Instruction Manual

ManualsBrandsHakko ManualsMonitorsMONITOUCH V7 series

Summary of content (344 pages)

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V7
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Record of Revisions Reference numbers are shown at the bottom left corner on the back cover of each manual. Printing Date September, 2002 Reference No.
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Preface 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 Contents Reference No. Reference Manual (Operation) The V-SFT operating procedure is described. 1043NE Reference Manual (Function) The functions and instructions of the V7/V6 series are explained.
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Notes on Safe Use of MONITOUCH In this manual, you will find various notes categorized under the following levels with the signal words “DANGER,” and “CAUTION.” DANGER Indicates an imminently hazardous situation which, if not avoided, will result in death or serious injury. CAUTION Indicates a potentially hazardous situation which, if not avoided, may result in minor or moderate injury and could cause property damage. Note that there is a possibility that the item listed with ramifications.
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CAUTION [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. • For use in a nuclear energy facility, or other facility of such official importance, please consult your local distributor.
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CAUTION [Notes on Maintenance and Operation] • Hakko Electronics Co., Ltd. is not responsible for any damages resulting from repair, overhaul or modification of MONITOUCH that was performed by an unauthorized person. • Do not use thinners for cleaning because they may discolor the MONITOUCH surface. Use alcohol or benzine commercially available. • Do not use a sharp-pointed tool when pressing a touch switch.
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Contents Chapter 1 Hardware Specifications 1. Features .......................................................................................................................... 1-1 2. Models and Peripheral Equipment .................................................................................. 1-2 MONITOUCH Models .................................................................................................................. 1-2 Peripheral Equipment ..............................................
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12. Modular Jack (MJ1/MJ2)................................................................................................1-29 Modular Jack 1 (MJ1)/2 (MJ2) ................................................................................................... 1-29 V-SFT Setting ............................................................................................................................ 1-30 Transferring Screen Data...................................................................................
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Chapter 3 1. Serial Communications 1 : 1 Connection .............................................................................................................. 3-1 1 : 1 Connection........................................................................................................................... 3-1 Wiring........................................................................................................................................... 3-2 V-SFT Setting ...................................
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Chapter 4 1. Network Communications Ethernet ...........................................................................................................................4-1 Ethernet ....................................................................................................................................... 4-1 Notes on Ethernet Communications ............................................................................................ 4-3 IP Address for the V7 Series...............................
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Chapter 5 1. Connection to PLCs MITSUBISHI PLC............................................................................................................ 5-1 Available PLCs............................................................................................................................. 5-1 Communication Setting................................................................................................................ 5-4 A Series Link, QnA Series Link: Switch Setting ......................
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8. Toyopuc PLC .................................................................................................................5-55 Available PLCs........................................................................................................................... 5-55 Communication Setting.............................................................................................................. 5-55 Switch Setting ...................................................................................
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16. SHINKO PLC................................................................................................................. 5-98 Available PLCs........................................................................................................................... 5-98 Communication Setting.............................................................................................................. 5-98 Available Memory ..................................................................................
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25. TAIAN PLC ..................................................................................................................5-124 Available PLCs......................................................................................................................... 5-124 Communication Setting............................................................................................................ 5-124 Available Memory ...................................................................................
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Hardware Specifications 1. Features 2. Models and Peripheral Equipment 3. System Composition 4. Specifications 5. Dimensions and Panel Cut-out 6. Names and Functions of Components 7. Mounting Procedure 8. Power Supply Cable Connection 9. Coin-type Lithium Battery 10. DIP Switch Setting 11. Serial Connector (CN1) 12. Modular Jack (MJ1/MJ2) 13. 10BASE-T (LAN) 14. CF Card (CF) 15.
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1. Features 1. 1-1 Features 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. Large-sized video capture images, JPEG or WAV files can be saved. 3.
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1-2 2. 2. Models and Peripheral Equipment Models and Peripheral Equipment MONITOUCH Models The model name consists of the following information.
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2. Models and Peripheral Equipment 1-3 1 The following models are available.
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1-4 2. Models and Peripheral Equipment EU-xx (option unit) (* This option unit can only be mounted on the V7i model.) xx: 00 → Video input + sound output unit Video images can be displayed on V7i directly. WAV files can be played at an external speaker. xx: 01 → RGB input + sound output unit Screen images displayed on a CRT display can be shown on V7i. WAV files can be played at an external speaker. xx: 02 → RGB output + sound output unit Screen images displayed on V7i can be shown on a CRT display.
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2. Models and Peripheral Equipment 1-5 M-CARD SFTE (memory card editor) Application software for editing data stored on a memory card. (Windows98/NT4.0/Me/2000/XP compatible) P P G DD 123 GD V-I/O (serial extension I/O) Used as an external I/O unit for PLC. It has 16 inputs and 16 outputs.
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1-6 2. Models and Peripheral Equipment V6-MLT (multi-link 2 master cable) 3 m Used for Multi-Link 2 connection between the V7 master station and the V7slave station. V6-TMP (temperature controller connection cable) 3 m 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.
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3. System Composition 3. 1-7 1 System Composition The following illustration shows possible system configurations using the V7 series (standard).
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1-8 3. System Composition System Composition of V7i (High-performance) The following illustration shows possible system configurations using the V7i series (high-performance).
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4. Specifications 4.
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1-10 4. Specifications Display Specifications Model Item Display Device Effective Display Area V708C V708S V708iS V710T STN color LCD 7.7-inch TFT color LCD 8.4-inch 10.4-inch 128 colors +16-color blinks Colors V710iT V710S V710iS V712S V712iS 32,768 colors +16-color blinks Resolution W × H (dots) 640 × 480 800 × 600 640 × 480 Dot Pitch W × H (mm) 0.246 × 0.246 0.213 × 0.213 0.33 × 0.
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4.
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1-12 4. Specifications Drawing Environment Item Specifications Drawing Method Exclusive drawing software Drawing Tool Name of exclusive drawing software: Personal computer: OS: Capacity of hard disk required: Display: V-SFT (Ver. 2.00 and later) Pentium II 450 MHz or above recommended Windows98/Me/NT Ver. 4.0/2000/XP Free space of approx. 460 Mbyte or more (For minimum installation: approx.
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4. Specifications 1-13 1 Function Performance Specifications Screens Specifications Max. 1024 Screen Memory Flash memory: Appox.
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1-14 5. Dimensions and Panel Cut-out 5. Dimensions and Panel Cut-out V708/V708i External View and Dimensions (Unit: mm) • Side View • Front View 66.1 233 SYSTEM F1 F3 F4 F5 F6 POWER F7 6.6 • Rear View • Bottom View 220 LAN CN6 Battery replacement. CN5 MEMORY 220 CF MJ2 CN1 • Panel Cut-out Dimensions 220.5 +0.5 -0 +0.5 PRINTER MJ1 165.5 -0 24VDC - + 24.3 165 See operating or maintenance instruction for type of battery to be used.
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5. Dimensions and Panel Cut-out 1-15 1 V710/V710i External View and Dimensions (Unit: mm) Hardware Specifications • Side View • Front View 72 303.8 8 SYSTEM F1 F3 F4 F5 F6 F7 POWER • Rear View • Bottom View 288.0 CN6 CN5 215.2 MEMORY 288.0 See operating or maintenance instruction for type of battery to be used. CF Battery replacement. CN1 MJ1 MJ2 PRINTER • Panel Cut-out Dimensions 289 +0.5 -0 216.2 +0.5 -0 LAN 35.2 100-240VAC L N 231 215.
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1-16 5. Dimensions and Panel Cut-out V712/V712i External View and Dimensions (Unit: mm) • Side View • Front View 72 326.4 259.6 245.2 8 F1 F2 F3 F4 SYSTEM POWER • Rear View • Bottom View 312 CN6 CN5 MEMORY 312 CF Battery replacement. MJ1 MJ2 PRINTER • Panel Cut-out Dimensions +0.5 313 -0 246.2 CN1 63.8 LAN 100-240VAC L N +0.5 -0 245.2 See operating or maintenance instruction for type of battery to be used.
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6. Names and Functions of Components 6. 1-17 V708/V708i 1 3 13 11 12 LAN CN6 SYSTEM See operating or maintenance instruction for type of battery to be used. F1 F2 8 Battery replacement. CN5 MEMORY F3 F4 CF F5 4 24VDC - + F6 POWER PRINTER MJ1 F7 CN1 MJ2 14 10 2 7 5 15 6 9 V710/V710i 1 3 11 12 13 CN6 CN5 SYSTEM MEMORY F1 F2 F3 See operating or maintenance instruction for type of battery to be used. F4 CF Battery replacement.
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1-18 6. Names and Functions of Components V712/V712i 1 11 12 13 CN6 CN5 MEMORY See operating or maintenance instruction for type of battery to be used. CF Battery replacement. 4 3 LAN CN1 MJ1 MJ2 PRINTER 100-240VAC L N F1 F2 F3 F4 F5 F6 F7 SYSTEM POWER 2 14 10 5 6 7 8 15 9 1. Display This is the display unit. 2. Power Lamp (POWER) Illuminates (green) when the power is supplied to the V7 series. 3.
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6. Names and Functions of Components 1-19 10. Mounting holes Used for inserting fixtures when securing the V7 series to the mounting panel. 12. Option unit connector (CN6).....................V7i only This is the connector where the option unit (EU-xx) for video, sound, RGB IN or RGB OUT is mounted. 13. Add-on memory connector (MEMORY) This is the connector where the optional FLASH memory cassette (V7EM-F) or SRAM cassette (V7EM-S) is mounted. 14.
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1-20 7. 7. Mounting Procedure Mounting Procedure Mounting Procedure 1. Cut out the mounting panel (max. thick: 5 mm) to match the dimensions shown below. Mounting panel Panel cut-out hole • Panel cut-out dimensions +0.5 −0 220.5 +0.5 289 −0 V708/V708i +0.5 216.2 −0 EM SYST F1 289 +−00.5 165.5 −+00.5 (Unit: mm) 313 −+ 0.5 0 F2 F3 F5 F6 F7 V710/V710i V712/V712i 246.2 −+00.5 216.2 −+00.5 F4 ER POW 2.
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8. Power Supply Cable Connection 8. 1-21 DANGER Electric shock hazard 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 - V710/V710i/V712/V712i CN6 LAN CN6 CN5 MEMORY CN5 MEMORY See operating or maintenance instruction for type of battery to be used. CF 24VDC - + CF Battery replacement.
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1-22 8. Power Supply Cable Connection • Keep cables of 100 VAC and 24 VDC sufficiently away from high-voltage, large-current carrying cables. • Be sure to attach the terminal cover to the terminal block. - For V708/V708i: Attach the terminal cover (supplied) to the terminal block. - For V710/V710i/V712/V712i: When closing the terminal cover, hold one end of the cover as shown below. Terminal cover Press either end.
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9. Coin-type Lithium Battery 9. 1-23 1 CAUTION Be sure to set the battery when using the calendar function or the SRAM cassette. Without a battery, the contents in the SRAM or calendar data will not be retained. Battery Mounting Procedure DANGER Electric shock hazard 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. 2. Turn the unit off.
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1-24 9. Coin-type Lithium Battery MSB $s167 LSB 15 14 13 12 11 10 09 08 07 06 0 0 0 0 0 0 0 0 0 0 05 04 03 02 01 00 0 Reserved for memory cassette information (setting: 0) 0: No memory cassette mounted 1: FROM 2 Mbyte (V6) 2: FROM 4 Mbyte (V6) 3: SRAM 512 kbyte (V7/V6) 4: FROM 8 Mbyte (V7) 0: Battery OK 1: Battery voltage drop 2: No battery Reserved for memory cassette information (setting: 0) 6. Check that the battery is correctly connected on the Main Menu screen.
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9. Coin-type Lithium Battery 1-25 1 Battery Replacement Procedure Replacement batteries are available from Hakko Electronics. Type V7-BT Contents • Coin-type lithium primary cell (Sanyo) 1 pce • Cautions sticker 1 pce 1. Replace the battery “V7-BT” within three minutes after the V7 unit is turned off. If it is not possible to replace within three minutes, use the V-SFT editor (cable: V6-CP) or a CF card and make a backup copy of data in the SRAM cassette.
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1-26 10. DIP Switch Setting 10. DIP Switch Setting DIP Switch (DIPSW) Setting Set the terminating resistance for RS-422/485 connection with the DIP switch. When setting the DIP switch, turn the power off.
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10. DIP Switch Setting 1-27 CF Auto Load (DIPSW1) 1 A screen data file saved on a CF card can be auto-loaded as described below. Hardware Specifications 1. Transfer screen data from the computer to a CF card. (Refer to the Reference Manual for more information.) 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.
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1-28 11. Serial Connector (CN1) 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: - For V710/V710i/V712/V712i: Bottom View Bottom View 2. The serial connector pins correspond to signals as given below. CN1 (D-sub 25-pin, female) Pin No.
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12. Modular Jack (MJ1/MJ2) 1-29 12. Modular Jack (MJ1/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: - For V710/V710i/V712/V712i: Bottom View Bottom View 2. Pins of modular jacks 1 and 2 correspond to signals as given below. MJ1/2 12345678 Pin No.
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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]*1 [Memory [Not used] [Memory Card]*2 [Barcode]*3 [Barcode]*3 [V-I/O]*4 [V-I/O]*4 [Multi-Link]*5 [Multi-Link]*5 [Temp. CTRL/PLC2Way]*6 [Temp.
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12. Modular Jack (MJ1/MJ2) 1-31 1 3. Do not select [Multi-link] and [Temp. CTRL/PLC2Way] for [Modular Jack 1/2] at the same time. • Combination of MJ1 and MJ2 Functions MJ1 MJ2 MultiLink 2 MultiLink 2 CREC Barcode V-I/O O O O O O O CREC O Barcode O O V-I/O O O O O O O Temp. CTRL/PLC 2Way Temp.
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1-32 12. Modular Jack (MJ1/MJ2) Transferring Screen Data • Use modular jack 1 (MJ1) when transferring screen data. • When [Editor Port] is selected for [Modular Jack 1] on the V-SFT editor, it is possible to transfer data in the RUN mode because the RUN/STOP mode (on the Main Menu screen) can be automatically selected. Also RUN/STOP mode is automatically selected for on-line editing and simulation.
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13. 10BASE-T (LAN) 1-33 1 13. 10BASE-T (LAN) 10BASE-T Connector • Use this connector for Ethernet connection. - For V708i: - For V710i/V712i: Side View CAUTION Bottom View MJ1/2 and LAN connector are 8-pin modular jacks. Check the name plate and insert the connector in the correct position. • The LAN (10BASE-T) pins correspond to signals as given below. LAN 12345678 Pin No.
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1-34 13. 10BASE-T (LAN) Notes on Wiring CAUTION When using the LAN port, keep the LAN cable away from the power supply cable as much as possible. HUB UTP cable Straight UTP cable Straight or cross cable (For more information, refer the HUB specifications.
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14. CF Card (CF) 1-35 1 14. CF Card (CF) CF cards in compliance with CompactFlashTM can be used. The following card is recommended. Manufacturer Type Capacity TDK TC032HS 32 MB Kodak KPCN-32 32 MB SanDisk SDCFB-64-505 64 MB I-O Data Device PCCF-H128MS 128 MB PCCF-xxxMS (xxx: 16, 32, 48, 64, 96, 128, 192) 16 to 192 MB Mounting and Dismounting the CF Card 1. The CF card interface is provided on the side of the unit. - For V708/V708i: - For V710/V710i/V712/V712i: Side View Side View 2.
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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. However, if the [Card Menu] switch is pressed on the Main Menu screen and the CF card operation screen is displayed, it is not possible to insert or remove the CF card. Before mounting or removing the CF card, be sure to check that the CF card is not being accessed. 2.
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15. Printer Connection (PRINTER) 1-37 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). CAUTION Be sure to turn the printer off when the V7 unit is turned off. Printer Connector (PRINTER) • This is the printer connector for parallel interface.
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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.
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MONITOUCH Operations 1. Operation of V7 Main Menu Initial Screen 1. Main Menu Screen 2. I/O Test 3. Card Menu Screen 4. Ethernet 5. SRAM/Clock 6. Extension Program Information 7. Extended Function Setting 2. Function Switches Types [SYSTEM] Switch 3. Errors Displayed on the V7 Series 1. Communication Error 2. Check 3. Warning 4. SYSTEM ERROR 5.
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1. Operation of V7 Main Menu 1. 2-1 Operation of V7 Main Menu 2 When the power of MONITOUCH is turned on for the first time, the Main Menu screen shown below on the left is displayed. Initial screen displayed when power is turned on for the first time Main Menu screen after transferring screen data Main Menu V710iTD System Information SYSTEM PROG. VER. 1.000 Screen Data Information Size : 5783552 Connection : Multi-Link Signal Level : RS232C PLC Stat. No. : 0 Ethernet Information Trans.
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2-2 1. Operation of V7 Main Menu • 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. 3) Turn the V7 unit on. The screen data is automatically uploaded from the CF card to the V7 unit. 1. Main Menu Screen • To bring up the Main Menu screen in the RUN mode, press the [SYSTEM] switch and the [F1] switch.
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1. Operation of V7 Main Menu Font data versions, country/local/font V7 series model Main Menu V710iTD System Information System program version Screen memory * Displayed when [Multi Link] or [Multi Link 2] is selected for [Connection] on the [Comm. Parameter] dialog Port name used for data transfer Screen Data Information Size : 5111808 Connection : Multi-Link Signal Level : RS232C PLC Stat. No. : 0 PLC model and file comment set for the screen data file Ethernet Sets the IP address.
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2-4 1. Operation of V7 Main Menu 2. 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. Moves back to the Main Menu screen. (See page 2-2.) Performs a printer interface check. (See page 2-8.) Moves to the “Touch Switch” screen. (See page 2-9.) I/O Test Main Menu SYS F-1 Ext.
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1. Operation of V7 Main Menu 2-1. 2-5 Self-loop Test This is a signal test for communications through the CN1, MJ1 or MJ2 connector. Perform this test if the communication is not successful when transferring screen data through MJ1, connecting the PLC using CN1, or selecting multi-link 2, temperature controller/PLC2Way or PLC for MJ1/2, or connecting the card recorder or serial extension I/O. MONITOUCH Operations CN1: RS-232C Signal Test Turn the [CN1] and [RS232C] switches on.
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2-6 1. Operation of V7 Main Menu CN1: RS-485 Signal Test Turn the [CN1] and [RS485] switches on. Communication Port CN1 RS232C MJ1 RS485 MJ2 • SD/RD Test Check the signals [SD] and [RD]. 1. Install a jumper between pins 12 and 24 and between pins 13 and 25 of CN1 on the backside of the V7 unit. 2. Press the [Self-Loop Test] switch. When the [OK] lamp lights up, the test is successfully completed.
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1. Operation of V7 Main Menu 2-7 MJ1/2: RS-232C Signal Test Turn the [MJ1] (or [MJ2]) and [RS232C] switches on. 2 Communication Port CN1 RS232C MJ1 RS485 • RS-232C Self-loop Test Check the signals [SD] and [RD]. Connect the data transfer cable (V6-CP) to CN1 for the test. ADP25-9 V6-CP CN1 MJ1/2 1. Set the adaptor ADP25-9 (attached to V6-CP) to the cable V6-CP. Connect the modular jack side of the cable to MJ1 (or MJ2) and the ADP25-9 side to CN1. 2. Press the [Self-Loop Test] switch.
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2-8 2-2. 1. Operation of V7 Main Menu Print Check Check that the V7 series transmits the signals to the printer correctly. 1. Connect the V7 series to the printer. 2. Press the [Printer Check] switch. The test is successful when a test page is printed out without problem. I/O Test Main Menu SYS F-1 Ext. I/O Check Printer Check Switch Check F-2 F-3 Example: !"#$%&@ !"#$%&@ !"#$%&@ !"#$%&@ !"#$%&@ !"#$%&@ !"#$%&@ 2-3.
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1. Operation of V7 Main Menu 2-4. 2-9 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. 2 1. Press the [Switch Check] switch. Grids appear on the screen as shown below. Y: SYS F-1 Printer Check Switch Check F-2 Return F-3 Erase 2. Press a position on the panel, and check that the pressed position turns white.
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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. The “Touch Switch Adjustment” screen appears. X: SYSTEM Y: 3 4 Touch Switch Adjustment Fix F2 Reset Return Return Erase Touch the flickering corner.
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1. Operation of V7 Main Menu 3. 2-11 Card Menu Screen When the [Card Menu] switch on the Main Menu screen is pressed, the following “Card Menu” screen appears. This screen is used to transfer screen data between the V7 series and a CF card or a memory card. 2 Moves back to the Main Menu screen or the initial screen. 1. Return CREC Menu Data Selection Transfer Menu 2. Screen Data Display Card 3. SRAM Display Card Display Card 1.
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2-12 3-1. 1. Operation of V7 Main Menu 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. CREC Menu Return Port Selection Modular Jack MJ1 Transfer Data Selection Display Card Display Card Display Card Screen Data Font Data Start I/F Driver Sys. Program Cancel 1.
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1. Operation of V7 Main Menu 2-13 3. Memory Card Information Press the [Modular Jack MJ1 (MJ2)] switch. The memory card information contained in the inserted memory card is indicated. Switches in the “Data Selection” field and “Transfer” field become active. CREC Menu Port Selection Return Memory-Card Information Sys. Program Version Font Date Version I/F Driver Version Screen PLC Type Screen Comment Close : : -.--: : -.--- / -.--- / -.--: YOKOGAWA FA : 1.
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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. CREC Menu CREC Menu Return Close Memory-Card Information Sys. Program : Version : -.--Font Date : Version : -.--- / -.--- / -.--I/F Driver : YOKOGAWA FA Version : 1.
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1. Operation of V7 Main Menu 3-2. 2-15 Transferring Screen Data from a CF Card CF Card Folder Configuration 2 Folders in the CF card are configured as shown below. *1 Folder Name AAAAAAAA DSP DSP0000.BIN CARD MCMHEAD.BIN MCMxxxx.BIN SRAM SRM0000.BIN MEMO MEMxxxx.BIN RECIPE RECxxxx.CSV SAMPLE SMPxxxx.BIN SMPxxxx.CSV HDxxxx.JPG HDxxxx.BIN BBBBBBBB FFFFFFFF *1 These are access folders set by the V-SFT editor. Any folder name within eight 1-byte characters can be given.
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2-16 1. Operation of V7 Main Menu Transferring Screen Data from a CF Card 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]. When the lamp is red, it is selected. 3. Transfer selection Select [Display <-- Card], [Display --> Card] or [Display <--> Card].
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1. Operation of V7 Main Menu 2-17 2. Check the folder name, free space, and CF card file information. If the correct folder is selected, move to step 4. • Folder Name Indicates the name of the currently selected folder. The access folder that is set for screen data defaults. If there is no screen data, “DAT0000” defaults. • CF Card File Information Indicates the information of the currently selected folder. 3. To change to another folder, press the [Select Folder] switch.
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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]. Card Transfer Card Transfer CF Card File Infomation DSP0000.BIN Access 2002-03-20 10:58:56 Sys. Program : V710/V712 Version : 1.010 Font Date : ENGLISH Version : 1.300 / 1.010 / 1.000 I/F Driver : GENERAL Version : 1.240 Screen PLC Type : GENERAL Screen Comment : CF Card File Infomation Folder Name: AAAAAAAA Rest Size: 29437KB DSP0000.
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1. Operation of V7 Main Menu 2-19 When [Display --> Card] is Selected: 1. When [Display --> Card] is selected, the “Card Transfer” screen is displayed. Flashes during communication with the CF card. CF Card File Infomation Access DSP0000.BIN 2002-03-20 Sys. Program Version Font Date Version I/F Driver Version Screen PLC Type Screen Comment : V710/V712 : 1.010 : ENGLISH : 1.300 / 1.010 / 1.000 : GENERAL : 1.
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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. Flashes during communication with the CF card. Card Transfer CF Card File Infomation Access DSP0000.BIN 2002-03-20 Sys.
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1. Operation of V7 Main Menu 3-3. 2-21 Saving Backup Copies of SRAM In this section, the procedure for saving backup copies of the SRAM memory or V7EM-S (SRAM cassette) for battery replacement is explained. 2 1. Press the [SRAM] switch on the “Card Menu” screen. When the lamp is red, it is selected.
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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. Indicates the name of the currently selected file. SRAM Transfer CF Card File Infomation Access SRM0000.BIN2002-04-01 12:51:26 Folder Name:CCCCCCCC Rest Size: 29954KB Indicates the name of the currently selected folder. Indicates the free space in the CF card. Select Folder Display Card Start Used for checking or renaming folder names.
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1. Operation of V7 Main Menu 3-4. 2-23 Messages during Data Transfer If an error occurs during data transfer, the message window shown on the right is displayed. Data discrepant 2 OK Messages Contents Work normally finished. The specified operation has been concluded normally. CREC not connecting CREC is not connecting when selecting a modular jack. CREC Communication Error A communication error occurred between V7 and CREC when selecting a modular jack.
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2-24 4. 1. Operation of V7 Main Menu Ethernet The “Ethernet” screen is displayed by pressing the [IP Address (English)] switch on the initial screen when transferring screen data via Ethernet for the first time, or by pressing the [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.
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1. Operation of V7 Main Menu 2-25 Not Use Network Table When the network table is not set or is not used Not Use Network Table It is not used when the gate way or the sub-mask is zero. IP Address: 0 0 0 0 Gate Way: 0 0 0 0 0 0 0 0 Sub-mask: Port No. <- 10000 -> : The cursor moves only in these sections for settings. 1. Set the IP address. (If necessary, set the default gateway and subnet mask.) 2. Press the [Setting Finished] switch. The IP address is determined. 3.
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2-26 1. Operation of V7 Main Menu Connection with CU-03 on V7 IP address, gateway and sub-mask settings Moves back to the Main Menu screen. Ethernet Return Selects [10BASE-T] or [AUI]. It is not used when the gate way or the sub-mask is zero. IP Address: 0 0 0 0 Gate Way: 0 0 0 0 Sub-mask: 0 0 0 0 Port No.
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1. Operation of V7 Main Menu 5. 2-27 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. Main Menu V710iTD System Information SYSTEM PROG. VER. 1.000 [SRAM/Clock] switch Screen Data Information Size : 5111808 Indicates the message, such as “Battery not set” or “Brownout Battery.
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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. 3. The calendar data is updated as set. Initializing SRAM When the SRAM memory or cassette is initialized, the data contained is cleared. Double-check before initializing the SRAM memory or cassette. 1.
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1. Operation of V7 Main Menu 7. 2-29 Extended Function Setting When the [Editor: MJ1] switch on the Main Menu screen is pressed, the following “Extended Function Setting” screen appears. Set the baud rate to be used when transferring screen data between the V7 series and a modem. * The function switches and switches on the Main Menu screen are not valid for 15 seconds after the [Setting Finished] switch is pressed.
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2-30 2. 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.
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2. Function Switches 2-31 User-defined Function Switches [F1] to [F7] • 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.
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2-32 3. Errors Displayed on the V7 Series 3. Errors Displayed on the V7 Series There are five kinds of error messages displayed on the V series: 1. Communication Error 2. Check 3. Warning 4. SYSTEM ERROR 5. Touch switch is active 1. Communication Error Communication Error Time-Out Screen No. : Received Code No. : Communication Error Time-Out Retry Error Message Time-Out Parity Framing Overrun Check Code * When you go to [Comm.
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3. Errors Displayed on the V7 Series Error Message Contents 2-33 Solution An error code was sent to the link unit by the CPU of the PLC. Examine the CPU error code and solve the problem. Break The PLC’s SD (TXD) remains at the low level. Examine the connection between the PLC’s SD (TXD) and the V7’s RD (RXD). Invalid memory (applicable to MITSUBISHI CPU) You specified an address that exceeds the memory range of the PLC that you are linked to. Check the type and range of memory that you set.
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2-34 3. Errors Displayed on the V7 Series Error Messages for Network Communication • Ethernet Error Message Ethernet Error: XXXX Contents Solution The Ethernet status is saved at system memory address $s518 and a code other than “0” (normal) is received. XXXX: Error No. For the contents and solution to each error number, refer to “Chapter 4 Network Communications/Error Display.” • MELSECNET/10 Error Message Contents I/F Board Err The I/F unit for NET/10 has an error.
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3. Errors Displayed on the V7 Series 2-35 • OPCN-1 Error Message Contents Solution The I/F unit for OPCN-1 has an error. Contact your local distributor. Stat. No. out of range The port number set by a switch is not within the setting range (1 to 127). Specify the port number within the setting range. Network Link Error Cannot connect to the master station in the network. Check the condition of the master station (PLC). Check the network connection.
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2-36 2. 3. Errors Displayed on the V7 Series Check Error Message Contents Solution Screen No. Error There is no setting for the received screen. 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. Data has some error. Error : XX (XX : XXX) There is an error in the created screen data. “Error : XX (XX : XXX)” indicates the edited screen and the contents of the error.
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3. Errors Displayed on the V7 Series 4. 2-37 SYSTEM ERROR When a system error is detected, the following error screen is displayed.
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2-38 3. Errors Displayed on the V7 Series Please use this page freely.
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Serial Communications 1. 1 : 1 Connection 2. 1 : n Connection (Multi-drop) 3. n : 1 Connection (Multi-link 2) 4. n : 1 Connection (Multi-link) 5. Universal Serial Communications 6. V-Link 7. PLC2Way 8.
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1. 1 : 1 Connection 1. 3-1 1 : 1 Connection 1 : 1 Connection 3 • One set of the V7 series is connected to one PLC (1 : 1 connection). V7 series PLC ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ F1 F2 F3 F4 CN1 F5 F6 F7 POWER RS-232C or RS-422 (RS-485) • 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.
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3-2 1. 1 : 1 Connection Wiring Electric shock hazard Shut the power off before connecting cables. DANGER Prepare the communication cable with the PLC on your side. Refer to the following information for the cable. For more information on the connection to respective PLCs, refer to “Chapter 5 Connection to PLCs.” RS-232C Connection • 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.
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1. 1 : 1 Connection 3-3 RS-422/485 Connection • Connect twist-pair cables between +SD/−SD and +RD/−RD. • If the PLC has the terminal for signal ground (SG), be sure to connect a wire. • 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.
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3-4 1. 1 : 1 Connection PLC Selection Select the PLC that is connected. • Setting Position [System Setting] → [PLC Type] → [Select PLC Type] dialog Communication Parameter Setting The communication parameter setting is essential for successful communications between the V series ↔ PLC. Check the communication parameter setting on the PLC before making the setting on MONITOUCH. • Setting Position [System Setting] → [Comm. Parameter] → [Comm.
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1. 1 : 1 Connection 3-5 - Choose the action to be taken against communication errors. [Comm. Error Handling] Set error handling routine in the case that a communication error between the V7 series and the PLC occurs. [Stop] If any communication error has arisen, the communications are stopped. When restoring, use the Retry switch (found on the error screen of the V7 series). Supplemental Information: Polling “Polling” means to constantly monitor and check the state of the other station.
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3-6 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 [Read Area] (3 words or more)* - This is the area where commands from the PLC are received for screen display changes. Consecutive three words from the specified memory address are used as “read area.
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1. 1 : 1 Connection 3-7 • SCRN_No. (n + 2) Screen number command 15 14 13 12 11 0 0 10 09 08 07 06 05 04 03 02 01 00 0 Screen number 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. 3 Problem example: Serial Communications The screen display does not change when a screen number is specified from the PLC.
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3-8 1. 1 : 1 Connection [Write Area] (3 words)* 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.
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2. 1 : n Connection (Multi-drop) 2. 3-9 1 : n Connection (Multi-drop) 3 1 : n Connection Serial Communications One V7 series is connected to multiple PLCs. (Maximum connectable PLCs: 32) V7 series SYSTEM F1 F2 F3 F4 F5 F6 F7 POWER Maximum length (V7 series to the terminating PLC) = 500 m RS-422/RS-485 connection CN1 PLC1 PLC2 (n = 1~to32) 32) PLCn (n=1 PLC3 Wiring (RS-422/485) For connecting information, refer to the instruction manual for the PLC.
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3-10 2. 1 : n Connection (Multi-drop) V-SFT Setting The following settings must be made on the V-SFT editor. Only the points different from those described in “1 : 1 Connection/V-SFT Setting” (page 3-3) are explained here. PLC Selection Select the PLC that is connected. Check that the PLC to be connected is ready for 1 : n connection. Refer to the Appendix.
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3. n : 1 Connection (Multi-link 2) 3. 3-11 n : 1 Connection (Multi-link 2) 3 Multi-link 2 • 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. Only the master station makes communications directly with the PLC, and the slave stations make communications with the PLC via the master station.
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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. Refer to the V6 Hardware Specifications.
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3.
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3-14 3. n : 1 Connection (Multi-link 2) 2.
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3. n : 1 Connection (Multi-link 2) [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. Normally use the default setting (0). 3-15 PLC MONITOUCH Send delay time “t” [Total]♦ (2 to 4) Set the total number of the V7 series included in the multi-link 2 connection. Supplemental Information: [Retrials] in the [Detail] tab window of the [Comm.
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3-16 4. n : 1 Connection (Multi-link) 4. n : 1 Connection (Multi-link) Multi-link • One PLC is connected to multiple V7 series. (Maximum connectable V series: 32) V7 series No. 1 POWER V7 series No. 2 V7 series No. “n” (n = 1 to 32) SYSTEM SYSTEM SYSTEM SYSTEM F1 F1 F1 F1 F2 F2 F2 F2 F3 F3 F3 F3 F4 F4 F4 F4 F5 F5 F5 F6 F6 F6 F7 F7 F7 POWER CN1 V7 series No.
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4. n : 1 Connection (Multi-link) 3-17 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.
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3-18 4. n : 1 Connection (Multi-link) When connecting directly to the CPU of the MITSUBISHI QnA series: V7+TC485 V7+TC485 Signal Name V-MDD GD port V7+TC485 Signal Name Signal Name Pin No. Signal Name FG FG FG 1 +SD +SD +SD 2 -SD -SD -SD 3 +TxD +RD +RD +RD 4 +DSR -RD -RD -RD 5 +DTR SG SG SG 7 SG 15 -RxD RD terminating resistance (ON) RD terminating resistance (OFF) RD terminating resistance (OFF) * Use shielded twist-pair cables.
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4. n : 1 Connection (Multi-link) 3-19 [Total] (2 to 32) Set the total number of the V7 series included in the connection. [Retry Cycle] (×10) When the V7 series has a problem, it is temporarily removed from the communication targets, and the master station sends an inquiry for restoration every number of cycles specified for [Retry Cycle]. This setting does not affect the communication speed if no problem is occurring; however, if there is any problem, it does affect the communication speed.
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3-20 5. 5. Universal Serial Communications Universal Serial Communications Universal Serial Communications • A general purpose computer or an ASCII unit of the PLC (master station) controls the V7 series (slave station) using dedicated commands.
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6. V-Link 6. 3-21 V-Link V-Link Dedicated commands Read disc SYSTEM Write F1 F2 F3 F4 F5 RESET F6 F7 POWER PC PLC V7 series • 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.
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3-22 6. V-Link 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. V6-TMP * Notes on Use of V6-TMP There are six wires in the V6-TMP cable as shown on the right. The wires to be used are determined depending on the connecting method. For the wires not used, be sure to properly insulate with tape, etc.
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6. V-Link 3-23 RS-485 (V7 series: maximum 31 sets) RS-232C → RS485 conversion Computer a Terminal block Terminal block Terminal block }* }* b V6-TMP }* MJ2/1 V7 Local Port 2 MJ2/1 V7 Local Port 31 CN1 CN1 CN1 PLC PLC PLC * 0.5 m recommended (1.0 m maximum) Wiring example of above (a) and (b) a RS-485 Terminal Terminal Signal Name Signal Name Signal Name FG FG FG + + + − − − SG SG SG V7 Modular jack, 8-pin Signal Name b Pin No.
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3-24 6. V-Link V-SFT Setting The V-SFT settings required for V-Link are explained. V-Link Setting 1. Click [System Setting] → [V-Link Setting]. 2. The [V-Link Setting] dialog is displayed. 3. Check [ Use MJ port as V-Link] and make the setting for communications between the V7 series and the computer. [Refer to Modular] Select the modular jack to be used. Modular Jack 1/Modular Jack 2 [Baud Rate] 4800 / 9600 / 19200 / 38400 / 57600 / 115 kbps [Local Port] (1 to 31) Set the port number of the V7 series.
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6. V-Link 3-25 Protocol Read (with sum check and CR/LF) Read Command 3 Command * 1 Response (Normal communication) 2 2 2 18 S V7 A Memory data T local C X No. K 0 1 2 1 1 1 Bytes Memory E S C L data T U X M R F n 4 2 2 Serial Communications S V7 Number Read target E S C L Read of words T U T local memory command to read X M R F X No. setting 4 1 2 1 1 Bytes (When an error occurs) S V7 N E S C L T local A T U X No.
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3-26 6. V-Link Write (with sum check and CR/LF) Write Command Command * S V7 Number Write target Memory Write of words T local memory data command to write X No. setting 0 1 2 2 2 18 Memory E S C L T U data X M R F n 4 1 4 2 1 1 Bytes Response (Normal communication) S V7 A E S C L T local C T U X No. K X M R F 1 2 2 1 2 1 1 Bytes (When an error occurs) S V7 N E S C L T local A T U X No.
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6. V-Link 3-27 Data Items for Protocols • Transmission control code: 1 byte Signal Name Code (Hexadecimal) STX 02H Contents Start of transmission block ETX 03H End of transmission block CR 0DH Carriage return LF 0AH Line feed 3 • Command: 2 bytes Available commands are shown below.
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3-28 6. V-Link - Type Code (Hexadecimal) ASCII $u (user memory) 00H 3030 $s (system memory) 01H 3031 $L (non-volatile word memory) 02H 3032 $LD (non-volatile double-word memory) 03H 3033 Type V7 internal memory PLC memory Depends on the PLC to be used. Set the type number indicated for “Available Memory” of respective PLCs on the Hardware Specifications. Temperature control/PLC2 memory Depends on the PLC to be connected to the temperature controller and PLC2 function.
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6. V-Link 3-29 Sum Check Code (SUM): 2 bytes 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: 20 (data read) Address: 10 words from $u1000 (03E8H) When reading, a sum check will be performed as shown below.
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3-30 6. V-Link 1-byte Character Code List Upper 0 0 Lower 1 2 3 4 5 6 7 SP 0 @ P ’ p 1 ! 1 A Q a q 2 " 2 B R b r 3 # 3 C S c s 4 $ 4 D T d t 5 % 5 E U e u 6 & 6 F V f v 7 ’ 7 G W g w 8 ( 8 H X h x 9 ) 9 I Y i y : J Z j z [ k { l | A B + ; K C , < L = M ] m } ~ D E .
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7. PLC2Way 7. 3-31 PLC2Way PLC2Way RS-232C RS-422/RS-485 run SYSTEM F1 V7 series F2 CN1 F3 F4 F5 F6 F7 POWER MJ2/1 PLC (MITSUBISHI) RS-232C RS-422/RS-485 (2-wire connection) FA C TO RY ACE PROGRAMMER PLC (YOKOGAWA) • Connect one PLC to the CN1 connector, and the second PLC to the MJ port. • With the PLC2Way function, it is possible to communicate with PLCs without special program in the same way as 1 : 1 connection.
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3-32 7. PLC2Way • Data transfer between PLCs The PLC memory data can be transferred to another PLC in blocks using a macro command. Connection at the CN1 connector is described in “1. 1 : 1 Connection” to “4. n : 1 Connection (Multi-link).” Hereunder the PLC connection at the MJ port and settings required for PLC2Way connection are described. Limitations on Connection at the MJ Port There are some limitations on the connection at the MJ port. 1.
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7. PLC2Way 3-33 Wiring Two kinds of cables are available for PLC2Way connection at the MJ port. Cable connections are explained. Connecting method 1 (using MJ-D25) • This combination of cables (MJ-D25 + 1 : 1 connection cable) can be used either for RS-232C or RS-485 (RS-422) 2-wire connection. SYSTEM F1 F2 V7 series F3 F4 F5 F6 F7 POWER MJ2/1 MJ-D25 1 : 1 connection cable (RS-232C, RS-485/RS-422) run • With RS-485 (2-wire connection), a maximum of 31 PLCs can be connected.
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3-34 7. PLC2Way • Connection example with MITSUBISHI A1SJ71UC24-R4 (1 set) V7 series Modular jack, 8-pin FG PLC +SD/RD (Black) 1 SDA -SD/RD (Green) 2 SDB 5 RDA SG (Red) RDB SG * Use the shielded cable.
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7. PLC2Way 3-35 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. 2. Check [Use Temp. Control Network/PLC2Way Communication]. 3. Select the MJ port. Click the [Refer to Modular] button. The [Modular Jack] dialog is displayed. Select [Temp.
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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. Select the PLC model name and click [OK]. The message communication “Communication parameters are reset. OK?” is displayed. Click [Yes]. 5.
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7. PLC2Way 3-37 [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. Mode] (Trans. Mode 1/Trans. Mode 4) Trans. Mode 1: Without CR/LF Trans. Mode 4: With CR/LF 3 Serial Communications - OMRON: SYSMAC C, SYSMAC CV, SYSMAC CS1 [Trans. Mode] (Trans.
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3-38 7. PLC2Way Setting the PLC Memory Connected at the MJ Port 1. Open the [Memory Input] dialog for the part where the PLC memory connected at the MJ port should be allocated. 2. For the PLC memory connected at the MJ port, select [PLC2 Memory] for [Type] and specify the memory address. 3. Set the port number of the PLC. V-SFT Setting When the temperature control network/PLC2Way table is used: The following operations are available when the temperature control network/PLC2Way table is used. 1.
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7. PLC2Way 3-39 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.) 3 The [Temp. Network/PLC2Way Table Edit] window is opened. There are 32 tables of temperature control network/PLC2Way table No. 0 to 31.
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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. (2) Click. (3) Double-click. When (1) is clicked, the [Memory Input] dialog is displayed. Set the memory address to be read from the PLC connected at the MJ port.
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7. PLC2Way 3-41 When the data code in the target memory address is BCD: 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]; for data to be handled as bits, select [Bit].
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3-42 7. PLC2Way Data Sampling in the PLC2 Memory To perform data sampling in the PLC2 memory, the following settings are required. • Temperature control network/PLC2Way table editing • Buffering area setting • Memory card setting (when [SRAM] or [CF Card] is selected for [Store Target] in the [Buffering Area Setting] dialog) • Trend sampling or data sampling setting (setting for displaying data stored in the specified buffer) 1. Buffering area setting Click [System Setting] → [Buffering Area Setting].
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7. PLC2Way 3-43 • 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.
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3-44 7. PLC2Way 3. Trend sampling or data sampling setting To show data stored in the specified buffer number, trend sampling or data sampling must be set. Click the [Trend Sampling] or [Data Sampling] icon and make the setting. For more information, refer to the Reference Manual (Function). Trend sampling Data sampling 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.
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7. PLC2Way 3-45 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. 3 2) Select [Data File] for [Type]. Check [Use Temp. Control Net/PLC2Way]. Indirect Memory Designation It is possible to have access to the PLC2 memory using the indirect memory designation as a macro command.
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3-46 7. PLC2Way User Log Read for YOKOGAWA’s PLC The user log set with YOKOGAWA’s PLC “FA-M3/FA-M3R” connected at the MJ port can be read using the macro command TEMP_CTL. Macro [TEMP_CTL] This macro command controls the operation set in the memory addresses starting from the one specified for F0 for the number of words specified for F1.
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7. PLC2Way 3-47 Processing Cycle The processing cycle on the V7 series with the PLC2Way function is explained. Fig. a.
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3-48 7. PLC2Way Notes on Screen Data Transfer Temperature Control/PLC2 Program When using the temperature control network/PLC2Way communications, it is necessary to transfer the temperature control/PLC2 program to the V7 series. When the temperature control network/PLC2Way setting has been made, the program is automatically transferred to the V7 series together with screen data. When [ Temp.
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7. PLC2Way 3-49 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. 3 List Address Contents • • • $s730 Temperature controller/PLC2Way Station No. 00 status 731 Temperature controller/PLC2Way Station No. 01 status 732 Temperature controller/PLC2Way Station No. 02 status 733 Temperature controller/PLC2Way Station No.
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3-50 7. PLC2Way Details • $s730-761 The following status code for the PLC connected at the MJ port is stored. Code 0000H Contents Normal FFFFH Timeout 8001H Check code error 8002H Data error 800BH Error code received from the PLC connected at the MJ port Errors other than the above are stored as shown below.
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7. PLC2Way 3-51 • $s762 Periodical reading that is set in the [Temp. CTRL/PLC2Way Table Setting] dialog can be suspended. - [0]: Periodical reading is performed. - [Other than “0”]: Periodical reading is suspended. If periodical reading of the temperature control network/PLC2Way table is performed while the 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).
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3-52 8. Temperature Control Network 8. Temperature Control Network Temperature Control Network • Using the temperature control network, the V7 series can be connected to the temperature controller. With RS-232C, one PLC can be connected; with RS-485, a maximum of 31 temperature controllers can be connected.
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Network Communications 1. Ethernet 2. FL-net (OPCN-2) 3. MELSECNET/10 4. CC-Link 5. OPCN-1 6. T-LINK 7.
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1. Ethernet 1. 4-1 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).
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4-2 1. Ethernet - Screen data can be transferred from the V-SFT editor on the server to the V7 series. Server V-SFT Ethernet SYSTEM SYSTEM F1 F1 F2 F2 F3 F3 F4 F4 F5 F5 F6 F6 F7 F7 PROGRAMMER POWER Ethernet-ready PLC POWER RS-232C RS-485 • Communications between the Ethernet-ready PLC and the V7 series - The V7 series can communicate with the PLC on the Ethernet.
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1. Ethernet 4-3 Notes on Ethernet Communications For V7i: • To use Ethernet communications on V7i, use the 10BASE-T connector (LAN) provided on the unit. It is not possible to use Ethernet or FL-net (OPCN-2) communications by attaching the communication I/F unit CU-03 to V7i at the same time. When CU-03 is mounted, the 10BASE-T connector (LAN) provided on the unit cannot be used. • When using Ethernet communications with CU-03 mounted, the Web server or e-mail function cannot be used.
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4-4 1. Ethernet Nomenclature and Functions of Ethernet I/F Unit CU-03 1 2 3 ADR - LOW - HI FUSE 0V 10B-T RX TX LNK CI 6 AUI 4 +12V 5 1. LED Indicates the status of the communication. Name Contents On Off RX Data receive status Currently receiving Not receiving TX Data send status Currently sending Not sending LNK Link status (for 10BASE-T only) Normal Error Cl Collision Data collision Normal 2.
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1. Ethernet 4-5 Wiring 10BASE-T Connection • Cable connection diagram HUB UTP cable Straight or cross cable (For more information, refer the HUB specifications.
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4-6 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) Minimum node interval 2.5 m AUI cable (max 50 m) PLC Ethernet unit CU-03 Node Repeater V7 To extend the length or increase the number of nodes, use repeaters.
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1. Ethernet 4-7 • Transceiver 1 segment (max. 185 m, max. 30 nodes) Ethernet Minimum node interval 0.5 m AUI cable (max. 50 m) CU-03 PLC PLC unit*1 Repeater Ethernet unit To extend the segment distance or increase the number of nodes, use repeaters. V7 T-type connector Terminator Maximum segments: 5 Maximum network distance: 925 m Maximum network nodes: 100 sets Transceiver*2 Node*1 Node Use the transceiver equipped with the SQE TEST function.
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4-8 1. Ethernet Transferring Screen Data This section describes the procedure for transferring screen data from the V-SFT editor on the server to MONITOUCH via Ethernet. For the procedure using the V6-CP cable, refer to the 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.
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1. Ethernet 4-9 Transferring Screen Data from V-SFT Editor 1. Click the [Transfer] icon. The [Transfer] dialog is displayed. 4 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. The host name and the IP address are automatically entered. Click [OK]. Network Communications 2.
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4-10 1. Ethernet 5. Check the IP address, and click [PC->]. IP address for transfer target 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 • Network table editing In this section, the PLC type setting and communication parameter setting are explained.
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1. Ethernet 4-11 The contents of the system setting vary depending on the method selected. Check the connecting method and make the setting on the V-SFT editor. (A) Connecting to the PLC through RS-232C or RS-485 interface 1. PLC type setting Select [System Setting] → [PLC Type] and select the PLC to be used. 2. Communication parameter setting Select [System Setting] → [Comm. Parameter]. Attach a check mark ( ) to [Use Ethernet]. 4 Network Communications 3.
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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]. Select [System Setting] → [Network Table Setting] → [Ethernet]. The [Edit Network Table] window is displayed. Set the network table, and then go back to the communication parameter setting.
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1. Ethernet 4-13 • When communicating with multiple PLCs (same model) on the Ethernet, select [1 : n] for [Connection] on the [Detail] tab window. 4 [Memory Input] [Edit Network Table] Network Communications Set the port number (network table number) of the PLC in the [Memory Input] dialog for each part. For more information on the network table, refer to page 4-14.
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4-14 1. Ethernet V-SFT Setting (Network Table Editing) To enable Ethernet communications on the V7 series, the following network table setting is required on the 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.
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1. Ethernet 4-15 Starting and Closing • Starting Select [System Setting] → [Network Table Setting] → [Ethernet]. The network table edit window is displayed. [Close] button 4 Menu and Icons Each menu item corresponds to the icons as shown below. • [File] menu - Import Network Table Imports a network table saved as a file “∗.ntb.” - Export Network Table Exports a network table as a file “∗.ntb.
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4-16 1. Ethernet • [View] menu The items with a check mark are shown on the network table editing window. 1 2 1 3 3 2 Editing the Network Table 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. For the setting procedure of the IP address on the PLC, see the manual attached to each PLC.
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1. Ethernet 4-17 IP Address This is an address that is used for recognizing each node on the Ethernet and should be unique. The IP address is 32-bit data which consists of the network address and the host address and can be classified into A to C depending on the network size.
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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 10 Host address (16) Network address (14) 255. 11111111 255. 11111111 Network address 255.
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1. Ethernet 4-19 V-SFT Setting (Macro) This section explains the macro commands (SEND/EREAD/EWRITE) used for the 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.
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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. Usable Devices Internal Memory PLC Memory Memory Card Constant Indirect Designation Doubleword IP Address F0 F1 F2 F3 EWRITE: Write to memory EWRITE F0 F1 = F2 C: F3 Example: Macro command at the V7 (A) The macro command for V7 (A) to write data in V7 (A) to PLC (B) is shown below.
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1. Ethernet 4-21 [SEND] Words from the F0 memory are transferred to the server of the network table number specified for F2. F1 designates the number of words to be transferred. Usable Devices Internal Memory PLC Memory Memory Card Constant Indirect Designation Doubleword IP Address F0 F1 F2 SEND: Send to server 4 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.
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4-22 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).
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4-24 1.
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1. Ethernet 4-25 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. In the case of other than “0,” the wait status continues until the command completes, and then the next step of the macro is executed. $s515: Stores the result of macro execution.
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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” folder for Ethernet communications is included in the V-SFT CD-ROM. The [Ethernet] folder contains sample programs created using Visual C++, and the [VBA] folder contains those created using VBA.
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1. Ethernet 4-27 • 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.
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4-28 1.
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1. Ethernet 4-29 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 *dp addr *lpAddr DFlag • Return values Success Failure Error details Contents Word Count No. 1 1 No. 2 1 • • • • • • No. n 1 4 Word count to be read (max. 2000 words) Address of the device to be read (Refer to “Chapter 5 Connection to PLCs.
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4-30 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 *dp Target pointer of the data to be read Contents Word Count No. 1 2 No. 2 2 • • • • • • No. n 2 Wordcnt Word count to be read (max. 1000 words) DeviceType Address of the device to be read (Refer to “Chapter 5 Connection to PLCs.
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1. Ethernet 4-31 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 *dp DFlag • Return values Success Failure Error details Contents Word Count No. 1 1 No. 2 1 • • • • • • No. n 1 Word count to be transferred (max.
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4-32 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 *dp Wordcnt FileNo RecordNo addr *lpAddr DFlag • Return values Success Failure Error details Target block pointer Contents Word Count No. 1 1 No. 2 1 • • • • • • No. n 1 Word count to be transferred (max.
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1. Ethernet 4-33 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 DeviceType addr *lpAddr • Return values Success Failure Error details TRUE FALSE Get using HKEtn_GetLastError ().
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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 FileNo RecordNo addr BitNo *lpAddr • Return values Success Failure Error details Returns the bit status.
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1. Ethernet 4-35 Write 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 *sp addr *lpAddr DFlag • Return values Success Failure Error details Contents Word Count No. 1 1 No. 2 1 • • • • • • No. n 1 Word count to be transferred (max.
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4-36 1. Ethernet 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 *sp Wordcnt DeviceType addr *lpAddr DFlag • Return values Success Failure Error details Target block pointer Contents Word Count No. 1 2 No. 2 2 • • • • • • No.
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1. Ethernet 4-37 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 *sp DFlag • Return values Success Failure Error details Contents Word Count No. 1 1 No. 2 1 • • • • • • No. n 1 Word count to be transferred (max.
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4-38 1. Ethernet 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 *sp Wordcnt FileNo RecordNo addr *lpAddr DFlag • Return values Success Failure Error details Target block pointer Contents Word Count No. 1 1 No.
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1. Ethernet 4-39 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 addr OnFlag *lpAddr • Return values Success Failure Error details TRUE FALSE Get using HKEtn_GetLastError ().
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4-40 1. Ethernet 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.
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1. Ethernet 4-41 Others Functions Initialization Function int HKEtn_Init(unsigned short Port=10000,int Retry=3,int RecvTime=2,int RecvTime2=10) Creates a socket. Set 10000 or above. Number of send retrials Receive timeout Receive timeout 2 • Return values Success Failure Error details TRUE FALSE Get using HKEtn_GetLastError (). Receive Wait from V7 int HKEtn_Recvfrom(BYTE *dp,short *lpCnt) This function is retained internally until data is received from the V7 series.
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4-42 1. Ethernet Request Connection Information int HKEtn_GetInf(struct inf *lpinf,char *lpAddr) • Parameters *Ipinf *lpAddr • Return values Success Failure Error details All “0” IP address shown as a string of characters separated by dots Example: “192.168.XXX.XXX” TRUE FALSE Get using HKEtn_GetLastError (). Close processing int HKEtn_Close() Execute this function when ending HKEtn10.dll.
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1. Ethernet 4-43 Get Error Contents int HKEtn_GetLastError() • Error codes and solutions Code Contents Solution Undefined command (receive timeout) Check the command. −2 Undefined IP address Check the IP address. −3 Target station busy Reduce the frequency of communications. −4 Illegal packet bytes Check response processing at the target station. −5 Packet bytes exceed the maximum number. Reduce the send packet size. −6 Local mode error Check that the target station is in the RUN mode.
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4-44 1. Ethernet 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. Server (1) (2) Ethernet (3) User data format Transfer from the V7 series Item V7 series SEND (3) Bytes Packet bytes 2 + 2 + 1 + n bytes 2 Transaction No.
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1. Ethernet 4-45 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” (normal) is stored in system memory address $s518. • In the RUN mode Ethernet Error:XXXX Screen No. : Received Code No.
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4-46 1. Ethernet • System memory: $s518 No. 0 Contents Solution Normal 200 Failed in send request Check cable connection and network table setting of the target station. 201 Send error Check that the setting on the target station is consistent with the network table setting. 202 Internal port error The communication unit is in the older version or is faulty. 204 TCP connection over The number of connections reaches the maximum, and no more connection is possible.
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1. Ethernet 4-47 Errors during Macro Command Execution The execution result of macro commands SEND/EREAD/EWRITE is stored in system memory address $s515. • System memory address: $s515 (response to the request) Code 0 200 - 2000 Contents Solution Normal Refer to “Communication Errors.” −30 Timeout Check if an error is occurring to the target V7. −31 The number of words being sent exceeds the limit. Check the number of words that can be sent in macro editing.
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4-48 2. 2. FL-net (OPCN-2) FL-net (OPCN-2) FL-net (OPCN-2) • FL-net (OPCN-2) is an open FA network that FA Open Systems Promotion Forum (JOP) of the Manufacturing Science and Technology Center, an affiliated organization of the Ministry of Economy, Trade and Industry, has standardized. It is possible to connect FA controllers and computers, such as programmable controllers (PLCs) or NC controllers (CNCs), of different manufacturers as shown below for control and monitoring.
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3. MELSECNET/10 3. 4-49 MELSECNET/10 MELSECNET/10 • MELSECNET/10 is the network system that is developed by MITSUBISHI Electric Corporation. When the V7 series is equipped with the communication interface unit CU-05 is mounted, it can work as a NET/10 station (a sub-control station).
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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.
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4. CC-Link 4. 4-51 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.
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4-52 5. OPCN-1 5. 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.
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6. T-LINK 6. 4-53 T-LINK T-LINK • To use T-LINK communications on the V7 series, the communication interface unit “CU-01” must be mounted. When the V7 series is equipped with the communication interface unit CU-01, it becomes a T-LINK-ready device. • The V7 series that supports T-LINK communications can perform long-distance high-speed data transmission with the FUJI ELECTRIC’s PLC MICREX-F series.
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4-54 7. 7. PROFIBUS-DP PROFIBUS-DP PROFIBUS • PROFIBUS is an open field bus independent on the bender that is used for various applications in factory automation and process automation. PROFIBUS provides a communication protocol (communication profile) that supports system hierarchy, i.e. DP and FMS. • When the V7 series is equipped with the communication interface unit CU-04 is mounted, PROFIBUS-DP communications can be performed.
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Connection to PLCs 1. MITSUBISHI PLC* 2. OMRON PLC* 3. SHARP PLC* 4. HITACHI PLC 5. MATSUSHITA PLC 6. YOKOGAWA PLC* 7. YASKAWA PLC 8. Toyopuc PLC 9. FUJI PLC* 10. KOYO PLC 11. Allen-Bradley PLC 12. GE Fanuc PLC 13. TOSHIBA PLC 14. TOSHIBA MACHINE PLC 15. SIEMENS PLC 16. SHINKO PLC 17. SAMSUNG PLC 18. KEYENCE PLC 19. LG PLC 20. FANUC PLC 21. FATEK AUTOMATION PLC 22. IDEC PLC 23. MODICON PLC 24. YAMATAKE PLC 25. TAIAN PLC 26. SAIA PLC 27. MOELLER PLC 28. Telemecanique PLC 29.
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1. MITSUBISHI PLC 1.
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5-2 1.
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5-4 1. MITSUBISHI PLC Communication Setting The recommended communication parameter settings of the PLC and the V7 series is as follows: A Series Link Item Setting on PLC V7 Comm. Parameter Setting Baud rate 19200 bps 19200 bps Port 0 for both stations ×10, ×1 0 Parity Even Even RS-232C MODE1 Trans. Mode 1 RS-422 MODE5 Trans.
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1. MITSUBISHI PLC 5-5 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. FX Series CPU, FX2N Series CPU, FX1S Series CPU Communication parameters for the V7 series are automatically set. FX Series Link (A Protocol) Item Setting on PLC V7 Comm.
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5-6 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.
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5-8 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.
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5-10 1. MITSUBISHI PLC FX Series (A Protocol) Memory D (data register) TYPE Remarks 0 TN (timer/current value) 1 CN (counter/current value) 2 *1 32CN (counter 32 bits) 3 *2 M (internal relay) 4 S (state) 5 X (input relay) 6 Y (output relay) 7 TS (timer/contact) 8 CS (counter/contact) 9 Read only *1 CN200 to CN255 equals 32CN (32-bit counter). *2 For numerical data format where double-words can be used (Num.
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1. MITSUBISHI PLC 5-11 Wiring Wiring diagrams with the PLC are shown below. RS-232C Wiring Diagram 1 V7 (CN1) D-sub25pin(Male: 25-pin (male) ) D-sub PLC D-sub9pin(Male: 9-pin (male) ) D-sub 1 SD 2 CD 1 RD 3 RD 2 RS 4 SD 3 CS 5 SG 5 SG 7 DR 6 RS 7 CS 8 * Use shielded twist-pair cables.
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5-12 1. MITSUBISHI PLC Wiring Diagram 3 V7 (CN1) D-sub25pin(Male: 25-pin (male) ) D-sub PLC D-sub9pin(Female: 9-pin (female) ) D-sub FG 1 SD 2 RD 2 RD 3 SD 3 RS 4 SG 5 CS 5 SG 7 * Use shielded twist-pair cables. Wiring Diagram 4 V7 (CN1) D-sub25pin(Male: 25-pin (male) ) D-sub PLC D-sub25pin(Male: 25-pin (male) ) D-sub FG 1 SD 2 SD 2 RD 3 RD 3 RS 4 SG 7 CS 5 SG 7 * Use shielded twist-pair cables.
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5-14 1. MITSUBISHI PLC According to our noise tests, the attachment of a ferrite core improves noise voltage by 650 to 900 V and aids in preventing communication errors. • 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. Ferrite core V7 series A/QnA series CPU • Ferrite cores are optionally available. When ordering the ferrite core, state “GD-FC (ID: 8 mm, OD: 20 mm).
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1. MITSUBISHI PLC 5-15 A Link + Net10 • When the V7 series is connected to the standard type link unit on the CPU that is connected to the data link system or network system, the V7 series can have access to CPUs on NET II (/B) and NET/10. In this case, select “A Link + Net10” for [PLC Type] on the VSFT editor.
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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.
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1. MITSUBISHI PLC 5-17 V-MDD (Dual Port Interface) V-MDD is the add-on connector with two ports, specifically designed for the connector on MITSUBISHI’s A series, QnA series or FX series CPU programmer. MITSUBISHI A/QnA/FX series CPU A6GPP, A7PHP, computer, etc. G P P When connecting to the CPU of MITSUBISHI A/QnA series: Insert the connector on the backside into the CPU port directly or use the MDD-CPU (optional) cable for connection.
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5-18 1. MITSUBISHI PLC Ladder Transfer Function Up until now it was necessary to debug the data by removing and mounting two cables repeatedly as shown below when the V7 series is directly connected to MITSUBISHI’s QnHCPU equipped with only one RS-232C port.
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1. MITSUBISHI PLC 5-19 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).
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5-20 1. MITSUBISHI PLC Settings and Communications 1. PLC type setting Select [PLC Type] from the [System Setting] menu. Select [MITSUBISHI: QnH (Q) series CPU] in the [Select PLC Type] dialog. 2. PLC programming software port setting Select [Modular Jack] from the [System Setting] menu. Select [Ladder Tool] for [Modular Jack 1] or [Modular Jack 2] in the [Modular Jack] dialog.
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1. MITSUBISHI PLC 5-21 3. PLC programming software communication setting For communication specifications between the PLC programming software and the PLC, the communication parameter settings for the V7 series and the PLC can be used. Select [Comm. Parameter] from the [System Setting] menu and check the settings in the [Comm. Parameter] dialog. • Baud rate setting There will be no problem if the setting for [Baud Rate] in the [Comm.
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5-22 2. OMRON PLC 2.
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2. OMRON PLC Select PLC Type PLC Unit/Port CPU unit with built-in port (host link port) SYSMAC CV CV500, CV1000 CV2000 CVM1 Connection 5-23 PLC2Way RS-232C [Wiring Diagram 2] RS-422 [Wiring Diagram 6] RS-232C PORT1 [Wiring Diagram 3] CV500-LK201 PORT2 [Wiring Diagram 2] RS-422 PORT2 [Wiring Diagram 5] CPU unit (RS-232C port) CS1W-SCU21 SYSMAC CS1 SYSMAC CS1 DNA*2 CS1 Mounted on the CPU slot (CS1W-SCB21) 5 RS-422 [Wiring Diagram 7] *1 Replace the shell on the D-sub 25-pin side before use.
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5-24 2. OMRON PLC Communication Setting The recommended communication parameter settings of the PLC and the V7 series is as follows: Item Setting on PLC V7 Comm.
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2. OMRON PLC 5-25 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.
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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. Example: EM0 : 30000 Address Colon Bank number Wiring Wiring diagrams with the PLC are shown below.
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2. OMRON PLC 5-27 Wiring Diagram 3 V7 (CN1) D-sub 25pin(Male: 25-pin (male) ) D-sub PLC D-sub25pin(Male: 25-pin (male)) D-sub FG 1 SD 2 SD 2 RD 3 RD 3 RS 4 RS 4 CS 5 CS 5 SG 7 SG 7 * Use shielded twist-pair cables. 5 RS-422 V7 (CN1) D-sub25pin(Male: 25-pin (male) ) D-sub PLC D-sub9pin(Male: 9-pin (male)) D-sub FG 1 SG 7 RDB 1 +SD 12 SG 3 -SD 13 SDB 5 +RD 24 RDA 6 -RD 25 SDA 9 * Use shielded twist-pair cables.
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5-28 2. OMRON PLC Wiring Diagram 6 V7 (CN1) D-sub25pin(Male: 25-pin (male) ) D-sub PLC D-sub9pin(Male: 9-pin (male)) D-sub FG 1 SG 7 SG 9 +SD 12 RDB 8 -SD 13 RDA 6 +RD 24 SDB 2 -RD 25 SDA 1 RS 4 CS 5 * Use shielded twist-pair cables. Wiring Diagram 7 V7 (CN1) D-sub25pin(Male: 25-pin (male) ) D-sub PLC D-sub9pin(Male: 9-pin (male)) D-sub FG 1 +SD 12 RDB 8 -SD 13 RDA 6 +RD 24 SDB 2 -RD 25 SDA 1 * Use shielded twist-pair cables.
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2. OMRON PLC 5-29 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. CS1 (2-2) CS1 (1-2) CS1 (1-3) (2-1) Network No. 1 CS1 (1-1) Network No. 2 CS1 (2-3) CS1 (2-4) SYSTEM F1 F2 F3 F4 5 F5 F6 F7 POWER V7 series • Select [System Setting] → [Comm. Parameter] → [Detail] tab, and select [1 : n] for [Connection]. • Select [System Setting] → [Network Table Setting] → [PLC].
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5-30 3. SHARP PLC 3.
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3. SHARP PLC 5-31 JW Series: Link Unit Switch Setting Baud Rate: 19200 bps Switch Setting SW0 4 Command mode Contents SW1 1 Station address (lower half) Station address (upper half) SW2 0 SW3-1 OFF Not used SW3-2 ON 4-wire system SW3-3 OFF Not used SW3-4 ON Even parity SW4 0 SW7 ON Baud rate 0: 19200 1: 9600 2: 4800 3: 2400 4: 1200 5: 600 Terminating resistance provided The settings for communications with the V7 series should be made at the system memory as shown below.
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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. Memory TYPE X9XXX (register) 0 XXXXX (relay) 1 EXXXX (self diagnosis) 2 bXXXX (timer counter) 3 Fn (file register) 7 *1 File Register Setting on V-SFT Editor Enter “file number” + “: (colon)” + address in order.
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3. SHARP PLC 5-33 Wiring Wiring diagrams with the PLC are shown below. RS-232C Wiring Diagram 1 V7 (CN1) D-sub25pin(Male: 25-pin (male) ) D-sub PLC D-sub15pin(Male: 15-pin (male)) D-sub 1 SD 2 SXD 2 RD 3 RXD 3 RS 4 RTS 4 CS 5 CTS 5 SG 7 SG 7 12 14 * Use shielded twist-pair cables.
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5-34 3. SHARP PLC RS-422 Wiring Diagram 3 V7 (CN1) D-sub25pin(Male: 25-pin (male) ) D-sub PLC D-sub15pin(Male: 15-pin (male)) D-sub FG 1 +SD 12 +TXD 10 −SD 13 −TXD 11 +RD 24 +RXD 12 −RD 25 −RXD 13 * Use shielded twist-pair cables. Wiring Diagram 4 V7 (CN1) D-sub25pin(Male: 25-pin (male) ) D-sub FG 1 PLC +SD 12 L1 −SD 13 L2 +RD 24 L3 −RD 25 L4 * Use shielded twist-pair cables.
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4. HITACHI PLC 4.
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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 Setting on PLC V7 Comm.
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4. HITACHI PLC 5-37 HIDIC-H: Switch Setting Baud rate: MODE switch: 19200 bps To connect to both RS-232C and RS-422, set MODE switch to 9.
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5-38 4.
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4. HITACHI PLC 5-39 Wiring Wiring diagrams with the PLC are shown below. RS-232C Wiring Diagram 1 V7 (CN1) D-sub25pin(Male: 25-pin (male) ) D-sub PLC D-sub 15-pin (male)) D-sub 15pin(Male: FG 1 SD 2 SD 2 RD 3 RD 3 CS 5 RS 4 SG 7 CS 5 DR 7 PHL 8 SG 9 PV12 14 Connection to PLCs * Use shielded twist-pair cables.
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5-40 4. HITACHI PLC Wiring Diagram 3 PLC V7 (CN1) D-sub25pin(Male: 25-pin (male) ) D-sub D-sub 9-pin (female)) D-sub 9pin(Female: FG 1 CD 1 SD 2 RD 2 RD 3 SD 3 RS 4 ER 4 CS 5 SG 5 SG 7 DR 6 RS 7 CS 8 * Use shielded twist-pair cables. RS-422 Wiring Diagram 4 V7 (CN1) D-sub25pin(Male: 25-pin (male) ) D-sub FG 1 PLC +SD 12 TxDP -SD 13 TxDN +RD 24 RxDP -RD 25 RxDN * Use shielded twist-pair cables.
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5. MATSUSHITA PLC 5.
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5-42 5. MATSUSHITA PLC MEWNET: Link Unit Switch Setting Switch Setting Contents 1 ON 2 OFF 3 OFF 4 OFF Data length: 7 bits 5 ON With parity 6 ON Even 7 OFF Stop bit 1 8 OFF CS, CD invalid Same as that set on V7 (normally 19200 bps) 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.
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5. MATSUSHITA PLC 5-43 Wiring Wiring diagrams with the PLC are shown below. RS-232C Wiring Diagram 1 V7 (CN1) D-sub25pin(Male: 25-pin (male) ) D-sub PLC FG 1 SD 2 SD 2 RD 3 RD 3 RS 4 RS 4 CS 5 CS 5 SG 7 SG 7 CD 8 ER 9 D-sub9pin(Male: 9-pin (male) ) D-sub Wiring Diagram 2 V7 (CN1) D-sub25pin(Male: 25-pin (male) ) D-sub PLC FG 1 SD 2 SD 2 RD 3 RD 3 RS 4 RS 4 CS 5 CS 5 SG 7 SG 7 D-sub 9-pin (male)) D-sub 9pin(Male: * Use shielded twist-pair cables.
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5-44 5. MATSUSHITA PLC RS-422 Wiring Diagram 4 V7 (CN1) D-sub25pin(Male: 25-pin (male) ) D-sub FG 1 PLC +SD 12 + -SD 13 - +RD 24 -RD 25 * Use shielded twist-pair cables.
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6. YOKOGAWA PLC 6.
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5-46 6. YOKOGAWA PLC Communication Setting The recommended communication parameter settings of the PLC and the V7 series is as follows: FA500 Item Setting on PLC V7 Comm. Parameter Setting Baud rate 19200 bps 19200 bps Port 1 1 Parity Even Even Data length 7 7 Stop bit 1 1 Sumcheck Provided (fixed) − Terminal character None (fixed) − Protection function None (fixed) − Transmission code FA-M3/FA-M3R Item Setting on PLC V7 Comm.
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6. YOKOGAWA PLC 5-47 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.
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5-48 6. YOKOGAWA PLC Wiring Wiring diagrams with the PLC are shown below. RS-232C Wiring Diagram 1 V7 (CN1) D-sub25pin(Male: 25-pin (male) ) D-sub PLC FG 1 SD 2 SD 2 RD 3 RD 3 RS 4 RS 4 CS 5 CS 5 SG 7 DR 6 SG 7 ER 20 D-sub25pin(Male: 25-pin (male) ) D-sub * Use shielded twist-pair cables.
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6. YOKOGAWA PLC 5-49 RS-422 Wiring Diagram 3 V7 (CN1) D-sub25pin(Male: 25-pin (male) ) D-sub FG 1 PLC SG 7 RDB +SD 12 RDA -SD 13 SDB +RD 24 SDA -RD 25 SG * Use shielded twist-pair cables.
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5-50 7. YASKAWA PLC 7.
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7. YASKAWA PLC 5-51 CP9200SH/MP900 Item Setting on PLC V7 Comm.
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5-52 7. YASKAWA PLC Wiring Wiring diagrams with the PLC are shown below. RS-232C Wiring Diagram 1 V7 (CN1) D-sub25pin(Male: 25-pin (male) ) D-sub PLC FG 1 SD 2 TXD 2 RD 3 RXD 3 RS 4 RTS 4 CS 5 CTS 5 SG 7 DSR 6 SGND 7 DTR 9 D-sub9pin(Male: 9-pin (male)) D-sub * Use shielded twist-pair cables.
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7. YASKAWA PLC 5-53 Wiring Diagram 3 V7 (CN1) D-sub25pin(Male: 25-pin (male) ) D-sub CP217IF(CN1) 217IF(CN1/2) FG 1 SD 2 SD 2 RD 3 RD 3 RS 4 RS 4 CS 5 CS 5 SG 7 DR 6 SG 7 CD 9 D-sub9pin(Male: 9-pin (male)) D-sub * Use shielded twist-pair cables. Wiring Diagram 4 5 V7 (CN1) CP217IF (CN2) FG 1 SD 2 SD 2 RD 3 RD 3 RS 4 RS 4 CS 5 CS 5 SG 7 DSR 6 SG 7 CD 8 D-sub25pin(Male: 25-pin (male)) D-sub * Use shielded twist-pair cables.
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5-54 7. YASKAWA PLC Wiring Diagram 6 V7 (CN1) D-sub25pin(Male: 25-pin (male) ) D-sub PLC FG 1 SG 7 TXD+ 2 +SD 12 RXD+ 3 -SD 13 RXDRT 4 +RD 24 RXD- 6 -RD 25 SG 7 TXRD 8 TXD- 9 D-sub9pin(Male: 9-pin (male)) D-sub * Use shielded twist-pair cables. Wiring Diagram 7 V7 (CN1) D-sub25pin(Male: 25-pin (male) ) D-sub CP217IF (CN3) FG 1 +SD 12 RX- 1 -SD 13 RX+ 2 +RD 24 TX- 6 -RD 25 TX+ 7 MR-8 (male)) MR-8(Male: * Use shielded twist-pair cables.
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8. Toyopuc PLC 8. 5-55 Toyopuc PLC Available PLCs Select PLC Type PLC Unit/Port L2/PC2 series PC3J TOYOPUC Connection CMP-LINK RS-422 [Wiring Diagram 1] Communication Setting 5 The recommended communication parameter settings of the PLC and the V7 series is as follows: Setting on PLC V7 Comm. Parameter Setting Baud rate 19200 bps 19200 bps Port 0 0 Parity Transmission code Even Even Data length 7 (ASCII) 7 Stop bit 2 2 Set [Trans.
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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.
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8. Toyopuc PLC 5-57 Wiring Wiring diagrams with the PLC are shown below. RS-422 Wiring Diagram 1 V7 (CN1) D-sub25pin(Male: 25-pin (male) ) D-sub 1 PLC SG 7 + +SD 12 - -SD 13 0V +RD 24 -RD 25 * Use shielded twist-pair cables.
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5-58 9. FUJI PLC 9.
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9. FUJI PLC 5-59 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 Setting on PLC V7 Comm.
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5-60 9. FUJI 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.
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9.
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5-62 9. FUJI PLC Wiring Wiring diagrams with the PLC are shown below. RS-232C Wiring Diagram 1 V7 (CN1) D-sub25pin(Male: 25-pin (male) ) D-sub PLC FG 1 SD 2 SD 2 RD 3 RD 3 RS 4 RS 4 CS 5 CS 5 SG 7 DR 6 SG 7 CD 8 D-sub25pin(Male: 25-pin (male)) D-sub * Use shielded twist-pair cables.
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9. FUJI PLC 5-63 RS-485 Wiring Diagram 3 V7 (CN1) D-sub25pin(Male: 25-pin (male) ) D-sub FG 1 PLC SG 7 SDA +SD 12 SDB -SD 13 RDA +RD 24 RDB -RD 25 SG * Use shielded twist-pair cables. 5 RS-422 V7 (CN1) D-sub25pin(Male: 25-pin (male) ) D-sub FG 1 PLC SG 7 + +SD 12 - -SD 13 SG +RD 24 -RD 25 * Use shielded twist-pair cables.
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5-64 10. KOYO PLC 10.
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10.
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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.
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10.
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5-68 10. KOYO PLC G-01DM On-line/Off-line switch: Short plug 1: Short plug 2: On-line open RS-232C . . . . ENABLE RS-422. . . . . . DISENABLE SW1 DIP switch: No Setting 1 ON Contents 2 OFF 3 OFF 4 OFF 5 OFF 6 OFF 7 OFF 8 OFF 1: N 9 OFF Slave Unit No.
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10. KOYO PLC 5-69 Wiring Wiring diagrams with the PLC are shown below. RS-232C Wiring Diagram 1 V7 (CN1) D-sub25pin(Male: 25-pin (male) ) D-sub PLC FG 1 SD 2 SD 2 RD 3 RD 3 RS 4 RS 4 CS 5 CS 5 SG 7 SG 7 D-sub25pin(Male: 25-pin (male)) D-sub Wiring Diagram 2 V7 (CN1) D-sub25pin(Male: 25-pin (male) ) D-sub PLC FG 1 SD 2 TXD 2 RD 3 RXD 3 RS 4 RTS 4 CS 5 CTS 5 SG 7 0V 7 D-sub15pin(Male: 15-pin (male)) D-sub * Use shielded twist-pair cables.
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5-70 10. KOYO PLC RS-422 Wiring Diagram 3 V7 (CN1) D-sub25pin(Male: 25-pin (male) ) D-sub PLC FG 1 SG 7 0V 7 +SD 12 +RTS 10 −SD 13 −RTS 11 +RD 24 +CTS 12 −RD 25 −CTS 13 +OUT 14 −OUT 15 −IN 16 +IN 17 −IN 24 +IN 25 D-sub25pin(Male: 25-pin (male)) D-sub * Use shielded twist-pair cables.
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10. KOYO PLC 5-71 Wiring Diagram 6 V7 (CN1) D-sub25pin(Male: 25-pin (male) ) D-sub PLC *1 FG 1 SG 7 RXD− 6 +SD 12 0V 7 −SD 13 TXD+ 9 +RD 24 TXD− 10 −RD 25 RTS+ 11 RTS− 12 RXD+ 13 CTS+ 14 CTS− 15 D-sub15pin(Male: 15-pin (male)) D-sub * Use shielded twist-pair cables.
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5-72 11. Allen-Bradley PLC 11.
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11. Allen-Bradley PLC 5-73 Communication Setting The recommended communication parameter settings of the PLC and the V7 series is as follows: PLC-5 series Item Setting on PLC V7 Comm. Parameter Setting Baud rate 19200 bps 19200 bps Port 0 0 Parity Even Even RS-232C − − RS-422 1785-KE not supported − Data length 8 8 Stop bit 1 1 Transmission mode Transmission code Full duplex (fixed) − BCC (fixed) − Response NO (fixed) − Item Setting on PLC V7 Comm.
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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. PLC-5 Series Memory TYPE N (integer) 0 B (bit) 1 T.ACC (timer/current value) 2 T.PRE (timer/set value) 3 C.ACC (counter/current value) 4 C.
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11. Allen-Bradley PLC 5-75 SLC500 Series, Micro Logix 1000 Memory TYPE (integer) 0 B (bit) 1 T.ACC (timer/current value) 2 T.PRE (timer/set value) 3 C.ACC (counter/current value) 4 C.PRE (counter/set value) 5 I (input) 6 O (output) 7 S (status) 8 T (timer/control) 9 C (counter/control) 10 R (control) 11 R.LEN (control/data length) 12 R.
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5-76 11. Allen-Bradley PLC PLC-5 Series: Switch Setting 1785-KE SW1 (Protocol) No Setting 1 ON 2 OFF 3 OFF Contents BCC, even, no 4 ON Duplicated message unacceptable 5 OFF Handshaking signal ignored 6 ON Execution of diagnosis command SW2 (Port) Set the port number of 1785-KE. (This port should not be duplicated in the network.
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11. Allen-Bradley PLC 5-77 1770-KF2 SW1 (Protocol) No Setting 1 ON Contents 2 OFF Protocol 3 ON Duplicated message unacceptable 4 OFF Handshaking signal ignored 5 OFF Protocol Protocol SW2, SW3, SW4 (Port) Set the port number of 1770-KF2. (This port should not be duplicated in the network.) SW5 (Network link communication speed) Adjust to the settings of the network you are using. Switch Setting 2 ON ON Contents 57.
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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.
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11. Allen-Bradley PLC 5-79 Wiring Wiring diagrams with the PLC are shown below.
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5-80 11. Allen-Bradley PLC Wiring Diagram 3 V7 (CN1) PLC D-sub25pin(Male: 25-pin (male) ) D-sub D-sub 9-pin (female)) D-sub 9pin(Female: FG 1 DCD 1 SD 2 RXD 2 RD 3 TXD 3 RS 4 DTR 4 CS 5 COM 5 SG 7 DSR 6 RTS 7 CTS 8 * Use shielded twist-pair cables.
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11. Allen-Bradley PLC 5-81 RS-422 Wiring Diagram 6 V7 (CN1) D-sub25pin(Male: 25-pin (male) ) D-sub PLC FG 1 +SD 12 RTS 4 -SD 13 CTS 5 +RD 24 DSR 6 -RD 25 DCD 8 TDA 14 RDA 16 RDB 18 DTR 20 TDB 25 D-sub 25-pin (female)) D-sub 25pin(Female: Wiring Diagram 7 V7 (CN1) D-sub25pin(Male: 25-pin (male) ) D-sub PLC FG 1 SG 7 TXD- 1 +SD 12 RXD- 2 -SD 13 COM 5 +RD 24 RXD+ 6 -RD 25 TXD+ 9 D-sub9pin(Male: 9-pin (male) ) D-sub * Use shielded twist-pair cables.
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5-82 12. GE Fanuc PLC 12. GE Fanuc PLC Available PLCs Select PLC Type PLC Unit/Port Connection 90 series Series 90-30 Programmable coprocessor (PCM) RS-232C RS-485 [Wiring Diagram 1] [Wiring Diagram 2] 90 series (SNP-X) Series 90 micro Series 90-30 CPU port RS-485 [Wiring Diagram 3] Communication Setting The recommended communication parameter settings of the PLC and the V7 series is as follows: 90 Series Item Setting on PLC V7 Comm.
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12. GE Fanuc PLC 5-83 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.
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5-84 12. GE Fanuc PLC Wiring Wiring diagrams with the PLC are shown below. RS-232C Wiring Diagram 1 V7 (CN1) D-sub25pin(Male: 25-pin (male) ) D-sub PLC FG 1 SD 2 SD 2 RD 3 RD 3 RS 4 RS 4 CS 5 CS 5 SG 7 GND 7 D-sub25pin(Male: 25-pin (male) ) D-sub * Use shielded twist-pair cables.
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12. GE Fanuc PLC 5-85 Wiring Diagram 3 V7 (CN1) D-sub25pin(Male: 25-pin (male) ) D-sub PLC FG 1 SG 7 RTS(A) 6 +SD 12 0V 7 -SD 13 CTS(B’) 8 +RD 24 RT 9 -RD 25 RD(A’) 10 RD(B’) 11 SD(A) 12 SD(B) 13 RTS(B) 14 CTS(A’) 15 D-sub15pin(Male: 15-pin (male) ) D-sub Connection to PLCs * Use shielded twist-pair cables.
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5-86 13. TOSHIBA PLC 13. TOSHIBA PLC Available PLCs Select PLC Type PLC T series Unit/Port T series Computer link port on CPU Connection RS-422 [Wiring Diagram 1] Communication Setting The recommended communication parameter settings of the PLC and the V7 series is as follows: Item Setting on PLC V7 Comm.
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13. TOSHIBA PLC 5-87 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.
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5-88 14. TOSHIBA MACHINE PLC 14. TOSHIBA MACHINE PLC Available PLCs Select PLC Type PLC Unit/Port Connection Port on the CPU unit TC200 TC200 TCCMW TCCMO RS-232C [Wiring Diagram 1] − TCmini Communication Setting The recommended communication parameter settings of the PLC and the V7 series is as follows: Item Setting on PLC V7 Comm. Parameter Setting Baud rate 9600 bps 9600 bps Port 1 1 Available Memory The available memory setting range varies depending on the PLC model.
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14. TOSHIBA MACHINE PLC 5-89 Wiring Wiring diagrams with the PLC are shown below. RS-232C Wiring Diagram 1 V7 (CN1) D-sub25pin(Male: 25-pin (male) ) D-sub PLC FG 1 SD 2 TXD 2 RD 3 RXD 3 RS 4 DTR 4 CS 5 GND 5 SG 7 DSR 6 CTS 7 RTS 8 D-sub9pin(Female: 9-pin (female) ) D-sub Connection to PLCs * Use shielded twist-pair cables.
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5-90 15. SIEMENS PLC 15.
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15. SIEMENS PLC 5-91 S5, S5 V4 (S5-115U, S5-135U, S5-155U, S7-300, S7-400) Item Setting on PLC V7 Comm. Parameter Setting Baud rate 9600 bps 9600 bps − Even (fixed) Data length − 8 (fixed) Stop bit − 1 (fixed) Parity Transmission code S5 PG port Communication parameters are automatically set. 5 S7-200PPI Setting on PLC V7 Comm.
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5-92 15. SIEMENS PLC TI500/505, TI500/505 V4 Item Setting on PLC V7 Comm. Parameter Setting Baud rate 19200 bps 19200 bps − None (fixed) Data length − 8 (fixed) Stop bit − 1 (fixed) Parity Transmission code 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.
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15. SIEMENS PLC 5-93 S5 PG port Memory TYPE Remarks DB (data register) 0 Use memory address DB3 and later. I (input relay) 1 IW as word device Q (output relay) 2 QW as word device F (flag/internal relay) 3 FW as word device T (timer/current value) 4 C (counter/current value) 5 AS (absolute address) 6 The assigned memory is indicated when editing the screen as shown on the right.
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5-94 15.
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15. SIEMENS PLC 5-95 Wiring Wiring diagrams with the PLC are shown below. RS-232C Wiring Diagram 1 V7 (CN1) D-sub25pin(Male: 25-pin (male) ) D-sub PLC FG 1 SD 2 TXD 2 RD 3 RXD 3 RS 4 GND 7 CS 5 SG 7 D-sub 25-pin (male) D-sub 25pin(Male: ) 5 Connection to PLCs * Use shielded twist-pair cables.
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5-96 15. SIEMENS PLC Wiring Diagram 4 V7 (CN1) PLC D-sub25pin(Male: 25-pin (male) ) D-sub D-sub 9-pin (female)) D-sub 9pin(Female: FG 1 DCD 1 SD 2 RXD 2 RD 3 TXD 3 RS 4 DTR 4 CS 5 SG 5 SG 7 DSR 6 RTS 7 CTS 8 * Use shielded twist-pair cables.
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15. SIEMENS PLC 5-97 Wiring Diagram 7 V7 (CN1) D-sub25pin(Male: 25-pin (male) ) D-sub PLC FG 1 SG 7 SG 5 +SD 12 +TxD/RxD 3 −SD 13 −TxD/RxD 8 +RD 24 −RD 25 D-sub 9-pin (male) D-sub 9pin(Male: ) * Use shielded twist-pair cables.
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5-98 16. SHINKO PLC 16. SHINKO PLC Available PLCs Select PLC Type PLC Unit/Port SELMART SELMART-100 and later Version O1M2-UCI-6 Connection RS-232C [Wiring Diagram 1] Communication Setting The recommended communication parameter settings of the PLC and the V7 series is as follows: Item Setting on PLC V7 Comm.
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16. SHINKO PLC 5-99 Wiring Wiring diagrams with the PLC are shown below. RS-232C Wiring Diagram 1 V7 (CN1) D-sub25pin(Male: 25-pin (male) ) D-sub PLC FG 1 SD 2 SD 2 RD 3 RD 3 RS 4 RS 4 CS 5 CS 5 SG 7 SG 7 D-sub 25-pin (male) D-sub 25pin(Male: ) Connection to PLCs * Use shielded twist-pair cables.
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5-100 17. SAMSUNG PLC 17. SAMSUNG PLC Available PLCs Select PLC Type PLC Connection SPC series SPC series RS-232C RS-422/485 [Wiring Diagram 1] [Wiring Diagram 2] Communication Setting The recommended communication parameter settings of the PLC and the V7 series is as follows: Item Setting on PLC V7 Comm.
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17. SAMSUNG PLC 5-101 Wiring Wiring diagrams with the PLC are shown below. RS-232C Wiring Diagram 1 V7 (CN1) D-sub25pin(Male: 25-pin (male) ) D-sub PLC FG 1 SD 2 TXD 2 RD 3 RXD 3 RS 4 GND 5 CS 5 SG 7 D-sub 9-pin (male) D-sub 9pin(Male: ) 5 Connection to PLCs * Use shielded twist-pair cables.
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5-102 18. KEYENCE PLC 18.
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18. KEYENCE PLC 5-103 Communication Setting The recommended communication parameter settings of the PLC and the V7 series is as follows: KZ Series Link Item Setting on PLC V7 Comm.
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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 Setting on PLC V7 Comm. Parameter Setting Port 0 0 Baud rate 38400 bps 38400 bps*1 Even − Data length 8 − Stop bit 1 − − − Parity Transmission code Terminating resistance *1 Maximum baud rate available is 38400 bps. If a higher baud rate is selected, communications are performed at 9600 bps. KV10/24 CPU Item Setting on PLC V7 Comm.
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18.
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5-106 18. KEYENCE PLC Wiring Wiring diagrams with the PLC are shown below. RS-232C Wiring Diagram 1 V7 (CN1) D-sub25pin(Male: 25-pin (male) ) D-sub PLC FG 1 SD 2 SD 2 RD 3 RD 3 RS 4 RS 4 CS 5 CS 5 SG 7 SG 7 D-sub25pin(Male: 25-pin (male)) D-sub * Use shielded twist-pair cables. Wiring Diagram 2 V7 (CN1) D-sub25pin(Male: 25-pin (male) ) D-sub FG 1 PLC SD 2 SD RD 3 RD RS 4 SG CS 5 SG 7 * Use shielded twist-pair cables.
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18. KEYENCE PLC 5-107 Wiring Diagram 4 V7 (CN1) D-sub25pin(Male: 25-pin (male) ) D-sub PLC FG 1 SD 2 SD 2 RD 3 RD 3 RS 4 RS 4 CS 5 CS 5 SG 7 DR 6 SG 7 CD 8 D-sub 25-pin (male) D-sub 25pin(Male: ) * Use shielded twist-pair cables. Wiring Diagram 5 5 V7 (CN1) PLC FG 1 SD 2 3 RD RD 3 4 SG RS 4 5 SD CS 5 SG 7 Modular jack, 6-pin 123456 * Use shielded twist-pair cables.
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5-108 19. LG PLC 19.
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19. LG PLC 5-109 MASTER-KxxxS Item Setting on PLC V7 Comm. Parameter Setting Baud rate 38400 bps 38400 bps None (fixed) − Data length 8 (fixed) − Stop bit 1 (fixed) − Parity Transmission code MASTER-KxxxS CNET / GLOFA CNET Item Setting on PLC V7 Comm. Parameter Setting Baud rate 38400 bps 38400 bps Parity Transmission code Not provided Not provided Data length 8 8 Stop bit 1 1 The available memory setting range varies depending on the PLC model.
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5-110 19.
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19. LG PLC 5-111 GLOFA CNET Memory TYPE 0 Remarks M (internal memory) MW as word device Q (output) 1 QW as word device I (input) 2 IW as word device Wiring Wiring diagrams with the PLC are shown below. RS-232C 5 Wiring Diagram 1 V7 (CN1) PLC FG 1 SD 2 RXD 2 RD 3 TXD 3 SG 7 GND 5 D-sub9pin(Male: 9-pin (male)) D-sub * Use shielded twist-pair cables.
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5-112 19. LG PLC Wiring Diagram 4 V7 (CN1) PLC D-sub25pin(Male: 25-pin (male) ) D-sub D-sub25pin(Male: 25-pin (male)) D-sub FG 1 CD 1 SD 2 RXD 2 RD 3 TXD 3 RS 4 DTR 4 CS 5 GND 5 SG 7 DSR 6 RTS 7 CTS 8 * Use shielded twist-pair cables. RS-422 Wiring Diagram 5 V7 (CN1) D-sub25pin(Male: 25-pin (male) ) D-sub PLC FG 1 +SD 12 SD+ 10 -SD 13 SD- 11 +RD 24 -RD 25 D-sub25pin(Male: 25-pin (male)) D-sub * Use shielded twist-pair cables.
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20. FANUC PLC 5-113 20. FANUC PLC Available PLCs Select PLC Type PLC Unit/Port Power Mate-Model H/D Power Mate Power Mate i Model H/D Connection Port on the CPU unit (JD14) RS-422 [Wiring Diagram 2] JD42 RS-232C [Wiring Diagram 1] JD40 RS-422 [Wiring Diagram 3] 5 Communication Setting Item Setting on PLC V7 Comm.
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5-114 20. FANUC PLC Wiring Wiring diagrams with the PLC are shown below. RS-232C Wiring Diagram 1 V7 (CN1) D-sub25pin(Male: 25-pin (male) ) D-sub PLC FG 1 SD 2 RDB 9 RD 3 SDB 17 RS 4 0V 18 CS 5 SG 7 JD42 *1 * Use shielded twist-pair cables. *1 Half-pitch 20-pin RS-422 Wiring Diagram 2 V7 (CN1) D-sub25pin(Male: 25-pin (male) ) D-sub PLC FG 1 SG 7 RDB 1 +SD 12 RDA 2 −SD 13 SDB 3 +RD 24 SDA 4 −RD 25 0V 11 JD14 * Use shielded twist-pair cables.
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20. FANUC PLC 5-115 Wiring Diagram 3 V7 (CN1) D-sub25pin(Male: 25-pin (male) ) D-sub PLC FG 1 SG 7 RXD 1 +SD 12 *RXD 2 -SD 13 TXD 3 +RD 24 *TXD 4 -RD 25 RTS 5 *RTS 6 CTS 7 *CTS 8 0V 12 JD40 *1 Half-pitch 20-pin 5 Connection to PLCs * Use shielded twist-pair cables.
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5-116 21. FATEK AUTOMATION PLC 21. FATEK AUTOMATION PLC Available PLCs Select PLC Type PLC Unit/Port Connection RS-232 FACON FB series FACON FB series FB-DTBR RS-422 [Wiring Diagram 1] [Wiring Diagram 2] [Wiring Diagram 3] Communication Setting The recommended communication parameter settings of the PLC and the V7 series is as follows: Item Setting on PLC V7 Comm.
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21. FATEK AUTOMATION PLC 5-117 Wiring Wiring diagrams with the PLC are shown below. RS-232C Wiring Diagram 1 V7 (CN1) D-sub25pin(Male: 25-pin (male) ) D-sub PLC D-sub15pin(Male:凸) 15-pin (male) D-sub 1 SD 2 RXD1 1 RD 3 TXD1 2 RS 4 RTS1 3 CS 5 CTS1 4 SG 7 SG 6 * Use shielded twist-pair cables.
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5-118 22. IDEC PLC 22. IDEC PLC Available PLCs Select PLC Type PLC MICRO3 Unit/Port MICRO3 Loader port Connection RS-232C IDEC cable “FC2A-KC1” or IDEC cable “FC2A-KC2”*+ [Wiring Diagram 1] * 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.
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22. IDEC PLC 5-119 Wiring Wiring diagrams with the PLC are shown below. RS-232C Wiring Diagram 1 V7 (CN1) PLC D-sub25pin(Male: 25-pin (male)) D-sub D-sub9pin(Male: 9-pin (male) ) D-sub 1 CD 1 SD 2 SD 2 RD 3 RD 3 RS 4 ER 4 CS 5 GND 5 SG 7 DR 6 RS 7 CS 8 * Use shielded twist-pair cables.
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5-120 23. MODICON PLC 23. MODICON PLC Available PLCs Select PLC Type PLC Modbus RTU Unit/Port Modbus RTU Modbus Connection RS-232C [Wiring Diagram 1] Communication Setting The recommended communication parameter settings of the PLC and the V7 series is as follows: Item Setting on PLC V7 Comm.
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23. MODICON PLC 5-121 Wiring Wiring diagrams with the PLC are shown below. RS-232C Wiring Diagram 1 V7 (CN1) D-sub25pin(Male: 25-pin (male) ) D-sub PLC D-sub 9-pin (male)) D-sub 9pin(Male: 1 SD 2 RX 2 RD 3 TX 3 RS 4 DTR 4 CS 5 GND 5 SG 7 DSR 6 RTS 7 CTS 8 * Use shielded twist-pair cables.
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5-122 24. YAMATAKE PLC 24. YAMATAKE PLC Available PLCs Select PLC Type PLC MX series Unit/Port MX200/MX50 ASCII connector Connection RS-232C [Wiring Diagram 1] Communication Setting The recommended communication parameter settings of the PLC and the V7 series is as follows: Item Setting on PLC V7 Comm.
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24. YAMATAKE PLC 5-123 Wiring Wiring diagrams with the PLC are shown below. RS-232C Wiring Diagram 1 V7 (CN1) D-sub25pin(Male: 25-pin (male) ) D-sub PLC D-sub25pin(Male: 25-pin (male)) D-sub 1 SD 2 SD 2 RD 3 RD 3 RS 4 RS 4 CS 5 CS 5 SG 7 SG 7 * Use shielded twist-pair cables.
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5-124 25. TAIAN PLC 25. TAIAN PLC Available PLCs Select PLC Type PLC TP02 Unit/Port TP02 Connection Communication Port (T/R+, T/R−) RS-422 [Wiring Diagram 1] MMI Port (9pin) (4-5 Short Computer Link Mode) RS-422 [Wiring Diagram 2] Communication Setting The recommended communication parameter settings of the PLC and the V7 series is as follows: Item Setting on PLC V7 Comm.
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25. TAIAN PLC 5-125 Wiring Wiring diagrams with the PLC are shown below. RS-422 Wiring Diagram 1 V7 (CN1) D-sub25pin(Male: 25-pin (male) ) D-sub 1 SG 7 PLC +SD 12 T/R+ -SD 13 T/R- +RD 24 SHLD -RD 25 5 * Use shielded twist-pair cables. Wiring Diagram 2 V7 (CN1) D-sub25pin(Male: 25-pin (male) ) D-sub PLC FG 1 SG 7 RX+ 2 +SD 12 TX+ 3 -SD 13 PG/COM 4 +RD 24 GND 5 -RD 25 RX- 7 TX- 8 D-sub9pin(Male: 9-pin (male)) D-sub * Use shielded twist-pair cables.
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5-126 26. SAIA PLC 26. SAIA PLC Available PLCs Select PLC Type PLC PCD Unit/Port PCD1 Connection PGU port RS-232C [Wiring Diagram 1] PCD7.F120 RS-232C [Wiring Diagram 2] PCD4.F110 RS-485 [Wiring Diagram 3] Communication Setting The recommended communication parameter settings of the PLC and the V7 series is as follows: Item Setting on PLC V7 Comm.
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26. SAIA PLC 5-127 Wiring Wiring diagrams with the PLC are shown below. RS-232C Wiring Diagram 1 V7 (CN1) D-sub 25-pin (male) PLC FG 1 SD 2 RX 2 RD 3 TX 3 SG 7 GND 5 PGU port 5 * Use shielded twist-pair cables. Connection to PLCs Wiring Diagram 2 V7 (CN1) D-sub 25-pin (male) PLC FG 1 PCD7.F120 SD 2 TX 11 RD 3 RX 12 SG 7 GND 10 * Use shielded twist-pair cables.
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5-128 27. MOELLER PLC 27. MOELLER PLC Available PLCs Select PLC Type PLC PS4 Connection PS4-201-MM1 (PRG port) RS-232C [Wiring Diagram 1] + ZB4-303-KB1 Cable made by MOELLER Communication Setting The recommended communication parameter settings of the PLC and the V7 series is as follows: Item Setting on PLC V7 Comm.
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27. MOELLER PLC 5-129 Wiring Wiring diagrams with the PLC are shown below. RS-232C Wiring Diagram 1 V7 (CN1) D-sub 25-pin (male) PLC FG 1 SD 2 2 TX RD 3 3 RX SG 7 5 SG D-sub 9-pin (male) 5 * Use shielded twist-pair cables.
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5-130 28. Telemecanique PLC 28. Telemecanique PLC Available PLCs Select PLC Type PLC TSX Micro Connection TSX Micro RS-485 [Wiring Diagram 1] Communication Setting The recommended communication parameter settings of the PLC and the V7 series is as follows: Item Setting on PLC V7 Comm.
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28. Telemecanique PLC 5-131 Wiring Wiring diagrams with the PLC are shown below. RS-485 Wiring Diagram 1 V7 (CN1) D-sub 25-pin (male) PLC FG 1 +SD 12 D+ 1 −SD 13 D− 2 +RD 24 −RD 25 MiniDIN 9-pin (male) 5 * Use shielded twist-pair cables.
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5-132 29. Automationdirect PLC 29.
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29. Automationdirect PLC 5-133 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.
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5-134 29. Automationdirect PLC Wiring Diagram 2 V7 (CN1) D-sub 25-pin (male) PLC FG 1 SD 2 SG 1 RD 3 RxD 3 RS 4 TxD 4 CS 5 SG 7 Modular connector 6-pin 654321 * Use shielded twist-pair cables. Wiring Diagram 3 V7 (CN1) D-sub 25-pin (male) PLC *1 D-sub 15-pin (male) FG 1 SD 2 TXD 2 RD 3 RXD 3 RS 4 RTS 4 CS 5 CTS 5 SG 7 0V 7 * Use shielded twist-pair cables.
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29. Automationdirect PLC 5-135 RS-422 Wiring Diagram 5 V7 (CN1) D-sub 25-pin (male) PLC FG 1 SG 7 SG 7 +SD 12 RXD+ 9 −SD 13 RXD− 10 +RD 24 CTS1+ 11 −RD 25 TXD1+ 14 TXD1− 16 RTS1+ 18 RTS1− 19 CTS1+ 23 D-sub 25-pin (male) * Use shielded twist-pair cables. V7 (CN1) D-sub 25-pin (male) PLC FG 1 SG 7 SG 7 +SD 12 TXD3+ 12 −SD 13 TXD3− 13 +RD 24 RXD3+ 24 −RD 25 RXD3− 25 D-sub 25-pin (male) * Use shielded twist-pair cables.
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5-136 29. Automationdirect PLC Please use this page freely.
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