setting) Protective OCA overcurrent pre-alarm 14zz Load pre-alarm operation time (Blank) (operation time) Protective OCA overcurrent pre-alarm 15zz...
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16-40 16. Fuji Electric Address F-MPC04/F-MPC04P/F-MPC04S FePSU F-MPC30/F-MPC50/F-MPC55V/F-MPC60B 47zz (Blank) (Blank) Reverse phase relay 48zz (Blank) (Blank) Demand average time 49zz (Blank) Year setting CB opening jam monitoring time 50zz (Blank) Month setting CB closing jam monitoring time Monitoring trip coil TC disconnection, OFF 51zz (Blank) Date setting...
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16-42 16. Fuji Electric PLC_CTL Content F1 (=$u n) Station number 1 - 8 kWh integrated value reset (PLC1 - 8) n + 1 Command: 0 Station number 1 - 8 Max. kW (amount of power) reset (PLC1 - 8) n + 1 Command: 1 Station number...
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16.2 Temperature Controller/Servo/Inverter Connection 16-43 16.2.8 FVR-E11S 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 Data Length 7 / 8 bits Stop Bit...
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16-44 16. Fuji 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...
16-46 16. Fuji Electric 16.2.10 FVR-C11S (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 Data Length 8 bits Stop Bit...
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16.2 Temperature Controller/Servo/Inverter Connection 16-47 16.2.11 FRENIC5000 G11S / P11S 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...
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16-48 16. Fuji 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...
16-50 16. Fuji Electric 16.2.13 FRENIC5000 VG7S (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 / 38400 bps Do not change the default setting because the setting on the Data Length 8 bits...
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16.2 Temperature Controller/Servo/Inverter Connection 16-51 When Connecting to the Terminal Block on “OPC-VG7-RS” (Optional Communication Board): Communication setting Set communication parameters. Be sure to match the settings to those made under [Communication Setting] of the editor. (Underlined setting: default) Function Code Item Setting Example...
16-52 16. Fuji Electric 16.2.14 FRENIC-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-422/485 Baud Rate 4800 / 9600 / 19200 bps Do not change the default setting because the setting on the Data Length 8 bits...
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16.2 Temperature Controller/Servo/Inverter Connection 16-53 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...
16-54 16. Fuji Electric 16.2.15 FRENIC-Eco (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-422/485 Baud Rate 4800 / 9600 / 19200 / 38400 bps Do not change the default setting because the setting on Data Length 8 bits...
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16.2 Temperature Controller/Servo/Inverter Connection 16-55 Function Item Setting Example Code Frequency Operation Command Inverter Inverter RS-485 communication Inverter Inverter RS-485 communication RS-485 communication RS-485 communication Link function RS-485 communication (optional) Inverter RS-485 communication (optional) RS-485 communication Inverter RS-485 communication (optional) RS-485 communication RS-485 communication (optional) RS-485 communication (optional)
16-56 16. Fuji Electric 16.2.16 FRENIC-Multi (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-422/485 Baud Rate 4800 / 9600 / 19200 / 38400 bps Do not change the default setting because the setting Data Length 8 bits...
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16.2 Temperature Controller/Servo/Inverter Connection 16-57 Function Item Setting Example Code Frequency Operation Command Function code H30, y98 Function code H30, y98 Support link function Commanded from RS-485 Function code H30, y98 Function code H30, y98 Commanded from RS-485 Commanded from RS-485 Commanded from RS-485 Frequency Operation Command...
16-58 16. Fuji Electric 16.2.17 FRENIC-MEGA (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-422/485 Baud Rate 4800 / 9600 / 19200 / 38400 bps Do not change the default setting because the setting Data Length 8 bits...
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16.2 Temperature Controller/Servo/Inverter Connection 16-59 Function Item Setting Example Code Frequency Operation Command Function code H30, y98 Function code H30, y98 Support link function Commanded from the loader Function code H30, y98 Function code H30, y98 Commanded from the loader Commanded from the loader Commanded from the loader Frequency...
16-60 16. Fuji Electric 16.2.18 FRENIC-MEGA SERVO (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...
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16.2 Temperature Controller/Servo/Inverter Connection 16-61 Function Code Item Setting Example Frequency Operation Command Function code H30, y98 Function code H30, y98 Commanded from FRENIC Function code H30, y98 loader Support link function Commanded from FRENIC Function code H30, y98 loader Commanded from FRENIC Commanded from FRENIC loader...
16-62 16. Fuji Electric 16.2.19 FRENIC-HVAC/AQUA (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 / 38400 bps...
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16.2 Temperature Controller/Servo/Inverter Connection 16-63 Function Code Item Setting Example Frequency Operation Command Function code H30, y98 Function code H30, y98 Commanded from FRENIC Function code H30, y98 loader Support link function Command from FRENIC Function code H30, y98 loader Command from FRENIC Command from FRENIC loader...
Page 317
16-64 16. Fuji Electric 16.2.20 HFR-C9K 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 Data Length 7 / 8 bits Stop Bit...
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16.2 Temperature Controller/Servo/Inverter Connection 16-65 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...
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16-66 16. Fuji Electric 16.2.21 HFR-C11K 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 Data Length 7 / 8 bits Stop Bit...
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16.2 Temperature Controller/Servo/Inverter Connection 16-67 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...
16.2 Temperature Controller/Servo/Inverter Connection 16-69 16.2.23 FALDIC- 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-422/485 Baud Rate 9600 / 19200 / 38400 bps Do not change the default setting other than baud rate because Data Length 8 bits...
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16-70 16. Fuji Electric PLC_CTL Contents F1 (= $u n) Station number n + 1 Command: 9 Positioning data 1 - 8 n + 2 ABS/INC (immediate) setting (PLC1 - 8) n + 3 Speed selection n + 4 to n + 5 Position data Station number n + 1...
16.2 Temperature Controller/Servo/Inverter Connection 16-71 16.2.24 FALDIC-W 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-422/485 Baud Rate 9600 / 19200 / 38400 bps...
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16-72 16. Fuji Electric Indirect Device Memory Designation n + 0 Model Device Memory type n + 1 Address No. n + 2 Bit designation Expansion code n + 3 Station number * In the expansion code, set which word, higher or lower, is to be read when a double-word address is specified (expansion bit designation).
16.2 Temperature Controller/Servo/Inverter Connection 16-73 16.2.25 PH 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-422/485 Baud Rate 4800 / 9600 / 19200 bps...
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16-74 16. Fuji 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...
16.2 Temperature Controller/Servo/Inverter Connection 16-75 16.2.26 PHR (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 Do not change the default settings of the signal level, data Baud Rate 9600 / 19200 bps length and stop bit because these settings on the recorder...
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16-76 16. Fuji Electric 16.2.27 WA5000 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 7 / 8 bits Stop Bit...
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16.2 Temperature Controller/Servo/Inverter Connection 16-77 PLC_CTL Contents F1 (=$u n) Station number 1 - 8 n + 1 Command: 0 Hold remote control response (PLC1 - 8) Hold status n + 2 0: OFF, 1: ON Station number 1 - 8 n + 1 Command: 1 Hold terminal response...
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16-78 16. Fuji Electric Contents F1 (=$u n) Station number 1 - 8 n + 1 Command: 13 Digital zero terminal response (PLC1 - 8) Digital zero n + 2 0: OFF, 1: ON Station number n + 1 Command: 14 1 - 8 Digital zero Digital zero remote control...
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16.2 Temperature Controller/Servo/Inverter Connection 16-79 Contents F1 (=$u n) Station number n + 1 Command: 23 Range Range 11 Range 12 Range 13 1 - 8 Range 14 Range setting (PLC1 - 8) Range 15 n + 2 Range 23 Range 24 Range 25 Range 26...
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16-80 16. Fuji Electric Contents F1 (=$u n) Station number n + 1 Command: 34 Analog output type 0: Not provided 1 - 8 1: OFF Analog output type response (PLC1 - 8) 2: 0 - 1 (V) n + 2 3: 0 - 10 (V) 4: 1 - 5 (V) 5: 0 - 20 (mA)
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16.2 Temperature Controller/Servo/Inverter Connection 16-81 Contents F1 (=$u n) Station number 1 - 8 n + 1 Command: 47 Power-on delay time setting (PLC1 - 8) Power-on delay time n + 2 0 (OFF) / 1 to 30 Station number n + 1 Command: 48 1 - 8...
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16-82 16. Fuji Electric Contents F1 (=$u n) Station number n + 1 Command: 57 Read start number n + 2 1 to 16 The number of read data n + 3 1 to 16 n + 4 Linearization data input value (start number + 0) n + 5 Linearization data output value (start number + 0) n + 6...
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16.2 Temperature Controller/Servo/Inverter Connection 16-83 Contents F1 (=$u n) Station number n + 1 Command: 58 Read start number n + 2 1 to 16 The number of read data n + 3 1 to 16 n + 4 Linearization data input value (start number + 0) n + 5 Linearization data output value (start number + 0) n + 6...
16.2 Temperature Controller/Servo/Inverter Connection 16-85 16.2.29 ALPHA5 (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 9600 / 19200 / 38400 bps Data Length 8 bits Stop Bit...
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16-86 16. Fuji Electric PLC_CTL Contents F1 (=$u n) Station number Command: 03 (HEX) Reading device memory address Reading positioning data count: m (1 to 9) Positioning status and M code 15 to 8 Command Not used mode M code Step mode Positioning data 1 - 8...
16.2 Temperature Controller/Servo/Inverter Connection 16-87 16.2.30 ALPHA5 Smart (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...
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16-88 16. Fuji Electric PLC_CTL Contents F1 (= $u n) Station number Command: 03 (HEX) Reading address Number of positioning data to read: m (1 to 9) Positioning status & M code 15 - 8 7 6 5 4 3 2 1 0 Command Not used method...
16.2 Temperature Controller/Servo/Inverter Connection 16-91 16.2.33 WSZ 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 4800 / 9600 / 19200 / 38400 / 57600 / Baud Rate...
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16-92 16. Fuji Electric 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 controller side. 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.
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16.2 Temperature Controller/Servo/Inverter Connection 16-93 16.2.34 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 RJ-10 Dsub 9 (Male) 20 21 22 23 * Use shielded twist-pair cables.
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16-94 16. Fuji Electric RS-422/RS-485 Wiring diagram 1 - C4 Name Name Dsub 9 (Male) * Use shielded twist-pair cables. Wiring diagram 2 - C4 Name Name Dsub 9 (Male) * Use shielded twist-pair cables. Wiring diagram 3 - C4 Name Name RJ45...
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16.2 Temperature Controller/Servo/Inverter Connection 16-95 Wiring diagram 5 - C4 Name Name Dsub 9 (Male) * Use shielded twist-pair cables. Wiring diagram 6 - C4 Name Name RJ45 Dsub 9 (Male) 1 2 3 4 5 6 7 8 * Use shielded twist-pair cables. Wiring diagram 7 - C4 Name Name...
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16-96 16. Fuji Electric Wiring diagram 9 - C4 Name Name Plug (10-wire) Dsub 9 (Male) * Use shielded twist-pair cables. Wiring diagram 10 - C4 Name Name RJ45 Dsub 9 (Male) 1 2 3 4 5 6 7 8 * Use shielded twist-pair cables.
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16.2 Temperature Controller/Servo/Inverter Connection 16-97 Wiring diagram 13 - C4 Name Name Dsub 9 (Male) SHELL * Use shielded twist-pair cables. Wiring diagram 14 - C4 Name Name RJ45 Dsub 9 (Male) M5(0V) 1 2 3 4 5 6 7 8 *RXD *TXD * Use shielded twist-pair cables.
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16-98 16. Fuji Electric Wiring diagram 16 - C4 Name Name Dsub 9 (Male) TRX1 TRX2 * Use shielded twist-pair cables. Wiring diagram 17 - C4 Name Name RJ45 Dsub 9 (Male) *RXD 1 2 3 4 5 6 7 8 *TXD * Use shielded twist-pair cables.
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16.2 Temperature Controller/Servo/Inverter Connection 16-99 When Connected at MJ1/MJ2: RS-232C Wiring diagram 1 - M2 MJ1/2 Name Name RJ - 45 1 2 3 4 5 6 7 8 * Use shielded twist-pair cables. Wiring diagram 2 - M2 MJ1/2 Name Name RJ - 45...
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16-100 16. Fuji Electric RS-422/RS-485 Wiring diagram 1 - M4 MJ1/2 Name Name RJ - 45 1 2 3 4 5 6 7 8 +RD/+SD -RD/-SD * Use shielded twist-pair cables. Wiring diagram 2 - M4 MJ1/2 Name Name RJ - 45 1 2 3 4 5 6 7 8 +RD/+SD -RD/-SD...
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16-102 16. Fuji Electric Wiring diagram 11 - M4 MJ1/2 Name Name RJ-10 RJ - 45 RXD+ 1 2 3 4 5 6 7 8 +RD/+SD TXD- 20 21 22 23 -RD/-SD * Use shielded twist-pair cables. Wiring diagram 12 - M4 MJ1/2 Name Name...
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16.2 Temperature Controller/Servo/Inverter Connection 16-103 With an electronic multimeter connected at the end MJ1/2 Name Name RJ - 45 1 2 3 4 5 6 7 8 +RD/+SD -RD/-SD Ter. * Use shielded twist-pair cables. Wiring diagram 16 - M4 MJ1/2 Name Name...
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16-104 16. Fuji Electric Please use this page freely.
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17.1 Temperature Controller / Servo / Inverter 17-1 17.1 Temperature Controller / Servo / Inverter Serial Connection Wiring Diagrams PLC Selection on Model Port Signal Level Lst File the Editor MJ1/MJ2 TTC2100-1 TTC2100. TTC2100 TTC2100-2 COM2 RS-485 Wiring diagram1 - C4 Wiring diagram 1 - M4 TTC2200-1...
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17-2 17. Gammaflux 17.1.1 TTC2100 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 57600 bps Data Length 8 bits Stop Bit 1 bit...
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17.1 Temperature Controller / Servo / Inverter 17-3 Indirect Device Memory Designation n + 0 Model Device type n + 1 Lower address No. n + 2 Higher address No. n + 3 Bit designation Expansion code n + 4 Station number ...
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17-4 17. Gammaflux Contents F1 (=$u n) Station number n + 1 ZONE No.: Fixed to 0 ZONE COMMAND n + 2 0099H (Storage device memory: Volatile) 8099H (Storage device memory: Nonvolatile) n + 3 Zone1 Zone16 1 - 8 Turn All Zones On/Off n + 4 (PLC1 - 8)
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17.1 Temperature Controller / Servo / Inverter 17-5 17.1.2 Wiring Diagrams When Connected at CN1: RS-422/RS-485 Wiring diagram1 - C4 Name Name Dsub 9 (Male) Dsub 9 (Male) -RD/-SD +RD/+SD * Use shielded twist-pair cables. When Connected at MJ1/MJ2: RS-422/RS-485 Wiring diagram 1 - M4 MJ1/2 Name...
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17-6 17. Gammaflux Please use this page freely.
18-8 18. GE Fanuc 18.1.4 90 Series (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] ...
18.1 PLC Connection 18-9 18.1.5 RX3i (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 ...
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18-10 18. GE Fanuc 18.1.6 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 Dsub 25 (Male) Dsub 9 (Male) * Use shielded twist-pair cables.
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18.1 PLC Connection 18-11 Wiring diagram 5 - C2 Name Name RJ - 45 Dsub 9 (Male) 87654321 * Use shielded twist-pair cables. RS-422/RS-485 Wiring diagram 1 - C4 Name Name Dsub 15 (Male) Dsub 9 (Male) RTS(A) CTS(B’) RD(A’) RD(B’) SD(A) SD(B)
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18-12 18. GE Fanuc Wiring diagram 3 - C4 Name Name RJ - 45 Dsub 9 (Male) RX(+) RX(-) 8 7 65 4 32 1 TX(-) TX(+) * Use shielded twist-pair cables. When Connected at MJ1/MJ2: RS-232C Wiring diagram 1 - M2 MJ1/2 Name Name...
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19.1 PLC Connection 19-1 19.1 PLC Connection Serial Connection Connection Ladder PLC Selection on Unit/Port Signal Level the Editor Transfer MJ1/MJ2 S10 2 Interface on the CPU unit RS-422 Wiring diagram 1 - C4 RS-232C connector on the RS-232C Wiring diagram 1 - C2 Wiring diagram 1 - M2 CPU unit LQE060 (CN1, CN2)
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19.1 PLC Connection 19-3 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...
19-4 19. Hitachi 19.1.2 HIDIC-S10/2, S10mini (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 ...
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19.1 PLC Connection 19-5 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...
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19-6 19. Hitachi 19.1.3 HIDIC-S10/4 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 19200 bps Data Length 8 bits Stop Bit 1 bit Parity All PLC parameters are fixed to the following settings: Baud rate: 19200 bps, data length: 8 bits, stop bit: 1 bit, parity: odd...
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19-8 19. Hitachi 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...
19.1 PLC Connection 19-9 19.1.5 HIDIC-S10V (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 ...
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19-10 19. Hitachi 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...
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19.1 PLC Connection 19-11 19.1.6 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 (Female) Dsub 9 (Male) * Use shielded twist-pair cables.
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19-12 19. Hitachi RS-422/RS-485 Wiring diagram 1 - C4 When connecting to the S10x series, place a resistor of 50 (1/2 W) as shown below. Name Name Dsub 9 (Male) UTX H UTX L URX H URX L * Use shielded twist-pair cables. Wiring diagram 2 - C4 Name Name...
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19.1 PLC Connection 19-13 When Connected at MJ1/MJ2: RS-232C Wiring diagram 1 - M2 MJ1/2 Name Name Dsub 9 (Female) RJ - 45 1 23 45 6 78 * Use shielded twist-pair cables. Wiring diagram 2 - M2 MJ1/2 Name Name Dsub 9 (Female) RJ - 45...
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19-14 19. Hitachi Please use this page freely.
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20. Hitachi Industrial Equipment Systems 20.1 PLC Connection 20.2 Temperature Controller/Servo/Inverter Connection...
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Serial Connection Connection Ladder PLC Selection Unit/Port Signal Level on the Editor Transfer MJ1/MJ2 Hakko Electronics’ cable “D9-HI2-H-5M” RS-232C Wiring diagram 1 - M2 COMM-2H Wiring diagram 1 - C2 RS-422 Wiring diagram 1 - C4 Hakko Electronics’ cable “D9-HI2-H-5M”...
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20-2 20. Hitachi Industrial Equipment Systems 20.1.1 HIDIC-H 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) Baud Rate 4800 / 9600 / 19200 / 38400 / 57600 / 115K bps Parity None / Odd / Even Signal Level...
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20.1 PLC Connection 20-3 PERIPHERAL Port No particular setting is necessary on the PLC. The PLC always operates using the parameter shown below. Set the following parameter on V9. Item Setting Remarks Signal Level RS-232C Baud Rate 19200 bps Data Length 7 bits ASCII Stop Bit...
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20-4 20. Hitachi Industrial Equipment Systems Special internal output: WRF037 Device Memory Setting Station number 00 to 31 (BCD) Communication interface setting (to be set by user) Interface RS-232C RS-422 RS-485 Not to be changed Communication interface status display (to be set by system) Built-in terminating resistance Interface...
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20.1 PLC Connection 20-5 EH-SIO PORT1/PORT2 The following table shows the signal level and the communication protocol for each port. Other parameters (7 bits, 1 bit, even) are fixed. Port Signal Level Communication Protocol EH-SIO Version Transmission control protocol 1 Version 2.0 and later PORT1 RS-232C...
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20-6 20. Hitachi Industrial Equipment Systems PORT1 Procedure 1. Turn the PLC off and set the baud rate using the DIPSW. 2. Turn the power on and check the value set for “ Special internal output: WRF01A”. 3. When the transmission control protocol has correctly been selected, setting is completed. If it is wrong, set a correct value.
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20.1 PLC Connection 20-7 Web Controller The following table shows the signal level and the communication protocol for each PLC. Other parameters (7 bits, 1 bit, even) are fixed. Port Signal Level Communication Protocol Transmission control protocol 1 EH-WD10DR SERIAL RS-232C Transmission control protocol 2 Transmission control protocol 1...
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20-8 20. Hitachi Industrial Equipment Systems 20.1.2 HIDIC-H (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] ...
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20.1 PLC Connection 20-9 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...
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20-10 20. Hitachi Industrial Equipment Systems 20.1.3 HIDIC-EHV 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 bits...
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20.1 PLC Connection 20-11 EH-SIO PORT1/PORT2 The following table shows the signal level and the communication protocol for each port. Other parameters (7 bits, 1 bit, even) are fixed. Port Signal Level Communication Protocol EH-SIO Version Transmission control protocol 1 Version 2.0 and later PORT1 RS-232C...
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20-12 20. Hitachi Industrial Equipment Systems 20.1.4 HIDIC-EHV (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] ...
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20.1 PLC Connection 20-13 20.1.5 Wiring Diagrams When Connected at CN1: RS-232C Wiring diagram 1 - C2 Name Name Dsub 15 (Male) Dsub 9 (Male) * Use shielded twist-pair cables. PV12 Wiring diagram 2 - C2 Name Name RJ-45 Dsub 9 (Male) ER/PHL 1 2 34 5 67 8 * Use shielded twist-pair cables.
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20-14 20. Hitachi Industrial Equipment Systems RS-422/RS-485 Wiring diagram 1 - C4 Name Name Dsub 9 (Male) TxDP TxDN RxDP RxDN * Use shielded twist-pair cables. Wiring diagram 2 - C4 Name Name RJ-45 Dsub 9 (Male) 12 34 5 67 8 * Use shielded twist-pair cables.
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20.1 PLC Connection 20-15 Wiring diagram 5 - C4 Name Name RJ-45 Dsub 9 (Male) 1 23 45 6 78 * Use shielded twist-pair cables. Wiring diagram 6 - C4 Name Name RJ-45 Dsub 9 (Male) 1 23 45 6 78 * Use shielded twist-pair cables.
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20-16 20. Hitachi Industrial Equipment Systems Wiring diagram 2 - M2 MJ1/2 Name Name RJ-45 RJ - 45 1 2 34 56 78 ER/PHL 1 2 34 5 67 8 * Use shielded twist-pair cables. Wiring diagram 3 - M2 MJ1/2 Name Name...
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20-18 20. Hitachi Industrial Equipment Systems 20.2 Temperature Controller/Servo/Inverter Connection Inverter Connection PLC Selection on the Model Port Signal Level Lst File Editor MJ1/MJ2 SJ300 SJ300 series RS-485 Wiring diagram 1 - C4 Wiring diagram 1 - M4 H_SJ300.Lst SJH300 SJ700 SJ700 series RS-485...
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20.2 Temperature Controller/Servo/Inverter Connection 20-19 20.2.1 SJ300 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 4800 / 9600 / 19200 bps Data Length 7 / 8 bits...
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20-20 20. Hitachi Industrial Equipment Systems 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...
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20.2 Temperature Controller/Servo/Inverter Connection 20-21 Contents F1 (= $u n) Station number n + 1 Command: 2 Data (HH) n + 2 15 14 13 12 11 10 Bit 0: “STAT” Pulse train input enabled Data (HL) 15 14 13 12 11 10 Bit 0: “SF1”...
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20-22 20. Hitachi Industrial Equipment Systems Contents F1 (= $u n) Station number n + 1 Command: 4 Status A (BCD) 00: Initial status 01: Waiting for Vdc establishment 02: Stopping 03: Running 04: FRS in progress n + 2 05: JG in progress 06: DB in progress 07: F acquisition in progress...
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20.2 Temperature Controller/Servo/Inverter Connection 20-23 20.2.2 SJ700 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 4800 / 9600 / 19200 bps Data Length 7 / 8 bits...
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20-24 20. Hitachi Industrial Equipment Systems 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...
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20.2 Temperature Controller/Servo/Inverter Connection 20-25 Contents F1 (= $u n) Station number n + 1 Command: 2 Data (HH) 15 14 13 12 11 10 Bit 0: “STAT” Pulse train position command enabled Bit 1: -- Bit 2: “ADD” Set frequency addition Bit 3: “F-TM”: Forced terminal Bit 4: “ATR”...
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20-26 20. Hitachi Industrial Equipment Systems Contents F1 (= $u n) Station number n + 1 Command: 4 Status A (BCD) 00: Initial status 01: Waiting for Vdc establishment 02: Stopping 03: Running 04: FRS in progress n + 2 05: JG in progress 06: DB in progress 07: F acquisition in progress...
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20.2 Temperature Controller/Servo/Inverter Connection 20-27 20.2.3 Wiring Diagrams When Connected at CN1: RS-485 Wiring diagram 1 - C4 Name Name Dsub 9 (Male) * RP-SN short-circuited at the termination * Use shielded twist-pair * Use shielded twist-pair cables. cables. When Connected at MJ1/MJ2: RS-485 Wiring diagram 1 - M4 MJ1/2...
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20-28 20. Hitachi Industrial Equipment Systems Please use this page freely.
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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...
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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...
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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...