Page 2 Record of Revisions Reference numbers are shown at the bottom left corner on the back cover of each manual. Printing Date Reference No. Revised Contents September, 2002 2010NE0 First edition...
Page 4 Thank you for selecting the MONITOUCH V7 series. For correct set-up of MONITOUCH, you are requested to read through this manual to understand more about the product. For more information about the V7 series, refer to the following related manuals. Manual Name Reference Manual (Operation)
Page 5 Notes on Safe Use of In this manual, you will find various notes categorized under the following levels with the signal words “DANGER,” and “CAUTION.” Indicates an imminently hazardous situation which, if not avoided, will result in DANGER death or serious injury. Indicates a potentially hazardous situation which, if not avoided, may result in CAUTION minor or moderate injury and could cause property damage.
Page 6 [Notes on System Design] • Never bundle control cables and input/output cables with high-voltage and large-current carrying cables such as power supply cables. Keep these cables at least 200 mm away from the power supply or high-voltage cables. Otherwise, malfunction may occur due to noise. •...
Page 7 • Switch resolution of the MONITOUCH V7 series is determined by the analog-type resistance film. Do not press two or more positions on the screen at the same time.
Page 8: Table Of Contents
Models and Peripheral Equipment ... 1-2 MONITOUCH Models ... 1-2 Peripheral Equipment ... 1-3 System Composition ... 1-7 System Composition of V7 (Standard)... 1-7 System Composition of V7i (High-performance)... 1-8 Specifications ... 1-9 General Specifications ... 1-9 Display Specifications ... 1-10 Touch Panel Specifications...
Page 9 Printer Connector (PRINTER)... 1-37 Connection with Printer through Serial Interface ... 1-38 Chapter 2 MONITOUCH Operations 1. Operation of V7 Main Menu ...2-1 Initial Screen ... 2-1 Main Menu Screen ... 2-2 I/O Test ... 2-4 2-1. Self-loop Test ... 2-5 2-2.
Page 10 Chapter 3 Serial Communications 1 : 1 Connection ... 3-1 1 : 1 Connection... 3-1 Wiring... 3-2 V-SFT Setting ... 3-4 1 : n Connection (Multi-drop)... 3-9 1 : n Connection... 3-9 Wiring (RS-422/485) ... 3-9 V-SFT Setting ... 3-10 Notes on Communication Errors...
Page 11 Network Communications 1. Ethernet ...4-1 Ethernet ... 4-1 Notes on Ethernet Communications ... 4-3 IP Address for the V7 Series... 4-3 Communication Interface Unit CU-03 ... 4-3 Wiring... 4-5 Transferring Screen Data... 4-8 V-SFT Setting (PLC Type/Communication Parameter) ... 4-10 V-SFT Setting (Network Table Editing) ...
Page 12 Chapter 5 Connection to PLCs MITSUBISHI PLC... 5-1 Available PLCs... 5-1 Communication Setting... 5-4 A Series Link, QnA Series Link: Switch Setting ... 5-6 Available Memory ... 5-8 Wiring... 5-11 A Link + Net10 ... 5-15 V-MDD (Dual Port Interface)... 5-17 Ladder Transfer Function...
Page 13: Allen-Bradley Plc
8. Toyopuc PLC ...5-55 Available PLCs... 5-55 Communication Setting... 5-55 Switch Setting ... 5-55 Available Memory ... 5-56 Screen Editing (Memory Input) ... 5-56 Wiring... 5-57 9. FUJI PLC ...5-58 Available PLCs... 5-58 Communication Setting... 5-58 MICREX-F Series, FLEX-PC Series: Switch Setting ... 5-59 Available Memory ...
Page 14 16. SHINKO PLC... 5-98 Available PLCs... 5-98 Communication Setting... 5-98 Available Memory ... 5-98 Wiring... 5-99 17. SAMSUNG PLC ... 5-100 Available PLCs... 5-100 Communication Setting... 5-100 Available Memory ... 5-100 Wiring... 5-101 18. KEYENCE PLC ... 5-102 Available PLCs... 5-102 Communication Setting...
Page 15 25. TAIAN PLC ...5-124 Available PLCs... 5-124 Communication Setting... 5-124 Available Memory ... 5-124 Wiring... 5-125 26. SAIA PLC...5-126 Available PLCs... 5-126 Communication Setting... 5-126 S-BUS Configuration... 5-126 Available Memory ... 5-126 Wiring... 5-127 27. MOELLER PLC...5-128 Available PLCs... 5-128 Communication Setting...
Page 16 Hardware Specifications Features Models and Peripheral Equipment System Composition Specifications Dimensions and Panel Cut-out Names and Functions of Components Mounting Procedure Power Supply Cable Connection Coin-type Lithium Battery 10. DIP Switch Setting 11. Serial Connector (CN1) 12. Modular Jack (MJ1/MJ2) 13.
Page 18: Features
Features The V7 series inherits and heightens the features of the V6 series as described below. 1. 32k-color Display 32,768-color display makes colorful expression possible. Bitmap files are clearly displayed in brilliant colors. 2. CF Card Interface as Standard The CF card can be used for saving multiple screen data, sampling data, recipe data, hard copy images, and other various usages.
Page 19: Models And Peripheral Equipment
2. Models and Peripheral Equipment Models and Peripheral Equipment MONITOUCH Models The model name consists of the following information. Power supply specification 24 VDC specification (in compliance with CE/UL/cUL) None: 100-240 VAC specification Device specification TFT color LCD (SVGA) TFT color LCD (VGA) STN color LCD (VGA) Functional specification High-performance type...
Page 20: Peripheral Equipment
V712iSD TFT color, 800 × 600 dots, high-performance, DC power supply Peripheral Equipment The following options are available for using the V7 series more effectively. V-SFT (drawing software: English version) Application software for editing display data for the V series.
Page 21 V7 internal memory and memo pad. The capacity of an SRAM cassette is 512 kbyte. TC485 (terminal converter) Used for connection between the V7 series and a PLC at the RS-422/485 terminal block. CREC (card recorder) The card recorder creates a backup copy of screen data or works as an external memory storage system for memory manager and data logging functions.
Page 22 05 → MELSECNET/10] (communication interface unit) Used for communications with each network. This unit enables connection of multiple V7 series to a single PLC. Since other devices on the same network can be connected, it brings about the reduction in costs of the whole system.
Page 23 Used for connection between the V7 series and a temperature controller or a PLC via PLC2Way. MJ-D25 (MJ-to-D-sub conversion cable) 0.3 m under development Used for connection between the V7 series and a PLC via PLC2Way. V7xx-GS [xx: 08 → V708/V708i, 10 → V710/V710i, 12 → V712/V712i] (protective sheet) This sheet protects the operation panel surface.
Page 24: System Composition
System Composition System Composition of V7 (Standard) The following illustration shows possible system configurations using the V7 series (standard). V series Panel Editor Creating screens Personal computer (PC) Transferring screen data Transferring recipe data Saving sampling data etc. Transferring screen data...
Page 25: System Composition Of V7I (High-Performance)
3. System Composition System Composition of V7i (High-performance) The following illustration shows possible system configurations using the V7i series (high-performance). Personal computer (PC) V series Panel Editor Creating screens Personal computer (PC) Transferring screen data Transferring other data Card recorder Printer *1 The option unit (EU-xx) is required.
Page 26: Specifications
Specifications General Specifications Model V708 Item DC power supply Rated Voltage 24 VDC Permissible Range 24 VDC ±10% of Voltage Permissible Momentary Power Within 1 ms Failure V708C V708S/iS Power Consumption 15 W or 22 W or (Maximum Rating) less Rush Current 25 A, 0.7 ms DC external...
Page 27: Display Specifications
1-10 4. Specifications Display Specifications Model V708C Item Display Device color LCD Effective Display 7.7-inch Area 128 colors Colors +16-color blinks Resolution 640 × 480 W × H (dots) Dot Pitch 0.246 × 0.246 W × H (mm) Brightness (cd/m Contrast Ratio 25 : 1 Angle of Vertical...
Page 28: Function Switch Specifications
1, 2 bits 4800, 9600, 19200, 38400, 57600, 76800, 115 kbps CREC, Barcode, V-I/O, Multi-link 2, Temperature control network/PLC2Way, V-link, etc. NEC: PR201 EPSON: ESC/P-J84, ESC/P super function, ESC/P24-J84 CBM292/293 printer , HP PCL Level 3 Barcode printer MR400 10 Mbps 100 Ω...
Page 29: Drawing Environment
1-12 4. Specifications Drawing Environment Item Drawing Method Exclusive drawing software Drawing Tool Name of exclusive drawing software: V-SFT (Ver. 2.00 and later) Personal computer: Capacity of hard disk required: Display: Display Function Specifications Item Display Language* Japanese Characters 1/4-size ANK code 1-byte 2-byte...
Page 30: Function Performance Specifications
Function Performance Specifications Item Screens Max. 1024 Screen Memory Flash memory: Appox. 4,992 kbyte (varies depending on the font) Switches 768 per screen Switch Actions Set, reset, momentary, alternate, to light (Possible to press a function switch and a display switch at the same time) Lamps Reverse, blink, exchange of graphics 768 per screen...
Page 31: Dimensions And Panel Cut-Out
1-14 5. Dimensions and Panel Cut-out Dimensions and Panel Cut-out V708/V708i External View and Dimensions (Unit: mm) • Side View • Rear View • Front View • Bottom View • Panel Cut-out Dimensions...
Page 32: V710/V710I External View And Dimensions
V710/V710i External View and Dimensions (Unit: mm) • Side View • Rear View 5. Dimensions and Panel Cut-out • Front View • Bottom View • Panel Cut-out Dimensions 1-15...
Page 33: V712/V712I External View And Dimensions
1-16 5. Dimensions and Panel Cut-out V712/V712i External View and Dimensions (Unit: mm) • Side View • Rear View • Front View • Bottom View • Panel Cut-out Dimensions...
Page 34: Names And Functions Of Components
Names and Functions of Components V708/V708i V710/V710i 6. Names and Functions of Components 1-17...
Page 35 Used for screen data transfer and connection with temperature controller, barcode reader, CREC, etc. 7. PLC communication connector (CN1) Used for connection between the V7 series and a PLC or an external control unit (computer, custom controller, etc). 8. 10BASE-T connector (LAN) ... V7i only Used for Ethernet connection.
Page 36 10. Mounting holes Used for inserting fixtures when securing the V7 series to the mounting panel. 11. Communication interface unit connector (CN5) This is the connector where the communication unit (CU-xx, optional) for OPCN-1, T-LINK, CC-Link, Ethernet, FL-net (OPCN-2), PROFIBUS-DP or MELSECNET/10 is mounted.
Page 37: Mounting Procedure
1. Cut out the mounting panel (max. thick: 5 mm) to match the dimensions shown below. Panel cut-out hole 2. Insert four fixtures attached to the V7 series into the mounting holes, and tighten them with the locking screws. Tightening torque V708/V708i/V710/V710i: 0.3 to 0.5 N•m...
Page 38: Power Supply Cable Connection
Power Supply Cable Connection Electric shock hazard DANGER Shut the power off before connecting the power supply cable. Power Supply Cable Connection • Connect the power supply cable to the terminal on the backside of the unit. - V708/V708i 24 VDC specification Power supply 24 VDC ±...
Page 39: Notes On Usage Of 100-240 Vac Specifications
• If any input-output error occurs due to the grounding, detach the FG terminal (*) from the ground. * When the V7 unit is attached to the mounting panel, the fixtures and frame grounds (FG) are connected. To detach the FG terminal from the ground, attach the insulating sheet to the fixtures and the mounting panel for insulation.
Page 40: Coin-Type Lithium Battery
Electric shock hazard DANGER Steps 2 to 5 must be performed while the power is not supplied to the V7 unit. 1. A coin-type lithium battery is attached to the battery holder without connection in the backside of the unit before delivery.
Page 41: Battery Replacement
• Be sure to discharge static electricity from your body before battery CAUTION replacement. • Use the battery “V7-BT” (replacement battery for the V7 series) for replacement. • Rough handling of the battery may cause a fire or chemical burn hazard.
Page 42 Replacement” on the new caution sticker, and attach it to the backside of the V7 unit. 7. When a RAM file is saved in step 1, turn the V7 unit on and load the RAM file to the unit. 9. Coin-type Lithium Battery...
Page 43: Dip Switch Setting
- Temperature controller network/PLC2Way connection via RS-485 - Connection with the card recorder CREC (optional) - Connection with the serial extension I/O V-I/O (optional) - Connection to the V7 unit at the termination of V-link connection via RS-485 - For V710/V710i/V712/V712i: DIP switch...
Page 44 2. Set DIPSW1 in the ON position, and insert the CF card that contains the screen data file. 3. Turn the V7 unit on. The screen data is automatically loaded into the FLASH memory of the unit. 10. DIP Switch Setting...
Page 45: Serial Connector For Plc Connection
11. Serial Connector (CN1) Serial Connector for PLC Connection 1. To communicate with the PLC (RS-232C, RS-422/485), connect the cable to the serial connector (CN1) at the bottom of the V7 unit. - For V708/V708i: Bottom View 2. The serial connector pins correspond to signals as given below.
Page 46: Modular Jack 1 (Mj1)/2 (Mj2)
12. Modular Jack (MJ1/MJ2) Modular Jack 1 (MJ1)/2 (MJ2) 1. This is a modular connector used for connection for screen data transfer, temperature controller, barcode reader, card recorder (CREC) or serial extension I/O (V-I/O). - For V708/V708i: Bottom View 2. Pins of modular jacks 1 and 2 correspond to signals as given below. MJ1/2 12.
Page 47: V-Sft Setting
1-30 12. Modular Jack (MJ1/MJ2) V-SFT Setting 1. The use of modular jacks 1 and 2 can be set on the V-SFT editor. 2. Select [Modular] from the [System Setting] menu. The [Modular Jack] dialog is displayed. Select the use of modular jacks 1 and 2 from the following options. Modular Jack 1 [Editor Port] [Memory Card]...
Page 48: Modular Jack
PROFIBUS-DP × CU-05 MELSECNET/10 *1 This is not possible when the V7 series and the PLC are connected via Ethernet. 12. Modular Jack (MJ1/MJ2) : Usable from system program Ver. 1.010, ×: Not usable at the same time Temp. V-I/O...
Page 49: Modular Jack
Barcode Reader Connection • It is possible to receive the signal from a barcode reader by connecting the barcode reader at the modular jack (MJ1/2) of the V7 series. • To connect a barcode reader to the modular jack (MJ1/2), use Hakko Electronics’ optional cable (V6-BCD).
Page 50: Not Used
13. 10BASE-T (LAN) The connector for 10BASE-T is provided as standard on V7i (high-performance). To connect Ethernet with V7 (standard), use the communication unit “CU-03.” If CU-03 is attached to V7i, it has priority over the built-in 10BASE-T; 10BASE-T cannot be used.
Page 51: Notes On Wiring
1-34 13. 10BASE-T (LAN) Notes on Wiring When using the LAN port, keep the LAN cable away from the power supply CAUTION cable as much as possible. UTP cable Straight Ethernet unit Distance between the node and the HUB: Maximum network nodes: Cable Connection Diagram Straight cable (with HUB) * Unshielded twist-pair cable...
Page 52: Recommended Cf Card
14. CF Card (CF) Recommended CF Card CF cards in compliance with CompactFlash recommended. Manufacturer TC032HS Kodak KPCN-32 SanDisk SDCFB-64-505 PCCF-H128MS I-O Data Device PCCF-xxxMS (xxx: 16, 32, 48, 64, 96, 128, 192) Mounting and Dismounting the CF Card 1. The CF card interface is provided on the side of the unit. - For V708/V708i: Side View 2.
Page 53: Notes On Handling The Cf Card
1-36 14. CF Card (CF) Notes on Handling the CF Card 1. Do not insert or remove the CF card during access. Doing so may destroy data on the CF card. The CF card can be inserted or removed safely when the Main Menu screen is displayed.
Page 54: Printer Connector (Printer)
15. Printer Connection (PRINTER) When the V7 series is connected to a printer, a screen hard copy, data sheet or sampling data can be printed. To connect a printer with parallel interface, insert the cable into the printer connector (PRINTER); to connect a printer with serial interface, insert the cable into a modular jack (MJ1/MJ2).
Page 55: Connection With Printer Through Serial Interface
1-38 15. Printer Connection (PRINTER) Connecting Cable • To connect the V7 series to a printer, use Hakko Electronics’ printer cable “V7-PT” 2.5 m for 20-pin parallel interface. V7 series POWER Compatible Printer Models Control code system: • NEC • EPSON •...
Page 56 Operation of V7 Main Menu Initial Screen Main Menu Screen I/O Test Card Menu Screen Ethernet SRAM/Clock Extension Program Information Extended Function Setting Function Switches Types [SYSTEM] Switch Errors Displayed on the V7 Series Communication Error Check Warning SYSTEM ERROR Touch Switch is Active...
Page 58: Initial Screen
1) Connect the personal computer with the card recorder and save screen data on the memory card. 2) Insert the CF card into the V7 unit or connect the card recorder and insert the memory card into the card recorder.
Page 59: Main Menu Screen
• Auto-uploading screen data from the CF card to the V7 unit 1) Transfer screen data from the computer to a CF card. 2) Turn the V7 unit off. Set the DIPSW1 on the V7 unit to the ON position, and insert the CF card.
Page 60 Appears when the option unit EU-01 is provided. For more information, refer to the instruction manual for the EU-01 option unit. I/O Test Checks the V7 interfaces and performs a touch switch test. (See page 2-4.) PLC I/F driver version and model...
Page 61: I/O Test
I/O Test When the [I/O Test] switch on the Main Menu screen is pressed, the following “I/O Test” screen appears. This screen is used to check that there is no problem with the V7 interfaces and touch switch operation. Performs a printer interface check.
Page 62: Self-Loop Test
• CTS/RTS Test Check the signals [CTS] and [RTS]. 1. Install a jumper between pins 4 (RTS) and 5 (CTS) of CN1 on the backside of the V7 unit. 2. Press the [RTS] switch and check that both [RTS] and [CTS] lamps light up at the same time.
Page 63 1. Install a jumper between pins 14 (+RTS) and 19 (+CTS) of CN1 and between pins 17 (−RTS) and 18 (−CTS) on the backside of the V7 unit. 2. Press the [RTS] switch and check that both [RTS] and [CTS] lamps light up at the same time.
Page 64 2. Press the [Self-Loop Test] switch. When the [OK] lamp lights up, the test is successfully completed. * If the [NG] lamp lights up, consult your local distributor. MJ1/2: RS-485 Signal Test If you would like to perform MJ1/2 RS-485 signal test, consult your local distributor. 1. Operation of V7 Main Menu...
Page 65: Print Check
2-3. SYSTEM & Function Switch Test Check operations of eight switches provided vertically on the right side of the V7 panel. Press the switch, and check that the lamp on the screen lights up while the switch is held down.
Page 66: Touch Switch Test
If a touch switch does not activate at all or if an operation is performed without pressing any touch switch, check that the touch switches on the V7 panel are working properly. 1. Press the [Switch Check] switch. Grids appear on the screen as shown below.
Page 67 2-10 1. Operation of V7 Main Menu Touch Switch Adjustment If a position different from the pressed position turns white on the touch switch test screen, follow the steps described below to adjust the touch switch position. 1. Hold down the [SYSTEM] switch and press the [F2] switch on the touch switch test screen.
Page 68: Card Menu Screen
Moves back to the Main Menu screen or the initial screen. 1. [CREC Menu] switch Press this switch when connecting the card recorder to the MJ port of the V7 series and transferring screen data between the V7 series and a memory card.
Page 69: Crec Menu Screen
When the [CREC Menu] switch on the “Card Menu” screen is pressed, the following “CREC Menu” screen appears. This screen is used to transfer screen data between the V7 series and a memory card. The procedure for transferring data is described below.
Page 70 In the “Transfer” field, select [Display <-- Card], [Display --> Card] or [Display <--> Card]. Press the desired switch to turn the switch on. Multiple switches can be pressed in the “Data Selection” field. Data selection 1. Operation of V7 Main Menu 2-13 Transfer selection...
Page 71 2-14 1. Operation of V7 Main Menu 5. Starting Data Transfer Press the [Start] switch. Data transfer is started. During data transfer, the [Start] switch changes into [Busy] and flashes. When data is transferred, the following message is displayed. Press the [OK] switch.
Page 72: Transferring Screen Data From A Cf Card
V7 series. DSPDEF (screen data auto upload folder) Folder Name Automatically reads screen data in this folder when the CF card is inserted in the V7 unit after the DIP switch is set. (Other folders are the same as access folders.) 1.
Page 73 The procedure of transferring data between the V7 series and a CF card is described below. 1. Mounting the CF Card Insert the CF card into the CF card connector at the side of the V7 unit. * Do not remove or insert the CF card in the later steps. 2. Data selection Select [Screen Data].
Page 74 • To see the details of the folder, press the [Folder Detail] switch. The “Folder Detail” screen is displayed. Scrolls with the [↑] / [↓] switch. 1. Operation of V7 Main Menu 2-17 Moves the cursor. Indicates the details of the folder.
Page 75 2-18 1. Operation of V7 Main Menu 4. Press the [Select Data] switch. The [Data Selection] window is displayed and the [Select Data] switch changes to [Start]. Select the desired data, and press the [Select Data] switch. To cancel the [Data Selection] window, press the [Return] switch.
Page 76 V7 series overwrites the CF card data. Note that the CF card data is lost when data in the V7 series overwrites. When the CF card file information is blank, a new file “DSP0000.BIN” is created in the DSP folder.
Page 77 2-20 1. Operation of V7 Main Menu When [Display <--> Card] is Selected: 1. When [Display <--> Card] is selected, the “Card Transfer” screen is displayed. Screen data used for comparison is that in the DSP folder under the folder having the same name as the access folder that is set by the V-SFT editor.
Page 78: Saving Backup Copies Of Sram
• When [Display --> Card] or [Display <--> Card] is selected, the following screen is displayed. Select the CF card folder having the same name as the access folder for screen data in the V7 series. The name is shown on the screen. The transferred file is named as “SRAM0000.BIN.”...
Page 79 2-22 1. Operation of V7 Main Menu • When [Display <-- Card] is selected, the following screen is displayed. Flashes during communication with the CF card. 1) To change another folder, press the [Select Folder] switch. (The folder name must be “SRAM0000.BIN.”) 2) The “Select Folder”...
Page 80: Messages During Data Transfer
A memory card is not inserted. Cannot write the data into a memory card because the data size in V7 is larger than the capacity of a memory card. Cannot write data into a memory card because the write protect switch in a memory card is ON.
Page 81: Ethernet
[Ethernet] switch on the Main Menu screen when transferring screen data to the V7 series. This screen is used for setting the IP address (a number that identifies the V7 series on the network) that is indispensable for Ethernet communications.
Page 82 • The network table is not set for screen data of the V7 series. • If the network table is set for screen data of the V7 series but you would like to use an IP address that is different from that set on the network table tentatively, press the [Use Network Table] switch to select [Not Use Network Table].
Page 83 2-26 1. Operation of V7 Main Menu Connection with CU-03 on V7 IP address, gateway and sub-mask settings Used for checking the 10BASE-T interface. Normal: Connect Error: Disconnect 1. Select either [10BASE-T] or [AUI] for the connecting method. 2. Set the IP address. (If necessary, set the default gateway and subnet mask.) 3.
Page 84: Sram/Clock
SRAM/Clock • To use the built-in clock of the V7 series or to use the SRAM memory or cassette, it is necessary to select [SRAM/Clock Setting] from the [System Setting] menu and make the SRAM/clock setting. For the setting procedure, refer to the Reference Manual.
Page 85: Extension Program Information
2-28 1. Operation of V7 Main Menu Date and Time Setting 1. Move the cursor using the [←] / [→] switch, and change the value by pressing the [+] / [−] switch. 2. When the desired date and time are set, press the [Set] switch to determine the setting.
Page 86: Extended Function Setting
* When the [Setting Finished] switch is pressed, an AT command is automatically sent to the modem and the baud rate used between the V7 series and the modem is set. 2. The Main Menu screen is displayed automatically, and “Modem Connect Mode” is displayed below the [Editor: MJ1] switch.
Page 87: Types
2-30 2. Function Switches Function Switches Types • There are eight function switches provided. [SYSTEM], [F1], [F2], [F3], [F4], [F5], [F6], [F7] [SYSTEM] Switch The [SYSTEM] switch works in “alternate” operations. When this switch is pressed once, the switch menu is displayed at the side of the function switches [F1] to [F5], and each function switch corresponds to the menu item displayed in the switch menu.
Page 88 • User-defined function switches [F1] to [F7] do not work in the STOP mode. • When the V7 series is in the RUN mode and the switch menu by the [SYSTEM] switch is not displayed, the function switches can be defined by the user.
Page 89: Communication Error
The check code in the PLC response was not correct. * If the above error messages are displayed on the V7 series without establishing communication between V7 and PLC, test the solution of remark “1.” If the error occurs suddenly in communication, test the solution of remark “2.”...
Page 90 Examine the CPU error code and solve the problem. Examine the connection between the PLC’s SD (TXD) and the V7’s RD (RXD). Check the type and range of memory that you set. Confirm whether or not the CPU that you are using can be used with the V Series.
Page 91 2-34 3. Errors Displayed on the V7 Series Error Messages for Network Communication • Ethernet Error Message Ethernet Error: XXXX The Ethernet status is saved at system memory address $s518 and a code other than “0” (normal) is received. XXXX: Error No.
Page 92 For monitor registration, refer to the user manual of the PLC you are using. Contents The setting for [Own Stat. No.] on V7 is discrepant with that for [Address] for [V7 series] on the SIMATIC Manager. Check and correct the setting.
Page 93: Check
Reference Manual and correct screen data. Contents At the start of communications, the V7 series regards the value in the read area “n + 2” as the screen number. Check that this value is an existing screen number on the PLC.
Page 94: System Error
2) Hardware problem 3) Bad program Touch Switch is Active If the power is turned off while a touch switch is activated, the following error screen is displayed. Remove your finger from the screen. 3. Errors Displayed on the V7 Series 2-37...
Page 95 2-38 3. Errors Displayed on the V7 Series...
Page 96 Serial Communications 1 : 1 Connection 1 : n Connection (Multi-drop) n : 1 Connection (Multi-link 2) n : 1 Connection (Multi-link) Universal Serial Communications V-Link PLC2Way Temperature Control Network...
Page 98: Connection
• One set of the V7 series is connected to one PLC (1 : 1 connection). V7 series • The host link unit of the PLC or the CPU port is used and the V7 series (master station) establishes communications according to the protocol of the PLC. Consequently, it is not necessary to have the dedicated communication program on the PLC (slave station).
Page 99: Wiring
• Connect the shielded cable either to the V7 series or PLC side. This connection diagram shows the case where the shielded cable is connected on the V7 series side. When connecting the shielded cable to the V7 series side, connect it to pin 1 of the connector or the connector case cover.
Page 100: V-Sft Setting
• Connect the shielded cable either to the V7 series or PLC side. This connection diagram shows the case where the shielded cable is connected on the V7 series side. When connecting the shielded cable to the V7 series side, connect it to pin 1 of the connector or the connector case cover.
Page 101 Normally use the default setting. - [Start Time] Set a time delay in seconds in starting communications on the V7 series to avoid a delay in PLC processing that may occur when the V7 series and the PLC are turned on at the same time.
Page 102 Refer to the next section “System Memory.” Read/Write Area GD-80 Compatible] When converting screen data files created on GD-80 into those of the V7 series, this option is automatically checked. When this option is checked, GD-80 compatibility is supported by securing 2 words each for [Read Area] and [Write Area] in the same format as GD-80.
Page 103: System Memory
1. 1 : 1 Connection System Memory [Read Area]/[Write Area] of the system memory must be secured for communications between the V7 series and the PLC. • Setting Position [System Setting] → [Comm. Parameter] → [Comm. Parameter] dialog • Setting Items...
Page 104 • SCRN_No. (n + 2) Screen number command 15 14 13 12 11 10 09 08 07 06 05 04 03 02 01 00 System reserved (setting [0]) Use example: To specify a screen number from the PLC: When “D0” is set for [Read Area], the screen number is written in “D2” of the PLC.
Page 105 This is an area where the screen status is written. Consecutive three words from the specified memory address are used as “write area.” * When you have converted GD-80 data to the V7 series data, the number of required memory addresses vary. Refer to the GD-80 User’s Manual.
Page 106: N Connection
For connecting information, refer to the instruction manual for the PLC. Example: The following example shows how one V7 series is connected to three PLCs made by MITSUBISHI. For more information, refer to the MITSUBISHI’s instruction manual for the PLC.
Page 107: Notes On Communication Errors
V7 series establishes communications with the PLC for the first time. A communication error occurs on the V7 series if a timeout is detected while accessing the PLC. The internal system memory is the one for the V7 series...
Page 108: N : 1 Connection (Multi-Link 2)
• One PLC is connected to a maximum of four V7 series. • An original network is created where the V7 series (Local Port 1) that is directly connected to the PLC is the master station, and other three V7 series are slave stations.
Page 109: Wiring
3-12 3. n : 1 Connection (Multi-link 2) • The V7 and V6 series can be used together. The V6 series can be the master station. (However, when V606/V606i is the master station, the slave station must be V606/V606i. Also, depending on the hardware version of the V6 series, multi-link 2 connection may not be supported.
Page 110 (ON) Terminating Resistance Setting • The terminating resistance of the V7 series should be set on the DIP switch. CF auto load • When the PLC and the master station are connected via RS-422/485, set the terminating resistance at the PLC and the master station (CN1).
Page 111: V-Sft Setting
For the V7 series slave station, set the items marked with ♦. [Local Port]♦ (1 to 4) Set the port number of the V7 series. For the V7 series master station, set “1.” For the V7 series slave station, set “2” to “4.” Set the unique port number for each V7 series.
Page 112: Communication Error
V7 series on the same communication line. * For [Total] and [Baud Rate of Multi-Link], the same values must be set on all the V7 series that are connected in the same communication line.
Page 113: N : 1 Connection (Multi-Link)
: 1 Connection (Multi-link) Multi-link • One PLC is connected to multiple V7 series. (Maximum connectable V series: 32) V7 series No. 1 • The PLC must be of the type of signal level RS422/RS485 with port numbers. RS422 connection between the V7 series ↔...
Page 114: Wiring
Wiring Connection with Link Unit Use the RS-485 2-wire connection. (It is recommended that Hakko Electronics’ optional terminal converter “TC485” be used.) • When TC485 is used: Set “2-wire connection” at the DIP switch (SW1) on TC485. When a jumper is required on the PLC: Shield Signal...
Page 115: V-Sft Setting
[Local Port] (1 to 32) Set the port number of the V7 series. Set the unique port number for each V7 series. If the number duplicates, communications will not be performed correctly. [Send Delay Time] (0 to 255) (Unit: ×1 msec) Set a time delay in sending the response to the PLC after receipt of data from the PLC.
Page 116 • When the setting value is large: It will take a longer time before restoration. Supplemental Information: [Retrials] in the [Detail] tab window of the [Comm. * For [Send Delay Time], [Total] and [Retry Cycle], the same values must be set on all the V7 series that are connected in the same communication line.
Page 117: Universal Serial Communications
If the screen is switched internally, the new screen number is read and is written to the internal memory address ($u) allocated for the screen. • For 1 : 1 connection, the V7 series can send an interrupt to the master station through switch activation, write command from the keypad, and screen change.
Page 118: V-Link
Dedicated commands • Use the MJ port of the V7 series for connection with a general-purpose computer. For connection with the PLC using a temperature controller or the PLC2Way function, use the other MJ port and use CN1 for communications with the PLC. Data of the PLC or temperature controller can be collected through communications with the V7 series.
Page 119: Wiring
Cable Use Hakko Electronics’ cable “V6-TMP” (3 m) for connection with a computer. The shielded frame ground of V6-TMP must be connected to the V7 series. * Notes on Use of V6-TMP There are six wires in the V6-TMP cable as shown on the right.
Page 120 RS-485 (V7 series: maximum 31 sets) RS-232C → Computer RS485 conversion Terminal block Terminal block Local Port 1 * 0.5 m recommended (1.0 m maximum) Wiring example of above (a) and (b) Signal Name Modular jack, 8-pin Signal Name Pin No.
Page 121: V-Sft Setting
Set a time delay in sending a response after receipt of data. [Parity] None/Odd/Even [Signal Level] RS-232C / RS-485 With RS-232C, one V7 series can be connected; with RS-485, a maximum of 31 V7 series can be connected. [Data Length] 7-bit/8-bit [Stop Bit]...
Page 122: Protocol
6. V-Link 3-25 Protocol Read (with sum check and CR/LF)
Page 123 3-26 6. V-Link Write (with sum check and CR/LF)
Page 124 Port numbers are used so that the host computer can identify each V7 series for access. The data range is from 01H to 1FH (1 to 31) and is converted into the ASCII code before use. The port number of the V7 series should be set on the V-SFT editor. (Refer to “V-SFT Setting.”) •...
Page 125 Enter “0” (= 30 in the ASCII code) for the number of bytes. The number of bytes for “system reserved” varies depending on the model. Example: Model V7 internal memory Type $u (user memory) $s (system memory) $L (non-volatile word memory) $LD (non-volatile double-word memory) Depends on the PLC to be used.
Page 126: Nak: Error Codes
Data is added up (SUM), and the lower one byte (8 bits) of the sum is converted into the 2-digit ASCII code (hexadecimal). A sum check code is shown below. Example: Transmission mode: without CR/LF, with sum check Command: Address: When reading, a sum check will be performed as shown below. V7 Port Read Memory Command number Words...
Page 127: Byte Character Code List
3-30 6. V-Link 1-byte Character Code List Upper Lower...
Page 128: Plc2Way
• With the PLC2Way function, it is possible to communicate with PLCs without special program in the same way as 1 : 1 connection. Two PLCs that are connected to the V7 series are controlled at the same time, and memory read/write operations are available with these two PLCs.
Page 129: Limitations On Connection At The Mj Port
RS-422 (4-wire) connection only cannot be connected directly. PLCs Compatible with PLC2Way Connection at MJ Port • When connecting the V7 series to the PLC at the MJ port using PLC2Way function, use the RS232C or RS-485 (RS-422) 2-wire connection. The PLC that allows RS-485 (RS-422) (4-wire) connection only cannot be connected directly.
Page 130: Wiring
Connecting method 1 (using MJ-D25) • To connect the PLC and the V7 series at the MJ port, use the Hakko Electronics’ MJ to D-sub conversion cable “MJ-D25” (0.3 m, metric thread) and the cable for 1 : 1 connection at CN1.
Page 131 * Use the shielded cable. Terminating Resistance Setting • The terminating resistance of the V7 series should be set on the DIP switch in the backside of the unit. • When MJ1 is used: Set DIPSW6 to the ON position.
Page 132: V-Sft Setting – System Setting
V-SFT Setting – System Setting PLC model selection and parameter setting to be made on the V-SFT editor for the PLC2Way connection at the MJ port are explained. Temp. CTRL/PLC2Way Setting Select the PLC model and make the parameter setting as described below. 1.
Page 133 3-36 7. PLC2Way 4. Select the PLC model to be connected at the MJ port. Click the [Setting] button. The [Type Setting] dialog is displayed. Select [PLC2Way]. The PLC manufacturer names who support PLC2Way communication are displayed. Click [+]. The available model names of the selected manufacturer are displayed.
Page 134 [Return Time] (×10 sec) When the PLC in the PLC2Way communication is turned off, data read from the PLC is temporarily prohibited. An inquiry for restoration is sent each time the specified return time has elapsed. The following options may be set depending on the PLC model. - MITSUBISHI: A series Link [Trans.
Page 135: V-Sft Setting – When The Temperature Control Network/Plc2Way Table Is Used:
1. Constant read from the PLC memory When the temperature control network/PLC2Way table is set, the data read from the PLC2 memory can be stored in the PLC memory or the V7 internal memory at regular intervals. 2. Data Sampling from the PLC Memory Connected at the MJ Port It is possible to link the temperature control network/PLC2Way table with the buffering area and perform sampling of data in the PLC memory that is connected at the MJ port.
Page 136 Temperature Control Network/PLC2Way Table 1. Starting Click [System Setting] → [Temp. CTRL/PLC2Way Setting] → [Temp. CTRL/PLC2Way Network Table]. ([Temp. CTRL/PLC2Way Network Table] becomes active only when the setting in the [Temp. Control/PLC2way Comm. Setting] dialog has been completed as described in the previous section.) The [Temp.
Page 137 3-40 7. PLC2Way Enter the desired comment and click [OK]. The entered comment is displayed at the top right corner. 4. Setting data in the table Click on a line in the table. The selected line turns blue. Click. Double-clicking brings up the default setting for the PLC2 memory, data type, etc. (1) Click.
Page 138 The code (numerical data format) for the PLC2 memory is fixed as mentioned above. (Refer to page 3-37.) Normally the V7 series handles numerical data as “DEC with signs.” For numerical data to be handled on the PLC connected to the MJ port, select [Word] or [Double Word] for [Data Type];...
Page 139 Choose the desired processing when the target medium space has been used up. - Continuous: When [Sampling Time] has been exceeded, data from the oldest - Stop: Stores data in the internal buffer of the V7 series. (RAM) Stores data in the SRAM area. (SRAM mounted on the unit, V7EM-S, REC-MCARD SRAM) Stores data in the CF card.
Page 140 • Calculating the buffering area capacity When [Internal Buffer] is selected for [Store Target] in the [Buffering Area Setting], the maximum available capacity is 32K words. When [Temp Control Net/PLC2] is selected for [Sampling Method], the required capacity can be calculated as shown below.
Page 141 For more information, refer to the Reference Manual (Function). Data Transfer from the PLC2 Memory Data in the PLC2 memory can be transferred to the PLC memory, V7 internal memory or a memory card at one time. Conversely, it is also possible to transfer data in the PLC memory, V7 internal memory or a memory card to the PLC2 memory at one time.
Page 142: Indirect Memory Designation
2. Memory card setting The memory card setting should be made when the memory card is used as the source or target memory for a macro command. 1) Click [System Setting] → [Memory Card Setting]. The [Memory Card] dialog is opened.
Page 143: User Log Read For Yokogawa's Plc
Month 0: Normal −1: Error Header Year Month 0: Normal −1: Error Return data: Data stored from PLC2Way → V7 series Indirect Memory Card Designation n + 7 n + 8 n + 9 n + 10 n + 11 −...
Page 144: Processing Cycle
(Fig. b), PLC data is read while the data is read from the PLC connected at the MJ port. Consequently, it is possible to communicate with the PLC connected at the MJ port without reducing the processing capacity between the V7 ↔ the PLC.
Page 145: Notes On Screen Data Transfer
V7 series together with screen data. When [ [Transfer] dialog, only the temperature control/PLC2 program can be transferred to the V7 series. When the Main Menu screen is displayed after transferring screen data, the [Extension] switch appears.
Page 146: System Memory
The status of the PLC connected at the MJ port for PLC2Way communications is output to the system memory ($s) of the V7 series. The memory addresses ($s730 to 763) of the PLC connected at the MJ port are explained.
Page 147 Error code An error occurs at the PLC connected at the received MJ port. Buffer full The V7 buffer is full. Parity An error occurred in parity check. Overrun After one character is received, the next character is received before internal processing is completed.
Page 148 PLC2 memory is being accessed using a macro command, the macro execution will be delayed (Fig. a). To avoid this, periodical reading can be suspended using memory address $s762 (Fig. b). (Fig. a) Execution of macro “a” V7 communication cycle Temperature control network/PLC2Way table periodical reading (Fig. b) Execution of macro “b”...
Page 149: Temperature Control Network
V7 internal buffer, SRAM or CF card. • Data transfer It is also possible to transfer data in the PLC memory, V7 internal memory or a memory card to the temperature controller at one time using a macro command. Conversely, data in the temperature controller can be transferred to the PLC memory, V7 internal memory or a memory card at one time.
Page 150 Network Communications Ethernet FL-net (OPCN-2) MELSECNET/10 CC-Link OPCN-1 T-LINK PROFIBUS-DP...
Page 152: Ethernet
Ethernet Ethernet • Transferring data in memory Data in memory can be transferred to the V7 series on the Ethernet or to the PLCs linked to the V7 series as a host by using macro commands (EREAD/EWRITE). ＜＞＜...
Page 153 1. Ethernet - Screen data can be transferred from the V-SFT editor on the server to the V7 series. • Communications between the Ethernet-ready PLC and the V7 series - The V7 series can communicate with the PLC on the Ethernet.
Page 154: Notes On Ethernet Communications
To enable Ethernet communications on the V7 series, it is necessary to set the IP address for identification of the V7 series on the network. The IP address should be set on the Main Menu screen of the V7 series. For more information, refer to “Chapter 2 MONITOUCH Operations.”...
Page 155 Indicates the status of the communication. Name Link status (for 10BASE-T only) 2. Port number setting switches Set the port number of V7 specified on the network table using the following rotary switches. Example: To set port No. 1: 3. Fuse This is the fuse for 12 VDC power supply.
Page 156: Wiring
Wiring 10BASE-T Connection • Cable connection diagram Ethernet unit Distance between the node and the HUB: 100 m maximum Maximum network nodes: Straight cable (with HUB) * Unshielded twist-pair cable • Notes on cables Use the following recommended cable. Recommended cable (10BASE-T) Type: Twist-pair cable, category 5 UTP cable UTP cable...
Page 157 1. Ethernet AUI Connection • 10BASE5 The following devices are required for 10BASE5 connection: - Coaxial cable for 10BASE5 - AUI cable - N-type connector - N-type terminator - Transceiver - Power supply for the transceiver: 12 VDC 1 segment (max. 500 m, max. 100 nodes) AUI cable (max 50 m) Ethernet...
Page 158 • Transceiver 1 segment (max. 185 m, max. 30 nodes) Minimum node interval AUI cable 0.5 m (max. 50 m) Ethernet unit Maximum segments: Maximum network distance: 925 m Maximum network nodes: 100 sets *1 The unit may have a built-in transceiver. Refer to the instruction manual for the unit.
Page 159: Transferring Screen Data
Reference Manual (Operation). Prerequisites When screen data is to be transferred for the first time via Ethernet or when the V7 series has been replaced due to trouble, the server cannot transfer screen data because the network table has not been transferred to the V7 series. In this case, the following setting...
Page 160 3. Press the [Detail Setting] switch. The [IP Address Setting] dialog is displayed. 4. Enter the IP address of the V7 series to which the screen data is to be transferred. When a list is shown, select the IP address of the V7 series, and click the [<<] switch.
Page 161: V-Sft Setting (Plc Type/Communication Parameter)
5. Check the IP address, and click [PC->]. 6. Data transfer is started. V-SFT Setting (PLC Type/Communication Parameter) To enable Ethernet communications on the V7 series, the following setting is required on the V-SFT editor. • PLC type setting • Communication parameter setting •...
Page 162 - The memory use is the same as the one for 1 : 1 connection. (Refer to “Chapter 5 Connection to PLCs.” * The data code of the V7 series is fixed to the binary code. Be sure to set the binary code for the data code on the PLC.
Page 163 4-12 1. Ethernet 2. Communication parameter setting • Select [System Setting] → [Comm. Parameter]. Set the PLC to the V7 series which is connected. When the network table is not set: Network table No. 0 is displayed. It is not possible to select an option for [Connect To].
Page 164 1. Ethernet 4-13 • When communicating with multiple PLCs (same model) on the Ethernet, select [1 : n] for [Connection] on the [Detail] tab window. Set the port number (network table number) of the PLC in the [Memory Input] dialog for each part.
Page 165: V-Sft Setting (Network Table Editing)
V-SFT editor. Network Table • The V7 series, PLCs and PCs on the Ethernet must be registered on the network table. In the case of the network illustrated below, the nodes with (∗) should be registered on the network table.
Page 166 Exports a network table as a file “∗.ntb.” • [Edit] menu - Use Monitor Registration Only one V7 series can be registered as the monitor for Ethernet communications. A mark is shown on the left of the network table number. - Cancel Monitor Registration Click this menu when canceling monitor registration.
Page 167 Double-click the number. The [Set Network Table No. *] dialog is displayed. [Host Name] Set the name for the V7 series, etc. to be used on the Ethernet. [IP Address] Set the IP address. * When registering Ethernet-ready PLC, set the same IP address as that of the PLC.
Page 168 11000000 10000000 00000001 00110010 [Send Timeout] Set the time-out time for the V7 series to send a command on the Ethernet. [Port No.] (2049 to 65535) (Default: 10000) Set the port number. The port number may be fixed depending on the PLC model.
Page 169 4-18 1. Ethernet Subnet Mask A subnet mask is used for dividing one network address into multiple networks (subnet). The subnet is assigned by specifying a part of the host address in the IP address as a subnet address. Class B Subnet mask Network address (14) Host address (16)
Page 170: V-Sft Setting (Macro)
Ethernet. For more information on macro commands, refer to the Reference Manual (Function). Macro Command [EREAD] Words from the F1 memory in the V7 series of the network table number specified for F3 are read into the F0 memory. F2 designates the number of words to be read. Internal Memory...
Page 171 4-20 1. Ethernet [EWRITE] Words from the F2 memory are written into the F0 memory in the V7 series of the network table number specified for F1. F3 designates the number of words to be written. Internal Memory EWRITE: Write to memory...
Page 172 Send to server SEND F0 C: F1 TO: F2 Example: Macro command at the V7 (B) The macro command for V7 (B) to transfer data to server (A) is shown below. [Description] SEND $u100 C: 2 Top memory address of the source...
Page 173: System Memory
1. Ethernet System Memory The Ethernet status is output to the system memory ($s) of the V7 series. This section explains the memory addresses ($s514 to 619) where the Ethernet status is output. For other memory addresses, refer to the Reference Manual (Function).
Page 174 Address $s549 Network table 29 status Network table 30 status Network table 31 status Network table 32 status Network table 33 status Network table 34 status Network table 35 status Network table 36 status Network table 37 status Network table 38 status Network table 39 status Network table 40 status Network table 41 status...
Page 175 4-24 1. Ethernet Address $s593 Network table 73 status Network table 74 status Network table 75 status Network table 76 status Network table 77 status Network table 78 status Network table 79 status Network table 80 status Network table 81 status Network table 82 status Network table 83 status Network table 84 status...
Page 176 Addresses • $s514, 515 These addresses are related to macro commands [SEND], [EREAD] and [EWRITE]. $s514: Sets the executing status of the macro. In the case of “0,” the next step of the macro is executed without waiting for the completion of the command when a command request is given to the Ethernet.
Page 177: Ethernet Access Functions (Hketn10.Dll)
4-26 1. Ethernet Ethernet Access Functions (HKEtn10.DLL) To enable Ethernet communications between the server and the V7 series, it is necessary to create an application based on HKEtn10.dll (for UDP/IP) provided by us, using Visual C++, Visual Basic, etc. Sample Folder The “Sample”...
Page 178: Byte
• Notes on use of the sample programs The data type to be set when creating a program varies depending on whether Visual C++ or Visual Basic is used. For the data type and range, refer to the following tables. Visual C++ BYTE Byte...
Page 179: Int
HKEtn_WriteCardBitMemory(int FileNo,int RecordNo,DWORD addr,int memory Bit BitNo,int OnFlag,char *lpAddr) • Others int HKEtn_Init(unsigned short Port=10000,int Retry=3,int Initialization function RecvTime=2,int RecvTime2=10) Receive wait from V7 int HKEtn_Recvfrom(BYTE *dp,short *lpCnt) Cancel receive wait function void HKEtn_Cancel(void) Request connection int HKEtn_GetInf(struct inf *lpinf,char *lpAddr) information...
Page 180 Read Read Words from PLC Memory int HKEtn_ReadPlcMemory(WORD *dp,unsigned short Wordcnt,int DeviceType,DWORD addr,char *lpAddr, int DFlag=1) This function is retained until PLC data is transferred from the V7 series. • Parameters Target pointer of the data to be read Wordcnt Word count to be read (max.
Page 181 1. Ethernet Read Double-words from PLC Memory int HKEtn_ReadPlcMemory2(DWORD *dp,unsigned short Wordcnt,int DeviceType,DWORD addr,char *lpAddr, int DFlag=1) This function is retained until PLC data is transferred from the V7 series. • Parameters Target pointer of the data to be read Wordcnt Word count to be read (max.
Page 182 Read Words from Internal Memory int HKEtn_ReadInternalMemory(WORD *dp,unsigned short Wordcnt,int DeviceType,DWORD addr,char *lpAddr,int DFlag=1) This function is retained until data is transferred from the V7 series. • Parameters Target block pointer Contents No. 1 No. 2 • • • No. n Wordcnt Word count to be transferred (max.
Page 183 1. Ethernet Read Words from Memory Card Memory int HKEtn_ReadCardMemory(WORD *dp,unsigned short Wordcnt,int FileNo,int RecordNo,DWORD addr,char *lpAddr,int DFlag=1) This function is retained until data is transferred from the V7 series. • Parameters Target block pointer Wordcnt Word count to be transferred (max. 2000 words)
Page 184 Read Bits from PLC Memory int HKEtn_ReadPlcBitMemory(int *lpOnFlag,int DeviceType,DWORD addr,int BitNo,char *lpAddr) This function is retained until PLC data is transferred from the V7 series. • Parameters *IpOnFlag Returns the bit status. DeviceType Address of the device to be read (Refer to “Chapter 5 Connection to PLCs.”)
Page 185: Ethernet
4-34 1. Ethernet Read Bits from Memory Card Memory int HKEtn_ReadCardBitMemory(int *lpOnFlag,int FileNo,int RecordNo,DWORD addr,int BitNo,char *lpAddr) This function is retained until data is transferred from the V7 series. • Parameters *IpOnFlag Returns the bit status. FileNo File number RecordNo...
Page 186 Write Words to PLC Memory int HKEtn_WritePlcMemory(WORD *sp,unsigned short Wordcnt,int DeviceType,DWORD addr,char *lpAddr, int DFlag=1) This function is retained until write completion is received from the V7 series. (It is reset on receipt of write completion to the PLC memory.) • Parameters...
Page 187 Write Double-words to PLC Memory int HKEtn_WritePlcMemory2(DWORD *sp,unsigned short Wordcnt,int DeviceType,DWORD addr,char *lpAddr, int DFlag=1) This function is retained until write completion is received from the V7 series. (It is reset on receipt of write completion to the PLC memory.) • Parameters...
Page 188 Write Words to Internal Memory int HKEtn_WriteInternalMemory(WORD *sp,unsigned short Wordcnt,int DeviceType,DWORD addr,chr *lpAddr,int DFlag=1) This function is retained until write completion is received from the V7 series. (It is reset on receipt of write completion to the internal memory.) • Parameters...
Page 189 Write Words to Memory Card Memory int HKEtn_WriteCardMemory(WORD *sp,unsigned short Wordcnt,int FileNo,int RecordNo,DWORD addr,char *lpAddr,int DFlag=1) This function is retained until write completion is received from the V7 series. (It is reset on receipt of write completion to the memory card memory.) • Parameters...
Page 190 Write Bits to PLC Memory int HKEtn_WritePlcBitMemory(int DeviceType,DWORD addr,int BitNo,int OnFlag,char *lpAddr) This function is retained until write completion is received from the V7 series. (It is reset on receipt of write completion to the PLC memory.) • Parameters DeviceType Address of the device to be written (Refer to “Chapter 5 Connection...
Page 191 Write Bits to Internal Memory int HKEtn_WriteInternalBitMemory(int DeviceType,DWORD addr,int BitNo,int OnFlag,char *lpAddr) This function is retained until write completion is received from the V7 series. (It is reset on receipt of write completion to the internal memory.) • Parameters DeviceType...
Page 192: Others Functions
Receive Wait from V7 int HKEtn_Recvfrom(BYTE *dp,short *lpCnt) This function is retained internally until data is received from the V7 series. The function returns a response and ends only when a command is received. The user should interpret the received data and create the next action. This function must be executed within the thread.
Page 193 4-42 1. Ethernet Request Connection Information int HKEtn_GetInf(struct inf *lpinf,char *lpAddr) • Parameters *Ipinf All “0” *lpAddr IP address shown as a string of characters separated by dots Example: “192.168.XXX.XXX” • Return values Success TRUE Failure FALSE Error details Get using HKEtn_GetLastError (). Close processing int HKEtn_Close() Execute this function when ending HKEtn10.dll.
Page 194 Get Error Contents int HKEtn_GetLastError() • Error codes and solutions Code Contents −1 Undefined command (receive timeout) −2 Undefined IP address −3 Target station busy −4 Illegal packet bytes −5 Packet bytes exceed the maximum number. −6 Local mode error −7 Preparing for communications −8...
Page 195: Server Communication Procedure
Data Request from V7 to Server (1) Execute the receive wait thread using “int HKEtn_RecvFrom()” on the application of the server. (2) Send the command from the V7 series to the server using macro command SEND. (3) The server analyzes the command and takes the appropriate action.
Page 196: Error Display
Error Display Error messages displayed on the V7 series and those stored in the system memory are explained. Communication Errors The Ethernet status is stored in system memory address $s518 of the V7 series during Ethernet communications. The communication error occurs when a code other than “0”...
Page 197 Connection cannot be established. Check the communication lines, or turn the power off and on. TCP communication disconnection has failed. Check that the communication partner with the V7 series is present on the line. TCP sending has failed. Check the communication lines.
Page 198 Macro setting error 1. Ethernet Solution Refer to “Communication Errors.” Check if an error is occurring to the target V7. Check the number of words that can be sent in macro editing. Check the setting on the network table. Check the macro command in macro editing.
Page 199: Fl-Net (Opcn-2)
Devices • To use FL-net (OPCN-2) communications on the V7 series, the communication interface unit “CU-03” must be mounted. When the V7 series is equipped with the communication interface unit CU-03, it becomes an FL-net (OPCN-2)-ready device. • When CU-03 is mounted for FL-net (OPCN-2) communications on V7i, the 10BASE-T connector (LAN) provided on the unit cannot be used.
Page 200: Melsecnet/10
Normal station (1Ns4) • For communications with the PLC, no program is required in the same way as communications via a link unit. • The V7 series supports the optical loop system of NET/10. Use fiber-optic cables for connection. 3. MELSECNET/10 Normal station (1Ns2) MELSECNET/10 Network No.
Page 201 4-50 3. MELSECNET/10 • This network system supports cyclic transmission and enables direct reading from link devices (LB, LW, LX or LY). Also it is possible to directly write data to link devices that are assigned by the control station. Control station (1Mp1) Normal station (1Ns2) Link device...
Page 202: Cc-Link
CC-Link CC-Link • CC-Link is the network that is developed by MITSUBISHI Electric Corporation. The V7 series works as a local station (intelligent device station). • To use CC-Link communications on the V7 series, the communication interface unit “CU-02” must be mounted. When the V7 series is equipped with the communication interface unit CU-02, it becomes a CC-Link-ready device.
Page 203: Opcn-1
5. OPCN-1 OPCN-1 OPCN-1 • To use OPCN-1 communications on the V7 series, the communication interface unit “CU-00” must be mounted. When the V7 series is equipped with the communication interface unit CU-00, it becomes an OPCN-1-ready device. • The V7 series that supports OPCN-1 communications is a programmable display that can perform data transfer with the master station (PLC, etc.) in compliance with...
Page 204: T-Link
FUJI ELECTRIC’s PLC MICREX-F series. • The V7 series updates the display when the read data (V7 series ← PLC) is changed. The V7 series reads data from the PLC memory addresses that are allocated to the items placed on the screen, such as lamp parts or counter parts.
Page 205: Profibus-Dp
Master Slave The V7 series can work as a slave station on PROFIBUS-DP. A maximum of 12 Mbps is available (automatically set to the BUS baud rate). The signal level is RS-485. * The V7 series can only communicate with the master PLC.
Page 206 Connection to PLCs MITSUBISHI PLC* OMRON PLC* SHARP PLC* HITACHI PLC MATSUSHITA PLC YOKOGAWA PLC* YASKAWA PLC Toyopuc PLC FUJI PLC* 10. KOYO PLC 11. Allen-Bradley PLC 12. GE Fanuc PLC 13. TOSHIBA PLC 14. TOSHIBA MACHINE PLC 15. SIEMENS PLC 16.
Page 208: Mitsubishi Plc
MITSUBISHI PLC Available PLCs A Series Link, QnA Series Link, QnH (Q) Series Link, A Link + Net10 Select PLC Type A2A, A3A A2U, A3U, A4U A1, A2, A3 A1N, A2N, A3N A3H, A3M, A73 A series link A0J2, A0J2H A2US A1S, A1SJ, A2S A2CCPUC24...
Page 209 1. MITSUBISHI PLC A Series CPU, QnA Series CPU, QnH Series CPU Select PLC Type A2A, A3A A2U, A3U, A4U A2US(H) A1N, A2N, A3N A3V, A73 A series CPU A3H, A3M A0J2H A1S(H), A1SJ(H), A2S(H) A2CCPUC24 A1FX Q2A, Q3A, Q4A QnA series CPU Q2AS(H) QnH (A) series CPU Q06H-A...
Page 210 FX Series Select PLC Type FX1/2 FX series CPU FX0N FX2N/1N FX2N series CPU FX2NC FX1S series CPU FX1S FX2N FX1N FX series link FX1S (A Protocol) FX0N FX2NC *1 For more information of V-MDD (dual port interface), refer to page 5-17. 1.
Page 211: Communication Setting
*1 Trans. Mode 1: without CR/LF, Trans. Mode 4: with CR/LF If [Trans. Mode 4] is selected for [Trans. Mode] in the [Comm. Parameter] dialog of the V7 series, select [MODE4] in the case of RS-232C, or [MODE8] in the case of RS-422.
Page 212 QnH (A) Series CPU, QnH(Q) Series CPU Communication parameters for the V7 series except the baud rate are automatically set. * The maximum baud rate available with the V7 series is 115200 bps. Select the appropriate baud rate depending on the used PLC and environment.
Page 213: A Series Link, Qna Series Link: Switch Setting
1. MITSUBISHI PLC A Series Link, QnA Series Link: Switch Setting The following is an example that shows the settings for both rotary DIP switches and DIP switches on the PLC. AJ71UC24 Example 1 Signal level: RS-232C, baud rate: 19200 bps, transmission mode 1 ´...
Page 214 1. MITSUBISHI PLC A1SJ71UC24-R4, A1SJ71C24-R4 Example 4 Signal level: RS-422, baud rate: 19200 bps, transmission mode 1 ´ ´...
Page 215: Available Memory
1. MITSUBISHI PLC Available Memory The available memory setting range varies depending on the PLC model. Be sure to set within the range available with the PLC to be used. Use [TYPE] when assigning the indirect memory for macro programs. A Series Link, QnA Series Link, QnH (Q) Series Link, A Series CPU, QnA Series CPU, QnH (A) Series CPU, QnH (Q) Series CPU, A Link + Net10...
Page 216 FX Series, FX1S Series Memory (data register) (timer/current value) (counter/current value) 32CN (counter 32 bits) (internal relay) (state) (input relay) (output relay) (timer/contact) (counter/contact) (data register) *1 For numerical data format where double-words can be used (Num. Data Display, Graph, Sampling), data is processed as double-words.
Page 217 5-10 1. MITSUBISHI PLC FX Series (A Protocol) Memory (data register) (timer/current value) (counter/current value) 32CN (counter 32 bits) (internal relay) (state) (input relay) (output relay) (timer/contact) (counter/contact) *1 CN200 to CN255 equals 32CN (32-bit counter). *2 For numerical data format where double-words can be used (Num. Data Display, Graph, Sampling), data is processed as double-words.
Page 218: Wiring
Wiring Wiring diagrams with the PLC are shown below. RS-232C Wiring Diagram 1 D-sub 25-pin (male) Wiring Diagram 2 D-sub 25-pin (male) 1. MITSUBISHI PLC D-sub 9-pin (male) * Use shielded twist-pair cables. D-sub 25-pin (male) * Use shielded twist-pair cables. 5-11...
Page 219: Wiring Diagram
5-12 1. MITSUBISHI PLC Wiring Diagram 3 D-sub 25-pin (male) Wiring Diagram 4 D-sub 25-pin (male) RS-422 Wiring Diagram 5 D-sub 25-pin (male) * Use shielded twist-pair cables. * Use shielded twist-pair cables. * Use shielded twist-pair cables. D-sub 9-pin (female) D-sub 25-pin (male)
Page 220 Wiring Diagram 6 D-sub 25-pin (male) * Use shielded twist-pair cables. Wiring Diagram 7 D-sub 25-pin (male) * Use shielded twist-pair cables. 1. MITSUBISHI PLC 5-13 D-sub 25-pin (male) D-sub 25-pin (male)
Page 221 650 to 900 V and aids in preventing communication errors. • When connecting to the A/QnA series CPU directly, attach a ferrite core to the communication cable between the V7 series and A/QnA series CPU to avoid noise problems. V7 series •...
Page 222 • When the V7 series has access to the CPU on NET II (/B) or NET/10: - With NET II (/B), the V7 series can only have access to CPUs in the network of the CPU equipped with the standard type link unit that is connected to the V7 series.
Page 223 5-16 1. MITSUBISHI PLC • To have access to the PLC in the other network on NET/10, specify the network number in the OPEN macro for the screen on the V-SFT editor. This macro command should be [OUT_ENQ] of system call [SYS]. It is not possible to have access to the CPU on the different network from the same screen.
Page 224: V-Mdd (Dual Port Interface)
• Keep the cable between the CPU and V-MDD as short as possible. (Max. 1 to 1.5 m) • Be sure to consider noise problems when performing wiring. • When V-MDD is used for connection with the V7 series, set 1.5 seconds or above for the timeout time in the [Comm. Parameter] dialog.
Page 225: Ladder Transfer Function
• RS232C cable between the computer and the PLC that is used for monitoring data in the PLC or writing ladder programs: MITSUBISHI’s QC30R2 • The cable between the V7 series and the PLC that is used for communications with the V7 series: Hakko Electronics’ QCPU2...
Page 226 Connection • Use Hakko Electronics’ QCPU2 cable when connecting the V7 series (CN1) to the PLC (RS-232C port). • Use Hakko Electronics’ V6-CP cable when connecting the computer (PLC programming software) and the V7 series (MJ1/2). Computer (PC) • When using the V-SFT editor and the PLC programming software:...
Page 227 Jack 2] in the [Modular Jack] dialog. Communications with V-SFT editor (for screen data transfer) * On-line editing between the V-SFT editor and the V7 series is not possible. If attempted, communications between the PLC programming software and the PLC will not be performed correctly.
Page 228 The baud rate set on the PLC programming software is automatically selected when communications (monitoring, etc.) are performed. When the V7 series is turned off and back on, the setting for [Baud Rate] in the [Comm. Parameter] dialog becomes valid again.
Page 229: Omron Plc
5-22 2. OMRON PLC OMRON PLC Available PLCs Select PLC Type C20H,C28H,C40H C120, C120F C200H C500, C500F C1000H C2000, C2000H C200H C200HS-CPU01, 03 C200HS-CPU21, 23 C200HS-CPU31, 33 C200HS-CPU21, 23 C200HS-CPU31, 33 CQM1-CPU21 CQM1-CPU41, 42, 43, 44 C500, C500F C1000H C2000, C2000H SYSMAC C C200HX C200HG...
Page 230 Select PLC Type CV500, CV1000 SYSMAC CV CV2000 CVM1 SYSMAC CS1 SYSMAC CS1 *1 Replace the shell on the D-sub 25-pin side before use. (Recommended part: DDK’s 17J-25) *2 For SYSMAC CS1 DNA, refer to page 5-29. Unit/Port Connection CPU unit with built-in RS-232C [Wiring Diagram 2] port RS-422...
Page 231: Communication Setting
5-24 2. OMRON PLC Communication Setting The recommended communication parameter settings of the PLC and the V7 series is as follows: Item Baud rate* Port Parity Data length Transmission code Stop bit Command level Protocol Synchronizing switch CTS switch 5 V supply switch Terminating resistance * The maximum baud rate available with the V7 series is 115200 bps.
Page 232: Available Memory
Available Memory The available memory setting range varies depending on the PLC model. Be sure to set within the range available with the PLC to be used. Use [TYPE] when assigning the indirect memory for macro programs. SYSMAC C Memory (data memory) (input/output relay) (holding relay)
Page 233: Wiring
5-26 2. OMRON PLC *1 When using EMn (extended data memory), specify the bank number (CV: 0 to 7, CS1: 0 to C). The assigned memory is indicated when editing the screen as shown on the right. Wiring Wiring diagrams with the PLC are shown below. RS-232C Wiring Diagram 1 D-sub 25-pin (male)
Page 234 Wiring Diagram 3 D-sub 25-pin (male) * Use shielded twist-pair cables. RS-422 Wiring Diagram 4 D-sub 25-pin (male) * Use shielded twist-pair cables. Wiring Diagram 5 D-sub 25-pin (male) * Use shielded twist-pair cables. 2. OMRON PLC 5-27 D-sub 25-pin (male) D-sub 9-pin (male) D-sub 9-pin (male)
Page 235 5-28 2. OMRON PLC Wiring Diagram 6 D-sub 25-pin (male) Wiring Diagram 7 D-sub 25-pin (male) * Use shielded twist-pair cables. * Use shielded twist-pair cables. D-sub 9-pin (male) D-sub 9-pin (male)
Page 236: Sysmac Cs1 Dna
SYSMAC CS1 DNA When connecting the V7 series to CS1 on a network (Controller Link), the V7 series can also access another CS1 on the network. Network No. 1 V7 series V-SFT Setting • Select [System Setting] → [Comm. Parameter] → [Detail] tab, and select [1 : n] for [Connection].
Page 237: Sharp Plc
JW70CU/JW100CU COM port JW70CUH, JW100CUH JW22CU JW20 COM port JW-32CUH JW-33CUH Communication Setting The recommended communication parameter settings of the PLC and the V7 series is as follows: Item Baud rate Port Parity RS-422 Data length Stop bit Error check...
Page 238: Jw Series: Link Unit Switch Setting
SW3-1 SW3-2 SW3-3 SW3-4 JW100/70H COM Port, JW20 COM Port: System Memory Setting The settings for communications with the V7 series should be made at the system memory as shown below. • JW-70CU/100CU, JW70CUH/100CUH, JW22CU System Memory Setting #236 #237 •...
Page 239: Available Memory
5-32 3. SHARP PLC Available Memory The available memory setting range varies depending on the PLC model. Be sure to set within the range available with the PLC to be used. Use [TYPE] when assigning the indirect memory for macro programs.
Page 240: Wiring
Wiring Wiring diagrams with the PLC are shown below. RS-232C Wiring Diagram 1 D-sub 25-pin (male) Wiring Diagram 2 D-sub 25-pin (male) 3. SHARP PLC D-sub 15-pin (male) * Use shielded twist-pair cables. D-sub 15-pin (male) * Use shielded twist-pair cables. 5-33...
Page 241 5-34 3. SHARP PLC RS-422 Wiring Diagram 3 D-sub 25-pin (male) Wiring Diagram 4 D-sub 25-pin (male) Wiring Diagram 5 D-sub 25-pin (male) * Use shielded twist-pair cables. * Use shielded twist-pair cables. * Use shielded twist-pair cables. D-sub 15-pin (male) D-sub 15-pin (male)
Page 242: Hitachi Plc
*1 When using the HITACHI’s EH-RS05 or CNCOM-05 cable, connect the cable shown in [Wiring Diagram 1] to the D-sub 15-pin side for communications with the V7 series. *2 Specify the absolute memory address. For more information, refer to the instruction manual for the PLC.
Page 243: Communication Setting
5-36 4. HITACHI PLC Communication Setting The recommended communication parameter settings of the PLC and the V7 series is as follows: COMM-2H Item Baud rate Port Parity RS-232C Transmission mode RS-422 Data length Transmission code Stop bit Sumcheck If the transmission mode is any type other than listed the above, set the mode as shown below.
Page 244: Hidic-H: Switch Setting
To connect to both RS-232C and RS-422, set MODE switch to 9. RS-232C (protocol 2 without port) RS-422 (protocol 2 with port) “0” for both ×10, ×1 Contents Bit length Same as that set on V7 (normally 19200 bps) With parity Even Stop bit 1 With sumcheck...
Page 245 5-38 4. HITACHI PLC HIDIC-S10/2α Memory (work register) (input relay) (output relay) (internal relay) (global link) (keep relay) (on-delay timer contact) (one-shot timer contact) (up/down counter contact) (on-delay timer set value) (on-delay timer elapsed value) (one-short timer set value) (one-shot timer elapsed value) (up/down counter set value) (up/down counter elapsed value) (data register)
Page 246: Wiring
Wiring Wiring diagrams with the PLC are shown below. RS-232C Wiring Diagram 1 D-sub 25-pin (male) Wiring Diagram 2 D-sub 25-pin (male) 4. HITACHI PLC D-sub 15-pin (male) * Use shielded twist-pair cables. D-sub 9-pin (female) * Use shielded twist-pair cables. 5-39...
Page 247 5-40 4. HITACHI PLC Wiring Diagram 3 D-sub 25-pin (male) D-sub 9-pin (female) * Use shielded twist-pair cables. RS-422 Wiring Diagram 4 D-sub 25-pin (male) * Use shielded twist-pair cables. Wiring Diagram 5 When connecting to the S10xα series, add a resistor of 50 Ω (1/2 W) as shown below. D-sub 25-pin (male) ...
Page 248: Matsushita Plc
MATSUSHITA PLC Available PLCs Select PLC Type FP10 MEWNET FP10S Communication Setting The recommended communication parameter settings of the PLC and the V7 series is as follows: Item Baud rate Port Parity Data bit Transmission code Stop bit Transmission mode...
Page 249: Mewnet: Link Unit Switch Setting
(internal relay) (link relay) (link register) (file register) (timer/counter set value) (timer/counter elapsed time) (timer/contact) (counter/contact) Same as that set on V7 (normally 19200 bps) Data length: 7 bits With parity Even Stop bit 1 CS, CD invalid TYPE Contents...
Page 250: Wiring
Wiring Wiring diagrams with the PLC are shown below. RS-232C Wiring Diagram 1 D-sub 25-pin (male) Wiring Diagram 2 D-sub 25-pin (male) Wiring Diagram 3 D-sub 25-pin (male) 5. MATSUSHITA PLC D-sub 9-pin (male) * Use shielded twist-pair cables. D-sub 9-pin (male) * Use shielded twist-pair cables.
Page 251 5-44 5. MATSUSHITA PLC RS-422 Wiring Diagram 4 D-sub 25-pin (male) * Use shielded twist-pair cables.
Page 252: Yokogawa Plc
YOKOGAWA PLC Available PLCs Select PLC Type FA500 FA500 FA-M3 FA-M3 FA-M3R FA-M3 R *1 The CPUs that can be connected directly to the programming tool port on the CPU module are “F3SP21-0N,” “F3SP25-2N,” “F3SP35-5N,” “F3SP28-3N,” “F3SP38-6N,” “F3SP53-4H” and “F3SP58-6H.” *2 When the link unit “F3LC01-1N”...
Page 253: Communication Setting
*2 When directing connecting to the programming tool port on the CPU module, the data length is fixed to “8.” Select [8-bit] for [Data Length] in the [comm. Parameter] dialog of the V7 series. Also, set “CPU Communication Port” of “Configuration” in the ladder creation tool as below.
Page 254: Available Memory
Available Memory The available memory setting range varies depending on the PLC model. Be sure to set within the range available with the PLC to be used. Use [TYPE] when assigning the indirect memory for macro programs. FA500 Memory (data register) (common register) (timer/current value) (timer/set value)
Page 255: Wiring
5-48 6. YOKOGAWA PLC Wiring Wiring diagrams with the PLC are shown below. RS-232C Wiring Diagram 1 D-sub 25-pin (male) Wiring Diagram 2 D-sub 25-pin (male) * Use shielded twist-pair cables. * Use shielded twist-pair cables. D-sub 25-pin (male) D-sub 9-pin (male)
Page 256 6. YOKOGAWA PLC 5-49 RS-422 Wiring Diagram 3 D-sub 25-pin (male) * Use shielded twist-pair cables.
Page 257: Yaskawa Plc
PROGIC-8 CP9200SH CP9200SH/MP900 MP920 MP930 * Other PLCs can also be connected with Memobus. Communication Setting The recommended communication parameter settings of the PLC and the V7 series is as follows: Memobus Item Baud rate Port Parity Data length Transmission code...
Page 258: Available Memory
(coil) (input relay) When setting the MB/IB memory, set the bit numbers in the hexadecimal notation. MBxxxxx Bit No.: HEX 7. YASKAWA PLC Setting on PLC V7 Comm. Parameter Setting 19200 bps Even CRC (fixed) 0 (fixed) TYPE Remarks Including constant register, read only...
Page 259: Wiring
5-52 7. YASKAWA PLC Wiring Wiring diagrams with the PLC are shown below. RS-232C Wiring Diagram 1 D-sub 25-pin (male) Wiring Diagram 2 D-sub 25-pin (male) * Use shielded twist-pair cables. D-sub 15-pin (male) * Use shielded twist-pair cables. D-sub 9-pin (male)
Page 260 Wiring Diagram 3 D-sub 25-pin (male) * Use shielded twist-pair cables. Wiring Diagram 4 D-sub 25-pin (male) * Use shielded twist-pair cables. RS-422 Wiring Diagram 5 D-sub 25-pin (male) 7. YASKAWA PLC D-sub 9-pin (male) D-sub 25-pin (male) D-sub 9-pin (male) * Use shielded twist-pair cables.
Page 261 5-54 7. YASKAWA PLC Wiring Diagram 6 D-sub 25-pin (male) Wiring Diagram 7 D-sub 25-pin (male) Wiring Diagram 8 D-sub 25-pin (male) D-sub 9-pin (male) * Use shielded twist-pair cables. * Use shielded twist-pair cables. * Use shielded twist-pair cables. MR-8 (male) MR-8 (male)
Page 262: Available Plcs
Toyopuc PLC Available PLCs Select PLC Type L2/PC2 series TOYOPUC PC3J Communication Setting The recommended communication parameter settings of the PLC and the V7 series is as follows: Item Baud rate Port Parity Data length Transmission code Stop bit Set [Trans. Mode] in the [Detail] tab window of the [Comm. Parameter] dialog of the V-SFT editor.
Page 263: Screen Editing (Memory Input)
5-56 8. Toyopuc PLC Available Memory The available memory setting range varies depending on the PLC model. Be sure to set within the range available with the PLC to be used. Use [TYPE] when assigning the indirect memory for macro programs.
Page 264: Wiring
Wiring Wiring diagrams with the PLC are shown below. RS-422 Wiring Diagram 1 D-sub 25-pin (male) 8. Toyopuc PLC * Use shielded twist-pair cables. 5-57...
Page 265: Fuji Plc
*1 To use FLEX-PC of Toyota version, select [FLEX-PC (T)]. *2 To use FLEX-PC CPU of Toyota version, select [FLEX-PC CPU (T)]. Communication Setting The recommended communication parameter settings of the PLC and the V7 series is as follows: MICREX-F Series, FLEX-PC Series Item...
Page 266: Micrex-F Series, Flex-Pc Series: Switch Setting
FLEX-PC CPU Port Connect to the CPU port. Communication parameters for the V7 series are automatically set. FLEX-PC COM (T) (NJ Computer Link) Toyota Version Item Baud rate Port Parity Data length Transmission code Stop bit MICREX-F Series, FLEX-PC Series: Switch Setting...
Page 267: Available Memory
*3 To set up the file memory on the V-SFT editor, enter “file number” + “: (colon)” + address in order. * Notes on V4 (or GD-80) data conversion When converting data of V4 (or GD-80) into the V7 data, [MICREX-F series V4] is automatically selected for the PLC type. TYPE...
Page 268 FLEX-PC Series, FLEX-PC CPU Port Standard Memory (data register) (link register) (internal relay) (latch relay) (input relay) (output relay) (file register) (timer/current value) (counter/current value) (timer/contact) (counter/contact) (step relay) FLEX-PC COM (T) (NJ Computer Link) Toyota Version Memory (data register) (link register) (internal relay) (latch relay)
Page 269: Wiring
5-62 9. FUJI PLC Wiring Wiring diagrams with the PLC are shown below. RS-232C Wiring Diagram 1 D-sub 25-pin (male) Wiring Diagram 2 D-sub 25-pin (male) D-sub 25-pin (male) * Use shielded twist-pair cables. D-sub 15-pin (male) * Use shielded twist-pair cables.
Page 270 RS-485 Wiring Diagram 3 D-sub 25-pin (male) RS-422 Wiring Diagram 4 D-sub 25-pin (male) 9. FUJI PLC * Use shielded twist-pair cables. * Use shielded twist-pair cables. 5-63...
Page 271: Koyo Plc
5-64 10. KOYO PLC 10. KOYO PLC Available PLCs Select PLC Type SU-5/5E/6B/5M/6M SU-5E/6E SU-5M/6M SU/SG SR-T SR-6T (Toyota version) SR-T SR-1T (Toyota version) (K protocol) Unit/Port U01-DM Universal port 1 on CPU Universal port 3 on CPU RS-485 Universal port 2 on CPU RS-232C PORT2 on CPU SZ-4 (universal...
Page 272: Communication Setting
Select PLC Type SU-5E/6B SU-5M/6M SZ-4 SU/SG (K-Sequence) SZ-4M Communication Setting The recommended communication parameter settings of the PLC and the V7 series is as follows: Item Baud rate Port Parity Data length Transmission code Stop bit Functions Response delay time...
Page 273: Available Memory
5-66 10. KOYO PLC Available Memory The available memory setting range varies depending on the PLC model. Be sure to set within the range available with the PLC to be used. Use [TYPE] when assigning the indirect memory for macro programs.
Page 274: Switch Setting
UNIT ADR switch: SW4 DIP switch: Setting SW5 DIP switch: Setting On-line “0” for ×10, “1” for ×1 Contents Same as that set on V7 Normally 19200 bps With parity Self-diagnosis Response delay time 0 msec Contents Master/slave control Slave...
Page 275 RS-232C ..ENABLE RS-422..DISENABLE Unit No. 1 1: N Slave Same as that set on V7 Normally 19200 bps With parity Self-diagnosis Turn-around delay Response delay time 0 msec HEX mode...
Page 276: Wiring
Wiring Wiring diagrams with the PLC are shown below. RS-232C Wiring Diagram 1 D-sub 25-pin (male) Wiring Diagram 2 D-sub 25-pin (male) 10. KOYO PLC D-sub 25-pin (male) * Use shielded twist-pair cables. D-sub 15-pin (male) * Use shielded twist-pair cables. *1 High-density D-sub 15-pin 5-69...
Page 277 5-70 10. KOYO PLC RS-422 Wiring Diagram 3 D-sub 25-pin (male) Wiring Diagram 4 D-sub 25-pin (male) Wiring Diagram 5 D-sub 25-pin (male) * Use shielded twist-pair cables. * Use shielded twist-pair cables. * Use shielded twist-pair cables. D-sub 25-pin (male) D-sub 25-pin (male)
Page 278 Wiring Diagram 6 D-sub 25-pin (male) * Use shielded twist-pair cables. *1 High-density D-sub 15-pin Wiring Diagram 7 D-sub 25-pin (male) * Use shielded twist-pair cables. Wiring Diagram 8 D-sub 25-pin (male) 10. KOYO PLC D-sub 15-pin (male) D-sub 25-pin (male) D-sub 25-pin (male) * Use shielded twist-pair cables.
Page 279: 1785-Ke
Control Logix 1756 system *1 When using RS-232C ladder transfer cable made by Allen-Bradley, connect the cable shown in [Wiring Diagram 3] to the D-sub 9-pin side of the ladder transfer cable for communications with the V7 series. Unit/Port 1785-KE 1770-KF2...
Page 280: Communication Setting
Communication Setting The recommended communication parameter settings of the PLC and the V7 series is as follows: PLC-5 series Item Baud rate Port Parity RS-232C Transmission mode RS-422 Data length Transmission code Stop bit Protocol Error check Response SLC500 series...
Page 281: Available Memory
5-74 11. Allen-Bradley PLC Available Memory The available memory setting range varies depending on the PLC model. Be sure to set within the range available with the PLC to be used. Use [TYPE] when assigning the indirect memory for macro programs.
Page 282 SLC500 Series, Micro Logix 1000 Memory (integer) (bit) T.ACC (timer/current value) T.PRE (timer/set value) C.ACC (counter/current value) C.PRE (counter/set value) (input) (output) (status) (timer/control) (counter/control) (control) R.LEN (control/data length) R.POS (control/data position) (BCD) (ASCII) (FLOAT) (STRING) 11. Allen-Bradley PLC TYPE Remarks 5-75...
Page 283: Plc-5 Series: Switch Setting
5-76 11. Allen-Bradley PLC PLC-5 Series: Switch Setting 1785-KE SW1 (Protocol) Setting SW2 (Port) Set the port number of 1785-KE. (This port should not be duplicated in the network.) Setting ON/OFF ON/OFF ON/OFF ON/OFF ON/OFF ON/OFF SW3 (Network link communication speed) Adjust to the settings of the network you are using.
Page 284: Setting
SW5 (Network link communication speed) Adjust to the settings of the network you are using. Switch Setting SW6 (asynchronous link communication speed) Adjust to the settings of the V7 series. Setting SW7 (Network link selection) Switch Setting SW8 (RS-232C/RS-422 selection) Switch Setting 11.
Page 285: Slc500 Series, Micro Logix 100: Transmission Parameter Setting
5-78 11. Allen-Bradley PLC SLC500 Series, Micro Logix 100: Transmission Parameter Setting CPU Port Channel 0 Set up the parameters for CPU port channel 0 using the software specifically designed for this purpose. Baud Rate Duplicate Detect ACK Timeout (x 20 ms) Control Line Parity Error Detection...
Page 286: Wiring
Wiring Wiring diagrams with the PLC are shown below. RS-232C Wiring Diagram 1 D-sub 25-pin (male) Wiring Diagram 2 D-sub 25-pin (male) 11. Allen-Bradley PLC D-sub 15-pin (male) * Use shielded twist-pair cables. D-sub 25-pin (female) * Use shielded twist-pair cables. 5-79...
Page 287 5-80 11. Allen-Bradley PLC Wiring Diagram 3 D-sub 25-pin (male) Wiring Diagram 4 D-sub 25-pin (male) Wiring Diagram 5 D-sub 25-pin (male) D-sub 9pin(Female: * Use shielded twist-pair cables. * Use shielded twist-pair cables. * Use shielded twist-pair cables. D-sub 9-pin (female) D-sub 9-pin (female) D-sub 9-pin (male) A •B’s...
Page 288 RS-422 Wiring Diagram 6 D-sub 25-pin (male) Wiring Diagram 7 D-sub 25-pin (male) * Use shielded twist-pair cables. 11. Allen-Bradley PLC D-sub 25-pin (female) * Use shielded twist-pair cables. D-sub 9-pin (male) 5-81...
Page 289: Ge Fanuc Plc
12. GE Fanuc PLC Available PLCs Select PLC Type 90 series 90 series (SNP-X) Communication Setting The recommended communication parameter settings of the PLC and the V7 series is as follows: 90 Series Item Baud rate Port Parity Data length...
Page 290: Available Memory
Available Memory The available memory setting range varies depending on the PLC model. Be sure to set within the range available with the PLC to be used. Use [TYPE] when assigning the indirect memory for macro programs. 90 Series Memory (data register) (input) (output)
Page 291: Wiring
5-84 12. GE Fanuc PLC Wiring Wiring diagrams with the PLC are shown below. RS-232C Wiring Diagram 1 D-sub 25-pin (male) RS-485 Wiring Diagram 2 D-sub 25-pin (male) D-sub 25-pin (male) * Use shielded twist-pair cables. D-sub 25-pin (male) * Use shielded twist-pair cables.
Page 292 12. GE Fanuc PLC 5-85 Wiring Diagram 3 D-sub 25-pin (male) D-sub 15-pin (male) * Use shielded twist-pair cables.
Page 293: Toshiba Plc
5-86 13. TOSHIBA PLC 13. TOSHIBA PLC Available PLCs Select PLC Type T series Communication Setting The recommended communication parameter settings of the PLC and the V7 series is as follows: Item Baud rate Port Parity Data length Transmission code Stop bit •...
Page 294: Available Memory
Available Memory The available memory setting range varies depending on the PLC model. Be sure to set within the range available with the PLC to be used. Use [TYPE] when assigning the indirect memory for macro programs. Memory (data register) (input register) (output register) (auxiliary relay)
Page 295: Toshiba Machine Plc
14. TOSHIBA MACHINE PLC Available PLCs Select PLC Type TC200 Communication Setting The recommended communication parameter settings of the PLC and the V7 series is as follows: Item Baud rate Port Available Memory The available memory setting range varies depending on the PLC model. Be sure to set within the range available with the PLC to be used.
Page 296: Wiring
Wiring Wiring diagrams with the PLC are shown below. RS-232C Wiring Diagram 1 D-sub 25-pin (male) 14. TOSHIBA MACHINE PLC D-sub 9-pin (female) * Use shielded twist-pair cables. 5-89...
Page 297: Siemens Plc
TI545/555 (TI500/505 V4) * When using the 6ES5 734-1BD20 cable made by SIEMENS, connect the cable shown in [Wiring Diagram 3] to the D-sub 25-pin side of the 6ES5 734-1BD20 cable for communications with the V7 series. Communication Setting The recommended communication parameter settings of the PLC and the V7 series is as follows:...
Page 298 • Set [MPI SETTING] in the [Comm. Parameter] dialog of the V-SFT editor. Item Node Cnt Source No. (V7 port number) Set different numbers for [Source No.] and [Local No.], and make sure that [Source No] ≤ [Node Cnt]. [Node Cnt] is equivalent to [Local No.] of the PLC. (For example, if [Local No.] is “13,”...
Page 299: Available Memory
* Notes on V4 (or GD-80) data conversion • When converting data of V4 (or GD-80) into the V7 data, [S5 V4] is automatically selected for the PLC type. • With V4 (or GD-80), the order of bit strings of I (input relay), Q (output relay) and F (internal relay) is byte-reversed.
Page 300 S5 PG port Memory (data register) (input relay) (output relay) (flag/internal relay) (timer/current value) (counter/current value) (absolute address) The assigned memory is indicated when editing the screen as shown on the right. S7-200PPI Memory (data memory) (input) (output) (bit memory) (timer/current value) (counter/current value) (timer/contact)
Page 301 * Notes on V4 (or GD-80) data conversion • When converting data of V4 (or GD-80) into the V7 data, [TI500/505 V4] is automatically selected for the PLC type. • With V4 (or GD-80), the order of words is reversed in the case of double-words. Please take note of this.
Page 302: Wiring
Wiring Wiring diagrams with the PLC are shown below. RS-232C Wiring Diagram 1 D-sub 25-pin (male) Wiring Diagram 2 D-sub 25-pin (male) Wiring Diagram 3 D-sub 25-pin (male) D-sub 25-pin (male) * Use shielded twist-pair cables. D-sub 9-pin (female) * Use shielded twist-pair cables. D-sub 25-pin (male) * Use shielded twist-pair cables.
Page 303 5-96 15. SIEMENS PLC Wiring Diagram 4 D-sub 25-pin (male) Wiring Diagram 5 D-sub 25-pin (male) RS-422 Wiring Diagram 6 D-sub 25-pin (male) * Use shielded twist-pair cables. * Use shielded twist-pair cables. * Use shielded twist-pair cables. D-sub 9-pin (female) D-sub 9-pin (female) D-sub 15-pin (male)
Page 304 D-sub 25-pin (male) - Terminating Resistance Setting Set the DIP switch 7 and 8 of the V7 series to the OFF position. Connect terminating resistance to the serial connector (CN1) of the V7 series as shown below. If the terminating resistance is not connected, a communication error may occur.
Page 305: Shinko Plc
16. SHINKO PLC 16. SHINKO PLC Available PLCs Select PLC Type SELMART SELMART-100 and later Communication Setting The recommended communication parameter settings of the PLC and the V7 series is as follows: Item Baud rate Parity Data length Transmission code Stop bit...
Page 306: Wiring
Wiring Wiring diagrams with the PLC are shown below. RS-232C Wiring Diagram 1 D-sub 25-pin (male) 16. SHINKO PLC D-sub 25-pin (male) * Use shielded twist-pair cables. 5-99...
Page 307: Samsung Plc
17. SAMSUNG PLC 17. SAMSUNG PLC Available PLCs Select PLC Type SPC series Communication Setting The recommended communication parameter settings of the PLC and the V7 series is as follows: Item Baud rate Parity Stop bit Terminating resistance Available Memory The available memory setting range varies depending on the PLC model.
Page 308: Wiring
Wiring Wiring diagrams with the PLC are shown below. RS-232C Wiring Diagram 1 D-sub 25-pin (male) RS-422 Wiring Diagram 2 D-sub 25-pin (male) 17. SAMSUNG PLC D-sub 9-pin (male) * Use shielded twist-pair cables. D-sub 9-pin (male) * Use shielded twist-pair cables. 5-101...
Page 309: Keyence Plc
5-102 18. KEYENCE PLC 18. KEYENCE PLC Available PLCs Select PLC Type KZ300 KZ series link KZ350 KZ-A500 KZ-A500 Mistubishi A series link KZ-10, 16, 24 KZ/KV series 300, 350 KV series KZ24/300 KZ-24, 300 KV10/24 KV-10, 24 KV-700 KV-700 *1 To connect KZ-24, 300 via RS-232C, select [KZ24/300CPU] for the PLC type on the V-SFT editor.
Page 310: Communication Setting
Communication Setting The recommended communication parameter settings of the PLC and the V7 series is as follows: KZ Series Link Item Port Baud rate Parity Data length Transmission code Stop bit Terminating resistance Set the port with the port setting switch, the terminating resistance with terminator, and the baud rate/data bit/parity/stop bit with SET B DIP switches.
Page 311: Available Memory
5-104 18. KEYENCE PLC KZ/KV Series CPU / KV-700 CPU Communication parameters for the V7 series are automatically set. KZ24/300 CPU Item Port Baud rate Parity Data length Transmission code Stop bit Terminating resistance *1 Maximum baud rate available is 38400 bps. If a higher baud rate is selected, communications are performed at 9600 bps.
Page 312 KZ-A500 CPU, MITSUBISHI A Series Link Memory (data register) (link register) (file register) (timer/current value) (counter/current value) (internal relay) (latch relay) (link relay) (input relay) (output relay) (timer/contact) (timer/coil) (counter/contact) (counter/coil) KZ/KV Series CPU, KZ24/300 CPU, KV10/24 CPU, KV-700 CPU Memory (data memory) (input/output relay)
Page 313: Wiring
5-106 18. KEYENCE PLC Wiring Wiring diagrams with the PLC are shown below. RS-232C Wiring Diagram 1 D-sub 25-pin (male) Wiring Diagram 2 D-sub 25-pin (male) Wiring Diagram 3 D-sub 25-pin (male) D-sub 25-pin (male) * Use shielded twist-pair cables. * Use shielded twist-pair cables.
Page 314 18. KEYENCE PLC 5-107 Wiring Diagram 4 D-sub 25-pin (male) D-sub 25-pin (male) * Use shielded twist-pair cables. Wiring Diagram 5 D-sub 25-pin (male) Modular jack, 6-pin * Use shielded twist-pair cables. RS-422 Wiring Diagram 6 D-sub 25-pin (male) * Use shielded twist-pair cables.
Page 315: Available Plcs
Available PLCs Select PLC Type MASTER-K10/60/200 MASTER-K500/1000 MASTER-KxxxS MASTER-KxxxS CNET GLOFA CNET Communication Setting The recommended communication parameter settings of the PLC and the V7 series is as follows: MASTER-K10/60/200 Item Baud rate Parity Data length Transmission code Stop bit...
Page 316: Available Memory
(input/output relay) (keep relay) (timer/current value) (counter/current value) (timer/set value) (counter/set value) 19. LG PLC Setting on PLC V7 Comm. Parameter Setting 38400 bps None (fixed) 8 (fixed) 1 (fixed) Setting on PLC V7 Comm. Parameter Setting 38400 bps Not provided...
Page 317 5-110 19. LG PLC MASTER-K500/1000 Memory (input/output relay) (relay) (link relay) (keep relay) (special relay) (timer/current value) (counter/set value) (data register) MASTER-KxxxS Memory (input/output relay) (auxiliary relay) (link relay) (keep relay) (special relay) (timer/current value) (counter/set value) (data register) (timer/contact) (counter/contact) MASTER-KxxxS CNET Memory...
Page 318: Wiring
GLOFA CNET Memory (internal memory) (output) (input) Wiring Wiring diagrams with the PLC are shown below. RS-232C Wiring Diagram 1 D-sub 25-pin (male) Wiring Diagram 2 D-sub 25-pin (male) Wiring Diagram 3 D-sub 25-pin (male) TYPE Remarks MW as word device QW as word device IW as word device D-sub 9-pin (male)
Page 319 5-112 19. LG PLC Wiring Diagram 4 D-sub 25-pin (male) RS-422 Wiring Diagram 5 D-sub 25-pin (male) Wiring Diagram 6 D-sub 25-pin (male) * Use shielded twist-pair cables. * Use shielded twist-pair cables. * Use shielded twist-pair cables. D-sub 25-pin (male) D-sub 25-pin (male)
Page 320: Fanuc Plc
Available PLCs Select PLC Type Power Mate-Model H/D Power Mate Power Mate i Model Communication Setting The recommended communication parameter settings of the PLC and the V7 series is as follows: Item Baud rate Port Parity Data length Transmission code...
Page 321: Wiring
5-114 20. FANUC PLC Wiring Wiring diagrams with the PLC are shown below. RS-232C Wiring Diagram 1 D-sub 25-pin (male) RS-422 Wiring Diagram 2 D-sub 25-pin (male) * Use shielded twist-pair cables. *1 Half-pitch 20-pin * Use shielded twist-pair cables. *1 Half-pitch 20-pin...
Page 322 20. FANUC PLC 5-115 Wiring Diagram 3 D-sub 25-pin (male) * Use shielded twist-pair cables. *1 Half-pitch 20-pin...
Page 323: Fatek Automation Plc
21. FATEK AUTOMATION PLC 21. FATEK AUTOMATION Available PLCs Select PLC Type FACON FB series Communication Setting The recommended communication parameter settings of the PLC and the V7 series is as follows: Item Baud rate Parity Data length Transmission code...
Page 324: Wiring
Wiring Wiring diagrams with the PLC are shown below. RS-232C Wiring Diagram 1 D-sub 25-pin (male) Wiring Diagram 2 D-sub 25-pin (male) RS-422 Wiring Diagram 3 D-sub 25-pin (male) 21. FATEK AUTOMATION PLC D-sub 15-pin (male) * Use shielded twist-pair cables. D-sub 9-pin (male) * Use shielded twist-pair cables.
Page 325: Idec Plc
MICRO3 * When using RS-232C cable “FC2A-KC2” made by IDEC, connect the cable shown in [Wiring Diagram 3] to the D-sub 9-pin side of the FC2A-KC2 cable for communications with the V7 series. Communication Setting The recommended communication parameter settings of the PLC and the V7 series is as follows:...
Page 326: Wiring
Wiring Wiring diagrams with the PLC are shown below. RS-232C Wiring Diagram 1 D-sub 25-pin (male) 22. IDEC PLC D-sub 9-pin (male) * Use shielded twist-pair cables. 5-119...
Page 327: Modicon Plc
5-120 23. MODICON PLC 23. MODICON PLC Available PLCs Select PLC Type Modbus RTU Communication Setting The recommended communication parameter settings of the PLC and the V7 series is as follows: Item Baud rate Port Parity Data length Transmission code...
Page 328: Wiring
Wiring Wiring diagrams with the PLC are shown below. RS-232C Wiring Diagram 1 D-sub 25-pin (male) 23. MODICON PLC D-sub 9-pin (male) * Use shielded twist-pair cables. 5-121...
Page 329: Yamatake Plc
5-122 24. YAMATAKE PLC 24. YAMATAKE PLC Available PLCs Select PLC Type MX series Communication Setting The recommended communication parameter settings of the PLC and the V7 series is as follows: Item Baud rate Port Parity Data length Transmission code...
Page 330: Wiring
Wiring Wiring diagrams with the PLC are shown below. RS-232C Wiring Diagram 1 D-sub 25-pin (male) 24. YAMATAKE PLC D-sub 25-pin (male) * Use shielded twist-pair cables. 5-123...
Page 331: Taian Plc
5-124 25. TAIAN PLC 25. TAIAN PLC Available PLCs Select PLC Type TP02 Communication Setting The recommended communication parameter settings of the PLC and the V7 series is as follows: Item Baud rate Port Parity Data length Transmission code Stop bit Available Memory The available memory setting range varies depending on the PLC model.
Page 332: Wiring
Wiring Wiring diagrams with the PLC are shown below. RS-422 Wiring Diagram 1 D-sub 25-pin (male) Wiring Diagram 2 D-sub 25-pin (male) 25. TAIAN PLC * Use shielded twist-pair cables. D-sub 9-pin (male) * Use shielded twist-pair cables. 5-125...
Page 333: Saia Plc
5-126 26. SAIA PLC 26. SAIA PLC Available PLCs Select PLC Type Communication Setting The recommended communication parameter settings of the PLC and the V7 series is as follows: Item Baud rate Port Data length Transmission code Stop bit S-BUS Configuration...
Page 334: Wiring
Wiring Wiring diagrams with the PLC are shown below. RS-232C Wiring Diagram 1 D-sub 25-pin (male) Wiring Diagram 2 D-sub 25-pin (male) RS-485 Wiring Diagram 3 D-sub 25-pin (male) 26. SAIA PLC * Use shielded twist-pair cables. * Use shielded twist-pair cables. * Use shielded twist-pair cables.
Page 335: Moeller Plc
5-128 27. MOELLER PLC 27. MOELLER PLC Available PLCs Select PLC Type Communication Setting The recommended communication parameter settings of the PLC and the V7 series is as follows: Item Baud rate Port Parity Data length Transmission code Stop bit Available Memory The available memory setting range varies depending on the PLC model.
Page 336: Wiring
Wiring Wiring diagrams with the PLC are shown below. RS-232C Wiring Diagram 1 D-sub 25-pin (male) 27. MOELLER PLC D-sub 9-pin (male) * Use shielded twist-pair cables. 5-129...
Page 337: Telemecanique Plc
5-130 28. Telemecanique PLC 28. Telemecanique PLC Available PLCs Select PLC Type TSX Micro Communication Setting The recommended communication parameter settings of the PLC and the V7 series is as follows: Item Baud rate Connection Parity Data length Transmission code...
Page 338: Wiring
Wiring Wiring diagrams with the PLC are shown below. RS-485 Wiring Diagram 1 D-sub 25-pin (male) 28. Telemecanique PLC MiniDIN 9-pin (male) * Use shielded twist-pair cables. 5-131...
Page 339: Automationdirect Plc
29. Automationdirect PLC 29. Automationdirect PLC Available PLCs Select PLC Type Direct LOGIC Direct LOGIC (K-Sequence) Communication Setting The recommended communication parameter settings of the PLC and the V7 series is as follows: Item Baud rate Port Parity Data length Transmission code...
Page 340: Available Memory
Available Memory The available memory setting range varies depending on the PLC model. Be sure to set within the range available with the PLC to be used. Use [TYPE] when assigning the indirect memory for macro programs. Memory (data register) (input relay) (output relay) (internal relay)
Page 341 5-134 29. Automationdirect PLC Wiring Diagram 2 D-sub 25-pin (male) Wiring Diagram 3 D-sub 25-pin (male) Wiring Diagram 4 D-sub 25-pin (male) Modular connector 6-pin * Use shielded twist-pair cables. D-sub 15-pin (male) * Use shielded twist-pair cables. *1 High density D-sub 15-pin D-sub 15-pin (male) * Use shielded twist-pair cables.
Page 342 RS-422 Wiring Diagram 5 D-sub 25-pin (male) * Use shielded twist-pair cables. Wiring Diagram 6 D-sub 25-pin (male) * Use shielded twist-pair cables. 29. Automationdirect PLC 5-135 D-sub 25-pin (male) D-sub 25-pin (male) In case SU-6M, it is possible to use terminal blocks,...
Page 343 5-136 29. Automationdirect PLC...
Page 344 2010NE0 Hakko Electronics Co., Ltd. Sales 238, Kamikashiwano-machi, Matto-shi, Ishikawa, 924-0035 Japan TEL (076)274-2144 Tokyo Office TEL (03)3255-0166 Osaka Office TEL (06)6385-8234 Nagoya Office TEL (052)789-0096 Head Office 209-2, Koh, Mameda-honmachi, Kanazawa-shi, Ishikawa, 920-0047 Japan FAX(076)274-5208 FAX(03)3255-0298 FAX(06)6385-7851 FAX(052)789-0098 PRICE 1,000- 20903000...

Hakko Electronics Monitouch V7 User Manual

Table of Contents

Chapter 1 Hardware Specifications

V-Sft Setting

Monitouch Operations

Chapter 2 MONITOUCH Operations

Chapter 4 Network Communications

Chapter 3 Serial Communications

Byte/Short

Connection to Plcs

Chapter 5 Connection to Plcs

Plc-5 Series: Switch Setting

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Chapters

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Summary of Contents for Hakko Electronics Monitouch V7